diff options
Diffstat (limited to 'lib/dialyzer/src')
23 files changed, 17842 insertions, 0 deletions
diff --git a/lib/dialyzer/src/Makefile b/lib/dialyzer/src/Makefile new file mode 100644 index 0000000000..ffdc0c6dcd --- /dev/null +++ b/lib/dialyzer/src/Makefile @@ -0,0 +1,159 @@ +# +# %CopyrightBegin% +# +# Copyright Ericsson AB 2006-2009. All Rights Reserved. +# +# The contents of this file are subject to the Erlang Public License, +# Version 1.1, (the "License"); you may not use this file except in +# compliance with the License. You should have received a copy of the +# Erlang Public License along with this software. If not, it can be +# retrieved online at http://www.erlang.org/. +# +# Software distributed under the License is distributed on an "AS IS" +# basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +# the License for the specific language governing rights and limitations +# under the License. +# +# %CopyrightEnd% +# +#============================================================================= +# +# File: lib/dialyzer/src/Makefile +# Authors: Kostis Sagonas and Tobias Lindahl +# +#============================================================================= + +include $(ERL_TOP)/make/target.mk +include $(ERL_TOP)/make/$(TARGET)/otp.mk + +# ---------------------------------------------------- +# Application version +# ---------------------------------------------------- +include ../vsn.mk +VSN=$(DIALYZER_VSN) + +# ---------------------------------------------------- +# Release directory specification +# ---------------------------------------------------- +RELSYSDIR = $(RELEASE_PATH)/lib/dialyzer-$(VSN) + +# ---------------------------------------------------- +# Orientation information +# ---------------------------------------------------- +DIALYZER_DIR = $(ERL_TOP)/lib/dialyzer + +# ---------------------------------------------------- +# Target Specs +# ---------------------------------------------------- +MODULES = \ + dialyzer \ + dialyzer_analysis_callgraph \ + dialyzer_callgraph \ + dialyzer_cl \ + dialyzer_cl_parse \ + dialyzer_codeserver \ + dialyzer_contracts \ + dialyzer_dataflow \ + dialyzer_dep \ + dialyzer_explanation \ + dialyzer_gui \ + dialyzer_gui_wx \ + dialyzer_options \ + dialyzer_plt \ + dialyzer_races \ + dialyzer_succ_typings \ + dialyzer_typesig \ + dialyzer_utils + +HRL_FILES= dialyzer.hrl dialyzer_gui_wx.hrl +ERL_FILES= $(MODULES:%=%.erl) +INSTALL_FILES= $(MODULES:%=$(EBIN)/%.$(EMULATOR)) $(APP_TARGET) $(APPUP_TARGET) +TARGET_FILES= $(INSTALL_FILES) + +APP_FILE= dialyzer.app +APP_SRC= $(APP_FILE).src +APP_TARGET= $(EBIN)/$(APP_FILE) + +APPUP_FILE= dialyzer.appup +APPUP_SRC= $(APPUP_FILE).src +APPUP_TARGET= $(EBIN)/$(APPUP_FILE) + +# ---------------------------------------------------- +# FLAGS +# ---------------------------------------------------- + +ifeq ($(NATIVE_LIBS_ENABLED),yes) +ERL_COMPILE_FLAGS += +native +endif +ERL_COMPILE_FLAGS += +warn_exported_vars +warn_unused_import +warn_untyped_record +warn_missing_spec + +# ---------------------------------------------------- +# Targets +# ---------------------------------------------------- + +debug opt: $(TARGET_FILES) + +docs: + +clean: + rm -f $(TARGET_FILES) + rm -f core + +# ---------------------------------------------------- +# Special Build Targets +# ---------------------------------------------------- + +$(EBIN)/dialyzer_cl_parse.$(EMULATOR): dialyzer_cl_parse.erl ../vsn.mk + erlc -W $(ERL_COMPILE_FLAGS) -DVSN="\"v$(VSN)\"" -o$(EBIN) dialyzer_cl_parse.erl + +$(EBIN)/dialyzer_plt.$(EMULATOR): dialyzer_plt.erl ../vsn.mk + erlc -W $(ERL_COMPILE_FLAGS) -DVSN="\"v$(VSN)\"" -o$(EBIN) dialyzer_plt.erl + +$(EBIN)/dialyzer_gui.$(EMULATOR): dialyzer_gui.erl ../vsn.mk + erlc -W $(ERL_COMPILE_FLAGS) -DVSN="\"v$(VSN)\"" -o$(EBIN) dialyzer_gui.erl + +$(EBIN)/dialyzer_gui_wx.$(EMULATOR): dialyzer_gui_wx.erl ../vsn.mk + erlc -W $(ERL_COMPILE_FLAGS) -DVSN="\"v$(VSN)\"" -o$(EBIN) dialyzer_gui_wx.erl + +$(APP_TARGET): $(APP_SRC) ../vsn.mk + sed -e 's;%VSN%;$(VSN);' $< > $@ + +$(APPUP_TARGET): $(APPUP_SRC) ../vsn.mk + sed -e 's;%VSN%;$(VSN);' $< > $@ + +# --------------------------------------------------------------------- +# dependencies -- I wish they were somehow automatically generated +# --------------------------------------------------------------------- + +$(EBIN)/dialyzer.beam: dialyzer.hrl +$(EBIN)/dialyzer_analysis_callgraph.beam: dialyzer.hrl +$(EBIN)/dialyzer_callgraph.beam: dialyzer.hrl +$(EBIN)/dialyzer_cl.beam: dialyzer.hrl ../../kernel/include/file.hrl +$(EBIN)/dialyzer_cl_parse.beam: dialyzer.hrl +$(EBIN)/dialyzer_codeserver.beam: dialyzer.hrl +$(EBIN)/dialyzer_contracts.beam: dialyzer.hrl +$(EBIN)/dialyzer_dataflow.beam: dialyzer.hrl +$(EBIN)/dialyzer_dep.beam: dialyzer.hrl +$(EBIN)/dialyzer_explanation.beam: dialyzer.hrl +$(EBIN)/dialyzer_gui.beam: dialyzer.hrl +$(EBIN)/dialyzer_gui_wx.beam: dialyzer.hrl dialyzer_gui_wx.hrl +$(EBIN)/dialyzer_options.beam: dialyzer.hrl +$(EBIN)/dialyzer_plt.beam: dialyzer.hrl +$(EBIN)/dialyzer_races.beam: dialyzer.hrl +$(EBIN)/dialyzer_succ_typings.beam: dialyzer.hrl +$(EBIN)/dialyzer_typesig.beam: dialyzer.hrl +$(EBIN)/dialyzer_utils.beam: dialyzer.hrl + +# ---------------------------------------------------- +# Release Target +# ---------------------------------------------------- +include $(ERL_TOP)/make/otp_release_targets.mk + +release_spec: opt + $(INSTALL_DIR) $(RELSYSDIR)/src + $(INSTALL_DATA) $(ERL_FILES) $(HRL_FILES) $(EXTRA_FILES) \ + $(RELSYSDIR)/src + $(INSTALL_DIR) $(RELSYSDIR)/ebin + $(INSTALL_DATA) $(INSTALL_FILES) $(RELSYSDIR)/ebin + +release_docs_spec: diff --git a/lib/dialyzer/src/dialyzer.app.src b/lib/dialyzer/src/dialyzer.app.src new file mode 100644 index 0000000000..c1d109812c --- /dev/null +++ b/lib/dialyzer/src/dialyzer.app.src @@ -0,0 +1,42 @@ +%% This is an -*- erlang -*- file. +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +{application, dialyzer, + [{description, "DIscrepancy AnaLYZer of ERlang programs, version %VSN%"}, + {vsn, "%VSN%"}, + {modules, [dialyzer, + dialyzer_analysis_callgraph, + dialyzer_callgraph, + dialyzer_cl, + dialyzer_cl_parse, + dialyzer_codeserver, + dialyzer_contracts, + dialyzer_dataflow, + dialyzer_dep, + dialyzer_gui, + dialyzer_options, + dialyzer_plt, + dialyzer_races, + dialyzer_succ_typings, + dialyzer_typesig, + dialyzer_utils]}, + {registered, []}, + {applications, [compiler, gs, hipe, kernel, stdlib]}, + {env, []}]}. diff --git a/lib/dialyzer/src/dialyzer.appup.src b/lib/dialyzer/src/dialyzer.appup.src new file mode 100644 index 0000000000..26d14ee8f4 --- /dev/null +++ b/lib/dialyzer/src/dialyzer.appup.src @@ -0,0 +1,20 @@ +%% +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +{"%VSN%",[],[]}. diff --git a/lib/dialyzer/src/dialyzer.erl b/lib/dialyzer/src/dialyzer.erl new file mode 100644 index 0000000000..c1897ed892 --- /dev/null +++ b/lib/dialyzer/src/dialyzer.erl @@ -0,0 +1,480 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer.erl +%%% Authors : Tobias Lindahl <[email protected]> +%%% Kostis Sagonas <[email protected]> +%%% Description : This is the interface for the Dialyzer tool. +%%% +%%% Created : 27 Apr 2004 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- + +-module(dialyzer). + +%%-------------------------------------------------------------------- +%% NOTE: Only functions exported by this module are available to +%% other applications. +%%-------------------------------------------------------------------- +-export([plain_cl/0, + run/1, + gui/0, + gui/1, + plt_info/1, + format_warning/1]). + +-include("dialyzer.hrl"). + +%%-------------------------------------------------------------------- +%% Interfaces: +%% - plain_cl/0 : to be used ONLY by the dialyzer C program. +%% - run/1: Erlang interface for a command line-like analysis +%% - gui/0/1: Erlang interface for the gui. +%% - format_warning/1: Get the string representation of a warning. +%% - plt_info/1: Get information of the specified plt. +%%-------------------------------------------------------------------- + +-spec plain_cl() -> no_return(). + +plain_cl() -> + case dialyzer_cl_parse:start() of + {check_init, Opts} -> + cl_halt(cl_check_init(Opts), Opts); + {plt_info, Opts} -> + cl_halt(cl_print_plt_info(Opts), Opts); + {{gui, Type}, Opts} -> + try check_gui_options(Opts) + catch throw:{dialyzer_error, Msg} -> cl_error(Msg) + end, + case Opts#options.check_plt of + true -> + case cl_check_init(Opts#options{get_warnings = false}) of + {ok, _} -> gui_halt(internal_gui(Type, Opts), Opts); + {error, _} = Error -> cl_halt(Error, Opts) + end; + false -> + gui_halt(internal_gui(Type, Opts), Opts) + end; + {cl, Opts} -> + case Opts#options.check_plt of + true -> + case cl_check_init(Opts#options{get_warnings = false}) of + {error, _} = Error -> cl_halt(Error, Opts); + {ok, _} -> cl_halt(cl(Opts), Opts) + end; + false -> + cl_halt(cl(Opts), Opts) + end; + {error, Msg} -> + cl_error(Msg) + end. + +cl_check_init(#options{analysis_type = AnalType} = Opts) -> + case AnalType of + plt_build -> {ok, ?RET_NOTHING_SUSPICIOUS}; + plt_add -> {ok, ?RET_NOTHING_SUSPICIOUS}; + plt_remove -> {ok, ?RET_NOTHING_SUSPICIOUS}; + Other when Other =:= succ_typings; Other =:= plt_check -> + F = fun() -> + NewOpts = Opts#options{analysis_type = plt_check}, + {Ret, _Warnings} = dialyzer_cl:start(NewOpts), + Ret + end, + doit(F) + end. + +cl_print_plt_info(Opts) -> + F = fun() -> + print_plt_info(Opts) + end, + doit(F). + +print_plt_info(#options{init_plt = PLT, output_file = OutputFile}) -> + String = + case dialyzer_plt:included_files(PLT) of + {ok, Files} -> + io_lib:format("The PLT ~s includes the following files:\n~p\n", + [PLT, Files]); + {error, read_error} -> + Msg = io_lib:format("Could not read the PLT file ~p\n", [PLT]), + throw({dialyzer_error, Msg}); + {error, no_such_file} -> + Msg = io_lib:format("The PLT file ~p does not exist\n", [PLT]), + throw({dialyzer_error, Msg}) + end, + case OutputFile =:= none of + true -> + io:format("~s", [String]), + ?RET_NOTHING_SUSPICIOUS; + false -> + case file:open(OutputFile, [write]) of + {ok, FileDesc} -> + io:format(FileDesc, "~s", [String]), + ok = file:close(FileDesc), + ?RET_NOTHING_SUSPICIOUS; + {error, Reason} -> + Msg1 = io_lib:format("Could not open output file ~p, Reason: ~p\n", + [OutputFile, Reason]), + throw({dialyzer_error, Msg1}) + end + end. + +cl(Opts) -> + F = fun() -> + {Ret, _Warnings} = dialyzer_cl:start(Opts), + Ret + end, + doit(F). + +-spec run(dial_options()) -> [dial_warning()]. + +run(Opts) -> + try dialyzer_options:build([{report_mode, quiet}, + {erlang_mode, true}|Opts]) of + {error, Msg} -> + throw({dialyzer_error, Msg}); + OptsRecord -> + case cl_check_init(OptsRecord) of + {ok, ?RET_NOTHING_SUSPICIOUS} -> + case dialyzer_cl:start(OptsRecord) of + {?RET_DISCREPANCIES, Warnings} -> Warnings; + {?RET_NOTHING_SUSPICIOUS, []} -> [] + end; + {error, ErrorMsg1} -> + throw({dialyzer_error, ErrorMsg1}) + end + catch + throw:{dialyzer_error, ErrorMsg} -> + erlang:error({dialyzer_error, lists:flatten(ErrorMsg)}) + end. + +internal_gui(Type, OptsRecord) -> + F = fun() -> + case Type of + gs -> dialyzer_gui:start(OptsRecord); + wx -> dialyzer_gui_wx:start(OptsRecord) + end, + ?RET_NOTHING_SUSPICIOUS + end, + doit(F). + +-spec gui() -> 'ok'. + +gui() -> + gui([]). + +-spec gui(dial_options()) -> 'ok'. + +gui(Opts) -> + try dialyzer_options:build([{report_mode, quiet}|Opts]) of + {error, Msg} -> + throw({dialyzer_error, Msg}); + OptsRecord -> + ok = check_gui_options(OptsRecord), + case cl_check_init(OptsRecord) of + {ok, ?RET_NOTHING_SUSPICIOUS} -> + F = fun() -> + dialyzer_gui:start(OptsRecord) + end, + case doit(F) of + {ok, _} -> ok; + {error, Msg} -> throw({dialyzer_error, Msg}) + end; + {error, ErrorMsg1} -> + throw({dialyzer_error, ErrorMsg1}) + end + catch + throw:{dialyzer_error, ErrorMsg} -> + erlang:error({dialyzer_error, lists:flatten(ErrorMsg)}) + end. + +check_gui_options(#options{analysis_type = succ_typings}) -> + ok; +check_gui_options(#options{analysis_type = Mode}) -> + Msg = io_lib:format("Analysis mode ~w is illegal in GUI mode", [Mode]), + throw({dialyzer_error, Msg}). + +-spec plt_info(file:filename()) -> + {'ok', [{'files', [file:filename()]}]} | {'error', atom()}. + +plt_info(Plt) -> + case dialyzer_plt:included_files(Plt) of + {ok, Files} -> {ok, [{files, Files}]}; + Error -> Error + end. + + +%%----------- +%% Machinery +%%----------- + +doit(F) -> + try + {ok, F()} + catch + throw:{dialyzer_error, Msg} -> + {error, lists:flatten(Msg)} + end. + +cl_error(Msg) -> + cl_halt({error, Msg}, #options{}). + +gui_halt(R, Opts) -> + cl_halt(R, Opts#options{report_mode = quiet}). + +-spec cl_halt({'ok',dial_ret()} | {'error',string()}, #options{}) -> no_return(). + +cl_halt({ok, R = ?RET_NOTHING_SUSPICIOUS}, #options{report_mode = quiet}) -> + halt(R); +cl_halt({ok, R = ?RET_DISCREPANCIES}, #options{report_mode = quiet}) -> + halt(R); +cl_halt({ok, R = ?RET_NOTHING_SUSPICIOUS}, #options{}) -> + io:put_chars("done (passed successfully)\n"), + halt(R); +cl_halt({ok, R = ?RET_DISCREPANCIES}, #options{output_file = Output}) -> + io:put_chars("done (warnings were emitted)\n"), + cl_check_log(Output), + halt(R); +cl_halt({error, Msg1}, #options{output_file = Output}) -> + %% Msg2 = "dialyzer: Internal problems were encountered in the analysis", + io:format("\ndialyzer: ~s\n", [Msg1]), + cl_check_log(Output), + halt(?RET_INTERNAL_ERROR). + +-spec cl_check_log('none' | file:filename()) -> 'ok'. + +cl_check_log(none) -> + ok; +cl_check_log(Output) -> + io:format(" Check output file `~s' for details\n", [Output]). + +-spec format_warning(dial_warning()) -> string(). + +format_warning({_Tag, {File, Line}, Msg}) when is_list(File), + is_integer(Line) -> + BaseName = filename:basename(File), + String = lists:flatten(message_to_string(Msg)), + lists:flatten(io_lib:format("~s:~w: ~s", [BaseName, Line, String])). + + +%%----------------------------------------------------------------------------- +%% Message classification and pretty-printing below. Messages appear in +%% categories and in more or less alphabetical ordering within each category. +%%----------------------------------------------------------------------------- + +%%----- Warnings for general discrepancies ---------------- +message_to_string({apply, [Args, ArgNs, FailReason, + SigArgs, SigRet, Contract]}) -> + io_lib:format("Fun application with arguments ~s ", [Args]) ++ + call_or_apply_to_string(ArgNs, FailReason, SigArgs, SigRet, Contract); +message_to_string({app_call, [M, F, Args, Culprit, ExpectedType, FoundType]}) -> + io_lib:format("The call ~s:~s~s requires that ~s is of type ~s not ~s\n", + [M, F, Args, Culprit, ExpectedType, FoundType]); +message_to_string({bin_construction, [Culprit, Size, Seg, Type]}) -> + io_lib:format("Binary construction will fail since the ~s field ~s in" + " segment ~s has type ~s\n", [Culprit, Size, Seg, Type]); +message_to_string({call, [M, F, Args, ArgNs, FailReason, + SigArgs, SigRet, Contract]}) -> + io_lib:format("The call ~w:~w~s ", [M, F, Args]) ++ + call_or_apply_to_string(ArgNs, FailReason, SigArgs, SigRet, Contract); +message_to_string({call_to_missing, [M, F, A]}) -> + io_lib:format("Call to missing or unexported function ~w:~w/~w\n", [M, F, A]); +message_to_string({exact_eq, [Type1, Op, Type2]}) -> + io_lib:format("The test ~s ~s ~s can never evaluate to 'true'\n", + [Type1, Op, Type2]); +message_to_string({fun_app_args, [Args, Type]}) -> + io_lib:format("Fun application with arguments ~s will fail" + " since the function has type ~s\n", [Args, Type]); +message_to_string({fun_app_no_fun, [Op, Type, Arity]}) -> + io_lib:format("Fun application will fail since ~s :: ~s" + " is not a function of arity ~w\n", [Op, Type, Arity]); +message_to_string({guard_fail, []}) -> + "Clause guard cannot succeed.\n"; +message_to_string({guard_fail, [Arg1, Infix, Arg2]}) -> + io_lib:format("Guard test ~s ~s ~s can never succeed\n", [Arg1, Infix, Arg2]); +message_to_string({guard_fail, [Guard, Args]}) -> + io_lib:format("Guard test ~w~s can never succeed\n", [Guard, Args]); +message_to_string({guard_fail_pat, [Pat, Type]}) -> + io_lib:format("Clause guard cannot succeed. The ~s was matched" + " against the type ~s\n", [Pat, Type]); +message_to_string({improper_list_constr, [TlType]}) -> + io_lib:format("Cons will produce an improper list" + " since its 2nd argument is ~s\n", [TlType]); +message_to_string({no_return, [Type|Name]}) -> + NameString = + case Name of + [] -> "The created fun "; + [F, A] -> io_lib:format("Function ~w/~w ", [F, A]) + end, + case Type of + no_match -> NameString ++ "has no clauses that will ever match\n"; + only_explicit -> NameString ++ "only terminates with explicit exception\n"; + only_normal -> NameString ++ "has no local return\n"; + both -> NameString ++ "has no local return\n" + end; +message_to_string({record_constr, [Types, Name]}) -> + io_lib:format("Record construction ~s violates the" + " declared type for #~w{}\n", [Types, Name]); +message_to_string({record_constr, [Name, Field, Type]}) -> + io_lib:format("Record construction violates the declared type for #~w{}" + " since ~s cannot be of type ~s\n", [Name, Field, Type]); +message_to_string({record_matching, [String, Name]}) -> + io_lib:format("The ~s violates the" + " declared type for #~w{}\n", [String, Name]); +message_to_string({pattern_match, [Pat, Type]}) -> + io_lib:format("The ~s can never match the type ~s\n", [Pat, Type]); +message_to_string({pattern_match_cov, [Pat, Type]}) -> + io_lib:format("The ~s can never match since previous" + " clauses completely covered the type ~s\n", + [Pat, Type]); +message_to_string({unmatched_return, [Type]}) -> + io_lib:format("Expression produces a value of type ~s," + " but this value is unmatched\n", [Type]); +message_to_string({unused_fun, []}) -> + io_lib:format("Function will never be called\n", []); +message_to_string({unused_fun, [F, A]}) -> + io_lib:format("Function ~w/~w will never be called\n", [F, A]); +%%----- Warnings for specs and contracts ------------------- +message_to_string({contract_diff, [M, F, _A, Contract, Sig]}) -> + io_lib:format("Type specification ~w:~w~s" + " is not equal to the success typing: ~w:~w~s\n", + [M, F, Contract, M, F, Sig]); +message_to_string({contract_subtype, [M, F, _A, Contract, Sig]}) -> + io_lib:format("Type specification ~w:~w~s" + " is a subtype of the success typing: ~w:~w~s\n", + [M, F, Contract, M, F, Sig]); +message_to_string({contract_supertype, [M, F, _A, Contract, Sig]}) -> + io_lib:format("Type specification ~w:~w~s" + " is a supertype of the success typing: ~w:~w~s\n", + [M, F, Contract, M, F, Sig]); +message_to_string({invalid_contract, [M, F, A, Sig]}) -> + io_lib:format("Invalid type specification for function ~w:~w/~w." + " The success typing is ~s\n", [M, F, A, Sig]); +message_to_string({extra_range, [M, F, A, ExtraRanges, SigRange]}) -> + io_lib:format("The specification for ~w:~w/~w states that the function" + " might also return ~s but the inferred return is ~s\n", + [M, F, A, ExtraRanges, SigRange]); +message_to_string({overlapping_contract, []}) -> + "Overloaded contract has overlapping domains;" + " such contracts are currently unsupported and are simply ignored\n"; +message_to_string({spec_missing_fun, [M, F, A]}) -> + io_lib:format("Contract for function that does not exist: ~w:~w/~w\n", + [M, F, A]); +%%----- Warnings for opaque type violations ------------------- +message_to_string({call_with_opaque, [M, F, Args, ArgNs, ExpArgs]}) -> + io_lib:format("The call ~w:~w~s contains ~s when ~s\n", + [M, F, Args, form_positions(ArgNs), form_expected(ExpArgs)]); +message_to_string({call_without_opaque, [M, F, Args, ExpectedTriples]}) -> + io_lib:format("The call ~w:~w~s does not have ~s\n", + [M, F, Args, form_expected_without_opaque(ExpectedTriples)]); +message_to_string({opaque_eq, [Type, _Op, OpaqueType]}) -> + io_lib:format("Attempt to test for equality between a term of type ~s" + " and a term of opaque type ~s\n", [Type, OpaqueType]); +message_to_string({opaque_guard, [Guard, Args]}) -> + io_lib:format("Guard test ~w~s breaks the opaqueness of its argument\n", + [Guard, Args]); +message_to_string({opaque_match, [Pat, OpaqueType, OpaqueTerm]}) -> + Term = if OpaqueType =:= OpaqueTerm -> "the term"; + true -> OpaqueTerm + end, + io_lib:format("The attempt to match a term of type ~s against the ~s" + " breaks the opaqueness of ~s\n", [OpaqueType, Pat, Term]); +message_to_string({opaque_neq, [Type, _Op, OpaqueType]}) -> + io_lib:format("Attempt to test for inequality between a term of type ~s" + " and a term of opaque type ~s\n", [Type, OpaqueType]); +message_to_string({opaque_type_test, [Fun, Opaque]}) -> + io_lib:format("The type test ~s(~s) breaks the opaqueness of the term ~s\n", [Fun, Opaque, Opaque]); +%%----- Warnings for concurrency errors -------------------- +message_to_string({race_condition, [M, F, Args, Reason]}) -> + io_lib:format("The call ~w:~w~s ~s\n", [M, F, Args, Reason]). + + +%%----------------------------------------------------------------------------- +%% Auxiliary functions below +%%----------------------------------------------------------------------------- + +call_or_apply_to_string(ArgNs, FailReason, SigArgs, SigRet, + {IsOverloaded, Contract}) -> + PositionString = form_position_string(ArgNs), + case FailReason of + only_sig -> + case ArgNs =:= [] of + true -> + %% We do not know which argument(s) caused the failure + io_lib:format("will never return since the success typing arguments" + " are ~s\n", [SigArgs]); + false -> + io_lib:format("will never return since it differs in argument" + " ~s from the success typing arguments: ~s\n", + [PositionString, SigArgs]) + end; + only_contract -> + case (ArgNs =:= []) orelse IsOverloaded of + true -> + %% We do not know which arguments caused the failure + io_lib:format("breaks the contract ~s\n", [Contract]); + false -> + io_lib:format("breaks the contract ~s in argument ~s\n", + [Contract, PositionString]) + end; + both -> + io_lib:format("will never return since the success typing is ~s -> ~s" + " and the contract is ~s\n", [SigArgs, SigRet, Contract]) + end. + +form_positions(ArgNs) -> + case ArgNs of + [_] -> "an opaque term in "; + [_,_|_] -> "opaque terms in " + end ++ form_position_string(ArgNs). + +%% We know which positions N are to blame; +%% the list of triples will never be empty. +form_expected_without_opaque([{N, T, TStr}]) -> + case erl_types:t_is_opaque(T) of + true -> + io_lib:format("an opaque term of type ~s in ", [TStr]); + false -> + io_lib:format("a term of type ~s (with opaque subterms) in ", [TStr]) + end ++ form_position_string([N]); +form_expected_without_opaque(ExpectedTriples) -> %% TODO: can do much better here + {ArgNs, _Ts, _TStrs} = lists:unzip3(ExpectedTriples), + "opaque terms in " ++ form_position_string(ArgNs). + +form_expected(ExpectedArgs) -> + case ExpectedArgs of + [T] -> + TS = erl_types:t_to_string(T), + case erl_types:t_is_opaque(T) of + true -> io_lib:format("an opaque term of type ~s is expected", [TS]); + false -> io_lib:format("a structured term of type ~s is expected", [TS]) + end; + [_,_|_] -> "terms of different types are expected in these positions" + end. + +form_position_string(ArgNs) -> + case ArgNs of + [] -> ""; + [N1] -> io_lib:format("position ~w", [N1]); + [_,_|_] -> + " and"++ArgString = lists:flatten([io_lib:format(" and ~w", [N]) + || N <- ArgNs]), + "positions" ++ ArgString + end. diff --git a/lib/dialyzer/src/dialyzer.hrl b/lib/dialyzer/src/dialyzer.hrl new file mode 100644 index 0000000000..f0f9bd25d7 --- /dev/null +++ b/lib/dialyzer/src/dialyzer.hrl @@ -0,0 +1,146 @@ +%%% This is an -*- Erlang -*- file. +%%% +%%% %CopyrightBegin% +%%% +%%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%%% +%%% The contents of this file are subject to the Erlang Public License, +%%% Version 1.1, (the "License"); you may not use this file except in +%%% compliance with the License. You should have received a copy of the +%%% Erlang Public License along with this software. If not, it can be +%%% retrieved online at http://www.erlang.org/. +%%% +%%% Software distributed under the License is distributed on an "AS IS" +%%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%%% the License for the specific language governing rights and limitations +%%% under the License. +%%% +%%% %CopyrightEnd% +%%% +%%%------------------------------------------------------------------- +%%% File : dialyzer.hrl +%%% Author : Tobias Lindahl <[email protected]> +%%% Kostis Sagonas <[email protected]> +%%% Description : Header file for Dialyzer. +%%% +%%% Created : 1 Oct 2004 by Kostis Sagonas <[email protected]> +%%%------------------------------------------------------------------- + +-define(RET_NOTHING_SUSPICIOUS, 0). +-define(RET_INTERNAL_ERROR, 1). +-define(RET_DISCREPANCIES, 2). + +-type dial_ret() :: ?RET_NOTHING_SUSPICIOUS + | ?RET_INTERNAL_ERROR + | ?RET_DISCREPANCIES. + +%%-------------------------------------------------------------------- +%% Warning classification +%%-------------------------------------------------------------------- + +-define(WARN_RETURN_NO_RETURN, warn_return_no_exit). +-define(WARN_RETURN_ONLY_EXIT, warn_return_only_exit). +-define(WARN_NOT_CALLED, warn_not_called). +-define(WARN_NON_PROPER_LIST, warn_non_proper_list). +-define(WARN_FUN_APP, warn_fun_app). +-define(WARN_MATCHING, warn_matching). +-define(WARN_OPAQUE, warn_opaque). +-define(WARN_FAILING_CALL, warn_failing_call). +-define(WARN_BIN_CONSTRUCTION, warn_bin_construction). +-define(WARN_CONTRACT_TYPES, warn_contract_types). +-define(WARN_CONTRACT_SYNTAX, warn_contract_syntax). +-define(WARN_CONTRACT_NOT_EQUAL, warn_contract_not_equal). +-define(WARN_CONTRACT_SUBTYPE, warn_contract_subtype). +-define(WARN_CONTRACT_SUPERTYPE, warn_contract_supertype). +-define(WARN_CALLGRAPH, warn_callgraph). +-define(WARN_UNMATCHED_RETURN, warn_umatched_return). +-define(WARN_RACE_CONDITION, warn_race_condition). + +%% +%% The following type has double role: +%% 1. It is the set of warnings that will be collected. +%% 2. It is also the set of tags for warnings that will be returned. +%% +-type dial_warn_tag() :: ?WARN_RETURN_NO_RETURN | ?WARN_RETURN_ONLY_EXIT + | ?WARN_NOT_CALLED | ?WARN_NON_PROPER_LIST + | ?WARN_MATCHING | ?WARN_OPAQUE | ?WARN_FUN_APP + | ?WARN_FAILING_CALL | ?WARN_BIN_CONSTRUCTION + | ?WARN_CONTRACT_TYPES | ?WARN_CONTRACT_SYNTAX + | ?WARN_CONTRACT_NOT_EQUAL | ?WARN_CONTRACT_SUBTYPE + | ?WARN_CONTRACT_SUPERTYPE | ?WARN_CALLGRAPH + | ?WARN_UNMATCHED_RETURN | ?WARN_RACE_CONDITION. + +%% +%% This is the representation of each warning as they will be returned +%% to dialyzer's callers +%% +-type file_line() :: {file:filename(), non_neg_integer()}. +-type dial_warning() :: {dial_warn_tag(), file_line(), {atom(), [term()]}}. + +%% +%% This is the representation of dialyzer's internal errors +%% +-type dial_error() :: any(). %% XXX: underspecified + +%%-------------------------------------------------------------------- +%% THIS TYPE SHOULD ONE DAY DISAPPEAR -- IT DOES NOT BELONG HERE +%%-------------------------------------------------------------------- + +-type ordset(T) :: [T] . %% XXX: temporarily + +%%-------------------------------------------------------------------- +%% Basic types used either in the record definitions below or in other +%% parts of the application +%%-------------------------------------------------------------------- + +-type anal_type() :: 'succ_typings' | 'plt_build'. +-type anal_type1() :: anal_type() | 'plt_add' | 'plt_check' | 'plt_remove'. +-type contr_constr() :: {'subtype', erl_types:erl_type(), erl_types:erl_type()}. +-type contract_pair() :: {erl_types:erl_type(), [contr_constr()]}. +-type dial_define() :: {atom(), term()}. +-type dial_option() :: {atom(), term()}. +-type dial_options() :: [dial_option()]. +-type label() :: non_neg_integer(). +-type rep_mode() :: 'quiet' | 'normal' | 'verbose'. +-type start_from() :: 'byte_code' | 'src_code'. + +%%-------------------------------------------------------------------- +%% Record declarations used by various files +%%-------------------------------------------------------------------- + +-record(analysis, {analysis_pid :: pid(), + type = succ_typings :: anal_type(), + defines = [] :: [dial_define()], + doc_plt :: dialyzer_plt:plt(), + files = [] :: [file:filename()], + include_dirs = [] :: [file:filename()], + start_from = byte_code :: start_from(), + plt :: dialyzer_plt:plt(), + use_contracts = true :: boolean(), + race_detection = false :: boolean(), + callgraph_file = "" :: file:filename()}). + +-record(options, {files = [] :: [file:filename()], + files_rec = [] :: [file:filename()], + analysis_type = succ_typings :: anal_type1(), + defines = [] :: [dial_define()], + from = byte_code :: start_from(), + get_warnings = maybe :: boolean() | 'maybe', + init_plt = none :: 'none' | file:filename(), + include_dirs = [] :: [file:filename()], + output_plt = none :: 'none' | file:filename(), + legal_warnings = ordsets:new() :: ordset(dial_warn_tag()), + report_mode = normal :: rep_mode(), + erlang_mode = false :: boolean(), + use_contracts = true :: boolean(), + output_file = none :: 'none' | file:filename(), + output_format = formatted :: 'raw' | 'formatted', + callgraph_file = "" :: file:filename(), + check_plt = true :: boolean() + }). + +-record(contract, {contracts = [] :: [contract_pair()], + args = [] :: [erl_types:erl_type()], + forms = [] :: [{_, _}]}). + +%%-------------------------------------------------------------------- diff --git a/lib/dialyzer/src/dialyzer_analysis_callgraph.erl b/lib/dialyzer/src/dialyzer_analysis_callgraph.erl new file mode 100644 index 0000000000..97d63a1f14 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_analysis_callgraph.erl @@ -0,0 +1,530 @@ +%% -*- erlang-indent-level: 2 -*- +%%-------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_analysis_callgraph.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : +%%% +%%% Created : 5 Apr 2005 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- + +-module(dialyzer_analysis_callgraph). + +-export([start/3]). + +-include("dialyzer.hrl"). + +-record(analysis_state, + { + codeserver :: dialyzer_codeserver:codeserver(), + analysis_type = succ_typings :: anal_type(), + defines = [] :: [dial_define()], + doc_plt :: dialyzer_plt:plt(), + include_dirs = [] :: [file:filename()], + no_warn_unused :: set(), + parent :: pid(), + plt :: dialyzer_plt:plt(), + start_from = byte_code :: start_from(), + use_contracts = true :: boolean() + }). + +-record(server_state, {parent :: pid(), legal_warnings :: [dial_warn_tag()]}). + +%%-------------------------------------------------------------------- +%% Main +%%-------------------------------------------------------------------- + +-spec start(pid(), [dial_warn_tag()], #analysis{}) -> 'ok'. + +start(Parent, LegalWarnings, Analysis) -> + RacesOn = ordsets:is_element(?WARN_RACE_CONDITION, LegalWarnings), + Analysis0 = Analysis#analysis{race_detection = RacesOn}, + Analysis1 = expand_files(Analysis0), + Analysis2 = run_analysis(Analysis1), + State = #server_state{parent = Parent, legal_warnings = LegalWarnings}, + loop(State, Analysis2, none). + +run_analysis(Analysis) -> + Self = self(), + Fun = fun() -> analysis_start(Self, Analysis) end, + Analysis#analysis{analysis_pid = spawn_link(Fun)}. + +loop(#server_state{parent = Parent, legal_warnings = LegalWarnings} = State, + #analysis{analysis_pid = AnalPid} = Analysis, ExtCalls) -> + receive + {AnalPid, log, LogMsg} -> + send_log(Parent, LogMsg), + loop(State, Analysis, ExtCalls); + {AnalPid, warnings, Warnings} -> + case filter_warnings(LegalWarnings, Warnings) of + [] -> ok; + SendWarnings -> + send_warnings(Parent, SendWarnings) + end, + loop(State, Analysis, ExtCalls); + {AnalPid, cserver, CServer, Plt} -> + send_codeserver_plt(Parent, CServer, Plt), + loop(State, Analysis, ExtCalls); + {AnalPid, done, Plt, DocPlt} -> + case ExtCalls =:= none of + true -> + send_analysis_done(Parent, Plt, DocPlt); + false -> + send_ext_calls(Parent, ExtCalls), + send_analysis_done(Parent, Plt, DocPlt) + end; + {AnalPid, ext_calls, NewExtCalls} -> + loop(State, Analysis, NewExtCalls); + {AnalPid, mod_deps, ModDeps} -> + send_mod_deps(Parent, ModDeps), + loop(State, Analysis, ExtCalls); + {Parent, stop} -> + exit(AnalPid, kill), + ok + end. + +%%-------------------------------------------------------------------- +%% The Analysis +%%-------------------------------------------------------------------- + +analysis_start(Parent, Analysis) -> + CServer = dialyzer_codeserver:new(), + Plt = Analysis#analysis.plt, + State = #analysis_state{codeserver = CServer, + analysis_type = Analysis#analysis.type, + defines = Analysis#analysis.defines, + doc_plt = Analysis#analysis.doc_plt, + include_dirs = Analysis#analysis.include_dirs, + plt = Plt, + parent = Parent, + start_from = Analysis#analysis.start_from, + use_contracts = Analysis#analysis.use_contracts + }, + Files = ordsets:from_list(Analysis#analysis.files), + {Callgraph, NoWarn, TmpCServer0} = compile_and_store(Files, State), + %% Remote type postprocessing + NewCServer = + try + NewRecords = dialyzer_codeserver:get_temp_records(TmpCServer0), + OldRecords = dialyzer_plt:get_types(State#analysis_state.plt), + MergedRecords = dialyzer_utils:merge_records(NewRecords, OldRecords), + TmpCServer1 = dialyzer_codeserver:set_temp_records(MergedRecords, TmpCServer0), + TmpCServer2 = dialyzer_utils:process_record_remote_types(TmpCServer1), + dialyzer_contracts:process_contract_remote_types(TmpCServer2) + catch + throw:{error, _ErrorMsg} = Error -> exit(Error) + end, + NewPlt = dialyzer_plt:insert_types(Plt, dialyzer_codeserver:get_records(NewCServer)), + State0 = State#analysis_state{plt = NewPlt}, + dump_callgraph(Callgraph, State0, Analysis), + State1 = State0#analysis_state{codeserver = NewCServer}, + State2 = State1#analysis_state{no_warn_unused = NoWarn}, + %% Remove all old versions of the files being analyzed + AllNodes = dialyzer_callgraph:all_nodes(Callgraph), + Plt1 = dialyzer_plt:delete_list(NewPlt, AllNodes), + Exports = dialyzer_codeserver:get_exports(NewCServer), + NewCallgraph = + case Analysis#analysis.race_detection of + true -> dialyzer_callgraph:put_race_detection(true, Callgraph); + false -> Callgraph + end, + State3 = analyze_callgraph(NewCallgraph, State2#analysis_state{plt = Plt1}), + NonExports = sets:subtract(sets:from_list(AllNodes), Exports), + NonExportsList = sets:to_list(NonExports), + Plt3 = dialyzer_plt:delete_list(State3#analysis_state.plt, NonExportsList), + Plt4 = dialyzer_plt:delete_contract_list(Plt3, NonExportsList), + send_codeserver_plt(Parent, CServer, State3#analysis_state.plt), + send_analysis_done(Parent, Plt4, State3#analysis_state.doc_plt). + +analyze_callgraph(Callgraph, State) -> + Plt = State#analysis_state.plt, + Codeserver = State#analysis_state.codeserver, + Parent = State#analysis_state.parent, + case State#analysis_state.analysis_type of + plt_build -> + Callgraph1 = dialyzer_callgraph:finalize(Callgraph), + NewPlt = dialyzer_succ_typings:analyze_callgraph(Callgraph1, Plt, + Codeserver, Parent), + dialyzer_callgraph:delete(Callgraph1), + State#analysis_state{plt = NewPlt}; + succ_typings -> + NoWarn = State#analysis_state.no_warn_unused, + DocPlt = State#analysis_state.doc_plt, + Callgraph1 = dialyzer_callgraph:finalize(Callgraph), + {Warnings, NewPlt, NewDocPlt} = + dialyzer_succ_typings:get_warnings(Callgraph1, Plt, DocPlt, + Codeserver, NoWarn, Parent), + dialyzer_callgraph:delete(Callgraph1), + send_warnings(State#analysis_state.parent, Warnings), + State#analysis_state{plt = NewPlt, doc_plt = NewDocPlt} + end. + +%%-------------------------------------------------------------------- +%% Build the callgraph and fill the codeserver. +%%-------------------------------------------------------------------- + +compile_and_store(Files, #analysis_state{codeserver = CServer, + defines = Defs, + include_dirs = Dirs, + parent = Parent, + use_contracts = UseContracts, + start_from = StartFrom} = State) -> + send_log(Parent, "Reading files and computing callgraph... "), + {T1, _} = statistics(runtime), + Includes = [{i, D} || D <- Dirs], + Defines = [{d, Macro, Val} || {Macro, Val} <- Defs], + Callgraph = dialyzer_callgraph:new(), + Fun = case StartFrom of + src_code -> + fun(File, {TmpCG, TmpCServer, TmpFailed, TmpNoWarn, TmpMods}) -> + case compile_src(File, Includes, Defines, TmpCG, + TmpCServer, UseContracts) of + {error, Reason} -> + {TmpCG, TmpCServer, [{File, Reason}|TmpFailed], TmpNoWarn, + TmpMods}; + {ok, NewCG, NoWarn, NewCServer, Mod} -> + {NewCG, NewCServer, TmpFailed, NoWarn++TmpNoWarn, + [Mod|TmpMods]} + end + end; + byte_code -> + fun(File, {TmpCG, TmpCServer, TmpFailed, TmpNoWarn, TmpMods}) -> + case compile_byte(File, TmpCG, TmpCServer, UseContracts) of + {error, Reason} -> + {TmpCG, TmpCServer, [{File, Reason}|TmpFailed], TmpNoWarn, + TmpMods}; + {ok, NewCG, NoWarn, NewCServer, Mod} -> + {NewCG, NewCServer, TmpFailed, NoWarn++TmpNoWarn, + [Mod|TmpMods]} + end + end + end, + {NewCallgraph1, NewCServer, Failed, NoWarn, Modules} = + lists:foldl(Fun, {Callgraph, CServer, [], [], []}, Files), + case Failed =:= [] of + true -> + NewFiles = lists:zip(lists:reverse(Modules), Files), + ModDict = + lists:foldl(fun({Mod, F}, Dict) -> dict:append(Mod, F, Dict) end, + dict:new(), NewFiles), + check_for_duplicate_modules(ModDict); + false -> + Msg = io_lib:format("Could not scan the following file(s): ~p", + [lists:flatten(Failed)]), + exit({error, Msg}) + end, + {T2, _} = statistics(runtime), + Msg1 = io_lib:format("done in ~.2f secs\nRemoving edges... ", [(T2-T1)/1000]), + send_log(Parent, Msg1), + NewCallgraph2 = cleanup_callgraph(State, NewCServer, NewCallgraph1, Modules), + {T3, _} = statistics(runtime), + Msg2 = io_lib:format("done in ~.2f secs\n", [(T3-T2)/1000]), + send_log(Parent, Msg2), + {NewCallgraph2, sets:from_list(NoWarn), NewCServer}. + +cleanup_callgraph(#analysis_state{plt = InitPlt, parent = Parent, + codeserver = CodeServer}, + CServer, Callgraph, Modules) -> + ModuleDeps = dialyzer_callgraph:module_deps(Callgraph), + send_mod_deps(Parent, ModuleDeps), + {Callgraph1, ExtCalls} = dialyzer_callgraph:remove_external(Callgraph), + ExtCalls1 = [Call || Call = {_From, To} <- ExtCalls, + not dialyzer_plt:contains_mfa(InitPlt, To)], + {BadCalls1, RealExtCalls} = + if ExtCalls1 =:= [] -> {[], []}; + true -> + ModuleSet = sets:from_list(Modules), + lists:partition(fun({_From, {M, _F, _A}}) -> + sets:is_element(M, ModuleSet) orelse + dialyzer_plt:contains_module(InitPlt, M) + end, ExtCalls1) + end, + NonLocalCalls = dialyzer_callgraph:non_local_calls(Callgraph1), + BadCalls2 = [Call || Call = {_From, To} <- NonLocalCalls, + not dialyzer_codeserver:is_exported(To, CServer)], + case BadCalls1 ++ BadCalls2 of + [] -> ok; + BadCalls -> send_bad_calls(Parent, BadCalls, CodeServer) + end, + if RealExtCalls =:= [] -> ok; + true -> + send_ext_calls(Parent, lists:usort([To || {_From, To} <- RealExtCalls])) + end, + Callgraph1. + +compile_src(File, Includes, Defines, Callgraph, CServer, UseContracts) -> + DefaultIncludes = default_includes(filename:dirname(File)), + SrcCompOpts = dialyzer_utils:src_compiler_opts(), + CompOpts = SrcCompOpts ++ Includes ++ Defines ++ DefaultIncludes, + case dialyzer_utils:get_abstract_code_from_src(File, CompOpts) of + {error, _Msg} = Error -> Error; + {ok, AbstrCode} -> + case dialyzer_utils:get_core_from_abstract_code(AbstrCode, CompOpts) of + error -> {error, " Could not find abstract code for: " ++ File}; + {ok, Core} -> + Mod = cerl:concrete(cerl:module_name(Core)), + NoWarn = abs_get_nowarn(AbstrCode, Mod), + case dialyzer_utils:get_record_and_type_info(AbstrCode) of + {error, _} = Error -> Error; + {ok, RecInfo} -> + CServer2 = + dialyzer_codeserver:store_temp_records(Mod, RecInfo, CServer), + case UseContracts of + true -> + case dialyzer_utils:get_spec_info(Mod, AbstrCode, RecInfo) of + {error, _} = Error -> Error; + {ok, SpecInfo} -> + CServer3 = + dialyzer_codeserver:store_temp_contracts(Mod, + SpecInfo, + CServer2), + store_core(Mod, Core, NoWarn, Callgraph, CServer3) + end; + false -> + store_core(Mod, Core, NoWarn, Callgraph, CServer2) + end + end + end + end. + +compile_byte(File, Callgraph, CServer, UseContracts) -> + case dialyzer_utils:get_abstract_code_from_beam(File) of + error -> + {error, " Could not get abstract code for: " ++ File ++ "\n" ++ + " Recompile with +debug_info or analyze starting from source code"}; + {ok, AbstrCode} -> + case dialyzer_utils:get_core_from_abstract_code(AbstrCode) of + error -> {error, " Could not get core for: "++File}; + {ok, Core} -> + Mod = cerl:concrete(cerl:module_name(Core)), + NoWarn = abs_get_nowarn(AbstrCode, Mod), + case dialyzer_utils:get_record_and_type_info(AbstrCode) of + {error, _} = Error -> Error; + {ok, RecInfo} -> + CServer1 = + dialyzer_codeserver:store_temp_records(Mod, RecInfo, CServer), + case UseContracts of + true -> + case dialyzer_utils:get_spec_info(Mod, AbstrCode, RecInfo) of + {error, _} = Error -> Error; + {ok, SpecInfo} -> + CServer2 = + dialyzer_codeserver:store_temp_contracts(Mod, SpecInfo, + CServer1), + store_core(Mod, Core, NoWarn, Callgraph, CServer2) + end; + false -> + store_core(Mod, Core, NoWarn, Callgraph, CServer1) + end + end + end + end. + +store_core(Mod, Core, NoWarn, Callgraph, CServer) -> + Exp = get_exports_from_core(Core), + CServer1 = dialyzer_codeserver:insert_exports(Exp, CServer), + {LabeledCore, CServer2} = label_core(Core, CServer1), + store_code_and_build_callgraph(Mod, LabeledCore, Callgraph, CServer2, NoWarn). + +abs_get_nowarn(Abs, M) -> + [{M, F, A} + || {attribute, _, compile, {nowarn_unused_function, {F, A}}} <- Abs]. + +get_exports_from_core(Core) -> + Tree = cerl:from_records(Core), + Exports1 = cerl:module_exports(Tree), + Exports2 = [cerl:var_name(V) || V <- Exports1], + M = cerl:atom_val(cerl:module_name(Tree)), + [{M, F, A} || {F, A} <- Exports2]. + +label_core(Core, CServer) -> + NextLabel = dialyzer_codeserver:get_next_core_label(CServer), + CoreTree = cerl:from_records(Core), + {LabeledTree, NewNextLabel} = cerl_trees:label(CoreTree, NextLabel), + {cerl:to_records(LabeledTree), + dialyzer_codeserver:set_next_core_label(NewNextLabel, CServer)}. + +store_code_and_build_callgraph(Mod, Core, Callgraph, CServer, NoWarn) -> + CoreTree = cerl:from_records(Core), + NewCallgraph = dialyzer_callgraph:scan_core_tree(CoreTree, Callgraph), + CServer2 = dialyzer_codeserver:insert(Mod, CoreTree, CServer), + {ok, NewCallgraph, NoWarn, CServer2, Mod}. + +%%-------------------------------------------------------------------- +%% Utilities +%%-------------------------------------------------------------------- + +expand_files(Analysis = #analysis{files = Files, start_from = StartFrom}) -> + Ext = case StartFrom of + byte_code -> ".beam"; + src_code -> ".erl" + end, + case expand_files(Files, Ext, []) of + [] -> + Msg = "No " ++ Ext ++ " files to analyze" ++ + case StartFrom of + byte_code -> " (no --src specified?)"; + src_code -> "" + end, + exit({error, Msg}); + NewFiles -> + Analysis#analysis{files = NewFiles} + end. + +expand_files([File|Left], Ext, FileAcc) -> + case filelib:is_dir(File) of + true -> + {ok, List} = file:list_dir(File), + NewFiles = + [filename:join(File, X) || X <- List, filename:extension(X) =:= Ext], + expand_files(Left, Ext, NewFiles); + false -> + expand_files(Left, Ext, [File|FileAcc]) + end; +expand_files([], _Ext, FileAcc) -> + FileAcc. + +check_for_duplicate_modules(ModDict) -> + Duplicates = dict:filter(fun(_, [_]) -> false; + (_, _Files) -> true + end, ModDict), + case dict:size(Duplicates) =:= 0 of + true -> + ok; + false -> + Mods = [X || {_, X} <- dict:to_list(Duplicates)], + Msg = io_lib:format("Duplicate modules: ~p", [Mods]), + exit({error, Msg}) + end. + +default_includes(Dir) -> + L1 = ["..", "../incl", "../inc", "../include"], + [{i, filename:join(Dir, X)} || X <- L1]. + +%%------------------------------------------------------------------- +%% Handle Messages +%%------------------------------------------------------------------- + +send_log(Parent, Msg) -> + Parent ! {self(), log, Msg}, + ok. + +send_warnings(_Parent, []) -> + ok; +send_warnings(Parent, Warnings) -> + Parent ! {self(), warnings, Warnings}, + ok. + +filter_warnings(LegalWarnings, Warnings) -> + [TIW || {Tag, _Id, _Warning} = TIW <- Warnings, + ordsets:is_element(Tag, LegalWarnings)]. + +send_analysis_done(Parent, Plt, DocPlt) -> + Parent ! {self(), done, Plt, DocPlt}, + ok. + +send_ext_calls(Parent, ExtCalls) -> + Parent ! {self(), ext_calls, ExtCalls}, + ok. + +send_codeserver_plt(Parent, CServer, Plt ) -> + Parent ! {self(), cserver, CServer, Plt}, + ok. + +send_bad_calls(Parent, BadCalls, CodeServer) -> + send_warnings(Parent, format_bad_calls(BadCalls, CodeServer, [])). + +send_mod_deps(Parent, ModuleDeps) -> + Parent ! {self(), mod_deps, ModuleDeps}, + ok. + +format_bad_calls([{{_, _, _}, {_, module_info, A}}|Left], CodeServer, Acc) + when A =:= 0; A =:= 1 -> + format_bad_calls(Left, CodeServer, Acc); +format_bad_calls([{FromMFA, {M, F, A} = To}|Left], CodeServer, Acc) -> + {_Var, FunCode} = dialyzer_codeserver:lookup_mfa_code(FromMFA, CodeServer), + Msg = {call_to_missing, [M, F, A]}, + FileLine = find_call_file_and_line(FunCode, To), + NewAcc = [{?WARN_CALLGRAPH, FileLine, Msg}|Acc], + format_bad_calls(Left, CodeServer, NewAcc); +format_bad_calls([], _CodeServer, Acc) -> + Acc. + +find_call_file_and_line(Tree, MFA) -> + Fun = + fun(SubTree, Acc) -> + case cerl:is_c_call(SubTree) of + true -> + M = cerl:call_module(SubTree), + F = cerl:call_name(SubTree), + A = cerl:call_arity(SubTree), + case cerl:is_c_atom(M) andalso cerl:is_c_atom(F) of + true -> + case {cerl:concrete(M), cerl:concrete(F), A} of + MFA -> + Ann = cerl:get_ann(SubTree), + [{get_file(Ann), get_line(Ann)}|Acc]; + _ -> Acc + end; + false -> Acc + end; + false -> Acc + end + end, + hd(cerl_trees:fold(Fun, [], Tree)). + +get_line([Line|_]) when is_integer(Line) -> Line; +get_line([_|Tail]) -> get_line(Tail); +get_line([]) -> -1. + +get_file([{file, File}|_]) -> File; +get_file([_|Tail]) -> get_file(Tail). + +-spec dump_callgraph(dialyzer_callgraph:callgraph(), #analysis_state{}, #analysis{}) -> + 'ok'. + +dump_callgraph(_CallGraph, _State, #analysis{callgraph_file = ""}) -> ok; +dump_callgraph(CallGraph, State, #analysis{callgraph_file = File} = Analysis) -> + Extension = filename:extension(File), + Start_Msg = io_lib:format("Dumping the callgraph... ", []), + send_log(State#analysis_state.parent, Start_Msg), + {T1, _} = statistics(runtime), + dump_callgraph(CallGraph, State, Analysis, Extension), + {T2, _} = statistics(runtime), + Finish_Msg = io_lib:format("done in ~2f secs\n", [(T2-T1)/1000]), + send_log(State#analysis_state.parent, Finish_Msg), + ok. + +dump_callgraph(CallGraph, _State, #analysis{callgraph_file = File}, ".dot") -> + dialyzer_callgraph:to_dot(CallGraph, File); +dump_callgraph(CallGraph, _State, #analysis{callgraph_file = File}, ".ps") -> + Args = "-Gratio=compress -Gsize=\"100,100\"", + dialyzer_callgraph:to_ps(CallGraph, File, Args); +dump_callgraph(CallGraph, State, #analysis{callgraph_file = File}, _Ext) -> + case file:open(File, [write]) of + {ok, Fd} -> + io:format(Fd, "~p", [CallGraph]), + ok = file:close(Fd); + {error, Reason} -> + Msg = io_lib:format("Could not open output file ~p, Reason: ~p\n", + [File, Reason]), + send_log(State#analysis_state.parent, Msg) + end. diff --git a/lib/dialyzer/src/dialyzer_callgraph.erl b/lib/dialyzer/src/dialyzer_callgraph.erl new file mode 100644 index 0000000000..21d31df71c --- /dev/null +++ b/lib/dialyzer/src/dialyzer_callgraph.erl @@ -0,0 +1,697 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_callgraph.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : +%%% +%%% Created : 30 Mar 2005 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- +-module(dialyzer_callgraph). + +-export([all_nodes/1, + delete/1, + finalize/1, + is_escaping/2, + is_self_rec/2, + non_local_calls/1, + lookup_rec_var/2, + lookup_call_site/2, + lookup_label/2, + lookup_name/2, + modules/1, + module_deps/1, + %% module_postorder/1, + module_postorder_from_funs/2, + new/0, + in_neighbours/2, + renew_race_info/4, + reset_from_funs/2, + scan_core_tree/2, + strip_module_deps/2, + take_scc/1, + remove_external/1, + to_dot/2, + to_ps/3]). + +-export([cleanup/1, get_digraph/1, get_named_tables/1, get_public_tables/1, + get_race_code/1, get_race_detection/1, race_code_new/1, + put_race_code/2, put_race_detection/2, put_named_tables/2, + put_public_tables/2]). + +-include("dialyzer.hrl"). + +%%---------------------------------------------------------------------- + +-type mfa_or_funlbl() :: label() | mfa(). +-type scc() :: [mfa_or_funlbl()]. +-type mfa_calls() :: [{mfa_or_funlbl(), mfa_or_funlbl()}]. + +%%----------------------------------------------------------------------------- +%% A callgraph is a directed graph where the nodes are functions and a +%% call between two functions is an edge from the caller to the callee. +%% +%% calls - A mapping from call site (and apply site) labels +%% to the possible functions that can be called. +%% digraph - A digraph representing the callgraph. +%% Nodes are represented as MFAs or labels. +%% esc - A set of all escaping functions as reported by dialyzer_dep. +%% postorder - A list of strongly connected components of the callgraph +%% sorted in a topological bottom-up order. +%% This is produced by calling finalize/1. +%% name_map - A mapping from label to MFA. +%% rev_name_map - A reverse mapping of the name_map. +%% rec_var_map - A dict mapping from letrec bound labels to function names. +%% Only for top level functions (from module defs). +%% self_rec - A set containing all self recursive functions. +%% Note that this contains MFAs for named functions and labels +%% whenever applicable. +%%----------------------------------------------------------------------------- + +-record(callgraph, {digraph = digraph:new() :: digraph(), + esc = sets:new() :: set(), + name_map = dict:new() :: dict(), + rev_name_map = dict:new() :: dict(), + postorder = [] :: [scc()], + rec_var_map = dict:new() :: dict(), + self_rec = sets:new() :: set(), + calls = dict:new() :: dict(), + race_code = dict:new() :: dict(), + public_tables = [] :: [label()], + named_tables = [] :: [string()], + race_detection = false :: boolean()}). + +%% Exported Types + +-type callgraph() :: #callgraph{}. + +%%---------------------------------------------------------------------- + +-spec new() -> callgraph(). + +new() -> + #callgraph{}. + +-spec delete(callgraph()) -> 'true'. + +delete(#callgraph{digraph = Digraph}) -> + digraph_delete(Digraph). + +-spec all_nodes(callgraph()) -> [mfa()]. + +all_nodes(#callgraph{digraph = DG}) -> + digraph_vertices(DG). + +-spec lookup_rec_var(label(), callgraph()) -> 'error' | {'ok', mfa()}. + +lookup_rec_var(Label, #callgraph{rec_var_map = RecVarMap}) + when is_integer(Label) -> + dict:find(Label, RecVarMap). + +-spec lookup_call_site(label(), callgraph()) -> 'error' | {'ok', [_]}. % XXX: refine + +lookup_call_site(Label, #callgraph{calls = Calls}) + when is_integer(Label) -> + dict:find(Label, Calls). + +-spec lookup_name(label(), callgraph()) -> 'error' | {'ok', mfa()}. + +lookup_name(Label, #callgraph{name_map = NameMap}) + when is_integer(Label) -> + dict:find(Label, NameMap). + +-spec lookup_label(mfa_or_funlbl(), callgraph()) -> 'error' | {'ok', integer()}. + +lookup_label({_,_,_} = MFA, #callgraph{rev_name_map = RevNameMap}) -> + dict:find(MFA, RevNameMap); +lookup_label(Label, #callgraph{}) when is_integer(Label) -> + {ok, Label}. + +-spec in_neighbours(mfa_or_funlbl(), callgraph()) -> 'none' | [mfa_or_funlbl(),...]. + +in_neighbours(Label, #callgraph{digraph = Digraph, name_map = NameMap}) + when is_integer(Label) -> + Name = case dict:find(Label, NameMap) of + {ok, Val} -> Val; + error -> Label + end, + digraph_in_neighbours(Name, Digraph); +in_neighbours({_, _, _} = MFA, #callgraph{digraph = Digraph}) -> + digraph_in_neighbours(MFA, Digraph). + +-spec is_self_rec(mfa_or_funlbl(), callgraph()) -> boolean(). + +is_self_rec(MfaOrLabel, #callgraph{self_rec = SelfRecs}) -> + sets:is_element(MfaOrLabel, SelfRecs). + +-spec is_escaping(label(), callgraph()) -> boolean(). + +is_escaping(Label, #callgraph{esc = Esc}) when is_integer(Label) -> + sets:is_element(Label, Esc). + +-type callgraph_edge() :: {mfa_or_funlbl(),mfa_or_funlbl()}. +-spec add_edges([callgraph_edge()], callgraph()) -> callgraph(). + +add_edges([], CG) -> + CG; +add_edges(Edges, #callgraph{digraph = Callgraph} = CG) -> + CG#callgraph{digraph = digraph_add_edges(Edges, Callgraph)}. + +-spec add_edges([callgraph_edge()], [mfa_or_funlbl()], callgraph()) -> callgraph(). + +add_edges(Edges, MFAs, #callgraph{digraph = DG} = CG) -> + DG1 = digraph_confirm_vertices(MFAs, DG), + add_edges(Edges, CG#callgraph{digraph = DG1}). + +-spec take_scc(callgraph()) -> 'none' | {'ok', scc(), callgraph()}. + +take_scc(#callgraph{postorder = [SCC|SCCs]} = CG) -> + {ok, SCC, CG#callgraph{postorder = SCCs}}; +take_scc(#callgraph{postorder = []}) -> + none. + +-spec remove_external(callgraph()) -> {callgraph(), [tuple()]}. + +remove_external(#callgraph{digraph = DG} = CG) -> + {NewDG, External} = digraph_remove_external(DG), + {CG#callgraph{digraph = NewDG}, External}. + +-spec non_local_calls(callgraph()) -> mfa_calls(). + +non_local_calls(#callgraph{digraph = DG}) -> + Edges = digraph_edges(DG), + find_non_local_calls(Edges, sets:new()). + +-spec find_non_local_calls([{mfa_or_funlbl(), mfa_or_funlbl()}], set()) -> mfa_calls(). + +find_non_local_calls([{{M,_,_}, {M,_,_}}|Left], Set) -> + find_non_local_calls(Left, Set); +find_non_local_calls([{{M1,_,_}, {M2,_,_}} = Edge|Left], Set) when M1 =/= M2 -> + find_non_local_calls(Left, sets:add_element(Edge, Set)); +find_non_local_calls([{{_,_,_}, Label}|Left], Set) when is_integer(Label) -> + find_non_local_calls(Left, Set); +find_non_local_calls([{Label, {_,_,_}}|Left], Set) when is_integer(Label) -> + find_non_local_calls(Left, Set); +find_non_local_calls([{Label1, Label2}|Left], Set) when is_integer(Label1), + is_integer(Label2) -> + find_non_local_calls(Left, Set); +find_non_local_calls([], Set) -> + sets:to_list(Set). + +-spec renew_race_info(callgraph(), dict(), [label()], [string()]) -> + callgraph(). + +renew_race_info(CG, RaceCode, PublicTables, NamedTables) -> + CG#callgraph{race_code = RaceCode, + public_tables = PublicTables, + named_tables = NamedTables}. + +%%---------------------------------------------------------------------- +%% Handling of modules & SCCs +%%---------------------------------------------------------------------- + +-spec modules(callgraph()) -> [module()]. + +modules(#callgraph{digraph = DG}) -> + ordsets:from_list([M || {M,_F,_A} <- digraph_vertices(DG)]). + +-spec module_postorder(callgraph()) -> [[module()]]. + +module_postorder(#callgraph{digraph = DG}) -> + Edges = digraph_edges(DG), + Nodes = ordsets:from_list([M || {M,_F,_A} <- digraph_vertices(DG)]), + MDG = digraph:new(), + MDG1 = digraph_confirm_vertices(Nodes, MDG), + MDG2 = create_module_digraph(Edges, MDG1), + MDG3 = digraph_utils:condensation(MDG2), + PostOrder = digraph_utils:postorder(MDG3), + PostOrder1 = sort_sccs_internally(PostOrder, MDG2), + digraph:delete(MDG2), + digraph_delete(MDG3), + PostOrder1. + +%% The module deps of a module are modules that depend on the module +-spec module_deps(callgraph()) -> dict(). + +module_deps(#callgraph{digraph = DG}) -> + Edges = digraph_edges(DG), + Nodes = ordsets:from_list([M || {M,_F,_A} <- digraph_vertices(DG)]), + MDG = digraph:new(), + MDG1 = digraph_confirm_vertices(Nodes, MDG), + MDG2 = create_module_digraph(Edges, MDG1), + Deps = [{N, ordsets:from_list(digraph:in_neighbours(MDG2, N))} + || N <- Nodes], + digraph_delete(MDG2), + dict:from_list(Deps). + +-spec strip_module_deps(dict(), set()) -> dict(). + +strip_module_deps(ModDeps, StripSet) -> + FilterFun1 = fun(Val) -> not sets:is_element(Val, StripSet) end, + MapFun = fun(_Key, ValSet) -> ordsets:filter(FilterFun1, ValSet) end, + ModDeps1 = dict:map(MapFun, ModDeps), + FilterFun2 = fun(_Key, ValSet) -> ValSet =/= [] end, + dict:filter(FilterFun2, ModDeps1). + +sort_sccs_internally(PO, MDG) -> + sort_sccs_internally(PO, MDG, []). + +sort_sccs_internally([SCC|SCCs], MDG, Acc) -> + case SCC of + [_, _, _ | _] -> % length(SCC) >= 3 + TmpDG = digraph_utils:subgraph(MDG, SCC), + NewSCC = digraph_utils:postorder(TmpDG), + digraph_delete(TmpDG), + sort_sccs_internally(SCCs, MDG, [NewSCC|Acc]); + _ -> + sort_sccs_internally(SCCs, MDG, [SCC|Acc]) + end; +sort_sccs_internally([], _MDG, Acc) -> + lists:reverse(Acc). + +create_module_digraph([{{M, _, _}, {M, _, _}}|Left], MDG) -> + create_module_digraph(Left, MDG); +create_module_digraph([{{M1, _, _}, {M2, _, _}}|Left], MDG) -> + create_module_digraph(Left, digraph_add_edge(M1, M2, MDG)); +create_module_digraph([{_, _}|Left], MDG) -> + create_module_digraph(Left, MDG); +create_module_digraph([], MDG) -> + MDG. + +-spec finalize(callgraph()) -> callgraph(). + +finalize(#callgraph{digraph = DG} = CG) -> + CG#callgraph{postorder = digraph_finalize(DG)}. + +-spec reset_from_funs([mfa_or_funlbl()], callgraph()) -> callgraph(). + +reset_from_funs(Funs, #callgraph{digraph = DG} = CG) -> + SubGraph = digraph_reaching_subgraph(Funs, DG), + Postorder = digraph_finalize(SubGraph), + digraph_delete(SubGraph), + CG#callgraph{postorder = Postorder}. + +-spec module_postorder_from_funs([mfa_or_funlbl()], callgraph()) -> [[module()]]. + +module_postorder_from_funs(Funs, #callgraph{digraph = DG} = CG) -> + SubGraph = digraph_reaching_subgraph(Funs, DG), + PO = module_postorder(CG#callgraph{digraph = SubGraph}), + digraph_delete(SubGraph), + PO. + +%%---------------------------------------------------------------------- +%% Core code +%%---------------------------------------------------------------------- + +%% The core tree must be labeled as by cerl_trees:label/1 (or /2). +%% The set of labels in the tree must be disjoint from the set of +%% labels already occuring in the callgraph. + +-spec scan_core_tree(cerl:c_module(), callgraph()) -> callgraph(). + +scan_core_tree(Tree, #callgraph{calls = OldCalls, + esc = OldEsc, + name_map = OldNameMap, + rec_var_map = OldRecVarMap, + rev_name_map = OldRevNameMap, + self_rec = OldSelfRec} = CG) -> + %% Build name map and recursion variable maps. + {NewNameMap, NewRevNameMap, NewRecVarMap} = + build_maps(Tree, OldRecVarMap, OldNameMap, OldRevNameMap), + + %% First find the module-local dependencies. + {Deps0, EscapingFuns, Calls} = dialyzer_dep:analyze(Tree), + NewCalls = dict:merge(fun(_Key, Val, Val) -> Val end, OldCalls, Calls), + NewEsc = sets:union(sets:from_list(EscapingFuns), OldEsc), + LabelEdges = get_edges_from_deps(Deps0), + + %% Find the self recursive functions. Named functions get both the + %% key and their name for convenience. + SelfRecs0 = lists:foldl(fun({Key, Key}, Acc) -> + case dict:find(Key, NewNameMap) of + error -> [Key|Acc]; + {ok, Name} -> [Key, Name|Acc] + end; + (_, Acc) -> Acc + end, [], LabelEdges), + SelfRecs = sets:union(sets:from_list(SelfRecs0), OldSelfRec), + + NamedEdges1 = name_edges(LabelEdges, NewNameMap), + + %% We need to scan for inter-module calls since these are not tracked + %% by dialyzer_dep. Note that the caller is always recorded as the + %% top level function. This is OK since the included functions are + %% stored as scc with the parent. + NamedEdges2 = scan_core_funs(Tree), + + %% Confirm all nodes in the tree. + Names1 = lists:append([[X, Y] || {X, Y} <- NamedEdges1]), + Names2 = ordsets:from_list(Names1), + + %% Get rid of the 'top' function from nodes and edges. + Names3 = ordsets:del_element(top, Names2), + NewNamedEdges2 = + [E || {From, To} = E <- NamedEdges2, From =/= top, To =/= top], + NewNamedEdges1 = + [E || {From, To} = E <- NamedEdges1, From =/= top, To =/= top], + NamedEdges3 = NewNamedEdges1 ++ NewNamedEdges2, + CG1 = add_edges(NamedEdges3, Names3, CG), + CG1#callgraph{calls = NewCalls, + esc = NewEsc, + name_map = NewNameMap, + rec_var_map = NewRecVarMap, + rev_name_map = NewRevNameMap, + self_rec = SelfRecs}. + +build_maps(Tree, RecVarMap, NameMap, RevNameMap) -> + %% We only care about the named (top level) functions. The anonymous + %% functions will be analysed together with their parents. + Defs = cerl:module_defs(Tree), + Mod = cerl:atom_val(cerl:module_name(Tree)), + lists:foldl(fun({Var, Function}, {AccNameMap, AccRevNameMap, AccRecVarMap}) -> + FunName = cerl:fname_id(Var), + Arity = cerl:fname_arity(Var), + MFA = {Mod, FunName, Arity}, + {dict:store(get_label(Function), MFA, AccNameMap), + dict:store(MFA, get_label(Function), AccRevNameMap), + dict:store(get_label(Var), MFA, AccRecVarMap)} + end, {NameMap, RevNameMap, RecVarMap}, Defs). + +get_edges_from_deps(Deps) -> + %% Convert the dependencies as produced by dialyzer_dep to a list of + %% edges. Also, remove 'external' since we are not interested in + %% this information. + Edges = dict:fold(fun(external, _Set, Acc) -> Acc; + (Caller, Set, Acc) -> + [[{Caller, Callee} || Callee <- Set, + Callee =/= external]|Acc] + end, [], Deps), + lists:flatten(Edges). + +name_edges(Edges, NameMap) -> + %% If a label is present in the name map it is renamed. Otherwise + %% keep the label as the identity. + MapFun = fun(X) -> + case dict:find(X, NameMap) of + error -> X; + {ok, MFA} -> MFA + end + end, + name_edges(Edges, MapFun, NameMap, []). + +name_edges([{From, To}|Left], MapFun, NameMap, Acc) -> + NewFrom = MapFun(From), + NewTo = MapFun(To), + name_edges(Left, MapFun, NameMap, [{NewFrom, NewTo}|Acc]); +name_edges([], _MapFun, _NameMap, Acc) -> + Acc. + +scan_core_funs(Tree) -> + Defs = cerl:module_defs(Tree), + Mod = cerl:atom_val(cerl:module_name(Tree)), + DeepEdges = lists:foldl(fun({Var, Function}, Edges) -> + FunName = cerl:fname_id(Var), + Arity = cerl:fname_arity(Var), + MFA = {Mod, FunName, Arity}, + [scan_one_core_fun(Function, MFA)|Edges] + end, [], Defs), + lists:flatten(DeepEdges). + +scan_one_core_fun(TopTree, FunName) -> + FoldFun = fun(Tree, Acc) -> + case cerl:type(Tree) of + call -> + CalleeM = cerl:call_module(Tree), + CalleeF = cerl:call_name(Tree), + A = length(cerl:call_args(Tree)), + case (cerl:is_c_atom(CalleeM) andalso + cerl:is_c_atom(CalleeF)) of + true -> + M = cerl:atom_val(CalleeM), + F = cerl:atom_val(CalleeF), + case erl_bif_types:is_known(M, F, A) of + true -> Acc; + false -> [{FunName, {M, F, A}}|Acc] + end; + false -> + %% We cannot handle run-time bindings + Acc + end; + _ -> + %% Nothing that can introduce new edges in the callgraph. + Acc + end + end, + cerl_trees:fold(FoldFun, [], TopTree). + +get_label(T) -> + case cerl:get_ann(T) of + [{label, L} | _] when is_integer(L) -> L; + _ -> erlang:error({missing_label, T}) + end. + +%%---------------------------------------------------------------------- +%% Digraph +%%---------------------------------------------------------------------- + +digraph_add_edges([{From, To}|Left], DG) -> + digraph_add_edges(Left, digraph_add_edge(From, To, DG)); +digraph_add_edges([], DG) -> + DG. + +digraph_add_edge(From, To, DG) -> + case digraph:vertex(DG, From) of + false -> digraph:add_vertex(DG, From); + {From, _} -> ok + end, + case digraph:vertex(DG, To) of + false -> digraph:add_vertex(DG, To); + {To, _} -> ok + end, + digraph:add_edge(DG, {From, To}, From, To, []), + DG. + +digraph_confirm_vertices([MFA|Left], DG) -> + digraph:add_vertex(DG, MFA, confirmed), + digraph_confirm_vertices(Left, DG); +digraph_confirm_vertices([], DG) -> + DG. + +digraph_remove_external(DG) -> + Vertices = digraph:vertices(DG), + Unconfirmed = remove_unconfirmed(Vertices, DG), + {DG, Unconfirmed}. + +remove_unconfirmed(Vertexes, DG) -> + remove_unconfirmed(Vertexes, DG, []). + +remove_unconfirmed([V|Left], DG, Unconfirmed) -> + case digraph:vertex(DG, V) of + {V, confirmed} -> remove_unconfirmed(Left, DG, Unconfirmed); + {V, []} -> remove_unconfirmed(Left, DG, [V|Unconfirmed]) + end; +remove_unconfirmed([], DG, Unconfirmed) -> + BadCalls = lists:append([digraph:in_edges(DG, V) || V <- Unconfirmed]), + BadCallsSorted = lists:keysort(1, BadCalls), + digraph:del_vertices(DG, Unconfirmed), + BadCallsSorted. + +digraph_delete(DG) -> + digraph:delete(DG). + +digraph_edges(DG) -> + digraph:edges(DG). + +digraph_vertices(DG) -> + digraph:vertices(DG). + +digraph_in_neighbours(V, DG) -> + case digraph:in_neighbours(DG, V) of + [] -> none; + List -> List + end. + +%% Pick all the independent nodes (leaves) from one module. Then try +%% to stay within the module until no more independent nodes can be +%% chosen. Then pick a new module and so on. +%% +%% Note that an SCC that ranges over more than one module is +%% considered to belong to all modules to make sure that we do not +%% lose any nodes. + +digraph_postorder(Digraph) -> + %% Remove all self-edges for SCCs. + Edges = [digraph:edge(Digraph, E) || E <- digraph:edges(Digraph)], + SelfEdges = [E || {E, V, V, _} <- Edges], + true = digraph:del_edges(Digraph, SelfEdges), + %% Determine the first module outside of the loop. + Leaves = digraph_leaves(Digraph), + case Leaves =:= [] of + true -> []; + false -> + {Module, Taken} = take_sccs_from_fresh_module(Leaves), + true = digraph:del_vertices(Digraph, Taken), + digraph_postorder(Digraph, Module, [Taken]) + end. + +digraph_postorder(Digraph, LastModule, Acc) -> + Leaves = digraph_leaves(Digraph), + case Leaves =:= [] of + true -> lists:append(lists:reverse(Acc)); + false -> + case [SCC || SCC <- Leaves, scc_belongs_to_module(SCC, LastModule)] of + [] -> + {NewModule, NewTaken} = take_sccs_from_fresh_module(Leaves), + true = digraph:del_vertices(Digraph, NewTaken), + digraph_postorder(Digraph, NewModule, [NewTaken|Acc]); + NewTaken -> + true = digraph:del_vertices(Digraph, NewTaken), + digraph_postorder(Digraph, LastModule, [NewTaken|Acc]) + end + end. + +digraph_leaves(Digraph) -> + [V || V <- digraph:vertices(Digraph), digraph:out_degree(Digraph, V) =:= 0]. + +take_sccs_from_fresh_module(Leaves) -> + NewModule = find_module(hd(Leaves)), + {NewModule, + [SCC || SCC <- Leaves, scc_belongs_to_module(SCC, NewModule)]}. + +-spec scc_belongs_to_module(scc(), module()) -> boolean(). + +scc_belongs_to_module([Label|Left], Module) when is_integer(Label) -> + scc_belongs_to_module(Left, Module); +scc_belongs_to_module([{M, _, _}|Left], Module) -> + if M =:= Module -> true; + true -> scc_belongs_to_module(Left, Module) + end; +scc_belongs_to_module([], _Module) -> + false. + +-spec find_module(scc()) -> module(). + +find_module([{M, _, _}|_]) -> M; +find_module([Label|Left]) when is_integer(Label) -> find_module(Left). + +digraph_finalize(DG) -> + DG1 = digraph_utils:condensation(DG), + Postorder = digraph_postorder(DG1), + digraph:delete(DG1), + Postorder. + +digraph_reaching_subgraph(Funs, DG) -> + Vertices = digraph_utils:reaching(Funs, DG), + digraph_utils:subgraph(DG, Vertices). + +%%---------------------------------------------------------------------- +%% Races +%%---------------------------------------------------------------------- + +-spec cleanup(callgraph()) -> callgraph(). + +cleanup(#callgraph{name_map = NameMap, + rev_name_map = RevNameMap, + public_tables = PublicTables, + named_tables = NamedTables, + race_code = RaceCode}) -> + #callgraph{name_map = NameMap, + rev_name_map = RevNameMap, + public_tables = PublicTables, + named_tables = NamedTables, + race_code = RaceCode}. + +-spec get_digraph(callgraph()) -> digraph(). + +get_digraph(#callgraph{digraph = Digraph}) -> + Digraph. + +-spec get_named_tables(callgraph()) -> [string()]. + +get_named_tables(#callgraph{named_tables = NamedTables}) -> + NamedTables. + +-spec get_public_tables(callgraph()) -> [label()]. + +get_public_tables(#callgraph{public_tables = PT}) -> + PT. + +-spec get_race_code(callgraph()) -> dict(). + +get_race_code(#callgraph{race_code = RaceCode}) -> + RaceCode. + +-spec get_race_detection(callgraph()) -> boolean(). + +get_race_detection(#callgraph{race_detection = RD}) -> + RD. + +-spec race_code_new(callgraph()) -> callgraph(). + +race_code_new(Callgraph) -> + Callgraph#callgraph{race_code = dict:new()}. + +-spec put_race_code(dict(), callgraph()) -> callgraph(). + +put_race_code(RaceCode, Callgraph) -> + Callgraph#callgraph{race_code = RaceCode}. + +-spec put_race_detection(boolean(), callgraph()) -> callgraph(). + +put_race_detection(RaceDetection, Callgraph) -> + Callgraph#callgraph{race_detection = RaceDetection}. + +-spec put_named_tables([string()], callgraph()) -> callgraph(). + +put_named_tables(NamedTables, Callgraph) -> + Callgraph#callgraph{named_tables = NamedTables}. + +-spec put_public_tables([label()], callgraph()) -> callgraph(). + +put_public_tables(PublicTables, Callgraph) -> + Callgraph#callgraph{public_tables = PublicTables}. + +%%============================================================================= +%% Utilities for 'dot' +%%============================================================================= + +-spec to_dot(callgraph(), file:filename()) -> 'ok'. + +to_dot(#callgraph{digraph = DG, esc = Esc} = CG, File) -> + Fun = fun(L) -> + case lookup_name(L, CG) of + error -> L; + {ok, Name} -> Name + end + end, + Escaping = [{Fun(L), {color, red}} + || L <- sets:to_list(Esc), L =/= external], + Vertices = digraph_edges(DG), + hipe_dot:translate_list(Vertices, File, "CG", Escaping). + +-spec to_ps(callgraph(), file:filename(), string()) -> 'ok'. + +to_ps(#callgraph{} = CG, File, Args) -> + Dot_File = filename:rootname(File) ++ ".dot", + to_dot(CG, Dot_File), + Command = io_lib:format("dot -Tps ~s -o ~s ~s", [Args, File, Dot_File]), + _ = os:cmd(Command), + ok. diff --git a/lib/dialyzer/src/dialyzer_cl.erl b/lib/dialyzer/src/dialyzer_cl.erl new file mode 100644 index 0000000000..ab56a4e6d3 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_cl.erl @@ -0,0 +1,717 @@ +%% -*- erlang-indent-level: 2 -*- +%%------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_cl.erl +%%% Authors : Tobias Lindahl <[email protected]> +%%% Kostis Sagonas <[email protected]> +%%% Description : The command line interface for the Dialyzer tool. +%%% +%%% Created : 27 Apr 2004 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- + +-module(dialyzer_cl). + +-export([start/1]). + +-include("dialyzer.hrl"). +-include_lib("kernel/include/file.hrl"). % needed for #file_info{} + +-record(cl_state, + {backend_pid :: pid(), + erlang_mode = false :: boolean(), + external_calls = [] :: [mfa()], + legal_warnings = ordsets:new() :: [dial_warn_tag()], + mod_deps = dict:new() :: dict(), + output = standard_io :: io:device(), + output_format = formatted :: 'raw' | 'formatted', + output_plt = none :: 'none' | file:filename(), + plt_info = none :: 'none' | dialyzer_plt:plt_info(), + report_mode = normal :: rep_mode(), + return_status= ?RET_NOTHING_SUSPICIOUS :: dial_ret(), + stored_warnings = [] :: [dial_warning()] + }). + +%%-------------------------------------------------------------------- + +-spec start(#options{}) -> {dial_ret(), [dial_warning()]}. + +start(#options{analysis_type = AnalysisType} = Options) -> + process_flag(trap_exit, true), + case AnalysisType of + plt_check -> check_plt(Options); + plt_build -> build_plt(Options); + plt_add -> add_to_plt(Options); + plt_remove -> remove_from_plt(Options); + succ_typings -> do_analysis(Options) + end. + +%%-------------------------------------------------------------------- + +build_plt(Opts) -> + Opts1 = init_opts_for_build(Opts), + Files = get_files_from_opts(Opts1), + Md5 = dialyzer_plt:compute_md5_from_files(Files), + PltInfo = {Md5, dict:new()}, + do_analysis(Files, Opts1, dialyzer_plt:new(), PltInfo). + +init_opts_for_build(Opts) -> + case Opts#options.output_plt =:= none of + true -> + case Opts#options.init_plt of + none -> Opts#options{init_plt = none, output_plt = get_default_plt()}; + Plt -> Opts#options{init_plt = none, output_plt = Plt} + end; + false -> Opts#options{init_plt = none} + end. + +%%-------------------------------------------------------------------- + +add_to_plt(Opts) -> + Opts1 = init_opts_for_add(Opts), + AddFiles = get_files_from_opts(Opts1), + plt_common(Opts1, [], AddFiles). + +init_opts_for_add(Opts) -> + case Opts#options.output_plt =:= none of + true -> + case Opts#options.init_plt of + none -> Opts#options{output_plt = get_default_plt(), + init_plt = get_default_plt()}; + Plt -> Opts#options{output_plt = Plt} + end; + false -> + case Opts#options.init_plt =:= none of + true -> Opts#options{init_plt = get_default_plt()}; + false -> Opts + end + end. + +%%-------------------------------------------------------------------- + +check_plt(Opts) -> + Opts1 = init_opts_for_check(Opts), + report_check(Opts), + plt_common(Opts1, [], []). + +init_opts_for_check(Opts) -> + Plt = + case Opts#options.init_plt of + none -> get_default_plt(); + Plt0 -> Plt0 + end, + Opts#options{files = [], + files_rec = [], + analysis_type = plt_check, + defines = [], + from = byte_code, + init_plt = Plt, + include_dirs = [], + output_plt = Plt, + use_contracts = true + }. + +%%-------------------------------------------------------------------- + +remove_from_plt(Opts) -> + Opts1 = init_opts_for_remove(Opts), + Files = get_files_from_opts(Opts1), + plt_common(Opts1, Files, []). + +init_opts_for_remove(Opts) -> + case Opts#options.output_plt =:= none of + true -> + case Opts#options.init_plt of + none -> Opts#options{output_plt = get_default_plt(), + init_plt = get_default_plt()}; + Plt -> Opts#options{output_plt = Plt} + end; + false -> + case Opts#options.init_plt =:= none of + true -> Opts#options{init_plt = get_default_plt()}; + false -> Opts + end + end. + +%%-------------------------------------------------------------------- + +plt_common(Opts, RemoveFiles, AddFiles) -> + case check_plt(Opts, RemoveFiles, AddFiles) of + ok -> + case Opts#options.report_mode of + quiet -> ok; + _ -> io:put_chars(" yes\n") + end, + {?RET_NOTHING_SUSPICIOUS, []}; + {old_version, Md5} -> + PltInfo = {Md5, dict:new()}, + Files = [F || {F, _} <- Md5], + do_analysis(Files, Opts, dialyzer_plt:new(), PltInfo); + {differ, Md5, DiffMd5, ModDeps} -> + report_failed_plt_check(Opts, DiffMd5), + {AnalFiles, RemovedMods, ModDeps1} = + expand_dependent_modules(Md5, DiffMd5, ModDeps), + Plt = clean_plt(Opts#options.init_plt, RemovedMods), + case AnalFiles =:= [] of + true -> + %% Only removed stuff. Just write the PLT. + dialyzer_plt:to_file(Opts#options.output_plt, Plt, ModDeps, + {Md5, ModDeps}), + {?RET_NOTHING_SUSPICIOUS, []}; + false -> + do_analysis(AnalFiles, Opts, Plt, {Md5, ModDeps1}) + end; + {error, no_such_file} -> + Msg = io_lib:format("Could not find the PLT: ~s\n~s", + [Opts#options.init_plt, default_plt_error_msg()]), + error(Msg); + {error, not_valid} -> + Msg = io_lib:format("The file: ~s is not a valid PLT file\n~s", + [Opts#options.init_plt, default_plt_error_msg()]), + error(Msg); + {error, read_error} -> + Msg = io_lib:format("Could not read the PLT: ~s\n~s", + [Opts#options.init_plt, default_plt_error_msg()]), + error(Msg); + {error, {no_file_to_remove, F}} -> + Msg = io_lib:format("Could not remove the file ~s from the PLT: ~s\n", + [F, Opts#options.init_plt]), + error(Msg) + end. + +default_plt_error_msg() -> + "Use the options:\n" + " --build_plt to build a new PLT; or\n" + " --add_to_plt to add to an existing PLT\n" + "\n" + "For example, use a command like the following:\n" + " dialyzer --build_plt --apps erts kernel stdlib mnesia\n" + "Note that building a PLT such as the above may take 20 mins or so\n" + "\n" + "If you later need information about other applications, say crypto,\n" + "you can extend the PLT by the command:\n" + " dialyzer --add_to_plt --apps crypto\n" + "For applications that are not in Erlang/OTP use an absolute file name.\n". + +%%-------------------------------------------------------------------- + +check_plt(Opts, RemoveFiles, AddFiles) -> + Plt = Opts#options.init_plt, + case dialyzer_plt:check_plt(Plt, RemoveFiles, AddFiles) of + {old_version, _MD5} = OldVersion -> + report_old_version(Opts), + OldVersion; + {differ, _MD5, _DiffMd5, _ModDeps} = Differ -> + Differ; + ok -> + ok; + {error, _Reason} = Error -> + Error + end. + +%%-------------------------------------------------------------------- + +report_check(#options{report_mode = ReportMode, init_plt = InitPlt}) -> + case ReportMode of + quiet -> ok; + _ -> + io:format(" Checking whether the PLT ~s is up-to-date...", [InitPlt]) + end. + +report_old_version(#options{report_mode = ReportMode, init_plt = InitPlt}) -> + case ReportMode of + quiet -> ok; + _ -> + io:put_chars(" no\n"), + io:format(" (the PLT ~s was built with an old version of Dialyzer)\n", + [InitPlt]) + end. + +report_failed_plt_check(#options{analysis_type = AnalType, + report_mode = ReportMode}, DiffMd5) -> + case AnalType =:= plt_check of + true -> + case ReportMode of + quiet -> ok; + normal -> io:format(" no\n", []); + verbose -> report_md5_diff(DiffMd5) + end; + false -> ok + end. + +report_analysis_start(#options{analysis_type = Type, + report_mode = ReportMode, + init_plt = InitPlt, + output_plt = OutputPlt}) -> + case ReportMode of + quiet -> ok; + _ -> + io:format(" "), + case Type of + plt_add -> + case InitPlt =:= OutputPlt of + true -> io:format("Adding information to ~s...", [OutputPlt]); + false -> io:format("Adding information from ~s to ~s...", + [InitPlt, OutputPlt]) + end; + plt_build -> + io:format("Creating PLT ~s ...", [OutputPlt]); + plt_check -> + io:format("Rebuilding the information in ~s...", [OutputPlt]); + plt_remove -> + case InitPlt =:= OutputPlt of + true -> io:format("Removing information from ~s...", [OutputPlt]); + false -> io:format("Removing information from ~s to ~s...", + [InitPlt, OutputPlt]) + end; + succ_typings -> io:format("Proceeding with analysis...") + end + end. + +report_native_comp(#options{report_mode = ReportMode}) -> + case ReportMode of + quiet -> ok; + _ -> io:format(" Compiling some key modules to native code...") + end. + +report_elapsed_time(T1, T2, #options{report_mode = ReportMode}) -> + case ReportMode of + quiet -> ok; + _ -> + ElapsedTime = T2 - T1, + Mins = ElapsedTime div 60000, + Secs = (ElapsedTime rem 60000) / 1000, + io:format(" done in ~wm~.2fs\n", [Mins, Secs]) + end. + +report_md5_diff(List) -> + io:format(" The PLT information is not up to date:\n", []), + case [Mod || {removed, Mod} <- List] of + [] -> ok; + RemovedMods -> io:format(" Removed modules: ~p\n", [RemovedMods]) + end, + case [Mod || {differ, Mod} <- List] of + [] -> ok; + ChangedMods -> io:format(" Changed modules: ~p\n", [ChangedMods]) + end. + +%%-------------------------------------------------------------------- + +get_default_plt() -> + dialyzer_plt:get_default_plt(). + +%%-------------------------------------------------------------------- + +do_analysis(Options) -> + Files = get_files_from_opts(Options), + case Options#options.init_plt of + none -> do_analysis(Files, Options, dialyzer_plt:new(), none); + File -> do_analysis(Files, Options, dialyzer_plt:from_file(File), none) + end. + +do_analysis(Files, Options, Plt, PltInfo) -> + assert_writable(Options#options.output_plt), + hipe_compile(Files, Options), + report_analysis_start(Options), + State0 = new_state(), + State1 = init_output(State0, Options), + State2 = State1#cl_state{legal_warnings = Options#options.legal_warnings, + output_plt = Options#options.output_plt, + plt_info = PltInfo, + erlang_mode = Options#options.erlang_mode, + report_mode = Options#options.report_mode}, + AnalysisType = convert_analysis_type(Options#options.analysis_type, + Options#options.get_warnings), + InitAnalysis = #analysis{type = AnalysisType, + defines = Options#options.defines, + include_dirs = Options#options.include_dirs, + files = Files, + start_from = Options#options.from, + plt = Plt, + use_contracts = Options#options.use_contracts, + callgraph_file = Options#options.callgraph_file}, + State3 = start_analysis(State2, InitAnalysis), + {T1, _} = statistics(wall_clock), + Return = cl_loop(State3), + {T2, _} = statistics(wall_clock), + report_elapsed_time(T1, T2, Options), + Return. + +convert_analysis_type(plt_check, true) -> succ_typings; +convert_analysis_type(plt_check, false) -> plt_build; +convert_analysis_type(plt_add, true) -> succ_typings; +convert_analysis_type(plt_add, false) -> plt_build; +convert_analysis_type(plt_build, true) -> succ_typings; +convert_analysis_type(plt_build, false) -> plt_build; +convert_analysis_type(plt_remove, true) -> succ_typings; +convert_analysis_type(plt_remove, false) -> plt_build; +convert_analysis_type(succ_typings, _) -> succ_typings. + +%%-------------------------------------------------------------------- + +assert_writable(none) -> + ok; +assert_writable(PltFile) -> + case check_if_writable(PltFile) of + true -> ok; + false -> + Msg = io_lib:format(" The PLT file ~s is not writable", [PltFile]), + error(Msg) + end. + +check_if_writable(PltFile) -> + case filelib:is_regular(PltFile) of + true -> is_writable_file_or_dir(PltFile); + false -> + case filelib:is_dir(PltFile) of + true -> false; + false -> + DirName = filename:dirname(PltFile), + filelib:is_dir(DirName) andalso is_writable_file_or_dir(DirName) + end + end. + +is_writable_file_or_dir(PltFile) -> + case file:read_file_info(PltFile) of + {ok, #file_info{access = A}} -> + (A =:= write) orelse (A =:= read_write); + {error, _} -> + false + end. + +%%-------------------------------------------------------------------- + +clean_plt(PltFile, RemovedMods) -> + %% Clean the plt from the removed modules. + Plt = dialyzer_plt:from_file(PltFile), + sets:fold(fun(M, AccPlt) -> dialyzer_plt:delete_module(AccPlt, M) end, + Plt, RemovedMods). + +expand_dependent_modules(Md5, DiffMd5, ModDeps) -> + ChangedMods = sets:from_list([M || {differ, M} <- DiffMd5]), + RemovedMods = sets:from_list([M || {removed, M} <- DiffMd5]), + BigSet = sets:union(ChangedMods, RemovedMods), + BigList = sets:to_list(BigSet), + ExpandedSet = expand_dependent_modules_1(BigList, BigSet, ModDeps), + NewModDeps = dialyzer_callgraph:strip_module_deps(ModDeps, BigSet), + AnalyzeMods = sets:subtract(ExpandedSet, RemovedMods), + FilterFun = fun(File) -> + Mod = list_to_atom(filename:basename(File, ".beam")), + sets:is_element(Mod, AnalyzeMods) + end, + {[F || {F, _} <- Md5, FilterFun(F)], RemovedMods, NewModDeps}. + +expand_dependent_modules_1([Mod|Mods], Included, ModDeps) -> + case dict:find(Mod, ModDeps) of + {ok, Deps} -> + NewDeps = sets:subtract(sets:from_list(Deps), Included), + case sets:size(NewDeps) =:= 0 of + true -> expand_dependent_modules_1(Mods, Included, ModDeps); + false -> + NewIncluded = sets:union(Included, NewDeps), + expand_dependent_modules_1(sets:to_list(NewDeps) ++ Mods, + NewIncluded, ModDeps) + end; + error -> + expand_dependent_modules_1(Mods, Included, ModDeps) + end; +expand_dependent_modules_1([], Included, _ModDeps) -> + Included. + +-define(MIN_FILES_FOR_NATIVE_COMPILE, 20). + +-spec hipe_compile([file:filename()], #options{}) -> 'ok'. + +hipe_compile(Files, #options{erlang_mode = ErlangMode} = Options) -> + case (length(Files) < ?MIN_FILES_FOR_NATIVE_COMPILE) orelse ErlangMode of + true -> ok; + false -> + case erlang:system_info(hipe_architecture) of + undefined -> ok; + _ -> + Mods = [lists, dict, gb_sets, gb_trees, ordsets, sets, + cerl, cerl_trees, erl_types, erl_bif_types, + dialyzer_analysis_callgraph, dialyzer_codeserver, + dialyzer_dataflow, dialyzer_dep, dialyzer_plt, + dialyzer_succ_typings, dialyzer_typesig], + report_native_comp(Options), + {T1, _} = statistics(wall_clock), + native_compile(Mods), + {T2, _} = statistics(wall_clock), + report_elapsed_time(T1, T2, Options) + end + end. + +native_compile(Mods) -> + case erlang:system_info(schedulers) of + %% N when N > 1 -> + %% Parent = self(), + %% Pids = [spawn(fun () -> Parent ! {self(), hc(M)} end) || M <- Mods], + %% lists:foreach(fun (Pid) -> receive {Pid, Res} -> Res end end, Pids); + _ -> % 1 -> + lists:foreach(fun (Mod) -> hc(Mod) end, Mods) + end. + +hc(Mod) -> + case code:ensure_loaded(Mod) of + {module, Mod} -> ok; + {error, sticky_directory} -> ok + end, + case code:is_module_native(Mod) of + true -> ok; + false -> + {ok, Mod} = hipe:c(Mod), + ok + end. + +new_state() -> + #cl_state{}. + +init_output(State0, #options{output_file = OutFile, output_format = OutFormat}) -> + State = State0#cl_state{output_format = OutFormat}, + case OutFile =:= none of + true -> + State; + false -> + case file:open(OutFile, [write]) of + {ok, File} -> + State#cl_state{output = File}; + {error, Reason} -> + Msg = io_lib:format("Could not open output file ~p, Reason: ~p\n", + [OutFile, Reason]), + error(State, lists:flatten(Msg)) + end + end. + +-spec maybe_close_output_file(#cl_state{}) -> 'ok'. + +maybe_close_output_file(State) -> + case State#cl_state.output of + standard_io -> ok; + File -> ok = file:close(File) + end. + +%% ---------------------------------------------------------------- +%% +%% Main Loop +%% + +-define(LOG_CACHE_SIZE, 10). + +%%-spec cl_loop(#cl_state{}) -> +cl_loop(State) -> + cl_loop(State, []). + +cl_loop(State, LogCache) -> + BackendPid = State#cl_state.backend_pid, + receive + {BackendPid, log, LogMsg} -> + %%io:format(State#cl_state.output ,"Log: ~s\n", [LogMsg]), + cl_loop(State, lists:sublist([LogMsg|LogCache], ?LOG_CACHE_SIZE)); + {BackendPid, warnings, Warnings} -> + NewState = store_warnings(State, Warnings), + cl_loop(NewState, LogCache); + {BackendPid, done, NewPlt, _NewDocPlt} -> + return_value(State, NewPlt); + {BackendPid, ext_calls, ExtCalls} -> + cl_loop(State#cl_state{external_calls = ExtCalls}, LogCache); + {BackendPid, mod_deps, ModDeps} -> + NewState = State#cl_state{mod_deps = ModDeps}, + cl_loop(NewState, LogCache); + {'EXIT', BackendPid, {error, Reason}} -> + Msg = failed_anal_msg(Reason, LogCache), + error(State, Msg); + {'EXIT', BackendPid, Reason} when Reason =/= 'normal' -> + Msg = failed_anal_msg(io_lib:format("~P", [Reason, 12]), LogCache), + error(State, Msg); + _Other -> + %% io:format("Received ~p\n", [_Other]), + cl_loop(State, LogCache) + end. + +-spec failed_anal_msg(string(), [_]) -> string(). + +failed_anal_msg(Reason, LogCache) -> + Msg = "Analysis failed with error: " ++ Reason ++ "\n", + case LogCache =:= [] of + true -> Msg; + false -> + Msg ++ "Last messages in the log cache:\n " ++ format_log_cache(LogCache) + end. + +%% +%% formats the log cache (treating it as a string) for pretty-printing +%% +format_log_cache(LogCache) -> + Str = lists:append(lists:reverse(LogCache)), + string:join(string:tokens(Str, "\n"), "\n "). + +-spec store_warnings(#cl_state{}, [dial_warning()]) -> #cl_state{}. + +store_warnings(#cl_state{stored_warnings = StoredWarnings} = St, Warnings) -> + St#cl_state{stored_warnings = StoredWarnings ++ Warnings}. + +-spec error(string()) -> no_return(). + +error(Msg) -> + throw({dialyzer_error, Msg}). + +-spec error(#cl_state{}, string()) -> no_return(). + +error(State, Msg) -> + case State#cl_state.output of + standard_io -> ok; + Outfile -> io:format(Outfile, "\n~s\n", [Msg]) + end, + maybe_close_output_file(State), + throw({dialyzer_error, Msg}). + +return_value(State = #cl_state{erlang_mode = ErlangMode, + mod_deps = ModDeps, + output_plt = OutputPlt, + plt_info = PltInfo, + stored_warnings = StoredWarnings}, + Plt) -> + case OutputPlt =:= none of + true -> ok; + false -> dialyzer_plt:to_file(OutputPlt, Plt, ModDeps, PltInfo) + end, + RetValue = + case StoredWarnings =:= [] of + true -> ?RET_NOTHING_SUSPICIOUS; + false -> ?RET_DISCREPANCIES + end, + case ErlangMode of + false -> + print_warnings(State), + print_ext_calls(State), + maybe_close_output_file(State), + {RetValue, []}; + true -> + {RetValue, process_warnings(StoredWarnings)} + end. + +print_ext_calls(#cl_state{report_mode = quiet}) -> + ok; +print_ext_calls(#cl_state{output = Output, + external_calls = Calls, + stored_warnings = Warnings, + output_format = Format}) -> + case Calls =:= [] of + true -> ok; + false -> + case Warnings =:= [] of + true -> io:nl(Output); %% Need to do a newline first + false -> ok + end, + case Format of + formatted -> + io:put_chars(Output, "Unknown functions:\n"), + do_print_ext_calls(Output, Calls, " "); + raw -> + io:put_chars(Output, "%% Unknown functions:\n"), + do_print_ext_calls(Output, Calls, "%% ") + end + end. + +do_print_ext_calls(Output, [{M,F,A}|T], Before) -> + io:format(Output, "~s~p:~p/~p\n", [Before,M,F,A]), + do_print_ext_calls(Output, T, Before); +do_print_ext_calls(_, [], _) -> + ok. + +print_warnings(#cl_state{stored_warnings = []}) -> + ok; +print_warnings(#cl_state{output = Output, + output_format = Format, + stored_warnings = Warnings}) -> + PrWarnings = process_warnings(Warnings), + case PrWarnings of + [] -> ok; + [_|_] -> + S = case Format of + formatted -> + [dialyzer:format_warning(W) || W <- PrWarnings]; + raw -> + [io_lib:format("~p. \n", [W]) || W <- PrWarnings] + end, + io:format(Output, "\n~s", [S]) + end. + +-spec process_warnings([dial_warning()]) -> [dial_warning()]. + +process_warnings(Warnings) -> + Warnings1 = lists:keysort(2, Warnings), %% Sort on file/line + remove_duplicate_warnings(Warnings1, []). + +remove_duplicate_warnings([Duplicate, Duplicate|Left], Acc) -> + remove_duplicate_warnings([Duplicate|Left], Acc); +remove_duplicate_warnings([NotDuplicate|Left], Acc) -> + remove_duplicate_warnings(Left, [NotDuplicate|Acc]); +remove_duplicate_warnings([], Acc) -> + lists:reverse(Acc). + +get_files_from_opts(Options) -> + From = Options#options.from, + Files1 = add_files(Options#options.files, From), + Files2 = add_files_rec(Options#options.files_rec, From), + ordsets:union(Files1, Files2). + +add_files_rec(Files, From) -> + add_files(Files, From, true). + +add_files(Files, From) -> + add_files(Files, From, false). + +add_files(Files, From, Rec) -> + Files1 = [filename:absname(F) || F <- Files], + Files2 = ordsets:from_list(Files1), + Dirs = ordsets:filter(fun(X) -> filelib:is_dir(X) end, Files2), + Files3 = ordsets:subtract(Files2, Dirs), + Extension = case From of + byte_code -> ".beam"; + src_code -> ".erl" + end, + Fun = add_file_fun(Extension), + lists:foldl(fun(Dir, Acc) -> + filelib:fold_files(Dir, Extension, Rec, Fun, Acc) + end, Files3, Dirs). + +add_file_fun(Extension) -> + fun(File, AccFiles) -> + case filename:extension(File) =:= Extension of + true -> + AbsName = filename:absname(File), + ordsets:add_element(AbsName, AccFiles); + false -> AccFiles + end + end. + +-spec start_analysis(#cl_state{}, #analysis{}) -> #cl_state{}. + +start_analysis(State, Analysis) -> + Self = self(), + LegalWarnings = State#cl_state.legal_warnings, + Fun = fun() -> + dialyzer_analysis_callgraph:start(Self, LegalWarnings, Analysis) + end, + BackendPid = spawn_link(Fun), + State#cl_state{backend_pid = BackendPid}. + diff --git a/lib/dialyzer/src/dialyzer_cl_parse.erl b/lib/dialyzer/src/dialyzer_cl_parse.erl new file mode 100644 index 0000000000..ae466e5c01 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_cl_parse.erl @@ -0,0 +1,448 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +-module(dialyzer_cl_parse). + +-export([start/0]). +-export([collect_args/1]). % used also by typer_options.erl + +-include("dialyzer.hrl"). + +%%----------------------------------------------------------------------- + +-type dial_cl_parse_ret() :: {'check_init', #options{}} + | {'plt_info', #options{}} + | {'cl', #options{}} + | {{'gui', 'gs' | 'wx'}, #options{}} + | {'error', string()}. + +%%----------------------------------------------------------------------- + +-spec start() -> dial_cl_parse_ret(). + +start() -> + init(), + Args = init:get_plain_arguments(), + try + cl(Args) + catch + throw:{dialyzer_cl_parse_error, Msg} -> {error, Msg}; + _:R -> + Msg = io_lib:format("~p\n~p\n", [R, erlang:get_stacktrace()]), + {error, lists:flatten(Msg)} + end. + +cl(["--add_to_plt"|T]) -> + put(dialyzer_options_analysis_type, plt_add), + cl(T); +cl(["--apps"|T]) -> + T1 = get_lib_dir(T, []), + {Args, T2} = collect_args(T1), + append_var(dialyzer_options_files_rec, Args), + cl(T2); +cl(["--build_plt"|T]) -> + put(dialyzer_options_analysis_type, plt_build), + cl(T); +cl(["--check_plt"|T]) -> + put(dialyzer_options_analysis_type, plt_check), + cl(T); +cl(["-n"|T]) -> + cl(["--no_check_plt"|T]); +cl(["--no_check_plt"|T]) -> + put(dialyzer_options_check_plt, false), + cl(T); +cl(["--plt_info"|T]) -> + put(dialyzer_options_analysis_type, plt_info), + cl(T); +cl(["--get_warnings"|T]) -> + put(dialyzer_options_get_warnings, true), + cl(T); +cl(["-D"|_]) -> + error("No defines specified after -D"); +cl(["-D"++Define|T]) -> + Def = re:split(Define, "=", [{return, list}]), + append_defines(Def), + cl(T); +cl(["-h"|_]) -> + help_message(); +cl(["--help"|_]) -> + help_message(); +cl(["-I"]) -> + error("no include directory specified after -I"); +cl(["-I", Dir|T]) -> + append_include(Dir), + cl(T); +cl(["-I"++Dir|T]) -> + append_include(Dir), + cl(T); +cl(["-c"++_|T]) -> + NewTail = command_line(T), + cl(NewTail); +cl(["-r"++_|T0]) -> + {Args, T} = collect_args(T0), + append_var(dialyzer_options_files_rec, Args), + cl(T); +cl(["--remove_from_plt"|T]) -> + put(dialyzer_options_analysis_type, plt_remove), + cl(T); +cl(["--com"++_|T]) -> + NewTail = command_line(T), + cl(NewTail); +cl(["--output"]) -> + error("No outfile specified"); +cl(["-o"]) -> + error("No outfile specified"); +cl(["--output",Output|T]) -> + put(dialyzer_output, Output), + cl(T); +cl(["--output_plt"]) -> + error("No outfile specified for --output_plt"); +cl(["--output_plt",Output|T]) -> + put(dialyzer_output_plt, Output), + cl(T); +cl(["-o", Output|T]) -> + put(dialyzer_output, Output), + cl(T); +cl(["-o"++Output|T]) -> + put(dialyzer_output, Output), + cl(T); +cl(["--raw"|T]) -> + put(dialyzer_output_format, raw), + cl(T); +cl(["-pa", Path|T]) -> + case code:add_patha(Path) of + true -> cl(T); + {error, _} -> error("Bad directory for -pa: "++Path) + end; +cl(["--plt", PLT|T]) -> + put(dialyzer_init_plt, PLT), + cl(T); +cl(["--plt"]) -> + error("No plt specified for --plt"); +cl(["-q"|T]) -> + put(dialyzer_options_report_mode, quiet), + cl(T); +cl(["--quiet"|T]) -> + put(dialyzer_options_report_mode, quiet), + cl(T); +cl(["--src"|T]) -> + put(dialyzer_options_from, src_code), + cl(T); +cl(["--no_spec"|T]) -> + put(dialyzer_options_use_contracts, false), + cl(T); +cl(["-v"|_]) -> + io:format("Dialyzer version "++?VSN++"\n"), + erlang:halt(?RET_NOTHING_SUSPICIOUS); +cl(["--version"|_]) -> + io:format("Dialyzer version "++?VSN++"\n"), + erlang:halt(?RET_NOTHING_SUSPICIOUS); +cl(["--verbose"|T]) -> + put(dialyzer_options_report_mode, verbose), + cl(T); +cl(["-W"|_]) -> + error("-W given without warning"); +cl(["-Whelp"|_]) -> + help_warnings(); +cl(["-W"++Warn|T]) -> + append_var(dialyzer_warnings, [list_to_atom(Warn)]), + cl(T); +cl(["--dump_callgraph"]) -> + error("No outfile specified for --dump_callgraph"); +cl(["--dump_callgraph", File|T]) -> + put(dialyzer_callgraph_file, File), + cl(T); +cl(["--gui"|T]) -> + put(dialyzer_options_mode, {gui, gs}), + cl(T); +cl(["--wx"|T]) -> + put(dialyzer_options_mode, {gui, wx}), + cl(T); +cl([H|_] = L) -> + case filelib:is_file(H) orelse filelib:is_dir(H) of + true -> + NewTail = command_line(L), + cl(NewTail); + false -> + error("Unknown option: "++H) + end; +cl([]) -> + {RetTag, Opts} = + case get(dialyzer_options_analysis_type) =:= plt_info of + true -> + put(dialyzer_options_analysis_type, plt_check), + {plt_info, cl_options()}; + false -> + case get(dialyzer_options_mode) of + {gui,_} = GUI -> {GUI, common_options()}; + cl -> + case get(dialyzer_options_analysis_type) =:= plt_check of + true -> {check_init, cl_options()}; + false -> {cl, cl_options()} + end + end + end, + case dialyzer_options:build(Opts) of + {error, Msg} -> error(Msg); + OptsRecord -> {RetTag, OptsRecord} + end. + +%%----------------------------------------------------------------------- + +command_line(T0) -> + {Args, T} = collect_args(T0), + append_var(dialyzer_options_files, Args), + %% if all files specified are ".erl" files, set the 'src' flag automatically + case lists:all(fun(F) -> filename:extension(F) =:= ".erl" end, Args) of + true -> put(dialyzer_options_from, src_code); + false -> ok + end, + T. + +error(Str) -> + Msg = lists:flatten(Str), + throw({dialyzer_cl_parse_error, Msg}). + +init() -> + put(dialyzer_options_mode, cl), + put(dialyzer_options_files_rec, []), + put(dialyzer_options_report_mode, normal), + put(dialyzer_warnings, []), + DefaultOpts = #options{}, + put(dialyzer_include, DefaultOpts#options.include_dirs), + put(dialyzer_options_defines, DefaultOpts#options.defines), + put(dialyzer_options_files, DefaultOpts#options.files), + put(dialyzer_output_format, formatted), + put(dialyzer_options_check_plt, DefaultOpts#options.check_plt), + ok. + +append_defines([Def, Val]) -> + {ok, Tokens, _} = erl_scan:string(Val++"."), + {ok, ErlVal} = erl_parse:parse_term(Tokens), + append_var(dialyzer_options_defines, [{list_to_atom(Def), ErlVal}]); +append_defines([Def]) -> + append_var(dialyzer_options_defines, [{list_to_atom(Def), true}]). + +append_include(Dir) -> + append_var(dialyzer_include, [Dir]). + +append_var(Var, List) when is_list(List) -> + put(Var, get(Var) ++ List), + ok. + +%%----------------------------------------------------------------------- + +-spec collect_args([string()]) -> {[string()], [string()]}. + +collect_args(List) -> + collect_args_1(List, []). + +collect_args_1(["-"++_|_] = L, Acc) -> + {lists:reverse(Acc), L}; +collect_args_1([Arg|T], Acc) -> + collect_args_1(T, [Arg|Acc]); +collect_args_1([], Acc) -> + {lists:reverse(Acc), []}. + +%%----------------------------------------------------------------------- + +cl_options() -> + [{files, get(dialyzer_options_files)}, + {files_rec, get(dialyzer_options_files_rec)}, + {output_file, get(dialyzer_output)}, + {output_format, get(dialyzer_output_format)}, + {analysis_type, get(dialyzer_options_analysis_type)}, + {get_warnings, get(dialyzer_options_get_warnings)}, + {callgraph_file, get(dialyzer_callgraph_file)} + |common_options()]. + +common_options() -> + [{defines, get(dialyzer_options_defines)}, + {from, get(dialyzer_options_from)}, + {include_dirs, get(dialyzer_include)}, + {init_plt, get(dialyzer_init_plt)}, + {output_plt, get(dialyzer_output_plt)}, + {report_mode, get(dialyzer_options_report_mode)}, + {use_spec, get(dialyzer_options_use_contracts)}, + {warnings, get(dialyzer_warnings)}, + {check_plt, get(dialyzer_options_check_plt)}]. + +%%----------------------------------------------------------------------- + +get_lib_dir([H|T], Acc) -> + NewElem = + case code:lib_dir(list_to_atom(H)) of + {error, bad_name} -> + case H =:= "erts" of % hack for including erts in an un-installed system + true -> filename:join(code:root_dir(), "erts/preloaded/ebin"); + false -> H + end; + LibDir -> LibDir ++ "/ebin" + end, + get_lib_dir(T, [NewElem|Acc]); +get_lib_dir([], Acc) -> + lists:reverse(Acc). + +%%----------------------------------------------------------------------- + +help_warnings() -> + S = warning_options_msg(), + io:put_chars(S), + erlang:halt(?RET_NOTHING_SUSPICIOUS). + +help_message() -> + S = "Usage: dialyzer [--help] [--version] [--shell] [--quiet] [--verbose] + [-pa dir]* [--plt plt] [-Ddefine]* [-I include_dir]* + [--output_plt file] [-Wwarn]* [--src] [--gui | --wx] + [-c applications] [-r applications] [-o outfile] + [--build_plt] [--add_to_plt] [--remove_from_plt] + [--check_plt] [--no_check_plt] [--plt_info] [--get_warnings] +Options: + -c applications (or --command-line applications) + Use Dialyzer from the command line (no GUI) to detect defects in the + specified applications (directories or .erl or .beam files) + -r applications + Same as -c only that directories are searched recursively for + subdirectories containing .erl or .beam files (depending on the + type of analysis) + -o outfile (or --output outfile) + When using Dialyzer from the command line, send the analysis + results to the specified \"outfile\" rather than to stdout + --raw + When using Dialyzer from the command line, output the raw analysis + results (Erlang terms) instead of the formatted result. + The raw format is easier to post-process (for instance, to filter + warnings or to output HTML pages) + --src + Override the default, which is to analyze BEAM files, and + analyze starting from Erlang source code instead + -Dname (or -Dname=value) + When analyzing from source, pass the define to Dialyzer (**) + -I include_dir + When analyzing from source, pass the include_dir to Dialyzer (**) + -pa dir + Include dir in the path for Erlang (useful when analyzing files + that have '-include_lib()' directives) + --output_plt file + Store the plt at the specified file after building it + --plt plt + Use the specified plt as the initial plt (if the plt was built + during setup the files will be checked for consistency) + -Wwarn + A family of options which selectively turn on/off warnings + (for help on the names of warnings use dialyzer -Whelp) + --shell + Do not disable the Erlang shell while running the GUI + --version (or -v) + Prints the Dialyzer version and some more information and exits + --help (or -h) + Prints this message and exits + --quiet (or -q) + Makes Dialyzer a bit more quiet + --verbose + Makes Dialyzer a bit more verbose + --build_plt + The analysis starts from an empty plt and creates a new one from the + files specified with -c and -r. Only works for beam files. + Use --plt or --output_plt to override the default plt location. + --add_to_plt + The plt is extended to also include the files specified with -c and -r. + Use --plt to specify wich plt to start from, and --output_plt to + specify where to put the plt. Note that the analysis might include + files from the plt if they depend on the new files. + This option only works with beam files. + --remove_from_plt + The information from the files specified with -c and -r is removed + from the plt. Note that this may cause a re-analysis of the remaining + dependent files. + --check_plt + Checks the plt for consistency and rebuilds it if it is not up-to-date. + Actually, this option is of rare use as it is on by default. + --no_check_plt (or -n) + Skip the plt check when running Dialyzer. Useful when working with + installed plts that never change. + --plt_info + Makes Dialyzer print information about the plt and then quit. The plt + can be specified with --plt. + --get_warnings + Makes Dialyzer emit warnings even when manipulating the plt. Only + emits warnings for files that are actually analyzed. + --dump_callgraph file + Dump the call graph into the specified file whose format is determined + by the file name extension. Supported extensions are: raw, dot, and ps. + If something else is used as file name extension, default format '.raw' + will be used. + --gui + Use the gs-based GUI. + --wx + Use the wx-based GUI. + +Note: + * denotes that multiple occurrences of these options are possible. + ** options -D and -I work both from command-line and in the Dialyzer GUI; + the syntax of defines and includes is the same as that used by \"erlc\". + +" ++ warning_options_msg() ++ " +The exit status of the command line version is: + 0 - No problems were encountered during the analysis and no + warnings were emitted. + 1 - Problems were encountered during the analysis. + 2 - No problems were encountered, but warnings were emitted. +", + io:put_chars(S), + erlang:halt(?RET_NOTHING_SUSPICIOUS). + +warning_options_msg() -> + "Warning options: + -Wno_return + Suppress warnings for functions that will never return a value. + -Wno_unused + Suppress warnings for unused functions. + -Wno_improper_lists + Suppress warnings for construction of improper lists. + -Wno_tuple_as_fun + Suppress warnings for using tuples instead of funs. + -Wno_fun_app + Suppress warnings for fun applications that will fail. + -Wno_match + Suppress warnings for patterns that are unused or cannot match. + -Wno_opaque + Suppress warnings for violations of opaqueness of data types. + -Wunmatched_returns *** + Include warnings for function calls which ignore a structured return + value or do not match against one of many possible return value(s). + -Werror_handling *** + Include warnings for functions that only return by means of an exception. + -Wrace_conditions *** + Include warnings for possible race conditions. + -Wunderspecs *** + Warn about underspecified functions + (those whose -spec is strictly more allowing than the success typing). + +The following options are also available but their use is not recommended: +(they are mostly for Dialyzer developers and internal debugging) + -Woverspecs *** + Warn about overspecified functions + (those whose -spec is strictly less allowing than the success typing). + -Wspecdiffs *** + Warn when the -spec is different than the success typing. + +*** Identifies options that turn on warnings rather than turning them off. +". diff --git a/lib/dialyzer/src/dialyzer_codeserver.erl b/lib/dialyzer/src/dialyzer_codeserver.erl new file mode 100644 index 0000000000..624501fc49 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_codeserver.erl @@ -0,0 +1,282 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_codeserver.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : +%%% +%%% Created : 4 Apr 2005 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- +-module(dialyzer_codeserver). + +-export([delete/1, + finalize_contracts/2, + finalize_records/2, + get_contracts/1, + get_exports/1, + get_records/1, + get_next_core_label/1, + get_temp_contracts/1, + get_temp_records/1, + insert/3, + insert_exports/2, + is_exported/2, + lookup_mod_code/2, + lookup_mfa_code/2, + lookup_mod_records/2, + lookup_mod_contracts/2, + lookup_mfa_contract/2, + new/0, + set_next_core_label/2, + set_temp_records/2, + store_records/3, + store_temp_records/3, + store_contracts/3, + store_temp_contracts/3]). + +-include("dialyzer.hrl"). + +%%-------------------------------------------------------------------- + +-record(dialyzer_codeserver, {table_pid :: pid(), + exports = sets:new() :: set(), % set(mfa()) + next_core_label = 0 :: label(), + records = dict:new() :: dict(), + temp_records = dict:new() :: dict(), + contracts = dict:new() :: dict(), + temp_contracts = dict:new() :: dict()}). + +-opaque codeserver() :: #dialyzer_codeserver{}. + +%%-------------------------------------------------------------------- + +-spec new() -> codeserver(). + +new() -> + #dialyzer_codeserver{table_pid = table__new()}. + +-spec delete(codeserver()) -> 'ok'. + +delete(#dialyzer_codeserver{table_pid = TablePid}) -> + table__delete(TablePid). + +-spec insert(module(), cerl:c_module(), codeserver()) -> codeserver(). + +insert(Mod, ModCode, CS) -> + NewTablePid = table__insert(CS#dialyzer_codeserver.table_pid, Mod, ModCode), + CS#dialyzer_codeserver{table_pid = NewTablePid}. + +-spec insert_exports([mfa()], codeserver()) -> codeserver(). + +insert_exports(List, #dialyzer_codeserver{exports = Exports} = CS) -> + Set = sets:from_list(List), + NewExports = sets:union(Exports, Set), + CS#dialyzer_codeserver{exports = NewExports}. + +-spec is_exported(mfa(), codeserver()) -> boolean(). + +is_exported(MFA, #dialyzer_codeserver{exports = Exports}) -> + sets:is_element(MFA, Exports). + +-spec get_exports(codeserver()) -> set(). % set(mfa()) + +get_exports(#dialyzer_codeserver{exports = Exports}) -> + Exports. + +-spec lookup_mod_code(module(), codeserver()) -> cerl:c_module(). + +lookup_mod_code(Mod, CS) when is_atom(Mod) -> + table__lookup(CS#dialyzer_codeserver.table_pid, Mod). + +-spec lookup_mfa_code(mfa(), codeserver()) -> {cerl:c_var(), cerl:c_fun()}. + +lookup_mfa_code({_M, _F, _A} = MFA, CS) -> + table__lookup(CS#dialyzer_codeserver.table_pid, MFA). + +-spec get_next_core_label(codeserver()) -> label(). + +get_next_core_label(#dialyzer_codeserver{next_core_label = NCL}) -> + NCL. + +-spec set_next_core_label(label(), codeserver()) -> codeserver(). + +set_next_core_label(NCL, CS) -> + CS#dialyzer_codeserver{next_core_label = NCL}. + +-spec store_records(module(), dict(), codeserver()) -> codeserver(). + +store_records(Mod, Dict, #dialyzer_codeserver{records = RecDict} = CS) + when is_atom(Mod) -> + case dict:size(Dict) =:= 0 of + true -> CS; + false -> CS#dialyzer_codeserver{records = dict:store(Mod, Dict, RecDict)} + end. + +-spec lookup_mod_records(module(), codeserver()) -> dict(). + +lookup_mod_records(Mod, #dialyzer_codeserver{records = RecDict}) + when is_atom(Mod) -> + case dict:find(Mod, RecDict) of + error -> dict:new(); + {ok, Dict} -> Dict + end. + +-spec get_records(codeserver()) -> dict(). + +get_records(#dialyzer_codeserver{records = RecDict}) -> + RecDict. + +-spec store_temp_records(module(), dict(), codeserver()) -> codeserver(). + +store_temp_records(Mod, Dict, #dialyzer_codeserver{temp_records = TempRecDict} = CS) + when is_atom(Mod) -> + case dict:size(Dict) =:= 0 of + true -> CS; + false -> CS#dialyzer_codeserver{temp_records = dict:store(Mod, Dict, TempRecDict)} + end. + +-spec get_temp_records(codeserver()) -> dict(). + +get_temp_records(#dialyzer_codeserver{temp_records = TempRecDict}) -> + TempRecDict. + +-spec set_temp_records(dict(), codeserver()) -> codeserver(). + +set_temp_records(Dict, CS) -> + CS#dialyzer_codeserver{temp_records = Dict}. + +-spec finalize_records(dict(), codeserver()) -> codeserver(). + +finalize_records(Dict, CS) -> + CS#dialyzer_codeserver{records = Dict, temp_records = dict:new()}. + +-spec store_contracts(module(), dict(), codeserver()) -> codeserver(). + +store_contracts(Mod, Dict, #dialyzer_codeserver{contracts = C} = CS) + when is_atom(Mod) -> + case dict:size(Dict) =:= 0 of + true -> CS; + false -> CS#dialyzer_codeserver{contracts = dict:store(Mod, Dict, C)} + end. + +-spec lookup_mod_contracts(module(), codeserver()) -> dict(). + +lookup_mod_contracts(Mod, #dialyzer_codeserver{contracts = ContDict}) + when is_atom(Mod) -> + case dict:find(Mod, ContDict) of + error -> dict:new(); + {ok, Dict} -> Dict + end. + +-spec lookup_mfa_contract(mfa(), codeserver()) -> + 'error' | {'ok', dialyzer_contracts:file_contract()}. + +lookup_mfa_contract({M,_F,_A} = MFA, #dialyzer_codeserver{contracts = ContDict}) -> + case dict:find(M, ContDict) of + error -> error; + {ok, Dict} -> dict:find(MFA, Dict) + end. + +-spec get_contracts(codeserver()) -> dict(). + +get_contracts(#dialyzer_codeserver{contracts = ContDict}) -> + ContDict. + +-spec store_temp_contracts(module(), dict(), codeserver()) -> codeserver(). + +store_temp_contracts(Mod, Dict, #dialyzer_codeserver{temp_contracts = C} = CS) + when is_atom(Mod) -> + case dict:size(Dict) =:= 0 of + true -> CS; + false -> CS#dialyzer_codeserver{temp_contracts = dict:store(Mod, Dict, C)} + end. + +-spec get_temp_contracts(codeserver()) -> dict(). + +get_temp_contracts(#dialyzer_codeserver{temp_contracts = TempContDict}) -> + TempContDict. + +-spec finalize_contracts(dict(), codeserver()) -> codeserver(). + +finalize_contracts(Dict, CS) -> + CS#dialyzer_codeserver{contracts = Dict, temp_contracts = dict:new()}. + +table__new() -> + spawn_link(fun() -> table__loop(none, dict:new()) end). + +table__delete(TablePid) -> + TablePid ! stop, + ok. + +table__lookup(TablePid, Key) -> + TablePid ! {self(), lookup, Key}, + receive + {TablePid, Key, Ans} -> Ans + end. + +table__insert(TablePid, Key, Val) -> + TablePid ! {insert, [{Key, term_to_binary(Val, [compressed])}]}, + TablePid. + +table__loop(Cached, Map) -> + receive + stop -> ok; + {Pid, lookup, {M, F, A} = MFA} -> + {NewCached, Ans} = + case Cached of + {M, Tree} -> + [Val] = [VarFun || {Var, _Fun} = VarFun <- cerl:module_defs(Tree), + cerl:fname_id(Var) =:= F, + cerl:fname_arity(Var) =:= A], + {Cached, Val}; + _ -> + Tree = fetch_and_expand(M, Map), + [Val] = [VarFun || {Var, _Fun} = VarFun <- cerl:module_defs(Tree), + cerl:fname_id(Var) =:= F, + cerl:fname_arity(Var) =:= A], + {{M, Tree}, Val} + end, + Pid ! {self(), MFA, Ans}, + table__loop(NewCached, Map); + {Pid, lookup, Mod} when is_atom(Mod) -> + Ans = case Cached of + {Mod, Tree} -> Tree; + _ -> fetch_and_expand(Mod, Map) + end, + Pid ! {self(), Mod, Ans}, + table__loop({Mod, Ans}, Map); + {insert, List} -> + NewMap = lists:foldl(fun({Key, Val}, AccMap) -> + dict:store(Key, Val, AccMap) + end, Map, List), + table__loop(Cached, NewMap) + end. + +fetch_and_expand(Mod, Map) -> + try + Bin = dict:fetch(Mod, Map), + binary_to_term(Bin) + catch + _:_ -> + S = atom_to_list(Mod), + Msg = "found no module named '" ++ S ++ "' in the analyzed files", + exit({error, Msg}) + end. diff --git a/lib/dialyzer/src/dialyzer_contracts.erl b/lib/dialyzer/src/dialyzer_contracts.erl new file mode 100644 index 0000000000..e2680bb03d --- /dev/null +++ b/lib/dialyzer/src/dialyzer_contracts.erl @@ -0,0 +1,492 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2007-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +-module(dialyzer_contracts). + +-export([check_contract/2, + check_contracts/3, + contracts_without_fun/3, + contract_to_string/1, + get_invalid_contract_warnings/3, + get_contract_args/1, + get_contract_return/1, + get_contract_return/2, + %% get_contract_signature/1, + is_overloaded/1, + process_contract_remote_types/1, + store_tmp_contract/5]). + +%%----------------------------------------------------------------------- + +-include("dialyzer.hrl"). + +%%----------------------------------------------------------------------- +%% Types used in other parts of the system below +%%----------------------------------------------------------------------- + +-type file_contract() :: {file_line(), #contract{}}. + +-type plt_contracts() :: [{mfa(), #contract{}}]. % actually, an orddict() + +%%----------------------------------------------------------------------- +%% Internal record for contracts whose components have not been processed +%% to expand records and/or remote types that they might contain. +%%----------------------------------------------------------------------- + +-type tmp_contract_fun() :: fun((dict()) -> contract_pair()). + +-record(tmp_contract, {contract_funs = [] :: [tmp_contract_fun()], + forms = [] :: [{_, _}]}). + +%%----------------------------------------------------------------------- + +%%-define(DEBUG, true). + +-ifdef(DEBUG). +-define(debug(X__, Y__), io:format(X__, Y__)). +-else. +-define(debug(X__, Y__), ok). +-endif. + +%%----------------------------------------------------------------------- + +-spec get_contract_return(#contract{}) -> erl_types:erl_type(). + +get_contract_return(#contract{contracts = Cs, args = GenArgs}) -> + process_contracts(Cs, GenArgs). + +-spec get_contract_return(#contract{}, [erl_types:erl_type()]) -> erl_types:erl_type(). + +get_contract_return(#contract{contracts = Cs}, Args) -> + process_contracts(Cs, Args). + +-spec get_contract_args(#contract{}) -> [erl_types:erl_type()]. + +get_contract_args(#contract{args = Args}) -> + Args. + +-spec get_contract_signature(#contract{}) -> erl_types:erl_type(). + +get_contract_signature(#contract{contracts = Cs, args = GeneralDomain}) -> + Range = process_contracts(Cs, GeneralDomain), + erl_types:t_fun(GeneralDomain, Range). + +-spec is_overloaded(#contract{}) -> boolean(). + +is_overloaded(#contract{contracts = Cs}) -> + case Cs of + [_] -> true; + [_,_|_] -> false + end. + +-spec contract_to_string(#contract{}) -> string(). + +contract_to_string(#contract{forms = Forms}) -> + contract_to_string_1(Forms). + +contract_to_string_1([{Contract, []}]) -> + strip_fun(erl_types:t_form_to_string(Contract)); +contract_to_string_1([{Contract, []}|Rest]) -> + strip_fun(erl_types:t_form_to_string(Contract)) ++ "\n ; " + ++ contract_to_string_1(Rest); +contract_to_string_1([{Contract, Constraints}]) -> + strip_fun(erl_types:t_form_to_string(Contract)) ++ " when " + ++ constraints_to_string(Constraints); +contract_to_string_1([{Contract, Constraints}|Rest]) -> + strip_fun(erl_types:t_form_to_string(Contract)) ++ " when " + ++ constraints_to_string(Constraints) ++ ";" ++ + contract_to_string_1(Rest). + +strip_fun("fun(" ++ String) -> + butlast(String). + +butlast([]) -> []; +butlast([_]) -> []; +butlast([H|T]) -> [H|butlast(T)]. + +constraints_to_string([]) -> + ""; +constraints_to_string([{type, _, constraint, [{atom, _, What}, Types]}]) -> + atom_to_list(What) ++ "(" ++ + sequence([erl_types:t_form_to_string(T) || T <- Types], ",") ++ ")"; +constraints_to_string([{type, _, constraint, [{atom, _, What}, Types]}|Rest]) -> + atom_to_list(What) ++ "(" ++ + sequence([erl_types:t_form_to_string(T) || T <- Types], ",") + ++ "), " ++ constraints_to_string(Rest). + +sequence([], _Delimiter) -> ""; +sequence([H], _Delimiter) -> H; +sequence([H|T], Delimiter) -> H ++ Delimiter ++ sequence(T, Delimiter). + +-spec process_contract_remote_types(dialyzer_codeserver:codeserver()) -> + dialyzer_codeserver:codeserver(). + +process_contract_remote_types(CodeServer) -> + TmpContractDict = dialyzer_codeserver:get_temp_contracts(CodeServer), + RecordDict = dialyzer_codeserver:get_records(CodeServer), + ContractFun = + fun({_M, _F, _A}, {File, #tmp_contract{contract_funs = CFuns, forms = Forms}}) -> + NewCs = [CFun(RecordDict) || CFun <- CFuns], + Args = general_domain(NewCs), + {File, #contract{contracts = NewCs, args = Args, forms = Forms}} + end, + ModuleFun = + fun(_ModuleName, ContractDict) -> + dict:map(ContractFun, ContractDict) + end, + NewContractDict = dict:map(ModuleFun, TmpContractDict), + dialyzer_codeserver:finalize_contracts(NewContractDict, CodeServer). + +-spec check_contracts([{mfa(), file_contract()}], + dialyzer_callgraph:callgraph(), dict()) -> plt_contracts(). + +check_contracts(Contracts, Callgraph, FunTypes) -> + FoldFun = + fun(Label, Type, NewContracts) -> + {ok, {M,F,A} = MFA} = dialyzer_callgraph:lookup_name(Label, Callgraph), + case orddict:find(MFA, Contracts) of + {ok, {_FileLine, Contract}} -> + case check_contract(Contract, Type) of + ok -> + case erl_bif_types:is_known(M, F, A) of + true -> + %% Disregard the contracts since + %% this is a known function. + NewContracts; + false -> + [{MFA, Contract}|NewContracts] + end; + {error, _Error} -> NewContracts + end; + error -> NewContracts + end + end, + dict:fold(FoldFun, [], FunTypes). + +%% Checks all components of a contract +-spec check_contract(#contract{}, erl_types:erl_type()) -> 'ok' | {'error', term()}. + +check_contract(#contract{contracts = Contracts}, SuccType) -> + try + Contracts1 = [{Contract, insert_constraints(Constraints, dict:new())} + || {Contract, Constraints} <- Contracts], + Contracts2 = [erl_types:t_subst(Contract, Dict) + || {Contract, Dict} <- Contracts1], + GenDomains = [erl_types:t_fun_args(C) || C <- Contracts2], + case check_domains(GenDomains) of + error -> + {error, {overlapping_contract, []}}; + ok -> + InfList = [erl_types:t_inf(Contract, SuccType, opaque) + || Contract <- Contracts2], + check_contract_inf_list(InfList, SuccType) + end + catch throw:{error, _} = Error -> Error + end. + +check_domains([_]) -> ok; +check_domains([Dom|Doms]) -> + Fun = fun(D) -> + erl_types:any_none_or_unit(erl_types:t_inf_lists(Dom, D, opaque)) + end, + case lists:all(Fun, Doms) of + true -> check_domains(Doms); + false -> error + end. + +%% Allow a contract if one of the overloaded contracts is possible. +%% We used to be more strict, e.g., all overloaded contracts had to be +%% possible. +check_contract_inf_list([FunType|Left], SuccType) -> + FunArgs = erl_types:t_fun_args(FunType), + case lists:any(fun erl_types:t_is_none_or_unit/1, FunArgs) of + true -> check_contract_inf_list(Left, SuccType); + false -> + STRange = erl_types:t_fun_range(SuccType), + case erl_types:t_is_none_or_unit(STRange) of + true -> ok; + false -> + Range = erl_types:t_fun_range(FunType), + case erl_types:t_is_none(erl_types:t_inf(STRange, Range, opaque)) of + true -> check_contract_inf_list(Left, SuccType); + false -> ok + end + end + end; +check_contract_inf_list([], _SuccType) -> + {error, invalid_contract}. + +%% This is the heart of the "range function" +-spec process_contracts([contract_pair()], [erl_types:erl_type()]) -> erl_types:erl_type(). + +process_contracts(OverContracts, Args) -> + process_contracts(OverContracts, Args, erl_types:t_none()). + +process_contracts([OverContract|Left], Args, AccRange) -> + NewAccRange = + case process_contract(OverContract, Args) of + error -> AccRange; + {ok, Range} -> erl_types:t_sup(AccRange, Range) + end, + process_contracts(Left, Args, NewAccRange); +process_contracts([], _Args, AccRange) -> + AccRange. + +-spec process_contract(contract_pair(), [erl_types:erl_type()]) -> 'error' | {'ok', erl_types:erl_type()}. + +process_contract({Contract, Constraints}, CallTypes0) -> + CallTypesFun = erl_types:t_fun(CallTypes0, erl_types:t_any()), + ContArgsFun = erl_types:t_fun(erl_types:t_fun_args(Contract), + erl_types:t_any()), + ?debug("Instance: Contract: ~s\n Arguments: ~s\n", + [erl_types:t_to_string(ContArgsFun), + erl_types:t_to_string(CallTypesFun)]), + case solve_constraints(ContArgsFun, CallTypesFun, Constraints) of + {ok, VarDict} -> + {ok, erl_types:t_subst(erl_types:t_fun_range(Contract), VarDict)}; + error -> error + end. + +solve_constraints(Contract, Call, Constraints) -> + %% First make sure the call follows the constraints + CDict = insert_constraints(Constraints, dict:new()), + Contract1 = erl_types:t_subst(Contract, CDict), + %% Just a safe over-approximation. + %% TODO: Find the types for type variables properly + ContrArgs = erl_types:t_fun_args(Contract1), + CallArgs = erl_types:t_fun_args(Call), + InfList = erl_types:t_inf_lists(ContrArgs, CallArgs), + case erl_types:any_none_or_unit(InfList) of + true -> error; + false -> {ok, CDict} + end. + %%Inf = erl_types:t_inf(Contract1, Call), + %% Then unify with the constrained call type. + %% ?debug("Call: ~s\n", [erl_types:t_to_string(Call)]), + %% ?debug("Contract: ~s\n", [erl_types:t_to_string(Contract)]), + %% ?debug("Contract1: ~s\n", [erl_types:t_to_string(Contract1)]), + %% ?debug("Inf: ~s\n", [erl_types:t_to_string(Inf)]), + %% erl_types:t_assign_variables_to_subtype(Contract, Inf). + +%% Checks the contracts for functions that are not implemented +-spec contracts_without_fun(dict(), [_], dialyzer_callgraph:callgraph()) -> [dial_warning()]. + +contracts_without_fun(Contracts, AllFuns0, Callgraph) -> + AllFuns1 = [{dialyzer_callgraph:lookup_name(Label, Callgraph), Arity} + || {Label, Arity} <- AllFuns0], + AllFuns2 = [{M, F, A} || {{ok, {M, F, _}}, A} <- AllFuns1], + AllContractMFAs = dict:fetch_keys(Contracts), + ErrorContractMFAs = AllContractMFAs -- AllFuns2, + [warn_spec_missing_fun(MFA, Contracts) || MFA <- ErrorContractMFAs]. + +warn_spec_missing_fun({M, F, A} = MFA, Contracts) -> + {FileLine, _Contract} = dict:fetch(MFA, Contracts), + {?WARN_CONTRACT_SYNTAX, FileLine, {spec_missing_fun, [M, F, A]}}. + +%% This treats the "when" constraints. It will be extended, we hope. +insert_constraints([{subtype, Type1, Type2}|Left], Dict) -> + case erl_types:t_is_var(Type1) of + true -> + Name = erl_types:t_var_name(Type1), + Dict1 = case dict:find(Name, Dict) of + error -> + dict:store(Name, Type2, Dict); + {ok, VarType} -> + dict:store(Name, erl_types:t_inf(VarType, Type2), Dict) + end, + insert_constraints(Left, Dict1); + false -> + %% A lot of things should change to add supertypes + throw({error, io_lib:format("First argument of is_subtype constraint " + "must be a type variable\n", [])}) + end; +insert_constraints([], Dict) -> Dict. + +-spec store_tmp_contract(mfa(), file_line(), [_], dict(), dict()) -> dict(). + +store_tmp_contract(MFA, FileLine, TypeSpec, SpecDict, RecordsDict) -> + %% io:format("contract from form: ~p\n", [TypeSpec]), + TmpContract = contract_from_form(TypeSpec, RecordsDict), + %% io:format("contract: ~p\n", [Contract]), + dict:store(MFA, {FileLine, TmpContract}, SpecDict). + +contract_from_form(Forms, RecDict) -> + {CFuns, Forms1} = contract_from_form(Forms, RecDict, [], []), + #tmp_contract{contract_funs = CFuns, forms = Forms1}. + +contract_from_form([{type, _, 'fun', [_, _]} = Form | Left], RecDict, + TypeAcc, FormAcc) -> + TypeFun = + fun(AllRecords) -> + Type = erl_types:t_from_form(Form, RecDict), + NewType = erl_types:t_solve_remote(Type, AllRecords), + {NewType, []} + end, + NewTypeAcc = [TypeFun | TypeAcc], + NewFormAcc = [{Form, []} | FormAcc], + contract_from_form(Left, RecDict, NewTypeAcc, NewFormAcc); +contract_from_form([{type, _L1, bounded_fun, + [{type, _L2, 'fun', [_, _]} = Form, Constr]}| Left], + RecDict, TypeAcc, FormAcc) -> + TypeFun = + fun(AllRecords) -> + Constr1 = [constraint_from_form(C, RecDict, AllRecords) || C <- Constr], + VarDict = insert_constraints(Constr1, dict:new()), + Type = erl_types:t_from_form(Form, RecDict, VarDict), + NewType = erl_types:t_solve_remote(Type, AllRecords), + {NewType, Constr1} + end, + NewTypeAcc = [TypeFun | TypeAcc], + NewFormAcc = [{Form, Constr} | FormAcc], + contract_from_form(Left, RecDict, NewTypeAcc, NewFormAcc); +contract_from_form([], _RecDict, TypeAcc, FormAcc) -> + {lists:reverse(TypeAcc), lists:reverse(FormAcc)}. + +constraint_from_form({type, _, constraint, [{atom, _, is_subtype}, + [Type1, Type2]]}, RecDict, AllRecords) -> + T1 = erl_types:t_from_form(Type1, RecDict), + T2 = erl_types:t_from_form(Type2, RecDict), + T3 = erl_types:t_solve_remote(T1, AllRecords), + T4 = erl_types:t_solve_remote(T2, AllRecords), + {subtype, T3, T4}; +constraint_from_form({type, _, constraint, [{atom,_,Name}, List]}, _RecDict, _) -> + N = length(List), + throw({error, io_lib:format("Unsupported type guard ~w/~w\n", [Name, N])}). + +%% Gets the most general domain of a list of domains of all +%% the overloaded contracts + +general_domain(List) -> + general_domain(List, erl_types:t_none()). + +general_domain([{Sig, Constraints}|Left], AccSig) -> + Dict = insert_constraints(Constraints, dict:new()), + Sig1 = erl_types:t_subst(Sig, Dict), + general_domain(Left, erl_types:t_sup(AccSig, Sig1)); +general_domain([], AccSig) -> + %% Get rid of all variables in the domain. + AccSig1 = erl_types:subst_all_vars_to_any(AccSig), + erl_types:t_fun_args(AccSig1). + +-spec get_invalid_contract_warnings([module()], dialyzer_codeserver:codeserver(), dialyzer_plt:plt()) -> [dial_warning()]. + +get_invalid_contract_warnings(Modules, CodeServer, Plt) -> + get_invalid_contract_warnings_modules(Modules, CodeServer, Plt, []). + +get_invalid_contract_warnings_modules([Mod|Mods], CodeServer, Plt, Acc) -> + Contracts1 = dialyzer_codeserver:lookup_mod_contracts(Mod, CodeServer), + Contracts2 = dict:to_list(Contracts1), + Records = dialyzer_codeserver:lookup_mod_records(Mod, CodeServer), + NewAcc = get_invalid_contract_warnings_funs(Contracts2, Plt, Records, Acc), + get_invalid_contract_warnings_modules(Mods, CodeServer, Plt, NewAcc); +get_invalid_contract_warnings_modules([], _CodeServer, _Plt, Acc) -> + Acc. + +get_invalid_contract_warnings_funs([{MFA, {FileLine, Contract}}|Left], + Plt, RecDict, Acc) -> + case dialyzer_plt:lookup(Plt, MFA) of + none -> + %% This must be a contract for a non-available function. Just accept it. + get_invalid_contract_warnings_funs(Left, Plt, RecDict, Acc); + {value, {Ret, Args}} -> + Sig = erl_types:t_fun(Args, Ret), + NewAcc = + case check_contract(Contract, Sig) of + {error, invalid_contract} -> + [invalid_contract_warning(MFA, FileLine, Sig, RecDict)|Acc]; + {error, Msg} -> + [{?WARN_CONTRACT_SYNTAX, FileLine, Msg}|Acc]; + ok -> + {M, F, A} = MFA, + CSig0 = get_contract_signature(Contract), + CSig = erl_types:subst_all_vars_to_any(CSig0), + case erl_bif_types:is_known(M, F, A) of + true -> + %% This is strictly for contracts of functions also in + %% erl_bif_types + BifArgs = erl_bif_types:arg_types(M, F, A), + BifRet = erl_bif_types:type(M, F, A), + BifSig = erl_types:t_fun(BifArgs, BifRet), + case check_contract(Contract, BifSig) of + {error, _} -> + [invalid_contract_warning(MFA, FileLine, BifSig, RecDict) + |Acc]; + ok -> + picky_contract_check(CSig, BifSig, MFA, FileLine, + Contract, RecDict, Acc) + end; + false -> + picky_contract_check(CSig, Sig, MFA, FileLine, Contract, + RecDict, Acc) + end + end, + get_invalid_contract_warnings_funs(Left, Plt, RecDict, NewAcc) + end; +get_invalid_contract_warnings_funs([], _Plt, _RecDict, Acc) -> + Acc. + +invalid_contract_warning({M, F, A}, FileLine, Type, RecDict) -> + {?WARN_CONTRACT_TYPES, FileLine, + {invalid_contract, [M, F, A, dialyzer_utils:format_sig(Type, RecDict)]}}. + +picky_contract_check(CSig0, Sig0, MFA, FileLine, Contract, RecDict, Acc) -> + CSig = erl_types:t_abstract_records(CSig0, RecDict), + Sig = erl_types:t_abstract_records(Sig0, RecDict), + case erl_types:t_is_equal(CSig, Sig) of + true -> Acc; + false -> + case (erl_types:t_is_none(erl_types:t_fun_range(Sig)) andalso + erl_types:t_is_unit(erl_types:t_fun_range(CSig))) of + true -> Acc; + false -> + case extra_contract_warning(MFA, FileLine, Contract, + CSig, Sig, RecDict) of + no_warning -> Acc; + {warning, Warning} -> [Warning|Acc] + end + end + end. + +extra_contract_warning({M, F, A}, FileLine, Contract, CSig, Sig, RecDict) -> + SigString = lists:flatten(dialyzer_utils:format_sig(Sig, RecDict)), + ContractString0 = lists:flatten(dialyzer_utils:format_sig(CSig, RecDict)), + case SigString =:= ContractString0 of + true -> + %% The only difference is in record fields containing 'undefined' or not. + no_warning; + false -> + ContractString = contract_to_string(Contract), + {Tag, Msg} = + case erl_types:t_is_subtype(CSig, Sig) of + true -> + {?WARN_CONTRACT_SUBTYPE, + {contract_subtype, [M, F, A, ContractString, SigString]}}; + false -> + case erl_types:t_is_subtype(Sig, CSig) of + true -> + {?WARN_CONTRACT_SUPERTYPE, + {contract_supertype, [M, F, A, ContractString, SigString]}}; + false -> + {?WARN_CONTRACT_NOT_EQUAL, + {contract_diff, [M, F, A, ContractString, SigString]}} + end + end, + {warning, {Tag, FileLine, Msg}} + end. diff --git a/lib/dialyzer/src/dialyzer_dataflow.erl b/lib/dialyzer/src/dialyzer_dataflow.erl new file mode 100644 index 0000000000..178321ea18 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_dataflow.erl @@ -0,0 +1,3468 @@ +%% -*- erlang-indent-level: 2 -*- +%%-------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_dataflow.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : +%%% +%%% Created : 19 Apr 2005 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- + +-module(dialyzer_dataflow). + +-export([get_fun_types/4, get_warnings/5, format_args/3]). + +-export([state__add_warning/2, state__cleanup/1, + state__get_callgraph/1, state__get_races/1, + state__get_records/1, state__put_callgraph/2, + state__put_races/2, state__records_only/1]). + +%% Debug and test interfaces. +-export([get_top_level_signatures/2, pp/1]). + +-include("dialyzer.hrl"). + +-import(erl_types, + [any_none/1, t_any/0, t_atom/0, t_atom/1, t_atom_vals/1, + t_binary/0, t_boolean/0, + t_bitstr/0, t_bitstr/2, t_bitstr_concat/1, t_bitstr_match/2, + t_cons/0, t_cons/2, t_cons_hd/1, t_cons_tl/1, t_contains_opaque/1, + t_find_opaque_mismatch/2, t_float/0, t_from_range/2, t_from_term/1, + t_fun/0, t_fun/2, t_fun_args/1, t_fun_range/1, + t_inf/2, t_inf/3, t_inf_lists/2, t_inf_lists/3, + t_integer/0, t_integers/1, + t_is_any/1, t_is_atom/1, t_is_atom/2, t_is_boolean/1, t_is_equal/2, + t_is_integer/1, t_is_nil/1, t_is_none/1, t_is_none_or_unit/1, + t_is_number/1, t_is_reference/1, t_is_pid/1, t_is_port/1, + t_is_subtype/2, t_is_unit/1, + t_limit/2, t_list/0, t_maybe_improper_list/0, t_module/0, + t_none/0, t_non_neg_integer/0, t_number/0, t_number_vals/1, + t_opaque_match_atom/2, t_opaque_match_record/2, + t_opaque_matching_structure/2, + t_pid/0, t_port/0, t_product/1, t_reference/0, + t_sup/1, t_sup/2, t_subtract/2, t_to_string/2, t_to_tlist/1, + t_tuple/0, t_tuple/1, t_tuple_args/1, t_tuple_subtypes/1, + t_unit/0, t_unopaque/1]). + +%%-define(DEBUG, true). +%%-define(DEBUG_PP, true). +%%-define(DEBUG_TIME, true). +%%-define(DOT, true). + +-ifdef(DEBUG). +-import(erl_types, [t_to_string/1]). +-define(debug(S_, L_), io:format(S_, L_)). +-else. +-define(debug(S_, L_), ok). +-endif. + +%%-define(debug1(S_, L_), io:format(S_, L_)). +%%-define(debug1(S_, L_), ok). + +%%-------------------------------------------------------------------- + +-define(no_arg, no_arg). + +-define(TYPE_LIMIT, 3). + +-record(state, {callgraph :: dialyzer_callgraph:callgraph(), + envs :: dict(), + fun_tab :: dict(), + plt :: dialyzer_plt:plt(), + opaques :: [erl_types:erl_type()], + races :: dialyzer_races:races(), + records :: dict(), + tree_map :: dict(), + warning_mode = false :: boolean(), + warnings = [] :: [dial_warning()], + work :: {[_], [_], set()}}). + +%% Exported Types + +-type state() :: #state{}. + +%%-------------------------------------------------------------------- + +-spec get_warnings(cerl:c_module(), dialyzer_plt:plt(), + dialyzer_callgraph:callgraph(), dict(), set()) -> + {[dial_warning()], dict(), dict(), [label()], [string()]}. + +get_warnings(Tree, Plt, Callgraph, Records, NoWarnUnused) -> + State1 = analyze_module(Tree, Plt, Callgraph, Records, true), + State2 = find_mismatched_record_patterns(Tree, State1), + State3 = + state__renew_warnings(state__get_warnings(State2, NoWarnUnused), State2), + State4 = state__get_race_warnings(State3), + Callgraph1 = State2#state.callgraph, + {State4#state.warnings, state__all_fun_types(State4), + dialyzer_callgraph:get_race_code(Callgraph1), + dialyzer_callgraph:get_public_tables(Callgraph1), + dialyzer_callgraph:get_named_tables(Callgraph1)}. + +-spec get_fun_types(cerl:c_module(), dialyzer_plt:plt(), + dialyzer_callgraph:callgraph(), dict()) -> + {dict(), dict(), [label()], [string()]}. + +get_fun_types(Tree, Plt, Callgraph, Records) -> + State = analyze_module(Tree, Plt, Callgraph, Records, false), + Callgraph1 = State#state.callgraph, + {state__all_fun_types(State), + dialyzer_callgraph:get_race_code(Callgraph1), + dialyzer_callgraph:get_public_tables(Callgraph1), + dialyzer_callgraph:get_named_tables(Callgraph1)}. + +%%-------------------------------------------------------------------- + +-spec pp(file:filename()) -> 'ok'. + +pp(File) -> + {ok, Code} = dialyzer_utils:get_core_from_src(File, [no_copt]), + Plt = get_def_plt(), + AnnTree = annotate_module(Code, Plt), + io:put_chars(cerl_prettypr:format(AnnTree, [{hook, cerl_typean:pp_hook()}])), + io:nl(). + +%%-------------------------------------------------------------------- +%% This is used in the testsuite. + +-spec get_top_level_signatures(cerl:c_module(), dict()) -> + [{{atom(), arity()}, erl_types:erl_type()}]. + +get_top_level_signatures(Code, Records) -> + {Tree, _} = cerl_trees:label(cerl:from_records(Code)), + Callgraph0 = dialyzer_callgraph:new(), + Callgraph1 = dialyzer_callgraph:scan_core_tree(Tree, Callgraph0), + {Callgraph2, _} = dialyzer_callgraph:remove_external(Callgraph1), + Callgraph = dialyzer_callgraph:finalize(Callgraph2), + to_dot(Callgraph), + Plt = get_def_plt(), + FunTypes = get_fun_types(Tree, Plt, Callgraph, Records), + FunTypes1 = lists:foldl(fun({V, F}, Acc) -> + Label = get_label(F), + case dict:find(Label, Acc) of + error -> + Arity = cerl:fname_arity(V), + Type = t_fun(lists:duplicate(Arity, + t_none()), + t_none()), + dict:store(Label, Type, Acc); + {ok, _} -> Acc + end + end, FunTypes, cerl:module_defs(Tree)), + dialyzer_callgraph:delete(Callgraph), + Sigs = [{{cerl:fname_id(V), cerl:fname_arity(V)}, + dict:fetch(get_label(F), FunTypes1)} + || {V, F} <- cerl:module_defs(Tree)], + ordsets:from_list(Sigs). + +get_def_plt() -> + try + dialyzer_plt:from_file(dialyzer_plt:get_default_plt()) + catch + throw:{dialyzer_error, _} -> dialyzer_plt:new() + end. + +%%% =========================================================================== +%%% +%%% Annotate all top level funs. +%%% +%%% =========================================================================== + +annotate_module(Code, Plt) -> + {Tree, _} = cerl_trees:label(cerl:from_records(Code)), + Callgraph0 = dialyzer_callgraph:new(), + Callgraph1 = dialyzer_callgraph:scan_core_tree(Tree, Callgraph0), + {Callgraph2, _} = dialyzer_callgraph:remove_external(Callgraph1), + Callgraph = dialyzer_callgraph:finalize(Callgraph2), + State = analyze_module(Tree, Plt, Callgraph), + Res = annotate(Tree, State), + dialyzer_callgraph:delete(Callgraph), + Res. + +annotate(Tree, State) -> + case cerl:subtrees(Tree) of + [] -> set_type(Tree, State); + List -> + NewSubTrees = [[annotate(Subtree, State) || Subtree <- Group] + || Group <- List], + NewTree = cerl:update_tree(Tree, NewSubTrees), + set_type(NewTree, State) + end. + +set_type(Tree, State) -> + case cerl:type(Tree) of + 'fun' -> + Type = state__fun_type(Tree, State), + case t_is_any(Type) of + true -> + cerl:set_ann(Tree, delete_ann(typesig, cerl:get_ann(Tree))); + false -> + cerl:set_ann(Tree, append_ann(typesig, Type, cerl:get_ann(Tree))) + end; + apply -> + case state__find_apply_return(Tree, State) of + unknown -> Tree; + ReturnType -> + case t_is_any(ReturnType) of + true -> + cerl:set_ann(Tree, delete_ann(type, cerl:get_ann(Tree))); + false -> + cerl:set_ann(Tree, append_ann(type, ReturnType, + cerl:get_ann(Tree))) + end + end; + _ -> + Tree + end. + +append_ann(Tag, Val, [X | Xs]) -> + if tuple_size(X) >= 1, element(1, X) =:= Tag -> + append_ann(Tag, Val, Xs); + true -> + [X | append_ann(Tag, Val, Xs)] + end; +append_ann(Tag, Val, []) -> + [{Tag, Val}]. + +delete_ann(Tag, [X | Xs]) -> + if tuple_size(X) >= 1, element(1, X) =:= Tag -> + delete_ann(Tag, Xs); + true -> + [X | delete_ann(Tag, Xs)] + end; +delete_ann(_, []) -> + []. + +%%% =========================================================================== +%%% +%%% The analysis. +%%% +%%% =========================================================================== + +analyze_module(Tree, Plt, Callgraph) -> + analyze_module(Tree, Plt, Callgraph, dict:new(), false). + +analyze_module(Tree, Plt, Callgraph, Records, GetWarnings) -> + debug_pp(Tree, false), + Module = cerl:atom_val(cerl:module_name(Tree)), + TopFun = cerl:ann_c_fun([{label, top}], [], Tree), + State = + state__new(dialyzer_callgraph:race_code_new(Callgraph), + TopFun, Plt, Module, Records), + State1 = state__race_analysis(not GetWarnings, State), + State2 = analyze_loop(State1), + RaceCode = dialyzer_callgraph:get_race_code(Callgraph), + Callgraph1 = State2#state.callgraph, + RaceCode1 = dialyzer_callgraph:get_race_code(Callgraph1), + case GetWarnings of + true -> + State3 = state__set_warning_mode(State2), + State4 = analyze_loop(State3), + State5 = state__restore_race_code(RaceCode, State4), + dialyzer_races:race(State5); + false -> + state__restore_race_code( + dict:merge(fun (_K, V1, _V2) -> V1 end, + RaceCode, RaceCode1), State2) + end. + +analyze_loop(#state{callgraph = Callgraph, races = Races} = State) -> + case state__get_work(State) of + none -> state__clean_not_called(State); + {Fun, NewState} -> + ArgTypes = state__get_args(Fun, NewState), + case any_none(ArgTypes) of + true -> + ?debug("Not handling1 ~w: ~s\n", + [state__lookup_name(get_label(Fun), State), + t_to_string(t_product(ArgTypes))]), + analyze_loop(NewState); + false -> + case state__fun_env(Fun, NewState) of + none -> + ?debug("Not handling2 ~w: ~s\n", + [state__lookup_name(get_label(Fun), State), + t_to_string(t_product(ArgTypes))]), + analyze_loop(NewState); + Map -> + ?debug("Handling fun ~p: ~s\n", + [state__lookup_name(get_label(Fun), State), + t_to_string(state__fun_type(Fun, NewState))]), + NewState1 = state__mark_fun_as_handled(NewState, Fun), + Vars = cerl:fun_vars(Fun), + Map1 = enter_type_lists(Vars, ArgTypes, Map), + Body = cerl:fun_body(Fun), + FunLabel = get_label(Fun), + RaceDetection = dialyzer_callgraph:get_race_detection(Callgraph), + RaceAnalysis = dialyzer_races:get_race_analysis(Races), + NewState3 = + case RaceDetection andalso RaceAnalysis of + true -> + NewState2 = state__renew_curr_fun( + state__lookup_name(FunLabel, NewState1), FunLabel, + NewState1), + state__renew_race_list([], 0, NewState2); + false -> NewState1 + end, + {NewState4, _Map2, BodyType} = + traverse(Body, Map1, NewState3), + ?debug("Done analyzing: ~w:~s\n", + [state__lookup_name(get_label(Fun), State), + t_to_string(t_fun(ArgTypes, BodyType))]), + NewState5 = + case RaceDetection andalso RaceAnalysis of + true -> + Races1 = NewState4#state.races, + Code = lists:reverse(dialyzer_races:get_race_list(Races1)), + Callgraph1 = + renew_code(dialyzer_races:get_curr_fun(Races1), + dialyzer_races:get_curr_fun_args(Races1), + Code, + state__warning_mode(NewState4), + NewState4#state.callgraph), + NewState4#state{callgraph = Callgraph1}; + false -> NewState4 + end, + NewState6 = + state__update_fun_entry(Fun, ArgTypes, BodyType, NewState5), + ?debug("done adding stuff for ~w\n", + [state__lookup_name(get_label(Fun), State)]), + analyze_loop(NewState6) + end + end + end. + +traverse(Tree, Map, State) -> + ?debug("Handling ~p\n", [cerl:type(Tree)]), + %%debug_pp_map(Map), + case cerl:type(Tree) of + alias -> + %% This only happens when checking for illegal record patterns + %% so the handling is a bit rudimentary. + traverse(cerl:alias_pat(Tree), Map, State); + apply -> + handle_apply(Tree, Map, State); + binary -> + Segs = cerl:binary_segments(Tree), + {State1, Map1, SegTypes} = traverse_list(Segs, Map, State), + {State1, Map1, t_bitstr_concat(SegTypes)}; + bitstr -> + handle_bitstr(Tree, Map, State); + call -> + handle_call(Tree, Map, State); + 'case' -> + handle_case(Tree, Map, State); + 'catch' -> + {State1, _Map1, _} = traverse(cerl:catch_body(Tree), Map, State), + {State1, Map, t_any()}; + cons -> + handle_cons(Tree, Map, State); + 'fun' -> + Type = state__fun_type(Tree, State), + case state__warning_mode(State) of + true -> {State, Map, Type}; + false -> + State2 = state__add_work(get_label(Tree), State), + State3 = state__update_fun_env(Tree, Map, State2), + {State3, Map, Type} + end; + 'let' -> + handle_let(Tree, Map, State); + letrec -> + Defs = cerl:letrec_defs(Tree), + Body = cerl:letrec_body(Tree), + %% By not including the variables in scope we can assure that we + %% will get the current function type when using the variables. + FoldFun = fun({Var, Fun}, {AccState, AccMap}) -> + {NewAccState, NewAccMap0, FunType} = + traverse(Fun, AccMap, AccState), + NewAccMap = enter_type(Var, FunType, NewAccMap0), + {NewAccState, NewAccMap} + end, + {State1, Map1} = lists:foldl(FoldFun, {State, Map}, Defs), + traverse(Body, Map1, State1); + literal -> + %% This is needed for finding records + case cerl:unfold_literal(Tree) of + Tree -> + Type = literal_type(Tree), + NewType = + case erl_types:t_opaque_match_atom(Type, State#state.opaques) of + [Opaque] -> Opaque; + _ -> Type + end, + {State, Map, NewType}; + NewTree -> traverse(NewTree, Map, State) + end; + module -> + handle_module(Tree, Map, State); + primop -> + Type = + case cerl:atom_val(cerl:primop_name(Tree)) of + match_fail -> t_none(); + raise -> t_none(); + bs_init_writable -> t_from_term(<<>>); + Other -> erlang:error({'Unsupported primop', Other}) + end, + {State, Map, Type}; + 'receive' -> + handle_receive(Tree, Map, State); + seq -> + Arg = cerl:seq_arg(Tree), + Body = cerl:seq_body(Tree), + {State1, Map1, ArgType} = SMA = traverse(Arg, Map, State), + case t_is_none_or_unit(ArgType) of + true -> + SMA; + false -> + State2 = + case (t_is_any(ArgType) orelse t_is_simple(ArgType) + orelse is_call_to_send(Arg)) of + true -> % do not warn in these cases + State1; + false -> + state__add_warning(State1, ?WARN_UNMATCHED_RETURN, Arg, + {unmatched_return, + [format_type(ArgType, State1)]}) + end, + traverse(Body, Map1, State2) + end; + 'try' -> + handle_try(Tree, Map, State); + tuple -> + handle_tuple(Tree, Map, State); + values -> + Elements = cerl:values_es(Tree), + {State1, Map1, EsType} = traverse_list(Elements, Map, State), + Type = t_product(EsType), + {State1, Map1, Type}; + var -> + ?debug("Looking up unknown variable: ~p\n", [Tree]), + case state__lookup_type_for_rec_var(Tree, State) of + error -> + LType = lookup_type(Tree, Map), + Opaques = State#state.opaques, + case t_opaque_match_record(LType, Opaques) of + [Opaque] -> {State, Map, Opaque}; + _ -> + case t_opaque_match_atom(LType, Opaques) of + [Opaque] -> {State, Map, Opaque}; + _ -> {State, Map, LType} + end + end; + {ok, Type} -> {State, Map, Type} + end; + Other -> + erlang:error({'Unsupported type', Other}) + end. + +traverse_list(Trees, Map, State) -> + traverse_list(Trees, Map, State, []). + +traverse_list([Tree|Tail], Map, State, Acc) -> + {State1, Map1, Type} = traverse(Tree, Map, State), + traverse_list(Tail, Map1, State1, [Type|Acc]); +traverse_list([], Map, State, Acc) -> + {State, Map, lists:reverse(Acc)}. + +%%________________________________________ +%% +%% Special instructions +%% + +handle_apply(Tree, Map, State) -> + Args = cerl:apply_args(Tree), + Op = cerl:apply_op(Tree), + {State1, Map1, ArgTypes} = traverse_list(Args, Map, State), + {State2, Map2, OpType} = traverse(Op, Map1, State1), + case any_none(ArgTypes) of + true -> + {State2, Map2, t_none()}; + false -> + {CallSitesKnown, FunList} = + case state__lookup_call_site(Tree, State2) of + error -> {false, []}; + {ok, [external]} -> {false, {}}; + {ok, List} -> {true, List} + end, + case CallSitesKnown of + false -> + Arity = length(Args), + OpType1 = t_inf(OpType, t_fun(Arity, t_any())), + case t_is_none(OpType1) of + true -> + Msg = {fun_app_no_fun, + [format_cerl(Op), format_type(OpType, State2), Arity]}, + State3 = state__add_warning(State2, ?WARN_FAILING_CALL, + Tree, Msg), + {State3, Map2, t_none()}; + false -> + NewArgs = t_inf_lists(ArgTypes, t_fun_args(OpType1)), + case any_none(NewArgs) of + true -> + Msg = {fun_app_args, + [format_args(Args, ArgTypes, State), + format_type(OpType, State)]}, + State3 = state__add_warning(State2, ?WARN_FAILING_CALL, + Tree, Msg), + {State3, enter_type(Op, OpType1, Map2), t_none()}; + false -> + Map3 = enter_type_lists(Args, NewArgs, Map2), + {State2, enter_type(Op, OpType1, Map3), t_fun_range(OpType1)} + end + end; + true -> + FunInfoList = [{local, state__fun_info(Fun, State)} + || Fun <- FunList], + handle_apply_or_call(FunInfoList, Args, ArgTypes, Map2, Tree, State1) + end + end. + +handle_apply_or_call(FunInfoList, Args, ArgTypes, Map, Tree, State) -> + None = t_none(), + handle_apply_or_call(FunInfoList, Args, ArgTypes, Map, Tree, State, + [None || _ <- ArgTypes], None). + +handle_apply_or_call([{local, external}|Left], Args, ArgTypes, Map, Tree, State, + _AccArgTypes, _AccRet) -> + handle_apply_or_call(Left, Args, ArgTypes, Map, Tree, State, + ArgTypes, t_any()); +handle_apply_or_call([{TypeOfApply, {Fun, Sig, Contr, LocalRet}}|Left], + Args, ArgTypes, Map, Tree, + #state{callgraph = Callgraph, races = Races, + opaques = Opaques} = State, + AccArgTypes, AccRet) -> + Any = t_any(), + AnyArgs = [Any || _ <- Args], + GenSig = {AnyArgs, fun(_) -> t_any() end}, + {CArgs, CRange} = + case Contr of + {value, #contract{args = As} = C} -> + {As, fun(FunArgs) -> + dialyzer_contracts:get_contract_return(C, FunArgs) + end}; + none -> GenSig + end, + {BifArgs, BifRange} = + case TypeOfApply of + remote -> + {M, F, A} = Fun, + case erl_bif_types:is_known(M, F, A) of + true -> + BArgs = erl_bif_types:arg_types(M, F, A), + BRange = + fun(FunArgs) -> + ArgPos = erl_bif_types:structure_inspecting_args(M, F, A), + NewFunArgs = + case ArgPos =:= [] of + true -> FunArgs; + false -> % some positions need to be un-opaqued + N = length(FunArgs), + PFs = lists:zip(lists:seq(1, N), FunArgs), + [case ordsets:is_element(P, ArgPos) of + true -> erl_types:t_unopaque(FArg, Opaques); + false -> FArg + end || {P, FArg} <- PFs] + end, + erl_bif_types:type(M, F, A, NewFunArgs) + end, + {BArgs, BRange}; + false -> GenSig + end; + local -> GenSig + end, + {SigArgs, SigRange} = + %% if there is hard-coded or contract information with opaque types, + %% the checking for possible type violations needs to take place w.r.t. + %% this information and not w.r.t. the structure-based success typing. + case prefer_opaque_types(CArgs, BifArgs) of + true -> {AnyArgs, t_any()}; % effectively forgets the success typing + false -> + case Sig of + {value, {SR, SA}} -> {SA, SR}; + none -> {AnyArgs, t_any()} + end + end, + NewArgsSig = t_inf_lists(SigArgs, ArgTypes), + NewArgsContract = t_inf_lists(CArgs, ArgTypes), + NewArgsBif = t_inf_lists(BifArgs, ArgTypes), + NewArgTypes0 = t_inf_lists(NewArgsSig, NewArgsContract), + NewArgTypes = t_inf_lists(NewArgTypes0, NewArgsBif), + BifRet = BifRange(NewArgTypes), + ContrRet = CRange(NewArgTypes), + Mode = case t_contains_opaque(ContrRet) orelse t_contains_opaque(BifRet) of + true -> opaque; + false -> structured + end, + RetWithoutLocal = t_inf(t_inf(ContrRet, BifRet, Mode), SigRange, Mode), + ?debug("--------------------------------------------------------\n", []), + ?debug("Fun: ~p\n", [Fun]), + ?debug("Args: ~s\n", [erl_types:t_to_string(t_product(ArgTypes))]), + ?debug("NewArgsSig: ~s\n", [erl_types:t_to_string(t_product(NewArgsSig))]), + ?debug("NewArgsContract: ~s\n", + [erl_types:t_to_string(t_product(NewArgsContract))]), + ?debug("NewArgsBif: ~s\n", [erl_types:t_to_string(t_product(NewArgsBif))]), + ?debug("NewArgTypes: ~s\n", [erl_types:t_to_string(t_product(NewArgTypes))]), + ?debug("RetWithoutLocal: ~s\n", [erl_types:t_to_string(RetWithoutLocal)]), + ?debug("BifRet: ~s\n", [erl_types:t_to_string(BifRange(NewArgTypes))]), + ?debug("ContrRet: ~s\n", [erl_types:t_to_string(CRange(NewArgTypes))]), + ?debug("SigRet: ~s\n", [erl_types:t_to_string(SigRange)]), + State1 = + case dialyzer_callgraph:get_race_detection(Callgraph) andalso + dialyzer_races:get_race_analysis(Races) of + true -> + Ann = cerl:get_ann(Tree), + File = get_file(Ann), + Line = abs(get_line(Ann)), + dialyzer_races:store_race_call(Fun, ArgTypes, Args, {File, Line}, + State); + false -> State + end, + FailedConj = any_none([RetWithoutLocal|NewArgTypes]), + IsFailBif = t_is_none(BifRange(BifArgs)), + IsFailSig = t_is_none(SigRange), + State2 = + case FailedConj andalso not (IsFailBif orelse IsFailSig) of + true -> + FailedSig = any_none(NewArgsSig), + FailedContract = any_none([CRange(NewArgsContract)|NewArgsContract]), + FailedBif = any_none([BifRange(NewArgsBif)|NewArgsBif]), + InfSig = t_inf(t_fun(SigArgs, SigRange), + t_fun(BifArgs, BifRange(BifArgs))), + FailReason = apply_fail_reason(FailedSig, FailedBif, FailedContract), + Msg = get_apply_fail_msg(Fun, Args, ArgTypes, NewArgTypes, InfSig, + Contr, CArgs, State1, FailReason), + WarnType = case Msg of + {call, _} -> ?WARN_FAILING_CALL; + {apply, _} -> ?WARN_FAILING_CALL; + {call_with_opaque, _} -> ?WARN_OPAQUE; + {call_without_opaque, _} -> ?WARN_OPAQUE; + {opaque_type_test, _} -> ?WARN_OPAQUE + end, + state__add_warning(State1, WarnType, Tree, Msg); + false -> State1 + end, + State3 = + case TypeOfApply of + local -> + case state__is_escaping(Fun, State2) of + true -> State2; + false -> + ForwardArgs = [t_limit(X, ?TYPE_LIMIT) || X <- ArgTypes], + forward_args(Fun, ForwardArgs, State2) + end; + remote -> + add_bif_warnings(Fun, NewArgTypes, Tree, State2) + end, + NewAccArgTypes = + case FailedConj of + true -> AccArgTypes; + false -> [t_sup(X, Y) || {X, Y} <- lists:zip(NewArgTypes, AccArgTypes)] + end, + NewAccRet = t_sup(AccRet, t_inf(RetWithoutLocal, LocalRet, opaque)), + handle_apply_or_call(Left, Args, ArgTypes, Map, Tree, + State3, NewAccArgTypes, NewAccRet); +handle_apply_or_call([], Args, _ArgTypes, Map, _Tree, State, + AccArgTypes, AccRet) -> + NewMap = enter_type_lists(Args, AccArgTypes, Map), + {State, NewMap, AccRet}. + +apply_fail_reason(FailedSig, FailedBif, FailedContract) -> + if + (FailedSig orelse FailedBif) andalso (not FailedContract) -> only_sig; + FailedContract andalso (not (FailedSig orelse FailedBif)) -> only_contract; + true -> both + end. + +get_apply_fail_msg(Fun, Args, ArgTypes, NewArgTypes, + Sig, Contract, ContrArgs, State, FailReason) -> + ArgStrings = format_args(Args, ArgTypes, State), + ContractInfo = + case Contract of + {value, #contract{} = C} -> + {dialyzer_contracts:is_overloaded(C), + dialyzer_contracts:contract_to_string(C)}; + none -> {false, none} + end, + EnumArgTypes = + case NewArgTypes of + [] -> []; + _ -> lists:zip(lists:seq(1, length(NewArgTypes)), NewArgTypes) + end, + ArgNs = [Arg || {Arg, Type} <- EnumArgTypes, t_is_none(Type)], + case state__lookup_name(Fun, State) of + {M, F, _A} -> + case is_opaque_type_test_problem(Fun, NewArgTypes, State) of + true -> + [Opaque] = NewArgTypes, + {opaque_type_test, [atom_to_list(F), erl_types:t_to_string(Opaque)]}; + false -> + SigArgs = t_fun_args(Sig), + case is_opaque_related_problem(ArgNs, ArgTypes) of + true -> %% an opaque term is used where a structured term is expected + ExpectedArgs = + case FailReason of + only_sig -> SigArgs; + _ -> ContrArgs + end, + {call_with_opaque, [M, F, ArgStrings, ArgNs, ExpectedArgs]}; + false -> + case is_opaque_related_problem(ArgNs, SigArgs) orelse + is_opaque_related_problem(ArgNs, ContrArgs) of + true -> %% a structured term is used where an opaque is expected + ExpectedTriples = + case FailReason of + only_sig -> expected_arg_triples(ArgNs, SigArgs, State); + _ -> expected_arg_triples(ArgNs, ContrArgs, State) + end, + {call_without_opaque, [M, F, ArgStrings, ExpectedTriples]}; + false -> %% there is a structured term clash in some argument + {call, [M, F, ArgStrings, + ArgNs, FailReason, + format_sig_args(Sig, State), + format_type(t_fun_range(Sig), State), + ContractInfo]} + end + end + end; + Label when is_integer(Label) -> + {apply, [ArgStrings, + ArgNs, FailReason, + format_sig_args(Sig, State), + format_type(t_fun_range(Sig), State), + ContractInfo]} + end. + +%% returns 'true' if we are running with opaque on (not checked yet), +%% and there is either a contract or hard-coded type information with +%% opaque types +%% TODO: check that we are running with opaque types +%% TODO: check the return type also +prefer_opaque_types(CArgs, BifArgs) -> + t_contains_opaque(t_product(CArgs)) + orelse t_contains_opaque(t_product(BifArgs)). + +is_opaque_related_problem(ArgNs, ArgTypes) -> + Fun = fun (N) -> erl_types:t_contains_opaque(lists:nth(N, ArgTypes)) end, + ArgNs =/= [] andalso lists:all(Fun, ArgNs). + +is_opaque_type_test_problem(Fun, ArgTypes, State) -> + case Fun of + {erlang, FN, 1} when FN =:= is_atom; FN =:= is_boolean; + FN =:= is_binary; FN =:= is_bitstring; + FN =:= is_float; FN =:= is_function; + FN =:= is_integer; FN =:= is_list; + FN =:= is_number; FN =:= is_pid; FN =:= is_port; + FN =:= is_reference; FN =:= is_tuple -> + [Type] = ArgTypes, + erl_types:t_is_opaque(Type) andalso + not lists:member(Type, State#state.opaques); + _ -> false + end. + +expected_arg_triples(ArgNs, ArgTypes, State) -> + [begin + Arg = lists:nth(N, ArgTypes), + {N, Arg, format_type(Arg, State)} + end || N <- ArgNs]. + +add_bif_warnings({erlang, Op, 2}, [T1, T2] = Ts, Tree, State) + when Op =:= '=:='; Op =:= '==' -> + Inf = t_inf(T1, T2), + case t_is_none(Inf) andalso (not any_none(Ts)) + andalso (not is_int_float_eq_comp(T1, Op, T2)) of + true -> + Args = case erl_types:t_is_opaque(T1) of + true -> [format_type(T2, State), Op, format_type(T1, State)]; + false -> [format_type(T1, State), Op, format_type(T2, State)] + end, + case any_opaque(Ts) of + true -> + state__add_warning(State, ?WARN_OPAQUE, Tree, {opaque_eq, Args}); + false -> + state__add_warning(State, ?WARN_MATCHING, Tree, {exact_eq, Args}) + end; + false -> + State + end; +add_bif_warnings({erlang, Op, 2}, [T1, T2] = Ts, Tree, State) + when Op =:= '=/='; Op =:= '/=' -> + Inf = t_inf(T1, T2), + case t_is_none(Inf) andalso (not any_none(Ts)) + andalso (not is_int_float_eq_comp(T1, Op, T2)) andalso any_opaque(Ts) of + true -> + Args = case erl_types:t_is_opaque(T1) of + true -> [format_type(T2, State), Op, format_type(T1, State)]; + false -> [format_type(T1, State), Op, format_type(T2, State)] + end, + state__add_warning(State, ?WARN_OPAQUE, Tree, {opaque_neq, Args}); + false -> + State + end; +add_bif_warnings(_, _, _, State) -> + State. + +is_int_float_eq_comp(T1, Op, T2) -> + (Op =:= '==' orelse Op =:= '/=') andalso + ((erl_types:t_is_float(T1) andalso erl_types:t_is_integer(T2)) orelse + (erl_types:t_is_integer(T1) andalso erl_types:t_is_float(T2))). + +%%---------------------------------------- + +handle_bitstr(Tree, Map, State) -> + %% Construction of binaries. + Size = cerl:bitstr_size(Tree), + Val = cerl:bitstr_val(Tree), + BitstrType = cerl:concrete(cerl:bitstr_type(Tree)), + {State1, Map1, SizeType0} = traverse(Size, Map, State), + {State2, Map2, ValType0} = traverse(Val, Map1, State1), + case cerl:bitstr_bitsize(Tree) of + BitSz when BitSz =:= all orelse BitSz =:= utf -> + ValType = + case BitSz of + all -> + true = (BitstrType =:= binary), + t_inf(ValType0, t_bitstr()); + utf -> + true = lists:member(BitstrType, [utf8, utf16, utf32]), + t_inf(ValType0, t_integer()) + end, + Map3 = enter_type(Val, ValType, Map2), + case t_is_none(ValType) of + true -> + Msg = {bin_construction, ["value", + format_cerl(Val), format_cerl(Tree), + format_type(ValType0, State2)]}, + State3 = state__add_warning(State2, ?WARN_BIN_CONSTRUCTION, Val, Msg), + {State3, Map3, t_none()}; + false -> + {State2, Map3, t_bitstr()} + end; + BitSz when is_integer(BitSz) orelse BitSz =:= any -> + SizeType = t_inf(SizeType0, t_non_neg_integer()), + ValType = + case BitstrType of + binary -> t_inf(ValType0, t_bitstr()); + float -> t_inf(ValType0, t_number()); + integer -> t_inf(ValType0, t_integer()) + end, + case any_none([SizeType, ValType]) of + true -> + {Msg, Offending} = + case t_is_none(SizeType) of + true -> + {{bin_construction, + ["size", format_cerl(Size), format_cerl(Tree), + format_type(SizeType0, State2)]}, + Size}; + false -> + {{bin_construction, + ["value", format_cerl(Val), format_cerl(Tree), + format_type(ValType0, State2)]}, + Val} + end, + State3 = state__add_warning(State2, ?WARN_BIN_CONSTRUCTION, + Offending, Msg), + {State3, Map2, t_none()}; + false -> + UnitVal = cerl:concrete(cerl:bitstr_unit(Tree)), + Type = + case t_number_vals(SizeType) of + [OneSize] -> t_bitstr(0, OneSize * UnitVal); + _ -> + MinSize = erl_types:number_min(SizeType), + t_bitstr(UnitVal, UnitVal * MinSize) + end, + Map3 = enter_type_lists([Val, Size, Tree], + [ValType, SizeType, Type], Map2), + {State2, Map3, Type} + end + end. + +%%---------------------------------------- + +handle_call(Tree, Map, State) -> + M = cerl:call_module(Tree), + F = cerl:call_name(Tree), + Args = cerl:call_args(Tree), + MFAList = [M, F|Args], + {State1, Map1, [MType0, FType0|As]} = traverse_list(MFAList, Map, State), + %% Module and function names should be treated as *atoms* even if + %% they happen to be identical to an atom which is also involved in + %% the definition of an opaque data type + MType = t_inf(t_module(), t_unopaque(MType0)), + FType = t_inf(t_atom(), t_unopaque(FType0)), + Map2 = enter_type_lists([M, F], [MType, FType], Map1), + case any_none([MType, FType|As]) of + true -> + State2 = + case t_is_none(MType) andalso (not t_is_none(MType0)) of + true -> % This is a problem we just detected; not a known one + MS = format_cerl(M), + Msg = {app_call, [MS, format_cerl(F), + format_args(Args, As, State1), + MS, format_type(t_module(), State1), + format_type(MType0, State1)]}, + state__add_warning(State1, ?WARN_FAILING_CALL, Tree, Msg); + false -> + case t_is_none(FType) andalso (not t_is_none(FType0)) of + true -> + FS = format_cerl(F), + Msg = {app_call, [format_cerl(M), FS, + format_args(Args, As, State1), + FS, format_type(t_atom(), State1), + format_type(FType0, State1)]}, + state__add_warning(State1, ?WARN_FAILING_CALL, Tree, Msg); + false -> State1 + end + end, + {State2, Map2, t_none()}; + false -> + %% XXX: Consider doing this for all combinations of MF + case {t_atom_vals(MType), t_atom_vals(FType)} of + {[MAtom], [FAtom]} -> + FunInfo = [{remote, state__fun_info({MAtom, FAtom, length(Args)}, + State1)}], + handle_apply_or_call(FunInfo, Args, As, Map2, Tree, State1); + {_MAtoms, _FAtoms} -> + {State1, Map2, t_any()} + end + end. + +%%---------------------------------------- + +handle_case(Tree, Map, #state{callgraph = Callgraph} = State) -> + Arg = cerl:case_arg(Tree), + Clauses = filter_match_fail(cerl:case_clauses(Tree)), + {State1, Map1, ArgType} = SMA = traverse(Arg, Map, State), + case t_is_none_or_unit(ArgType) of + true -> SMA; + false -> + Races = State1#state.races, + State2 = + case dialyzer_callgraph:get_race_detection(Callgraph) andalso + dialyzer_races:get_race_analysis(Races) of + true -> + RaceList = dialyzer_races:get_race_list(Races), + RaceListSize = dialyzer_races:get_race_list_size(Races), + state__renew_race_list([beg_case|RaceList], + RaceListSize + 1, State1); + false -> State1 + end, + {MapList, State3, Type} = + handle_clauses(Clauses, Arg, ArgType, ArgType, State2, + [], Map1, [], []), + Map2 = join_maps(MapList, Map1), + debug_pp_map(Map2), + {State3, Map2, Type} + end. + +%%---------------------------------------- + +handle_cons(Tree, Map, State) -> + Hd = cerl:cons_hd(Tree), + Tl = cerl:cons_tl(Tree), + {State1, Map1, HdType} = traverse(Hd, Map, State), + {State2, Map2, TlType} = traverse(Tl, Map1, State1), + State3 = + case t_is_none(t_inf(TlType, t_list())) of + true -> + Msg = {improper_list_constr, [format_type(TlType, State2)]}, + state__add_warning(State2, ?WARN_NON_PROPER_LIST, Tree, Msg); + false -> + State2 + end, + Type = t_cons(HdType, TlType), + {State3, Map2, Type}. + +%%---------------------------------------- + +handle_let(Tree, Map, #state{callgraph = Callgraph, races = Races} = State) -> + RaceAnalysis = dialyzer_races:get_race_analysis(Races), + RaceDetection = dialyzer_callgraph:get_race_detection(Callgraph), + Arg = cerl:let_arg(Tree), + Vars = cerl:let_vars(Tree), + {Map0, State0} = + case cerl:is_c_var(Arg) of + true -> + [Var] = Vars, + {enter_subst(Var, Arg, Map), + case RaceDetection andalso RaceAnalysis of + true -> + RaceList = dialyzer_races:get_race_list(Races), + RaceListSize = dialyzer_races:get_race_list_size(Races), + state__renew_race_list( + [dialyzer_races:let_tag_new(Var, Arg)|RaceList], + RaceListSize + 1, State); + false -> State + end}; + false -> {Map, State} + end, + Body = cerl:let_body(Tree), + {State1, Map1, ArgTypes} = SMA = traverse(Arg, Map0, State0), + Callgraph1 = State1#state.callgraph, + Callgraph2 = + case RaceDetection andalso RaceAnalysis andalso cerl:is_c_call(Arg) of + true -> + Mod = cerl:call_module(Arg), + Name = cerl:call_name(Arg), + case cerl:is_literal(Mod) andalso + cerl:concrete(Mod) =:= ets andalso + cerl:is_literal(Name) andalso + cerl:concrete(Name) =:= new of + true -> + NewTable = dialyzer_races:get_new_table(State1#state.races), + renew_public_tables(Vars, NewTable, + state__warning_mode(State1), + Callgraph1); + false -> Callgraph1 + end; + false -> Callgraph1 + end, + State2 = State1#state{callgraph = Callgraph2}, + case t_is_none_or_unit(ArgTypes) of + true -> SMA; + false -> + Map2 = enter_type_lists(Vars, t_to_tlist(ArgTypes), Map1), + traverse(Body, Map2, State2) + end. + +%%---------------------------------------- + +handle_module(Tree, Map, State) -> + %% By not including the variables in scope we can assure that we + %% will get the current function type when using the variables. + Defs = cerl:module_defs(Tree), + PartFun = fun({_Var, Fun}) -> + state__is_escaping(get_label(Fun), State) + end, + {Defs1, Defs2} = lists:partition(PartFun, Defs), + Letrec = cerl:c_letrec(Defs1, cerl:c_int(42)), + {State1, Map1, _FunTypes} = traverse(Letrec, Map, State), + %% Also add environments for the other top-level functions. + VarTypes = [{Var, state__fun_type(Fun, State1)} || {Var, Fun} <- Defs], + EnvMap = enter_type_list(VarTypes, Map), + FoldFun = fun({_Var, Fun}, AccState) -> + state__update_fun_env(Fun, EnvMap, AccState) + end, + State2 = lists:foldl(FoldFun, State1, Defs2), + {State2, Map1, t_any()}. + +%%---------------------------------------- + +handle_receive(Tree, Map, + #state{callgraph = Callgraph, races = Races} = State) -> + Clauses = filter_match_fail(cerl:receive_clauses(Tree)), + Timeout = cerl:receive_timeout(Tree), + State1 = + case dialyzer_callgraph:get_race_detection(Callgraph) andalso + dialyzer_races:get_race_analysis(Races) of + true -> + RaceList = dialyzer_races:get_race_list(Races), + RaceListSize = dialyzer_races:get_race_list_size(Races), + state__renew_race_list([beg_case|RaceList], + RaceListSize + 1, State); + false -> State + end, + {MapList, State2, ReceiveType} = + handle_clauses(Clauses, ?no_arg, t_any(), t_any(), State1, [], Map, + [], []), + Map1 = join_maps(MapList, Map), + {State3, Map2, TimeoutType} = traverse(Timeout, Map1, State2), + case (t_is_atom(TimeoutType) andalso + (t_atom_vals(TimeoutType) =:= ['infinity'])) of + true -> + {State3, Map2, ReceiveType}; + false -> + Action = cerl:receive_action(Tree), + {State4, Map3, ActionType} = traverse(Action, Map, State3), + Map4 = join_maps([Map3, Map1], Map), + Type = t_sup(ReceiveType, ActionType), + {State4, Map4, Type} + end. + +%%---------------------------------------- + +handle_try(Tree, Map, State) -> + Arg = cerl:try_arg(Tree), + EVars = cerl:try_evars(Tree), + Vars = cerl:try_vars(Tree), + Body = cerl:try_body(Tree), + Handler = cerl:try_handler(Tree), + {State1, Map1, ArgType} = traverse(Arg, Map, State), + Map2 = mark_as_fresh(Vars, Map1), + {SuccState, SuccMap, SuccType} = + case bind_pat_vars(Vars, t_to_tlist(ArgType), [], Map2, State1) of + {error, _, _, _, _} -> + {State1, map__new(), t_none()}; + {SuccMap1, VarTypes} -> + %% Try to bind the argument. Will only succeed if + %% it is a simple structured term. + SuccMap2 = + case bind_pat_vars_reverse([Arg], [t_product(VarTypes)], [], + SuccMap1, State1) of + {error, _, _, _, _} -> SuccMap1; + {SM, _} -> SM + end, + traverse(Body, SuccMap2, State1) + end, + ExcMap1 = mark_as_fresh(EVars, Map), + {State2, ExcMap2, HandlerType} = traverse(Handler, ExcMap1, SuccState), + TryType = t_sup(SuccType, HandlerType), + {State2, join_maps([ExcMap2, SuccMap], Map1), TryType}. + +%%---------------------------------------- + +handle_tuple(Tree, Map, State) -> + Elements = cerl:tuple_es(Tree), + {State1, Map1, EsType} = traverse_list(Elements, Map, State), + TupleType = t_tuple(EsType), + case t_is_none(TupleType) of + true -> + {State1, Map1, t_none()}; + false -> + %% Let's find out if this is a record or opaque construction. + case Elements of + [Tag|Left] -> + case cerl:is_c_atom(Tag) of + true -> + TagVal = cerl:atom_val(Tag), + case t_opaque_match_record(TupleType, State1#state.opaques) of + [Opaque] -> + RecStruct = t_opaque_matching_structure(TupleType, Opaque), + RecFields = t_tuple_args(RecStruct), + case bind_pat_vars(Elements, RecFields, [], Map1, State1) of + {error, _, ErrorPat, ErrorType, _} -> + Msg = {record_constr, + [TagVal, format_patterns(ErrorPat), + format_type(ErrorType, State1)]}, + State2 = state__add_warning(State1, ?WARN_MATCHING, + Tree, Msg), + {State2, Map1, t_none()}; + {Map2, _ETypes} -> + {State1, Map2, Opaque} + end; + _ -> + case state__lookup_record(TagVal, length(Left), State1) of + error -> {State1, Map1, TupleType}; + {ok, Prototype} -> + %% io:format("In handle_tuple:\n Prototype = ~p\n", [Prototype]), + InfTupleType = t_inf(Prototype, TupleType), + %% io:format(" TupleType = ~p,\n Inf = ~p\n", [TupleType, InfTupleType]), + case t_is_none(InfTupleType) of + true -> + Msg = {record_constr, + [format_type(TupleType, State1), TagVal]}, + State2 = state__add_warning(State1, ?WARN_MATCHING, + Tree, Msg), + {State2, Map1, t_none()}; + false -> + case bind_pat_vars(Elements, t_tuple_args(Prototype), + [], Map1, State1) of + {error, bind, ErrorPat, ErrorType, _} -> + %% io:format("error\n", []), + Msg = {record_constr, + [TagVal, format_patterns(ErrorPat), + format_type(ErrorType, State1)]}, + State2 = state__add_warning(State1, ?WARN_MATCHING, + Tree, Msg), + {State2, Map1, t_none()}; + {Map2, ETypes} -> + {State1, Map2, t_tuple(ETypes)} + end + end + end + end; + false -> + {State1, Map1, t_tuple(EsType)} + end; + [] -> + {State1, Map1, t_tuple([])} + end + end. + +%%---------------------------------------- +%% Clauses +%% +handle_clauses([C|Left], Arg, ArgType, OrigArgType, + #state{callgraph = Callgraph, races = Races} = State, + CaseTypes, MapIn, Acc, ClauseAcc) -> + RaceDetection = dialyzer_callgraph:get_race_detection(Callgraph), + RaceAnalysis = dialyzer_races:get_race_analysis(Races), + State1 = + case RaceDetection andalso RaceAnalysis of + true -> + RaceList = dialyzer_races:get_race_list(Races), + RaceListSize = dialyzer_races:get_race_list_size(Races), + state__renew_race_list( + [dialyzer_races:beg_clause_new(Arg, cerl:clause_pats(C), + cerl:clause_guard(C))| + RaceList], RaceListSize + 1, + State); + false -> State + end, + {State2, ClauseMap, BodyType, NewArgType} = + do_clause(C, Arg, ArgType, OrigArgType, MapIn, State1), + {NewClauseAcc, State3} = + case RaceDetection andalso RaceAnalysis of + true -> + Races1 = State2#state.races, + RaceList1 = dialyzer_races:get_race_list(Races1), + RaceListSize1 = dialyzer_races:get_race_list_size(Races1), + EndClause = dialyzer_races:end_clause_new(Arg, cerl:clause_pats(C), + cerl:clause_guard(C)), + {[EndClause|ClauseAcc], + state__renew_race_list([EndClause|RaceList1], + RaceListSize1 + 1, State2)}; + false -> {ClauseAcc, State2} + end, + {NewCaseTypes, NewAcc} = + case t_is_none(BodyType) of + true -> {CaseTypes, Acc}; + false -> {[BodyType|CaseTypes], [ClauseMap|Acc]} + end, + handle_clauses(Left, Arg, NewArgType, OrigArgType, State3, + NewCaseTypes, MapIn, NewAcc, NewClauseAcc); +handle_clauses([], _Arg, _ArgType, _OrigArgType, + #state{callgraph = Callgraph, races = Races} = State, + CaseTypes, _MapIn, Acc, ClauseAcc) -> + State1 = + case dialyzer_callgraph:get_race_detection(Callgraph) andalso + dialyzer_races:get_race_analysis(Races) of + true -> + state__renew_race_list( + [dialyzer_races:end_case_new(ClauseAcc)| + dialyzer_races:get_race_list(Races)], + dialyzer_races:get_race_list_size(Races) + 1, State); + false -> State + end, + {lists:reverse(Acc), State1, t_sup(CaseTypes)}. + +do_clause(C, Arg, ArgType0, OrigArgType, Map, + #state{callgraph = Callgraph, races = Races} = State) -> + Pats = cerl:clause_pats(C), + Guard = cerl:clause_guard(C), + Body = cerl:clause_body(C), + RaceDetection = dialyzer_callgraph:get_race_detection(Callgraph), + RaceAnalysis = dialyzer_races:get_race_analysis(Races), + State1 = + case RaceDetection andalso RaceAnalysis of + true -> + state__renew_fun_args(Pats, State); + false -> State + end, + Map0 = mark_as_fresh(Pats, Map), + Map1 = if Arg =:= ?no_arg -> Map0; + true -> bind_subst(Arg, Pats, Map0) + end, + BindRes = + case t_is_none(ArgType0) of + true -> + {error, bind, Pats, ArgType0, ArgType0}; + false -> + ArgTypes = + case t_is_any(ArgType0) of + true -> [ArgType0 || _ <- Pats]; + false -> t_to_tlist(ArgType0) + end, + bind_pat_vars(Pats, ArgTypes, [], Map1, State1) + end, + case BindRes of + {error, BindOrOpaque, NewPats, Type, OpaqueTerm} -> + ?debug("Failed binding pattern: ~s\nto ~s\n", + [cerl_prettypr:format(C), format_type(ArgType0, State1)]), + case state__warning_mode(State1) of + false -> + {State1, Map, t_none(), ArgType0}; + true -> + PatString = + case BindOrOpaque of + bind -> format_patterns(Pats); + opaque -> format_patterns(NewPats) + end, + {Msg, Force} = + case t_is_none(ArgType0) of + true -> + PatTypes = [PatString, format_type(OrigArgType, State1)], + %% See if this is covered by an earlier clause or if it + %% simply cannot match + OrigArgTypes = + case t_is_any(OrigArgType) of + true -> Any = t_any(), [Any || _ <- Pats]; + false -> t_to_tlist(OrigArgType) + end, + case bind_pat_vars(Pats, OrigArgTypes, [], Map1, State1) of + {error, bind, _, _, _} -> {{pattern_match, PatTypes}, false}; + {_, _} -> {{pattern_match_cov, PatTypes}, false} + end; + false -> + %% Try to find out if this is a default clause in a list + %% comprehension and supress this. A real Hack(tm) + Force0 = + case is_compiler_generated(cerl:get_ann(C)) of + true -> + case Pats of + [Pat] -> + case cerl:is_c_cons(Pat) of + true -> + not (cerl:is_c_var(cerl:cons_hd(Pat)) andalso + cerl:is_c_var(cerl:cons_tl(Pat)) andalso + cerl:is_literal(Guard) andalso + (cerl:concrete(Guard) =:= true)); + false -> + true + end; + _ -> true + end; + false -> + true + end, + PatTypes = case BindOrOpaque of + bind -> [PatString, format_type(ArgType0, State1)]; + opaque -> [PatString, format_type(Type, State1), + format_type(OpaqueTerm, State1)] + end, + FailedMsg = case BindOrOpaque of + bind -> {pattern_match, PatTypes}; + opaque -> {opaque_match, PatTypes} + end, + {FailedMsg, Force0} + end, + WarnType = case Msg of + {opaque_match, _} -> ?WARN_OPAQUE; + {pattern_match, _} -> ?WARN_MATCHING; + {pattern_match_cov, _} -> ?WARN_MATCHING + end, + {state__add_warning(State1, WarnType, C, Msg, Force), + Map, t_none(), ArgType0} + end; + {Map2, PatTypes} -> + Map3 = + case Arg =:= ?no_arg of + true -> Map2; + false -> + %% Try to bind the argument. Will only succeed if + %% it is a simple structured term. + case bind_pat_vars_reverse([Arg], [t_product(PatTypes)], + [], Map2, State1) of + {error, _, _, _, _} -> Map2; + {NewMap, _} -> NewMap + end + end, + NewArgType = + case Arg =:= ?no_arg of + true -> ArgType0; + false -> + GenType = dialyzer_typesig:get_safe_underapprox(Pats, Guard), + t_subtract(t_product(t_to_tlist(ArgType0)), GenType) + end, + case bind_guard(Guard, Map3, State1) of + {error, Reason} -> + ?debug("Failed guard: ~s\n", + [cerl_prettypr:format(C, [{hook, cerl_typean:pp_hook()}])]), + PatString = format_patterns(Pats), + DefaultMsg = + case Pats =:= [] of + true -> {guard_fail, []}; + false -> + {guard_fail_pat, [PatString, format_type(ArgType0, State1)]} + end, + State2 = + case Reason of + none -> state__add_warning(State1, ?WARN_MATCHING, C, DefaultMsg); + {FailGuard, Msg} -> + case is_compiler_generated(cerl:get_ann(FailGuard)) of + false -> + WarnType = case Msg of + {guard_fail, _} -> ?WARN_MATCHING; + {opaque_guard, _} -> ?WARN_OPAQUE + end, + state__add_warning(State1, WarnType, FailGuard, Msg); + true -> + state__add_warning(State1, ?WARN_MATCHING, C, Msg) + end + end, + {State2, Map, t_none(), NewArgType}; + Map4 -> + {RetState, RetMap, BodyType} = traverse(Body, Map4, State1), + {RetState, RetMap, BodyType, NewArgType} + end + end. + +bind_subst(Arg, Pats, Map) -> + case cerl:type(Arg) of + values -> + bind_subst_list(cerl:values_es(Arg), Pats, Map); + var -> + [Pat] = Pats, + enter_subst(Arg, Pat, Map); + _ -> + Map + end. + +bind_subst_list([Arg|ArgLeft], [Pat|PatLeft], Map) -> + NewMap = + case {cerl:type(Arg), cerl:type(Pat)} of + {var, var} -> enter_subst(Arg, Pat, Map); + {var, alias} -> enter_subst(Arg, cerl:alias_pat(Pat), Map); + {literal, literal} -> Map; + {T, T} -> bind_subst_list(lists:flatten(cerl:subtrees(Arg)), + lists:flatten(cerl:subtrees(Pat)), + Map); + _ -> Map + end, + bind_subst_list(ArgLeft, PatLeft, NewMap); +bind_subst_list([], [], Map) -> + Map. + +%%---------------------------------------- +%% Patterns +%% + +bind_pat_vars(Pats, Types, Acc, Map, State) -> + try + bind_pat_vars(Pats, Types, Acc, Map, State, false) + catch + throw:Error -> Error % Error = {error, bind | opaque, ErrorPats, ErrorType} + end. + +bind_pat_vars_reverse(Pats, Types, Acc, Map, State) -> + try + bind_pat_vars(Pats, Types, Acc, Map, State, true) + catch + throw:Error -> Error % Error = {error, bind | opaque, ErrorPats, ErrorType} + end. + +bind_pat_vars([Pat|PatLeft], [Type|TypeLeft], Acc, Map, State, Rev) -> + ?debug("Binding pat: ~w to ~s\n", [cerl:type(Pat), format_type(Type, State)]), + {NewMap, TypeOut} = + case cerl:type(Pat) of + alias -> + AliasPat = cerl:alias_pat(Pat), + Var = cerl:alias_var(Pat), + Map1 = enter_subst(Var, AliasPat, Map), + {Map2, [PatType]} = bind_pat_vars([AliasPat], [Type], [], + Map1, State, Rev), + {enter_type(Var, PatType, Map2), PatType}; + binary -> + %% Cannot bind the binary if we are in reverse match since + %% binary patterns and binary construction are not symmetric. + case Rev of + true -> {Map, t_bitstr()}; + false -> + BinType = t_inf(t_bitstr(), Type), + case t_is_none(BinType) of + true -> bind_error([Pat], Type, t_none(), bind); + false -> + Segs = cerl:binary_segments(Pat), + {Map1, SegTypes} = bind_bin_segs(Segs, BinType, Map, State), + {Map1, t_bitstr_concat(SegTypes)} + end + end; + cons -> + Cons = t_inf(Type, t_cons()), + case t_is_none(Cons) of + true -> + case t_find_opaque_mismatch(t_cons(), Type) of + {ok, T1, T2} -> bind_error([Pat], T1, T2, opaque); + error -> bind_error([Pat], Type, t_none(), bind) + end; + false -> + {Map1, [HdType, TlType]} = + bind_pat_vars([cerl:cons_hd(Pat), cerl:cons_tl(Pat)], + [t_cons_hd(Cons), t_cons_tl(Cons)], + [], Map, State, Rev), + {Map1, t_cons(HdType, TlType)} + end; + literal -> + Literal = literal_type(Pat), + LiteralOrOpaque = + case t_opaque_match_atom(Literal, State#state.opaques) of + [Opaque] -> Opaque; + _ -> Literal + end, + case t_is_none(t_inf(LiteralOrOpaque, Type)) of + true -> + case t_find_opaque_mismatch(Literal, Type) of + {ok, T1, T2} -> + case lists:member(T2, State#state.opaques) of + true -> + NewType = erl_types:t_struct_from_opaque(Type, T2), + {Map1, _} = + bind_pat_vars([Pat], [NewType], [], Map, State, Rev), + {Map1, T2}; + false -> bind_error([Pat], T1, T2, opaque) + end; + error -> bind_error([Pat], Type, t_none(), bind) + end; + false -> {Map, LiteralOrOpaque} + end; + tuple -> + Es = cerl:tuple_es(Pat), + Prototype = + case Es of + [] -> t_tuple([]); + [Tag|Left] -> + case cerl:is_c_atom(Tag) of + true -> + TagAtom = cerl:atom_val(Tag), + case state__lookup_record(TagAtom, length(Left), State) of + error -> t_tuple(length(Es)); + {ok, Record} -> Record + end; + false -> t_tuple(length(Es)) + end + end, + Tuple = t_inf(Prototype, Type), + case t_is_none(Tuple) of + true -> + case t_find_opaque_mismatch(Prototype, Type) of + {ok, T1, T2} -> + case lists:member(T2, State#state.opaques) of + true -> + NewType = erl_types:t_struct_from_opaque(Type, T2), + {Map1, _} = + bind_pat_vars([Pat], [NewType], [], Map, State, Rev), + {Map1, T2}; + false -> bind_error([Pat], T1, T2, opaque) + end; + error -> bind_error([Pat], Type, t_none(), bind) + end; + false -> + SubTuples = t_tuple_subtypes(Tuple), + %% Need to call the top function to get the try-catch wrapper + Results = + case Rev of + true -> + [bind_pat_vars_reverse(Es, t_tuple_args(SubTuple), [], + Map, State) + || SubTuple <- SubTuples]; + false -> + [bind_pat_vars(Es, t_tuple_args(SubTuple), [], Map, State) + || SubTuple <- SubTuples] + end, + case lists:keyfind(opaque, 2, Results) of + {error, opaque, _PatList, _Type, Opaque} -> + bind_error([Pat], Tuple, Opaque, opaque); + false -> + case [M || {M, _} <- Results, M =/= error] of + [] -> bind_error([Pat], Tuple, t_none(), bind); + Maps -> + Map1 = join_maps(Maps, Map), + TupleType = t_sup([t_tuple(EsTypes) + || {M, EsTypes} <- Results, M =/= error]), + {Map1, TupleType} + end + end + end; + values -> + Es = cerl:values_es(Pat), + {Map1, EsTypes} = + bind_pat_vars(Es, t_to_tlist(Type), [], Map, State, Rev), + {Map1, t_product(EsTypes)}; + var -> + Opaques = State#state.opaques, + VarType1 = + case state__lookup_type_for_rec_var(Pat, State) of + error -> + LType = lookup_type(Pat, Map), + case t_opaque_match_record(LType, Opaques) of + [Opaque] -> Opaque; + _ -> + case t_opaque_match_atom(LType, Opaques) of + [Opaque] -> Opaque; + _ -> LType + end + end; + {ok, RecType} -> RecType + end, + %% Must do inf when binding args to pats. Vars in pats are fresh. + VarType2 = t_inf(VarType1, Type), + VarType3 = + case Opaques =/= [] of + true -> + case t_opaque_match_record(VarType2, Opaques) of + [OpaqueRec] -> OpaqueRec; + _ -> + case t_opaque_match_atom(VarType2, Opaques) of + [OpaqueAtom] -> OpaqueAtom; + _ -> VarType2 + end + end; + false -> VarType2 + end, + case t_is_none(VarType3) of + true -> + case t_find_opaque_mismatch(VarType1, Type) of + {ok, T1, T2} -> + bind_error([Pat], T1, T2, opaque); + error -> + bind_error([Pat], Type, t_none(), bind) + end; + false -> + Map1 = enter_type(Pat, VarType3, Map), + {Map1, VarType3} + end; + _Other -> + %% Catch all is needed when binding args to pats + ?debug("Failed match for ~p\n", [_Other]), + bind_error([Pat], Type, t_none(), bind) + end, + bind_pat_vars(PatLeft, TypeLeft, [TypeOut|Acc], NewMap, State, Rev); +bind_pat_vars([], [], Acc, Map, _State, _Rev) -> + {Map, lists:reverse(Acc)}. + +bind_bin_segs(BinSegs, BinType, Map, State) -> + bind_bin_segs(BinSegs, BinType, [], Map, State). + +bind_bin_segs([Seg|Segs], BinType, Acc, Map, State) -> + Val = cerl:bitstr_val(Seg), + SegType = cerl:concrete(cerl:bitstr_type(Seg)), + UnitVal = cerl:concrete(cerl:bitstr_unit(Seg)), + case cerl:bitstr_bitsize(Seg) of + all -> + binary = SegType, [] = Segs, %% just an assert + T = t_inf(t_bitstr(UnitVal, 0), BinType), + {Map1, [Type]} = bind_pat_vars([Val], [T], [], Map, State, false), + bind_bin_segs(Segs, t_bitstr(0, 0), [Type|Acc], Map1, State); + utf -> % XXX: possibly can be strengthened + true = lists:member(SegType, [utf8, utf16, utf32]), + {Map1, [_]} = bind_pat_vars([Val], [t_integer()], [], Map, State, false), + Type = t_binary(), + bind_bin_segs(Segs, BinType, [Type|Acc], Map1, State); + BitSz when is_integer(BitSz) orelse BitSz =:= any -> + Size = cerl:bitstr_size(Seg), + {Map1, [SizeType]} = + bind_pat_vars([Size], [t_non_neg_integer()], [], Map, State, false), + Type = + case t_number_vals(SizeType) of + [OneSize] -> t_bitstr(0, UnitVal * OneSize); + _ -> + MinSize = erl_types:number_min(SizeType), + t_bitstr(UnitVal, UnitVal * MinSize) + end, + ValConstr = + case SegType of + binary -> Type; %% The same constraints as for the whole bitstr + float -> t_float(); + integer -> + case t_number_vals(SizeType) of + unknown -> t_integer(); + List -> + SizeVal = lists:max(List), + Flags = cerl:concrete(cerl:bitstr_flags(Seg)), + N = SizeVal * UnitVal, + case lists:member(signed, Flags) of + true -> t_from_range(-(1 bsl (N - 1)), 1 bsl (N - 1) - 1); + false -> t_from_range(0, 1 bsl N - 1) + end + end + end, + {Map2, [_]} = bind_pat_vars([Val], [ValConstr], [], Map1, State, false), + NewBinType = t_bitstr_match(Type, BinType), + case t_is_none(NewBinType) of + true -> bind_error([Seg], BinType, t_none(), bind); + false -> bind_bin_segs(Segs, NewBinType, [Type|Acc], Map2, State) + end + end; +bind_bin_segs([], _BinType, Acc, Map, _State) -> + {Map, lists:reverse(Acc)}. + +bind_error(Pats, Type, OpaqueType, Error) -> + throw({error, Error, Pats, Type, OpaqueType}). + +%%---------------------------------------- +%% Guards +%% + +bind_guard(Guard, Map, State) -> + try bind_guard(Guard, Map, dict:new(), pos, State) of + {Map1, _Type} -> Map1 + catch + throw:{fail, Warning} -> {error, Warning}; + throw:{fatal_fail, Warning} -> {error, Warning} + end. + +bind_guard(Guard, Map, Env, Eval, State) -> + ?debug("Handling ~w guard: ~s\n", + [Eval, cerl_prettypr:format(Guard, [{noann, true}])]), + case cerl:type(Guard) of + binary -> + {Map, t_binary()}; + 'case' -> + Arg = cerl:case_arg(Guard), + Clauses = cerl:case_clauses(Guard), + bind_guard_case_clauses(Arg, Clauses, Map, Env, Eval, State); + cons -> + Hd = cerl:cons_hd(Guard), + Tl = cerl:cons_tl(Guard), + {Map1, HdType} = bind_guard(Hd, Map, Env, dont_know, State), + {Map2, TlType} = bind_guard(Tl, Map1, Env, dont_know, State), + {Map2, t_cons(HdType, TlType)}; + literal -> + {Map, literal_type(Guard)}; + 'try' -> + Arg = cerl:try_arg(Guard), + [Var] = cerl:try_vars(Guard), + %%?debug("Storing: ~w\n", [Var]), + NewEnv = dict:store(get_label(Var), Arg, Env), + bind_guard(cerl:try_body(Guard), Map, NewEnv, Eval, State); + tuple -> + Es0 = cerl:tuple_es(Guard), + {Map1, Es} = bind_guard_list(Es0, Map, Env, dont_know, State), + {Map1, t_tuple(Es)}; + 'let' -> + Arg = cerl:let_arg(Guard), + [Var] = cerl:let_vars(Guard), + %%?debug("Storing: ~w\n", [Var]), + NewEnv = dict:store(get_label(Var), Arg, Env), + bind_guard(cerl:let_body(Guard), Map, NewEnv, Eval, State); + values -> + Es = cerl:values_es(Guard), + List = [bind_guard(V, Map, Env, dont_know, State) || V <- Es], + Type = t_product([T || {_, T} <- List]), + {Map, Type}; + var -> + ?debug("Looking for var(~w)...", [cerl_trees:get_label(Guard)]), + case dict:find(get_label(Guard), Env) of + error -> + ?debug("Did not find it\n", []), + Type = lookup_type(Guard, Map), + Constr = + case Eval of + pos -> t_atom(true); + neg -> t_atom(false); + dont_know -> Type + end, + Inf = t_inf(Constr, Type), + {enter_type(Guard, Inf, Map), Inf}; + {ok, Tree} -> + ?debug("Found it\n", []), + {Map1, Type} = bind_guard(Tree, Map, Env, Eval, State), + {enter_type(Guard, Type, Map1), Type} + end; + call -> + handle_guard_call(Guard, Map, Env, Eval, State) + end. + +handle_guard_call(Guard, Map, Env, Eval, State) -> + MFA = {cerl:atom_val(cerl:call_module(Guard)), + cerl:atom_val(cerl:call_name(Guard)), + cerl:call_arity(Guard)}, + case MFA of + {erlang, F, 1} when F =:= is_atom; F =:= is_boolean; + F =:= is_binary; F =:= is_bitstring; + F =:= is_float; F =:= is_function; + F =:= is_integer; F =:= is_list; + F =:= is_number; F =:= is_pid; F =:= is_port; + F =:= is_reference; F =:= is_tuple -> + handle_guard_type_test(Guard, F, Map, Env, Eval, State); + {erlang, is_function, 2} -> + handle_guard_is_function(Guard, Map, Env, Eval, State); + MFA when (MFA =:= {erlang, internal_is_record, 3}) or + (MFA =:= {erlang, is_record, 3}) -> + handle_guard_is_record(Guard, Map, Env, Eval, State); + {erlang, '=:=', 2} -> + handle_guard_eqeq(Guard, Map, Env, Eval, State); + {erlang, '==', 2} -> + handle_guard_eq(Guard, Map, Env, Eval, State); + {erlang, 'and', 2} -> + handle_guard_and(Guard, Map, Env, Eval, State); + {erlang, 'or', 2} -> + handle_guard_or(Guard, Map, Env, Eval, State); + {erlang, 'not', 1} -> + handle_guard_not(Guard, Map, Env, Eval, State); + {erlang, Comp, 2} when Comp =:= '<'; Comp =:= '=<'; + Comp =:= '>'; Comp =:= '>=' -> + handle_guard_comp(Guard, Comp, Map, Env, Eval, State); + _ -> + handle_guard_gen_fun(MFA, Guard, Map, Env, Eval, State) + end. + +handle_guard_gen_fun({M, F, A}, Guard, Map, Env, Eval, State) -> + Args = cerl:call_args(Guard), + {Map1, As0} = bind_guard_list(Args, Map, Env, dont_know, State), + MapFun = fun(Type) -> + case lists:member(Type, State#state.opaques) of + true -> erl_types:t_opaque_structure(Type); + false -> Type + end + end, + As = lists:map(MapFun, As0), + Mode = case As =:= As0 of + true -> structured; + false -> opaque + end, + BifRet = erl_bif_types:type(M, F, A, As), + case t_is_none(BifRet) of + true -> + %% Is this an error-bif? + case t_is_none(erl_bif_types:type(M, F, A)) of + true -> signal_guard_fail(Guard, As, State); + false -> signal_guard_fatal_fail(Guard, As, State) + end; + false -> + BifArgs = case erl_bif_types:arg_types(M, F, A) of + unknown -> lists:duplicate(A, t_any()); + List -> List + end, + Map2 = enter_type_lists(Args, t_inf_lists(BifArgs, As0, Mode), Map1), + Ret = + case Eval of + pos -> t_inf(t_atom(true), BifRet); + neg -> t_inf(t_atom(false), BifRet); + dont_know -> BifRet + end, + case t_is_none(Ret) of + true -> + case Eval =:= pos of + true -> signal_guard_fail(Guard, As, State); + false -> throw({fail, none}) + end; + false -> {Map2, Ret} + end + end. + +handle_guard_type_test(Guard, F, Map, Env, Eval, State) -> + [Arg] = cerl:call_args(Guard), + {Map1, ArgType} = bind_guard(Arg, Map, Env, dont_know, State), + case bind_type_test(Eval, F, ArgType, State) of + error -> + ?debug("Type test: ~w failed\n", [F]), + signal_guard_fail(Guard, [ArgType], State); + {ok, NewArgType, Ret} -> + ?debug("Type test: ~w succeeded, NewType: ~s, Ret: ~s\n", + [F, t_to_string(NewArgType), t_to_string(Ret)]), + {enter_type(Arg, NewArgType, Map1), Ret} + end. + +bind_type_test(Eval, TypeTest, ArgType, State) -> + Type = case TypeTest of + is_atom -> t_atom(); + is_boolean -> t_boolean(); + is_binary -> t_binary(); + is_bitstring -> t_bitstr(); + is_float -> t_float(); + is_function -> t_fun(); + is_integer -> t_integer(); + is_list -> t_maybe_improper_list(); + is_number -> t_number(); + is_pid -> t_pid(); + is_port -> t_port(); + is_reference -> t_reference(); + is_tuple -> t_tuple() + end, + Mode = determine_mode(ArgType, State#state.opaques), + case Eval of + pos -> + Inf = t_inf(Type, ArgType, Mode), + case t_is_none(Inf) of + true -> error; + false -> {ok, Inf, t_atom(true)} + end; + neg -> + case Mode of + opaque -> + Struct = erl_types:t_opaque_structure(ArgType), + case t_is_none(t_subtract(Struct, Type)) of + true -> error; + false -> {ok, ArgType, t_atom(false)} + end; + structured -> + Sub = t_subtract(ArgType, Type), + case t_is_none(Sub) of + true -> error; + false -> {ok, Sub, t_atom(false)} + end + end; + dont_know -> + {ok, ArgType, t_boolean()} + end. + +handle_guard_comp(Guard, Comp, Map, Env, Eval, State) -> + Args = cerl:call_args(Guard), + [Arg1, Arg2] = Args, + {Map1, ArgTypes} = bind_guard_list(Args, Map, Env, dont_know, State), + [Type1, Type2] = ArgTypes, + IsInt1 = t_is_integer(Type1), + IsInt2 = t_is_integer(Type2), + case {cerl:type(Arg1), cerl:type(Arg2)} of + {literal, literal} -> + case erlang:Comp(cerl:concrete(Arg1), cerl:concrete(Arg2)) of + true when Eval =:= pos -> {Map, t_atom(true)}; + true when Eval =:= dont_know -> {Map, t_atom(true)}; + true when Eval =:= neg -> {Map, t_atom(true)}; + false when Eval =:= pos -> signal_guard_fail(Guard, ArgTypes, State); + false when Eval =:= dont_know -> {Map, t_atom(false)}; + false when Eval =:= neg -> {Map, t_atom(false)} + end; + {literal, var} when IsInt1 andalso IsInt2 andalso (Eval =:= pos) -> + case bind_comp_literal_var(Arg1, Arg2, Type2, Comp, Map1) of + error -> signal_guard_fail(Guard, ArgTypes, State); + {ok, NewMap} -> {NewMap, t_atom(true)} + end; + {var, literal} when IsInt1 andalso IsInt2 andalso (Eval =:= pos) -> + case bind_comp_literal_var(Arg2, Arg1, Type1, invert_comp(Comp), Map1) of + error -> signal_guard_fail(Guard, ArgTypes, State); + {ok, NewMap} -> {NewMap, t_atom(true)} + end; + {_, _} -> + handle_guard_gen_fun({erlang, Comp, 2}, Guard, Map, Env, Eval, State) + end. + +invert_comp('=<') -> '>='; +invert_comp('<') -> '>'; +invert_comp('>=') -> '=<'; +invert_comp('>') -> '<'. + +bind_comp_literal_var(Lit, Var, VarType, CompOp, Map) -> + LitVal = cerl:concrete(Lit), + NewVarType = + case t_number_vals(VarType) of + unknown -> + Range = + case CompOp of + '=<' -> t_from_range(LitVal, pos_inf); + '<' -> t_from_range(LitVal + 1, pos_inf); + '>=' -> t_from_range(neg_inf, LitVal); + '>' -> t_from_range(neg_inf, LitVal - 1) + end, + t_inf(Range, VarType); + NumberVals -> + NewNumberVals = [X || X <- NumberVals, erlang:CompOp(LitVal, X)], + t_integers(NewNumberVals) + end, + case t_is_none(NewVarType) of + true -> error; + false -> {ok, enter_type(Var, NewVarType, Map)} + end. + +handle_guard_is_function(Guard, Map, Env, Eval, State) -> + Args = cerl:call_args(Guard), + {Map1, ArgTypes0} = bind_guard_list(Args, Map, Env, dont_know, State), + [FunType0, ArityType0] = ArgTypes0, + ArityType = t_inf(ArityType0, t_integer()), + case t_is_none(ArityType) of + true -> signal_guard_fail(Guard, ArgTypes0, State); + false -> + FunTypeConstr = + case t_number_vals(ArityType) of + unknown -> t_fun(); + Vals -> + t_sup([t_fun(lists:duplicate(X, t_any()), t_any()) || X <- Vals]) + end, + FunType = t_inf(FunType0, FunTypeConstr), + case t_is_none(FunType) of + true -> + case Eval of + pos -> signal_guard_fail(Guard, ArgTypes0, State); + neg -> {Map1, t_atom(false)}; + dont_know -> {Map1, t_atom(false)} + end; + false -> + case Eval of + pos -> {enter_type_lists(Args, [FunType, ArityType], Map1), + t_atom(true)}; + neg -> {Map1, t_atom(false)}; + dont_know -> {Map1, t_boolean()} + end + end + end. + +handle_guard_is_record(Guard, Map, Env, Eval, State) -> + Args = cerl:call_args(Guard), + [Rec, Tag0, Arity0] = Args, + Tag = cerl:atom_val(Tag0), + Arity = cerl:int_val(Arity0), + {Map1, RecType} = bind_guard(Rec, Map, Env, dont_know, State), + ArityMin1 = Arity - 1, + TupleType = + case state__lookup_record(Tag, ArityMin1, State) of + error -> t_tuple([t_atom(Tag)|lists:duplicate(ArityMin1, t_any())]); + {ok, Prototype} -> Prototype + end, + Mode = determine_mode(RecType, State#state.opaques), + NewTupleType = + case t_opaque_match_record(TupleType, State#state.opaques) of + [Opaque] -> Opaque; + _ -> TupleType + end, + Type = t_inf(NewTupleType, RecType, Mode), + case t_is_none(Type) of + true -> + case Eval of + pos -> signal_guard_fail(Guard, + [RecType, t_from_term(Tag), + t_from_term(Arity)], + State); + neg -> {Map1, t_atom(false)}; + dont_know -> {Map1, t_atom(false)} + end; + false -> + case Eval of + pos -> {enter_type(Rec, Type, Map1), t_atom(true)}; + neg -> {Map1, t_atom(false)}; + dont_know -> {Map1, t_boolean()} + end + end. + +handle_guard_eq(Guard, Map, Env, Eval, State) -> + [Arg1, Arg2] = cerl:call_args(Guard), + case {cerl:type(Arg1), cerl:type(Arg2)} of + {literal, literal} -> + case cerl:concrete(Arg1) =:= cerl:concrete(Arg2) of + true -> + if + Eval =:= pos -> {Map, t_atom(true)}; + Eval =:= neg -> throw({fail, none}); + Eval =:= dont_know -> {Map, t_atom(true)} + end; + false -> + if + Eval =:= neg -> {Map, t_atom(false)}; + Eval =:= dont_know -> {Map, t_atom(false)}; + Eval =:= pos -> + ArgTypes = [t_from_term(cerl:concrete(Arg1)), + t_from_term(cerl:concrete(Arg2))], + signal_guard_fail(Guard, ArgTypes, State) + end + end; + {literal, _} when Eval =:= pos -> + case cerl:concrete(Arg1) of + Atom when is_atom(Atom) -> + bind_eqeq_guard_lit_other(Guard, Arg1, Arg2, Map, Env, State); + [] -> + bind_eqeq_guard_lit_other(Guard, Arg1, Arg2, Map, Env, State); + _ -> + bind_eq_guard(Guard, Arg1, Arg2, Map, Env, Eval, State) + end; + {_, literal} when Eval =:= pos -> + case cerl:concrete(Arg2) of + Atom when is_atom(Atom) -> + bind_eqeq_guard_lit_other(Guard, Arg2, Arg1, Map, Env, State); + [] -> + bind_eqeq_guard_lit_other(Guard, Arg2, Arg1, Map, Env, State); + _ -> + bind_eq_guard(Guard, Arg1, Arg2, Map, Env, Eval, State) + end; + {_, _} -> + bind_eq_guard(Guard, Arg1, Arg2, Map, Env, Eval, State) + end. + +bind_eq_guard(Guard, Arg1, Arg2, Map, Env, Eval, State) -> + {Map1, Type1} = bind_guard(Arg1, Map, Env, dont_know, State), + {Map2, Type2} = bind_guard(Arg2, Map1, Env, dont_know, State), + case (t_is_nil(Type1) orelse t_is_nil(Type2) orelse + t_is_atom(Type1) orelse t_is_atom(Type2)) of + true -> bind_eqeq_guard(Guard, Arg1, Arg2, Map, Env, Eval, State); + false -> + case Eval of + pos -> {Map2, t_atom(true)}; + neg -> {Map2, t_atom(false)}; + dont_know -> {Map2, t_boolean()} + end + end. + +handle_guard_eqeq(Guard, Map, Env, Eval, State) -> + [Arg1, Arg2] = cerl:call_args(Guard), + case {cerl:type(Arg1), cerl:type(Arg2)} of + {literal, literal} -> + case cerl:concrete(Arg1) =:= cerl:concrete(Arg2) of + true -> + if Eval =:= neg -> throw({fail, none}); + Eval =:= pos -> {Map, t_atom(true)}; + Eval =:= dont_know -> {Map, t_atom(true)} + end; + false -> + if Eval =:= neg -> {Map, t_atom(false)}; + Eval =:= dont_know -> {Map, t_atom(false)}; + Eval =:= pos -> + ArgTypes = [t_from_term(cerl:concrete(Arg1)), + t_from_term(cerl:concrete(Arg2))], + signal_guard_fail(Guard, ArgTypes, State) + end + end; + {literal, _} when Eval =:= pos -> + bind_eqeq_guard_lit_other(Guard, Arg1, Arg2, Map, Env, State); + {_, literal} when Eval =:= pos -> + bind_eqeq_guard_lit_other(Guard, Arg2, Arg1, Map, Env, State); + {_, _} -> + bind_eqeq_guard(Guard, Arg1, Arg2, Map, Env, Eval, State) + end. + +bind_eqeq_guard(Guard, Arg1, Arg2, Map, Env, Eval, State) -> + {Map1, Type1} = bind_guard(Arg1, Map, Env, dont_know, State), + {Map2, Type2} = bind_guard(Arg2, Map1, Env, dont_know, State), + ?debug("Types are:~s =:= ~s\n", [t_to_string(Type1), + t_to_string(Type2)]), + Inf = t_inf(Type1, Type2), + case t_is_none(Inf) of + true -> + case Eval of + neg -> {Map2, t_atom(false)}; + dont_know -> {Map2, t_atom(false)}; + pos -> signal_guard_fail(Guard, [Type1, Type2], State) + end; + false -> + case Eval of + pos -> + case {cerl:type(Arg1), cerl:type(Arg2)} of + {var, var} -> + Map3 = enter_subst(Arg1, Arg2, Map2), + Map4 = enter_type(Arg2, Inf, Map3), + {Map4, t_atom(true)}; + {var, _} -> + Map3 = enter_type(Arg1, Inf, Map2), + {Map3, t_atom(true)}; + {_, var} -> + Map3 = enter_type(Arg2, Inf, Map2), + {Map3, t_atom(true)}; + {_, _} -> + {Map2, t_atom(true)} + end; + neg -> + {Map2, t_atom(false)}; + dont_know -> + {Map2, t_boolean()} + end + end. + +bind_eqeq_guard_lit_other(Guard, Arg1, Arg2, Map, Env, State) -> + %% Assumes positive evaluation + case cerl:concrete(Arg1) of + true -> + {_, Type} = MT = bind_guard(Arg2, Map, Env, pos, State), + case t_is_atom(true, Type) of + true -> MT; + false -> + {_, Type0} = bind_guard(Arg2, Map, Env, dont_know, State), + signal_guard_fail(Guard, [Type0, t_atom(true)], State) + end; + false -> + {Map1, Type} = bind_guard(Arg2, Map, Env, neg, State), + case t_is_atom(false, Type) of + true -> {Map1, t_atom(true)}; + false -> + {_, Type0} = bind_guard(Arg2, Map, Env, dont_know, State), + signal_guard_fail(Guard, [Type0, t_atom(true)], State) + end; + Term -> + LitType = t_from_term(Term), + {Map1, Type} = bind_guard(Arg2, Map, Env, dont_know, State), + case t_is_subtype(LitType, Type) of + false -> signal_guard_fail(Guard, [Type, LitType], State); + true -> + case cerl:is_c_var(Arg2) of + true -> {enter_type(Arg2, LitType, Map1), t_atom(true)}; + false -> {Map1, t_atom(true)} + end + end + end. + +handle_guard_and(Guard, Map, Env, Eval, State) -> + [Arg1, Arg2] = cerl:call_args(Guard), + case Eval of + pos -> + {Map1, Type1} = bind_guard(Arg1, Map, Env, Eval, State), + case t_is_atom(true, Type1) of + false -> throw({fail, none}); + true -> + {Map2, Type2} = bind_guard(Arg2, Map1, Env, Eval, State), + case t_is_atom(true, Type2) of + false -> throw({fail, none}); + true -> {Map2, t_atom(true)} + end + end; + neg -> + {Map1, Type1} = + try bind_guard(Arg1, Map, Env, neg, State) + catch throw:{fail, _} -> bind_guard(Arg2, Map, Env, pos, State) + end, + {Map2, Type2} = + try bind_guard(Arg1, Map, Env, neg, State) + catch throw:{fail, _} -> bind_guard(Arg2, Map, Env, pos, State) + end, + case t_is_atom(false, Type1) orelse t_is_atom(false, Type2) of + true -> {join_maps([Map1, Map2], Map), t_atom(false)}; + false -> throw({fail, none}) + end; + dont_know -> + True = t_atom(true), + {Map1, Type1} = bind_guard(Arg1, Map, Env, dont_know, State), + case t_is_none(t_inf(Type1, t_boolean())) of + true -> throw({fail, none}); + false -> + {Map2, Type2} = bind_guard(Arg2, Map1, Env, Eval, State), + case t_is_none(t_inf(Type2, t_boolean())) of + true -> throw({fail, none}); + false -> {Map2, True} + end + end + end. + +handle_guard_or(Guard, Map, Env, Eval, State) -> + [Arg1, Arg2] = cerl:call_args(Guard), + case Eval of + pos -> + {Map1, Bool1} = + try bind_guard(Arg1, Map, Env, pos, State) + catch + throw:{fail,_} -> bind_guard(Arg1, Map, Env, dont_know, State) + end, + {Map2, Bool2} = + try bind_guard(Arg2, Map, Env, pos, State) + catch + throw:{fail,_} -> bind_guard(Arg2, Map, Env, dont_know, State) + end, + case ((t_is_atom(true, Bool1) andalso t_is_boolean(Bool2)) + orelse + (t_is_atom(true, Bool2) andalso t_is_boolean(Bool1))) of + true -> {join_maps([Map1, Map2], Map), t_atom(true)}; + false -> throw({fail, none}) + end; + neg -> + {Map1, Type1} = bind_guard(Arg1, Map, Env, neg, State), + case t_is_atom(true, Type1) of + false -> throw({fail, none}); + true -> + {Map2, Type2} = bind_guard(Arg2, Map1, Env, neg, State), + case t_is_atom(true, Type2) of + false -> throw({fail, none}); + true -> {Map2, t_atom(false)} + end + end; + dont_know -> + {Map1, Bool1} = bind_guard(Arg1, Map, Env, dont_know, State), + {Map2, Bool2} = bind_guard(Arg2, Map, Env, dont_know, State), + case t_is_boolean(Bool1) andalso t_is_boolean(Bool2) of + true -> {join_maps([Map1, Map2], Map), t_sup(Bool1, Bool2)}; + false -> throw({fail, none}) + end + end. + +handle_guard_not(Guard, Map, Env, Eval, State) -> + [Arg] = cerl:call_args(Guard), + case Eval of + neg -> + {Map1, Type} = bind_guard(Arg, Map, Env, pos, State), + case t_is_atom(true, Type) of + true -> {Map1, t_atom(false)}; + false -> throw({fail, none}) + end; + pos -> + {Map1, Type} = bind_guard(Arg, Map, Env, neg, State), + case t_is_atom(false, Type) of + true -> {Map1, t_atom(true)}; + false -> throw({fail, none}) + end; + dont_know -> + {Map1, Type} = bind_guard(Arg, Map, Env, dont_know, State), + Bool = t_inf(Type, t_boolean()), + case t_is_none(Bool) of + true -> throw({fatal_fail, none}); + false -> + case t_atom_vals(Bool) of + ['true'] -> {Map1, t_atom(false)}; + ['false'] -> {Map1, t_atom(true)}; + [_, _] -> {Map1, Bool} + end + end + end. + +bind_guard_list(Guards, Map, Env, Eval, State) -> + bind_guard_list(Guards, Map, Env, Eval, State, []). + +bind_guard_list([G|Gs], Map, Env, Eval, State, Acc) -> + {Map1, T} = bind_guard(G, Map, Env, Eval, State), + bind_guard_list(Gs, Map1, Env, Eval, State, [T|Acc]); +bind_guard_list([], Map, _Env, _Eval, _State, Acc) -> + {Map, lists:reverse(Acc)}. + +-spec signal_guard_fail(cerl:c_call(), [erl_types:erl_type()], #state{}) -> + no_return(). + +signal_guard_fail(Guard, ArgTypes, State) -> + Args = cerl:call_args(Guard), + F = cerl:atom_val(cerl:call_name(Guard)), + MFA = {cerl:atom_val(cerl:call_module(Guard)), F, length(Args)}, + Msg = + case is_infix_op(MFA) of + true -> + [ArgType1, ArgType2] = ArgTypes, + [Arg1, Arg2] = Args, + {guard_fail, [format_args_1([Arg1], [ArgType1], State), + atom_to_list(F), + format_args_1([Arg2], [ArgType2], State)]}; + false -> + mk_guard_msg(F, Args, ArgTypes, State) + end, + throw({fail, {Guard, Msg}}). + +is_infix_op({erlang, '=:=', 2}) -> true; +is_infix_op({erlang, '==', 2}) -> true; +is_infix_op({erlang, '=/=', 2}) -> true; +is_infix_op({erlang, '=/', 2}) -> true; +is_infix_op({erlang, '<', 2}) -> true; +is_infix_op({erlang, '=<', 2}) -> true; +is_infix_op({erlang, '>', 2}) -> true; +is_infix_op({erlang, '>=', 2}) -> true; +is_infix_op({M, F, A}) when is_atom(M), is_atom(F), + is_integer(A), 0 =< A, A =< 255 -> false. + +-spec signal_guard_fatal_fail(cerl:c_call(), [erl_types:erl_type()], #state{}) -> + no_return(). + +signal_guard_fatal_fail(Guard, ArgTypes, State) -> + Args = cerl:call_args(Guard), + F = cerl:atom_val(cerl:call_name(Guard)), + Msg = mk_guard_msg(F, Args, ArgTypes, State), + throw({fatal_fail, {Guard, Msg}}). + +mk_guard_msg(F, Args, ArgTypes, State) -> + FArgs = [F, format_args(Args, ArgTypes, State)], + case any_has_opaque_subtype(ArgTypes) of + true -> {opaque_guard, FArgs}; + false -> {guard_fail, FArgs} + end. + +bind_guard_case_clauses(Arg, Clauses, Map, Env, Eval, State) -> + Clauses1 = filter_fail_clauses(Clauses), + {GenMap, GenArgType} = bind_guard(Arg, Map, Env, dont_know, State), + bind_guard_case_clauses(GenArgType, GenMap, Arg, Clauses1, Map, Env, Eval, + t_none(), [], State). + +filter_fail_clauses([Clause|Left]) -> + case (cerl:clause_pats(Clause) =:= []) of + true -> + Body = cerl:clause_body(Clause), + case cerl:is_literal(Body) andalso (cerl:concrete(Body) =:= fail) of + true -> filter_fail_clauses(Left); + false -> [Clause|filter_fail_clauses(Left)] + end; + false -> + [Clause|filter_fail_clauses(Left)] + end; +filter_fail_clauses([]) -> + []. + +bind_guard_case_clauses(GenArgType, GenMap, ArgExpr, [Clause|Left], + Map, Env, Eval, AccType, AccMaps, State) -> + Pats = cerl:clause_pats(Clause), + {NewMap0, ArgType} = + case Pats of + [Pat] -> + case cerl:is_literal(Pat) of + true -> + try + case cerl:concrete(Pat) of + true -> bind_guard(ArgExpr, Map, Env, pos, State); + false -> bind_guard(ArgExpr, Map, Env, neg, State); + _ -> {GenMap, GenArgType} + end + catch + throw:{fail, _} -> {none, GenArgType} + end; + false -> + {GenMap, GenArgType} + end; + _ -> {GenMap, GenArgType} + end, + NewMap1 = + case Pats =:= [] of + true -> NewMap0; + false -> + case t_is_none(ArgType) of + true -> none; + false -> + ArgTypes = case t_is_any(ArgType) of + true -> Any = t_any(), [Any || _ <- Pats]; + false -> t_to_tlist(ArgType) + end, + case bind_pat_vars(Pats, ArgTypes, [], NewMap0, State) of + {error, _, _, _, _} -> none; + {PatMap, _PatTypes} -> PatMap + end + end + end, + Guard = cerl:clause_guard(Clause), + GenPatType = dialyzer_typesig:get_safe_underapprox(Pats, Guard), + NewGenArgType = t_subtract(GenArgType, GenPatType), + case (NewMap1 =:= none) orelse t_is_none(GenArgType) of + true -> + bind_guard_case_clauses(NewGenArgType, GenMap, ArgExpr, Left, Map, Env, + Eval, AccType, AccMaps, State); + false -> + {NewAccType, NewAccMaps} = + try + {NewMap2, GuardType} = bind_guard(Guard, NewMap1, Env, pos, State), + case t_is_none(t_inf(t_atom(true), GuardType)) of + true -> throw({fail, none}); + false -> ok + end, + {NewMap3, CType} = bind_guard(cerl:clause_body(Clause), NewMap2, + Env, Eval, State), + case Eval of + pos -> + case t_is_atom(true, CType) of + true -> ok; + false -> throw({fail, none}) + end; + neg -> + case t_is_atom(false, CType) of + true -> ok; + false -> throw({fail, none}) + end; + dont_know -> + ok + end, + {t_sup(AccType, CType), [NewMap3|AccMaps]} + catch + throw:{fail, _What} -> {AccType, AccMaps} + end, + bind_guard_case_clauses(NewGenArgType, GenMap, ArgExpr, Left, Map, Env, + Eval, NewAccType, NewAccMaps, State) + end; +bind_guard_case_clauses(_GenArgType, _GenMap, _ArgExpr, [], Map, _Env, _Eval, + AccType, AccMaps, _State) -> + case t_is_none(AccType) of + true -> throw({fail, none}); + false -> {join_maps(AccMaps, Map), AccType} + end. + +%%% =========================================================================== +%%% +%%% Maps and types. +%%% +%%% =========================================================================== + +map__new() -> + {dict:new(), dict:new()}. + +join_maps(Maps, MapOut) -> + {Map, Subst} = MapOut, + Keys = ordsets:from_list(dict:fetch_keys(Map) ++ dict:fetch_keys(Subst)), + join_maps(Keys, Maps, MapOut). + +join_maps([Key|Left], Maps, MapOut) -> + Type = join_maps_one_key(Maps, Key, t_none()), + case t_is_equal(lookup_type(Key, MapOut), Type) of + true -> join_maps(Left, Maps, MapOut); + false -> join_maps(Left, Maps, enter_type(Key, Type, MapOut)) + end; +join_maps([], _Maps, MapOut) -> + MapOut. + +join_maps_one_key([Map|Left], Key, AccType) -> + case t_is_any(AccType) of + true -> + %% We can stop here + AccType; + false -> + join_maps_one_key(Left, Key, t_sup(lookup_type(Key, Map), AccType)) + end; +join_maps_one_key([], _Key, AccType) -> + AccType. + +enter_type_lists([Key|KeyTail], [Val|ValTail], Map) -> + Map1 = enter_type(Key, Val, Map), + enter_type_lists(KeyTail, ValTail, Map1); +enter_type_lists([], [], Map) -> + Map. + +enter_type_list([{Key, Val}|Left], Map) -> + Map1 = enter_type(Key, Val, Map), + enter_type_list(Left, Map1); +enter_type_list([], Map) -> + Map. + +enter_type(Key, Val, {Map, Subst} = MS) -> + case cerl:is_literal(Key) of + true -> MS; + false -> + case cerl:is_c_values(Key) of + true -> + Keys = cerl:values_es(Key), + case t_is_any(Val) orelse t_is_none(Val) of + true -> + enter_type_lists(Keys, [Val || _ <- Keys], MS); + false -> + enter_type_lists(cerl:values_es(Key), t_to_tlist(Val), MS) + end; + false -> + KeyLabel = get_label(Key), + case dict:find(KeyLabel, Subst) of + {ok, NewKey} -> + ?debug("Binding ~p to ~p\n", [KeyLabel, NewKey]), + enter_type(NewKey, Val, MS); + error -> + ?debug("Entering ~p :: ~s\n", [KeyLabel, t_to_string(Val)]), + case dict:find(KeyLabel, Map) of + {ok, Val} -> MS; + {ok, _OldVal} -> {dict:store(KeyLabel, Val, Map), Subst}; + error -> {dict:store(KeyLabel, Val, Map), Subst} + end + end + end + end. + +enter_subst(Key, Val, {Map, Subst} = MS) -> + KeyLabel = get_label(Key), + case cerl:is_literal(Val) of + true -> + NewMap = dict:store(KeyLabel, literal_type(Val), Map), + {NewMap, Subst}; + false -> + case cerl:is_c_var(Val) of + false -> MS; + true -> + ValLabel = get_label(Val), + case dict:find(ValLabel, Subst) of + {ok, NewVal} -> + enter_subst(Key, NewVal, MS); + error -> + if KeyLabel =:= ValLabel -> MS; + true -> + ?debug("Subst: storing ~p = ~p\n", [KeyLabel, ValLabel]), + NewSubst = dict:store(KeyLabel, ValLabel, Subst), + {Map, NewSubst} + end + end + end + end. + +lookup_type(Key, {Map, Subst}) -> + lookup(Key, Map, Subst, t_none()). + +lookup(Key, Map, Subst, AnyNone) -> + case cerl:is_literal(Key) of + true -> literal_type(Key); + false -> + Label = get_label(Key), + case dict:find(Label, Subst) of + {ok, NewKey} -> lookup(NewKey, Map, Subst, AnyNone); + error -> + case dict:find(Label, Map) of + {ok, Val} -> Val; + error -> AnyNone + end + end + end. + +lookup_fun_sig(Fun, Callgraph, Plt) -> + MFAorLabel = + case dialyzer_callgraph:lookup_name(Fun, Callgraph) of + error -> Fun; + {ok, MFA} -> MFA + end, + dialyzer_plt:lookup(Plt, MFAorLabel). + +literal_type(Lit) -> + t_from_term(cerl:concrete(Lit)). + +mark_as_fresh([Tree|Left], Map) -> + SubTrees1 = lists:append(cerl:subtrees(Tree)), + {SubTrees2, Map1} = + case cerl:type(Tree) of + bitstr -> + %% The Size field is not fresh. + {SubTrees1 -- [cerl:bitstr_size(Tree)], Map}; + var -> + {SubTrees1, enter_type(Tree, t_any(), Map)}; + _ -> + {SubTrees1, Map} + end, + mark_as_fresh(SubTrees2 ++ Left, Map1); +mark_as_fresh([], Map) -> + Map. + +-ifdef(DEBUG). +debug_pp_map(Map = {Map0, _Subst}) -> + Keys = dict:fetch_keys(Map0), + io:format("Map:\n", []), + lists:foreach(fun (Key) -> + io:format("\t~w :: ~s\n", + [Key, t_to_string(lookup_type(Key, Map))]) + end, Keys), + ok. +-else. +debug_pp_map(_Map) -> ok. +-endif. + +%%% =========================================================================== +%%% +%%% Utilities +%%% +%%% =========================================================================== + +get_label(L) when is_integer(L) -> + L; +get_label(T) -> + cerl_trees:get_label(T). + +t_is_simple(ArgType) -> + t_is_atom(ArgType) orelse t_is_number(ArgType) orelse t_is_port(ArgType) + orelse t_is_pid(ArgType) orelse t_is_reference(ArgType) + orelse t_is_nil(ArgType). + +%% t_is_structured(ArgType) -> +%% case t_is_nil(ArgType) of +%% true -> false; +%% false -> +%% SType = t_inf(t_sup([t_list(), t_tuple(), t_binary()]), ArgType), +%% t_is_equal(ArgType, SType) +%% end. + +is_call_to_send(Tree) -> + case cerl:is_c_call(Tree) of + false -> false; + true -> + Mod = cerl:call_module(Tree), + Name = cerl:call_name(Tree), + Arity = cerl:call_arity(Tree), + cerl:is_c_atom(Mod) + andalso cerl:is_c_atom(Name) + andalso (cerl:atom_val(Name) =:= '!') + andalso (cerl:atom_val(Mod) =:= erlang) + andalso (Arity =:= 2) + end. + +any_opaque(Ts) -> + lists:any(fun erl_types:t_is_opaque/1, Ts). + +any_has_opaque_subtype(Ts) -> + lists:any(fun erl_types:t_has_opaque_subtype/1, Ts). + +filter_match_fail([Clause] = Cls) -> + Body = cerl:clause_body(Clause), + case cerl:type(Body) of + primop -> + case cerl:atom_val(cerl:primop_name(Body)) of + match_fail -> []; + raise -> []; + _ -> Cls + end; + _ -> Cls + end; +filter_match_fail([H|T]) -> + [H|filter_match_fail(T)]; +filter_match_fail([]) -> + %% This can actually happen, for example in + %% receive after 1 -> ok end + []. + +determine_mode(Type, Opaques) -> + case lists:member(Type, Opaques) of + true -> opaque; + false -> structured + end. + +%%% =========================================================================== +%%% +%%% The State. +%%% +%%% =========================================================================== + +state__new(Callgraph, Tree, Plt, Module, Records) -> + TreeMap = build_tree_map(Tree), + Funs = dict:fetch_keys(TreeMap), + FunTab = init_fun_tab(Funs, dict:new(), TreeMap, Callgraph, Plt), + Work = init_work([get_label(Tree)]), + Env = dict:store(top, map__new(), dict:new()), + Opaques = erl_types:module_builtin_opaques(Module) ++ + erl_types:t_opaque_from_records(Records), + #state{callgraph = Callgraph, envs = Env, fun_tab = FunTab, opaques = Opaques, + plt = Plt, races = dialyzer_races:new(), records = Records, + warning_mode = false, warnings = [], work = Work, tree_map = TreeMap}. + +state__mark_fun_as_handled(#state{fun_tab = FunTab} = State, Fun0) -> + Fun = get_label(Fun0), + case dict:find(Fun, FunTab) of + {ok, {not_handled, Entry}} -> + State#state{fun_tab = dict:store(Fun, Entry, FunTab)}; + {ok, {_, _}} -> + State + end. + +state__warning_mode(#state{warning_mode = WM}) -> + WM. + +state__set_warning_mode(#state{tree_map = TreeMap, fun_tab = FunTab, + races = Races} = State) -> + ?debug("Starting warning pass\n", []), + Funs = dict:fetch_keys(TreeMap), + State#state{work = init_work([top|Funs--[top]]), + fun_tab = FunTab, warning_mode = true, + races = dialyzer_races:put_race_analysis(true, Races)}. + +state__restore_race_code(RaceCode, #state{callgraph = Callgraph} = State) -> + State#state{callgraph = dialyzer_callgraph:put_race_code(RaceCode, + Callgraph)}. + +state__race_analysis(Analysis, #state{races = Races} = State) -> + State#state{races = dialyzer_races:put_race_analysis(Analysis, Races)}. + +state__renew_curr_fun(CurrFun, CurrFunLabel, + #state{races = Races} = State) -> + State#state{races = dialyzer_races:put_curr_fun(CurrFun, CurrFunLabel, + Races)}. + +state__renew_fun_args(Args, #state{races = Races} = State) -> + case state__warning_mode(State) of + true -> State; + false -> + State#state{races = dialyzer_races:put_fun_args(Args, Races)} + end. + +state__renew_race_list(RaceList, RaceListSize, + #state{races = Races} = State) -> + State#state{races = dialyzer_races:put_race_list(RaceList, RaceListSize, + Races)}. + +state__renew_warnings(Warnings, State) -> + State#state{warnings = Warnings}. + +-spec state__add_warning(dial_warning(), state()) -> state(). + +state__add_warning(Warn, #state{warnings = Warnings} = State) -> + State#state{warnings = [Warn|Warnings]}. + +state__add_warning(State, Tag, Tree, Msg) -> + state__add_warning(State, Tag, Tree, Msg, false). + +state__add_warning(#state{warning_mode = false} = State, _, _, _, _) -> + State; +state__add_warning(#state{warnings = Warnings, warning_mode = true} = State, + Tag, Tree, Msg, Force) -> + Ann = cerl:get_ann(Tree), + case Force of + true -> + Warn = {Tag, {get_file(Ann), abs(get_line(Ann))}, Msg}, + State#state{warnings = [Warn|Warnings]}; + false -> + case is_compiler_generated(Ann) of + true -> State; + false -> + Warn = {Tag, {get_file(Ann), get_line(Ann)}, Msg}, + State#state{warnings = [Warn|Warnings]} + end + end. + +state__get_race_warnings(#state{races = Races} = State) -> + {Races1, State1} = dialyzer_races:get_race_warnings(Races, State), + State1#state{races = Races1}. + +state__get_warnings(#state{tree_map = TreeMap, fun_tab = FunTab, + callgraph = Callgraph, plt = Plt} = State, + NoWarnUnused) -> + FoldFun = + fun({top, _}, AccState) -> AccState; + ({FunLbl, Fun}, AccState) -> + {NotCalled, Ret} = + case dict:fetch(get_label(Fun), FunTab) of + {not_handled, {_Args0, Ret0}} -> {true, Ret0}; + {Args0, Ret0} -> {any_none(Args0), Ret0} + end, + case NotCalled of + true -> + {Warn, Msg} = + case dialyzer_callgraph:lookup_name(FunLbl, Callgraph) of + error -> {true, {unused_fun, []}}; + {ok, {_M, F, A}} = MFA -> + {not sets:is_element(MFA, NoWarnUnused), + {unused_fun, [F, A]}} + end, + case Warn of + true -> state__add_warning(AccState, ?WARN_NOT_CALLED, Fun, Msg); + false -> AccState + end; + false -> + {Name, Contract} = + case dialyzer_callgraph:lookup_name(FunLbl, Callgraph) of + error -> {[], none}; + {ok, {_M, F, A} = MFA} -> + {[F, A], dialyzer_plt:lookup_contract(Plt, MFA)} + end, + case t_is_none(Ret) of + true -> + %% Check if the function has a contract that allows this. + Warn = + case Contract of + none -> true; + {value, C} -> + GenRet = dialyzer_contracts:get_contract_return(C), + not t_is_unit(GenRet) + end, + case Warn of + true -> + case classify_returns(Fun) of + no_match -> + Msg = {no_return, [no_match|Name]}, + state__add_warning(AccState, ?WARN_RETURN_NO_RETURN, + Fun, Msg); + only_explicit -> + Msg = {no_return, [only_explicit|Name]}, + state__add_warning(AccState, ?WARN_RETURN_ONLY_EXIT, + Fun, Msg); + only_normal -> + Msg = {no_return, [only_normal|Name]}, + state__add_warning(AccState, ?WARN_RETURN_NO_RETURN, + Fun, Msg); + both -> + Msg = {no_return, [both|Name]}, + state__add_warning(AccState, ?WARN_RETURN_NO_RETURN, + Fun, Msg) + end; + false -> + AccState + end; + false -> + AccState + end + end + end, + #state{warnings = Warn} = lists:foldl(FoldFun, State, dict:to_list(TreeMap)), + Warn. + +state__is_escaping(Fun, #state{callgraph = Callgraph}) -> + dialyzer_callgraph:is_escaping(Fun, Callgraph). + +state__lookup_type_for_rec_var(Var, #state{callgraph = Callgraph} = State) -> + Label = get_label(Var), + case dialyzer_callgraph:lookup_rec_var(Label, Callgraph) of + error -> error; + {ok, MFA} -> + {ok, FunLabel} = dialyzer_callgraph:lookup_label(MFA, Callgraph), + {ok, state__fun_type(FunLabel, State)} + end. + +state__lookup_name({_, _, _} = MFA, #state{}) -> + MFA; +state__lookup_name(top, #state{}) -> + top; +state__lookup_name(Fun, #state{callgraph = Callgraph}) -> + case dialyzer_callgraph:lookup_name(Fun, Callgraph) of + {ok, MFA} -> MFA; + error -> Fun + end. + +state__lookup_record(Tag, Arity, #state{records = Records}) -> + case erl_types:lookup_record(Tag, Arity, Records) of + {ok, Fields} -> + {ok, t_tuple([t_atom(Tag)| + [FieldType || {_FieldName, FieldType} <- Fields]])}; + error -> + error + end. + +state__get_args(Tree, #state{fun_tab = FunTab}) -> + Fun = get_label(Tree), + case dict:find(Fun, FunTab) of + {ok, {not_handled, {ArgTypes, _}}} -> ArgTypes; + {ok, {ArgTypes, _}} -> ArgTypes + end. + +build_tree_map(Tree) -> + Fun = + fun(T, Dict) -> + case cerl:is_c_fun(T) of + true -> + dict:store(get_label(T), T, Dict); + false -> + Dict + end + end, + cerl_trees:fold(Fun, dict:new(), Tree). + +init_fun_tab([top|Left], Dict, TreeMap, Callgraph, Plt) -> + NewDict = dict:store(top, {not_handled, {[], t_none()}}, Dict), + init_fun_tab(Left, NewDict, TreeMap, Callgraph, Plt); +init_fun_tab([Fun|Left], Dict, TreeMap, Callgraph, Plt) -> + Arity = cerl:fun_arity(dict:fetch(Fun, TreeMap)), + FunEntry = + case dialyzer_callgraph:is_escaping(Fun, Callgraph) of + true -> + Args = lists:duplicate(Arity, t_any()), + case lookup_fun_sig(Fun, Callgraph, Plt) of + none -> {Args, t_unit()}; + {value, {RetType, _}} -> + case t_is_none(RetType) of + true -> {Args, t_none()}; + false -> {Args, t_unit()} + end + end; + false -> {lists:duplicate(Arity, t_none()), t_unit()} + end, + NewDict = dict:store(Fun, {not_handled, FunEntry}, Dict), + init_fun_tab(Left, NewDict, TreeMap, Callgraph, Plt); +init_fun_tab([], Dict, _TreeMap, _Callgraph, _Plt) -> + Dict. + +state__update_fun_env(Tree, Map, #state{envs = Envs} = State) -> + NewEnvs = dict:store(get_label(Tree), Map, Envs), + State#state{envs = NewEnvs}. + +state__fun_env(Tree, #state{envs = Envs}) -> + Fun = get_label(Tree), + case dict:find(Fun, Envs) of + error -> none; + {ok, Map} -> Map + end. + +state__clean_not_called(#state{fun_tab = FunTab} = State) -> + NewFunTab = + dict:map(fun(top, Entry) -> Entry; + (_Fun, {not_handled, {Args, _}}) -> {Args, t_none()}; + (_Fun, Entry) -> Entry + end, FunTab), + State#state{fun_tab = NewFunTab}. + +state__all_fun_types(#state{fun_tab = FunTab}) -> + Tab1 = dict:erase(top, FunTab), + dict:map(fun(_Fun, {Args, Ret}) -> t_fun(Args, Ret)end, Tab1). + +state__fun_type(Fun, #state{fun_tab = FunTab}) -> + Label = + if is_integer(Fun) -> Fun; + true -> get_label(Fun) + end, + case dict:find(Label, FunTab) of + {ok, {not_handled, {A, R}}} -> + t_fun(A, R); + {ok, {A, R}} -> + t_fun(A, R) + end. + +state__update_fun_entry(Tree, ArgTypes, Out0, + #state{fun_tab=FunTab, callgraph=CG, plt=Plt} = State)-> + Fun = get_label(Tree), + Out1 = + if Fun =:= top -> Out0; + true -> + case lookup_fun_sig(Fun, CG, Plt) of + {value, {SigRet, _}} -> t_inf(SigRet, Out0, opaque); + none -> Out0 + end + end, + Out = t_limit(Out1, ?TYPE_LIMIT), + case dict:find(Fun, FunTab) of + {ok, {ArgTypes, OldOut}} -> + case t_is_equal(OldOut, Out) of + true -> + ?debug("Fixpoint for ~w: ~s\n", + [state__lookup_name(Fun, State), + t_to_string(t_fun(ArgTypes, Out))]), + State; + false -> + NewEntry = {ArgTypes, Out}, + ?debug("New Entry for ~w: ~s\n", + [state__lookup_name(Fun, State), + t_to_string(t_fun(ArgTypes, Out))]), + NewFunTab = dict:store(Fun, NewEntry, FunTab), + State1 = State#state{fun_tab = NewFunTab}, + state__add_work_from_fun(Tree, State1) + end; + {ok, {NewArgTypes, _OldOut}} -> + %% Can only happen in self-recursive functions. Only update the out type. + NewEntry = {NewArgTypes, Out}, + ?debug("New Entry for ~w: ~s\n", + [state__lookup_name(Fun, State), + t_to_string(t_fun(NewArgTypes, Out))]), + NewFunTab = dict:store(Fun, NewEntry, FunTab), + State1 = State#state{fun_tab = NewFunTab}, + state__add_work_from_fun(Tree, State1) + end. + +state__add_work_from_fun(_Tree, #state{warning_mode = true} = State) -> + State; +state__add_work_from_fun(Tree, #state{callgraph = Callgraph, + tree_map = TreeMap} = State) -> + case get_label(Tree) of + top -> State; + Label when is_integer(Label) -> + case dialyzer_callgraph:in_neighbours(Label, Callgraph) of + none -> State; + MFAList -> + LabelList = [dialyzer_callgraph:lookup_label(MFA, Callgraph) + || MFA <- MFAList], + %% Must filter the result for results in this module. + FilteredList = [L || {ok, L} <- LabelList, dict:is_key(L, TreeMap)], + ?debug("~w: Will try to add:~w\n", + [state__lookup_name(get_label(Tree), State), MFAList]), + lists:foldl(fun(L, AccState) -> + state__add_work(L, AccState) + end, State, FilteredList) + end + end. + +state__add_work(external, State) -> + State; +state__add_work(top, State) -> + State; +state__add_work(Fun, #state{work = Work} = State) -> + NewWork = add_work(Fun, Work), + State#state{work = NewWork}. + +state__get_work(#state{work = Work, tree_map = TreeMap} = State) -> + case get_work(Work) of + none -> none; + {Fun, NewWork} -> + {dict:fetch(Fun, TreeMap), State#state{work = NewWork}} + end. + +state__lookup_call_site(Tree, #state{callgraph = Callgraph}) -> + Label = get_label(Tree), + dialyzer_callgraph:lookup_call_site(Label, Callgraph). + +state__fun_info(external, #state{}) -> + external; +state__fun_info({_, _, _} = MFA, #state{plt = PLT}) -> + {MFA, + dialyzer_plt:lookup(PLT, MFA), + dialyzer_plt:lookup_contract(PLT, MFA), + t_any()}; +state__fun_info(Fun, #state{callgraph = CG, fun_tab = FunTab, plt = PLT}) -> + {Sig, Contract} = + case dialyzer_callgraph:lookup_name(Fun, CG) of + error -> + {dialyzer_plt:lookup(PLT, Fun), none}; + {ok, MFA} -> + {dialyzer_plt:lookup(PLT, MFA), dialyzer_plt:lookup_contract(PLT, MFA)} + end, + LocalRet = + case dict:fetch(Fun, FunTab) of + {not_handled, {_Args, Ret}} -> Ret; + {_Args, Ret} -> Ret + end, + {Fun, Sig, Contract, LocalRet}. + +state__find_apply_return(Tree, #state{callgraph = Callgraph} = State) -> + Apply = get_label(Tree), + case dialyzer_callgraph:lookup_call_site(Apply, Callgraph) of + error -> + unknown; + {ok, List} -> + case lists:member(external, List) of + true -> t_any(); + false -> + FunTypes = [state__fun_type(F, State) || F <- List], + Returns = [t_fun_range(F) || F <- FunTypes], + t_sup(Returns) + end + end. + +forward_args(Fun, ArgTypes, #state{work = Work, fun_tab = FunTab} = State) -> + {OldArgTypes, OldOut, Fixpoint} = + case dict:find(Fun, FunTab) of + {ok, {not_handled, {OldArgTypes0, OldOut0}}} -> + {OldArgTypes0, OldOut0, false}; + {ok, {OldArgTypes0, OldOut0}} -> + {OldArgTypes0, OldOut0, + t_is_subtype(t_product(ArgTypes), t_product(OldArgTypes0))} + end, + case Fixpoint of + true -> State; + false -> + NewArgTypes = [t_sup(X, Y) || {X, Y} <- lists:zip(ArgTypes, OldArgTypes)], + NewWork = add_work(Fun, Work), + ?debug("~w: forwarding args ~s\n", + [state__lookup_name(Fun, State), + t_to_string(t_product(NewArgTypes))]), + NewFunTab = dict:store(Fun, {NewArgTypes, OldOut}, FunTab), + State#state{work = NewWork, fun_tab = NewFunTab} + end. + +-spec state__cleanup(state()) -> state(). + +state__cleanup(#state{callgraph = Callgraph, + races = Races, + records = Records}) -> + #state{callgraph = dialyzer_callgraph:cleanup(Callgraph), + races = dialyzer_races:cleanup(Races), + records = Records}. + +-spec state__get_callgraph(state()) -> dialyzer_callgraph:callgraph(). + +state__get_callgraph(#state{callgraph = Callgraph}) -> + Callgraph. + +-spec state__get_races(state()) -> dialyzer_races:races(). + +state__get_races(#state{races = Races}) -> + Races. + +-spec state__get_records(state()) -> dict(). + +state__get_records(#state{records = Records}) -> + Records. + +-spec state__put_callgraph(dialyzer_callgraph:callgraph(), state()) -> + state(). + +state__put_callgraph(Callgraph, State) -> + State#state{callgraph = Callgraph}. + +-spec state__put_races(dialyzer_races:races(), state()) -> state(). + +state__put_races(Races, State) -> + State#state{races = Races}. + +-spec state__records_only(state()) -> state(). + +state__records_only(#state{records = Records}) -> + #state{records = Records}. + +%%% =========================================================================== +%%% +%%% Races +%%% +%%% =========================================================================== + +renew_code(Fun, FunArgs, Code, WarningMode, Callgraph) -> + case WarningMode of + true -> Callgraph; + false -> + RaceCode = dialyzer_callgraph:get_race_code(Callgraph), + dialyzer_callgraph:put_race_code( + dict:store(Fun, [FunArgs, Code], RaceCode), Callgraph) + end. + +renew_public_tables([Var], Table, WarningMode, Callgraph) -> + case WarningMode of + true -> Callgraph; + false -> + case Table of + no_t -> Callgraph; + _Other -> + VarLabel = get_label(Var), + PTables = dialyzer_callgraph:get_public_tables(Callgraph), + dialyzer_callgraph:put_public_tables( + lists:usort([VarLabel|PTables]), Callgraph) + end + end. + +%%% =========================================================================== +%%% +%%% Worklist +%%% +%%% =========================================================================== + +init_work(List) -> + {List, [], sets:from_list(List)}. + +get_work({[], [], _Set}) -> + none; +get_work({[H|T], Rev, Set}) -> + {H, {T, Rev, sets:del_element(H, Set)}}; +get_work({[], Rev, Set}) -> + get_work({lists:reverse(Rev), [], Set}). + +add_work(New, {List, Rev, Set} = Work) -> + case sets:is_element(New, Set) of + true -> Work; + false -> {List, [New|Rev], sets:add_element(New, Set)} + end. + +%%% =========================================================================== +%%% +%%% Utilities. +%%% +%%% =========================================================================== + +get_line([Line|_]) when is_integer(Line) -> Line; +get_line([_|Tail]) -> get_line(Tail); +get_line([]) -> -1. + +get_file([]) -> []; +get_file([{file, File}|_]) -> File; +get_file([_|Tail]) -> get_file(Tail). + +is_compiler_generated(Ann) -> + lists:member(compiler_generated, Ann) orelse (get_line(Ann) < 1). + +-spec format_args([term()], [erl_types:erl_type()], #state{}) -> + nonempty_string(). + +format_args([], [], _State) -> + "()"; +format_args(ArgList, TypeList, State) -> + "(" ++ format_args_1(ArgList, TypeList, State) ++ ")". + +-spec format_args_1([term(),...], [erl_types:erl_type(),...], #state{}) -> + string(). + +format_args_1([Arg], [Type], State) -> + format_arg(Arg) ++ format_type(Type, State); +format_args_1([Arg|Args], [Type|Types], State) -> + String = + case cerl:is_literal(Arg) of + true -> format_cerl(Arg); + false -> format_arg(Arg) ++ format_type(Type, State) + end, + String ++ "," ++ format_args_1(Args, Types, State). + +format_arg(Arg) -> + Default = "", + case cerl:is_c_var(Arg) of + true -> + case cerl:var_name(Arg) of + Atom when is_atom(Atom) -> + case atom_to_list(Atom) of + "cor"++_ -> Default; + "rec"++_ -> Default; + Name -> Name ++ "::" + end; + _What -> Default + end; + false -> + Default + end. + +-spec format_type(erl_types:erl_type(), #state{}) -> string(). + +format_type(Type, #state{records = R}) -> + t_to_string(Type, R). + +-spec format_sig_args(erl_types:erl_type(), #state{}) -> string(). + +format_sig_args(Type, #state{records = R}) -> + SigArgs = t_fun_args(Type), + case SigArgs of + [] -> "()"; + [SArg|SArgs] -> + lists:flatten("(" ++ t_to_string(SArg, R) + ++ ["," ++ t_to_string(T, R) || T <- SArgs] ++ ")") + end. + +format_cerl(Tree) -> + cerl_prettypr:format(cerl:set_ann(Tree, []), + [{hook, dialyzer_utils:pp_hook()}, + {noann, true}, + {paper, 100000}, %% These guys strip + {ribbon, 100000} %% newlines. + ]). + +format_patterns(Pats) -> + NewPats = map_pats(cerl:c_values(Pats)), + String = format_cerl(NewPats), + case Pats of + [PosVar] -> + case cerl:is_c_var(PosVar) andalso (cerl:var_name(PosVar) =/= '') of + true -> "variable "++String; + false -> "pattern "++String + end; + _ -> + "pattern "++String + end. + +map_pats(Pats) -> + Fun = fun(Tree) -> + case cerl:is_c_var(Tree) of + true -> + case cerl:var_name(Tree) of + Atom when is_atom(Atom) -> + case atom_to_list(Atom) of + "cor"++_ -> cerl:c_var(''); + "rec"++_ -> cerl:c_var(''); + _ -> cerl:set_ann(Tree, []) + end; + _What -> cerl:c_var('') + end; + false -> + cerl:set_ann(Tree, []) + end + end, + cerl_trees:map(Fun, Pats). + +classify_returns(Tree) -> + case find_terminals(cerl:fun_body(Tree)) of + {false, false} -> no_match; + {true, false} -> only_explicit; + {false, true} -> only_normal; + {true, true} -> both + end. + +find_terminals(Tree) -> + case cerl:type(Tree) of + apply -> {false, true}; + binary -> {false, true}; + bitstr -> {false, true}; + call -> + M0 = cerl:call_module(Tree), + F0 = cerl:call_name(Tree), + A = length(cerl:call_args(Tree)), + case cerl:is_literal(M0) andalso cerl:is_literal(F0) of + false -> + %% We cannot make assumptions. Say that both are true. + {true, true}; + true -> + M = cerl:concrete(M0), + F = cerl:concrete(F0), + case (erl_bif_types:is_known(M, F, A) + andalso t_is_none(erl_bif_types:type(M, F, A))) of + true -> {true, false}; + false -> {false, true} + end + end; + 'case' -> find_terminals_list(cerl:case_clauses(Tree)); + 'catch' -> find_terminals(cerl:catch_body(Tree)); + clause -> find_terminals(cerl:clause_body(Tree)); + cons -> {false, true}; + 'fun' -> {false, true}; + 'let' -> find_terminals(cerl:let_body(Tree)); + letrec -> find_terminals(cerl:letrec_body(Tree)); + literal -> {false, true}; + primop -> {false, false}; %% match_fail, etc. are not explicit exits. + 'receive' -> + Timeout = cerl:receive_timeout(Tree), + Clauses = cerl:receive_clauses(Tree), + case (cerl:is_literal(Timeout) andalso + (cerl:concrete(Timeout) =:= infinity)) of + true -> + if Clauses =:= [] -> {false, true}; %% A never ending receive. + true -> find_terminals_list(Clauses) + end; + false -> find_terminals_list([cerl:receive_action(Tree)|Clauses]) + end; + seq -> find_terminals(cerl:seq_body(Tree)); + 'try' -> + find_terminals_list([cerl:try_handler(Tree), cerl:try_body(Tree)]); + tuple -> {false, true}; + values -> {false, true}; + var -> {false, true} + end. + +find_terminals_list(List) -> + find_terminals_list(List, false, false). + +find_terminals_list([Tree|Left], Explicit1, Normal1) -> + {Explicit2, Normal2} = find_terminals(Tree), + case {Explicit1 or Explicit2, Normal1 or Normal2} of + {true, true} = Ans -> Ans; + {NewExplicit, NewNormal} -> + find_terminals_list(Left, NewExplicit, NewNormal) + end; +find_terminals_list([], Explicit, Normal) -> + {Explicit, Normal}. + +%%---------------------------------------------------------------------------- + +%% If you write a record pattern in a matching that violates the +%% definition it will never match. However, the warning is lost in the +%% regular analysis. This after-pass catches it. + +find_mismatched_record_patterns(Tree, State) -> + cerl_trees:fold( + fun(SubTree, AccState) -> + case cerl:is_c_clause(SubTree) of + true -> lists:foldl(fun(P, AccState1) -> + find_rec_warnings(P, AccState1) + end, AccState, cerl:clause_pats(SubTree)); + false -> AccState + end + end, State, Tree). + +find_rec_warnings(Tree, State) -> + cerl_trees:fold( + fun(SubTree, AccState) -> + case cerl:is_c_tuple(SubTree) of + true -> find_rec_warnings_tuple(SubTree, AccState); + false -> AccState + end + end, State, Tree). + +find_rec_warnings_tuple(Tree, State) -> + Elements = cerl:tuple_es(Tree), + {_, _, EsType} = traverse_list(Elements, map__new(), State), + TupleType = t_tuple(EsType), + case t_is_none(TupleType) of + true -> State; + false -> + %% Let's find out if this is a record construction. + case Elements of + [Tag|Left] -> + case cerl:is_c_atom(Tag) of + true -> + TagVal = cerl:atom_val(Tag), + case state__lookup_record(TagVal, length(Left), State) of + error -> State; + {ok, Prototype} -> + InfTupleType = t_inf(Prototype, TupleType), + case t_is_none(InfTupleType) of + true -> + Msg = {record_matching, + [format_patterns([Tree]), TagVal]}, + state__add_warning(State, ?WARN_MATCHING, Tree, Msg); + false -> + State + end + end; + false -> + State + end; + _ -> + State + end + end. + +%%---------------------------------------------------------------------------- + +-ifdef(DEBUG_PP). +debug_pp(Tree, true) -> + io:put_chars(cerl_prettypr:format(Tree, [{hook, cerl_typean:pp_hook()}])), + io:nl(), + ok; +debug_pp(Tree, false) -> + io:put_chars(cerl_prettypr:format(strip_annotations(Tree))), + io:nl(), + ok. + +strip_annotations(Tree) -> + Fun = fun(T) -> + case cerl:type(T) of + var -> + cerl:set_ann(T, [{label, cerl_trees:get_label(T)}]); + 'fun' -> + cerl:set_ann(T, [{label, cerl_trees:get_label(T)}]); + _ -> + cerl:set_ann(T, []) + end + end, + cerl_trees:map(Fun, Tree). + +-else. + +debug_pp(_Tree, _UseHook) -> + ok. +-endif. + +%%---------------------------------------------------------------------------- + +-spec to_dot(dialyzer_callgraph:callgraph()) -> 'ok'. + +-ifdef(DOT). +to_dot(CG) -> + dialyzer_callgraph:to_dot(CG). +-else. +to_dot(_CG) -> + ok. +-endif. + +%%---------------------------------------------------------------------------- diff --git a/lib/dialyzer/src/dialyzer_dep.erl b/lib/dialyzer/src/dialyzer_dep.erl new file mode 100644 index 0000000000..670433f003 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_dep.erl @@ -0,0 +1,580 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_dep.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% +%%% Description: A pretty limited but efficient escape/dependency +%%% analysis of Core Erlang. +%%% +%%% Created : 28 Oct 2005 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- +-module(dialyzer_dep). + +-export([analyze/1]). +-define(NO_UNUSED, true). +-ifndef(NO_UNUSED). +-export([test/1]). +-endif. + +-include("dialyzer.hrl"). + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +%% +%% analyze(CoreTree) -> {Deps, Esc, Calls}. +%% +%% Deps = a dict mapping labels of functions to an ordset of functions +%% it calls. +%% +%% Esc = an ordset of the labels of escaping functions. A function +%% is considered to escape if the control escapes a function, +%% i.e., this analysis is not module-local but rather +%% function-local. +%% +%% Calls = a dict mapping apply:s to an ordset of function labels to +%% which the operation can refer to. If 'external' is part of +%% the set the operation can be externally defined. +%% + +-spec analyze(cerl:c_module()) -> {dict(), ordset('external' | label()), dict()}. + +analyze(Tree) -> + %% io:format("Handling ~w\n", [cerl:atom_val(cerl:module_name(Tree))]), + {_, State} = traverse(Tree, map__new(), state__new(Tree), top), + Esc = state__esc(State), + %% Add dependency from 'external' to all escaping function + State1 = state__add_deps(external, output(Esc), State), + Deps = state__deps(State1), + Calls = state__calls(State1), + {map__finalize(Deps), set__to_ordsets(Esc), map__finalize(Calls)}. + +traverse(Tree, Out, State, CurrentFun) -> + %% io:format("Type: ~w\n", [cerl:type(Tree)]), + case cerl:type(Tree) of + apply -> + Op = cerl:apply_op(Tree), + Args = cerl:apply_args(Tree), + %% Op is always a variable and should not be marked as escaping + %% based on its use. + case var =:= cerl:type(Op) of + false -> erlang:error({apply_op_not_a_variable, cerl:type(Op)}); + true -> ok + end, + OpFuns = case map__lookup(cerl_trees:get_label(Op), Out) of + none -> output(none); + {value, OF} -> OF + end, + {ArgFuns, State2} = traverse_list(Args, Out, State, CurrentFun), + State3 = state__add_esc(merge_outs(ArgFuns), State2), + State4 = state__add_deps(CurrentFun, OpFuns, State3), + State5 = state__store_callsite(cerl_trees:get_label(Tree), + OpFuns, length(Args), State4), + {output(set__singleton(external)), State5}; + binary -> + {output(none), State}; + 'case' -> + Arg = cerl:case_arg(Tree), + {Funs, NewState} = traverse(Arg, Out, State, CurrentFun), + Clauses = cerl:case_clauses(Tree), + traverse_clauses(Clauses, Funs, Out, NewState, CurrentFun); + call -> + Args = cerl:call_args(Tree), + {ArgFuns, State1} = traverse_list(Args, Out, State, CurrentFun), + remote_call(Tree, merge_outs(ArgFuns), State1); + 'catch' -> + traverse(cerl:catch_body(Tree), Out, State, CurrentFun); + cons -> + {HdFuns, State1} = traverse(cerl:cons_hd(Tree), Out, State, CurrentFun), + {TlFuns, State2} = traverse(cerl:cons_tl(Tree), Out, State1, CurrentFun), + {merge_outs([HdFuns, TlFuns]), State2}; + 'fun' -> + %% io:format("Entering fun: ~w\n", [cerl_trees:get_label(Tree)]), + Body = cerl:fun_body(Tree), + Label = cerl_trees:get_label(Tree), + State1 = + if CurrentFun =:= top -> + state__add_deps(top, output(set__singleton(Label)), State); + true -> + O1 = output(set__singleton(CurrentFun)), + O2 = output(set__singleton(Label)), + TmpState = state__add_deps(Label, O1, State), + state__add_deps(CurrentFun, O2,TmpState) + end, + {BodyFuns, State2} = traverse(Body, Out, State1, + cerl_trees:get_label(Tree)), + {output(set__singleton(Label)), state__add_esc(BodyFuns, State2)}; + 'let' -> + Vars = cerl:let_vars(Tree), + Arg = cerl:let_arg(Tree), + Body = cerl:let_body(Tree), + {ArgFuns, State1} = traverse(Arg, Out, State, CurrentFun), + Out1 = bind_list(Vars, ArgFuns, Out), + traverse(Body, Out1, State1, CurrentFun); + letrec -> + Defs = cerl:letrec_defs(Tree), + Body = cerl:letrec_body(Tree), + Out1 = bind_defs(Defs, Out), + State1 = traverse_defs(Defs, Out1, State, CurrentFun), + traverse(Body, Out1, State1, CurrentFun); + literal -> + {output(none), State}; + module -> + Defs = cerl:module_defs(Tree), + Out1 = bind_defs(Defs, Out), + State1 = traverse_defs(Defs, Out1, State, CurrentFun), + {output(none), State1}; + primop -> + Args = cerl:primop_args(Tree), + {ArgFuns, State1} = traverse_list(Args, Out, State, CurrentFun), + primop(Tree, merge_outs(ArgFuns), State1); + 'receive' -> + Clauses = cerl:receive_clauses(Tree), + TimeOut = cerl:receive_timeout(Tree), + Action = cerl:receive_action(Tree), + {ClauseFuns, State1} = + traverse_clauses(Clauses, output(none), Out, State, CurrentFun), + {_, State2} = traverse(TimeOut, Out, State1, CurrentFun), + {ActionFuns, State3} = traverse(Action, Out, State2, CurrentFun), + {merge_outs([ClauseFuns, ActionFuns]), State3}; + seq -> + {_, State1} = traverse(cerl:seq_arg(Tree), Out, State, CurrentFun), + traverse(cerl:seq_body(Tree), Out, State1, CurrentFun); + 'try' -> + Arg = cerl:try_arg(Tree), + Body = cerl:try_body(Tree), + Vars = cerl:try_vars(Tree), + EVars = cerl:try_evars(Tree), + Handler = cerl:try_handler(Tree), + {ArgFuns, State1} = traverse(Arg, Out, State, CurrentFun), + Out1 = bind_list(Vars, ArgFuns, Out), + {BodyFuns, State2} = traverse(Body, Out1, State1, CurrentFun), + Out2 = bind_single(EVars, output(set__singleton(external)), Out), + {HandlerFuns, State3} = traverse(Handler, Out2, State2, CurrentFun), + {merge_outs([BodyFuns, HandlerFuns]), State3}; + tuple -> + Args = cerl:tuple_es(Tree), + {List, State1} = traverse_list(Args, Out, State, CurrentFun), + {merge_outs(List), State1}; + values -> + traverse_list(cerl:values_es(Tree), Out, State, CurrentFun); + var -> + case map__lookup(cerl_trees:get_label(Tree), Out) of + none -> {output(none), State}; + {value, Val} -> + case is_only_external(Val) of + true -> + %% Do nothing + {Val, State}; + false -> + %% If this is used in a function this means a dependency. + {Val, state__add_deps(CurrentFun, Val, State)} + end + end + end. + +traverse_list(Trees, Out, State, CurrentFun) -> + traverse_list(Trees, Out, State, CurrentFun, []). + +traverse_list([Tree|Left], Out, State, CurrentFun, Acc) -> + {X, State1} = traverse(Tree, Out, State, CurrentFun), + traverse_list(Left, Out, State1, CurrentFun, [X|Acc]); +traverse_list([], _Out, State, _CurrentFun, Acc) -> + {output(lists:reverse(Acc)), State}. + +traverse_defs([{_, Fun}|Left], Out, State, CurrentFun) -> + {_, State1} = traverse(Fun, Out, State, CurrentFun), + traverse_defs(Left, Out, State1, CurrentFun); +traverse_defs([], _Out, State, _CurrentFun) -> + State. + +traverse_clauses(Clauses, ArgFuns, Out, State, CurrentFun) -> + case filter_match_fail(Clauses) of + [] -> + %% Can happen for example with receives used as timouts. + {output(none), State}; + Clauses1 -> + traverse_clauses(Clauses1, ArgFuns, Out, State, CurrentFun, []) + end. + +traverse_clauses([Clause|Left], ArgFuns, Out, State, CurrentFun, Acc) -> + Pats = cerl:clause_pats(Clause), + Guard = cerl:clause_guard(Clause), + Body = cerl:clause_body(Clause), + Out1 = bind_pats_list(Pats, ArgFuns, Out), + {_, State2} = traverse(Guard, Out1, State, CurrentFun), + {BodyFuns, State3} = traverse(Body, Out1, State2, CurrentFun), + traverse_clauses(Left, ArgFuns, Out, State3, CurrentFun, [BodyFuns|Acc]); +traverse_clauses([], _ArgFuns, _Out, State, _CurrentFun, Acc) -> + {merge_outs(Acc), State}. + +filter_match_fail([Clause]) -> + Body = cerl:clause_body(Clause), + case cerl:type(Body) of + primop -> + case cerl:atom_val(cerl:primop_name(Body)) of + match_fail -> []; + raise -> []; + _ -> [Clause] + end; + _ -> [Clause] + end; +filter_match_fail([H|T]) -> + [H|filter_match_fail(T)]; +filter_match_fail([]) -> + %% This can actually happen, for example in + %% receive after 1 -> ok end + []. + +remote_call(Tree, ArgFuns, State) -> + M = cerl:call_module(Tree), + F = cerl:call_name(Tree), + A = length(cerl:call_args(Tree)), + case cerl:is_c_atom(M) andalso cerl:is_c_atom(F) of + false -> + %% Unknown function. + {output(set__singleton(external)), state__add_esc(ArgFuns, State)}; + true -> + M1 = cerl:atom_val(M), + F1 = cerl:atom_val(F), + Literal = cerl_closurean:is_literal_op(M1, F1, A), + case erl_bifs:is_pure(M1, F1, A) of + true -> + case Literal of + true -> + {output(none), State}; + false -> + {output(set__singleton(external)), state__add_esc(ArgFuns, State)} + end; + false -> + State1 = case cerl_closurean:is_escape_op(M1, F1, A) of + true -> state__add_esc(ArgFuns, State); + false -> State + end, + case Literal of + true -> {output(none), State1}; + false -> {add_external(ArgFuns), State1} + end + end + end. + +primop(Tree, ArgFuns, State) -> + F = cerl:atom_val(cerl:primop_name(Tree)), + A = length(cerl:primop_args(Tree)), + State1 = case cerl_closurean:is_escape_op(F, A) of + true -> state__add_esc(ArgFuns, State); + false -> State + end, + case cerl_closurean:is_literal_op(F, A) of + true -> {output(none), State1}; + false -> {ArgFuns, State1} + end. + +%%------------------------------------------------------------ +%% Set +%% + +-record(set, {set :: set()}). + +set__singleton(Val) -> + #set{set = sets:add_element(Val, sets:new())}. + +set__from_list(List) -> + #set{set = sets:from_list(List)}. + +set__is_element(_El, none) -> + false; +set__is_element(El, #set{set = Set}) -> + sets:is_element(El, Set). + +set__union(none, Set) -> Set; +set__union(Set, none) -> Set; +set__union(#set{set = S1}, #set{set = S2}) -> #set{set = sets:union(S1, S2)}. + +set__to_ordsets(none) -> []; +set__to_ordsets(#set{set = Set}) -> ordsets:from_list(sets:to_list(Set)). + +set__size(none) -> 0; +set__size(#set{set = Set}) -> sets:size(Set). + +set__filter(#set{set = Set}, Fun) -> + NewSet = sets:filter(Fun, Set), + case sets:size(NewSet) =:= 0 of + true -> none; + false -> #set{set = NewSet} + end. + +%%------------------------------------------------------------ +%% Outputs +%% + +-record(output, {type :: 'single' | 'list', + content :: 'none' | #set{} | [{output,_,_}]}). + +output(none) -> #output{type = single, content = none}; +output(S = #set{}) -> #output{type = single, content = S}; +output(List) when is_list(List) -> #output{type = list, content = List}. + +merge_outs([H|T]) -> + merge_outs(T, H); +merge_outs(#output{type = list, content = [H|T]}) -> + merge_outs(T, H); +merge_outs(#output{type = list, content = []}) -> + output(none). + +merge_outs([#output{content = none}|Left], O) -> + merge_outs(Left, O); +merge_outs([O|Left], #output{content = none}) -> + merge_outs(Left, O); +merge_outs([#output{type = single, content = S1}|Left], + #output{type = single, content = S2}) -> + merge_outs(Left, output(set__union(S1, S2))); +merge_outs([#output{type = list, content = L1}|Left], + #output{type = list, content = L2}) -> + NewList = [merge_outs([X, Y]) || {X, Y} <- lists:zip(L1, L2)], + merge_outs(Left, output(NewList)); +merge_outs([], Res) -> + Res. + +filter_outs(#output{type = single, content = S}, Fun) -> + output(set__filter(S, Fun)). + +add_external(#output{type = single, content = Set}) -> + output(set__union(Set, set__singleton(external))); +add_external(#output{type = list, content = List}) -> + output([add_external(O) || O <- List]). + +is_only_external(#output{type = single, content = Set}) -> + set__is_element(external, Set) andalso (set__size(Set) =:= 1). + +%%------------------------------------------------------------ +%% Map +%% + +map__new() -> + dict:new(). + +map__add(_Label, none, Map) -> + Map; +map__add(Label, Set, Map) -> + case map__lookup(Label, Map) of + {value, OldSet} -> + NewSet = set__union(OldSet, Set), + map__store(Label, NewSet, Map); + none -> + map__store(Label, Set, Map) + end. + +map__store(Label, Val, Map) -> + dict:store(Label, Val, Map). + +map__lookup(Label, Map) -> + case dict:find(Label, Map) of + {ok, Val} -> {value, Val}; + error -> none + end. + +map__finalize(Map) -> + dict:map(fun (_Key, #set{} = Set) -> set__to_ordsets(Set); + (_Key, #output{type = single, content = Set}) -> + set__to_ordsets(Set) + end, Map). + +%%------------------------------------------------------------ +%% Binding outs in the map +%% + +bind_pats_list(_Pats, #output{content = none}, Map) -> + Map; +bind_pats_list([Pat], #output{type = single} = O, Map) -> + bind_single(all_vars(Pat), O, Map); +bind_pats_list(Pats, #output{type = list, content = List}, Map) -> + bind_pats_list(Pats, List, Map); +bind_pats_list([Pat|PatLeft], + [#output{type = single} = O|SetLeft], Map)-> + Map1 = bind_single(all_vars(Pat), O, Map), + bind_pats_list(PatLeft, SetLeft, Map1); +bind_pats_list([Pat|PatLeft], + [#output{type = list, content = List}|SetLeft], Map) -> + Map1 = case cerl:is_c_values(Pat) of + true -> bind_pats_list(cerl:values_es(Pat), List, Map); + false -> bind_single(all_vars(Pat), merge_outs(List), Map) + end, + bind_pats_list(PatLeft, SetLeft, Map1); +bind_pats_list([], [], Map) -> + Map. + +bind_single([Var|Left], O, Map) -> + bind_single(Left, O, map__store(cerl_trees:get_label(Var), O, Map)); +bind_single([], _O, Map) -> + Map. + +bind_list(List, #output{type = single} = O, Map) -> + bind_single(List, O, Map); +bind_list(List1, #output{type = list, content = List2}, Map) -> + bind_list1(List1, List2, Map). + +bind_list1([Var|VarLeft], [O|OLeft], Map) -> + bind_list1(VarLeft, OLeft, map__store(cerl_trees:get_label(Var), O, Map)); +bind_list1([], [], Map) -> + Map. + +bind_defs([{Var, Fun}|Left], Map) -> + O = output(set__singleton(cerl_trees:get_label(Fun))), + Map1 = map__store(cerl_trees:get_label(Var), O, Map), + bind_defs(Left, Map1); +bind_defs([], Map) -> + Map. + +all_vars(Tree) -> + all_vars(Tree, []). + +all_vars(Tree, AccIn) -> + cerl_trees:fold(fun(SubTree, Acc) -> + case cerl:is_c_var(SubTree) of + true -> [SubTree|Acc]; + false -> Acc + end + end, AccIn, Tree). + +%%------------------------------------------------------------ +%% The state +%% + +-type local_set() :: 'none' | #set{}. + +-record(state, {deps :: dict(), + esc :: local_set(), + call :: dict(), + arities :: dict()}). + +state__new(Tree) -> + Exports = set__from_list([X || X <- cerl:module_exports(Tree)]), + InitEsc = set__from_list([cerl_trees:get_label(Fun) + || {Var, Fun} <- cerl:module_defs(Tree), + set__is_element(Var, Exports)]), + Arities = cerl_trees:fold(fun find_arities/2, dict:new(), Tree), + #state{deps = map__new(), esc = InitEsc, call = map__new(), arities = Arities}. + +find_arities(Tree, AccMap) -> + case cerl:is_c_fun(Tree) of + true -> + Label = cerl_trees:get_label(Tree), + Arity = cerl:fun_arity(Tree), + dict:store(Label, Arity, AccMap); + false -> + AccMap + end. + +state__add_deps(_From, #output{content = none}, State) -> + State; +state__add_deps(From, #output{type = single, content=To}, + #state{deps = Map} = State) -> + %% io:format("Adding deps from ~w to ~w\n", [From, set__to_ordsets(To)]), + State#state{deps = map__add(From, To, Map)}. + +state__deps(#state{deps = Deps}) -> + Deps. + +state__add_esc(#output{content = none}, State) -> + State; +state__add_esc(#output{type = single, content = Set}, + #state{esc = Esc} = State) -> + State#state{esc = set__union(Set, Esc)}. + +state__esc(#state{esc = Esc}) -> + Esc. + +state__store_callsite(_From, #output{content = none}, _CallArity, State) -> + State; +state__store_callsite(From, To, CallArity, + #state{call = Calls, arities = Arities} = State) -> + Filter = fun(external) -> true; + (Fun) -> CallArity =:= dict:fetch(Fun, Arities) + end, + case filter_outs(To, Filter) of + #output{content = none} -> State; + To1 -> State#state{call = map__store(From, To1, Calls)} + end. + +state__calls(#state{call = Calls}) -> + Calls. + +%%------------------------------------------------------------ +%% A test function. Not part of the intended interface. +%% + +-ifndef(NO_UNUSED). + +test(Mod) -> + {ok, _, Code} = compile:file(Mod, [to_core, binary]), + Tree = cerl:from_records(Code), + {LabeledTree, _} = cerl_trees:label(Tree), + {Deps, Esc, Calls} = analyze(LabeledTree), + Edges0 = dict:fold(fun(Caller, Set, Acc) -> + [[{Caller, Callee} || Callee <- Set]|Acc] + end, [], Deps), + Edges1 = lists:flatten(Edges0), + Edges = [Edge || {X,_Y} = Edge <- Edges1, X =/= top], + Fun = fun(SubTree, Acc) -> + case cerl:type(SubTree) of + 'fun' -> + case lists:keyfind(id, 1, cerl:get_ann(SubTree)) of + false -> Acc; + {id, ID} -> + dict:store(cerl_trees:get_label(SubTree), ID, Acc) + end; + module -> + Defs = cerl:module_defs(SubTree), + lists:foldl(fun({Var, Fun}, Acc1) -> + dict:store(cerl_trees:get_label(Fun), + {cerl:fname_id(Var), + cerl:fname_arity(Var)}, + Acc1) + end, Acc, Defs); + letrec -> + Defs = cerl:letrec_defs(SubTree), + lists:foldl(fun({Var, Fun}, Acc1) -> + dict:store(cerl_trees:get_label(Fun), + {cerl:fname_id(Var), + cerl:fname_arity(Var)}, + Acc1) + end, Acc, Defs); + _ -> Acc + end + end, + NameMap1 = cerl_trees:fold(Fun, dict:new(), LabeledTree), + NameMap = dict:store(external, external, NameMap1), + NamedEdges = [{dict:fetch(X, NameMap), dict:fetch(Y, NameMap)} + || {X, Y} <- Edges], + NamedEsc = [dict:fetch(X, NameMap) || X <- Esc], + %% Color the edges + ColorEsc = [{X, {color, red}} || X <- NamedEsc], + CallEdges0 = dict:fold(fun(Caller, Set, Acc) -> + [[{Caller, Callee} || Callee <- Set]|Acc] + end, [], Calls), + CallEdges = lists:flatten(CallEdges0), + NamedCallEdges = [{X, dict:fetch(Y, NameMap)} || {X, Y} <- CallEdges], + AllNamedEdges = NamedEdges ++ NamedCallEdges, + hipe_dot:translate_list(AllNamedEdges, "/tmp/cg.dot", "CG", ColorEsc), + os:cmd("dot -T ps -o /tmp/cg.ps /tmp/cg.dot"), + ok. + +-endif. diff --git a/lib/dialyzer/src/dialyzer_explanation.erl b/lib/dialyzer/src/dialyzer_explanation.erl new file mode 100644 index 0000000000..afc2c1965f --- /dev/null +++ b/lib/dialyzer/src/dialyzer_explanation.erl @@ -0,0 +1,52 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_explanation.erl +%%% Author : Elli Fragkaki <[email protected]> +%%% Description : +%%%------------------------------------------------------------------- + +-module(dialyzer_explanation). + +-export([expl_loop/3]). + +-include("dialyzer.hrl"). + +-spec expl_loop(pid(), dialyzer_codeserver:codeserver(), dialyzer_plt:plt()) -> + no_return(). + +expl_loop(Parent, CServer, Plt) -> + receive + {Parent, warning, _Warning} -> + send_explanation(Parent, none), + expl_loop(Parent, CServer, Plt); + {Parent, further, _Explanation} -> + Parent ! {self(), further, none}, + expl_loop(Parent, CServer, Plt); + Other -> + io:format("Unknown message: ~p\n", [Other]), + expl_loop(Parent, CServer, Plt) + end. + +send_explanation(Parent, Expl) -> + Parent ! {self(), explanation, Expl}, + ok. + diff --git a/lib/dialyzer/src/dialyzer_gui.erl b/lib/dialyzer/src/dialyzer_gui.erl new file mode 100644 index 0000000000..f353638cdf --- /dev/null +++ b/lib/dialyzer/src/dialyzer_gui.erl @@ -0,0 +1,1349 @@ +%% -*- erlang-indent-level: 2 -*- +%%------------------------------------------------------------------------ +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%----------------------------------------------------------------------- +%%% File : dialyzer_gui.erl +%%% Authors : Tobias Lindahl <[email protected]> +%%% Kostis Sagonas <[email protected]> +%%% Description : The graphical user interface for the Dialyzer tool. +%%% +%%% Created : 27 Apr 2004 by Tobias Lindahl <[email protected]> +%%%----------------------------------------------------------------------- + +-module(dialyzer_gui). + +-export([start/1]). + +-include("dialyzer.hrl"). + +%%------------------------------------------------------------------------ + +-define(DIALYZER_ERROR_TITLE, "Dialyzer Error"). +-define(DIALYZER_MESSAGE_TITLE, "Dialyzer Message"). + +%%------------------------------------------------------------------------ + +-type gs_object() :: any(). %% XXX: should be imported from gs + +-record(mode, {start_byte_code :: gs_object(), + start_src_code :: gs_object()}). + +-record(menu, {file_save_log :: gs_object(), + file_save_warn :: gs_object(), + file_quit :: gs_object(), + help_about :: gs_object(), + help_manual :: gs_object(), + help_warnings :: gs_object(), + opts_macros :: gs_object(), + opts_includes :: gs_object(), + plt_empty :: gs_object(), + plt_search_doc :: gs_object(), + plt_show_doc :: gs_object(), + warnings :: gs_object()}). + +-record(gui_state, {add_all :: gs_object(), + add_file :: gs_object(), + add_rec :: gs_object(), + chosen_box :: gs_object(), + analysis_pid :: pid(), + del_file :: gs_object(), + doc_plt :: dialyzer_plt:plt(), + clear_chosen :: gs_object(), + clear_log :: gs_object(), + clear_warn :: gs_object(), + init_plt :: dialyzer_plt:plt(), + dir_entry :: gs_object(), + file_box :: gs_object(), + file_wd :: gs_object(), + gs :: gs_object(), + log :: gs_object(), + menu :: #menu{}, + mode :: #mode{}, + options :: #options{}, + packer :: gs_object(), + run :: gs_object(), + stop :: gs_object(), + top :: gs_object(), + warnings_box :: gs_object(), + backend_pid :: pid()}). + +%%------------------------------------------------------------------------ + +-spec start(#options{}) -> ?RET_NOTHING_SUSPICIOUS. + +start(DialyzerOptions = #options{from = From, init_plt = InitPltFile, + legal_warnings = LegalWarnings}) -> + process_flag(trap_exit, true), + + GS = gs:start(), + code:add_pathsa(["."]), + WH = [{width, 1000}, {height, 550}], + EmptySpace = {stretch, 1}, + + {ok, Host} = inet:gethostname(), + %% --------- Top Window -------------- + TopWin = gs:window(GS, [{title, "Dialyzer " ++ ?VSN ++ " @ " ++ Host}, + {configure, true}, + {default, listbox, {bg, white}}, + {default, editor, {bg, white}}, + {default, entry, {bg, white}}, + {default, button, {font, {helvetica, bold, 12}}}, + {default, label, {font, {helvetica, bold, 12}}} + |WH]), + Packer = gs:frame(TopWin, [{packer_x, [{stretch, 3},{fixed, 200}, + {stretch, 7}]}, + {packer_y, [{fixed, 25}, {fixed, 20}, + {stretch, 1, 50}, + {fixed, 25}, {fixed, 20}, + {stretch, 1, 50}, + {fixed, 25}]}]), + + %% --------- Chosen box -------------- + gs:label(Packer, [{label, {text, "Directories or modules to analyze"}}, + {height, 20}, {pack_xy, {1, 2}}]), + ChosenBox = gs:listbox(Packer, [{pack_xy, {1, 3}}, {vscroll, right}, + {selectmode, multiple}]), + + %% --------- File box -------------- + gs:label(Packer, [{label, {text, "File"}}, {height, 20}, {pack_xy, {1,5}}]), + FilePacker = gs:frame(Packer, [{packer_x, [{fixed, 30}, {stretch, 1, 100}]}, + {packer_y, [{fixed, 25}, {stretch, 1, 25}]}, + {pack_xy, {1, 6}}]), + gs:label(FilePacker, [{label, {text, "Dir:"}}, {pack_xy, {1, 1}}]), + DirEntry = gs:entry(FilePacker, [{height, 30}, {pack_xy, {2, 1}}, + {keypress, true}]), + File = gs:listbox(FilePacker, [{pack_x, {1,2}}, {pack_y, 2}, + {selectmode, multiple}, {doubleclick, true}, + {vscroll, right}]), + + %% --------- Options -------------- + gs:label(Packer, [{label, {text, "Analysis Options"}}, + {height, 20}, {pack_xy, {2, 2}}]), + ModePacker = gs:frame(Packer, [{packer_x, [{fixed, 75}, {fixed, 120}]}, + {packer_y, [{fixed, 20}, {fixed, 20}, + {fixed, 20}, + %% EmptySpace, + {fixed, 20}, {fixed, 20}, + {fixed, 20}, EmptySpace]}, + {bw, 10}, {relief, flat}, + {default, {radiobutton, {align, w}}}, + {default, {label, {align, w}}}, + {pack_xy, {2, 3}}]), + + %% Bytecode vs. Source code + gs:label(ModePacker, [{label, {text, "File Type:"}}, + {height, 20}, {pack_xy, {1,1}}]), + {ByteSel, SrcSel} = case From of + byte_code -> {[{select, true}], []}; + src_code -> {[], [{select, true}]} + end, + ModeByteCode = gs:radiobutton(ModePacker, + ByteSel ++ [{group, start_from}, + {label, {text,"BeamFiles"}}, + {pack_xy, {2,1}}]), + ModeSrcCode = gs:radiobutton(ModePacker, + SrcSel ++ [{group, start_from}, + {label, {text,"SourceFiles"}}, + {pack_xy, {2,2}}]), + Mode = #mode{start_byte_code = ModeByteCode, + start_src_code = ModeSrcCode}, + + %% --------- Log box -------------- + gs:label(Packer, [{label, {text, "Log"}}, {height, 20}, {pack_xy, {3,2}}]), + Log = gs:editor(Packer, [{pack_x, 3}, {pack_y, 3}, {enable, false}, + {font, {courier, 12}}, {vscroll, right}, + {wrap, word}]), + + %% --------- Warnings box -------------- + gs:label(Packer, [{label, {text, "Warnings"}},{height, 20},{pack_xy, {3,5}}]), + WarningsBox = gs:editor(Packer, [{pack_x, {2,3}}, {pack_y, 6}, + {enable, false}, + {font, {courier, 12}}, {vscroll, right}, + {wrap, word}]), + + %% --------- Buttons -------------- + ButtonPackerHighLeft = + gs:frame(Packer, [{packer_x, [{fixed, 50}, {fixed, 65}, EmptySpace]}, + {pack_xy, {1,4}}]), + ButtonPackerHighRight = + gs:frame(Packer, [{packer_x, [{fixed, 70}, {fixed, 70}, EmptySpace]}, + {pack_xy, {3,4}}]), + ButtonPackerLowLeft = + gs:frame(Packer, [{packer_x, [{fixed, 50}, + {fixed, 60}, + {fixed, 110}, + EmptySpace]}, + {pack_xy, {1,7}}]), + ButtonPackerLowRight = + gs:frame(Packer, [{packer_x, [{fixed, 100}, + {fixed, 70}, + EmptySpace, + {fixed, 70}, + {fixed, 70}]}, + {pack_x, {2,3}}, {pack_y, 7}]), + + WHButton = [{width, 60}, {height, 20}], + AddFile = gs:button(ButtonPackerLowLeft, [{pack_xy, {1, 1}}, + {label, {text,"Add"}}|WHButton]), + AddAll = gs:button(ButtonPackerLowLeft, [{pack_xy, {2, 1}}, + {label, {text,"Add All"}}|WHButton]), + AddRec = gs:button(ButtonPackerLowLeft, [{pack_xy, {3, 1}}, + {label, {text,"Add Recursively"}} + |WHButton]), + DelFile = gs:button(ButtonPackerHighLeft, [{pack_xy, {1, 1}}, + {label, {text,"Delete"}}|WHButton]), + ClearChosen = gs:button(ButtonPackerHighLeft, [{pack_xy, {2, 1}}, + {label, {text,"Delete All"}} + |WHButton]), + ClearLog = gs:button(ButtonPackerHighRight, [{pack_xy, {1, 1}}, + {label, {text,"Clear Log"}} + |WHButton]), + ClearWarn = gs:button(ButtonPackerLowRight, [{pack_xy, {1, 1}}, + {label, {text,"Clear Warnings"}} + |WHButton]), + + Run = gs:button(ButtonPackerLowRight, [{pack_xy, {4, 1}}, + {label, {text,"Run"}}|WHButton]), + Stop = gs:button(ButtonPackerLowRight, [{pack_xy, {5, 1}}, {enable, false}, + {label, {text,"Stop"}}|WHButton]), + + %% --------- Menu -------------- + MenuBar = gs:menubar(TopWin, []), + + %% File Menu + MenuBarFile = gs:menubutton(MenuBar, [{label, {text, "File"}}]), + MenuFile = gs:menu(MenuBarFile, []), + MenuFileSaveWarn = gs:menuitem(MenuFile, [{label, {text, "Save Warnings"}}]), + MenuFileSaveLog = gs:menuitem(MenuFile, [{label, {text, "Save Log"}}]), + MenuFileQuit = gs:menuitem(MenuFile, [{label, {text, "Quit"}}]), + + %% Warnings Menu + MenuBarWarn = gs:menubutton(MenuBar, [{label, {text, "Warnings"}}]), + MenuWarn = gs:menu(MenuBarWarn, []), + MenuWarnMatch = gs:menuitem(MenuWarn, [{label, {text, "Match failures"}}, + {itemtype, check}, {select, true}]), + MenuWarnFailingCall = gs:menuitem(MenuWarn, + [{label, {text, "Failing function calls"}}, + {itemtype, check}, {select, true}]), + MenuWarnFunApp = gs:menuitem(MenuWarn, [{label, + {text, "Bad fun applications"}}, + {itemtype, check}, {select, true}]), + MenuWarnOpaque = gs:menuitem(MenuWarn, [{label, + {text, "Opaqueness violations"}}, + {itemtype, check}, {select, true}]), + MenuWarnLists = gs:menuitem(MenuWarn, + [{label, {text, "Improper list constructions"}}, + {itemtype, check}, {select, true}]), + MenuWarnNotCalled = gs:menuitem(MenuWarn, + [{label, {text, "Unused functions"}}, + {itemtype, check}, {select, true}]), + MenuWarnReturnOnlyExit = gs:menuitem(MenuWarn, + [{label, + {text, "Error handling functions"}}, + {itemtype, check}, {select, false}]), + MenuWarnReturnNoReturn = gs:menuitem(MenuWarn, + [{label, + {text, "Functions of no return"}}, + {itemtype, check}, {select, true}]), + MenuWarnCallNonExported = gs:menuitem(MenuWarn, + [{label, + {text, "Call to unexported function"}}, + {itemtype, check}, {select, true}]), + MenuWarnRaceCondition = gs:menuitem(MenuWarn, + [{label, + {text,"Possible race conditions"}}, + {itemtype, check}, {select, false}]), + MenuWarnContractTypes = gs:menuitem(MenuWarn, + [{label, {text, "Wrong contracts"}}, + {itemtype, check}, {select, true}]), + MenuWarnContractSyntax = gs:menuitem(MenuWarn, + [{label, + {text, "Wrong contract syntax"}}, + {itemtype, check}, {select, true}]), + + %% PLT Menu + MenuBarPLT = gs:menubutton(MenuBar, [{label, {text,"PLT"}}]), + MenuPLT = gs:menu(MenuBarPLT, []), + MenuPLTEmpty = gs:menuitem(MenuPLT, [{label, {text, "Init with empty PLT"}}, + {itemtype, check}, {select, false}]), + MenuPLTShow = gs:menuitem(MenuPLT, [{label, {text, "Show contents"}}]), + MenuPLTSearch = gs:menuitem(MenuPLT, [{label, {text, "Search contents"}}]), + + %% Options Menu + MenuBarOpts = gs:menubutton(MenuBar, [{label,{text,"Options"}}]), + MenuOpts = gs:menu(MenuBarOpts, []), + MenuOptsMacros = gs:menuitem(MenuOpts, + [{label, {text, "Manage Macro Definitions"}}]), + MenuOptsIncludes = gs:menuitem(MenuOpts, + [{label, {text, "Manage Include Directories"}}]), + + %% Help + MenuBarHelp = gs:menubutton(MenuBar, [{label, {text, "Help"}}, {side, right}]), + MenuHelp = gs:menu(MenuBarHelp, []), + MenuHelpManual = gs:menuitem(MenuHelp, [{label, {text, "Manual"}}]), + MenuHelpWarnings = gs:menuitem(MenuHelp, [{label, {text, "Warning Options"}}]), + MenuHelpAbout = gs:menuitem(MenuHelp, [{label, {text, "About"}}]), + + Warnings = [{?WARN_RETURN_NO_RETURN, MenuWarnReturnNoReturn}, + {?WARN_RETURN_ONLY_EXIT, MenuWarnReturnOnlyExit}, + {?WARN_NOT_CALLED, MenuWarnNotCalled}, + {?WARN_NON_PROPER_LIST, MenuWarnLists}, + {?WARN_FUN_APP, MenuWarnFunApp}, + {?WARN_MATCHING, MenuWarnMatch}, + {?WARN_OPAQUE, MenuWarnOpaque}, + {?WARN_FAILING_CALL, MenuWarnFailingCall}, + {?WARN_CALLGRAPH, MenuWarnCallNonExported}, + {?WARN_RACE_CONDITION, MenuWarnRaceCondition}, + %% For contracts. + {?WARN_CONTRACT_TYPES, MenuWarnContractTypes}, + {?WARN_CONTRACT_SYNTAX, MenuWarnContractSyntax} + ], + + init_warnings(Warnings, LegalWarnings), + + Menu = #menu{file_quit = MenuFileQuit, + plt_empty = MenuPLTEmpty, + help_manual = MenuHelpManual, + help_about = MenuHelpAbout, + help_warnings = MenuHelpWarnings, + opts_macros = MenuOptsMacros, + opts_includes = MenuOptsIncludes, + plt_search_doc = MenuPLTSearch, + plt_show_doc = MenuPLTShow, + file_save_log = MenuFileSaveLog, + file_save_warn = MenuFileSaveWarn, + warnings = Warnings}, + + %% --------- Init -------------- + gs:config(TopWin, [{map, true}]), + gs:config(Packer, WH), + {ok, CWD} = file:get_cwd(), + + InitPlt = try dialyzer_plt:from_file(InitPltFile) + catch throw:{dialyzer_error, _} -> dialyzer_plt:new() + end, + + State = #gui_state{add_all = AddAll, + add_file = AddFile, + add_rec = AddRec, + chosen_box = ChosenBox, + clear_chosen = ClearChosen, + clear_log = ClearLog, + clear_warn = ClearWarn, + del_file = DelFile, + doc_plt = dialyzer_plt:new(), + dir_entry = DirEntry, + file_box = File, + file_wd = CWD, + gs = GS, + init_plt = InitPlt, + log = Log, + menu = Menu, + mode = Mode, + options = DialyzerOptions, + packer = Packer, + run = Run, + stop = Stop, + top = TopWin, + warnings_box = WarningsBox}, + NewState = change_dir_or_add_file(State, "."), + gui_loop(NewState). + +%% ---------------------------------------------------------------- +%% +%% Main GUI Loop +%% + +-spec gui_loop(#gui_state{}) -> ?RET_NOTHING_SUSPICIOUS. + +gui_loop(#gui_state{add_all = AddAll, add_file = AddFile, add_rec = AddRec, + backend_pid = BackendPid, chosen_box = ChosenBox, + clear_chosen = ClearChosen, clear_log = ClearLog, + clear_warn = ClearWarn, del_file = DelFile, + dir_entry = DirEntry, file_box = File, log = Log, + menu = Menu, packer = Packer, run = Run, stop = Stop, + top = TopWin, warnings_box = Warn} = State) -> + %% --- Menu --- + Quit = Menu#menu.file_quit, + Manual = Menu#menu.help_manual, + Warnings = Menu#menu.help_warnings, + About = Menu#menu.help_about, + SaveLog = Menu#menu.file_save_log, + SaveWarn = Menu#menu.file_save_warn, + SearchPlt = Menu#menu.plt_search_doc, + ShowPlt = Menu#menu.plt_show_doc, + Macros = Menu#menu.opts_macros, + Includes = Menu#menu.opts_includes, + + receive + {gs, TopWin, configure, _Data, [W, H|_]} -> + gs:config(Packer, [{width, W}, {height, H}]), + gui_loop(State); + {gs, TopWin, destroy, _Data, _Args} -> + ?RET_NOTHING_SUSPICIOUS; + {gs, File, doubleclick, _, [_Id, Text|_]} -> + NewState = change_dir_or_add_file(State, Text), + gui_loop(NewState); + {gs, DirEntry, keypress, _, ['Return'|_]} -> + gs:config(TopWin, [{setfocus, true}]), + NewState = change_dir_absolute(State, gs:read(DirEntry, text)), + gui_loop(NewState); + {gs, DirEntry, keypress, _, _} -> + gui_loop(State); + %% ----- Buttons ----- + {gs, AddFile, click, _, _} -> + handle_add_files(State), + gui_loop(State); + {gs, AddAll, click, _, _} -> + handle_add_all_click(State), + gui_loop(State); + {gs, AddRec, click, _, _} -> + handle_add_rec_click(State), + gui_loop(State); + {gs, DelFile, click, _, _} -> + handle_file_delete(State), + gui_loop(State); + {gs, ClearChosen, click, _, _} -> + gs:config(ChosenBox, [clear]), + gui_loop(State); + {gs, ClearLog, click, _, _} -> + Log = State#gui_state.log, + gs:config(Log, [{enable, true}]), + gs:config(Log, [clear]), + gs:config(Log, [{enable, false}]), + gui_loop(State); + {gs, ClearWarn, click, _, _} -> + Warn = State#gui_state.warnings_box, + gs:config(Warn, [{enable, true}]), + gs:config(Warn, [clear]), + gs:config(Warn, [{enable, false}]), + gui_loop(State); + {gs, Run, click, _, _} -> + NewState = start_analysis(State), + gui_loop(NewState); + {gs, Stop, click, _, _} -> + config_gui_stop(State), + BackendPid ! {self(), stop}, + update_editor(Log, "\n***** Analysis stopped ****\n"), + gui_loop(State); + %% ----- Menu ----- + {gs, Quit, click, _, _} -> + case maybe_quit(State) of + true -> ?RET_NOTHING_SUSPICIOUS; + false -> gui_loop(State) + end; + {gs, Manual, click, _, _} -> + spawn_link(fun() -> manual(State) end), + gui_loop(State); + {gs, Warnings, click, _, _} -> + spawn_link(fun() -> warnings(State) end), + gui_loop(State); + {gs, About, click, _, _} -> + spawn_link(fun() -> about(State) end), + gui_loop(State); + {gs, SaveLog, click, _, _} -> + save_log(State), + gui_loop(State); + {gs, SaveWarn, click, _, _} -> + save_warn(State), + gui_loop(State); + {gs, SearchPlt, click, _, _} -> + spawn_link(fun() -> search_doc_plt(State) end), + gui_loop(State); + {gs, ShowPlt, click, _, _} -> + spawn_link(fun() -> show_doc_plt(State) end), + gui_loop(State); + {gs, Macros, click, _, _} -> + Self = self(), + spawn_link(fun() -> macro_dialog(State, Self) end), + gui_loop(State); + {gs, Includes, click, _, _} -> + Self = self(), + spawn_link(fun() -> include_dialog(State, Self) end), + gui_loop(State); + {new_options, NewOptions} -> + NewState = State#gui_state{options = NewOptions}, + gui_loop(NewState); + %% ----- Analysis ----- + {BackendPid, ext_calls, ExtCalls} -> + Msg = io_lib:format("The following functions are called " + "but type information about them is not available.\n" + "The analysis might get more precise by including " + "the modules containing these functions:\n\n\t~p\n", + [ExtCalls]), + free_editor(State, "Analysis done", Msg), + gui_loop(State); + {BackendPid, log, LogMsg} -> + update_editor(Log, LogMsg), + gui_loop(State); + {BackendPid, warnings, Warns} -> + SortedWarns = lists:keysort(2, Warns), %% Sort on file/line + WarnList = [dialyzer:format_warning(W) || W <- SortedWarns], + update_editor(Warn, lists:flatten(WarnList)), + gui_loop(State); + {BackendPid, done, _NewPlt, NewDocPlt} -> + message(State, "Analysis done"), + config_gui_stop(State), + gui_loop(State#gui_state{doc_plt = NewDocPlt}); + {'EXIT', BackendPid, {error, Reason}} -> + free_editor(State, ?DIALYZER_ERROR_TITLE, Reason), + config_gui_stop(State), + gui_loop(State); + {'EXIT', BackendPid, Reason} when Reason =/= 'normal' -> + free_editor(State, ?DIALYZER_ERROR_TITLE, io_lib:format("~p", [Reason])), + config_gui_stop(State), + gui_loop(State); + _Other -> + %% io:format("Received ~p\n", [Other]), + gui_loop(State) + end. + +%% ---------------------------------------------------------------- +%% +%% Main window actions +%% + +%% ---- Adding and deleting files ---- + +handle_add_all_click(#gui_state{chosen_box = ChosenBox, file_box = File, + file_wd = FWD, mode = Mode}) -> + case gs:read(File, items) of + [] -> + ok; + Add0 -> + gs:config(File, [{selection, clear}]), + Add1 = ordsets:subtract(Add0, [".."]), + Add = ordsets:from_list([filename:join(FWD, X) || X <- Add1]), + case gs:read(Mode#mode.start_byte_code, select) of + true -> + add_files(filter_mods(Add, ".beam"), ChosenBox, byte_code); + false -> + add_files(filter_mods(Add, ".erl"), ChosenBox, src_code) + end + end. + +all_subdirs(Dirs) -> + all_subdirs(Dirs, []). + +all_subdirs([Dir|T], Acc) -> + {ok, Files} = file:list_dir(Dir), + SubDirs = lists:zf(fun(F) -> + SubDir = filename:join(Dir, F), + case filelib:is_dir(SubDir) of + true -> {true, SubDir}; + false -> false + end + end, Files), + NewAcc = ordsets:union(ordsets:from_list(SubDirs), Acc), + all_subdirs(T ++ SubDirs, NewAcc); +all_subdirs([], Acc) -> + Acc. + +handle_add_rec_click(#gui_state{chosen_box = ChosenBox, file_box = File, + file_wd = FWD, mode = Mode}) -> + case gs:read(File, selection) of + [] -> + ok; + List -> + gs:config(File, [{selection, clear}]), + Dirs1 = [gs:read(File, {get, X}) || X <- List], + Dirs2 = ordsets:from_list([filename:join(FWD, X) || X <- Dirs1]), + Dirs3 = ordsets:filter(fun(X) -> filelib:is_dir(X) end, Dirs2), + TargetDirs = ordsets:union(Dirs3, all_subdirs(Dirs3)), + {Code, Ext} = case gs:read(Mode#mode.start_byte_code, select) of + true -> {byte_code, ".beam"}; + false -> {src_code, ".erl"} + end, + add_files(filter_mods(TargetDirs, Ext), ChosenBox, Code) + end. + +handle_add_files(#gui_state{chosen_box = ChosenBox, file_box = File, + file_wd = FWD, mode = Mode}) -> + case gs:read(File, selection) of + [] -> + ok; + List -> + gs:config(File, [{selection, clear}]), + Add0 = [gs:read(File, {get, X}) || X <- List], + Add = ordsets:from_list([filename:join(FWD, X) || X <- Add0]), + case gs:read(Mode#mode.start_byte_code, select) of + true -> + add_files(filter_mods(Add, ".beam"), ChosenBox, byte_code); + false -> + add_files(filter_mods(Add, ".erl"), ChosenBox, src_code) + end + end. + +filter_mods(Mods, Extension) -> + Fun = fun(X) -> + filename:extension(X) =:= Extension + orelse + (filelib:is_dir(X) andalso + contains_files(X, Extension)) + end, + ordsets:filter(Fun, Mods). + +contains_files(Dir, Extension) -> + {ok, Files} = file:list_dir(Dir), + lists:any(fun(X) -> filename:extension(X) =:= Extension end, Files). + +add_files(Add, ChosenBox, Type) -> + Set = gs:read(ChosenBox, items), + Set1 = + case Type of + byte_code -> filter_mods(Set, ".beam"); + src_code -> filter_mods(Set, ".erl") + end, + Files = ordsets:union(Add, Set1), + gs:config(ChosenBox, [{items, Files}]), + ok. + +handle_file_delete(#gui_state{chosen_box = ChosenBox}) -> + List = gs:read(ChosenBox, selection), + lists:foreach(fun(X) -> gs:config(ChosenBox, [{del, X}]) end, + lists:reverse(lists:sort(List))). + +%% ---- Other ---- + +change_dir_or_add_file(#gui_state{file_wd = FWD, mode = Mode, dir_entry = Dir, + chosen_box = CBox, file_box = File} = State, + Text) -> + NewWDorFile = + case Text of + ".." -> filename:join(butlast(filename:split(FWD))); + "." -> FWD; + _ -> filename:join(FWD, Text) + end, + case filelib:is_dir(NewWDorFile) of + true -> + gs:config(Dir, [{text, NewWDorFile}]), + {ok, List} = file:list_dir(NewWDorFile), + gs:config(File, [{items, [".."|lists:sort(List)]}]), + State#gui_state{file_wd = NewWDorFile}; + false -> + case gs:read(Mode#mode.start_byte_code, select) of + true -> + case filter_mods([NewWDorFile], ".beam") of + [] -> ok; + RealFiles -> add_files(RealFiles, CBox, byte_code) + end; + false -> + case filter_mods([NewWDorFile], ".erl") of + [] -> ok; + RealFiles -> add_files(RealFiles, CBox, src_code) + end + end, + State + end. + +butlast([H1, H2 | T]) -> + [H1 | butlast([H2|T])]; +butlast([_]) -> + []; +butlast([]) -> + ["/"]. + +change_dir_absolute(#gui_state{file_wd = FWD, dir_entry = Dir, + file_box = File} = State, + Text) -> + case filelib:is_dir(Text) of + true -> + WD = filename:join(FWD, Text), + gs:config(Dir, [{text, WD}]), + {ok, List} = file:list_dir(WD), + gs:config(File, [{items, [".."|lists:sort(List)]}]), + State#gui_state{file_wd = WD}; + false -> + State + end. + +init_warnings([{Tag, GSItem}|Left], LegalWarnings) -> + Select = ordsets:is_element(Tag, LegalWarnings), + gs:config(GSItem, [{select, Select}]), + init_warnings(Left, LegalWarnings); +init_warnings([], _LegalWarnings) -> + ok. + +config_gui_start(State) -> + Enabled = [{enable, true}], + Disabled = [{enable, false}], + gs:config(State#gui_state.stop, Enabled), + gs:config(State#gui_state.run, Disabled), + gs:config(State#gui_state.del_file, Disabled), + gs:config(State#gui_state.clear_chosen, Disabled), + gs:config(State#gui_state.add_file, Disabled), + gs:config(State#gui_state.add_all, Disabled), + gs:config(State#gui_state.add_rec, Disabled), + gs:config(State#gui_state.clear_warn, Disabled), + gs:config(State#gui_state.clear_log, Disabled), + Menu = State#gui_state.menu, + gs:config(Menu#menu.file_save_warn, Disabled), + gs:config(Menu#menu.file_save_log, Disabled), + gs:config(Menu#menu.opts_macros, Disabled), + gs:config(Menu#menu.opts_includes, Disabled), + gs:config(Menu#menu.plt_empty, Disabled), + gs:config(Menu#menu.plt_search_doc, Disabled), + gs:config(Menu#menu.plt_show_doc, Disabled), + Mode = State#gui_state.mode, + gs:config(Mode#mode.start_byte_code, Disabled), + gs:config(Mode#mode.start_src_code, Disabled). + +config_gui_stop(State) -> + Enabled = [{enable, true}], + Disabled = [{enable, false}], + gs:config(State#gui_state.stop, Disabled), + gs:config(State#gui_state.run, Enabled), + gs:config(State#gui_state.del_file, Enabled), + gs:config(State#gui_state.clear_chosen, Enabled), + gs:config(State#gui_state.add_file, Enabled), + gs:config(State#gui_state.add_all, Enabled), + gs:config(State#gui_state.add_rec, Enabled), + gs:config(State#gui_state.clear_warn, Enabled), + gs:config(State#gui_state.clear_log, Enabled), + Menu = State#gui_state.menu, + gs:config(Menu#menu.file_save_warn, Enabled), + gs:config(Menu#menu.file_save_log, Enabled), + gs:config(Menu#menu.opts_macros, Enabled), + gs:config(Menu#menu.opts_includes, Enabled), + gs:config(Menu#menu.plt_empty, Enabled), + gs:config(Menu#menu.plt_search_doc, Enabled), + gs:config(Menu#menu.plt_show_doc, Enabled), + Mode = State#gui_state.mode, + gs:config(Mode#mode.start_byte_code, Enabled), + gs:config(Mode#mode.start_src_code, Enabled). + +%% ---------------------------------------------------------------- +%% +%% Messages +%% + +message(State, Message) -> + output_sms(State, ?DIALYZER_MESSAGE_TITLE, Message). + +error_sms(State, Message) -> + output_sms(State, ?DIALYZER_ERROR_TITLE, Message). + +%% +%% This function is to be used *only* for small messages because lines +%% are not wrapped and the created window has a limited area for text. +%% For bigger messages, the function free_editor/3 is to be used. +%% +output_sms(#gui_state{gs = GS, top = TopWin}, Title, Message) -> + %% Lines = string:words(Message, $\n), + %% io:format("The message has ~w lines\n", [Lines]), + WH = [{width, 400}, {height, 100}], + MessageWin = gs:window(GS, [{title, Title}, + {default, button, {font, {helvetica, bold, 12}}} + |WH]), + MessagePacker = gs:frame(MessageWin, [{packer_y, [{fixed, 75}, {fixed, 25}]}, + {packer_x, [{fixed, 175},{fixed, 50}, + {fixed, 175}]}]), + gs:label(MessagePacker, [{pack_x, {1, 3}}, {pack_y, 1}, + {label, {text, Message}}]), + OK = gs:button(MessagePacker, [{label, {text, "OK"}}, {pack_xy, {2, 2}}]), + gs:config(MessageWin, [{map, true}]), + gs:config(MessagePacker, WH), + message_loop(OK, MessageWin, TopWin). + +message_loop(Ok, Win, TopWin) -> + receive + {gs, Ok, click, _, _} -> + gs:destroy(Win); + {gs, Win, destroy, _, _} -> + ok; + {gs, TopWin, destroy, _, _} -> + exit(normal); + {gs, _, _, _, _} -> + message_loop(Ok, Win, TopWin) + end. + +dialog(#gui_state{gs = GS, top = TopWin}, Message, OkLabel, CancelLabel) -> + WH = [{width, 400}, {height, 100}], + WHButton = [{width, 70}, {height, 20}], + DialogWin = gs:window(GS, [{title, "Dialyzer Message"}, + {default, button, {font, {helvetica, bold, 12}}} + |WH]), + DialogPacker = gs:frame(DialogWin, [{packer_y, [{fixed, 75}, {fixed, 25}]}, + {packer_x, [{fixed, 150}, {fixed, 50}, + {fixed, 50}, {fixed, 150}]}]), + gs:label(DialogPacker, [{pack_x, {1,4}}, {pack_y, 1}, + {label, {text, Message}}]), + Ok = gs:button(DialogPacker, [{label, {text, OkLabel}}, + {pack_xy, {2,2}}|WHButton]), + Cancel = gs:button(DialogPacker, [{label, {text, CancelLabel}}, + {pack_xy, {3,2}}|WHButton]), + gs:config(DialogWin, [{map, true}]), + gs:config(DialogPacker, WH), + dialog_loop(Ok, Cancel, DialogWin, TopWin). + +dialog_loop(Ok, Cancel, Win, TopWin) -> + receive + {gs, Ok, click, _, _} -> + gs:destroy(Win), + true; + {gs, Cancel, click, _, _} -> + gs:destroy(Win), + false; + {gs, Win, destroy, _, _} -> + false; + {gs, TopWin, destroy, _, _} -> + exit(normal); + {gs, _, _, _, _} -> + dialog_loop(Ok, Cancel, Win, TopWin) + end. + +maybe_quit(#gui_state{top = TopWin} = State) -> + case dialog(State, "Do you really want to quit?", "Yes", "No") of + true -> + flush(), + gs:destroy(TopWin), + gs:stop(), + true; + false -> + false + end. + + +%% ---------------------------------------------------------------- +%% +%% Menu actions +%% + +%% ---- Help Menu ---- + +manual(State) -> + help_menu_common(State, "Dialyzer Manual", 500, "manual.txt", white). + +warnings(State) -> + help_menu_common(State, "Dialyzer Warnings", 500, "warnings.txt", white). + +about(State) -> + help_menu_common(State, "About Dialyzer", 160, "about.txt", yellow). + +help_menu_common(#gui_state{gs = GS, top = TopWin} = State, + Title, Height, TxtFileName, BackGroundColor) -> + WH = [{width, 600}, {height, Height}], + Win = gs:window(GS, [{title, Title}, {configure, true}, + {default, editor, {bg, BackGroundColor}} | WH]), + EmptySpace = {stretch, 1}, + Frame = gs:frame(Win, [{packer_x, [EmptySpace, {fixed, 60}, EmptySpace]}, + {packer_y, [EmptySpace, {fixed, 30}]} | WH]), + Editor = gs:editor(Frame, [{pack_x, {1, 3}}, {pack_y, 1}, + {font, {courier, 12}}, {vscroll, right}, + {wrap, word}]), + Button = gs:button(Frame, [{label, {text, "Ok"}}, {pack_xy, {2, 2}}]), + gs:config(Win, [{map, true}]), + gs:config(Frame, WH), + AboutFile = filename:join([code:lib_dir(dialyzer), "doc", TxtFileName]), + case gs:config(Editor, {load, AboutFile}) of + {error, Reason} -> + gs:destroy(Win), + error_sms(State, + io_lib:format("Could not find doc/~s file!\n\n ~p", + [TxtFileName, Reason])); + ok -> + gs:config(Editor, [{enable, false}]), + show_info_loop(TopWin, Win, Frame, Button) + end. + +%% ---- File Menu ---- + +save_log(#gui_state{file_wd = CWD, log = Log} = State) -> + {Win, Entry, OkButton, CancelButton} = file_box(State, "Save Log", CWD), + save_loop(State, OkButton, CancelButton, Entry, Win, Log). + +save_warn(#gui_state{file_wd = CWD, warnings_box = WBox} = State) -> + {Win, Entry, OkButton, CancelButton} = file_box(State, "Save Warnings", CWD), + save_loop(State, OkButton, CancelButton, Entry, Win, WBox). + +file_box(#gui_state{gs = GS}, Title, Default) -> + WH = [{width, 400}, {height, 75}], + Win = gs:window(GS, [{title, Title}|WH]), + Fix25 = {fixed, 27}, Fix75 = {fixed, 75}, + WinPacker = gs:frame(Win, [{packer_y, [Fix25, Fix25, Fix25]}, + {packer_x, [Fix75, Fix75, Fix75, {fixed, 175}]}]), + gs:label(WinPacker, [{pack_xy, {1,2}}, {label, {text, "Enter file:"}}]), + Entry = gs:entry(WinPacker, [{pack_x, {2,4}}, {pack_y, 2}, {keypress, true}]), + OkButton = gs:button(WinPacker, [{label, {text, "Ok"}}, {pack_xy, {2,3}}]), + CancelButton = gs:button(WinPacker, [{label, {text, "Cancel"}}, + {pack_xy, {3,3}}]), + gs:config(Entry, [{text, Default}]), + gs:config(Win, [{map, true}]), + gs:config(WinPacker, WH), + {Win, Entry, OkButton, CancelButton}. + +save_loop(#gui_state{top = TopWin} = State, + OkButton, CancelButton, Entry, Save, Editor) -> + receive + {gs, OkButton, click, _, _} -> + File = gs:read(Entry, text), + case gs:config(Editor, [{save, File}]) of + {error, _} -> + error_sms(State, "Could not write to file:\n" ++ File), + save_loop(State, OkButton, CancelButton, Entry, Save, Editor); + _ -> + gs:destroy(Save) + end; + {gs, Entry, keypress, _, ['Return'|_]} -> + File = gs:read(Entry, text), + case gs:config(Editor, [{save, File}]) of + {error, _} -> + error_sms(State, "Could not write to file:\n" ++ File), + save_loop(State, OkButton, CancelButton, Entry, Save, Editor); + _ -> + gs:destroy(Save) + end; + {gs, Entry, keypress, _, _} -> + save_loop(State, OkButton, CancelButton, Entry, Save, Editor); + {gs, CancelButton, click, _, _} -> + gs:destroy(Save); + {gs, TopWin, destroy, _, _} -> + exit(normal); + {gs, Save, destroy, _, _} -> + ok; + {gs, _, _, _, _} -> + save_loop(State, OkButton, CancelButton, Entry, Save, Editor) + end. + +%% ---- Plt Menu ---- + +search_doc_plt(#gui_state{gs = GS, top = TopWin} = State) -> + WH = [{width, 400}, {height, 100}], + WHB = [{width, 120}, {height, 30}], + Title = io_lib:format("Search the PLT", []), + Win = gs:window(GS, [{title, Title}, {configure, true}, + {default, editor, {bg, white}} | WH]), + EmptySpace = {stretch, 1}, + Frame = gs:frame(Win, [{packer_x, [EmptySpace, EmptySpace, EmptySpace]}, + {packer_y, [{fixed, 30}, {fixed, 30}, + EmptySpace, {fixed, 30}]} | WH]), + gs:label(Frame, [{pack_xy, {1,1}}, {label, {text, "Module"}}]), + ModEntry = gs:entry(Frame, [{pack_xy, {1,2}}]), + gs:label(Frame, [{pack_xy, {2,1}}, {label, {text, "Function"}}]), + FunEntry = gs:entry(Frame, [{pack_xy, {2,2}}]), + gs:label(Frame, [{pack_xy, {3,1}}, {label, {text, "Arity"}}]), + ArityEntry = gs:entry(Frame, [{pack_xy, {3,2}}]), + ButtonPacker = gs:frame(Frame, [{pack_xy, {2,4}}, + {packer_x, [{fixed, 60}, {fixed, 60}]}, + {packer_y, {fixed, 30}}]), + SearchButton = gs:button(ButtonPacker, [{label, {text, "Search"}}, + {pack_xy, {1,1}}]), + CancelButton = gs:button(ButtonPacker, [{label, {text, "Cancel"}}, + {pack_xy, {2,1}}]), + gs:config(Win, [{map, true}]), + gs:config(Frame, WH), + gs:config(ButtonPacker, WHB), + search_doc_plt_loop(State, CancelButton, SearchButton, ModEntry, + FunEntry, ArityEntry, Win, TopWin). + +search_doc_plt_loop(State, CancelButton, SearchButton, ModEntry, + FunEntry, ArityEntry, Win, TopWin) -> + receive + {gs, CancelButton, click, _, _} -> + gs:destroy(Win), + ok; + {gs, TopWin, destroy, _, _} -> + exit(normal); + {gs, SearchButton, click, _, _} -> + M = format_search(gs:read(ModEntry, text)), + F = format_search(gs:read(FunEntry, text)), + A = format_search(gs:read(ArityEntry, text)), + case dialyzer_plt:get_specs(State#gui_state.doc_plt, M, F, A) of + "" -> + error_sms(State, "No such function"), + search_doc_plt_loop(State, CancelButton, SearchButton, ModEntry, + FunEntry, ArityEntry, Win, TopWin); + NonEmptyString -> + gs:destroy(Win), + free_editor(State, "Content of PLT", NonEmptyString) + end + end. + +format_search([]) -> + '_'; +format_search(String) -> + try list_to_integer(String) + catch error:_ -> list_to_atom(String) + end. + +show_doc_plt(#gui_state{doc_plt = DocPLT} = State) -> + case dialyzer_plt:get_specs(DocPLT) of + "" -> error_sms(State, "No analysis has been made yet!\n"); + NonEmptyString -> free_editor(State, "Content of PLT", NonEmptyString) + end. + +free_editor(#gui_state{gs = GS, top = TopWin}, Title, Contents0) -> + Contents = lists:flatten(Contents0), + Tokens = string:tokens(Contents, "\n"), + NofLines = length(Tokens), + LongestLine = lists:max([length(X) || X <- Tokens]), + Height0 = NofLines * 25 + 80, + Height = if Height0 > 500 -> 500; true -> Height0 end, + Width0 = LongestLine * 7 + 60, + Width = if Width0 > 800 -> 800; true -> Width0 end, + WH = [{width, Width}, {height, Height}], + Win = gs:window(GS, [{title, Title}, {configure, true}, + {default, editor, {bg, white}} | WH]), + EmptySpace = {stretch, 1}, + Frame = gs:frame(Win, [{packer_x, [EmptySpace, {fixed, 60}, EmptySpace]}, + {packer_y, [EmptySpace, {fixed, 30}]} + | WH]), + Editor = gs:editor(Frame, [{pack_x, {1,3}}, {pack_y, 1}, + {font, {courier, 12}}, {vscroll, right}, + {wrap, word}, {enable, true}]), + Button = gs:button(Frame, [{label, {text, "Ok"}}, {pack_xy, {2,2}}]), + gs:config(Editor, [{insert, {insert, Contents}}]), + gs:config(Editor, [{enable, false}]), + gs:config(Win, [{map, true}]), + gs:config(Frame, WH), + show_info_loop(TopWin, Win, Frame, Button). + +%% ---- Common ---- + +show_info_loop(TopWin, Win, Frame, Button) -> + receive + {gs, Button, click, _, _} -> + gs:destroy(Win); + {gs, TopWin, destroy, _, _} -> + exit(normal); + {gs, Win, destroy, _, _} -> + ok; + {gs, Win, configure, _Data, [W, H|_]} -> + gs:config(Frame, [{width, W}, {height, H}]), + show_info_loop(TopWin, Win, Frame, Button) + end. + +include_dialog(#gui_state{gs = GS, options = Options}, Parent) -> + WH = [{width, 300}, {height, 400}], + Title = io_lib:format("Include Directories", []), + Win = gs:window(GS, [{title, Title}, {configure, true}, + {default, entry, {bg, white}}| WH]), + EmptySpace = {stretch, 1}, + Frame = gs:frame(Win, [{packer_x, [EmptySpace]}, + {packer_y, [{fixed, 30}, {fixed, 30}, {fixed, 30}, + EmptySpace, {fixed, 30}, {fixed, 30}]} + | WH]), + gs:label(Frame, [{pack_xy, {1,1}}, {label, {text, "Directory"}}]), + DirEntry = gs:entry(Frame, [{pack_xy, {1,2}}]), + ButtonPacker1 = gs:frame(Frame, [{pack_xy, {1,3}}, + {packer_x, [{fixed, 70}, {fixed, 70}, + EmptySpace]}, + {packer_y, {fixed, 30}}]), + AddButton = gs:button(ButtonPacker1, [{label, {text, "Add"}}, + {pack_xy, {1,1}}]), + Dirs = [io_lib:format("~s", [X]) || X <- Options#options.include_dirs], + DirBox = gs:listbox(Frame, [{pack_xy, {1,4}}, {vscroll, right}, + {bg, white}, {configure, true}, + {selectmode, multiple}, {items, Dirs}]), + ButtonPacker2 = gs:frame(Frame, [{pack_xy, {1,5}}, + {packer_x, [{fixed, 60}, {fixed, 70}, + EmptySpace]}, + {packer_y, {fixed, 30}}]), + DeleteButton = gs:button(ButtonPacker2, [{label, {text, "Delete"}}, + {pack_xy, {1,1}}]), + DeleteAllButton = gs:button(ButtonPacker2, [{label, {text, "Delete All"}}, + {pack_xy, {2,1}}]), + ButtonPacker3 = gs:frame(Frame, [{pack_xy, {1,6}}, + {packer_x, [EmptySpace, + {fixed, 60}, {fixed, 60}]}, + {packer_y, {fixed, 30}}]), + OkButton = gs:button(ButtonPacker3, [{label, {text, "Ok"}}, + {pack_xy, {2,1}}]), + CancelButton = gs:button(ButtonPacker3, [{label, {text, "Cancel"}}, + {pack_xy, {3,1}}]), + gs:config(Win, [{map, true}]), + gs:config(Frame, WH), + include_loop(Parent, Options, Frame, AddButton, DeleteAllButton, DeleteButton, + DirBox, DirEntry, OkButton, CancelButton, Win). + +include_loop(Parent, Options, Frame, AddButton, DeleteAllButton, DeleteButton, + DirBox, DirEntry, OkButton, CancelButton, Win) -> + receive + {gs, CancelButton, click, _, _} -> + gs:destroy(Win), + ok; + {gs, OkButton, click, _, _} -> + gs:destroy(Win), + Parent ! {new_options, Options}, + ok; + {gs, Win, configure, _Data, [W, H|_]} -> + gs:config(Frame, [{width, W}, {height, H}]), + include_loop(Parent, Options, Frame, AddButton, DeleteAllButton, + DeleteButton, DirBox, DirEntry, OkButton, CancelButton, Win); + {gs, AddButton, click, _, _} -> + Dirs = Options#options.include_dirs, + NewDirs = + case gs:read(DirEntry, text) of + [] -> Dirs; + Add -> [Add|Dirs] + end, + NewOptions = Options#options{include_dirs = NewDirs}, + gs:config(DirBox, [{items, NewDirs}]), + include_loop(Parent, NewOptions, Frame, AddButton, DeleteAllButton, + DeleteButton, DirBox, DirEntry, OkButton, CancelButton, Win); + {gs, DeleteAllButton, click, _, _} -> + gs:config(DirBox, [clear]), + NewOptions = Options#options{include_dirs = []}, + include_loop(Parent, NewOptions, Frame, AddButton, DeleteAllButton, + DeleteButton, DirBox, DirEntry, OkButton, CancelButton, Win); + {gs, DeleteButton, click, _, _} -> + NewOptions = + case gs:read(DirBox, selection) of + [] -> + Options; + List -> + lists:foreach(fun(X) -> gs:config(DirBox, [{del, X}]) end, + lists:sort(List)), + NewDirs = gs:read(DirBox, items), + Options#options{include_dirs = NewDirs} + end, + include_loop(Parent, NewOptions, Frame, AddButton, DeleteAllButton, + DeleteButton, DirBox, DirEntry, OkButton, CancelButton, Win); + {gs, Win, destroy, _, _} -> + ok + end. + +macro_dialog(#gui_state{gs = GS, options = Options}, Parent) -> + WH = [{width, 300}, {height, 400}], + Title = io_lib:format("Macro Definitions", []), + Win = gs:window(GS, [{title, Title}, {configure, true}, + {default, entry, {bg, white}}| WH]), + EmptySpace = {stretch, 1}, + Frame = gs:frame(Win, [{packer_x, [EmptySpace, EmptySpace]}, + {packer_y, [{fixed, 30}, {fixed, 30}, {fixed, 30}, + EmptySpace, {fixed, 30}, {fixed, 30}]} + | WH]), + gs:label(Frame, [{pack_xy, {1,1}}, {label, {text, "Macro"}}]), + MacroEntry = gs:entry(Frame, [{pack_xy, {1,2}}]), + gs:label(Frame, [{pack_xy, {2,1}}, {label, {text, "Term"}}]), + TermEntry = gs:entry(Frame, [{pack_xy, {2,2}}]), + ButtonPacker1 = gs:frame(Frame, [{pack_x, {1,2}}, {pack_y, 3}, + {packer_x, [{fixed, 70},{fixed, 70}, + EmptySpace]}, + {packer_y, {fixed, 30}}]), + AddButton = gs:button(ButtonPacker1, [{label, {text, "Add"}}, + {pack_xy, {1,1}}]), + Macros = [io_lib:format("~p = ~p",[X,Y]) || {X,Y} <- Options#options.defines], + MacroBox = gs:listbox(Frame, [{pack_x, {1,2}}, {pack_y, 4}, {vscroll, right}, + {bg, white}, {configure, true}, + {selectmode, multiple}, + {items, Macros}]), + ButtonPacker2 = gs:frame(Frame, [{pack_x, {1,2}}, {pack_y, 5}, + {packer_x, [{fixed, 60}, {fixed, 70}, + EmptySpace]}, + {packer_y, {fixed, 30}}]), + DeleteButton = gs:button(ButtonPacker2, [{label, {text, "Delete"}}, + {pack_xy, {1,1}}]), + DeleteAllButton = gs:button(ButtonPacker2, [{label, {text, "Delete All"}}, + {pack_xy, {2,1}}]), + ButtonPacker3 = gs:frame(Frame, [{pack_x, {1,2}}, {pack_y, 6}, + {packer_x, [EmptySpace, + {fixed, 60}, {fixed, 60}]}, + {packer_y, {fixed, 30}}]), + OkButton = gs:button(ButtonPacker3, [{label, {text, "Ok"}}, + {pack_xy, {2,1}}]), + CancelButton = gs:button(ButtonPacker3, [{label, {text, "Cancel"}}, + {pack_xy, {3,1}}]), + gs:config(Win, [{map, true}]), + gs:config(Frame, WH), + macro_loop(Parent, Options, Frame, AddButton, DeleteAllButton, DeleteButton, + MacroBox, MacroEntry, TermEntry, OkButton, CancelButton, Win). + +macro_loop(Parent, Options, Frame, AddButton, DeleteAllButton, DeleteButton, + MacroBox, MacroEntry, TermEntry, OkButton, CancelButton, Win) -> + receive + {gs, CancelButton, click, _, _} -> + gs:destroy(Win), + ok; + {gs, OkButton, click, _, _} -> + gs:destroy(Win), + Parent ! {new_options, Options}, + ok; + {gs, Win, configure, _Data, [W, H|_]} -> + gs:config(Frame, [{width, W}, {height, H}]), + macro_loop(Parent, Options, Frame, AddButton, DeleteAllButton, + DeleteButton, MacroBox, MacroEntry, TermEntry, OkButton, + CancelButton, Win); + {gs, AddButton, click, _, _} -> + Defines = Options#options.defines, + NewDefines = + case gs:read(MacroEntry, text) of + "" -> Defines; + Macro -> + Empty = [{text, ""}], + case gs:read(TermEntry, text) of + "" -> + gs:config(MacroEntry, Empty), + orddict:store(list_to_atom(Macro), true, Defines); + String -> + case parse(String) of + {ok, Term} -> + gs:config(MacroEntry, Empty), + gs:config(TermEntry, Empty), + orddict:store(list_to_atom(Macro), Term, Defines); + {error, _Reason} -> + Defines + end + end + end, + NewOptions = Options#options{defines = NewDefines}, + NewEntries = [io_lib:format("~p = ~p", [X, Y]) || {X, Y} <- NewDefines], + gs:config(MacroBox, [{items, NewEntries}]), + macro_loop(Parent, NewOptions, Frame, AddButton, DeleteAllButton, + DeleteButton, MacroBox, MacroEntry, TermEntry, OkButton, + CancelButton, Win); + {gs, DeleteAllButton, click, _, _} -> + gs:config(MacroBox, [clear]), + NewOptions = Options#options{defines = []}, + macro_loop(Parent, NewOptions, Frame, AddButton, DeleteAllButton, + DeleteButton, MacroBox, MacroEntry, TermEntry, OkButton, + CancelButton, Win); + {gs, DeleteButton, click, _, _} -> + NewOptions = + case gs:read(MacroBox, selection) of + [] -> + Options; + List -> + gs:config(MacroBox, [{selection, clear}]), + Fun = + fun(X) -> + Val = gs:read(MacroBox, {get, X}), + [MacroName|_] = re:split(Val, " ", [{return, list}]), + list_to_atom(MacroName) + end, + Delete = [Fun(X) || X <- List], + lists:foreach(fun(X) -> gs:config(MacroBox, [{del, X}]) end, + lists:reverse(lists:sort(List))), + Defines = Options#options.defines, + NewDefines = lists:foldl(fun(X, Acc) -> + orddict:erase(X, Acc) + end, + Defines, Delete), + Options#options{defines = NewDefines} + end, + macro_loop(Parent, NewOptions, Frame, AddButton, DeleteAllButton, + DeleteButton, MacroBox, MacroEntry, TermEntry, OkButton, + CancelButton, Win); + {gs, Win, destroy, _, _} -> + ok + end. + +parse(String) -> + case erl_scan:string(String ++ ".", 1) of + {ok, Ts, _} -> + case erl_parse:parse_exprs(Ts) of + {ok, [Expr]} -> + try erl_parse:normalise(Expr) + catch error:Reason -> {error, Reason} + end; + {error, E} -> + parse_error(E) + end; + {error, E, _} -> + parse_error(E) + end. + +parse_error(E) -> + S = io_lib:fwrite("Error parsing expression: ~P.", [E,15]), + {error, S}. + +%% ---------------------------------------------------------------- +%% +%% Run the analysis +%% + +start_analysis(State) -> + Analysis = build_analysis_record(State), + case get_anal_files(State, Analysis#analysis.start_from) of + error -> + Msg = "You must choose one or more files or dirs\n" + "before starting the analysis!", + error_sms(State, Msg), + config_gui_stop(State), + State; + {ok, Files} -> + Msg = "\n========== Starting Analysis ==========\n\n", + update_editor(State#gui_state.log, Msg), + NewAnalysis = Analysis#analysis{files = Files}, + run_analysis(State, NewAnalysis) + end. + +build_analysis_record(#gui_state{mode = Mode, menu = Menu, options = Options, + init_plt = InitPlt0}) -> + StartFrom = + case gs:read(Mode#mode.start_byte_code, select) of + true -> byte_code; + false -> src_code + end, + InitPlt = + case gs:read(Menu#menu.plt_empty, select) of + true -> dialyzer_plt:new(); + false -> InitPlt0 + end, + #analysis{defines = Options#options.defines, + include_dirs = Options#options.include_dirs, + plt = InitPlt, + start_from = StartFrom}. + +get_anal_files(#gui_state{chosen_box = ChosenBox}, StartFrom) -> + Files = gs:read(ChosenBox, items), + FilteredMods = + case StartFrom of + src_code -> filter_mods(Files, ".erl"); + byte_code -> filter_mods(Files, ".beam") + end, + FilteredDirs = [X || X <- Files, filelib:is_dir(X)], + case ordsets:union(FilteredMods, FilteredDirs) of + [] -> error; + Set -> {ok, Set} + end. + +run_analysis(State, Analysis) -> + config_gui_start(State), + Self = self(), + NewAnalysis = Analysis#analysis{doc_plt = dialyzer_plt:new()}, + LegalWarnings = find_legal_warnings(State), + Fun = + fun() -> + dialyzer_analysis_callgraph:start(Self, LegalWarnings, NewAnalysis) + end, + BackendPid = spawn_link(Fun), + State#gui_state{backend_pid = BackendPid}. + +find_legal_warnings(#gui_state{menu = #menu{warnings = Warnings}}) -> + ordsets:from_list([Tag || {Tag, GSItem} <- Warnings, + gs:read(GSItem, select) =:= true]). + +flush() -> + receive + _ -> flush() + after + 0 -> ok + end. + +update_editor(Editor, Msg) -> + gs:config(Editor, [{enable, true}]), + NofRows = gs:read(Editor, size), + gs:config(Editor, [{insertpos, 'end'}]), + gs:config(Editor, [{insert, {insert, Msg}}]), + NewNofRows = gs:read(Editor, size), + ScrollPos = gs:read(Editor, vscrollpos), + gs:config(Editor, [{vscrollpos, ScrollPos + NewNofRows - NofRows}]), + gs:config(Editor, [{enable, false}]). diff --git a/lib/dialyzer/src/dialyzer_gui_wx.erl b/lib/dialyzer/src/dialyzer_gui_wx.erl new file mode 100644 index 0000000000..2d97f88680 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_gui_wx.erl @@ -0,0 +1,1243 @@ +%% -*- erlang-indent-level: 2 -*- +%%------------------------------------------------------------------------ +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%----------------------------------------------------------------------- +%%% File : dialyzer_gui_wx.erl +%%% Authors : Elli Fragkaki <[email protected]> +%%% Description : The wx-based graphical user interface of dialyzer. +%%% +%%% Created : 07 Oct 2009 by Elli Fragkaki <[email protected]> +%%%----------------------------------------------------------------------- + +-module(dialyzer_gui_wx). + +-export([start/1]). + +-include("dialyzer.hrl"). +-include("dialyzer_gui_wx.hrl"). + +%%------------------------------------------------------------------------ + +-define(DIALYZER_ERROR_TITLE, "Dialyzer Error"). +-define(DIALYZER_MESSAGE_TITLE, "Dialyzer Message"). + +%%------------------------------------------------------------------------ + +-type wx_object() :: any(). %% XXX: should be imported from wx + +-record(menu, {file :: wx_object(), + warnings :: wx_object(), + plt :: wx_object(), + options :: wx_object(), + help :: wx_object()}). + +-record(gui_state, {add :: wx_object(), + add_dir :: wx_object(), + add_rec :: wx_object(), + chosen_box :: wx_object(), + analysis_pid :: pid(), + del_file :: wx_object(), + doc_plt :: dialyzer_plt:plt(), + clear_chosen :: wx_object(), + clear_log :: wx_object(), + explain_warn :: wx_object(), + clear_warn :: wx_object(), + init_plt :: dialyzer_plt:plt(), + dir_entry :: wx_object(), + file_box :: wx_object(), + files_to_analyze :: ordset(string()), + gui :: wx_object(), + log :: wx_object(), + menu :: #menu{}, + mode :: wx_object(), + options :: #options{}, + run :: wx_object(), + stop :: wx_object(), + frame :: wx_object(), + warnings_box :: wx_object(), + explanation_box :: wx_object(), + wantedWarnings :: list(), + rawWarnings :: list(), + backend_pid :: pid(), + expl_pid :: pid()}). + +%%------------------------------------------------------------------------ + +-spec start(#options{}) -> ?RET_NOTHING_SUSPICIOUS. + +start(DialyzerOptions) -> + process_flag(trap_exit, true), + Wx = wx:new(), + State = wx:batch(fun() -> create_window(Wx, DialyzerOptions) end), + gui_loop(State). + +create_window(Wx, DialyzerOptions) -> + {ok, Host} = inet:gethostname(), + + %%---------- initializing frame --------- + Frame = wxFrame:new(Wx, -1, "Dialyzer " ++ ?VSN ++ " @ " ++ Host), + wxFrame:connect(Frame, close_window), + FileMenu = createFileMenu(), + WarningsMenu = createWarningsMenu(), + PltMenu = createPltMenu(), + OptionsMenu = createOptionsMenu(), + HelpMenu = createHelpMenu(), + + MenuBar = wxMenuBar:new(), + wxMenuBar:append(MenuBar, FileMenu, "File"), + wxMenuBar:append(MenuBar, WarningsMenu, "Warnings"), + wxMenuBar:append(MenuBar, PltMenu, "Plt"), + wxMenuBar:append(MenuBar, OptionsMenu, "Options"), + wxMenuBar:append(MenuBar, HelpMenu, "Help"), + wxFrame:setMenuBar(Frame, MenuBar), + ok = wxFrame:connect(Frame, command_menu_selected), + + %%----------- Set Labels ------------- + Lab1 = wxStaticText:new(Frame, ?LABEL1, "Directories or modules to analyze"), + OptionsLabel = wxStaticText:new(Frame, ?LABEL2, "Analysis Options"), + LogLabel = wxStaticText:new(Frame, ?LABEL3, "Log"), + FileLabel = wxStaticText:new(Frame, ?LABEL4, "File: "), + DirLabel = wxStaticText:new(Frame, ?LABEL5, "Dir: "), + WarningsLabel = wxStaticText:new(Frame, ?LABEL6, "Warnings"), + + %%---------- Set TextBoxes ----------- + ChosenBox = wxListBox:new(Frame, ?ChosenBox, + [{size, {250,200}}, + {style, ?wxLB_EXTENDED bor ?wxLB_HSCROLL + bor ?wxLB_NEEDED_SB}]), + LogBox = wxTextCtrl:new(Frame, ?LogBox, + [{size, {530,200}}, + {style, ?wxTE_MULTILINE + bor ?wxTE_READONLY bor ?wxHSCROLL}]), + DefaultPath = code:root_dir(), + + FilePicker = wxFilePickerCtrl:new(Frame, ?FilePicker, + [{path, DefaultPath}, + {message, "Choose File to Analyse"}, + {style,?wxFLP_FILE_MUST_EXIST bor ?wxFLP_USE_TEXTCTRL}]), + wxPickerBase:setTextCtrlProportion(FilePicker,3), + wxPickerBase:setPickerCtrlProportion(FilePicker,2), + DirPicker = wxDirPickerCtrl:new(Frame, ?DirPicker, + [{path, DefaultPath}, + {message, "Choose Directory to Analyze"}, + {style,?wxDIRP_DIR_MUST_EXIST bor ?wxDIRP_USE_TEXTCTRL}]), + WarningsBox = wxListBox:new(Frame, ?WarningsBox, + [{size, {700,200}}, + {style, ?wxLB_HSCROLL + bor ?wxLB_NEEDED_SB}]), + + %%--------- Set Buttons -------------- + DeleteButton = wxButton:new(Frame, ?Del_Button, [{label, "Delete"}]), + DeleteAllButton = wxButton:new(Frame, ?DelAll_Button, [{label, "Delete All"}]), + FileType = wxRadioBox:new(Frame, ?RADIOBOX, " File Type: " , {1,1}, {150,90}, + [["BeamFiles"],["SourceFiles"]]), + ClearLogButton = wxButton:new(Frame, ?ClearLog_Button, [{label, "Clear Log"}]), + AddButton = wxButton:new(Frame, ?Add_Button, [{label, "Add"}]), + AddDirButton = wxButton:new(Frame, ?AddDir_Button, [{label, "Add Dir"}]), + AddRecButton = wxButton:new(Frame, ?AddRec_Button, [{label, "Add Recursively"}]), + ExplainWarnButton = wxButton:new(Frame, ?ExplWarn_Button, [{label, "Explain Warning"}]), + ClearWarningsButton = wxButton:new(Frame, ?ClearWarn_Button, [{label, "Clear Warnings"}]), + RunButton = wxButton:new(Frame, ?Run_Button, [{label, "Run"}]), + StopButton = wxButton:new(Frame, ?Stop_Button, [{label, "Stop"}]), + wxWindow:disable(StopButton), + %%--------- Connect Buttons ----------- + wxButton:connect(DeleteButton, command_button_clicked), + wxButton:connect(DeleteAllButton, command_button_clicked), + wxButton:connect(ClearLogButton, command_button_clicked), + wxButton:connect(AddButton, command_button_clicked), + wxButton:connect(AddDirButton, command_button_clicked), + wxButton:connect(AddRecButton, command_button_clicked), + wxButton:connect(ExplainWarnButton, command_button_clicked), + wxButton:connect(ClearWarningsButton, command_button_clicked), + wxButton:connect(RunButton, command_button_clicked), + wxButton:connect(StopButton, command_button_clicked), + + %%------------Set Layout ------------ + All = wxBoxSizer:new(?wxVERTICAL), + Top = wxBoxSizer:new(?wxHORIZONTAL), + Left = wxBoxSizer:new(?wxVERTICAL), + Right = wxBoxSizer:new(?wxVERTICAL), + RightUp = wxBoxSizer:new(?wxHORIZONTAL), + + Opts = [{flag,?wxEXPAND bor ?wxALL}, {proportion,1}, {border, 1}], + Opts3 = [{flag,?wxEXPAND bor ?wxALL}, {proportion,3}, {border, 1}], + Center = [{flag, ?wxALIGN_CENTER_HORIZONTAL}], + + ChooseItem = wxBoxSizer:new(?wxVERTICAL), + FileTypeItem = wxBoxSizer:new(?wxVERTICAL), + LogItem = wxBoxSizer:new(?wxVERTICAL), + FileDirItem = wxBoxSizer:new(?wxVERTICAL), + FileItem = wxBoxSizer:new(?wxHORIZONTAL), + DirItem = wxBoxSizer:new(?wxHORIZONTAL), + AddDirButtons = wxBoxSizer:new(?wxHORIZONTAL), + WarningsItem = wxBoxSizer:new(?wxVERTICAL), + ChooseButtons = wxBoxSizer:new(?wxHORIZONTAL), + WarnButtons = wxBoxSizer:new(?wxHORIZONTAL), + RunButtons = wxBoxSizer:new(?wxHORIZONTAL), + Buttons = wxFlexGridSizer:new(3), + + wxSizer:add(ChooseButtons, DeleteButton, ?BorderOpt), + wxSizer:add(ChooseButtons, DeleteAllButton, ?BorderOpt), + wxSizer:add(ChooseItem, Lab1, Center), + wxSizer:add(ChooseItem, ChosenBox, Opts), + wxSizer:add(ChooseItem, ChooseButtons, ?BorderOpt), + wxSizer:add(FileTypeItem, OptionsLabel), + wxSizer:add(FileTypeItem, FileType, [{border, 5}, {flag, ?wxALL}]), + wxSizer:add(LogItem, LogLabel, Center), + wxSizer:add(LogItem, LogBox, Opts3), + wxSizer:add(LogItem, ClearLogButton, ?BorderOpt), + wxSizer:add(FileItem, FileLabel), + wxSizer:add(FileItem, FilePicker), + wxSizer:add(DirItem, DirLabel), + wxSizer:add(DirItem, DirPicker), + wxSizer:add(AddDirButtons, AddDirButton, ?BorderOpt), + wxSizer:add(AddDirButtons, AddRecButton, ?BorderOpt), + wxSizer:add(FileDirItem, FileItem), + wxSizer:add(FileDirItem, AddButton, ?BorderOpt), + wxSizer:add(FileDirItem, DirItem, ?BorderOpt), + wxSizer:add(FileDirItem, AddDirButtons, ?BorderOpt), + wxSizer:add(WarnButtons, ExplainWarnButton, ?BorderOpt), + wxSizer:add(WarnButtons, ClearWarningsButton, ?BorderOpt), + wxSizer:add(RunButtons, RunButton, ?BorderOpt), + wxSizer:add(RunButtons, StopButton, ?BorderOpt), + wxSizer:add(Buttons, WarnButtons), + wxSizer:add(Buttons, wxStaticText:new(Frame, ?LABEL7, ""), [{flag, ?wxEXPAND}]), + wxSizer:add(Buttons, RunButtons), + wxFlexGridSizer:addGrowableCol(Buttons, 1), + wxSizer:add(WarningsItem, WarningsLabel, Center), + wxSizer:add(WarningsItem, WarningsBox, Opts3), + wxSizer:add(WarningsItem, Buttons, [{flag, ?wxEXPAND bor ?wxALL},?Border]), + + wxSizer:add(Left, ChooseItem, Opts), + wxSizer:add(Left, FileDirItem, [{proportion, 1}, {border, 60}, {flag, ?wxTOP}]), + wxSizer:add(RightUp, FileTypeItem, ?BorderOpt), + wxSizer:add(RightUp, LogItem, Opts3), + wxSizer:add(Right, RightUp, Opts3), + wxSizer:add(Right, WarningsItem, Opts3), + wxSizer:add(Top, Left, Opts), + wxSizer:add(Top, Right, Opts3), + + wxSizer:add(All, Top, Opts), + wxWindow:setSizer(Frame, All), + wxWindow:setSizeHints(Frame, {1150,600}), + wxWindow:show(Frame), + + Warnings = [{?WARN_RETURN_NO_RETURN, ?menuID_WARN_NO_RETURN_FUN}, + {?WARN_RETURN_ONLY_EXIT, ?menuID_WARN_ERROR_HANDLING_FUN}, + {?WARN_NOT_CALLED, ?menuID_WARN_UNUSED_FUN}, + {?WARN_NON_PROPER_LIST, ?menuID_WARN_LIST_CONSTR}, + {?WARN_FUN_APP, ?menuID_WARN_BAD_FUN}, + {?WARN_MATCHING, ?menuID_WARN_MATCH_FAILURES}, + {?WARN_OPAQUE, ?menuID_WARN_OPAQUE}, + {?WARN_FAILING_CALL, ?menuID_WARN_FAIL_FUN_CALLS}, + {?WARN_CALLGRAPH, ?menuID_WARN_UNEXPORTED_FUN}, + {?WARN_RACE_CONDITION, ?menuID_WARN_RACE_CONDITIONS}, + %% For contracts. + {?WARN_CONTRACT_TYPES,?menuID_WARN_WRONG_CONTRACTS}, + {?WARN_CONTRACT_SYNTAX, ?menuID_WARN_CONTRACT_SYNTAX} + ], + Menu = #menu{file = FileMenu, + warnings = WarningsMenu, + plt = PltMenu, + options =OptionsMenu, + help = HelpMenu}, + + InitPlt = try dialyzer_plt:from_file(DialyzerOptions#options.init_plt) + catch throw:{dialyzer_error, _} -> dialyzer_plt:new() + end, + + #gui_state{add = AddButton, + add_dir = AddDirButton, + add_rec = AddRecButton, + chosen_box = ChosenBox, + clear_chosen = DeleteAllButton, + clear_log = ClearLogButton, + explain_warn = ExplainWarnButton, + clear_warn = ClearWarningsButton, + del_file = DeleteButton, + doc_plt = dialyzer_plt:new(), + dir_entry = DirPicker, + file_box = FilePicker, + files_to_analyze = ordsets:new(), + gui = Wx, + init_plt = InitPlt, + log = LogBox, + menu = Menu, + mode = FileType, + options = DialyzerOptions, + run = RunButton, + stop = StopButton, + frame = Frame, + warnings_box = WarningsBox, + wantedWarnings = Warnings, + rawWarnings = []}. + +createFileMenu() -> + FileMenu = wxMenu:new(), + wxMenu:append(FileMenu, wxMenuItem:new([{id, ?menuID_FILE_SAVE_WARNINGS}, + {text, "Save &Warnings"}])), + wxMenu:append(FileMenu, wxMenuItem:new([{id, ?menuID_FILE_SAVE_LOG}, + {text, "Save &Log"}])), + wxMenu:append(FileMenu, wxMenuItem:new([{id, ?menuID_FILE_QUIT}, + {text, "E&xit\tAlt-X"}])), + FileMenu. + +createWarningsMenu() -> + WarningsMenu = wxMenu:new(), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_MATCH_FAILURES, + "Match failures"), + wxMenu:check(WarningsMenu, ?menuID_WARN_MATCH_FAILURES, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_FAIL_FUN_CALLS, + "Failing function calls"), + wxMenu:check(WarningsMenu, ?menuID_WARN_FAIL_FUN_CALLS, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_BAD_FUN, + "Bad fun applications"), + wxMenu:check(WarningsMenu, ?menuID_WARN_BAD_FUN, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_OPAQUE, + "Opaqueness violations"), + wxMenu:check(WarningsMenu, ?menuID_WARN_OPAQUE, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_LIST_CONSTR, + "Improper list constructions"), + wxMenu:check(WarningsMenu, ?menuID_WARN_LIST_CONSTR, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_UNUSED_FUN, + "Unused functions"), + wxMenu:check(WarningsMenu, ?menuID_WARN_UNUSED_FUN, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_ERROR_HANDLING_FUN, + "Error handling functions"), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_NO_RETURN_FUN, + "Functions of no return"), + wxMenu:check(WarningsMenu, ?menuID_WARN_NO_RETURN_FUN, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_UNEXPORTED_FUN, + "Call to unexported function"), + wxMenu:check(WarningsMenu, ?menuID_WARN_UNEXPORTED_FUN, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_RACE_CONDITIONS, + "Possible race conditions"), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_WRONG_CONTRACTS, + "Wrong contracts"), + wxMenu:check(WarningsMenu, ?menuID_WARN_WRONG_CONTRACTS, true), + wxMenu:appendCheckItem(WarningsMenu, + ?menuID_WARN_CONTRACT_SYNTAX, + "Wrong contract syntax"), + wxMenu:check(WarningsMenu, ?menuID_WARN_CONTRACT_SYNTAX, true), + WarningsMenu. + +createPltMenu() -> + PltMenu = wxMenu:new(), + wxMenu:appendCheckItem(PltMenu, + ?menuID_PLT_INIT_EMPTY, + "Init with empty PLT"), + wxMenu:append(PltMenu, wxMenuItem:new([{id, ?menuID_PLT_SHOW_CONTENTS}, + {text, "Show contents"}])), + wxMenu:append(PltMenu, wxMenuItem:new([{id, ?menuID_PLT_SEARCH_CONTENTS}, + {text, "Search contents"}])), + PltMenu. + +createOptionsMenu() -> + OptsMenu = wxMenu:new(), + wxMenu:append(OptsMenu, wxMenuItem:new([{id, ?menuID_OPTIONS_MACRO}, + {text, "Manage Macro Definitions"}])), + wxMenu:append(OptsMenu, wxMenuItem:new([{id, ?menuID_OPTIONS_INCLUDE_DIR}, + {text, "Manage Include Directories"}])), + OptsMenu. + +createHelpMenu() -> + HelpMenu = wxMenu:new(), + wxMenu:append(HelpMenu, wxMenuItem:new([{id, ?menuID_HELP_MANUAL}, + {text, "Manual"}])), + wxMenu:append(HelpMenu, wxMenuItem:new([{id, ?menuID_HELP_WARNING_OPTIONS}, + {text, "Warning Options"}])), + wxMenu:append(HelpMenu, wxMenuItem:new([{id, ?menuID_HELP_ABOUT}, + {text, "About"}])), + HelpMenu. + +%% ---------------------------------------------------------------- +%% +%% Main GUI Loop +%% + +-spec gui_loop(#gui_state{}) -> ?RET_NOTHING_SUSPICIOUS. + +gui_loop(#gui_state{backend_pid = BackendPid, doc_plt = DocPlt, + log = Log, frame = Frame, + warnings_box = WarningsBox} = State) -> + receive + #wx{event = #wxClose{}} -> + io:format("~p Closing window ~n", [self()]), + ok = wxFrame:setStatusText(Frame, "Closing...",[]), + wxWindow:destroy(Frame), + ?RET_NOTHING_SUSPICIOUS; + %% ----- Menu ----- + #wx{id = ?menuID_FILE_SAVE_LOG, obj = Frame, + event = #wxCommand{type = command_menu_selected}} -> + save_file(State, log), + gui_loop(State); + #wx{id=?menuID_FILE_SAVE_WARNINGS, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + save_file(State, warnings), + gui_loop(State); + #wx{id=?menuID_FILE_QUIT, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + case maybe_quit(State) of + true -> ?RET_NOTHING_SUSPICIOUS; + false -> gui_loop(State) + end; + #wx{id=?menuID_PLT_SHOW_CONTENTS, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + show_doc_plt(State), + gui_loop(State); + #wx{id=?menuID_PLT_SEARCH_CONTENTS, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + case dialyzer_plt:get_specs(DocPlt) of + "" -> error_sms(State, "No analysis has been made yet!\n"); + _ -> search_doc_plt(State) + end, + gui_loop(State); + #wx{id=?menuID_OPTIONS_INCLUDE_DIR, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + NewOptions = include_dialog(State), + NewState = State#gui_state{options = NewOptions}, + gui_loop(NewState); + #wx{id=?menuID_OPTIONS_MACRO, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + NewOptions = macro_dialog(State), + NewState = State#gui_state{options = NewOptions}, + gui_loop(NewState); + #wx{id=?menuID_HELP_MANUAL, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + handle_help(State, "Dialyzer Manual", "manual.txt"), + gui_loop(State); + #wx{id=?menuID_HELP_WARNING_OPTIONS, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + handle_help(State, "Dialyzer Warnings", "warnings.txt"), + gui_loop(State); + #wx{id=?menuID_HELP_ABOUT, obj=Frame, + event=#wxCommand{type=command_menu_selected}} -> + Message = " This is DIALYZER version " ++ ?VSN ++ " \n"++ + "DIALYZER is a DIscrepany AnaLYZer for ERlang programs.\n\n"++ + " Copyright (C) Tobias Lindahl <[email protected]>\n"++ + " Kostis Sagonas <[email protected]>\n\n", + output_sms(State, "About Dialyzer", Message, info), + gui_loop(State); + %% ------ Buttons --------- + #wx{id=?Add_Button, + event=#wxCommand{type=command_button_clicked}} -> + State1 = handle_add_files(State), + gui_loop(State1); + #wx{id=?AddDir_Button, + event=#wxCommand{type=command_button_clicked}} -> + State1 = handle_add_dir(State), + gui_loop(State1); + #wx{id=?AddRec_Button, + event=#wxCommand{type=command_button_clicked}} -> + State1 = handle_add_rec(State), + gui_loop(State1); + #wx{id=?Del_Button, + event=#wxCommand{type=command_button_clicked}} -> + State1 = handle_file_delete(State), + gui_loop(State1); + #wx{id=?DelAll_Button, + event=#wxCommand{type=command_button_clicked}} -> + State1 = handle_file_delete_all(State), + gui_loop(State1); + #wx{id=?ClearLog_Button, + event=#wxCommand{type=command_button_clicked}} -> + wxTextCtrl:clear(State#gui_state.log), + gui_loop(State); + #wx{id=?ExplWarn_Button, + event=#wxCommand{type=command_button_clicked}} -> + handle_explanation(State), + gui_loop(State); + #wx{id=?ClearWarn_Button, + event=#wxCommand{type=command_button_clicked}} -> + wxListBox:clear(WarningsBox), + NewState = State#gui_state{rawWarnings = []}, + gui_loop(NewState); + #wx{id=?Run_Button, + event=#wxCommand{type=command_button_clicked}} -> + NewState = start_analysis(State), + gui_loop(NewState); + #wx{id=?Stop_Button, + event=#wxCommand{type=command_button_clicked}} -> + BackendPid ! {self(), stop}, + config_gui_stop(State), + update_editor(Log, "\n***** Analysis stopped ****\n"), + gui_loop(State); + %% ----- Analysis ----- + {BackendPid, ext_calls, ExtCalls} -> + Msg = io_lib:format("The following functions are called " + "but type information about them is not available.\n" + "The analysis might get more precise by including " + "the modules containing these functions:\n\n\t~p\n", + [ExtCalls]), + free_editor(State,"Analysis Done", Msg), + gui_loop(State); + {BackendPid, log, LogMsg} -> + update_editor(Log, LogMsg), + gui_loop(State); + {BackendPid, warnings, Warns} -> + SortedWarns = lists:keysort(2, Warns), %% Sort on file/line + NewState = add_warnings(State, SortedWarns), + gui_loop(NewState); + {BackendPid, cserver, CServer, Plt} -> + Self = self(), + Fun = + fun() -> + dialyzer_explanation:expl_loop(Self, CServer, Plt) + end, + ExplanationPid = spawn_link(Fun), + gui_loop(State#gui_state{expl_pid = ExplanationPid}); + {BackendPid, done, _NewPlt, NewDocPlt} -> + message(State, "Analysis done"), + config_gui_stop(State), + gui_loop(State#gui_state{doc_plt = NewDocPlt}); + {'EXIT', BackendPid, {error, Reason}} -> + free_editor(State, ?DIALYZER_ERROR_TITLE, Reason), + config_gui_stop(State), + gui_loop(State); + {'EXIT', BackendPid, Reason} when Reason =/= 'normal' -> + free_editor(State, ?DIALYZER_ERROR_TITLE, io_lib:format("~p", [Reason])), + config_gui_stop(State), + gui_loop(State) + end. + +maybe_quit(#gui_state{frame = Frame} = State) -> + case dialog(State, "Do you really want to quit?", ?DIALYZER_MESSAGE_TITLE) of + true -> + wxWindow:destroy(Frame), + true; + false -> + false + end. + +%% ------------ Yes/No Question ------------ +dialog(#gui_state{frame = Frame}, Message, Title) -> + MessageWin = wxMessageDialog:new(Frame,Message,[{caption, Title},{style, ?wxYES_NO bor ?wxICON_QUESTION bor ?wxNO_DEFAULT}]), + case wxDialog:showModal(MessageWin) of + ?wxID_YES -> + true; + ?wxID_NO -> + false; + ?wxID_CANCEL -> + false + end. + +search_doc_plt(#gui_state{gui = Wx} = State) -> + Dialog = wxFrame:new(Wx, ?SearchPltDialog, "Search the PLT",[{size,{400,100}},{style, ?wxSTAY_ON_TOP}]), + Size = {size,{120,30}}, + ModLabel = wxStaticText:new(Dialog, ?ModLabel, "Module"), + ModText = wxTextCtrl:new(Dialog, ?ModText,[Size]), + FunLabel = wxStaticText:new(Dialog, ?FunLabel, "Function"), + FunText = wxTextCtrl:new(Dialog, ?FunText,[Size]), + ArLabel = wxStaticText:new(Dialog, ?ArLabel, "Arity"), + ArText = wxTextCtrl:new(Dialog, ?ArText,[Size]), + SearchButton = wxButton:new(Dialog, ?SearchButton, [{label, "Search"}]), + wxButton:connect(SearchButton, command_button_clicked), + Cancel = wxButton:new(Dialog, ?Search_Cancel, [{label, "Cancel"}]), + wxButton:connect(Cancel, command_button_clicked), + + Layout = wxBoxSizer:new(?wxVERTICAL), + Top = wxBoxSizer:new(?wxHORIZONTAL), + ModLayout = wxBoxSizer:new(?wxVERTICAL), + FunLayout = wxBoxSizer:new(?wxVERTICAL), + ArLayout = wxBoxSizer:new(?wxVERTICAL), + Buttons = wxBoxSizer:new(?wxHORIZONTAL), + + wxSizer:add(ModLayout, ModLabel, ?BorderOpt), + wxSizer:add(ModLayout,ModText, ?BorderOpt), + wxSizer:add(FunLayout, FunLabel, ?BorderOpt), + wxSizer:add(FunLayout,FunText, ?BorderOpt), + wxSizer:add(ArLayout, ArLabel, ?BorderOpt), + wxSizer:add(ArLayout,ArText, ?BorderOpt), + wxSizer:add(Buttons, SearchButton, ?BorderOpt), + wxSizer:add(Buttons,Cancel, ?BorderOpt), + + wxSizer:add(Top, ModLayout), + wxSizer:add(Top, FunLayout), + wxSizer:add(Top, ArLayout), + wxSizer:add(Layout, Top,[{flag, ?wxALIGN_CENTER}]), + wxSizer:add(Layout, Buttons,[{flag, ?wxALIGN_CENTER bor ?wxBOTTOM}]), + wxFrame:connect(Dialog, close_window), + wxWindow:setSizer(Dialog, Layout), + wxFrame:show(Dialog), + search_plt_loop(State, Dialog, ModText, FunText, ArText, SearchButton, Cancel). + +search_plt_loop(State= #gui_state{doc_plt = DocPlt, frame = Frame}, Win, ModText, FunText, ArText, Search, Cancel) -> + receive + #wx{id = ?Search_Cancel, + event = #wxCommand{type = command_button_clicked}} -> + wxWindow:destroy(Win); + #wx{id = ?SearchPltDialog, event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win); + #wx{event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win), + wxWindow:destroy(Frame); + #wx{id = ?SearchButton, + event = #wxCommand{type = command_button_clicked}} -> + M = format_search(wxTextCtrl:getValue(ModText)), + F = format_search(wxTextCtrl:getValue(FunText)), + A = format_search(wxTextCtrl:getValue(ArText)), + + if + (M == '_') or (F == '_') or (A == '_') -> + error_sms(State, "Please give:\n Module (atom)\n Function (atom)\n Arity (integer)\n"), + search_plt_loop(State, Win, ModText, FunText, ArText, Search, Cancel); + true -> + case dialyzer_plt:get_specs(DocPlt, M, F, A) of + none -> + error_sms(State, "No such function"), + search_plt_loop(State, Win, ModText, FunText, ArText, Search, Cancel); + NonEmptyString -> + wxWindow:destroy(Win), + free_editor(State, "Content of PLT", NonEmptyString) + end + end + end. + +format_search([]) -> + '_'; +format_search(String) -> + try list_to_integer(String) + catch error:_ -> list_to_atom(String) + end. + +show_doc_plt(#gui_state{doc_plt = DocPLT} = State) -> + case dialyzer_plt:get_specs(DocPLT) of + "" -> error_sms(State, "No analysis has been made yet!\n"); + NonEmptyString -> free_editor(State, "Content of PLT", NonEmptyString) + end. + +message(State, Message) -> + output_sms(State, ?DIALYZER_MESSAGE_TITLE, Message, info). + +error_sms(State, Message) -> + output_sms(State, ?DIALYZER_ERROR_TITLE, Message, error). + +output_sms(#gui_state{frame = Frame}, Title, Message, Type) -> + case Type of + error -> + MessageWin = wxMessageDialog:new(Frame,Message,[{caption, Title},{style, ?wxOK bor ?wxICON_ERROR}]); + info -> + MessageWin = wxMessageDialog:new(Frame,Message,[{caption, Title},{style, ?wxOK bor ?wxICON_INFORMATION}]) + end, + wxWindow:setSizeHints(MessageWin, {350,100}), + wxDialog:showModal(MessageWin). + +free_editor(#gui_state{gui = Wx, frame = Frame}, Title, Contents0) -> + Contents = lists:flatten(Contents0), + Tokens = string:tokens(Contents, "\n"), + NofLines = length(Tokens), + LongestLine = lists:max([length(X) || X <- Tokens]), + Height0 = NofLines * 25 + 80, + Height = if Height0 > 500 -> 500; true -> Height0 end, + Width0 = LongestLine * 7 + 60, + Width = if Width0 > 800 -> 800; true -> Width0 end, + Size = {size,{Width, Height}}, + Win = wxFrame:new(Wx, ?Message, Title, [{size,{Width+4, Height+50}}]), + + Editor = wxTextCtrl:new(Win, ?Message_Info, + [Size, + {style, ?wxTE_MULTILINE + bor ?wxTE_READONLY bor ?wxVSCROLL bor ?wxEXPAND}]), + wxTextCtrl:appendText(Editor, Contents), + wxFrame:connect(Win, close_window), + Ok = wxButton:new(Win, ?Message_Ok, [{label, "OK"}]), + wxButton:connect(Ok, command_button_clicked), + Layout = wxBoxSizer:new(?wxVERTICAL), + + wxSizer:add(Layout, Editor, ?BorderOpt), + wxSizer:add(Layout, Ok, [{flag, ?wxALIGN_CENTER bor ?wxBOTTOM bor ?wxALL}, ?Border]), + wxWindow:setSizer(Win, Layout), + wxWindow:show(Win), + show_info_loop(Frame, Win). + +show_info_loop(Frame, Win) -> + receive + #wx{id = ?Message_Ok, event = #wxCommand{type = command_button_clicked}} -> + wxWindow:destroy(Win); + #wx{id = ?Message, event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win); + #wx{event = #wxClose{type = close_window}} -> + wxWindow:destroy(Frame) + end. + +handle_add_files(#gui_state{chosen_box = ChosenBox, file_box = FileBox, + files_to_analyze = FileList, + mode = Mode} = State) -> + case wxFilePickerCtrl:getPath(FileBox) of + "" -> + State; + File -> + NewFile = ordsets:new(), + NewFile1 = ordsets:add_element(File,NewFile), + Ext = + case wxRadioBox:getSelection(Mode) of + 0 -> ".beam"; + 1-> ".erl" + end, + State#gui_state{files_to_analyze = add_files(filter_mods(NewFile1, Ext), FileList, ChosenBox, Ext)} + end. + +handle_add_dir(#gui_state{chosen_box = ChosenBox, dir_entry = DirBox, + files_to_analyze = FileList, + mode = Mode} = State) -> + case wxDirPickerCtrl:getPath(DirBox) of + "" -> + State; + Dir -> + NewDir = ordsets:new(), + NewDir1 = ordsets:add_element(Dir,NewDir), + Ext = case wxRadioBox:getSelection(Mode) of + 0 -> ".beam"; + 1-> ".erl" + end, + State#gui_state{files_to_analyze = add_files(filter_mods(NewDir1,Ext), FileList, ChosenBox, Ext)} + end. + +handle_add_rec(#gui_state{chosen_box = ChosenBox, dir_entry = DirBox, files_to_analyze = FileList, + mode = Mode} = State) -> + case wxDirPickerCtrl:getPath(DirBox) of + "" -> + State; + Dir -> + NewDir = ordsets:new(), + NewDir1 = ordsets:add_element(Dir,NewDir), + TargetDirs = ordsets:union(NewDir1, all_subdirs(NewDir1)), + case wxRadioBox:getSelection(Mode) of + 0 -> Ext = ".beam"; + 1-> Ext = ".erl" + end, + State#gui_state{files_to_analyze = add_files(filter_mods(TargetDirs,Ext), FileList, ChosenBox, Ext)} + end. + +handle_file_delete(#gui_state{chosen_box = ChosenBox, + files_to_analyze = FileList} = State) -> + {_, List} = wxListBox:getSelections(ChosenBox), + Set = ordsets:from_list([wxControlWithItems:getString(ChosenBox, X) || X <- List]), + FileList1 = ordsets:subtract(FileList,Set), + lists:foreach(fun (X) -> wxListBox:delete(ChosenBox, X) end, List), + State#gui_state{files_to_analyze = FileList1}. + +handle_file_delete_all(#gui_state{chosen_box = ChosenBox} = State) -> + wxListBox:clear(ChosenBox), + State#gui_state{files_to_analyze = ordsets:new()}. + +add_files(File, FileList, ChosenBox, Ext) -> + Set = filter_mods(FileList, Ext), + Files = ordsets:union(File, Set), + Files1 = ordsets:to_list(Files), + wxListBox:set(ChosenBox, Files1), + Files. + +filter_mods(Mods, Extension) -> + Fun = fun(X) -> + filename:extension(X) =:= Extension + orelse + (filelib:is_dir(X) andalso + contains_files(X, Extension)) + end, + ordsets:filter(Fun, Mods). + +contains_files(Dir, Extension) -> + {ok, Files} = file:list_dir(Dir), + lists:any(fun(X) -> filename:extension(X) =:= Extension end, Files). + +all_subdirs(Dirs) -> + all_subdirs(Dirs, []). + +all_subdirs([Dir|T], Acc) -> + {ok, Files} = file:list_dir(Dir), + SubDirs = lists:zf(fun(F) -> + SubDir = filename:join(Dir, F), + case filelib:is_dir(SubDir) of + true -> {true, SubDir}; + false -> false + end + end, Files), + NewAcc = ordsets:union(ordsets:from_list(SubDirs), Acc), + all_subdirs(T ++ SubDirs, NewAcc); +all_subdirs([], Acc) -> + Acc. + +start_analysis(State) -> + Analysis = build_analysis_record(State), + case get_anal_files(State, Analysis#analysis.start_from) of + error -> + Msg = "You must choose one or more files or dirs\n" + "before starting the analysis!", + error_sms(State, Msg), + config_gui_stop(State), + State; + {ok, Files} -> + Msg = "\n========== Starting Analysis ==========\n\n", + update_editor(State#gui_state.log, Msg), + NewAnalysis = Analysis#analysis{files = Files}, + run_analysis(State, NewAnalysis) + end. + +build_analysis_record(#gui_state{mode = Mode, menu = Menu, options = Options, + init_plt = InitPlt0}) -> + StartFrom = + case wxRadioBox:getSelection(Mode) of + 0 -> byte_code; + 1 -> src_code + end, + InitPlt = + case wxMenu:isChecked(Menu#menu.plt,?menuID_PLT_INIT_EMPTY) of + true -> dialyzer_plt:new(); + false -> InitPlt0 + end, + #analysis{defines = Options#options.defines, + include_dirs = Options#options.include_dirs, + plt = InitPlt, + start_from = StartFrom}. + +get_anal_files(#gui_state{files_to_analyze = Files}, StartFrom) -> + FilteredMods = + case StartFrom of + src_code -> filter_mods(Files, ".erl"); + byte_code -> filter_mods(Files, ".beam") + end, + FilteredDirs = [X || X <- Files, filelib:is_dir(X)], + case ordsets:union(FilteredMods, FilteredDirs) of + [] -> error; + Set -> {ok, Set} + end. + +run_analysis(State, Analysis) -> + config_gui_start(State), + Self = self(), + NewAnalysis = Analysis#analysis{doc_plt = dialyzer_plt:new()}, + LegalWarnings = find_legal_warnings(State), + Fun = + fun() -> + dialyzer_analysis_callgraph:start(Self, LegalWarnings, NewAnalysis) + end, + BackendPid = spawn_link(Fun), + State#gui_state{backend_pid = BackendPid}. + +find_legal_warnings(#gui_state{menu = #menu{warnings = MenuWarnings}, + wantedWarnings = Warnings }) -> + ordsets:from_list([Tag || {Tag, MenuItem} <- Warnings, + wxMenu:isChecked(MenuWarnings, MenuItem)]). + +update_editor(Editor, Msg) -> + wxTextCtrl:appendText(Editor,Msg). + +config_gui_stop(State) -> + wxWindow:disable(State#gui_state.stop), + wxWindow:enable(State#gui_state.run), + wxWindow:enable(State#gui_state.del_file), + wxWindow:enable(State#gui_state.clear_chosen), + wxWindow:enable(State#gui_state.add), + wxWindow:enable(State#gui_state.add_dir), + wxWindow:enable(State#gui_state.add_rec), + wxWindow:enable(State#gui_state.clear_warn), + wxWindow:enable(State#gui_state.clear_log), + Menu = State#gui_state.menu, + wxMenu:enable(Menu#menu.file,?menuID_FILE_SAVE_WARNINGS,true), + wxMenu:enable(Menu#menu.file,?menuID_FILE_SAVE_LOG,true), + wxMenu:enable(Menu#menu.options,?menuID_OPTIONS_MACRO,true), + wxMenu:enable(Menu#menu.options,?menuID_OPTIONS_INCLUDE_DIR,true), + wxMenu:enable(Menu#menu.plt,?menuID_PLT_INIT_EMPTY,true), + wxMenu:enable(Menu#menu.plt,?menuID_PLT_SHOW_CONTENTS,true), + wxMenu:enable(Menu#menu.plt,?menuID_PLT_SEARCH_CONTENTS,true), + wxRadioBox:enable(State#gui_state.mode). + +config_gui_start(State) -> + wxWindow:enable(State#gui_state.stop), + wxWindow:disable(State#gui_state.run), + wxWindow:disable(State#gui_state.del_file), + wxWindow:disable(State#gui_state.clear_chosen), + wxWindow:disable(State#gui_state.add), + wxWindow:disable(State#gui_state.add_dir), + wxWindow:disable(State#gui_state.add_rec), + wxWindow:disable(State#gui_state.clear_warn), + wxWindow:disable(State#gui_state.clear_log), + Menu = State#gui_state.menu, + wxMenu:enable(Menu#menu.file,?menuID_FILE_SAVE_WARNINGS, false), + wxMenu:enable(Menu#menu.file,?menuID_FILE_SAVE_LOG, false), + wxMenu:enable(Menu#menu.options,?menuID_OPTIONS_MACRO, false), + wxMenu:enable(Menu#menu.options,?menuID_OPTIONS_INCLUDE_DIR, false), + wxMenu:enable(Menu#menu.plt,?menuID_PLT_INIT_EMPTY, false), + wxMenu:enable(Menu#menu.plt,?menuID_PLT_SHOW_CONTENTS, false), + wxMenu:enable(Menu#menu.plt,?menuID_PLT_SEARCH_CONTENTS, false), + wxRadioBox:disable(State#gui_state.mode). + +save_file(#gui_state{frame = Frame, warnings_box = WBox, log = Log} = State, Type) -> + case Type of + warnings -> + Message = "Save Warnings", + Box = WBox; + log -> Message = "Save Log", + Box = Log + end, + case wxTextCtrl:getValue(Box) of + "" -> error_sms(State,"There is nothing to save...\n"); + _ -> + DefaultPath = code:root_dir(), + FileDialog = wxFileDialog:new(Frame, + [{defaultDir, DefaultPath}, + {message, Message}, + {style,?wxFD_SAVE bor ?wxFD_OVERWRITE_PROMPT}]), + case wxFileDialog:showModal(FileDialog) of + ?wxID_OK -> Path = wxFileDialog:getPath(FileDialog), + case wxTextCtrl:saveFile(Box,[{file,Path}]) of + true -> ok; + false -> error_sms(State,"Could not write to file:\n" ++ Path) + end; + ?wxID_CANCEL -> wxWindow:destroy(FileDialog); + _ -> error_sms(State,"Could not write to file:\n") + end + end. + +include_dialog(#gui_state{gui = Wx, frame = Frame, options = Options}) -> + Size = {size,{300,480}}, + Dialog = wxFrame:new(Wx, ?IncludeDir, "Include Directories",[Size]), + DirLabel = wxStaticText:new(Dialog, ?InclLabel, "Directory: "), + DefaultPath = code:root_dir(), + DirPicker = wxDirPickerCtrl:new(Dialog, ?InclPicker, + [{path, DefaultPath}, + {message, "Choose Directory to Include"}, + {style,?wxDIRP_DIR_MUST_EXIST bor ?wxDIRP_USE_TEXTCTRL}]), + Box = wxListBox:new(Dialog, ?InclBox, + [{size, {200,300}}, + {style, ?wxLB_EXTENDED bor ?wxLB_HSCROLL + bor ?wxLB_NEEDED_SB}]), + AddButton = wxButton:new(Dialog, ?InclAdd, [{label, "Add"}]), + DeleteButton = wxButton:new(Dialog, ?InclDel, [{label, "Delete"}]), + DeleteAllButton = wxButton:new(Dialog, ?InclDelAll, [{label, "Delete All"}]), + Ok = wxButton:new(Dialog, ?InclOk, [{label, "OK"}]), + Cancel = wxButton:new(Dialog, ?InclCancel, [{label, "Cancel"}]), + wxButton:connect(AddButton, command_button_clicked), + wxButton:connect(DeleteButton, command_button_clicked), + wxButton:connect(DeleteAllButton, command_button_clicked), + wxButton:connect(Ok, command_button_clicked), + wxButton:connect(Cancel, command_button_clicked), + Dirs = [io_lib:format("~s", [X]) + || X <- Options#options.include_dirs], + wxListBox:set(Box, Dirs), + Layout = wxBoxSizer:new(?wxVERTICAL), + Buttons = wxBoxSizer:new(?wxHORIZONTAL), + Buttons1 = wxBoxSizer:new(?wxHORIZONTAL), + + wxSizer:add(Layout, DirLabel, [{flag, ?wxALIGN_CENTER_HORIZONTAL}]), + wxSizer:add(Layout, DirPicker, [{flag, ?wxALIGN_CENTER_HORIZONTAL}]), + wxSizer:add(Layout,AddButton, [{flag, ?wxALIGN_CENTER_HORIZONTAL bor ?wxALL}, ?Border]), + wxSizer:add(Layout,Box, [{flag, ?wxALIGN_CENTER_HORIZONTAL bor ?wxALL}, ?Border]), + wxSizer:add(Buttons, DeleteButton, ?BorderOpt), + wxSizer:add(Buttons, DeleteAllButton, ?BorderOpt), + wxSizer:add(Layout,Buttons, [{flag, ?wxALIGN_CENTER_HORIZONTAL}]), + wxSizer:add(Buttons1, Ok, ?BorderOpt), + wxSizer:add(Buttons1,Cancel, ?BorderOpt), + wxSizer:add(Layout,Buttons1,[{flag, ?wxALIGN_RIGHT bor ?wxBOTTOM}]), + + wxFrame:connect(Dialog, close_window), + wxWindow:setSizer(Dialog, Layout), + wxFrame:show(Dialog), + include_loop(Options, Dialog, Box, DirPicker, Frame). + +include_loop(Options, Win, Box, DirPicker, Frame) -> + receive + #wx{id = ?InclCancel, + event = #wxCommand{type = command_button_clicked}} -> + wxWindow:destroy(Win), + Options; + #wx{id = ?IncludeDir, event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win), + Options; + #wx{event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win), + wxWindow:destroy(Frame); + #wx{id = ?InclOk, + event = #wxCommand{type = command_button_clicked}} -> + wxWindow:destroy(Win), + Options; + #wx{id = ?InclAdd, + event = #wxCommand{type = command_button_clicked}} -> + Dirs = Options#options.include_dirs, + NewDirs = + case wxDirPickerCtrl:getPath(DirPicker) of + "" -> Dirs; + Add -> [Add|Dirs] + end, + NewOptions = Options#options{include_dirs = NewDirs}, + wxListBox:set(Box, NewDirs), + include_loop(NewOptions, Win, Box, DirPicker, Frame); + #wx{id = ?InclDel, + event = #wxCommand{type = command_button_clicked}} -> + NewOptions = + case wxListBox:getSelections(Box) of + {0,_} -> Options; + {_,List} -> + DelList = [wxControlWithItems:getString(Box,X) || X <- List], + NewDirs = Options#options.include_dirs -- DelList, + lists:foreach(fun (X) -> wxListBox:delete(Box, X) end, List), + Options#options{include_dirs = NewDirs} + end, + include_loop(NewOptions, Win, Box, DirPicker, Frame); + #wx{id = ?InclDelAll, + event = #wxCommand{type = command_button_clicked}} -> + wxListBox:clear(Box), + NewOptions = Options#options{include_dirs = []}, + include_loop(NewOptions, Win, Box, DirPicker, Frame) + end. + +macro_dialog(#gui_state{gui = Wx, frame = Frame, options = Options}) -> + Size = {size,{300,480}}, + Size1 = {size,{120,30}}, + Dialog = wxFrame:new(Wx, ?MacroDir, "Macro Definitions",[Size]), + MacroLabel = wxStaticText:new(Dialog, ?MacroLabel, "Macro"), + TermLabel = wxStaticText:new(Dialog, ?TermLabel, "Term"), + MacroText = wxTextCtrl:new(Dialog, ?MacroText, [Size1]), + TermText = wxTextCtrl:new(Dialog, ?TermText, [Size1]), + Box = wxListBox:new(Dialog, ?MacroBox, + [{size, {250,300}}, + {style, ?wxLB_EXTENDED bor ?wxLB_HSCROLL + bor ?wxLB_NEEDED_SB}]), + + AddButton = wxButton:new(Dialog, ?MacroAdd, [{label, "Add"}]), + DeleteButton = wxButton:new(Dialog, ?MacroDel, [{label, "Delete"}]), + DeleteAllButton = wxButton:new(Dialog, ?MacroDelAll, [{label, "Delete All"}]), + Ok = wxButton:new(Dialog, ?MacroOk, [{label, "OK"}]), + Cancel = wxButton:new(Dialog, ?MacroCancel, [{label, "Cancel"}]), + wxButton:connect(AddButton, command_button_clicked), + wxButton:connect(DeleteButton, command_button_clicked), + wxButton:connect(DeleteAllButton, command_button_clicked), + wxButton:connect(Ok, command_button_clicked), + wxButton:connect(Cancel, command_button_clicked), + + Macros = [io_lib:format("~p = ~p", [X, Y]) + || {X,Y} <- Options#options.defines], + + wxListBox:set(Box, Macros), + Layout = wxBoxSizer:new(?wxVERTICAL), + Item = wxBoxSizer:new(?wxHORIZONTAL), + MacroItem = wxBoxSizer:new(?wxVERTICAL), + TermItem = wxBoxSizer:new(?wxVERTICAL), + Buttons = wxBoxSizer:new(?wxHORIZONTAL), + Buttons1 = wxBoxSizer:new(?wxHORIZONTAL), + + wxSizer:add(MacroItem, MacroLabel, ?BorderOpt), + wxSizer:add(MacroItem, MacroText, ?BorderOpt), + wxSizer:add(TermItem, TermLabel, ?BorderOpt), + wxSizer:add(TermItem, TermText, ?BorderOpt), + wxSizer:add(Item, MacroItem), + wxSizer:add(Item, TermItem), + wxSizer:add(Layout, Item, [{flag, ?wxALIGN_CENTER_HORIZONTAL}]), + wxSizer:add(Layout, AddButton, [{flag, ?wxALIGN_CENTER_HORIZONTAL bor ?wxALL}, ?Border]), + wxSizer:add(Layout, Box, [{flag, ?wxALIGN_CENTER_HORIZONTAL bor ?wxALL}, ?Border]), + wxSizer:add(Buttons, DeleteButton, ?BorderOpt), + wxSizer:add(Buttons, DeleteAllButton, ?BorderOpt), + wxSizer:add(Layout, Buttons, [{flag, ?wxALIGN_CENTER_HORIZONTAL}]), + wxSizer:add(Buttons1, Ok, ?BorderOpt), + wxSizer:add(Buttons1, Cancel, ?BorderOpt), + wxSizer:add(Layout, Buttons1, [{flag, ?wxALIGN_RIGHT bor ?wxBOTTOM}]), + + wxFrame:connect(Dialog, close_window), + wxWindow:setSizer(Dialog, Layout), + wxFrame:show(Dialog), + macro_loop(Options, Dialog, Box, MacroText, TermText, Frame). + +macro_loop(Options, Win, Box, MacroText, TermText, Frame) -> + receive + #wx{id = ?MacroCancel, + event = #wxCommand{type = command_button_clicked}} -> + wxWindow:destroy(Win), + Options; + #wx{id = ?MacroDir, event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win), + Options; + #wx{event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win), + wxWindow:destroy(Frame); + #wx{id = ?MacroOk, + event = #wxCommand{type = command_button_clicked}} -> + wxWindow:destroy(Win), + Options; + #wx{id = ?MacroAdd, + event = #wxCommand{type = command_button_clicked}} -> + Defines = Options#options.defines, + NewDefines = + case wxTextCtrl:getValue(MacroText) of + "" -> Defines; + Macro -> + case wxTextCtrl:getValue(TermText) of + "" -> + orddict:store(list_to_atom(Macro), true, Defines); + String -> + orddict:store(list_to_atom(Macro), String, Defines) + end + end, + NewOptions = Options#options{defines = NewDefines}, + NewEntries = [io_lib:format("~p = ~p", [X, Y]) || {X, Y} <- NewDefines], + wxListBox:set(Box, NewEntries), + macro_loop(NewOptions, Win, Box, MacroText, TermText, Frame); + #wx{id = ?MacroDel, + event = #wxCommand{type = command_button_clicked}} -> + NewOptions = + case wxListBox:getSelections(Box) of + {0, _} -> Options; + {_, List} -> + Fun = + fun(X) -> + Val = wxControlWithItems:getString(Box,X), + [MacroName|_] = re:split(Val, " ", [{return, list}]), + list_to_atom(MacroName) + end, + Delete = [Fun(X) || X <- List], + lists:foreach(fun (X) -> wxListBox:delete(Box, X) end, List), + Defines = Options#options.defines, + NewDefines = lists:foldl(fun(X, Acc) -> + orddict:erase(X, Acc) + end, + Defines, Delete), + Options#options{defines = NewDefines} + end, + macro_loop(NewOptions, Win, Box, MacroText, TermText, Frame); + #wx{id = ?MacroDelAll, + event = #wxCommand{type = command_button_clicked}} -> + wxListBox:clear(Box), + NewOptions = Options#options{defines = []}, + macro_loop(NewOptions, Win, Box, MacroText, TermText, Frame) + end. + +handle_help(State, Title, Txt) -> + FileName = filename:join([code:lib_dir(dialyzer), "doc", Txt]), + case file:open(FileName, [read]) of + {error, Reason} -> + error_sms(State, + io_lib:format("Could not find doc/~s file!\n\n ~p", + [Txt, Reason])); + {ok, _Handle} -> + case file:read_file(FileName) of + {error, Reason} -> + error_sms(State, + io_lib:format("Could not read doc/~s file!\n\n ~p", + [Txt, Reason])); + {ok, Binary} -> + Contents = binary_to_list(Binary), + free_editor(State, Title, Contents) + end + end. + +add_warnings(#gui_state{warnings_box = WarnBox, + rawWarnings = RawWarns} = State, Warnings) -> + NewRawWarns = RawWarns ++ Warnings, + WarnList = [dialyzer:format_warning(W) -- "\n" || W <- NewRawWarns], + wxListBox:set(WarnBox, WarnList), + State#gui_state{rawWarnings = NewRawWarns}. + +handle_explanation(#gui_state{rawWarnings = RawWarns, + warnings_box = WarnBox, + expl_pid = ExplPid} = State) -> + case wxListBox:isEmpty(WarnBox) of + true -> error_sms(State, "\nThere are no warnings.\nRun the dialyzer first."); + false -> + case wxListBox:getSelections(WarnBox)of + {0, []} -> + error_sms(State,"\nYou must choose a warning to be explained\n"); + {_, [WarnNumber]} -> + Warn = lists:nth(WarnNumber+1,RawWarns), + Self = self(), + ExplPid ! {Self, warning, Warn}, + explanation_loop(State) + end + end. + +explanation_loop(#gui_state{expl_pid = ExplPid} = State) -> + receive + {ExplPid, explanation, Explanation} -> + show_explanation(State, Explanation); + _ -> io:format("Unknown message\n"), + explanation_loop(State) + end. + +show_explanation(#gui_state{gui = Wx} = State, Explanation) -> + case Explanation of + none -> + output_sms(State, ?DIALYZER_MESSAGE_TITLE, + "There is not any explanation for this error!\n", info); + Expl -> + ExplString = format_explanation(Expl), + Size = {size,{700, 300}}, + Win = wxFrame:new(Wx, ?ExplWin, "Dialyzer Explanation", [{size,{740, 350}}]), + + Editor = wxTextCtrl:new(Win, ?ExplText, + [Size, + {style, ?wxTE_MULTILINE + bor ?wxTE_READONLY bor ?wxVSCROLL bor ?wxEXPAND}]), + wxTextCtrl:appendText(Editor, ExplString), + wxFrame:connect(Win, close_window), + ExplButton = wxButton:new(Win, ?ExplButton, [{label, "Further Explain"}]), + wxButton:connect(ExplButton, command_button_clicked), + Ok = wxButton:new(Win, ?ExplOk, [{label, "OK"}]), + wxButton:connect(Ok, command_button_clicked), + Layout = wxBoxSizer:new(?wxVERTICAL), + Buttons = wxBoxSizer:new(?wxHORIZONTAL), + wxSizer:add(Buttons, ExplButton, ?BorderOpt), + wxSizer:add(Buttons, Ok, ?BorderOpt), + wxSizer:add(Layout, Editor,[{flag, ?wxALIGN_CENTER_HORIZONTAL bor ?wxALL}, ?Border]), + wxSizer:add(Layout, Buttons,[{flag, ?wxALIGN_CENTER_HORIZONTAL}]), + wxWindow:setSizer(Win, Layout), + wxWindow:show(Win), + show_explanation_loop(State#gui_state{explanation_box = Editor}, Win, Explanation) + end. + +show_explanation_loop(#gui_state{frame = Frame, expl_pid = ExplPid} = State, Win, Explanation) -> + receive + {ExplPid, none, _} -> + output_sms(State, ?DIALYZER_MESSAGE_TITLE, + "There is not any other explanation for this error!\n", info), + show_explanation_loop(State, Win, Explanation); + {ExplPid, further, NewExplanation} -> + update_explanation(State, NewExplanation), + show_explanation_loop(State, Win, NewExplanation); + #wx{id = ?ExplButton, event = #wxCommand{type = command_button_clicked}} -> + ExplPid ! {self(), further, Explanation}, + show_explanation_loop(State, Win, Explanation); + #wx{id = ?ExplOk, event = #wxCommand{type = command_button_clicked}} -> + wxWindow:destroy(Win); + #wx{id = ?ExplWin, event = #wxClose{type = close_window}} -> + wxWindow:destroy(Win); + #wx{event = #wxClose{type = close_window}} -> + wxWindow:destroy(Frame) + end. + +update_explanation(#gui_state{explanation_box = Box}, Explanation) -> + ExplString = format_explanation(Explanation), + wxTextCtrl:appendText(Box, "\n --------------------------- \n"), + wxTextCtrl:appendText(Box, ExplString). + +format_explanation({function_return, {M, F, A}, NewList}) -> + io_lib:format("The function ~p: ~p/~p returns ~p\n", + [M, F, A, erl_types:t_to_string(NewList)]); +format_explanation(Explanation) -> + io_lib:format("~p\n", [Explanation]). diff --git a/lib/dialyzer/src/dialyzer_gui_wx.hrl b/lib/dialyzer/src/dialyzer_gui_wx.hrl new file mode 100644 index 0000000000..e81eeb1ab5 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_gui_wx.hrl @@ -0,0 +1,112 @@ +-include_lib("wx/include/wx.hrl"). + + +-define(TEXTSIZE, 9). + +-define(Border, {border, 2}). +-define(BorderOpt,[{flag,?wxALL}, ?Border]). + +-define(menuID_FILE_QUIT, 102). +-define(menuID_FILE_SAVE_WARNINGS, 100). +-define(menuID_FILE_SAVE_LOG, 101). + +-define(menuID_WARN_MATCH_FAILURES, 200). +-define(menuID_WARN_FAIL_FUN_CALLS, 201). +-define(menuID_WARN_BAD_FUN, 202). +-define(menuID_WARN_OPAQUE, 203). +-define(menuID_WARN_LIST_CONSTR, 204). +-define(menuID_WARN_UNUSED_FUN, 205). +-define(menuID_WARN_ERROR_HANDLING_FUN, 206). +-define(menuID_WARN_NO_RETURN_FUN, 207). +-define(menuID_WARN_UNEXPORTED_FUN, 208). +-define(menuID_WARN_RACE_CONDITIONS, 209). +-define(menuID_WARN_WRONG_CONTRACTS, 210). +-define(menuID_WARN_CONTRACT_SYNTAX, 211). + +-define(menuID_PLT_INIT_EMPTY, 300). +-define(menuID_PLT_SHOW_CONTENTS, 301). +-define(menuID_PLT_SEARCH_CONTENTS, 302). + +-define(menuID_OPTIONS_MACRO, 400). +-define(menuID_OPTIONS_INCLUDE_DIR, 401). + +-define(menuID_HELP_MANUAL, 500). +-define(menuID_HELP_WARNING_OPTIONS, 501). +-define(menuID_HELP_ABOUT, 499). + +-define(LABEL1,502). +-define(LABEL2,503). +-define(LABEL3,504). +-define(LABEL4,505). +-define(LABEL5,505). +-define(LABEL6,506). +-define(LABEL7,507). +-define(LABEL8,508). +-define(LABEL9,509). + +-define(ChosenBox,510). +-define(LogBox,511). +-define(FilePicker,512). +-define(DirPicker,513). +-define(WarningsBox,521). + +-define(Del_Button,514). +-define(DelAll_Button,515). +-define(ClearLog_Button,516). +-define(Add_Button,517). +-define(AddDir_Button,532). +-define(AddRec_Button,518). +-define(ClearWarn_Button,519). +-define(Run_Button,520). +-define(Stop_Button,522). +-define(ExplWarn_Button,523). +-define(RADIOBOX, 524). + +-define(Dialog, 525). +-define(Dialog_Ok, 526). +-define(Dialog_Cancel, 527). +-define(Dialog_Mes, 528). + +-define(MESSAGE, 529). +-define(Message_Info, 530). +-define(Message_Ok, 531). + + +-define(Message, 534). +-define(SaveWarn, 533). +-define(SearchPltDialog, 535). +-define(ModLabel, 536). +-define(FunLabel, 537). +-define(ArLabel, 538). +-define(ModText, 539). +-define(FunText, 540). +-define(ArText, 541). +-define(SearchButton, 542). +-define(Search_Cancel, 543). + +-define(IncludeDir, 544). +-define(InclLabel, 545). +-define(InclPicker, 546). +-define(InclBox, 547). +-define(InclAdd, 548). +-define(InclDel, 549). +-define(InclDelAll, 550). +-define(InclOk, 551). +-define(InclCancel, 552). + +-define(MacroDir, 553). +-define(MacroLabel, 554). +-define(MacroText, 555). +-define(TermLabel, 556). +-define(TermText, 557). +-define(MacroBox, 558). +-define(MacroAdd, 559). +-define(MacroDel, 560). +-define(MacroDelAll, 561). +-define(MacroOk, 562). +-define(MacroCancel, 563). + +-define(ExplWin, 564). +-define(ExplText, 565). +-define(ExplButton, 566). +-define(ExplOk, 567). diff --git a/lib/dialyzer/src/dialyzer_options.erl b/lib/dialyzer/src/dialyzer_options.erl new file mode 100644 index 0000000000..6531073072 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_options.erl @@ -0,0 +1,269 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%---------------------------------------------------------------------- +%%% File : dialyzer_options.erl +%%% Authors : Richard Carlsson <[email protected]> +%%% Description : Provides a better way to start Dialyzer from a script. +%%% +%%% Created : 17 Oct 2004 by Richard Carlsson <[email protected]> +%%%---------------------------------------------------------------------- + +-module(dialyzer_options). + +-export([build/1]). + +-include("dialyzer.hrl"). + +%%----------------------------------------------------------------------- + +-spec build(dial_options()) -> #options{} | {'error', string()}. + +build(Opts) -> + DefaultWarns = [?WARN_RETURN_NO_RETURN, + ?WARN_NOT_CALLED, + ?WARN_NON_PROPER_LIST, + ?WARN_FUN_APP, + ?WARN_MATCHING, + ?WARN_OPAQUE, + ?WARN_CALLGRAPH, + ?WARN_FAILING_CALL, + ?WARN_BIN_CONSTRUCTION, + ?WARN_CALLGRAPH, + ?WARN_CONTRACT_TYPES, + ?WARN_CONTRACT_SYNTAX], + DefaultWarns1 = ordsets:from_list(DefaultWarns), + InitPlt = dialyzer_plt:get_default_plt(), + DefaultOpts = #options{}, + DefaultOpts1 = DefaultOpts#options{legal_warnings = DefaultWarns1, + init_plt = InitPlt}, + try + NewOpts = build_options(Opts, DefaultOpts1), + postprocess_opts(NewOpts) + catch + throw:{dialyzer_options_error, Msg} -> {error, Msg} + end. + +postprocess_opts(Opts = #options{}) -> + Opts1 = check_output_plt(Opts), + adapt_get_warnings(Opts1). + +check_output_plt(Opts = #options{analysis_type = Mode, from = From, + output_plt = OutPLT}) -> + case is_plt_mode(Mode) of + true -> + case From =:= byte_code of + true -> Opts; + false -> + Msg = "Byte code compiled with debug_info is needed to build the PLT", + throw({dialyzer_error, Msg}) + end; + false -> + case OutPLT =:= none of + true -> Opts; + false -> + Msg = io_lib:format("Output PLT cannot be specified " + "in analysis mode ~w", [Mode]), + throw({dialyzer_error, lists:flatten(Msg)}) + end + end. + +adapt_get_warnings(Opts = #options{analysis_type = Mode, + get_warnings = Warns}) -> + %% Warnings are off by default in plt mode, and on by default in + %% success typings mode. User defined warning mode overrides the + %% default. + case is_plt_mode(Mode) of + true -> + case Warns =:= maybe of + true -> Opts#options{get_warnings = false}; + false -> Opts + end; + false -> + case Warns =:= maybe of + true -> Opts#options{get_warnings = true}; + false -> Opts + end + end. + +-spec bad_option(string(), term()) -> no_return(). + +bad_option(String, Term) -> + Msg = io_lib:format("~s: ~P", [String, Term, 25]), + throw({dialyzer_options_error, lists:flatten(Msg)}). + +build_options([{OptName, undefined}|Rest], Options) when is_atom(OptName) -> + build_options(Rest, Options); +build_options([{OptionName, Value} = Term|Rest], Options) -> + case OptionName of + files -> + assert_filenames(Term, Value), + build_options(Rest, Options#options{files = Value}); + files_rec -> + assert_filenames(Term, Value), + build_options(Rest, Options#options{files_rec = Value}); + analysis_type -> + NewOptions = + case Value of + succ_typings -> Options#options{analysis_type = Value}; + plt_add -> Options#options{analysis_type = Value}; + plt_build -> Options#options{analysis_type = Value}; + plt_check -> Options#options{analysis_type = Value}; + plt_remove -> Options#options{analysis_type = Value}; + dataflow -> bad_option("Analysis type is no longer supported", Term); + old_style -> bad_option("Analysis type is no longer supported", Term); + Other -> bad_option("Unknown analysis type", Other) + end, + assert_plt_op(Options, NewOptions), + build_options(Rest, NewOptions); + check_plt when is_boolean(Value) -> + build_options(Rest, Options#options{check_plt = Value}); + defines -> + assert_defines(Term, Value), + OldVal = Options#options.defines, + NewVal = ordsets:union(ordsets:from_list(Value), OldVal), + build_options(Rest, Options#options{defines = NewVal}); + from when Value =:= byte_code; Value =:= src_code -> + build_options(Rest, Options#options{from = Value}); + get_warnings -> + build_options(Rest, Options#options{get_warnings = Value}); + init_plt -> + assert_filenames([Term], [Value]), + build_options(Rest, Options#options{init_plt = Value}); + include_dirs -> + assert_filenames(Term, Value), + OldVal = Options#options.include_dirs, + NewVal = ordsets:union(ordsets:from_list(Value), OldVal), + build_options(Rest, Options#options{include_dirs = NewVal}); + use_spec -> + build_options(Rest, Options#options{use_contracts = Value}); + old_style -> + bad_option("Analysis type is no longer supported", old_style); + output_file -> + assert_filename(Value), + build_options(Rest, Options#options{output_file = Value}); + output_format -> + assert_output_format(Value), + build_options(Rest, Options#options{output_format = Value}); + output_plt -> + assert_filename(Value), + build_options(Rest, Options#options{output_plt = Value}); + report_mode -> + build_options(Rest, Options#options{report_mode = Value}); + erlang_mode -> + build_options(Rest, Options#options{erlang_mode = true}); + warnings -> + NewWarnings = build_warnings(Value, Options#options.legal_warnings), + build_options(Rest, Options#options{legal_warnings = NewWarnings}); + callgraph_file -> + assert_filename(Value), + build_options(Rest, Options#options{callgraph_file = Value}); + _ -> + bad_option("Unknown dialyzer command line option", Term) + end; +build_options([], Options) -> + Options. + +assert_filenames(Term, [FileName|Left]) when length(FileName) >= 0 -> + case filelib:is_file(FileName) orelse filelib:is_dir(FileName) of + true -> ok; + false -> bad_option("No such file or directory", FileName) + end, + assert_filenames(Term, Left); +assert_filenames(_Term, []) -> + ok; +assert_filenames(Term, [_|_]) -> + bad_option("Malformed or non-existing filename", Term). + +assert_filename(FileName) when length(FileName) >= 0 -> + ok; +assert_filename(FileName) -> + bad_option("Malformed or non-existing filename", FileName). + +assert_defines(Term, [{Macro, _Value}|Defs]) when is_atom(Macro) -> + assert_defines(Term, Defs); +assert_defines(_Term, []) -> + ok; +assert_defines(Term, [_|_]) -> + bad_option("Malformed define", Term). + +assert_output_format(raw) -> + ok; +assert_output_format(formatted) -> + ok; +assert_output_format(Term) -> + bad_option("Illegal value for output_format", Term). + +assert_plt_op(#options{analysis_type = OldVal}, + #options{analysis_type = NewVal}) -> + case is_plt_mode(OldVal) andalso is_plt_mode(NewVal) of + true -> bad_option("Options cannot be combined", [OldVal, NewVal]); + false -> ok + end. + +is_plt_mode(plt_add) -> true; +is_plt_mode(plt_build) -> true; +is_plt_mode(plt_remove) -> true; +is_plt_mode(plt_check) -> true; +is_plt_mode(succ_typings) -> false. + +-spec build_warnings([atom()], [dial_warning()]) -> [dial_warning()]. + +build_warnings([Opt|Opts], Warnings) -> + NewWarnings = + case Opt of + no_return -> + ordsets:del_element(?WARN_RETURN_NO_RETURN, Warnings); + no_unused -> + ordsets:del_element(?WARN_NOT_CALLED, Warnings); + no_improper_lists -> + ordsets:del_element(?WARN_NON_PROPER_LIST, Warnings); + no_fun_app -> + ordsets:del_element(?WARN_FUN_APP, Warnings); + no_match -> + ordsets:del_element(?WARN_MATCHING, Warnings); + no_opaque -> + ordsets:del_element(?WARN_OPAQUE, Warnings); + no_fail_call -> + ordsets:del_element(?WARN_FAILING_CALL, Warnings); + no_contracts -> + Warnings1 = ordsets:del_element(?WARN_CONTRACT_SYNTAX, Warnings), + ordsets:del_element(?WARN_CONTRACT_TYPES, Warnings1); + unmatched_returns -> + ordsets:add_element(?WARN_UNMATCHED_RETURN, Warnings); + error_handling -> + ordsets:add_element(?WARN_RETURN_ONLY_EXIT, Warnings); + race_conditions -> + ordsets:add_element(?WARN_RACE_CONDITION, Warnings); + specdiffs -> + S = ordsets:from_list([?WARN_CONTRACT_SUBTYPE, + ?WARN_CONTRACT_SUPERTYPE, + ?WARN_CONTRACT_NOT_EQUAL]), + ordsets:union(S, Warnings); + overspecs -> + ordsets:add_element(?WARN_CONTRACT_SUBTYPE, Warnings); + underspecs -> + ordsets:add_element(?WARN_CONTRACT_SUPERTYPE, Warnings); + OtherAtom -> + bad_option("Unknown dialyzer warning option", OtherAtom) + end, + build_warnings(Opts, NewWarnings); +build_warnings([], Warnings) -> + Warnings. diff --git a/lib/dialyzer/src/dialyzer_plt.erl b/lib/dialyzer/src/dialyzer_plt.erl new file mode 100644 index 0000000000..f2e0fe1e97 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_plt.erl @@ -0,0 +1,576 @@ +%% -*- erlang-indent-level: 2 -*- +%%---------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_plt.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : Interface to display information in the persistent +%%% lookup tables. +%%% +%%% Created : 23 Jul 2004 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- +-module(dialyzer_plt). + +-export([check_plt/3, + compute_md5_from_files/1, + contains_mfa/2, + contains_module/2, + delete_contract_list/2, + delete_list/2, + delete_module/2, + included_files/1, + from_file/1, + get_default_plt/0, + get_types/1, + %% insert/3, + insert_list/2, + insert_contract_list/2, + insert_types/2, + lookup/2, + lookup_contract/2, + lookup_module/2, + merge_plts/1, + new/0, + plt_and_info_from_file/1, + get_specs/1, + get_specs/4, + to_file/4 + ]). + +%% Debug utilities +-export([pp_non_returning/0, pp_mod/1]). + +%%---------------------------------------------------------------------- + +-type mod_deps() :: dict(). + +%% The following are used for searching the PLT when using the GUI +%% (e.g. in show or search PLT contents). The user might be searching +%% with a partial specification, in which case the missing items +%% default to '_' +-type arity_patt() :: '_' | arity(). +-type mfa_patt() :: {module(), atom(), arity_patt()}. + +%%---------------------------------------------------------------------- + +-record(dialyzer_plt, {info = table_new() :: dict(), + types = table_new() :: dict(), + contracts = table_new() :: dict()}). +-opaque plt() :: #dialyzer_plt{}. + +-include("dialyzer.hrl"). + +-type file_md5() :: {file:filename(), binary()}. +-type plt_info() :: {[file_md5()], dict()}. + +-record(dialyzer_file_plt, {version = "" :: string(), + file_md5_list = [] :: [file_md5()], + info = dict:new() :: dict(), + contracts = dict:new() :: dict(), + types = dict:new() :: dict(), + mod_deps :: mod_deps(), + implementation_md5 = [] :: [file_md5()] + }). + +%%---------------------------------------------------------------------- + +-spec new() -> plt(). + +new() -> + #dialyzer_plt{}. + +-spec delete_module(plt(), module()) -> plt(). + +delete_module(#dialyzer_plt{info = Info, types = Types, contracts = Contracts}, + Mod) -> + #dialyzer_plt{info = table_delete_module(Info, Mod), + types = table_delete_module2(Types, Mod), + contracts = table_delete_module(Contracts, Mod)}. + +-spec delete_list(plt(), [mfa() | integer()]) -> plt(). + +delete_list(#dialyzer_plt{info = Info, types = Types, contracts = Contracts}, + List) -> + #dialyzer_plt{info = table_delete_list(Info, List), + types = Types, + contracts = table_delete_list(Contracts, List)}. + +-spec insert_contract_list(plt(), dialyzer_contracts:plt_contracts()) -> plt(). + +insert_contract_list(#dialyzer_plt{contracts = Contracts} = PLT, List) -> + PLT#dialyzer_plt{contracts = table_insert_list(Contracts, List)}. + +-spec lookup_contract(plt(), mfa_patt()) -> 'none' | {'value', #contract{}}. + +lookup_contract(#dialyzer_plt{contracts = Contracts}, + {M, F, _} = MFA) when is_atom(M), is_atom(F) -> + table_lookup(Contracts, MFA). + +-spec delete_contract_list(plt(), [mfa()]) -> plt(). + +delete_contract_list(#dialyzer_plt{contracts = Contracts} = PLT, List) -> + PLT#dialyzer_plt{contracts = table_delete_list(Contracts, List)}. + +%% -spec insert(plt(), mfa() | integer(), {_, _}) -> plt(). +%% +%% insert(#dialyzer_plt{info = Info} = PLT, Id, Types) -> +%% PLT#dialyzer_plt{info = table_insert(Info, Id, Types)}. + +-type ret_args_types() :: {erl_types:erl_type(), [erl_types:erl_type()]}. + +-spec insert_list(plt(), [{mfa() | integer(), ret_args_types()}]) -> plt(). + +insert_list(#dialyzer_plt{info = Info} = PLT, List) -> + PLT#dialyzer_plt{info = table_insert_list(Info, List)}. + +-spec lookup(plt(), integer() | mfa_patt()) -> + 'none' | {'value', ret_args_types()}. + +lookup(#dialyzer_plt{info = Info}, {M, F, _} = MFA) when is_atom(M), is_atom(F) -> + table_lookup(Info, MFA); +lookup(#dialyzer_plt{info = Info}, Label) when is_integer(Label) -> + table_lookup(Info, Label). + +-spec insert_types(plt(), dict()) -> plt(). + +insert_types(PLT, Rec) -> + PLT#dialyzer_plt{types = Rec}. + +-spec get_types(plt()) -> dict(). + +get_types(#dialyzer_plt{types = Types}) -> + Types. + +-type mfa_types() :: {mfa(), erl_types:erl_type(), [erl_types:erl_type()]}. + +-spec lookup_module(plt(), module()) -> 'none' | {'value', [mfa_types()]}. + +lookup_module(#dialyzer_plt{info = Info}, M) when is_atom(M) -> + table_lookup_module(Info, M). + +-spec contains_module(plt(), module()) -> boolean(). + +contains_module(#dialyzer_plt{info = Info, contracts = Cs}, M) when is_atom(M) -> + table_contains_module(Info, M) orelse table_contains_module(Cs, M). + +-spec contains_mfa(plt(), mfa()) -> boolean(). + +contains_mfa(#dialyzer_plt{info = Info, contracts = Contracts}, MFA) -> + (table_lookup(Info, MFA) =/= none) + orelse (table_lookup(Contracts, MFA) =/= none). + +-spec get_default_plt() -> file:filename(). + +get_default_plt() -> + case os:getenv("DIALYZER_PLT") of + false -> + case os:getenv("HOME") of + false -> + error("The HOME environment variable needs to be set " ++ + "so that Dialyzer knows where to find the default PLT"); + HomeDir -> filename:join(HomeDir, ".dialyzer_plt") + end; + UserSpecPlt -> UserSpecPlt + end. + +-spec plt_and_info_from_file(file:filename()) -> {plt(), plt_info()}. + +plt_and_info_from_file(FileName) -> + from_file(FileName, true). + +-spec from_file(file:filename()) -> plt(). + +from_file(FileName) -> + from_file(FileName, false). + +from_file(FileName, ReturnInfo) -> + case get_record_from_file(FileName) of + {ok, Rec} -> + case check_version(Rec) of + error -> + Msg = io_lib:format("Old PLT file ~s\n", [FileName]), + error(Msg); + ok -> + Plt = #dialyzer_plt{info = Rec#dialyzer_file_plt.info, + types = Rec#dialyzer_file_plt.types, + contracts = Rec#dialyzer_file_plt.contracts}, + case ReturnInfo of + false -> Plt; + true -> + PltInfo = {Rec#dialyzer_file_plt.file_md5_list, + Rec#dialyzer_file_plt.mod_deps}, + {Plt, PltInfo} + end + end; + {error, Reason} -> + error(io_lib:format("Could not read PLT file ~s: ~p\n", + [FileName, Reason])) + end. + +-type inc_file_err_rsn() :: 'no_such_file' | 'read_error'. +-spec included_files(file:filename()) -> {'ok', [file:filename()]} + | {'error', inc_file_err_rsn()}. + +included_files(FileName) -> + case get_record_from_file(FileName) of + {ok, #dialyzer_file_plt{file_md5_list = Md5}} -> + {ok, [File || {File, _} <- Md5]}; + {error, _What} = Error -> + Error + end. + +check_version(#dialyzer_file_plt{version=?VSN, implementation_md5=ImplMd5}) -> + case compute_new_md5(ImplMd5, [], []) of + ok -> ok; + {differ, _, _} -> error; + {error, _} -> error + end; +check_version(#dialyzer_file_plt{}) -> error. + +get_record_from_file(FileName) -> + case file:read_file(FileName) of + {ok, Bin} -> + try binary_to_term(Bin) of + #dialyzer_file_plt{} = FilePLT -> {ok, FilePLT}; + _ -> {error, not_valid} + catch + _:_ -> {error, not_valid} + end; + {error, enoent} -> + {error, no_such_file}; + {error, _} -> + {error, read_error} + end. + +-spec merge_plts([plt()]) -> plt(). + +merge_plts(List) -> + InfoList = [Info || #dialyzer_plt{info = Info} <- List], + TypesList = [Types || #dialyzer_plt{types = Types} <- List], + ContractsList = [Contracts || #dialyzer_plt{contracts = Contracts} <- List], + #dialyzer_plt{info = table_merge(InfoList), + types = table_merge(TypesList), + contracts = table_merge(ContractsList)}. + +-spec to_file(file:filename(), plt(), mod_deps(), {[file_md5()], mod_deps()}) -> 'ok'. + +to_file(FileName, + #dialyzer_plt{info = Info, types = Types, contracts = Contracts}, + ModDeps, {MD5, OldModDeps}) -> + NewModDeps = dict:merge(fun(_Key, OldVal, NewVal) -> + ordsets:union(OldVal, NewVal) + end, + OldModDeps, ModDeps), + ImplMd5 = compute_implementation_md5(), + Record = #dialyzer_file_plt{version = ?VSN, + file_md5_list = MD5, + info = Info, + contracts = Contracts, + types = Types, + mod_deps = NewModDeps, + implementation_md5 = ImplMd5}, + Bin = term_to_binary(Record, [compressed]), + case file:write_file(FileName, Bin) of + ok -> ok; + {error, Reason} -> + Msg = io_lib:format("Could not write PLT file ~s: ~w\n", + [FileName, Reason]), + throw({dialyzer_error, Msg}) + end. + +-type md5_diff() :: [{'differ', atom()} | {'removed', atom()}]. +-type check_error() :: 'not_valid' | 'no_such_file' | 'read_error' + | {'no_file_to_remove', file:filename()}. + +-spec check_plt(file:filename(), [file:filename()], [file:filename()]) -> + 'ok' + | {'error', check_error()} + | {'differ', [file_md5()], md5_diff(), mod_deps()} + | {'old_version', [file_md5()]}. + +check_plt(FileName, RemoveFiles, AddFiles) -> + case get_record_from_file(FileName) of + {ok, #dialyzer_file_plt{file_md5_list = Md5, mod_deps = ModDeps} = Rec} -> + case check_version(Rec) of + ok -> + case compute_new_md5(Md5, RemoveFiles, AddFiles) of + ok -> ok; + {differ, NewMd5, DiffMd5} -> {differ, NewMd5, DiffMd5, ModDeps}; + {error, _What} = Err -> Err + end; + error -> + case compute_new_md5(Md5, RemoveFiles, AddFiles) of + ok -> {old_version, Md5}; + {differ, NewMd5, _DiffMd5} -> {old_version, NewMd5}; + {error, _What} = Err -> Err + end + end; + Error -> Error + end. + +compute_new_md5(Md5, [], []) -> + compute_new_md5_1(Md5, [], []); +compute_new_md5(Md5, RemoveFiles0, AddFiles0) -> + %% Assume that files are first removed and then added. Files that + %% are both removed and added will be checked for consistency in the + %% normal way. If they have moved, we assume that they differ. + RemoveFiles = RemoveFiles0 -- AddFiles0, + AddFiles = AddFiles0 -- RemoveFiles0, + InitDiffList = init_diff_list(RemoveFiles, AddFiles), + case init_md5_list(Md5, RemoveFiles, AddFiles) of + {ok, NewMd5} -> compute_new_md5_1(NewMd5, [], InitDiffList); + {error, _What} = Error -> Error + end. + +compute_new_md5_1([{File, Md5} = Entry|Entries], NewList, Diff) -> + case compute_md5_from_file(File) of + Md5 -> compute_new_md5_1(Entries, [Entry|NewList], Diff); + NewMd5 -> + ModName = beam_file_to_module(File), + compute_new_md5_1(Entries, [{File, NewMd5}|NewList], [{differ, ModName}|Diff]) + end; +compute_new_md5_1([], _NewList, []) -> + ok; +compute_new_md5_1([], NewList, Diff) -> + {differ, lists:keysort(1, NewList), Diff}. + +-spec compute_implementation_md5() -> [file_md5()]. + +compute_implementation_md5() -> + Dir = code:lib_dir(hipe), + Files1 = ["erl_bif_types.beam", "erl_types.beam"], + Files2 = [filename:join([Dir, "ebin", F]) || F <- Files1], + compute_md5_from_files(Files2). + +-spec compute_md5_from_files([file:filename()]) -> [file_md5()]. + +compute_md5_from_files(Files) -> + lists:keysort(1, [{F, compute_md5_from_file(F)} || F <- Files]). + +compute_md5_from_file(File) -> + case filelib:is_regular(File) of + false -> + Msg = io_lib:format("Not a regular file: ~s\n", [File]), + throw({dialyzer_error, Msg}); + true -> + case dialyzer_utils:get_abstract_code_from_beam(File) of + error -> + Msg = io_lib:format("Could not get abstract code for file: ~s (please recompile it with +debug_info)\n", [File]), + throw({dialyzer_error, Msg}); + {ok, Abs} -> + erlang:md5(term_to_binary(Abs)) + end + end. + +init_diff_list(RemoveFiles, AddFiles) -> + RemoveSet0 = sets:from_list([beam_file_to_module(F) || F <- RemoveFiles]), + AddSet0 = sets:from_list([beam_file_to_module(F) || F <- AddFiles]), + DiffSet = sets:intersection(AddSet0, RemoveSet0), + RemoveSet = sets:subtract(RemoveSet0, DiffSet), + %% Added files and diff files will appear as diff files from the md5 check. + [{removed, F} || F <- sets:to_list(RemoveSet)]. + +init_md5_list(Md5, RemoveFiles, AddFiles) -> + Files = [{remove, F} || F <- RemoveFiles] ++ [{add, F} || F <- AddFiles], + DiffFiles = lists:keysort(2, Files), + Md5Sorted = lists:keysort(1, Md5), + init_md5_list_1(Md5Sorted, DiffFiles, []). + +init_md5_list_1([{File, _Md5}|Md5Left], [{remove, File}|DiffLeft], Acc) -> + init_md5_list_1(Md5Left, DiffLeft, Acc); +init_md5_list_1([{File, _Md5} = Entry|Md5Left], [{add, File}|DiffLeft], Acc) -> + init_md5_list_1(Md5Left, DiffLeft, [Entry|Acc]); +init_md5_list_1([{File1, _Md5} = Entry|Md5Left] = Md5List, + [{Tag, File2}|DiffLeft] = DiffList, Acc) -> + case File1 < File2 of + true -> init_md5_list_1(Md5Left, DiffList, [Entry|Acc]); + false -> + %% Just an assert. + true = File1 > File2, + case Tag of + add -> init_md5_list_1(Md5List, DiffLeft, [{File2, <<>>}|Acc]); + remove -> {error, {no_file_to_remove, File2}} + end + end; +init_md5_list_1([], DiffList, Acc) -> + AddFiles = [{F, <<>>} || {add, F} <- DiffList], + {ok, lists:reverse(Acc, AddFiles)}; +init_md5_list_1(Md5List, [], Acc) -> + {ok, lists:reverse(Acc, Md5List)}. + +%%--------------------------------------------------------------------------- +%% Edoc + +-spec get_specs(plt()) -> string(). + +get_specs(#dialyzer_plt{info = Info}) -> + %% TODO: Should print contracts as well. + List = + lists:sort([{MFA, Val} || {MFA = {_,_,_}, Val} <- table_to_list(Info)]), + lists:flatten(create_specs(List, [])). + +beam_file_to_module(Filename) -> + list_to_atom(filename:basename(Filename, ".beam")). + +-spec get_specs(plt(), module(), atom(), arity_patt()) -> 'none' | string(). + +get_specs(#dialyzer_plt{info = Info}, M, F, A) when is_atom(M), is_atom(F) -> + MFA = {M, F, A}, + case table_lookup(Info, MFA) of + none -> none; + {value, Val} -> lists:flatten(create_specs([{MFA, Val}], [])) + end. + +create_specs([{{M, F, _A}, {Ret, Args}}|Left], M) -> + [io_lib:format("-spec ~w(~s) -> ~s\n", + [F, expand_args(Args), erl_types:t_to_string(Ret)]) + | create_specs(Left, M)]; +create_specs(List = [{{M, _F, _A}, {_Ret, _Args}}| _], _M) -> + [io_lib:format("\n\n%% ------- Module: ~w -------\n\n", [M]) + | create_specs(List, M)]; +create_specs([], _) -> + []. + +expand_args([]) -> + []; +expand_args([ArgType]) -> + case erl_types:t_is_any(ArgType) of + true -> ["_"]; + false -> [erl_types:t_to_string(ArgType)] + end; +expand_args([ArgType|Left]) -> + [case erl_types:t_is_any(ArgType) of + true -> "_"; + false -> erl_types:t_to_string(ArgType) + end ++ + ","|expand_args(Left)]. + +error(Msg) -> + throw({dialyzer_error, lists:flatten(Msg)}). + +%%--------------------------------------------------------------------------- +%% Ets table + +table_new() -> + dict:new(). + +table_to_list(Plt) -> + dict:to_list(Plt). + +table_delete_module(Plt, Mod) -> + dict:filter(fun({M, _F, _A}, _Val) -> M =/= Mod; + (_, _) -> true + end, Plt). + +table_delete_module2(Plt, Mod) -> + dict:filter(fun(M, _Val) -> M =/= Mod end, Plt). + +table_delete_list(Plt, [H|T]) -> + table_delete_list(dict:erase(H, Plt), T); +table_delete_list(Plt, []) -> + Plt. + +table_insert_list(Plt, [{Key, Val}|Left]) -> + table_insert_list(table_insert(Plt, Key, Val), Left); +table_insert_list(Plt, []) -> + Plt. + +table_insert(Plt, Key, {_Ret, _Arg} = Obj) -> + dict:store(Key, Obj, Plt); +table_insert(Plt, Key, #contract{} = C) -> + dict:store(Key, C, Plt). + +table_lookup(Plt, Obj) -> + case dict:find(Obj, Plt) of + error -> none; + {ok, Val} -> {value, Val} + end. + +table_lookup_module(Plt, Mod) -> + List = dict:fold(fun(Key, Val, Acc) -> + case Key of + {Mod, _F, _A} -> [{Key, element(1, Val), + element(2, Val)}|Acc]; + _ -> Acc + end + end, [], Plt), + case List =:= [] of + true -> none; + false -> {value, List} + end. + +table_contains_module(Plt, Mod) -> + dict:fold(fun({M, _F, _A}, _Val, _Acc) when M =:= Mod -> true; + (_, _, Acc) -> Acc + end, false, Plt). + +table_merge([H|T]) -> + table_merge(T, H). + +table_merge([], Acc) -> + Acc; +table_merge([Plt|Left], Acc) -> + NewAcc = dict:merge(fun(_Key, Val, Val) -> Val end, Plt, Acc), + table_merge(Left, NewAcc). + +%%--------------------------------------------------------------------------- +%% Debug utilities. + +-spec pp_non_returning() -> 'ok'. + +pp_non_returning() -> + PltFile = get_default_plt(), + Plt = from_file(PltFile), + List = table_to_list(Plt#dialyzer_plt.info), + Unit = [{MFA, erl_types:t_fun(Args, Ret)} || {MFA, {Ret, Args}} <- List, + erl_types:t_is_unit(Ret)], + None = [{MFA, erl_types:t_fun(Args, Ret)} || {MFA, {Ret, Args}} <- List, + erl_types:t_is_none(Ret)], + io:format("=========================================\n"), + io:format("= Loops =\n"), + io:format("=========================================\n\n"), + lists:foreach(fun({{M, F, _}, Type}) -> + io:format("~w:~w~s.\n", + [M, F, dialyzer_utils:format_sig(Type)]) + end, lists:sort(Unit)), + io:format("\n"), + io:format("=========================================\n"), + io:format("= Errors =\n"), + io:format("=========================================\n\n"), + lists:foreach(fun({{M, F, _}, Type}) -> + io:format("~w:~w~s.\n", + [M, F, dialyzer_utils:format_sig(Type)]) + end, lists:sort(None)). + +-spec pp_mod(module()) -> 'ok'. + +pp_mod(Mod) when is_atom(Mod) -> + PltFile = get_default_plt(), + Plt = from_file(PltFile), + case lookup_module(Plt, Mod) of + {value, List} -> + lists:foreach(fun({{_, F, _}, Ret, Args}) -> + T = erl_types:t_fun(Args, Ret), + S = dialyzer_utils:format_sig(T), + io:format("-spec ~w~s.\n", [F, S]) + end, lists:sort(List)); + none -> + io:format("dialyzer: Found no module named '~s' in the PLT\n", [Mod]) + end. diff --git a/lib/dialyzer/src/dialyzer_races.erl b/lib/dialyzer/src/dialyzer_races.erl new file mode 100644 index 0000000000..5857f7a03d --- /dev/null +++ b/lib/dialyzer/src/dialyzer_races.erl @@ -0,0 +1,2426 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2008-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%---------------------------------------------------------------------- +%%% File : dialyzer_races.erl +%%% Author : Maria Christakis <[email protected]> +%%% Description : Utility functions for race condition detection +%%% +%%% Created : 21 Nov 2008 by Maria Christakis <[email protected]> +%%%---------------------------------------------------------------------- +-module(dialyzer_races). + +%% Race Analysis + +-export([store_race_call/5, race/1, get_race_warnings/2, format_args/4]). + +%% Record Interfaces + +-export([beg_clause_new/3, cleanup/1, end_case_new/1, end_clause_new/3, + get_curr_fun/1, get_curr_fun_args/1, get_new_table/1, + get_race_analysis/1, get_race_list/1, get_race_list_size/1, + let_tag_new/2, new/0, put_curr_fun/3, put_fun_args/2, + put_race_analysis/2, put_race_list/3]). + +-include("dialyzer.hrl"). + +%%% =========================================================================== +%%% +%%% Definitions +%%% +%%% =========================================================================== + +-define(local, 5). +-define(no_arg, no_arg). +-define(no_label, no_label). + +-define(WARN_WHEREIS_REGISTER, warn_whereis_register). +-define(WARN_ETS_LOOKUP_INSERT, warn_ets_lookup_insert). +-define(WARN_MNESIA_DIRTY_READ_WRITE, warn_mnesia_dirty_read_write). +-define(WARN_NO_WARN, warn_no_warn). + +%%% =========================================================================== +%%% +%%% Local Types +%%% +%%% =========================================================================== + +-type mfa_or_funlbl() :: label() | mfa(). + +-type label_type() :: label() | [label()] | {label()} | ?no_label. +-type args() :: [label_type() | [string()]]. +-type core_vars() :: cerl:cerl() | ?no_arg. +-type var_to_map() :: core_vars() | [cerl:cerl()]. +-type core_args() :: [core_vars()] | 'empty'. +-type op() :: 'bind' | 'unbind'. + +-type dep_calls() :: 'whereis' | 'ets_lookup' | 'mnesia_dirty_read'. +-type warn_calls() :: 'register' | 'ets_insert' | 'mnesia_dirty_write'. +-type call() :: 'whereis' | 'register' | 'ets_new' | 'ets_lookup' + | 'ets_insert' | 'mnesia_dirty_read1' + | 'mnesia_dirty_read2' | 'mnesia_dirty_write1' + | 'mnesia_dirty_write2' | 'function_call'. +-type race_tag() :: 'whereis_register' | 'ets_lookup_insert' + | 'mnesia_dirty_read_write'. + +-record(beg_clause, {arg :: var_to_map(), + pats :: var_to_map(), + guard :: cerl:cerl()}). +-record(end_clause, {arg :: var_to_map(), + pats :: var_to_map(), + guard :: cerl:cerl()}). +-record(end_case, {clauses :: [#end_clause{}]}). +-record(curr_fun, {status :: 'in' | 'out', + mfa :: mfa_or_funlbl(), + label :: label(), + def_vars :: [core_vars()], + arg_types :: [erl_types:erl_type()], + call_vars :: [core_vars()], + var_map :: dict()}). +-record(dep_call, {call_name :: dep_calls(), + args :: args(), + arg_types :: [erl_types:erl_type()], + vars :: [core_vars()], + state :: _, + file_line :: file_line(), + var_map :: dict()}). +-record(fun_call, {caller :: mfa_or_funlbl(), + callee :: mfa_or_funlbl(), + arg_types :: [erl_types:erl_type()], + vars :: [core_vars()]}). +-record(let_tag, {var :: var_to_map(), + arg :: var_to_map()}). +-record(warn_call, {call_name :: warn_calls(), + args :: args(), + var_map :: dict()}). + +-type case_tags() :: 'beg_case' | #beg_clause{} | #end_clause{} | #end_case{}. +-type code() :: [#dep_call{} | #warn_call{} | #fun_call{} | + #curr_fun{} | #let_tag{} | case_tags() | race_tag()]. + +-type table_var() :: label() | ?no_label. +-type table() :: {'named', table_var(), [string()]} | 'other' | 'no_t'. + +-record(race_fun, {mfa :: mfa(), + args :: args(), + arg_types :: [erl_types:erl_type()], + vars :: [core_vars()], + file_line :: file_line(), + index :: non_neg_integer(), + fun_mfa :: mfa_or_funlbl(), + fun_label :: label()}). + +-record(races, {curr_fun :: mfa_or_funlbl(), + curr_fun_label :: label(), + curr_fun_args = 'empty' :: core_args(), + new_table = 'no_t' :: table(), + race_list = [] :: code(), + race_list_size = 0 :: non_neg_integer(), + race_tags = [] :: [#race_fun{}], + %% true for fun types and warning mode + race_analysis = false :: boolean(), + race_warnings = [] :: [dial_warning()]}). + +%%% =========================================================================== +%%% +%%% Exported Types +%%% +%%% =========================================================================== + +-opaque races() :: #races{}. + +%%% =========================================================================== +%%% +%%% Race Analysis +%%% +%%% =========================================================================== + +-spec store_race_call(mfa_or_funlbl(), [erl_types:erl_type()], [core_vars()], + file_line(), dialyzer_dataflow:state()) -> + dialyzer_dataflow:state(). + +store_race_call(Fun, ArgTypes, Args, FileLine, State) -> + Races = dialyzer_dataflow:state__get_races(State), + CurrFun = Races#races.curr_fun, + CurrFunLabel = Races#races.curr_fun_label, + RaceTags = Races#races.race_tags, + CleanState = dialyzer_dataflow:state__records_only(State), + {NewRaceList, NewRaceListSize, NewRaceTags, NewTable} = + case CurrFun of + {_Module, module_info, A} when A =:= 0 orelse A =:= 1 -> + {[], 0, RaceTags, no_t}; + _Thing -> + RaceList = Races#races.race_list, + RaceListSize = Races#races.race_list_size, + case Fun of + {erlang, get_module_info, A} when A =:= 1 orelse A =:= 2 -> + {[], 0, RaceTags, no_t}; + {erlang, register, 2} -> + VarArgs = format_args(Args, ArgTypes, CleanState, register), + RaceFun = #race_fun{mfa = Fun, args = VarArgs, + arg_types = ArgTypes, vars = Args, + file_line = FileLine, index = RaceListSize, + fun_mfa = CurrFun, fun_label = CurrFunLabel}, + {[#warn_call{call_name = register, args = VarArgs}| + RaceList], RaceListSize + 1, [RaceFun|RaceTags], no_t}; + {erlang, whereis, 1} -> + VarArgs = format_args(Args, ArgTypes, CleanState, whereis), + {[#dep_call{call_name = whereis, args = VarArgs, + arg_types = ArgTypes, vars = Args, + state = CleanState, file_line = FileLine}| + RaceList], RaceListSize + 1, RaceTags, no_t}; + {ets, insert, 2} -> + VarArgs = format_args(Args, ArgTypes, CleanState, ets_insert), + RaceFun = #race_fun{mfa = Fun, args = VarArgs, + arg_types = ArgTypes, vars = Args, + file_line = FileLine, index = RaceListSize, + fun_mfa = CurrFun, fun_label = CurrFunLabel}, + {[#warn_call{call_name = ets_insert, args = VarArgs}| + RaceList], RaceListSize + 1, [RaceFun|RaceTags], no_t}; + {ets, lookup, 2} -> + VarArgs = format_args(Args, ArgTypes, CleanState, ets_lookup), + {[#dep_call{call_name = ets_lookup, args = VarArgs, + arg_types = ArgTypes, vars = Args, + state = CleanState, file_line = FileLine}| + RaceList], RaceListSize + 1, RaceTags, no_t}; + {ets, new, 2} -> + VarArgs = format_args(Args, ArgTypes, CleanState, ets_new), + [VarArgs1, VarArgs2, _, Options] = VarArgs, + NewTable1 = + case lists:member("'public'", Options) of + true -> + case lists:member("'named_table'", Options) of + true -> + {named, VarArgs1, VarArgs2}; + false -> other + end; + false -> no_t + end, + {RaceList, RaceListSize, RaceTags, NewTable1}; + {mnesia, dirty_read, A} when A =:= 1 orelse A =:= 2 -> + VarArgs = + case A of + 1 -> + format_args(Args, ArgTypes, CleanState, mnesia_dirty_read1); + 2 -> + format_args(Args, ArgTypes, CleanState, mnesia_dirty_read2) + end, + {[#dep_call{call_name = mnesia_dirty_read, args = VarArgs, + arg_types = ArgTypes, vars = Args, + state = CleanState, file_line = FileLine}|RaceList], + RaceListSize + 1, RaceTags, no_t}; + {mnesia, dirty_write, A} when A =:= 1 orelse A =:= 2 -> + VarArgs = + case A of + 1 -> + format_args(Args, ArgTypes, CleanState, mnesia_dirty_write1); + 2 -> + format_args(Args, ArgTypes, CleanState, mnesia_dirty_write2) + end, + RaceFun = #race_fun{mfa = Fun, args = VarArgs, + arg_types = ArgTypes, vars = Args, + file_line = FileLine, index = RaceListSize, + fun_mfa = CurrFun, fun_label = CurrFunLabel}, + {[#warn_call{call_name = mnesia_dirty_write, + args = VarArgs}|RaceList], + RaceListSize + 1, [RaceFun|RaceTags], no_t}; + Int when is_integer(Int) -> + {[#fun_call{caller = CurrFun, callee = Int, arg_types = ArgTypes, + vars = Args}|RaceList], + RaceListSize + 1, RaceTags, no_t}; + _Other -> + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + case digraph:vertex(dialyzer_callgraph:get_digraph(Callgraph), + Fun) of + {Fun, confirmed} -> + {[#fun_call{caller = CurrFun, callee = Fun, + arg_types = ArgTypes, vars = Args}|RaceList], + RaceListSize + 1, RaceTags, no_t}; + false -> + {RaceList, RaceListSize, RaceTags, no_t} + end + end + end, + state__renew_info(NewRaceList, NewRaceListSize, NewRaceTags, NewTable, State). + +-spec race(dialyzer_dataflow:state()) -> dialyzer_dataflow:state(). + +race(State) -> + Races = dialyzer_dataflow:state__get_races(State), + RaceTags = Races#races.race_tags, + RetState = + case RaceTags of + [] -> State; + [#race_fun{mfa = Fun, + args = VarArgs, arg_types = ArgTypes, + vars = Args, file_line = FileLine, + index = Index, fun_mfa = CurrFun, + fun_label = CurrFunLabel}|T] -> + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + {ok, [_Args, Code]} = + dict:find(CurrFun, dialyzer_callgraph:get_race_code(Callgraph)), + RaceList = lists:reverse(Code), + RaceWarnTag = + case Fun of + {erlang, register, 2} -> ?WARN_WHEREIS_REGISTER; + {ets, insert, 2} -> ?WARN_ETS_LOOKUP_INSERT; + {mnesia, dirty_write, _A} -> ?WARN_MNESIA_DIRTY_READ_WRITE + end, + State1 = + state__renew_curr_fun(CurrFun, + state__renew_curr_fun_label(CurrFunLabel, + state__renew_race_list(lists:nthtail(length(RaceList) - Index, + RaceList), State))), + DepList = fixup_race_list(RaceWarnTag, VarArgs, State1), + {State2, RaceWarn} = + get_race_warn(Fun, Args, ArgTypes, DepList, State), + race( + state__add_race_warning( + state__renew_race_tags(T, State2), RaceWarn, RaceWarnTag, + FileLine)) + end, + state__renew_race_tags([], RetState). + +fixup_race_list(RaceWarnTag, WarnVarArgs, State) -> + Races = dialyzer_dataflow:state__get_races(State), + CurrFun = Races#races.curr_fun, + CurrFunLabel = Races#races.curr_fun_label, + RaceList = Races#races.race_list, + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + Digraph = dialyzer_callgraph:get_digraph(Callgraph), + Calls = digraph:edges(Digraph), + RaceTag = + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> whereis_register; + ?WARN_ETS_LOOKUP_INSERT -> ets_lookup_insert; + ?WARN_MNESIA_DIRTY_READ_WRITE -> mnesia_dirty_read_write + end, + NewRaceList = [RaceTag|RaceList], + CleanState = dialyzer_dataflow:state__cleanup(State), + NewState = state__renew_race_list(NewRaceList, CleanState), + DepList1 = + fixup_race_forward_pullout(CurrFun, CurrFunLabel, Calls, + lists:reverse(NewRaceList), [], CurrFun, + WarnVarArgs, RaceWarnTag, dict:new(), + [], [], [], 2 * ?local, NewState), + Parents = + fixup_race_backward(CurrFun, Calls, Calls, [], ?local), + UParents = lists:usort(Parents), + Filtered = + filter_parents(UParents, UParents, Digraph), + NewParents = + case lists:member(CurrFun, Filtered) of + true -> Filtered; + false -> [CurrFun|Filtered] + end, + DepList2 = + fixup_race_list_helper(NewParents, Calls, CurrFun, WarnVarArgs, + RaceWarnTag, NewState), + lists:usort(cleanup_dep_calls(DepList1 ++ DepList2)). + +fixup_race_list_helper(Parents, Calls, CurrFun, WarnVarArgs, RaceWarnTag, + State) -> + case Parents of + [] -> []; + [Head|Tail] -> + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + Code = + case dict:find(Head, dialyzer_callgraph:get_race_code(Callgraph)) of + error -> []; + {ok, [_A, C]} -> C + end, + {ok, FunLabel} = dialyzer_callgraph:lookup_label(Head, Callgraph), + DepList1 = + fixup_race_forward_pullout(Head, FunLabel, Calls, Code, [], CurrFun, + WarnVarArgs, RaceWarnTag, dict:new(), + [], [], [], 2 * ?local, State), + DepList2 = + fixup_race_list_helper(Tail, Calls, CurrFun, WarnVarArgs, + RaceWarnTag, State), + DepList1 ++ DepList2 + end. + +%%% =========================================================================== +%%% +%%% Forward Analysis +%%% +%%% =========================================================================== + +fixup_race_forward_pullout(CurrFun, CurrFunLabel, Calls, Code, RaceList, + InitFun, WarnVarArgs, RaceWarnTag, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NestingLevel, + State) -> + {DepList, NewCurrFun, NewCurrFunLabel, NewCalls, + NewCode, NewRaceList, NewRaceVarMap, NewFunDefVars, + NewFunCallVars, NewFunArgTypes, NewNestingLevel} = + fixup_race_forward(CurrFun, CurrFunLabel, Calls, Code, RaceList, + InitFun, WarnVarArgs, RaceWarnTag, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NestingLevel, + cleanup_race_code(State)), + case NewCode of + [] -> DepList; + [#fun_call{caller = NewCurrFun, callee = Call, arg_types = FunTypes, + vars = FunArgs}|Tail] -> + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + OkCall = {ok, Call}, + {Name, Label} = + case is_integer(Call) of + true -> + case dialyzer_callgraph:lookup_name(Call, Callgraph) of + error -> {OkCall, OkCall}; + N -> {N, OkCall} + end; + false -> + {OkCall, dialyzer_callgraph:lookup_label(Call, Callgraph)} + end, + {NewCurrFun1, NewCurrFunLabel1, NewCalls1, NewCode1, NewRaceList1, + NewRaceVarMap1, NewFunDefVars1, NewFunCallVars1, NewFunArgTypes1, + NewNestingLevel1} = + case Label =:= error of + true -> + {NewCurrFun, NewCurrFunLabel, NewCalls, Tail, NewRaceList, + NewRaceVarMap, NewFunDefVars, NewFunCallVars, NewFunArgTypes, + NewNestingLevel}; + false -> + {ok, Fun} = Name, + {ok, Int} = Label, + case dict:find(Fun, + dialyzer_callgraph:get_race_code(Callgraph)) of + error -> + {NewCurrFun, NewCurrFunLabel, NewCalls, Tail, NewRaceList, + NewRaceVarMap, NewFunDefVars, NewFunCallVars, NewFunArgTypes, + NewNestingLevel}; + {ok, [Args, CodeB]} -> + Races = dialyzer_dataflow:state__get_races(State), + {RetCurrFun, RetCurrFunLabel, RetCalls, RetCode, + RetRaceList, RetRaceVarMap, RetFunDefVars, RetFunCallVars, + RetFunArgTypes, RetNestingLevel} = + fixup_race_forward_helper(NewCurrFun, + NewCurrFunLabel, Fun, Int, NewCalls, NewCalls, + [#curr_fun{status = out, mfa = NewCurrFun, + label = NewCurrFunLabel, + var_map = NewRaceVarMap, + def_vars = NewFunDefVars, + call_vars = NewFunCallVars, + arg_types = NewFunArgTypes}| + Tail], + NewRaceList, InitFun, FunArgs, FunTypes, RaceWarnTag, + NewRaceVarMap, NewFunDefVars, NewFunCallVars, + NewFunArgTypes, NewNestingLevel, Args, CodeB, + Races#races.race_list), + case RetCode of + [#curr_fun{}|_CodeTail] -> + {NewCurrFun, NewCurrFunLabel, RetCalls, RetCode, + RetRaceList, NewRaceVarMap, NewFunDefVars, + NewFunCallVars, NewFunArgTypes, RetNestingLevel}; + _Else -> + {RetCurrFun, RetCurrFunLabel, RetCalls, RetCode, + RetRaceList, RetRaceVarMap, RetFunDefVars, + RetFunCallVars, RetFunArgTypes, RetNestingLevel} + end + end + end, + DepList ++ + fixup_race_forward_pullout(NewCurrFun1, NewCurrFunLabel1, NewCalls1, + NewCode1, NewRaceList1, InitFun, WarnVarArgs, + RaceWarnTag, NewRaceVarMap1, NewFunDefVars1, + NewFunCallVars1, NewFunArgTypes1, + NewNestingLevel1, State) + end. + +fixup_race_forward(CurrFun, CurrFunLabel, Calls, Code, RaceList, + InitFun, WarnVarArgs, RaceWarnTag, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NestingLevel, + State) -> + case Code of + [] -> + {[], CurrFun, CurrFunLabel, Calls, Code, RaceList, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NestingLevel}; + [Head|Tail] -> + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + {NewRL, DepList, NewNL, Return} = + case Head of + #dep_call{call_name = whereis} -> + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + {[Head#dep_call{var_map = RaceVarMap}|RaceList], + [], NestingLevel, false}; + _Other -> + {RaceList, [], NestingLevel, false} + end; + #dep_call{call_name = ets_lookup, args = DepCallArgs} -> + case RaceWarnTag of + ?WARN_ETS_LOOKUP_INSERT -> + [Tab, Names, _, _] = DepCallArgs, + case compare_var_list(Tab, + dialyzer_callgraph:get_public_tables(Callgraph), + RaceVarMap) + orelse + length(Names -- + dialyzer_callgraph:get_named_tables(Callgraph)) < + length(Names) of + true -> + {[Head#dep_call{var_map = RaceVarMap}|RaceList], + [], NestingLevel, false}; + false -> + {RaceList, [], NestingLevel, false} + end; + _Other -> + {RaceList, [], NestingLevel, false} + end; + #dep_call{call_name = mnesia_dirty_read} -> + case RaceWarnTag of + ?WARN_MNESIA_DIRTY_READ_WRITE -> + {[Head#dep_call{var_map = RaceVarMap}|RaceList], + [], NestingLevel, false}; + _Other -> + {RaceList, [], NestingLevel, false} + end; + #warn_call{call_name = register} -> + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + {[Head#warn_call{var_map = RaceVarMap}|RaceList], + [], NestingLevel, false}; + _Other -> + {RaceList, [], NestingLevel, false} + end; + #warn_call{call_name = ets_insert, args = WarnCallArgs} -> + case RaceWarnTag of + ?WARN_ETS_LOOKUP_INSERT -> + [Tab, Names, _, _] = WarnCallArgs, + case compare_var_list(Tab, + dialyzer_callgraph:get_public_tables(Callgraph), + RaceVarMap) + orelse + length(Names -- + dialyzer_callgraph:get_named_tables(Callgraph)) < + length(Names) of + true -> + {[Head#warn_call{var_map = RaceVarMap}|RaceList], + [], NestingLevel, false}; + false -> + {RaceList, [], NestingLevel, false} + end; + _Other -> + {RaceList, [], NestingLevel, false} + end; + #warn_call{call_name = mnesia_dirty_write} -> + case RaceWarnTag of + ?WARN_MNESIA_DIRTY_READ_WRITE -> + {[Head#warn_call{var_map = RaceVarMap}|RaceList], + [], NestingLevel, false}; + _Other -> + {RaceList, [], NestingLevel, false} + end; + #fun_call{caller = CurrFun, callee = InitFun} -> + {RaceList, [], NestingLevel, false}; + #fun_call{caller = CurrFun} -> + {RaceList, [], NestingLevel - 1, false}; + beg_case -> + {[Head|RaceList], [], NestingLevel, false}; + #beg_clause{} -> + {[#beg_clause{}|RaceList], [], NestingLevel, false}; + #end_clause{} -> + {[#end_clause{}|RaceList], [], NestingLevel, false}; + #end_case{} -> + {[Head|RaceList], [], NestingLevel, false}; + #let_tag{} -> + {RaceList, [], NestingLevel, false}; + #curr_fun{status = in, mfa = InitFun, + label = _InitFunLabel, var_map = _NewRVM, + def_vars = NewFDV, call_vars = NewFCV, + arg_types = _NewFAT} -> + {[#curr_fun{status = out, var_map = RaceVarMap, + def_vars = NewFDV, call_vars = NewFCV}| + RaceList], [], NestingLevel - 1, false}; + #curr_fun{status = in, def_vars = NewFDV, + call_vars = NewFCV} -> + {[#curr_fun{status = out, var_map = RaceVarMap, + def_vars = NewFDV, call_vars = NewFCV}| + RaceList], + [], NestingLevel - 1, false}; + #curr_fun{status = out} -> + {[#curr_fun{status = in, var_map = RaceVarMap}|RaceList], [], + NestingLevel + 1, false}; + RaceTag -> + PublicTables = dialyzer_callgraph:get_public_tables(Callgraph), + NamedTables = dialyzer_callgraph:get_named_tables(Callgraph), + WarnVarArgs1 = + var_type_analysis(FunDefVars, FunArgTypes, WarnVarArgs, + RaceWarnTag, RaceVarMap, + dialyzer_dataflow:state__records_only(State)), + {NewDepList, IsPublic, _Return} = + get_deplist_paths(RaceList, WarnVarArgs1, RaceWarnTag, + RaceVarMap, 0, PublicTables, NamedTables), + {NewHead, NewDepList1} = + case RaceTag of + whereis_register -> + {[#warn_call{call_name = register, args = WarnVarArgs, + var_map = RaceVarMap}], + NewDepList}; + ets_lookup_insert -> + NewWarnCall = + [#warn_call{call_name = ets_insert, args = WarnVarArgs, + var_map = RaceVarMap}], + [Tab, Names, _, _] = WarnVarArgs, + case IsPublic orelse + compare_var_list(Tab, PublicTables, RaceVarMap) + orelse + length(Names -- NamedTables) < length(Names) of + true -> + {NewWarnCall, NewDepList}; + false -> {NewWarnCall, []} + end; + mnesia_dirty_read_write -> + {[#warn_call{call_name = mnesia_dirty_write, + args = WarnVarArgs, var_map = RaceVarMap}], + NewDepList} + end, + {NewHead ++ RaceList, NewDepList1, NestingLevel, + is_last_race(RaceTag, InitFun, Tail, Callgraph)} + end, + {NewCurrFun, NewCurrFunLabel, NewCode, NewRaceList, NewRaceVarMap, + NewFunDefVars, NewFunCallVars, NewFunArgTypes, NewNestingLevel, + PullOut} = + case Head of + #fun_call{caller = CurrFun} -> + case NewNL =:= 0 of + true -> + {CurrFun, CurrFunLabel, Tail, NewRL, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NewNL, false}; + false -> + {CurrFun, CurrFunLabel, Code, NewRL, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NewNL, true} + end; + #beg_clause{arg = Arg, pats = Pats, guard = Guard} -> + {RaceVarMap1, RemoveClause} = + race_var_map_guard(Arg, Pats, Guard, RaceVarMap, bind), + case RemoveClause of + true -> + {RaceList2, + #curr_fun{mfa = CurrFun2, label = CurrFunLabel2, + var_map = RaceVarMap2, def_vars = FunDefVars2, + call_vars = FunCallVars2, arg_types = FunArgTypes2}, + Code2, NestingLevel2} = + remove_clause(NewRL, + #curr_fun{mfa = CurrFun, label = CurrFunLabel, + var_map = RaceVarMap1, + def_vars = FunDefVars, + call_vars = FunCallVars, + arg_types = FunArgTypes}, + Tail, NewNL), + {CurrFun2, CurrFunLabel2, Code2, RaceList2, + RaceVarMap2, FunDefVars2, FunCallVars2, FunArgTypes2, + NestingLevel2, false}; + false -> + {CurrFun, CurrFunLabel, Tail, NewRL, RaceVarMap1, + FunDefVars, FunCallVars, FunArgTypes, NewNL, false} + end; + #end_clause{arg = Arg, pats = Pats, guard = Guard} -> + {RaceVarMap1, _RemoveClause} = + race_var_map_guard(Arg, Pats, Guard, RaceVarMap, unbind), + {CurrFun, CurrFunLabel, Tail, NewRL, RaceVarMap1, + FunDefVars, FunCallVars, FunArgTypes, NewNL, + false}; + #end_case{clauses = Clauses} -> + RaceVarMap1 = + race_var_map_clauses(Clauses, RaceVarMap), + {CurrFun, CurrFunLabel, Tail, NewRL, RaceVarMap1, + FunDefVars, FunCallVars, FunArgTypes, NewNL, + false}; + #let_tag{var = Var, arg = Arg} -> + {CurrFun, CurrFunLabel, Tail, NewRL, + race_var_map(Var, Arg, RaceVarMap, bind), FunDefVars, + FunCallVars, FunArgTypes, NewNL, false}; + #curr_fun{mfa = CurrFun1, label = CurrFunLabel1, + var_map = RaceVarMap1, def_vars = FunDefVars1, + call_vars = FunCallVars1, arg_types = FunArgTypes1} -> + case NewNL =:= 0 of + true -> + {CurrFun, CurrFunLabel, + remove_nonlocal_functions(Tail, 1), NewRL, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NewNL, false}; + false -> + {CurrFun1, CurrFunLabel1, Tail, NewRL, RaceVarMap1, + FunDefVars1, FunCallVars1, FunArgTypes1, NewNL, false} + end; + _Thing -> + {CurrFun, CurrFunLabel, Tail, NewRL, RaceVarMap, + FunDefVars, FunCallVars, FunArgTypes, NewNL, false} + end, + case Return of + true -> + {DepList, NewCurrFun, NewCurrFunLabel, Calls, + [], NewRaceList, NewRaceVarMap, NewFunDefVars, + NewFunCallVars, NewFunArgTypes, NewNestingLevel}; + false -> + NewNestingLevel1 = + case NewNestingLevel =:= 0 of + true -> NewNestingLevel + 1; + false -> NewNestingLevel + end, + case PullOut of + true -> + {DepList, NewCurrFun, NewCurrFunLabel, Calls, + NewCode, NewRaceList, NewRaceVarMap, NewFunDefVars, + NewFunCallVars, NewFunArgTypes, NewNestingLevel1}; + false -> + {RetDepList, NewCurrFun1, NewCurrFunLabel1, NewCalls1, + NewCode1, NewRaceList1, NewRaceVarMap1, NewFunDefVars1, + NewFunCallVars1, NewFunArgTypes1, NewNestingLevel2} = + fixup_race_forward(NewCurrFun, NewCurrFunLabel, Calls, + NewCode, NewRaceList, InitFun, WarnVarArgs, + RaceWarnTag, NewRaceVarMap, NewFunDefVars, + NewFunCallVars, NewFunArgTypes, + NewNestingLevel1, State), + {DepList ++ RetDepList, NewCurrFun1, NewCurrFunLabel1, + NewCalls1, NewCode1, NewRaceList1, NewRaceVarMap1, + NewFunDefVars1, NewFunCallVars1, NewFunArgTypes1, + NewNestingLevel2} + end + end + end. + +get_deplist_paths(RaceList, WarnVarArgs, RaceWarnTag, RaceVarMap, CurrLevel, + PublicTables, NamedTables) -> + case RaceList of + [] -> {[], false, true}; + [Head|Tail] -> + case Head of + #end_case{} -> + {RaceList1, DepList1, IsPublic1, Continue1} = + handle_case(Tail, WarnVarArgs, RaceWarnTag, RaceVarMap, CurrLevel, + PublicTables, NamedTables), + case Continue1 of + true -> + {DepList2, IsPublic2, Continue2} = + get_deplist_paths(RaceList1, WarnVarArgs, RaceWarnTag, + RaceVarMap, CurrLevel, PublicTables, + NamedTables), + {DepList1 ++ DepList2, IsPublic1 orelse IsPublic2, Continue2}; + false -> {DepList1, IsPublic1, false} + end; + #beg_clause{} -> + get_deplist_paths(fixup_before_case_path(Tail), WarnVarArgs, + RaceWarnTag, RaceVarMap, CurrLevel, PublicTables, + NamedTables); + #curr_fun{status = in, var_map = RaceVarMap1} -> + {DepList, IsPublic, Continue} = + get_deplist_paths(Tail, WarnVarArgs, RaceWarnTag, RaceVarMap, + CurrLevel + 1, PublicTables, NamedTables), + IsPublic1 = + case RaceWarnTag of + ?WARN_ETS_LOOKUP_INSERT -> + [Tabs, Names, _, _] = WarnVarArgs, + IsPublic orelse + lists:any( + fun (T) -> + compare_var_list(T, PublicTables, RaceVarMap1) + end, Tabs) + orelse + length(Names -- NamedTables) < length(Names); + _ -> true + end, + {DepList, IsPublic1, Continue}; + #curr_fun{status = out, var_map = RaceVarMap1, def_vars = FunDefVars, + call_vars = FunCallVars} -> + WarnVarArgs1 = + var_analysis([format_arg(DefVar) || DefVar <- FunDefVars], + [format_arg(CallVar) || CallVar <- FunCallVars], + WarnVarArgs, RaceWarnTag), + {WarnVarArgs2, Stop} = + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + [WVA1, WVA2, WVA3, WVA4] = WarnVarArgs1, + Vars = + lists:flatten( + [find_all_bound_vars(V, RaceVarMap1) || V <- WVA1]), + case {Vars, CurrLevel} of + {[], 0} -> + {WarnVarArgs, true}; + {[], _} -> + {WarnVarArgs, false}; + _ -> + {[Vars, WVA2, WVA3, WVA4], false} + end; + ?WARN_ETS_LOOKUP_INSERT -> + [WVA1, WVA2, WVA3, WVA4] = WarnVarArgs1, + Vars1 = + lists:flatten( + [find_all_bound_vars(V1, RaceVarMap1) || V1 <- WVA1]), + Vars2 = + lists:flatten( + [find_all_bound_vars(V2, RaceVarMap1) || V2 <- WVA3]), + case {Vars1, Vars2, CurrLevel} of + {[], _, 0} -> + {WarnVarArgs, true}; + {[], _, _} -> + {WarnVarArgs, false}; + {_, [], 0} -> + {WarnVarArgs, true}; + {_, [], _} -> + {WarnVarArgs, false}; + _ -> + {[Vars1, WVA2, Vars2, WVA4], false} + end; + ?WARN_MNESIA_DIRTY_READ_WRITE -> + [WVA1, WVA2|T] = WarnVarArgs1, + Vars = + lists:flatten( + [find_all_bound_vars(V, RaceVarMap1) || V <- WVA1]), + case {Vars, CurrLevel} of + {[], 0} -> + {WarnVarArgs, true}; + {[], _} -> + {WarnVarArgs, false}; + _ -> + {[Vars, WVA2|T], false} + end + end, + case Stop of + true -> {[], false, false}; + false -> + CurrLevel1 = + case CurrLevel of + 0 -> CurrLevel; + _ -> CurrLevel - 1 + end, + get_deplist_paths(Tail, WarnVarArgs2, RaceWarnTag, RaceVarMap1, + CurrLevel1, PublicTables, NamedTables) + end; + #warn_call{call_name = register, args = WarnVarArgs1, + var_map = RaceVarMap1} -> + case compare_first_arg(WarnVarArgs, WarnVarArgs1, RaceVarMap1) of + true -> {[], false, false}; + NewWarnVarArgs -> + get_deplist_paths(Tail, NewWarnVarArgs, RaceWarnTag, RaceVarMap, + CurrLevel, PublicTables, NamedTables) + end; + #warn_call{call_name = ets_insert, args = WarnVarArgs1, + var_map = RaceVarMap1} -> + case compare_ets_insert(WarnVarArgs, WarnVarArgs1, RaceVarMap1) of + true -> {[], false, false}; + NewWarnVarArgs -> + get_deplist_paths(Tail, NewWarnVarArgs, RaceWarnTag, RaceVarMap, + CurrLevel, PublicTables, NamedTables) + end; + #warn_call{call_name = mnesia_dirty_write, args = WarnVarArgs1, + var_map = RaceVarMap1} -> + case compare_first_arg(WarnVarArgs, WarnVarArgs1, RaceVarMap1) of + true -> {[], false, false}; + NewWarnVarArgs -> + get_deplist_paths(Tail, NewWarnVarArgs, RaceWarnTag, RaceVarMap, + CurrLevel, PublicTables, NamedTables) + end; + #dep_call{var_map = RaceVarMap1} -> + {DepList, IsPublic, Continue} = + get_deplist_paths(Tail, WarnVarArgs, RaceWarnTag, RaceVarMap, + CurrLevel, PublicTables, NamedTables), + {refine_race(Head, WarnVarArgs, RaceWarnTag, DepList, RaceVarMap1), + IsPublic, Continue} + end + end. + +handle_case(RaceList, WarnVarArgs, RaceWarnTag, RaceVarMap, CurrLevel, + PublicTables, NamedTables) -> + case RaceList of + [] -> {[], [], false, true}; + [Head|Tail] -> + case Head of + #end_clause{} -> + {RestRaceList, DepList1, IsPublic1, Continue1} = + do_clause(Tail, WarnVarArgs, RaceWarnTag, RaceVarMap, CurrLevel, + PublicTables, NamedTables), + {RetRaceList, DepList2, IsPublic2, Continue2} = + handle_case(RestRaceList, WarnVarArgs, RaceWarnTag, RaceVarMap, + CurrLevel, PublicTables, NamedTables), + {RetRaceList, DepList1 ++ DepList2, IsPublic1 orelse IsPublic2, + Continue1 orelse Continue2}; + beg_case -> {Tail, [], false, false} + end + end. + +do_clause(RaceList, WarnVarArgs, RaceWarnTag, RaceVarMap, CurrLevel, + PublicTables, NamedTables) -> + {DepList, IsPublic, Continue} = + get_deplist_paths(fixup_case_path(RaceList, 0), WarnVarArgs, + RaceWarnTag, RaceVarMap, CurrLevel, + PublicTables, NamedTables), + {fixup_case_rest_paths(RaceList, 0), DepList, IsPublic, Continue}. + +fixup_case_path(RaceList, NestingLevel) -> + case RaceList of + [] -> []; + [Head|Tail] -> + {NewNestingLevel, Return} = + case Head of + beg_case -> {NestingLevel - 1, false}; + #end_case{} -> {NestingLevel + 1, false}; + #beg_clause{} -> + case NestingLevel =:= 0 of + true -> {NestingLevel, true}; + false -> {NestingLevel, false} + end; + _Other -> {NestingLevel, false} + end, + case Return of + true -> []; + false -> [Head|fixup_case_path(Tail, NewNestingLevel)] + end + end. + +%% Gets the race list before a case clause. +fixup_before_case_path(RaceList) -> + case RaceList of + [] -> []; + [Head|Tail] -> + case Head of + #end_clause{} -> + fixup_before_case_path(fixup_case_rest_paths(Tail, 0)); + beg_case -> Tail + end + end. + +fixup_case_rest_paths(RaceList, NestingLevel) -> + case RaceList of + [] -> []; + [Head|Tail] -> + {NewNestingLevel, Return} = + case Head of + beg_case -> {NestingLevel - 1, false}; + #end_case{} -> {NestingLevel + 1, false}; + #beg_clause{} -> + case NestingLevel =:= 0 of + true -> {NestingLevel, true}; + false -> {NestingLevel, false} + end; + _Other -> {NestingLevel, false} + end, + case Return of + true -> Tail; + false -> fixup_case_rest_paths(Tail, NewNestingLevel) + end + end. + +fixup_race_forward_helper(CurrFun, CurrFunLabel, Fun, FunLabel, + Calls, CallsToAnalyze, Code, RaceList, + InitFun, NewFunArgs, NewFunTypes, + RaceWarnTag, RaceVarMap, FunDefVars, + FunCallVars, FunArgTypes, NestingLevel, + Args, CodeB, StateRaceList) -> + case Calls of + [] -> + {NewRaceList, + #curr_fun{mfa = NewCurrFun, label = NewCurrFunLabel, + var_map = NewRaceVarMap, def_vars = NewFunDefVars, + call_vars = NewFunCallVars, arg_types = NewFunArgTypes}, + NewCode, NewNestingLevel} = + remove_clause(RaceList, + #curr_fun{mfa = CurrFun, label = CurrFunLabel, var_map = RaceVarMap, + def_vars = FunDefVars, call_vars = FunCallVars, + arg_types = FunArgTypes}, + Code, NestingLevel), + {NewCurrFun, NewCurrFunLabel, CallsToAnalyze, NewCode, NewRaceList, + NewRaceVarMap, NewFunDefVars, NewFunCallVars, NewFunArgTypes, + NewNestingLevel}; + [Head|Tail] -> + case Head of + {InitFun, InitFun} when CurrFun =:= InitFun, Fun =:= InitFun -> + NewCallsToAnalyze = lists:delete(Head, CallsToAnalyze), + NewRaceVarMap = + race_var_map(Args, NewFunArgs, RaceVarMap, bind), + RetC = + fixup_all_calls(InitFun, InitFun, FunLabel, Args, + CodeB ++ + [#curr_fun{status = out, mfa = InitFun, + label = CurrFunLabel, var_map = RaceVarMap, + def_vars = FunDefVars, call_vars = FunCallVars, + arg_types = FunArgTypes}], + Code, RaceVarMap), + NewCode = + fixup_all_calls(InitFun, InitFun, FunLabel, Args, + CodeB ++ + [#curr_fun{status = out, mfa = InitFun, + label = CurrFunLabel, var_map = NewRaceVarMap, + def_vars = Args, call_vars = NewFunArgs, + arg_types = NewFunTypes}], + [#curr_fun{status = in, mfa = Fun, + label = FunLabel, var_map = NewRaceVarMap, + def_vars = Args, call_vars = NewFunArgs, + arg_types = NewFunTypes}| + lists:reverse(StateRaceList)] ++ + RetC, NewRaceVarMap), + {InitFun, FunLabel, NewCallsToAnalyze, NewCode, RaceList, + NewRaceVarMap, Args, NewFunArgs, NewFunTypes, NestingLevel}; + {CurrFun, Fun} -> + NewCallsToAnalyze = lists:delete(Head, CallsToAnalyze), + NewRaceVarMap = + race_var_map(Args, NewFunArgs, RaceVarMap, bind), + RetC = + case Fun of + InitFun -> + fixup_all_calls(CurrFun, Fun, FunLabel, Args, + lists:reverse(StateRaceList) ++ + [#curr_fun{status = out, mfa = CurrFun, + label = CurrFunLabel, var_map = RaceVarMap, + def_vars = FunDefVars, call_vars = FunCallVars, + arg_types = FunArgTypes}], + Code, RaceVarMap); + _Other1 -> + fixup_all_calls(CurrFun, Fun, FunLabel, Args, + CodeB ++ + [#curr_fun{status = out, mfa = CurrFun, + label = CurrFunLabel, var_map = RaceVarMap, + def_vars = FunDefVars, call_vars = FunCallVars, + arg_types = FunArgTypes}], + Code, RaceVarMap) + end, + NewCode = + case Fun of + InitFun -> + [#curr_fun{status = in, mfa = Fun, + label = FunLabel, var_map = NewRaceVarMap, + def_vars = Args, call_vars = NewFunArgs, + arg_types = NewFunTypes}| + lists:reverse(StateRaceList)] ++ + RetC; + _ -> + [#curr_fun{status = in, mfa = Fun, + label = FunLabel, var_map = NewRaceVarMap, + def_vars = Args, call_vars = NewFunArgs, + arg_types = NewFunTypes}|CodeB] ++ + RetC + end, + {Fun, FunLabel, NewCallsToAnalyze, NewCode, RaceList, NewRaceVarMap, + Args, NewFunArgs, NewFunTypes, NestingLevel}; + {_TupleA, _TupleB} -> + fixup_race_forward_helper(CurrFun, CurrFunLabel, Fun, FunLabel, + Tail, CallsToAnalyze, Code, RaceList, InitFun, NewFunArgs, + NewFunTypes, RaceWarnTag, RaceVarMap, FunDefVars, FunCallVars, + FunArgTypes, NestingLevel, Args, CodeB, StateRaceList) + end + end. + +%%% =========================================================================== +%%% +%%% Backward Analysis +%%% +%%% =========================================================================== + +fixup_race_backward(CurrFun, Calls, CallsToAnalyze, Parents, Height) -> + case Height =:= 0 of + true -> Parents; + false -> + case Calls of + [] -> + case is_integer(CurrFun) orelse lists:member(CurrFun, Parents) of + true -> Parents; + false -> [CurrFun|Parents] + end; + [Head|Tail] -> + MorePaths = + case Head of + {Parent, CurrFun} -> true; + {Parent, _TupleB} -> false + end, + case MorePaths of + true -> + NewCallsToAnalyze = lists:delete(Head, CallsToAnalyze), + NewParents = + fixup_race_backward(Parent, NewCallsToAnalyze, + NewCallsToAnalyze, Parents, Height - 1), + fixup_race_backward(CurrFun, Tail, NewCallsToAnalyze, NewParents, + Height); + false -> + fixup_race_backward(CurrFun, Tail, CallsToAnalyze, Parents, + Height) + end + end + end. + +%%% =========================================================================== +%%% +%%% Utilities +%%% +%%% =========================================================================== + +are_bound_labels(Label1, Label2, RaceVarMap) -> + case dict:find(Label1, RaceVarMap) of + error -> false; + {ok, Labels} -> + lists:member(Label2, Labels) orelse + are_bound_labels_helper(Labels, Label1, Label2, RaceVarMap) + end. + +are_bound_labels_helper(Labels, OldLabel, CompLabel, RaceVarMap) -> + case dict:size(RaceVarMap) of + 0 -> false; + _ -> + case Labels of + [] -> false; + [Head|Tail] -> + NewRaceVarMap = dict:erase(OldLabel, RaceVarMap), + are_bound_labels(Head, CompLabel, NewRaceVarMap) orelse + are_bound_labels_helper(Tail, Head, CompLabel, NewRaceVarMap) + end + end. + +are_bound_vars(Vars1, Vars2, RaceVarMap) -> + case is_list(Vars1) andalso is_list(Vars2) of + true -> + case Vars1 of + [] -> false; + [AHead|ATail] -> + case Vars2 of + [] -> false; + [PHead|PTail] -> + are_bound_vars(AHead, PHead, RaceVarMap) andalso + are_bound_vars(ATail, PTail, RaceVarMap) + end + end; + false -> + {NewVars1, NewVars2, IsList} = + case is_list(Vars1) of + true -> + case Vars1 of + [Var1] -> {Var1, Vars2, true}; + _Thing -> {Vars1, Vars2, false} + end; + false -> + case is_list(Vars2) of + true -> + case Vars2 of + [Var2] -> {Vars1, Var2, true}; + _Thing -> {Vars1, Vars2, false} + end; + false -> {Vars1, Vars2, true} + end + end, + case IsList of + true -> + case cerl:type(NewVars1) of + var -> + case cerl:type(NewVars2) of + var -> + ALabel = cerl_trees:get_label(NewVars1), + PLabel = cerl_trees:get_label(NewVars2), + are_bound_labels(ALabel, PLabel, RaceVarMap) orelse + are_bound_labels(PLabel, ALabel, RaceVarMap); + alias -> + are_bound_vars(NewVars1, cerl:alias_var(NewVars2), + RaceVarMap); + values -> + are_bound_vars(NewVars1, cerl:values_es(NewVars2), + RaceVarMap); + _Other -> false + end; + tuple -> + case cerl:type(NewVars2) of + tuple -> + are_bound_vars(cerl:tuple_es(NewVars1), + cerl:tuple_es(NewVars2), RaceVarMap); + alias -> + are_bound_vars(NewVars1, cerl:alias_var(NewVars2), + RaceVarMap); + values -> + are_bound_vars(NewVars1, cerl:values_es(NewVars2), + RaceVarMap); + _Other -> false + end; + cons -> + case cerl:type(NewVars2) of + cons -> + are_bound_vars(cerl:cons_hd(NewVars1), + cerl:cons_hd(NewVars2), RaceVarMap) + andalso + are_bound_vars(cerl:cons_tl(NewVars1), + cerl:cons_tl(NewVars2), RaceVarMap); + alias -> + are_bound_vars(NewVars1, cerl:alias_var(NewVars2), + RaceVarMap); + values -> + are_bound_vars(NewVars1, cerl:values_es(NewVars2), + RaceVarMap); + _Other -> false + end; + alias -> + case cerl:type(NewVars2) of + alias -> + are_bound_vars(cerl:alias_var(NewVars1), + cerl:alias_var(NewVars2), RaceVarMap); + _Other -> + are_bound_vars(cerl:alias_var(NewVars1), + NewVars2, RaceVarMap) + end; + values -> + case cerl:type(NewVars2) of + values -> + are_bound_vars(cerl:values_es(NewVars1), + cerl:values_es(NewVars2), RaceVarMap); + _Other -> + are_bound_vars(cerl:values_es(NewVars1), + NewVars2, RaceVarMap) + end; + _Other -> false + end; + false -> false + end + end. + +callgraph__renew_tables(Table, Callgraph) -> + case Table of + {named, NameLabel, Names} -> + PTablesToAdd = + case NameLabel of + ?no_label -> []; + _Other -> [NameLabel] + end, + NamesToAdd = filter_named_tables(Names), + PTables = dialyzer_callgraph:get_public_tables(Callgraph), + NTables = dialyzer_callgraph:get_named_tables(Callgraph), + dialyzer_callgraph:put_public_tables( + lists:usort(PTablesToAdd ++ PTables), + dialyzer_callgraph:put_named_tables( + NamesToAdd ++ NTables, Callgraph)); + _Other -> + Callgraph + end. + +cleanup_clause_code(#curr_fun{mfa = CurrFun} = CurrTuple, Code, + NestingLevel, LocalNestingLevel) -> + case Code of + [] -> {CurrTuple, []}; + [Head|Tail] -> + {NewLocalNestingLevel, NewNestingLevel, NewCurrTuple, Return} = + case Head of + beg_case -> + {LocalNestingLevel, NestingLevel + 1, CurrTuple, false}; + #end_case{} -> + {LocalNestingLevel, NestingLevel - 1, CurrTuple, false}; + #end_clause{} -> + case NestingLevel =:= 0 of + true -> + {LocalNestingLevel, NestingLevel, CurrTuple, true}; + false -> + {LocalNestingLevel, NestingLevel, CurrTuple, false} + end; + #fun_call{caller = CurrFun} -> + {LocalNestingLevel - 1, NestingLevel, CurrTuple, false}; + #curr_fun{status = in} -> + {LocalNestingLevel - 1, NestingLevel, Head, false}; + #curr_fun{status = out} -> + {LocalNestingLevel + 1, NestingLevel, Head, false}; + Other when Other =/= #fun_call{} -> + {LocalNestingLevel, NestingLevel, CurrTuple, false} + end, + case Return of + true -> {NewCurrTuple, Tail}; + false -> + cleanup_clause_code(NewCurrTuple, Tail, NewNestingLevel, + NewLocalNestingLevel) + end + end. + +cleanup_dep_calls(DepList) -> + case DepList of + [] -> []; + [#dep_call{call_name = CallName, arg_types = ArgTypes, + vars = Vars, state = State, file_line = FileLine}|T] -> + [#dep_call{call_name = CallName, arg_types = ArgTypes, + vars = Vars, state = State, file_line = FileLine}| + cleanup_dep_calls(T)] + end. + +cleanup_race_code(State) -> + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + dialyzer_dataflow:state__put_callgraph( + dialyzer_callgraph:race_code_new(Callgraph), State). + +filter_named_tables(NamesList) -> + case NamesList of + [] -> []; + [Head|Tail] -> + NewHead = + case string:rstr(Head, "()") of + 0 -> [Head]; + _Other -> [] + end, + NewHead ++ filter_named_tables(Tail) + end. + +filter_parents(Parents, NewParents, Digraph) -> + case Parents of + [] -> NewParents; + [Head|Tail] -> + NewParents1 = filter_parents_helper1(Head, Tail, NewParents, Digraph), + filter_parents(Tail, NewParents1, Digraph) + end. + +filter_parents_helper1(First, Rest, NewParents, Digraph) -> + case Rest of + [] -> NewParents; + [Head|Tail] -> + NewParents1 = filter_parents_helper2(First, Head, NewParents, Digraph), + filter_parents_helper1(First, Tail, NewParents1, Digraph) + end. + +filter_parents_helper2(Parent1, Parent2, NewParents, Digraph) -> + case digraph:get_path(Digraph, Parent1, Parent2) of + false -> + case digraph:get_path(Digraph, Parent2, Parent1) of + false -> NewParents; + _Vertices -> NewParents -- [Parent1] + end; + _Vertices -> NewParents -- [Parent2] + end. + +find_all_bound_vars(Label, RaceVarMap) -> + case dict:find(Label, RaceVarMap) of + error -> [Label]; + {ok, Labels} -> + lists:usort(Labels ++ + find_all_bound_vars_helper(Labels, Label, RaceVarMap)) + end. + +find_all_bound_vars_helper(Labels, Label, RaceVarMap) -> + case dict:size(RaceVarMap) of + 0 -> []; + _ -> + case Labels of + [] -> []; + [Head|Tail] -> + NewRaceVarMap = dict:erase(Label, RaceVarMap), + find_all_bound_vars(Head, NewRaceVarMap) ++ + find_all_bound_vars_helper(Tail, Head, NewRaceVarMap) + end + end. + +fixup_all_calls(CurrFun, NextFun, NextFunLabel, Args, CodeToReplace, + Code, RaceVarMap) -> + case Code of + [] -> []; + [Head|Tail] -> + NewCode = + case Head of + #fun_call{caller = CurrFun, callee = Callee, + arg_types = FunArgTypes, vars = FunArgs} + when Callee =:= NextFun orelse Callee =:= NextFunLabel -> + RaceVarMap1 = race_var_map(Args, FunArgs, RaceVarMap, bind), + [#curr_fun{status = in, mfa = NextFun, label = NextFunLabel, + var_map = RaceVarMap1, def_vars = Args, + call_vars = FunArgs, arg_types = FunArgTypes}| + CodeToReplace]; + _Other -> [Head] + end, + RetCode = + fixup_all_calls(CurrFun, NextFun, NextFunLabel, Args, CodeToReplace, + Tail, RaceVarMap), + NewCode ++ RetCode + end. + +is_last_race(RaceTag, InitFun, Code, Callgraph) -> + case Code of + [] -> true; + [Head|Tail] -> + case Head of + RaceTag -> false; + #fun_call{callee = Fun} -> + FunName = + case is_integer(Fun) of + true -> + case dialyzer_callgraph:lookup_name(Fun, Callgraph) of + error -> Fun; + {ok, Name} -> Name + end; + false -> Fun + end, + Digraph = dialyzer_callgraph:get_digraph(Callgraph), + case FunName =:= InitFun orelse + digraph:get_path(Digraph, FunName, InitFun) of + false -> is_last_race(RaceTag, InitFun, Tail, Callgraph); + _Vertices -> false + end; + _Other -> is_last_race(RaceTag, InitFun, Tail, Callgraph) + end + end. + +lists_key_member(Member, List, N) when is_integer(Member) -> + case List of + [] -> 0; + [Head|Tail] -> + NewN = N + 1, + case Head of + Member -> NewN; + _Other -> lists_key_member(Member, Tail, NewN) + end + end; +lists_key_member(_M, _L, _N) -> + 0. + +lists_key_member_lists(MemberList, List) -> + case MemberList of + [] -> 0; + [Head|Tail] -> + case lists_key_member(Head, List, 0) of + 0 -> lists_key_member_lists(Tail, List); + Other -> Other + end + end. + +lists_key_members_lists(MemberList, List) -> + case MemberList of + [] -> []; + [Head|Tail] -> + lists:usort( + lists_key_members_lists_helper(Head, List, 1) ++ + lists_key_members_lists(Tail, List)) + end. + +lists_key_members_lists_helper(Elem, List, N) when is_integer(Elem) -> + case List of + [] -> []; + [Head|Tail] -> + NewHead = + case Head =:= Elem of + true -> [N]; + false -> [] + end, + NewHead ++ lists_key_members_lists_helper(Elem, Tail, N + 1) + end; +lists_key_members_lists_helper(_Elem, _List, _N) -> + [0]. + +lists_key_replace(N, List, NewMember) -> + {Before, [_|After]} = lists:split(N - 1, List), + Before ++ [NewMember|After]. + +lists_get(0, _List) -> ?no_label; +lists_get(N, List) -> lists:nth(N, List). + +refine_race(RaceCall, WarnVarArgs, RaceWarnTag, DependencyList, RaceVarMap) -> + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + case RaceCall of + #dep_call{call_name = ets_lookup} -> + DependencyList; + #dep_call{call_name = mnesia_dirty_read} -> + DependencyList; + #dep_call{call_name = whereis, args = VarArgs} -> + refine_race_helper(RaceCall, VarArgs, WarnVarArgs, RaceWarnTag, + DependencyList, RaceVarMap) + end; + ?WARN_ETS_LOOKUP_INSERT -> + case RaceCall of + #dep_call{call_name = whereis} -> + DependencyList; + #dep_call{call_name = mnesia_dirty_read} -> + DependencyList; + #dep_call{call_name = ets_lookup, args = VarArgs} -> + refine_race_helper(RaceCall, VarArgs, WarnVarArgs, RaceWarnTag, + DependencyList, RaceVarMap) + end; + ?WARN_MNESIA_DIRTY_READ_WRITE -> + case RaceCall of + #dep_call{call_name = whereis} -> + DependencyList; + #dep_call{call_name = ets_lookup} -> + DependencyList; + #dep_call{call_name = mnesia_dirty_read, args = VarArgs} -> + refine_race_helper(RaceCall, VarArgs, WarnVarArgs, RaceWarnTag, + DependencyList, RaceVarMap) + end + end. + +refine_race_helper(RaceCall, VarArgs, WarnVarArgs, RaceWarnTag, DependencyList, + RaceVarMap) -> + case compare_types(VarArgs, WarnVarArgs, RaceWarnTag, RaceVarMap) of + true -> [RaceCall|DependencyList]; + false -> DependencyList + end. + +remove_clause(RaceList, CurrTuple, Code, NestingLevel) -> + NewRaceList = fixup_case_rest_paths(RaceList, 0), + {NewCurrTuple, NewCode} = + cleanup_clause_code(CurrTuple, Code, 0, NestingLevel), + ReturnTuple = {NewRaceList, NewCurrTuple, NewCode, NestingLevel}, + case NewRaceList of + [beg_case|RTail] -> + case NewCode of + [#end_case{}|CTail] -> + remove_clause(RTail, NewCurrTuple, CTail, NestingLevel); + _Other -> ReturnTuple + end; + _Else -> ReturnTuple + end. + +remove_nonlocal_functions(Code, NestingLevel) -> + case Code of + [] -> []; + [H|T] -> + NewNL = + case H of + #curr_fun{status = in} -> + NestingLevel + 1; + #curr_fun{status = out} -> + NestingLevel - 1; + _Other -> + NestingLevel + end, + case NewNL =:= 0 of + true -> T; + false -> remove_nonlocal_functions(T, NewNL) + end + end. + +renew_curr_fun(CurrFun, Races) -> + Races#races{curr_fun = CurrFun}. + +renew_curr_fun_label(CurrFunLabel, Races) -> + Races#races{curr_fun_label = CurrFunLabel}. + +renew_race_list(RaceList, Races) -> + Races#races{race_list = RaceList}. + +renew_race_list_size(RaceListSize, Races) -> + Races#races{race_list_size = RaceListSize}. + +renew_race_tags(RaceTags, Races) -> + Races#races{race_tags = RaceTags}. + +renew_table(Table, Races) -> + Races#races{new_table = Table}. + +state__renew_curr_fun(CurrFun, State) -> + Races = dialyzer_dataflow:state__get_races(State), + dialyzer_dataflow:state__put_races(renew_curr_fun(CurrFun, Races), State). + +state__renew_curr_fun_label(CurrFunLabel, State) -> + Races = dialyzer_dataflow:state__get_races(State), + dialyzer_dataflow:state__put_races( + renew_curr_fun_label(CurrFunLabel, Races), State). + +state__renew_race_list(RaceList, State) -> + Races = dialyzer_dataflow:state__get_races(State), + dialyzer_dataflow:state__put_races(renew_race_list(RaceList, Races), State). + +state__renew_race_tags(RaceTags, State) -> + Races = dialyzer_dataflow:state__get_races(State), + dialyzer_dataflow:state__put_races(renew_race_tags(RaceTags, Races), State). + +state__renew_info(RaceList, RaceListSize, RaceTags, Table, State) -> + Callgraph = dialyzer_dataflow:state__get_callgraph(State), + Races = dialyzer_dataflow:state__get_races(State), + dialyzer_dataflow:state__put_callgraph( + callgraph__renew_tables(Table, Callgraph), + dialyzer_dataflow:state__put_races( + renew_table(Table, + renew_race_list(RaceList, + renew_race_list_size(RaceListSize, + renew_race_tags(RaceTags, Races)))), State)). + +%%% =========================================================================== +%%% +%%% Variable and Type Utilities +%%% +%%% =========================================================================== + +any_args(StrList) -> + case StrList of + [] -> false; + [Head|Tail] -> + case string:rstr(Head, "()") of + 0 -> any_args(Tail); + _Other -> true + end + end. + +-spec bind_dict_vars(label(), label(), dict()) -> dict(). + +bind_dict_vars(Key, Label, RaceVarMap) -> + case Key =:= Label of + true -> RaceVarMap; + false -> + case dict:find(Key, RaceVarMap) of + error -> dict:store(Key, [Label], RaceVarMap); + {ok, Labels} -> + case lists:member(Label, Labels) of + true -> RaceVarMap; + false -> dict:store(Key, [Label|Labels], RaceVarMap) + end + end + end. + +bind_dict_vars_list(Key, Labels, RaceVarMap) -> + case Labels of + [] -> RaceVarMap; + [Head|Tail] -> + bind_dict_vars_list(Key, Tail, bind_dict_vars(Key, Head, RaceVarMap)) + end. + +compare_ets_insert(OldWarnVarArgs, NewWarnVarArgs, RaceVarMap) -> + [Old1, Old2, Old3, Old4] = OldWarnVarArgs, + [New1, New2, New3, New4] = NewWarnVarArgs, + Bool = + case any_args(Old2) of + true -> compare_var_list(New1, Old1, RaceVarMap); + false -> + case any_args(New2) of + true -> compare_var_list(New1, Old1, RaceVarMap); + false -> compare_var_list(New1, Old1, RaceVarMap) + orelse (Old2 =:= New2) + end + end, + case Bool of + true -> + case any_args(Old4) of + true -> + case compare_list_vars(Old3, ets_list_args(New3), [], RaceVarMap) of + true -> true; + Args3 -> lists_key_replace(3, OldWarnVarArgs, Args3) + end; + false -> + case any_args(New4) of + true -> + case compare_list_vars(Old3, ets_list_args(New3), [], + RaceVarMap) of + true -> true; + Args3 -> lists_key_replace(3, OldWarnVarArgs, Args3) + end; + false -> + case compare_list_vars(Old3, ets_list_args(New3), [], + RaceVarMap) of + true -> true; + Args3 -> + lists_key_replace(4, + lists_key_replace(3, OldWarnVarArgs, Args3), Old4 -- New4) + end + end + end; + false -> OldWarnVarArgs + end. + +compare_first_arg(OldWarnVarArgs, NewWarnVarArgs, RaceVarMap) -> + [Old1, Old2|_OldT] = OldWarnVarArgs, + [New1, New2|_NewT] = NewWarnVarArgs, + case any_args(Old2) of + true -> + case compare_var_list(New1, Old1, RaceVarMap) of + true -> true; + false -> OldWarnVarArgs + end; + false -> + case any_args(New2) of + true -> + case compare_var_list(New1, Old1, RaceVarMap) of + true -> true; + false -> OldWarnVarArgs + end; + false -> + case compare_var_list(New1, Old1, RaceVarMap) of + true -> true; + false -> lists_key_replace(2, OldWarnVarArgs, Old2 -- New2) + end + end + end. + +compare_argtypes(ArgTypes, WarnArgTypes) -> + lists:any(fun (X) -> lists:member(X, WarnArgTypes) end, ArgTypes). + +%% Compares the argument types of the two suspicious calls. +compare_types(VarArgs, WarnVarArgs, RaceWarnTag, RaceVarMap) -> + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + [VA1, VA2] = VarArgs, + [WVA1, WVA2, _, _] = WarnVarArgs, + case any_args(VA2) of + true -> compare_var_list(VA1, WVA1, RaceVarMap); + false -> + case any_args(WVA2) of + true -> compare_var_list(VA1, WVA1, RaceVarMap); + false -> + compare_var_list(VA1, WVA1, RaceVarMap) orelse + compare_argtypes(VA2, WVA2) + + end + end; + ?WARN_ETS_LOOKUP_INSERT -> + [VA1, VA2, VA3, VA4] = VarArgs, + [WVA1, WVA2, WVA3, WVA4] = WarnVarArgs, + Bool = + case any_args(VA2) of + true -> compare_var_list(VA1, WVA1, RaceVarMap); + false -> + case any_args(WVA2) of + true -> compare_var_list(VA1, WVA1, RaceVarMap); + false -> + compare_var_list(VA1, WVA1, RaceVarMap) orelse + compare_argtypes(VA2, WVA2) + end + end, + Bool andalso + (case any_args(VA4) of + true -> + compare_var_list(VA3, WVA3, RaceVarMap); + false -> + case any_args(WVA4) of + true -> + compare_var_list(VA3, WVA3, RaceVarMap); + false -> + compare_var_list(VA3, WVA3, RaceVarMap) + orelse compare_argtypes(VA4, WVA4) + end + end); + ?WARN_MNESIA_DIRTY_READ_WRITE -> + [VA1, VA2|_] = VarArgs, %% Two or four elements + [WVA1, WVA2|_] = WarnVarArgs, + case any_args(VA2) of + true -> compare_var_list(VA1, WVA1, RaceVarMap); + false -> + case any_args(WVA2) of + true -> compare_var_list(VA1, WVA1, RaceVarMap); + false -> + compare_var_list(VA1, WVA1, RaceVarMap) orelse + compare_argtypes(VA2, WVA2) + end + end + end. + +compare_list_vars(VarList1, VarList2, NewVarList1, RaceVarMap) -> + case VarList1 of + [] -> + case NewVarList1 of + [] -> true; + _Other -> NewVarList1 + end; + [Head|Tail] -> + NewHead = + case compare_var_list(Head, VarList2, RaceVarMap) of + true -> []; + false -> [Head] + end, + compare_list_vars(Tail, VarList2, NewHead ++ NewVarList1, RaceVarMap) + end. + +compare_vars(Var1, Var2, RaceVarMap) when is_integer(Var1), is_integer(Var2) -> + Var1 =:= Var2 orelse + are_bound_labels(Var1, Var2, RaceVarMap) orelse + are_bound_labels(Var2, Var1, RaceVarMap); +compare_vars(_Var1, _Var2, _RaceVarMap) -> + false. + +-spec compare_var_list(label_type(), [label_type()], dict()) -> boolean(). + +compare_var_list(Var, VarList, RaceVarMap) -> + lists:any(fun (V) -> compare_vars(Var, V, RaceVarMap) end, VarList). + +ets_list_args(MaybeList) -> + case is_list(MaybeList) of + true -> [ets_tuple_args(T) || T <- MaybeList]; + false -> [ets_tuple_args(MaybeList)] + end. + +ets_list_argtypes(ListStr) -> + ListStr1 = string:strip(ListStr, left, $[), + ListStr2 = string:strip(ListStr1, right, $]), + ListStr3 = string:strip(ListStr2, right, $.), + string:strip(ListStr3, right, $,). + +ets_tuple_args(MaybeTuple) -> + case is_tuple(MaybeTuple) of + true -> element(1, MaybeTuple); + false -> ?no_label + end. + +ets_tuple_argtypes2(TupleList, ElemList) -> + case TupleList of + [] -> ElemList; + [H|T] -> + ets_tuple_argtypes2(T, + ets_tuple_argtypes2_helper(H, [], 0) ++ ElemList) + end. + +ets_tuple_argtypes2_helper(TupleStr, ElemStr, NestingLevel) -> + case TupleStr of + [] -> []; + [H|T] -> + {NewElemStr, NewNestingLevel, Return} = + case H of + ${ when NestingLevel =:= 0 -> + {ElemStr, NestingLevel + 1, false}; + ${ -> + {[H|ElemStr], NestingLevel + 1, false}; + $[ -> + {[H|ElemStr], NestingLevel + 1, false}; + $( -> + {[H|ElemStr], NestingLevel + 1, false}; + $} -> + {[H|ElemStr], NestingLevel - 1, false}; + $] -> + {[H|ElemStr], NestingLevel - 1, false}; + $) -> + {[H|ElemStr], NestingLevel - 1, false}; + $, when NestingLevel =:= 1 -> + {lists:reverse(ElemStr), NestingLevel, true}; + _Other -> + {[H|ElemStr], NestingLevel, false} + end, + case Return of + true -> string:tokens(NewElemStr, " |"); + false -> + ets_tuple_argtypes2_helper(T, NewElemStr, NewNestingLevel) + end + end. + +ets_tuple_argtypes1(Str, Tuple, TupleList, NestingLevel) -> + case Str of + [] -> TupleList; + [H|T] -> + {NewTuple, NewNestingLevel, Add} = + case H of + ${ -> + {[H|Tuple], NestingLevel + 1, false}; + $} -> + case NestingLevel of + 1 -> + {[H|Tuple], NestingLevel - 1, true}; + _Else -> + {[H|Tuple], NestingLevel - 1, false} + end; + _Other1 when NestingLevel =:= 0 -> + {Tuple, NestingLevel, false}; + _Other2 -> + {[H|Tuple], NestingLevel, false} + end, + case Add of + true -> + ets_tuple_argtypes1(T, [], + [lists:reverse(NewTuple)|TupleList], + NewNestingLevel); + false -> + ets_tuple_argtypes1(T, NewTuple, TupleList, NewNestingLevel) + end + end. + +format_arg(Arg) -> + case cerl:type(Arg) of + var -> cerl_trees:get_label(Arg); + tuple -> list_to_tuple([format_arg(A) || A <- cerl:tuple_es(Arg)]); + cons -> [format_arg(cerl:cons_hd(Arg))|format_arg(cerl:cons_tl(Arg))]; + alias -> format_arg(cerl:alias_var(Arg)); + literal -> + case cerl:is_c_nil(Arg) of + true -> []; + false -> ?no_label + end; + _Other -> ?no_label + end. + +-spec format_args([core_vars()], [erl_types:erl_type()], + dialyzer_dataflow:state(), call()) -> + args(). + +format_args([], [], _State, _Call) -> + []; +format_args(ArgList, TypeList, CleanState, Call) -> + format_args_2(format_args_1(ArgList, TypeList, CleanState), Call). + +format_args_1([Arg], [Type], CleanState) -> + [format_arg(Arg), format_type(Type, CleanState)]; +format_args_1([Arg|Args], [Type|Types], CleanState) -> + List = + case cerl:is_literal(Arg) of + true -> [?no_label, format_cerl(Arg)]; + false -> [format_arg(Arg), format_type(Type, CleanState)] + end, + List ++ format_args_1(Args, Types, CleanState). + +format_args_2(StrArgList, Call) -> + case Call of + whereis -> + lists_key_replace(2, StrArgList, + string:tokens(lists:nth(2, StrArgList), " |")); + register -> + lists_key_replace(2, StrArgList, + string:tokens(lists:nth(2, StrArgList), " |")); + ets_new -> + StrArgList1 = lists_key_replace(2, StrArgList, + string:tokens(lists:nth(2, StrArgList), " |")), + lists_key_replace(4, StrArgList1, + string:tokens(ets_list_argtypes(lists:nth(4, StrArgList1)), " |")); + ets_lookup -> + StrArgList1 = lists_key_replace(2, StrArgList, + string:tokens(lists:nth(2, StrArgList), " |")), + lists_key_replace(4, StrArgList1, + string:tokens(lists:nth(4, StrArgList1), " |")); + ets_insert -> + StrArgList1 = lists_key_replace(2, StrArgList, + string:tokens(lists:nth(2, StrArgList), " |")), + lists_key_replace(4, StrArgList1, + ets_tuple_argtypes2( + ets_tuple_argtypes1(lists:nth(4, StrArgList1), [], [], 0), + [])); + mnesia_dirty_read1 -> + lists_key_replace(2, StrArgList, + [mnesia_tuple_argtypes(T) || T <- string:tokens( + lists:nth(2, StrArgList), " |")]); + mnesia_dirty_read2 -> + lists_key_replace(2, StrArgList, + string:tokens(lists:nth(2, StrArgList), " |")); + mnesia_dirty_write1 -> + lists_key_replace(2, StrArgList, + [mnesia_record_tab(R) || R <- string:tokens( + lists:nth(2, StrArgList), " |")]); + mnesia_dirty_write2 -> + lists_key_replace(2, StrArgList, + string:tokens(lists:nth(2, StrArgList), " |")); + function_call -> StrArgList + end. + +format_cerl(Tree) -> + cerl_prettypr:format(cerl:set_ann(Tree, []), + [{hook, dialyzer_utils:pp_hook()}, + {noann, true}, + {paper, 100000}, + {ribbon, 100000} + ]). + +format_type(Type, State) -> + R = dialyzer_dataflow:state__get_records(State), + erl_types:t_to_string(Type, R). + +mnesia_record_tab(RecordStr) -> + case string:str(RecordStr, "#") =:= 1 of + true -> + "'" ++ + string:sub_string(RecordStr, 2, string:str(RecordStr, "{") - 1) ++ + "'"; + false -> RecordStr + end. + +mnesia_tuple_argtypes(TupleStr) -> + TupleStr1 = string:strip(TupleStr, left, ${), + [TupleStr2|_T] = string:tokens(TupleStr1, " ,"), + lists:flatten(string:tokens(TupleStr2, " |")). + +-spec race_var_map(var_to_map(), cerl:cerl() | [cerl:cerl()], dict(), op()) -> dict(). + +race_var_map(Vars1, Vars2, RaceVarMap, Op) -> + case Vars1 =:= ?no_arg of + true -> RaceVarMap; + false -> + case is_list(Vars1) andalso is_list(Vars2) of + true -> + case Vars1 of + [] -> RaceVarMap; + [AHead|ATail] -> + case Vars2 of + [] -> RaceVarMap; + [PHead|PTail] -> + NewRaceVarMap = race_var_map(AHead, PHead, RaceVarMap, Op), + race_var_map(ATail, PTail, NewRaceVarMap, Op) + end + end; + false -> + {NewVars1, NewVars2, Bool} = + case is_list(Vars1) of + true -> + case Vars1 of + [Var1] -> {Var1, Vars2, true}; + _Thing -> {Vars1, Vars2, false} + end; + false -> + case is_list(Vars2) of + true -> + case Vars2 of + [Var2] -> {Vars1, Var2, true}; + _Thing -> {Vars1, Vars2, false} + end; + false -> {Vars1, Vars2, true} + end + end, + case Bool of + true -> + case cerl:type(NewVars1) of + var -> + case cerl:type(NewVars2) of + var -> + ALabel = cerl_trees:get_label(NewVars1), + PLabel = cerl_trees:get_label(NewVars2), + case Op of + bind -> + TempRaceVarMap = + bind_dict_vars(ALabel, PLabel, RaceVarMap), + bind_dict_vars(PLabel, ALabel, TempRaceVarMap); + unbind -> + TempRaceVarMap = + unbind_dict_vars(ALabel, PLabel, RaceVarMap), + unbind_dict_vars(PLabel, ALabel, TempRaceVarMap) + end; + alias -> + race_var_map(NewVars1, cerl:alias_var(NewVars2), + RaceVarMap, Op); + values -> + race_var_map(NewVars1, cerl:values_es(NewVars2), + RaceVarMap, Op); + _Other -> RaceVarMap + end; + tuple -> + case cerl:type(NewVars2) of + tuple -> + race_var_map(cerl:tuple_es(NewVars1), + cerl:tuple_es(NewVars2), RaceVarMap, Op); + alias -> + race_var_map(NewVars1, cerl:alias_var(NewVars2), + RaceVarMap, Op); + values -> + race_var_map(NewVars1, cerl:values_es(NewVars2), + RaceVarMap, Op); + _Other -> RaceVarMap + end; + cons -> + case cerl:type(NewVars2) of + cons -> + NewRaceVarMap = race_var_map(cerl:cons_hd(NewVars1), + cerl:cons_hd(NewVars2), RaceVarMap, Op), + race_var_map(cerl:cons_tl(NewVars1), + cerl:cons_tl(NewVars2), NewRaceVarMap, Op); + alias -> + race_var_map(NewVars1, cerl:alias_var(NewVars2), + RaceVarMap, Op); + values -> + race_var_map(NewVars1, cerl:values_es(NewVars2), + RaceVarMap, Op); + _Other -> RaceVarMap + end; + alias -> + case cerl:type(NewVars2) of + alias -> + race_var_map(cerl:alias_var(NewVars1), + cerl:alias_var(NewVars2), RaceVarMap, Op); + _Other -> + race_var_map(cerl:alias_var(NewVars1), + NewVars2, RaceVarMap, Op) + end; + values -> + case cerl:type(NewVars2) of + values -> + race_var_map(cerl:values_es(NewVars1), + cerl:values_es(NewVars2), RaceVarMap, Op); + _Other -> + race_var_map(cerl:values_es(NewVars1), + NewVars2, RaceVarMap, Op) + end; + _Other -> RaceVarMap + end; + false -> RaceVarMap + end + end + end. + +race_var_map_clauses(Clauses, RaceVarMap) -> + case Clauses of + [] -> RaceVarMap; + [#end_clause{arg = Arg, pats = Pats, guard = Guard}|T] -> + {RaceVarMap1, _RemoveClause} = + race_var_map_guard(Arg, Pats, Guard, RaceVarMap, bind), + race_var_map_clauses(T, RaceVarMap1) + end. + +race_var_map_guard(Arg, Pats, Guard, RaceVarMap, Op) -> + {NewRaceVarMap, RemoveClause} = + case cerl:type(Guard) of + call -> + CallName = cerl:call_name(Guard), + case cerl:is_literal(CallName) of + true -> + case cerl:concrete(CallName) of + '=:=' -> + [Arg1, Arg2] = cerl:call_args(Guard), + {race_var_map(Arg1, Arg2, RaceVarMap, Op), false}; + '==' -> + [Arg1, Arg2] = cerl:call_args(Guard), + {race_var_map(Arg1, Arg2, RaceVarMap, Op), false}; + '=/=' -> + case Op of + bind -> + [Arg1, Arg2] = cerl:call_args(Guard), + {RaceVarMap, are_bound_vars(Arg1, Arg2, RaceVarMap)}; + unbind -> {RaceVarMap, false} + end; + _Other -> {RaceVarMap, false} + end; + false -> {RaceVarMap, false} + end; + _Other -> {RaceVarMap, false} + end, + {RaceVarMap1, RemoveClause1} = + race_var_map_guard_helper1(Arg, Pats, + race_var_map(Arg, Pats, NewRaceVarMap, Op), Op), + {RaceVarMap1, RemoveClause orelse RemoveClause1}. + +race_var_map_guard_helper1(Arg, Pats, RaceVarMap, Op) -> + case Arg =:= ?no_arg of + true -> {RaceVarMap, false}; + false -> + case cerl:type(Arg) of + call -> + case Pats of + [NewPat] -> + ModName = cerl:call_module(Arg), + CallName = cerl:call_name(Arg), + case cerl:is_literal(ModName) andalso + cerl:is_literal(CallName) of + true -> + case {cerl:concrete(ModName), + cerl:concrete(CallName)} of + {erlang, '=:='} -> + race_var_map_guard_helper2(Arg, NewPat, true, + RaceVarMap, Op); + {erlang, '=='} -> + race_var_map_guard_helper2(Arg, NewPat, true, + RaceVarMap, Op); + {erlang, '=/='} -> + race_var_map_guard_helper2(Arg, NewPat, false, + RaceVarMap, Op); + _Else -> {RaceVarMap, false} + end; + false -> {RaceVarMap, false} + end; + _Other -> {RaceVarMap, false} + end; + _Other -> {RaceVarMap, false} + end + end. + +race_var_map_guard_helper2(Arg, Pat, Bool, RaceVarMap, Op) -> + case cerl:type(Pat) of + literal -> + [Arg1, Arg2] = cerl:call_args(Arg), + case cerl:concrete(Pat) of + Bool -> + {race_var_map(Arg1, Arg2, RaceVarMap, Op), false}; + _Else -> + case Op of + bind -> + {RaceVarMap, are_bound_vars(Arg1, Arg2, RaceVarMap)}; + unbind -> {RaceVarMap, false} + end + end; + _Else -> {RaceVarMap, false} + end. + +unbind_dict_vars(Var, Var, RaceVarMap) -> + RaceVarMap; +unbind_dict_vars(Var1, Var2, RaceVarMap) -> + case dict:find(Var1, RaceVarMap) of + error -> RaceVarMap; + {ok, Labels} -> + case Labels of + [] -> dict:erase(Var1, RaceVarMap); + _Else -> + case lists:member(Var2, Labels) of + true -> + unbind_dict_vars(Var1, Var2, + bind_dict_vars_list(Var1, Labels -- [Var2], + dict:erase(Var1, RaceVarMap))); + false -> + unbind_dict_vars_helper(Labels, Var1, Var2, RaceVarMap) + end + end + end. + +unbind_dict_vars_helper(Labels, Key, CompLabel, RaceVarMap) -> + case dict:size(RaceVarMap) of + 0 -> RaceVarMap; + _ -> + case Labels of + [] -> RaceVarMap; + [Head|Tail] -> + NewRaceVarMap = + case are_bound_labels(Head, CompLabel, RaceVarMap) orelse + are_bound_labels(CompLabel, Head, RaceVarMap) of + true -> + bind_dict_vars_list(Key, Labels -- [Head], + dict:erase(Key, RaceVarMap)); + false -> RaceVarMap + end, + unbind_dict_vars_helper(Tail, Key, CompLabel, NewRaceVarMap) + end + end. + +var_analysis(FunDefArgs, FunCallArgs, WarnVarArgs, RaceWarnTag) -> + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + [WVA1, WVA2, WVA3, WVA4] = WarnVarArgs, + ArgNos = lists_key_members_lists(WVA1, FunDefArgs), + [[lists_get(N, FunCallArgs) || N <- ArgNos], WVA2, WVA3, WVA4]; + ?WARN_ETS_LOOKUP_INSERT -> + [WVA1, WVA2, WVA3, WVA4] = WarnVarArgs, + ArgNos1 = lists_key_members_lists(WVA1, FunDefArgs), + ArgNos2 = lists_key_members_lists(WVA3, FunDefArgs), + [[lists_get(N1, FunCallArgs) || N1 <- ArgNos1], WVA2, + [lists_get(N2, FunCallArgs) || N2 <- ArgNos2], WVA4]; + ?WARN_MNESIA_DIRTY_READ_WRITE -> + [WVA1, WVA2|T] = WarnVarArgs, + ArgNos = lists_key_members_lists(WVA1, FunDefArgs), + [[lists_get(N, FunCallArgs) || N <- ArgNos], WVA2|T] + end. + +var_type_analysis(FunDefArgs, FunCallTypes, WarnVarArgs, RaceWarnTag, + RaceVarMap, CleanState) -> + FunVarArgs = format_args(FunDefArgs, FunCallTypes, CleanState, + function_call), + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + [WVA1, WVA2, WVA3, WVA4] = WarnVarArgs, + Vars = find_all_bound_vars(WVA1, RaceVarMap), + case lists_key_member_lists(Vars, FunVarArgs) of + 0 -> [Vars, WVA2, WVA3, WVA4]; + N when is_integer(N) -> + NewWVA2 = string:tokens(lists:nth(N + 1, FunVarArgs), " |"), + [Vars, NewWVA2, WVA3, WVA4] + end; + ?WARN_ETS_LOOKUP_INSERT -> + [WVA1, WVA2, WVA3, WVA4] = WarnVarArgs, + Vars1 = find_all_bound_vars(WVA1, RaceVarMap), + FirstVarArg = + case lists_key_member_lists(Vars1, FunVarArgs) of + 0 -> [Vars1, WVA2]; + N1 when is_integer(N1) -> + NewWVA2 = string:tokens(lists:nth(N1 + 1, FunVarArgs), " |"), + [Vars1, NewWVA2] + end, + Vars2 = + lists:flatten( + [find_all_bound_vars(A, RaceVarMap) || A <- ets_list_args(WVA3)]), + case lists_key_member_lists(Vars2, FunVarArgs) of + 0 -> FirstVarArg ++ [Vars2, WVA4]; + N2 when is_integer(N2) -> + NewWVA4 = + ets_tuple_argtypes2( + ets_tuple_argtypes1(lists:nth(N2 + 1, FunVarArgs), [], [], 0), + []), + FirstVarArg ++ [Vars2, NewWVA4] + + end; + ?WARN_MNESIA_DIRTY_READ_WRITE -> + [WVA1, WVA2|T] = WarnVarArgs, + Arity = + case T of + [] -> 1; + _Else -> 2 + end, + Vars = find_all_bound_vars(WVA1, RaceVarMap), + case lists_key_member_lists(Vars, FunVarArgs) of + 0 -> [Vars, WVA2|T]; + N when is_integer(N) -> + NewWVA2 = + case Arity of + 1 -> + [mnesia_record_tab(R) || R <- string:tokens( + lists:nth(2, FunVarArgs), " |")]; + 2 -> + string:tokens(lists:nth(N + 1, FunVarArgs), " |") + end, + [Vars, NewWVA2|T] + end + end. + +%%% =========================================================================== +%%% +%%% Warning Format Utilities +%%% +%%% =========================================================================== + +add_race_warning(Warn, #races{race_warnings = Warns} = Races) -> + Races#races{race_warnings = [Warn|Warns]}. + +get_race_warn(Fun, Args, ArgTypes, DepList, State) -> + {M, F, _A} = Fun, + case DepList of + [] -> {State, no_race}; + _Other -> + {State, {race_condition, [M, F, Args, ArgTypes, State, DepList]}} + end. + +-spec get_race_warnings(races(), dialyzer_dataflow:state()) -> + {races(), dialyzer_dataflow:state()}. + +get_race_warnings(#races{race_warnings = RaceWarnings}, State) -> + get_race_warnings_helper(RaceWarnings, State). + +get_race_warnings_helper(Warnings, State) -> + case Warnings of + [] -> + {dialyzer_dataflow:state__get_races(State), State}; + [H|T] -> + {RaceWarnTag, FileLine, {race_condition, [M, F, A, AT, S, DepList]}} = H, + Reason = + case RaceWarnTag of + ?WARN_WHEREIS_REGISTER -> + get_reason(lists:keysort(7, DepList), + "might fail due to a possible race condition " + "caused by its combination with "); + ?WARN_ETS_LOOKUP_INSERT -> + get_reason(lists:keysort(7, DepList), + "might have an unintended effect due to " ++ + "a possible race condition " ++ + "caused by its combination with "); + ?WARN_MNESIA_DIRTY_READ_WRITE -> + get_reason(lists:keysort(7, DepList), + "might have an unintended effect due to " ++ + "a possible race condition " ++ + "caused by its combination with ") + end, + W = + {?WARN_RACE_CONDITION, FileLine, + {race_condition, + [M, F, dialyzer_dataflow:format_args(A, AT, S), Reason]}}, + get_race_warnings_helper(T, + dialyzer_dataflow:state__add_warning(W, State)) + end. + +get_reason(DependencyList, Reason) -> + case DependencyList of + [] -> ""; + [#dep_call{call_name = Call, arg_types = ArgTypes, vars = Args, + state = State, file_line = {File, Line}}|T] -> + R = + Reason ++ + case Call of + whereis -> "the erlang:whereis"; + ets_lookup -> "the ets:lookup"; + mnesia_dirty_read -> "the mnesia:dirty_read" + end ++ + dialyzer_dataflow:format_args(Args, ArgTypes, State) ++ + " call in " ++ + filename:basename(File) ++ + " on line " ++ + lists:flatten(io_lib:write(Line)), + case T of + [] -> R; + _ -> get_reason(T, R ++ ", ") + end + end. + +state__add_race_warning(State, RaceWarn, RaceWarnTag, FileLine) -> + case RaceWarn of + no_race -> State; + _Else -> + Races = dialyzer_dataflow:state__get_races(State), + Warn = {RaceWarnTag, FileLine, RaceWarn}, + dialyzer_dataflow:state__put_races(add_race_warning(Warn, Races), State) + end. + +%%% =========================================================================== +%%% +%%% Record Interfaces +%%% +%%% =========================================================================== + +-spec beg_clause_new(var_to_map(), var_to_map(), cerl:cerl()) -> + #beg_clause{}. + +beg_clause_new(Arg, Pats, Guard) -> + #beg_clause{arg = Arg, pats = Pats, guard = Guard}. + +-spec cleanup(races()) -> races(). + +cleanup(#races{race_list = RaceList}) -> + #races{race_list = RaceList}. + +-spec end_case_new([#end_clause{}]) -> #end_case{}. + +end_case_new(Clauses) -> + #end_case{clauses = Clauses}. + +-spec end_clause_new(var_to_map(), var_to_map(), cerl:cerl()) -> + #end_clause{}. + +end_clause_new(Arg, Pats, Guard) -> + #end_clause{arg = Arg, pats = Pats, guard = Guard}. + +-spec get_curr_fun(races()) -> mfa_or_funlbl(). + +get_curr_fun(#races{curr_fun = CurrFun}) -> + CurrFun. + +-spec get_curr_fun_args(races()) -> core_args(). + +get_curr_fun_args(#races{curr_fun_args = CurrFunArgs}) -> + CurrFunArgs. + +-spec get_new_table(races()) -> table(). + +get_new_table(#races{new_table = Table}) -> + Table. + +-spec get_race_analysis(races()) -> boolean(). + +get_race_analysis(#races{race_analysis = RaceAnalysis}) -> + RaceAnalysis. + +-spec get_race_list(races()) -> code(). + +get_race_list(#races{race_list = RaceList}) -> + RaceList. + +-spec get_race_list_size(races()) -> non_neg_integer(). + +get_race_list_size(#races{race_list_size = RaceListSize}) -> + RaceListSize. + +-spec let_tag_new(var_to_map(), var_to_map()) -> #let_tag{}. + +let_tag_new(Var, Arg) -> + #let_tag{var = Var, arg = Arg}. + +-spec new() -> races(). + +new() -> #races{}. + +-spec put_curr_fun(mfa_or_funlbl(), label(), races()) -> + races(). + +put_curr_fun(CurrFun, CurrFunLabel, Races) -> + Races#races{curr_fun = CurrFun, + curr_fun_label = CurrFunLabel, + curr_fun_args = empty}. + +-spec put_fun_args(core_args(), races()) -> races(). + +put_fun_args(Args, #races{curr_fun_args = CurrFunArgs} = Races) -> + case CurrFunArgs of + empty -> Races#races{curr_fun_args = Args}; + _Other -> Races + end. + +-spec put_race_analysis(boolean(), races()) -> + races(). + +put_race_analysis(Analysis, Races) -> + Races#races{race_analysis = Analysis}. + +-spec put_race_list(code(), non_neg_integer(), races()) -> + races(). + +put_race_list(RaceList, RaceListSize, Races) -> + Races#races{race_list = RaceList, + race_list_size = RaceListSize}. diff --git a/lib/dialyzer/src/dialyzer_succ_typings.erl b/lib/dialyzer/src/dialyzer_succ_typings.erl new file mode 100644 index 0000000000..dd8480f1f2 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_succ_typings.erl @@ -0,0 +1,540 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_succ_typings.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : +%%% +%%% Created : 11 Sep 2006 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- +-module(dialyzer_succ_typings). + +-export([analyze_callgraph/3, + analyze_callgraph/4, + get_warnings/6]). + +%% These are only intended as debug functions. +-export([doit/1, + get_top_level_signatures/3]). + +%%-define(DEBUG, true). +%%-define(DEBUG_PP, true). + +-ifdef(DEBUG). +-define(debug(X__, Y__), io:format(X__, Y__)). +-else. +-define(debug(X__, Y__), ok). +-endif. + +-define(TYPE_LIMIT, 4). + +%%-------------------------------------------------------------------- + +-include("dialyzer.hrl"). + +%%-------------------------------------------------------------------- +%% State record -- local to this module + +-type parent() :: 'none' | pid(). + +-record(st, {callgraph :: dialyzer_callgraph:callgraph(), + codeserver :: dialyzer_codeserver:codeserver(), + no_warn_unused :: set(), + parent = none :: parent(), + plt :: dialyzer_plt:plt()}). + +%%-------------------------------------------------------------------- + +-spec analyze_callgraph(dialyzer_callgraph:callgraph(), dialyzer_plt:plt(), + dialyzer_codeserver:codeserver()) -> + dialyzer_plt:plt(). + +analyze_callgraph(Callgraph, Plt, Codeserver) -> + analyze_callgraph(Callgraph, Plt, Codeserver, none). + +-spec analyze_callgraph(dialyzer_callgraph:callgraph(), dialyzer_plt:plt(), + dialyzer_codeserver:codeserver(), parent()) -> + dialyzer_plt:plt(). + +analyze_callgraph(Callgraph, Plt, Codeserver, Parent) -> + State = #st{callgraph = Callgraph, plt = Plt, + codeserver = Codeserver, parent = Parent}, + NewState = get_refined_success_typings(State), + NewState#st.plt. + +%%-------------------------------------------------------------------- + +get_refined_success_typings(State) -> + case find_succ_typings(State) of + {fixpoint, State1} -> State1; + {not_fixpoint, NotFixpoint1, State1} -> + Callgraph = State1#st.callgraph, + NotFixpoint2 = [lookup_name(F, Callgraph) || F <- NotFixpoint1], + ModulePostorder = + dialyzer_callgraph:module_postorder_from_funs(NotFixpoint2, Callgraph), + case refine_succ_typings(ModulePostorder, State1) of + {fixpoint, State2} -> + State2; + {not_fixpoint, NotFixpoint3, State2} -> + Callgraph1 = State2#st.callgraph, + %% Need to reset the callgraph. + NotFixpoint4 = [lookup_name(F, Callgraph1) || F <- NotFixpoint3], + Callgraph2 = dialyzer_callgraph:reset_from_funs(NotFixpoint4, + Callgraph1), + get_refined_success_typings(State2#st{callgraph = Callgraph2}) + end + end. + +-type doc_plt() :: 'undefined' | dialyzer_plt:plt(). +-spec get_warnings(dialyzer_callgraph:callgraph(), dialyzer_plt:plt(), + doc_plt(), dialyzer_codeserver:codeserver(), set(), + pid()) -> + {[dial_warning()], dialyzer_plt:plt(), doc_plt()}. + +get_warnings(Callgraph, Plt, DocPlt, Codeserver, NoWarnUnused, Parent) -> + InitState = #st{callgraph = Callgraph, codeserver = Codeserver, + no_warn_unused = NoWarnUnused, parent = Parent, plt = Plt}, + NewState = get_refined_success_typings(InitState), + Mods = dialyzer_callgraph:modules(NewState#st.callgraph), + CWarns = dialyzer_contracts:get_invalid_contract_warnings(Mods, Codeserver, + NewState#st.plt), + get_warnings_from_modules(Mods, NewState, DocPlt, CWarns). + +get_warnings_from_modules([M|Ms], State, DocPlt, Acc) when is_atom(M) -> + send_log(State#st.parent, io_lib:format("Getting warnings for ~w\n", [M])), + #st{callgraph = Callgraph, codeserver = Codeserver, + no_warn_unused = NoWarnUnused, plt = Plt} = State, + ModCode = dialyzer_codeserver:lookup_mod_code(M, Codeserver), + Records = dialyzer_codeserver:lookup_mod_records(M, Codeserver), + Contracts = dialyzer_codeserver:lookup_mod_contracts(M, Codeserver), + AllFuns = collect_fun_info([ModCode]), + %% Check if there are contracts for functions that do not exist + Warnings1 = + dialyzer_contracts:contracts_without_fun(Contracts, AllFuns, Callgraph), + {Warnings2, FunTypes, RaceCode, PublicTables, NamedTables} = + dialyzer_dataflow:get_warnings(ModCode, Plt, Callgraph, Records, NoWarnUnused), + NewDocPlt = insert_into_doc_plt(FunTypes, Callgraph, DocPlt), + NewCallgraph = + dialyzer_callgraph:renew_race_info(Callgraph, RaceCode, PublicTables, + NamedTables), + State1 = st__renew_state_calls(NewCallgraph, State), + get_warnings_from_modules(Ms, State1, NewDocPlt, [Warnings1,Warnings2|Acc]); +get_warnings_from_modules([], #st{plt = Plt}, DocPlt, Acc) -> + {lists:flatten(Acc), Plt, DocPlt}. + +refine_succ_typings(ModulePostorder, State) -> + ?debug("Module postorder: ~p\n", [ModulePostorder]), + refine_succ_typings(ModulePostorder, State, []). + +refine_succ_typings([SCC|SCCs], State, Fixpoint) -> + Msg = io_lib:format("Dataflow of one SCC: ~w\n", [SCC]), + send_log(State#st.parent, Msg), + ?debug("~s\n", [Msg]), + {NewState, FixpointFromScc} = + case SCC of + [M] -> refine_one_module(M, State); + [_|_] -> refine_one_scc(SCC, State) + end, + NewFixpoint = ordsets:union(Fixpoint, FixpointFromScc), + refine_succ_typings(SCCs, NewState, NewFixpoint); +refine_succ_typings([], State, Fixpoint) -> + case Fixpoint =:= [] of + true -> {fixpoint, State}; + false -> {not_fixpoint, Fixpoint, State} + end. + +-spec refine_one_module(module(), #st{}) -> {#st{}, [label()]}. % ordset + +refine_one_module(M, State) -> + #st{callgraph = Callgraph, codeserver = CodeServer, plt = PLT} = State, + ModCode = dialyzer_codeserver:lookup_mod_code(M, CodeServer), + AllFuns = collect_fun_info([ModCode]), + FunTypes = get_fun_types_from_plt(AllFuns, State), + Records = dialyzer_codeserver:lookup_mod_records(M, CodeServer), + {NewFunTypes, RaceCode, PublicTables, NamedTables} = + dialyzer_dataflow:get_fun_types(ModCode, PLT, Callgraph, Records), + NewCallgraph = + dialyzer_callgraph:renew_race_info(Callgraph, RaceCode, PublicTables, + NamedTables), + case reached_fixpoint(FunTypes, NewFunTypes) of + true -> + State1 = st__renew_state_calls(NewCallgraph, State), + {State1, ordsets:new()}; + {false, NotFixpoint} -> + ?debug("Not fixpoint\n", []), + NewState = insert_into_plt(dict:from_list(NotFixpoint), State), + NewState1 = st__renew_state_calls(NewCallgraph, NewState), + {NewState1, ordsets:from_list([FunLbl || {FunLbl,_Type} <- NotFixpoint])} + end. + +st__renew_state_calls(Callgraph, State) -> + State#st{callgraph = Callgraph}. + +refine_one_scc(SCC, State) -> + refine_one_scc(SCC, State, []). + +refine_one_scc(SCC, State, AccFixpoint) -> + {NewState, FixpointFromScc} = refine_mods_in_scc(SCC, State, []), + case FixpointFromScc =:= [] of + true -> {NewState, AccFixpoint}; + false -> + NewAccFixpoint = ordsets:union(AccFixpoint, FixpointFromScc), + refine_one_scc(SCC, NewState, NewAccFixpoint) + end. + +refine_mods_in_scc([Mod|Mods], State, Fixpoint) -> + {NewState, FixpointFromModule} = refine_one_module(Mod, State), + NewFixpoint = ordsets:union(FixpointFromModule, Fixpoint), + refine_mods_in_scc(Mods, NewState, NewFixpoint); +refine_mods_in_scc([], State, Fixpoint) -> + {State, Fixpoint}. + +reached_fixpoint(OldTypes, NewTypes) -> + reached_fixpoint(OldTypes, NewTypes, false). + +reached_fixpoint_strict(OldTypes, NewTypes) -> + case reached_fixpoint(OldTypes, NewTypes, true) of + true -> true; + {false, _} -> false + end. + +reached_fixpoint(OldTypes0, NewTypes0, Strict) -> + MapFun = fun(_Key, Type) -> + case is_failed_or_not_called_fun(Type) of + true -> failed_fun; + false -> erl_types:t_limit(Type, ?TYPE_LIMIT) + end + end, + OldTypes = dict:map(MapFun, OldTypes0), + NewTypes = dict:map(MapFun, NewTypes0), + compare_types(OldTypes, NewTypes, Strict). + +is_failed_or_not_called_fun(Type) -> + erl_types:any_none([erl_types:t_fun_range(Type)|erl_types:t_fun_args(Type)]). + +compare_types(Dict1, Dict2, Strict) -> + List1 = lists:keysort(1, dict:to_list(Dict1)), + List2 = lists:keysort(1, dict:to_list(Dict2)), + compare_types_1(List1, List2, Strict, []). + +compare_types_1([{X, _Type1}|Left1], [{X, failed_fun}|Left2], + Strict, NotFixpoint) -> + compare_types_1(Left1, Left2, Strict, NotFixpoint); +compare_types_1([{X, failed_fun}|Left1], [{X, _Type2}|Left2], + Strict, NotFixpoint) -> + compare_types_1(Left1, Left2, Strict, NotFixpoint); +compare_types_1([{X, Type1}|Left1], [{X, Type2}|Left2], Strict, NotFixpoint) -> + Res = case Strict of + true -> erl_types:t_is_equal(Type1, Type2); + false -> erl_types:t_is_subtype(Type1, Type2) + end, + case Res of + true -> compare_types_1(Left1, Left2, Strict, NotFixpoint); + false -> + ?debug("Failed fixpoint for ~w: ~s =/= ~s\n", + [X, erl_types:t_to_string(Type1), erl_types:t_to_string(Type2)]), + compare_types_1(Left1, Left2, Strict, [{X, Type2}|NotFixpoint]) + end; +compare_types_1([_|Left1], List2, Strict, NotFixpoint) -> + %% If the function was not called. + compare_types_1(Left1, List2, Strict, NotFixpoint); +compare_types_1([], [], _Strict, NotFixpoint) -> + case NotFixpoint =:= [] of + true -> true; + false -> {false, NotFixpoint} + end. + +find_succ_typings(State) -> + find_succ_typings(State, []). + +find_succ_typings(#st{callgraph = Callgraph, parent = Parent} = State, + NotFixpoint) -> + case dialyzer_callgraph:take_scc(Callgraph) of + {ok, SCC, NewCallgraph} -> + Msg = io_lib:format("Typesig analysis for SCC: ~w\n", [format_scc(SCC)]), + ?debug("~s", [Msg]), + send_log(Parent, Msg), + {NewState, NewNotFixpoint1} = + analyze_scc(SCC, State#st{callgraph = NewCallgraph}), + NewNotFixpoint2 = ordsets:union(NewNotFixpoint1, NotFixpoint), + find_succ_typings(NewState, NewNotFixpoint2); + none -> + ?debug("==================== Typesig done ====================\n\n", []), + case NotFixpoint =:= [] of + true -> {fixpoint, State}; + false -> {not_fixpoint, NotFixpoint, State} + end + end. + +analyze_scc(SCC, #st{codeserver = Codeserver} = State) -> + SCC_Info = [{MFA, + dialyzer_codeserver:lookup_mfa_code(MFA, Codeserver), + dialyzer_codeserver:lookup_mod_records(M, Codeserver)} + || {M, _, _} = MFA <- SCC], + Contracts1 = [{MFA, dialyzer_codeserver:lookup_mfa_contract(MFA, Codeserver)} + || {_, _, _} = MFA <- SCC], + Contracts2 = [{MFA, Contract} || {MFA, {ok, Contract}} <- Contracts1], + Contracts3 = orddict:from_list(Contracts2), + {SuccTypes, PltContracts, NotFixpoint} = + find_succ_types_for_scc(SCC_Info, Contracts3, State), + State1 = insert_into_plt(SuccTypes, State), + ContrPlt = dialyzer_plt:insert_contract_list(State1#st.plt, PltContracts), + {State1#st{plt = ContrPlt}, NotFixpoint}. + +find_succ_types_for_scc(SCC_Info, Contracts, + #st{codeserver = Codeserver, + callgraph = Callgraph, plt = Plt} = State) -> + %% Assume that the PLT contains the current propagated types + AllFuns = collect_fun_info([Fun || {_MFA, {_Var, Fun}, _Rec} <- SCC_Info]), + PropTypes = get_fun_types_from_plt(AllFuns, State), + MFAs = [MFA || {MFA, {_Var, _Fun}, _Rec} <- SCC_Info], + NextLabel = dialyzer_codeserver:get_next_core_label(Codeserver), + Plt1 = dialyzer_plt:delete_contract_list(Plt, MFAs), + FunTypes = dialyzer_typesig:analyze_scc(SCC_Info, NextLabel, + Callgraph, Plt1, PropTypes), + AllFunSet = sets:from_list([X || {X, _} <- AllFuns]), + FilteredFunTypes = dict:filter(fun(X, _) -> + sets:is_element(X, AllFunSet) + end, FunTypes), + %% Check contracts + PltContracts = dialyzer_contracts:check_contracts(Contracts, Callgraph, + FilteredFunTypes), + ContractFixpoint = + lists:all(fun({MFA, _C}) -> + %% Check the non-deleted PLT + case dialyzer_plt:lookup_contract(Plt, MFA) of + none -> false; + {value, _} -> true + end + end, PltContracts), + case (ContractFixpoint andalso + reached_fixpoint_strict(PropTypes, FilteredFunTypes)) of + true -> + {FilteredFunTypes, PltContracts, []}; + false -> + ?debug("Not fixpoint for: ~w\n", [AllFuns]), + {FilteredFunTypes, PltContracts, + ordsets:from_list([Fun || {Fun, _Arity} <- AllFuns])} + end. + +get_fun_types_from_plt(FunList, State) -> + get_fun_types_from_plt(FunList, State, dict:new()). + +get_fun_types_from_plt([{FunLabel, Arity}|Left], State, Map) -> + Type = lookup_fun_type(FunLabel, Arity, State), + get_fun_types_from_plt(Left, State, dict:store(FunLabel, Type, Map)); +get_fun_types_from_plt([], _State, Map) -> + Map. + +collect_fun_info(Trees) -> + collect_fun_info(Trees, []). + +collect_fun_info([Tree|Trees], List) -> + Fun = fun(SubTree, Acc) -> + case cerl:is_c_fun(SubTree) of + true -> + [{cerl_trees:get_label(SubTree), cerl:fun_arity(SubTree)}|Acc]; + false -> Acc + end + end, + collect_fun_info(Trees, cerl_trees:fold(Fun, List, Tree)); +collect_fun_info([], List) -> + List. + +lookup_fun_type(Label, Arity, #st{callgraph = Callgraph, plt = Plt}) -> + ID = lookup_name(Label, Callgraph), + case dialyzer_plt:lookup(Plt, ID) of + none -> erl_types:t_fun(Arity, erl_types:t_any()); + {value, {RetT, ArgT}} -> erl_types:t_fun(ArgT, RetT) + end. + +insert_into_doc_plt(_FunTypes, _Callgraph, undefined) -> + undefined; +insert_into_doc_plt(FunTypes, Callgraph, DocPlt) -> + SuccTypes = format_succ_types(FunTypes, Callgraph), + dialyzer_plt:insert_list(DocPlt, SuccTypes). + +insert_into_plt(SuccTypes0, #st{callgraph = Callgraph, plt = Plt} = State) -> + SuccTypes = format_succ_types(SuccTypes0, Callgraph), + debug_pp_succ_typings(SuccTypes), + State#st{plt = dialyzer_plt:insert_list(Plt, SuccTypes)}. + +format_succ_types(SuccTypes, Callgraph) -> + format_succ_types(dict:to_list(SuccTypes), Callgraph, []). + +format_succ_types([{Label, Type0}|Left], Callgraph, Acc) -> + Type = erl_types:t_limit(Type0, ?TYPE_LIMIT+1), + Id = lookup_name(Label, Callgraph), + NewTuple = {Id, {erl_types:t_fun_range(Type), erl_types:t_fun_args(Type)}}, + format_succ_types(Left, Callgraph, [NewTuple|Acc]); +format_succ_types([], _Callgraph, Acc) -> + Acc. + +-ifdef(DEBUG). +debug_pp_succ_typings(SuccTypes) -> + ?debug("Succ typings:\n", []), + [?debug(" ~w :: ~s\n", + [MFA, erl_types:t_to_string(erl_types:t_fun(ArgT, RetT))]) + || {MFA, {RetT, ArgT}} <- SuccTypes], + ?debug("Contracts:\n", []), + [?debug(" ~w :: ~s\n", + [MFA, erl_types:t_to_string(erl_types:t_fun(ArgT, RetFun(ArgT)))]) + || {MFA, {contract, RetFun, ArgT}} <- SuccTypes], + ?debug("\n", []), + ok. +-else. +debug_pp_succ_typings(_) -> + ok. +-endif. + +lookup_name(F, CG) -> + case dialyzer_callgraph:lookup_name(F, CG) of + error -> F; + {ok, Name} -> Name + end. + +send_log(none, _Msg) -> + ok; +send_log(Parent, Msg) -> + Parent ! {self(), log, lists:flatten(Msg)}, + ok. + +format_scc(SCC) -> + [MFA || {_M, _F, _A} = MFA <- SCC]. + +%% ============================================================================ +%% +%% Debug interface. +%% +%% ============================================================================ + +-spec doit(module() | string()) -> 'ok'. + +doit(Module) -> + {ok, AbstrCode} = dialyzer_utils:get_abstract_code_from_src(Module), + {ok, Code} = dialyzer_utils:get_core_from_abstract_code(AbstrCode), + {ok, Records} = dialyzer_utils:get_record_and_type_info(AbstrCode), + %% contract typing info in dictionary format + {ok, Contracts} = + dialyzer_utils:get_spec_info(cerl:concrete(cerl:module_name(Code)), + AbstrCode, Records), + Sigs0 = get_top_level_signatures(Code, Records, Contracts), + M = if is_atom(Module) -> + list_to_atom(filename:basename(atom_to_list(Module))); + is_list(Module) -> + list_to_atom(filename:basename(Module)) + end, + Sigs1 = [{{M, F, A}, Type} || {{F, A}, Type} <- Sigs0], + Sigs = ordsets:from_list(Sigs1), + io:format("==================== Final result ====================\n\n", []), + pp_signatures(Sigs, Records), + ok. + +-spec get_top_level_signatures(cerl:c_module(), dict(), dict()) -> + [{{atom(), arity()}, erl_types:erl_type()}]. + +get_top_level_signatures(Code, Records, Contracts) -> + Tree = cerl:from_records(Code), + {LabeledTree, NextLabel} = cerl_trees:label(Tree), + Plt = get_def_plt(), + ModuleName = cerl:atom_val(cerl:module_name(LabeledTree)), + Plt1 = dialyzer_plt:delete_module(Plt, ModuleName), + Plt2 = analyze_module(LabeledTree, NextLabel, Plt1, Records, Contracts), + M = cerl:concrete(cerl:module_name(Tree)), + Functions = [{M, cerl:fname_id(V), cerl:fname_arity(V)} + || {V, _F} <- cerl:module_defs(LabeledTree)], + %% First contracts check + AllContracts = dict:fetch_keys(Contracts), + ErrorContracts = AllContracts -- Functions, + lists:foreach(fun(C) -> + io:format("Contract for non-existing function: ~w\n",[C]) + end, ErrorContracts), + Types = [{MFA, dialyzer_plt:lookup(Plt2, MFA)} || MFA <- Functions], + Sigs = [{{F, A}, erl_types:t_fun(ArgT, RetT)} + || {{_M, F, A}, {value, {RetT, ArgT}}} <- Types], + ordsets:from_list(Sigs). + +get_def_plt() -> + try + dialyzer_plt:from_file(dialyzer_plt:get_default_plt()) + catch + error:no_such_file -> dialyzer_plt:new(); + throw:{dialyzer_error, _} -> dialyzer_plt:new() + end. + +pp_signatures([{{_, module_info, 0}, _}|Left], Records) -> + pp_signatures(Left, Records); +pp_signatures([{{_, module_info, 1}, _}|Left], Records) -> + pp_signatures(Left, Records); +pp_signatures([{{M, F, _A}, Type}|Left], Records) -> + TypeString = + case cerl:is_literal(Type) of +%% Commented out so that dialyzer does not complain +%% false -> +%% "fun(" ++ String = erl_types:t_to_string(Type, Records), +%% string:substr(String, 1, length(String)-1); + true -> + io_lib:format("~w", [cerl:concrete(Type)]) + end, + io:format("~w:~w~s\n", [M, F, TypeString]), + pp_signatures(Left, Records); +pp_signatures([], _Records) -> + ok. + +-ifdef(DEBUG_PP). +debug_pp(Tree, _Map) -> + Tree1 = strip_annotations(Tree), + io:put_chars(cerl_prettypr:format(Tree1)), + io:nl(). + +strip_annotations(Tree) -> + cerl_trees:map(fun(T) -> + case cerl:is_literal(T) orelse cerl:is_c_values(T) of + true -> cerl:set_ann(T, []); + false -> + Label = cerl_trees:get_label(T), + cerl:set_ann(T, [{'label', Label}]) + end + end, Tree). +-else. +debug_pp(_Tree, _Map) -> + ok. +-endif. % DEBUG_PP + +%% +%% Analysis of a single module +%% +analyze_module(LabeledTree, NextLbl, Plt, Records, Contracts) -> + debug_pp(LabeledTree, dict:new()), + CallGraph1 = dialyzer_callgraph:new(), + CallGraph2 = dialyzer_callgraph:scan_core_tree(LabeledTree, CallGraph1), + {CallGraph3, _Ext} = dialyzer_callgraph:remove_external(CallGraph2), + CallGraph4 = dialyzer_callgraph:finalize(CallGraph3), + CodeServer1 = dialyzer_codeserver:new(), + Mod = cerl:concrete(cerl:module_name(LabeledTree)), + CodeServer2 = dialyzer_codeserver:insert(Mod, LabeledTree, CodeServer1), + CodeServer3 = dialyzer_codeserver:set_next_core_label(NextLbl, CodeServer2), + CodeServer4 = dialyzer_codeserver:store_records(Mod, Records, CodeServer3), + CodeServer5 = dialyzer_codeserver:store_contracts(Mod, Contracts, CodeServer4), + Res = analyze_callgraph(CallGraph4, Plt, CodeServer5), + dialyzer_callgraph:delete(CallGraph4), + dialyzer_codeserver:delete(CodeServer5), + Res. diff --git a/lib/dialyzer/src/dialyzer_typesig.erl b/lib/dialyzer/src/dialyzer_typesig.erl new file mode 100644 index 0000000000..aeb20d4fae --- /dev/null +++ b/lib/dialyzer/src/dialyzer_typesig.erl @@ -0,0 +1,2756 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_typesig.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : +%%% +%%% Created : 25 Apr 2005 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- + +-module(dialyzer_typesig). + +-export([analyze_scc/5]). +-export([get_safe_underapprox/2]). + +-import(erl_types, + [t_any/0, t_atom/0, t_atom_vals/1, + t_binary/0, t_bitstr/0, t_bitstr/2, t_bitstr_concat/1, t_boolean/0, + t_collect_vars/1, t_cons/2, t_cons_hd/1, t_cons_tl/1, + t_float/0, t_from_range/2, t_from_term/1, + t_fun/0, t_fun/2, t_fun_args/1, t_fun_range/1, + t_has_var/1, + t_inf/2, t_inf/3, t_integer/0, + t_is_any/1, t_is_atom/1, t_is_atom/2, t_is_cons/1, t_is_equal/2, + t_is_float/1, t_is_fun/1, + t_is_integer/1, t_non_neg_integer/0, + t_is_list/1, t_is_nil/1, t_is_none/1, t_is_number/1, + t_is_subtype/2, t_limit/2, t_list/0, t_list/1, + t_list_elements/1, t_nonempty_list/1, t_maybe_improper_list/0, + t_module/0, t_number/0, t_number_vals/1, + t_opaque_match_record/2, t_opaque_matching_structure/2, + t_opaque_from_records/1, + t_pid/0, t_port/0, t_product/1, t_reference/0, + t_subst/2, t_subtract/2, t_subtract_list/2, t_sup/1, t_sup/2, + t_timeout/0, t_tuple/0, t_tuple/1, + t_unify/2, t_var/1, t_var_name/1, + t_none/0, t_unit/0]). + +-include("dialyzer.hrl"). + +%%----------------------------------------------------------------------------- + +-type dep() :: integer(). %% type variable names used as constraint ids +-type type_var() :: erl_types:erl_type(). %% actually: {'c','var',_,_} + +-record(fun_var, {'fun' :: fun((_) -> erl_types:erl_type()), deps :: [dep()]}). + +-type constr_op() :: 'eq' | 'sub'. +-type fvar_or_type() :: #fun_var{} | erl_types:erl_type(). + +-record(constraint, {lhs :: erl_types:erl_type(), + op :: constr_op(), + rhs :: fvar_or_type(), + deps :: [dep()]}). + +-record(constraint_list, {type :: 'conj' | 'disj', + list :: [_], % [constr()] but it needs recursion :-( + deps :: [dep()], + id :: {'list', dep()}}). + +-record(constraint_ref, {id :: type_var(), deps :: [dep()]}). + +-type constr() :: #constraint{} | #constraint_list{} | #constraint_ref{}. + +-type typesig_scc() :: [{mfa(), {cerl:c_var(), cerl:c_fun()}, dict()}]. +-type typesig_funmap() :: [{type_var(), type_var()}]. %% Orddict + +-record(state, {callgraph :: dialyzer_callgraph:callgraph(), + cs = [] :: [constr()], + cmap = dict:new() :: dict(), + fun_map = [] :: typesig_funmap(), + fun_arities = dict:new() :: dict(), + in_match = false :: boolean(), + in_guard = false :: boolean(), + name_map = dict:new() :: dict(), + next_label :: label(), + non_self_recs = [] :: [label()], + plt :: dialyzer_plt:plt(), + prop_types = dict:new() :: dict(), + records = dict:new() :: dict(), + opaques = [] :: [erl_types:erl_type()], + scc = [] :: [type_var()]}). + +%%----------------------------------------------------------------------------- + +-define(TYPE_LIMIT, 4). +-define(INTERNAL_TYPE_LIMIT, 5). + +%%-define(DEBUG, true). +%%-define(DEBUG_CONSTRAINTS, true). +-ifdef(DEBUG). +-define(DEBUG_NAME_MAP, true). +-endif. +%%-define(DEBUG_NAME_MAP, true). + +-ifdef(DEBUG). +-define(debug(__String, __Args), io:format(__String, __Args)). +-else. +-define(debug(__String, __Args), ok). +-endif. + +%% ============================================================================ +%% +%% The analysis. +%% +%% ============================================================================ + +%%----------------------------------------------------------------------------- +%% Analysis of strongly connected components. +%% +%% analyze_scc(SCC, NextLabel, CallGraph, PLT, PropTypes) -> FunTypes +%% +%% SCC - [{MFA, Def, Records}] +%% where Def = {Var, Fun} as in the Core Erlang module definitions. +%% Records = dict(RecName, {Arity, [{FieldName, FieldType}]}) +%% NextLabel - An integer that is higher than any label in the code. +%% CallGraph - A callgraph as produced by dialyzer_callgraph.erl +%% Note: The callgraph must have been built with all the +%% code that the SCC is a part of. +%% PLT - A dialyzer PLT. This PLT should contain available information +%% about functions that can be called by this SCC. +%% PropTypes - A dictionary. +%% FunTypes - A dictionary. +%%----------------------------------------------------------------------------- + +-spec analyze_scc(typesig_scc(), label(), + dialyzer_callgraph:callgraph(), + dialyzer_plt:plt(), dict()) -> dict(). + +analyze_scc(SCC, NextLabel, CallGraph, Plt, PropTypes) -> + assert_format_of_scc(SCC), + State1 = new_state(SCC, NextLabel, CallGraph, Plt, PropTypes), + DefSet = add_def_list([Var || {_MFA, {Var, _Fun}, _Rec} <- SCC], sets:new()), + State2 = traverse_scc(SCC, DefSet, State1), + State3 = state__finalize(State2), + Funs = state__scc(State3), + pp_constrs_scc(Funs, State3), + constraints_to_dot_scc(Funs, State3), + solve(Funs, State3). + +assert_format_of_scc([{_MFA, {_Var, _Fun}, _Records}|Left]) -> + assert_format_of_scc(Left); +assert_format_of_scc([]) -> + ok. + +%% ============================================================================ +%% +%% Gets the constraints by traversing the code. +%% +%% ============================================================================ + +traverse_scc([{MFA, Def, Rec}|Left], DefSet, AccState) -> + TmpState1 = state__set_rec_dict(AccState, Rec), + TmpState2 = state__set_opaques(TmpState1, MFA), + DummyLetrec = cerl:c_letrec([Def], cerl:c_atom(foo)), + {NewAccState, _} = traverse(DummyLetrec, DefSet, TmpState2), + traverse_scc(Left, DefSet, NewAccState); +traverse_scc([], _DefSet, AccState) -> + AccState. + +traverse(Tree, DefinedVars, State) -> + ?debug("Handling ~p\n", [cerl:type(Tree)]), + case cerl:type(Tree) of + alias -> + Var = cerl:alias_var(Tree), + Pat = cerl:alias_pat(Tree), + DefinedVars1 = add_def(Var, DefinedVars), + {State1, PatVar} = traverse(Pat, DefinedVars1, State), + State2 = state__store_conj(mk_var(Var), eq, PatVar, State1), + {State2, PatVar}; + apply -> + Args = cerl:apply_args(Tree), + Arity = length(Args), + Op = cerl:apply_op(Tree), + {State0, ArgTypes} = traverse_list(Args, DefinedVars, State), + {State1, OpType} = traverse(Op, DefinedVars, State0), + {State2, FunType} = state__get_fun_prototype(OpType, Arity, State1), + State3 = state__store_conj(FunType, eq, OpType, State2), + State4 = state__store_conj(mk_var(Tree), sub, t_fun_range(FunType), + State3), + State5 = state__store_conj_lists(ArgTypes, sub, t_fun_args(FunType), + State4), + case state__lookup_apply(Tree, State) of + unknown -> + {State5, mk_var(Tree)}; + FunLabels -> + case get_apply_constr(FunLabels, mk_var(Tree), ArgTypes, State5) of + error -> {State5, mk_var(Tree)}; + {ok, State6} -> {State6, mk_var(Tree)} + end + end; + binary -> + {State1, SegTypes} = traverse_list(cerl:binary_segments(Tree), + DefinedVars, State), + Type = mk_fun_var(fun(Map) -> + TmpSegTypes = lookup_type_list(SegTypes, Map), + t_bitstr_concat(TmpSegTypes) + end, SegTypes), + {state__store_conj(mk_var(Tree), sub, Type, State1), mk_var(Tree)}; + bitstr -> + Size = cerl:bitstr_size(Tree), + UnitVal = cerl:int_val(cerl:bitstr_unit(Tree)), + Val = cerl:bitstr_val(Tree), + {State1, [SizeType, ValType]} = + traverse_list([Size, Val], DefinedVars, State), + {State2, TypeConstr} = + case cerl:bitstr_bitsize(Tree) of + all -> {State1, t_bitstr(UnitVal, 0)}; + utf -> {State1, t_binary()}; % contains an integer number of bytes + N when is_integer(N) -> {State1, t_bitstr(0, N)}; + any -> % Size is not a literal + {state__store_conj(SizeType, sub, t_non_neg_integer(), State1), + mk_fun_var(bitstr_constr(SizeType, UnitVal), [SizeType])} + end, + ValTypeConstr = + case cerl:concrete(cerl:bitstr_type(Tree)) of + binary -> TypeConstr; + float -> + case state__is_in_match(State1) of + true -> t_float(); + false -> t_number() + end; + integer -> + case state__is_in_match(State1) of + true -> + Flags = cerl:concrete(cerl:bitstr_flags(Tree)), + mk_fun_var(bitstr_val_constr(SizeType, UnitVal, Flags), + [SizeType]); + false -> t_integer() + end; + utf8 -> t_integer(); + utf16 -> t_integer(); + utf32 -> t_integer() + end, + State3 = state__store_conj(ValType, sub, ValTypeConstr, State2), + State4 = state__store_conj(mk_var(Tree), sub, TypeConstr, State3), + {State4, mk_var(Tree)}; + 'case' -> + Arg = cerl:case_arg(Tree), + Clauses = filter_match_fail(cerl:case_clauses(Tree)), + {State1, ArgVar} = traverse(Arg, DefinedVars, State), + handle_clauses(Clauses, mk_var(Tree), ArgVar, DefinedVars, State1); + call -> + handle_call(Tree, DefinedVars, State); + 'catch' -> + %% XXX: Perhaps there is something to say about this. + {State, mk_var(Tree)}; + cons -> + Hd = cerl:cons_hd(Tree), + Tl = cerl:cons_tl(Tree), + {State1, [HdVar, TlVar]} = traverse_list([Hd, Tl], DefinedVars, State), + case cerl:is_literal(cerl:fold_literal(Tree)) of + true -> + %% We do not need to do anything more here. + {State, t_cons(HdVar, TlVar)}; + false -> + ConsVar = mk_var(Tree), + ConsType = mk_fun_var(fun(Map) -> + t_cons(lookup_type(HdVar, Map), + lookup_type(TlVar, Map)) + end, [HdVar, TlVar]), + HdType = mk_fun_var(fun(Map) -> + Cons = lookup_type(ConsVar, Map), + case t_is_cons(Cons) of + false -> t_any(); + true -> t_cons_hd(Cons) + end + end, [ConsVar]), + TlType = mk_fun_var(fun(Map) -> + Cons = lookup_type(ConsVar, Map), + case t_is_cons(Cons) of + false -> t_any(); + true -> t_cons_tl(Cons) + end + end, [ConsVar]), + State2 = state__store_conj_lists([HdVar, TlVar, ConsVar], sub, + [HdType, TlType, ConsType], + State1), + {State2, ConsVar} + end; + 'fun' -> + Body = cerl:fun_body(Tree), + Vars = cerl:fun_vars(Tree), + DefinedVars1 = add_def_list(Vars, DefinedVars), + State0 = state__new_constraint_context(State), + FunFailType = + case state__prop_domain(cerl_trees:get_label(Tree), State0) of + error -> t_fun(length(Vars), t_none()); + {ok, Dom} -> t_fun(Dom, t_none()) + end, + State2 = + try + State1 = case state__add_prop_constrs(Tree, State0) of + not_called -> State0; + PropState -> PropState + end, + {BodyState, BodyVar} = traverse(Body, DefinedVars1, State1), + state__store_conj(mk_var(Tree), eq, + t_fun(mk_var_list(Vars), BodyVar), BodyState) + catch + throw:error -> + state__store_conj(mk_var(Tree), eq, FunFailType, State0) + end, + Cs = state__cs(State2), + State3 = state__store_constrs(mk_var(Tree), Cs, State2), + Ref = mk_constraint_ref(mk_var(Tree), get_deps(Cs)), + OldCs = state__cs(State), + State4 = state__new_constraint_context(State3), + State5 = state__store_conj_list([OldCs, Ref], State4), + State6 = state__store_fun_arity(Tree, State5), + {State6, mk_var(Tree)}; + 'let' -> + Vars = cerl:let_vars(Tree), + Arg = cerl:let_arg(Tree), + Body = cerl:let_body(Tree), + {State1, ArgVars} = traverse(Arg, DefinedVars, State), + State2 = state__store_conj(t_product(mk_var_list(Vars)), eq, + ArgVars, State1), + DefinedVars1 = add_def_list(Vars, DefinedVars), + traverse(Body, DefinedVars1, State2); + letrec -> + Defs = cerl:letrec_defs(Tree), + Body = cerl:letrec_body(Tree), + Funs = [Fun || {_Var, Fun} <- Defs], + Vars = [Var || {Var, _Fun} <- Defs], + State1 = state__store_funs(Vars, Funs, State), + DefinedVars1 = add_def_list(Vars, DefinedVars), + {State2, _} = traverse_list(Funs, DefinedVars1, State1), + traverse(Body, DefinedVars1, State2); + literal -> + %% This is needed for finding records + case cerl:unfold_literal(Tree) of + Tree -> + Type = t_from_term(cerl:concrete(Tree)), + NewType = + case erl_types:t_opaque_match_atom(Type, State#state.opaques) of + [Opaque] -> Opaque; + _ -> Type + end, + {State, NewType}; + NewTree -> traverse(NewTree, DefinedVars, State) + end; + module -> + Defs = cerl:module_defs(Tree), + Funs = [Fun || {_Var, Fun} <- Defs], + Vars = [Var || {Var, _Fun} <- Defs], + DefinedVars1 = add_def_list(Vars, DefinedVars), + State1 = state__store_funs(Vars, Funs, State), + FoldFun = fun(Fun, AccState) -> + {S, _} = traverse(Fun, DefinedVars1, + state__new_constraint_context(AccState)), + S + end, + lists:foldl(FoldFun, State1, Funs); + primop -> + case cerl:atom_val(cerl:primop_name(Tree)) of + match_fail -> throw(error); + raise -> throw(error); + bs_init_writable -> {State, t_from_term(<<>>)}; + Other -> erlang:error({'Unsupported primop', Other}) + end; + 'receive' -> + Clauses = filter_match_fail(cerl:receive_clauses(Tree)), + Timeout = cerl:receive_timeout(Tree), + case (cerl:is_c_atom(Timeout) andalso + (cerl:atom_val(Timeout) =:= infinity)) of + true -> + handle_clauses(Clauses, mk_var(Tree), [], DefinedVars, State); + false -> + Action = cerl:receive_action(Tree), + {State1, TimeoutVar} = traverse(Timeout, DefinedVars, State), + State2 = state__store_conj(TimeoutVar, sub, t_timeout(), State1), + handle_clauses(Clauses, mk_var(Tree), [], Action, DefinedVars, State2) + end; + seq -> + Body = cerl:seq_body(Tree), + Arg = cerl:seq_arg(Tree), + {State1, _} = traverse(Arg, DefinedVars, State), + traverse(Body, DefinedVars, State1); + 'try' -> + handle_try(Tree, DefinedVars, State); + tuple -> + Elements = cerl:tuple_es(Tree), + {State1, EVars} = traverse_list(Elements, DefinedVars, State), + {State2, TupleType} = + case cerl:is_literal(cerl:fold_literal(Tree)) of + true -> + %% We do not need to do anything more here. + {State, t_tuple(EVars)}; + false -> + %% We have the same basic problem as in products, but we want to + %% make sure that everything that can be used as tags for the + %% disjoint unions stays in the tuple. + Fun = fun(Var, AccState) -> + case t_has_var(Var) of + true -> + {AccState1, NewVar} = state__mk_var(AccState), + {NewVar, + state__store_conj(Var, eq, NewVar, AccState1)}; + false -> + {Var, AccState} + end + end, + {NewEvars, TmpState} = lists:mapfoldl(Fun, State1, EVars), + {TmpState, t_tuple(NewEvars)} + end, + case Elements of + [Tag|Fields] -> + case cerl:is_c_atom(Tag) of + true -> + %% Check if an opaque term is constructed. + case t_opaque_match_record(TupleType, State#state.opaques) of + [Opaque] -> + OpStruct = t_opaque_matching_structure(TupleType, Opaque), + State3 = state__store_conj(TupleType, sub, OpStruct, State2), + {State3, Opaque}; + %% Check if a record is constructed. + _ -> + Arity = length(Fields), + case state__lookup_record(State2, cerl:atom_val(Tag), Arity) of + error -> {State2, TupleType}; + {ok, RecType} -> + State3 = state__store_conj(TupleType, sub, RecType, State2), + {State3, TupleType} + end + end; + false -> {State2, TupleType} + end; + [] -> {State2, TupleType} + end; + values -> + %% We can get into trouble when unifying products that have the + %% same element appearing several times. Handle these cases by + %% introducing fresh variables and constraining them to be equal + %% to the original ones. This is similar to what happens in + %% pattern matching where the matching is done on fresh + %% variables and guards assert that the matching is correct. + Elements = cerl:values_es(Tree), + {State1, EVars} = traverse_list(Elements, DefinedVars, State), + Arity = length(EVars), + Unique = length(ordsets:from_list(EVars)), + case Arity =:= Unique of + true -> {State1, t_product(EVars)}; + false -> + {State2, Vars} = state__mk_vars(Arity, State1), + State3 = state__store_conj_lists(Vars, eq, EVars, State2), + {State3, t_product(Vars)} + end; + var -> + case is_def(Tree, DefinedVars) of + true -> {State, mk_var(Tree)}; + false -> + %% If we are analyzing SCCs this can be a function variable. + case state__lookup_undef_var(Tree, State) of + error -> erlang:error({'Undefined variable', Tree}); + {ok, Type} -> + {State1, NewVar} = state__mk_var(State), + {state__store_conj(NewVar, sub, Type, State1), NewVar} + end + end; + Other -> + erlang:error({'Unsupported type', Other}) + end. + +traverse_list(Trees, DefinedVars, State) -> + traverse_list(Trees, DefinedVars, State, []). + +traverse_list([Tree|Tail], DefinedVars, State, Acc) -> + {State1, Var} = traverse(Tree, DefinedVars, State), + traverse_list(Tail, DefinedVars, State1, [Var|Acc]); +traverse_list([], _DefinedVars, State, Acc) -> + {State, lists:reverse(Acc)}. + +add_def(Var, Set) -> + sets:add_element(cerl_trees:get_label(Var), Set). + +add_def_list([H|T], Set) -> + add_def_list(T, add_def(H, Set)); +add_def_list([], Set) -> + Set. + +add_def_from_tree(T, DefinedVars) -> + Vars = cerl_trees:fold(fun(X, Acc) -> + case cerl:is_c_var(X) of + true -> [X|Acc]; + false -> Acc + end + end, [], T), + add_def_list(Vars, DefinedVars). + +add_def_from_tree_list([H|T], DefinedVars) -> + add_def_from_tree_list(T, add_def_from_tree(H, DefinedVars)); +add_def_from_tree_list([], DefinedVars) -> + DefinedVars. + +is_def(Var, Set) -> + sets:is_element(cerl_trees:get_label(Var), Set). + +%%---------------------------------------- +%% Try +%% + +handle_try(Tree, DefinedVars, State) -> + Arg = cerl:try_arg(Tree), + Vars = cerl:try_vars(Tree), + EVars = cerl:try_evars(Tree), + Body = cerl:try_body(Tree), + Handler = cerl:try_handler(Tree), + State1 = state__new_constraint_context(State), + {ArgBodyState, BodyVar} = + try + {State2, ArgVar} = traverse(Arg, DefinedVars, State1), + DefinedVars1 = add_def_list(Vars, DefinedVars), + {State3, BodyVar1} = traverse(Body, DefinedVars1, State2), + State4 = state__store_conj(t_product(mk_var_list(Vars)), eq, ArgVar, + State3), + {State4, BodyVar1} + catch + throw:error -> + {State1, t_none()} + end, + State6 = state__new_constraint_context(ArgBodyState), + {HandlerState, HandlerVar} = + try + DefinedVars2 = add_def_list([X || X <- EVars, cerl:is_c_var(X)], + DefinedVars), + traverse(Handler, DefinedVars2, State6) + catch + throw:error -> + {State6, t_none()} + end, + ArgBodyCs = state__cs(ArgBodyState), + HandlerCs = state__cs(HandlerState), + TreeVar = mk_var(Tree), + OldCs = state__cs(State), + case state__is_in_guard(State) of + true -> + Conj1 = mk_conj_constraint_list([ArgBodyCs, + mk_constraint(BodyVar, eq, TreeVar)]), + Disj = mk_disj_constraint_list([Conj1, + mk_constraint(HandlerVar, eq, TreeVar)]), + NewState1 = state__new_constraint_context(HandlerState), + Conj2 = mk_conj_constraint_list([OldCs, Disj]), + NewState2 = state__store_conj(Conj2, NewState1), + {NewState2, TreeVar}; + false -> + {NewCs, ReturnVar} = + case {t_is_none(BodyVar), t_is_none(HandlerVar)} of + {false, false} -> + Conj1 = + mk_conj_constraint_list([ArgBodyCs, + mk_constraint(TreeVar, eq, BodyVar)]), + Conj2 = + mk_conj_constraint_list([HandlerCs, + mk_constraint(TreeVar, eq, HandlerVar)]), + Disj = mk_disj_constraint_list([Conj1, Conj2]), + {Disj, mk_var(Tree)}; + {false, true} -> + {mk_conj_constraint_list([ArgBodyCs, + mk_constraint(TreeVar, eq, BodyVar)]), + BodyVar}; + {true, false} -> + {mk_conj_constraint_list([HandlerCs, + mk_constraint(TreeVar, eq, HandlerVar)]), + HandlerVar}; + {true, true} -> + ?debug("Throw failed\n", []), + throw(error) + end, + Conj = mk_conj_constraint_list([OldCs, NewCs]), + NewState1 = state__new_constraint_context(HandlerState), + NewState2 = state__store_conj(Conj, NewState1), + {NewState2, ReturnVar} + end. + +%%---------------------------------------- +%% Call +%% + +handle_call(Call, DefinedVars, State) -> + Args = cerl:call_args(Call), + Mod = cerl:call_module(Call), + Fun = cerl:call_name(Call), + Dst = mk_var(Call), + case cerl:is_c_atom(Mod) andalso cerl:is_c_atom(Fun) of + true -> + M = cerl:atom_val(Mod), + F = cerl:atom_val(Fun), + A = length(Args), + MFA = {M, F, A}, + {State1, ArgVars} = traverse_list(Args, DefinedVars, State), + case state__lookup_rec_var_in_scope(MFA, State) of + error -> + case get_bif_constr(MFA, Dst, ArgVars, State1) of + none -> + {get_plt_constr(MFA, Dst, ArgVars, State1), Dst}; + C -> + {state__store_conj(C, State1), Dst} + end; + {ok, Var} -> + %% This is part of the SCC currently analyzed. + %% Intercept and change this to an apply instead. + ?debug("Found the call to ~w\n", [MFA]), + Label = cerl_trees:get_label(Call), + Apply = cerl:ann_c_apply([{label, Label}], Var, Args), + traverse(Apply, DefinedVars, State) + end; + false -> + {State1, MF} = traverse_list([Mod, Fun], DefinedVars, State), + {state__store_conj_lists(MF, sub, [t_module(), t_atom()], State1), Dst} + end. + +get_plt_constr(MFA, Dst, ArgVars, State) -> + Plt = state__plt(State), + PltRes = dialyzer_plt:lookup(Plt, MFA), + case dialyzer_plt:lookup_contract(Plt, MFA) of + none -> + case PltRes of + none -> State; + {value, {PltRetType, PltArgTypes}} -> + state__store_conj_lists([Dst|ArgVars], sub, + [PltRetType|PltArgTypes], State) + end; + {value, #contract{args = GenArgs} = C} -> + {RetType, ArgCs} = + case PltRes of + none -> + {mk_fun_var(fun(Map) -> + ArgTypes = lookup_type_list(ArgVars, Map), + dialyzer_contracts:get_contract_return(C, ArgTypes) + end, ArgVars), GenArgs}; + {value, {PltRetType, PltArgTypes}} -> + %% Need to combine the contract with the success typing. + {mk_fun_var( + fun(Map) -> + ArgTypes = lookup_type_list(ArgVars, Map), + CRet = dialyzer_contracts:get_contract_return(C, ArgTypes), + t_inf(CRet, PltRetType, opaque) + end, ArgVars), + [t_inf(X, Y, opaque) || {X, Y} <- lists:zip(GenArgs, PltArgTypes)]} + end, + state__store_conj_lists([Dst|ArgVars], sub, [RetType|ArgCs], State) + end. + +filter_match_fail([Clause] = Cls) -> + Body = cerl:clause_body(Clause), + case cerl:type(Body) of + primop -> + case cerl:atom_val(cerl:primop_name(Body)) of + match_fail -> []; + raise -> []; + _ -> Cls + end; + _ -> Cls + end; +filter_match_fail([H|T]) -> + [H|filter_match_fail(T)]; +filter_match_fail([]) -> + %% This can actually happen, for example in + %% receive after 1 -> ok end + []. + +%% If there is a significant number of clauses, we cannot apply the +%% list subtraction scheme since it causes the analysis to be too +%% slow. Typically, this only affects automatically generated files. +%% Anyway, and the dataflow analysis doesn't suffer from this, so we +%% will get some information anyway. +-define(MAX_NOF_CLAUSES, 15). + +handle_clauses(Clauses, TopVar, Arg, DefinedVars, State) -> + handle_clauses(Clauses, TopVar, Arg, none, DefinedVars, State). + +handle_clauses([], _, _, Action, DefinedVars, State) when Action =/= none -> + %% Can happen when a receive has no clauses, see filter_match_fail. + traverse(Action, DefinedVars, State); +handle_clauses(Clauses, TopVar, Arg, Action, DefinedVars, State) -> + SubtrTypeList = + if length(Clauses) > ?MAX_NOF_CLAUSES -> overflow; + true -> [] + end, + {State1, CList} = handle_clauses_1(Clauses, TopVar, Arg, DefinedVars, + State, SubtrTypeList, []), + {NewCs, NewState} = + case Action of + none -> + if CList =:= [] -> throw(error); + true -> {CList, State1} + end; + _ -> + try + {State2, ActionVar} = traverse(Action, DefinedVars, State1), + TmpC = mk_constraint(TopVar, eq, ActionVar), + ActionCs = mk_conj_constraint_list([state__cs(State2),TmpC]), + {[ActionCs|CList], State2} + catch + throw:error -> + if CList =:= [] -> throw(error); + true -> {CList, State1} + end + end + end, + OldCs = state__cs(State), + NewCList = mk_disj_constraint_list(NewCs), + FinalState = state__new_constraint_context(NewState), + {state__store_conj_list([OldCs, NewCList], FinalState), TopVar}. + +handle_clauses_1([Clause|Tail], TopVar, Arg, DefinedVars, + State, SubtrTypes, Acc) -> + State0 = state__new_constraint_context(State), + Pats = cerl:clause_pats(Clause), + Guard = cerl:clause_guard(Clause), + Body = cerl:clause_body(Clause), + NewSubtrTypes = + case SubtrTypes =:= overflow of + true -> overflow; + false -> + ordsets:add_element(get_safe_underapprox(Pats, Guard), SubtrTypes) + end, + try + DefinedVars1 = add_def_from_tree_list(Pats, DefinedVars), + State1 = state__set_in_match(State0, true), + {State2, PatVars} = traverse_list(Pats, DefinedVars1, State1), + State3 = + case Arg =:= [] of + true -> State2; + false -> + S = state__store_conj(Arg, eq, t_product(PatVars), State2), + case SubtrTypes =:= overflow of + true -> S; + false -> + SubtrPatVar = mk_fun_var(fun(Map) -> + TmpType = lookup_type(Arg, Map), + t_subtract_list(TmpType, SubtrTypes) + end, [Arg]), + state__store_conj(Arg, sub, SubtrPatVar, S) + end + end, + State4 = handle_guard(Guard, DefinedVars1, State3), + {State5, BodyVar} = traverse(Body, DefinedVars1, + state__set_in_match(State4, false)), + State6 = state__store_conj(TopVar, eq, BodyVar, State5), + Cs = state__cs(State6), + handle_clauses_1(Tail, TopVar, Arg, DefinedVars, State6, + NewSubtrTypes, [Cs|Acc]) + catch + throw:error -> + handle_clauses_1(Tail, TopVar, Arg, DefinedVars, + State, NewSubtrTypes, Acc) + end; +handle_clauses_1([], _TopVar, _Arg, _DefinedVars, State, _SubtrType, Acc) -> + {state__new_constraint_context(State), Acc}. + +-spec get_safe_underapprox([cerl:c_values()], cerl:cerl()) -> erl_types:erl_type(). + +get_safe_underapprox(Pats, Guard) -> + try + Map1 = cerl_trees:fold(fun(X, Acc) -> + case cerl:is_c_var(X) of + true -> + dict:store(cerl_trees:get_label(X), t_any(), + Acc); + false -> Acc + end + end, dict:new(), cerl:c_values(Pats)), + {Type, Map2} = get_underapprox_from_guard(Guard, Map1), + Map3 = case t_is_none(t_inf(t_from_term(true), Type)) of + true -> throw(dont_know); + false -> + case cerl:is_c_var(Guard) of + false -> Map2; + true -> + dict:store(cerl_trees:get_label(Guard), + t_from_term(true), Map2) + end + end, + {Ts, _Map4} = get_safe_underapprox_1(Pats, [], Map3), + t_product(Ts) + catch + throw:dont_know -> t_none() + end. + +get_underapprox_from_guard(Tree, Map) -> + True = t_from_term(true), + case cerl:type(Tree) of + call -> + case {cerl:concrete(cerl:call_module(Tree)), + cerl:concrete(cerl:call_name(Tree)), + length(cerl:call_args(Tree))} of + {erlang, is_function, 2} -> + [Fun, Arity] = cerl:call_args(Tree), + case cerl:is_c_int(Arity) of + false -> throw(dont_know); + true -> + {FunType, Map1} = get_underapprox_from_guard(Fun, Map), + Inf = t_inf(FunType, t_fun(cerl:int_val(Arity), t_any())), + case t_is_none(Inf) of + true -> throw(dont_know); + false -> + {True, dict:store(cerl_trees:get_label(Fun), Inf, Map1)} + end + end; + MFA -> + case get_type_test(MFA) of + {ok, Type} -> + [Arg] = cerl:call_args(Tree), + {ArgType, Map1} = get_underapprox_from_guard(Arg, Map), + Inf = t_inf(Type, ArgType), + case t_is_none(Inf) of + true -> throw(dont_know); + false -> + case cerl:is_literal(Arg) of + true -> {True, Map1}; + false -> + {True, dict:store(cerl_trees:get_label(Arg), Inf, Map1)} + end + end; + error -> + case MFA of + {erlang, '=:=', 2} -> throw(dont_know); + {erlang, '==', 2} -> throw(dont_know); + {erlang, 'and', 2} -> + [Arg1, Arg2] = cerl:call_args(Tree), + case ((cerl:is_c_var(Arg1) orelse cerl:is_literal(Arg1)) + andalso + (cerl:is_c_var(Arg2) orelse cerl:is_literal(Arg2))) of + true -> + {Arg1Type, _} = get_underapprox_from_guard(Arg1, Map), + {Arg2Type, _} = get_underapprox_from_guard(Arg1, Map), + case (t_is_equal(True, Arg1Type) andalso + t_is_equal(True, Arg2Type)) of + true -> {True, Map}; + false -> throw(dont_know) + end; + false -> + throw(dont_know) + end; + {erlang, 'or', 2} -> throw(dont_know); + _ -> throw(dont_know) + end + end + end; + var -> + Type = + case dict:find(cerl_trees:get_label(Tree), Map) of + error -> throw(dont_know); + {ok, T} -> T + end, + {Type, Map}; + literal -> + case cerl:unfold_literal(Tree) of + Tree -> + Type = + case cerl:concrete(Tree) of + Int when is_integer(Int) -> t_from_term(Int); + Atom when is_atom(Atom) -> t_from_term(Atom); + _Other -> throw(dont_know) + end, + {Type, Map}; + OtherTree -> + get_underapprox_from_guard(OtherTree, Map) + end; + _ -> + throw(dont_know) + end. + +%% +%% The guard test {erlang, is_function, 2} is handled specially by the +%% function get_underapprox_from_guard/2 +%% +get_type_test({erlang, is_atom, 1}) -> {ok, t_atom()}; +get_type_test({erlang, is_boolean, 1}) -> {ok, t_boolean()}; +get_type_test({erlang, is_binary, 1}) -> {ok, t_binary()}; +get_type_test({erlang, is_bitstring, 1}) -> {ok, t_bitstr()}; +get_type_test({erlang, is_float, 1}) -> {ok, t_float()}; +get_type_test({erlang, is_function, 1}) -> {ok, t_fun()}; +get_type_test({erlang, is_integer, 1}) -> {ok, t_integer()}; +get_type_test({erlang, is_list, 1}) -> {ok, t_list()}; +get_type_test({erlang, is_number, 1}) -> {ok, t_number()}; +get_type_test({erlang, is_pid, 1}) -> {ok, t_pid()}; +get_type_test({erlang, is_port, 1}) -> {ok, t_port()}; +%% get_type_test({erlang, is_record, 2}) -> {ok, t_tuple()}; +%% get_type_test({erlang, is_record, 3}) -> {ok, t_tuple()}; +get_type_test({erlang, is_reference, 1}) -> {ok, t_reference()}; +get_type_test({erlang, is_tuple, 1}) -> {ok, t_tuple()}; +get_type_test({M, F, A}) when is_atom(M), is_atom(F), is_integer(A) -> error. + +bitstr_constr(SizeType, UnitVal) -> + fun(Map) -> + TmpSizeType = lookup_type(SizeType, Map), + case t_is_subtype(TmpSizeType, t_non_neg_integer()) of + true -> + case t_number_vals(TmpSizeType) of + [OneSize] -> t_bitstr(0, OneSize * UnitVal); + _ -> + MinSize = erl_types:number_min(TmpSizeType), + t_bitstr(UnitVal, MinSize * UnitVal) + end; + false -> + t_bitstr(UnitVal, 0) + end + end. + +bitstr_val_constr(SizeType, UnitVal, Flags) -> + fun(Map) -> + TmpSizeType = lookup_type(SizeType, Map), + case t_is_subtype(TmpSizeType, t_non_neg_integer()) of + true -> + case erl_types:number_max(TmpSizeType) of + N when is_integer(N), N < 128 -> %% Avoid illegal arithmetic + TotalSizeVal = N * UnitVal, + {RangeMin, RangeMax} = + case lists:member(signed, Flags) of + true -> {-(1 bsl (TotalSizeVal - 1)), + 1 bsl (TotalSizeVal - 1) - 1}; + false -> {0, 1 bsl TotalSizeVal - 1} + end, + t_from_range(RangeMin, RangeMax); + _ -> + t_integer() + end; + false -> + t_integer() + end + end. + +get_safe_underapprox_1([Pat|Left], Acc, Map) -> + case cerl:type(Pat) of + alias -> + APat = cerl:alias_pat(Pat), + AVar = cerl:alias_var(Pat), + {[VarType], Map1} = get_safe_underapprox_1([AVar], [], Map), + {[PatType], Map2} = get_safe_underapprox_1([APat], [], Map1), + Inf = t_inf(VarType, PatType), + case t_is_none(Inf) of + true -> throw(dont_know); + false -> + Map3 = dict:store(cerl_trees:get_label(AVar), Inf, Map2), + get_safe_underapprox_1(Left, [Inf|Acc], Map3) + end; + binary -> + %% TODO: Can maybe do something here + throw(dont_know); + cons -> + {[Hd, Tl], Map1} = + get_safe_underapprox_1([cerl:cons_hd(Pat), cerl:cons_tl(Pat)], [], Map), + case t_is_any(Tl) of + true -> get_safe_underapprox_1(Left, [t_nonempty_list(Hd)|Acc], Map1); + false -> throw(dont_know) + end; + literal -> + case cerl:unfold_literal(Pat) of + Pat -> + Type = + case cerl:concrete(Pat) of + Int when is_integer(Int) -> t_from_term(Int); + Atom when is_atom(Atom) -> t_from_term(Atom); + [] -> t_from_term([]); + _Other -> throw(dont_know) + end, + get_safe_underapprox_1(Left, [Type|Acc], Map); + OtherPat -> + get_safe_underapprox_1([OtherPat|Left], Acc, Map) + end; + tuple -> + Es = cerl:tuple_es(Pat), + {Ts, Map1} = get_safe_underapprox_1(Es, [], Map), + Type = t_tuple(Ts), + get_safe_underapprox_1(Left, [Type|Acc], Map1); + values -> + Es = cerl:values_es(Pat), + {Ts, Map1} = get_safe_underapprox_1(Es, [], Map), + Type = t_product(Ts), + get_safe_underapprox_1(Left, [Type|Acc], Map1); + var -> + case dict:find(cerl_trees:get_label(Pat), Map) of + error -> throw(dont_know); + {ok, VarType} -> get_safe_underapprox_1(Left, [VarType|Acc], Map) + end + end; +get_safe_underapprox_1([], Acc, Map) -> + {lists:reverse(Acc), Map}. + +%%---------------------------------------- +%% Guards +%% + +handle_guard(Guard, DefinedVars, State) -> + True = t_from_term(true), + State1 = state__set_in_guard(State, true), + State2 = state__new_constraint_context(State1), + {State3, Return} = traverse(Guard, DefinedVars, State2), + State4 = state__store_conj(Return, eq, True, State3), + Cs = state__cs(State4), + NewCs = mk_disj_norm_form(Cs), + OldCs = state__cs(State), + State5 = state__set_in_guard(State4, state__is_in_guard(State)), + State6 = state__new_constraint_context(State5), + state__store_conj(mk_conj_constraint_list([OldCs, NewCs]), State6). + +%%============================================================================= +%% +%% BIF constraints +%% +%%============================================================================= + +get_bif_constr({erlang, Op, 2}, Dst, Args = [Arg1, Arg2], _State) + when Op =:= '+'; Op =:= '-'; Op =:= '*' -> + ReturnType = mk_fun_var(fun(Map) -> + TmpArgTypes = lookup_type_list(Args, Map), + erl_bif_types:type(erlang, Op, 2, TmpArgTypes) + end, Args), + ArgFun = + fun(A, Pos) -> + F = + fun(Map) -> + DstType = lookup_type(Dst, Map), + AType = lookup_type(A, Map), + case t_is_integer(DstType) of + true -> + case t_is_integer(AType) of + true -> + eval_inv_arith(Op, Pos, DstType, AType); + false -> + %% This must be temporary. + t_integer() + end; + false -> + case t_is_float(DstType) of + true -> + case t_is_integer(AType) of + true -> t_float(); + false -> t_number() + end; + false -> + t_number() + end + end + end, + mk_fun_var(F, [Dst, A]) + end, + Arg1FunVar = ArgFun(Arg2, 2), + Arg2FunVar = ArgFun(Arg1, 1), + mk_conj_constraint_list([mk_constraint(Dst, sub, ReturnType), + mk_constraint(Arg1, sub, Arg1FunVar), + mk_constraint(Arg2, sub, Arg2FunVar)]); +get_bif_constr({erlang, Op, 2}, Dst, [Arg1, Arg2] = Args, _State) + when Op =:= '<'; Op =:= '=<'; Op =:= '>'; Op =:= '>=' -> + ArgFun = + fun(LocalArg1, LocalArg2, LocalOp) -> + fun(Map) -> + DstType = lookup_type(Dst, Map), + IsTrue = t_is_atom(true, DstType), + IsFalse = t_is_atom(false, DstType), + case IsTrue orelse IsFalse of + true -> + Arg1Type = lookup_type(LocalArg1, Map), + Arg2Type = lookup_type(LocalArg2, Map), + case t_is_integer(Arg1Type) andalso t_is_integer(Arg2Type) of + true -> + Max1 = erl_types:number_max(Arg1Type), + Min1 = erl_types:number_min(Arg1Type), + Max2 = erl_types:number_max(Arg2Type), + Min2 = erl_types:number_min(Arg2Type), + case LocalOp of + '=<' -> + if IsTrue -> t_from_range(Min1, Max2); + IsFalse -> t_from_range(range_inc(Min2), Max1) + end; + '<' -> + if IsTrue -> t_from_range(Min1, range_dec(Max2)); + IsFalse -> t_from_range(Min2, Max1) + end; + '>=' -> + if IsTrue -> t_from_range(Min2, Max1); + IsFalse -> t_from_range(Min1, range_dec(Max2)) + end; + '>' -> + if IsTrue -> t_from_range(range_inc(Min2), Max1); + IsFalse -> t_from_range(Min1, Max2) + end + end; + false -> t_any() + end; + false -> t_any() + end + end + end, + {Arg1Fun, Arg2Fun} = + case Op of + '<' -> {ArgFun(Arg1, Arg2, '<'), ArgFun(Arg2, Arg1, '>=')}; + '=<' -> {ArgFun(Arg1, Arg2, '=<'), ArgFun(Arg2, Arg1, '>=')}; + '>' -> {ArgFun(Arg1, Arg2, '>'), ArgFun(Arg2, Arg1, '<')}; + '>=' -> {ArgFun(Arg1, Arg2, '>='), ArgFun(Arg2, Arg1, '=<')} + end, + DstArgs = [Dst, Arg1, Arg2], + Arg1Var = mk_fun_var(Arg1Fun, DstArgs), + Arg2Var = mk_fun_var(Arg2Fun, DstArgs), + DstVar = mk_fun_var(fun(Map) -> + TmpArgTypes = lookup_type_list(Args, Map), + erl_bif_types:type(erlang, Op, 2, TmpArgTypes) + end, Args), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstVar), + mk_constraint(Arg1, sub, Arg1Var), + mk_constraint(Arg2, sub, Arg2Var)]); +get_bif_constr({erlang, '++', 2}, Dst, [Hd, Tl] = Args, _State) -> + HdFun = fun(Map) -> + DstType = lookup_type(Dst, Map), + case t_is_cons(DstType) of + true -> t_list(t_cons_hd(DstType)); + false -> + case t_is_list(DstType) of + true -> + case t_is_nil(DstType) of + true -> DstType; + false -> t_list(t_list_elements(DstType)) + end; + false -> t_list() + end + end + end, + TlFun = fun(Map) -> + DstType = lookup_type(Dst, Map), + case t_is_cons(DstType) of + true -> t_sup(t_cons_tl(DstType), DstType); + false -> + case t_is_list(DstType) of + true -> + case t_is_nil(DstType) of + true -> DstType; + false -> t_list(t_list_elements(DstType)) + end; + false -> t_any() + end + end + end, + DstL = [Dst], + HdVar = mk_fun_var(HdFun, DstL), + TlVar = mk_fun_var(TlFun, DstL), + ArgTypes = erl_bif_types:arg_types(erlang, '++', 2), + ReturnType = mk_fun_var(fun(Map) -> + TmpArgTypes = lookup_type_list(Args, Map), + erl_bif_types:type(erlang, '++', 2, TmpArgTypes) + end, Args), + Cs = mk_constraints(Args, sub, ArgTypes), + mk_conj_constraint_list([mk_constraint(Dst, sub, ReturnType), + mk_constraint(Hd, sub, HdVar), + mk_constraint(Tl, sub, TlVar) + |Cs]); +get_bif_constr({erlang, is_atom, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_atom(), State); +get_bif_constr({erlang, is_binary, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_binary(), State); +get_bif_constr({erlang, is_bitstring, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_bitstr(), State); +get_bif_constr({erlang, is_boolean, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_boolean(), State); +get_bif_constr({erlang, is_float, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_float(), State); +get_bif_constr({erlang, is_function, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_fun(), State); +get_bif_constr({erlang, is_function, 2}, Dst, [Fun, Arity], _State) -> + ArgFun = fun(Map) -> + DstType = lookup_type(Dst, Map), + case t_is_atom(true, DstType) of + true -> + ArityType = lookup_type(Arity, Map), + case t_number_vals(ArityType) of + unknown -> t_fun(); + Vals -> t_sup([t_fun(X, t_any()) || X <- Vals]) + end; + false -> t_any() + end + end, + ArgV = mk_fun_var(ArgFun, [Dst, Arity]), + mk_conj_constraint_list([mk_constraint(Dst, sub, t_boolean()), + mk_constraint(Arity, sub, t_integer()), + mk_constraint(Fun, sub, ArgV)]); +get_bif_constr({erlang, is_integer, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_integer(), State); +get_bif_constr({erlang, is_list, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_maybe_improper_list(), State); +get_bif_constr({erlang, is_number, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_number(), State); +get_bif_constr({erlang, is_pid, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_pid(), State); +get_bif_constr({erlang, is_port, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_port(), State); +get_bif_constr({erlang, is_reference, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_reference(), State); +get_bif_constr({erlang, is_record, 2}, Dst, [Var, Tag] = Args, _State) -> + ArgFun = fun(Map) -> + case t_is_atom(true, lookup_type(Dst, Map)) of + true -> t_tuple(); + false -> t_any() + end + end, + ArgV = mk_fun_var(ArgFun, [Dst]), + DstFun = fun(Map) -> + TmpArgTypes = lookup_type_list(Args, Map), + erl_bif_types:type(erlang, is_record, 2, TmpArgTypes) + end, + DstV = mk_fun_var(DstFun, Args), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstV), + mk_constraint(Tag, sub, t_atom()), + mk_constraint(Var, sub, ArgV)]); +get_bif_constr({erlang, is_record, 3}, Dst, [Var, Tag, Arity] = Args, State) -> + %% TODO: Revise this to make it precise for Tag and Arity. + ArgFun = + fun(Map) -> + case t_is_atom(true, lookup_type(Dst, Map)) of + true -> + ArityType = lookup_type(Arity, Map), + case t_is_integer(ArityType) of + true -> + case t_number_vals(ArityType) of + [ArityVal] -> + TagType = lookup_type(Tag, Map), + case t_is_atom(TagType) of + true -> + AnyElems = lists:duplicate(ArityVal-1, t_any()), + GenRecord = t_tuple([TagType|AnyElems]), + case t_atom_vals(TagType) of + [TagVal] -> + case state__lookup_record(State, TagVal, + ArityVal - 1) of + {ok, Type} -> + AllOpaques = State#state.opaques, + case t_opaque_match_record(Type, AllOpaques) of + [Opaque] -> Opaque; + _ -> Type + end; + error -> GenRecord + end; + _ -> GenRecord + end; + false -> t_tuple(ArityVal) + end; + _ -> t_tuple() + end; + false -> t_tuple() + end; + false -> t_any() + end + end, + ArgV = mk_fun_var(ArgFun, [Tag, Arity, Dst]), + DstFun = fun(Map) -> + [TmpVar, TmpTag, TmpArity] = TmpArgTypes = lookup_type_list(Args, Map), + TmpArgTypes2 = + case lists:member(TmpVar, State#state.opaques) of + true -> + case t_is_integer(TmpArity) of + true -> + case t_number_vals(TmpArity) of + [TmpArityVal] -> + case t_is_atom(TmpTag) of + true -> + case t_atom_vals(TmpTag) of + [TmpTagVal] -> + case state__lookup_record(State, TmpTagVal, TmpArityVal - 1) of + {ok, TmpType} -> + case t_is_none(t_inf(TmpType, TmpVar, opaque)) of + true -> TmpArgTypes; + false -> [TmpType, TmpTag, TmpArity] + end; + error -> TmpArgTypes + end; + _ -> TmpArgTypes + end; + false -> TmpArgTypes + end; + _ -> TmpArgTypes + end; + false -> TmpArgTypes + end; + false -> TmpArgTypes + end, + erl_bif_types:type(erlang, is_record, 3, TmpArgTypes2) + end, + DstV = mk_fun_var(DstFun, Args), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstV), + mk_constraint(Arity, sub, t_integer()), + mk_constraint(Tag, sub, t_atom()), + mk_constraint(Var, sub, ArgV)]); +get_bif_constr({erlang, is_tuple, 1}, Dst, [Arg], State) -> + get_bif_test_constr(Dst, Arg, t_tuple(), State); +get_bif_constr({erlang, 'and', 2}, Dst, [Arg1, Arg2] = Args, _State) -> + True = t_from_term(true), + False = t_from_term(false), + ArgFun = fun(Var) -> + fun(Map) -> + DstType = lookup_type(Dst, Map), + case t_is_atom(true, DstType) of + true -> True; + false -> + case t_is_atom(false, DstType) of + true -> + case t_is_atom(true, lookup_type(Var, Map)) of + true -> False; + false -> t_boolean() + end; + false -> + t_boolean() + end + end + end + end, + DstFun = fun(Map) -> + Arg1Type = lookup_type(Arg1, Map), + case t_is_atom(false, Arg1Type) of + true -> False; + false -> + Arg2Type = lookup_type(Arg2, Map), + case t_is_atom(false, Arg2Type) of + true -> False; + false -> + case (t_is_atom(true, Arg1Type) + andalso t_is_atom(true, Arg2Type)) of + true -> True; + false -> t_boolean() + end + end + end + end, + ArgV1 = mk_fun_var(ArgFun(Arg2), [Arg2, Dst]), + ArgV2 = mk_fun_var(ArgFun(Arg1), [Arg1, Dst]), + DstV = mk_fun_var(DstFun, Args), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstV), + mk_constraint(Arg1, sub, ArgV1), + mk_constraint(Arg2, sub, ArgV2)]); +get_bif_constr({erlang, 'or', 2}, Dst, [Arg1, Arg2] = Args, _State) -> + True = t_from_term(true), + False = t_from_term(false), + ArgFun = fun(Var) -> + fun(Map) -> + DstType = lookup_type(Dst, Map), + case t_is_atom(false, DstType) of + true -> False; + false -> + case t_is_atom(true, DstType) of + true -> + case t_is_atom(false, lookup_type(Var, Map)) of + true -> True; + false -> t_boolean() + end; + false -> + t_boolean() + end + end + end + end, + DstFun = fun(Map) -> + Arg1Type = lookup_type(Arg1, Map), + case t_is_atom(true, Arg1Type) of + true -> True; + false -> + Arg2Type = lookup_type(Arg2, Map), + case t_is_atom(true, Arg2Type) of + true -> True; + false -> + case (t_is_atom(false, Arg1Type) + andalso t_is_atom(false, Arg2Type)) of + true -> False; + false -> t_boolean() + end + end + end + end, + ArgV1 = mk_fun_var(ArgFun(Arg2), [Arg2, Dst]), + ArgV2 = mk_fun_var(ArgFun(Arg1), [Arg1, Dst]), + DstV = mk_fun_var(DstFun, Args), + Disj = mk_disj_constraint_list([mk_constraint(Arg1, sub, True), + mk_constraint(Arg2, sub, True), + mk_constraint(Dst, sub, False)]), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstV), + mk_constraint(Arg1, sub, ArgV1), + mk_constraint(Arg2, sub, ArgV2), + Disj]); +get_bif_constr({erlang, 'not', 1}, Dst, [Arg] = Args, _State) -> + True = t_from_term(true), + False = t_from_term(false), + Fun = fun(Var) -> + fun(Map) -> + Type = lookup_type(Var, Map), + case t_is_atom(true, Type) of + true -> False; + false -> + case t_is_atom(false, Type) of + true -> True; + false -> t_boolean() + end + end + end + end, + ArgV = mk_fun_var(Fun(Dst), [Dst]), + DstV = mk_fun_var(Fun(Arg), Args), + mk_conj_constraint_list([mk_constraint(Arg, sub, ArgV), + mk_constraint(Dst, sub, DstV)]); +get_bif_constr({erlang, '=:=', 2}, Dst, [Arg1, Arg2] = Args, _State) -> + ArgFun = + fun(Self, OtherVar) -> + fun(Map) -> + DstType = lookup_type(Dst, Map), + OtherVarType = lookup_type(OtherVar, Map), + case t_is_atom(true, DstType) of + true -> OtherVarType; + false -> + case t_is_atom(false, DstType) of + true -> + case is_singleton_type(OtherVarType) of + true -> t_subtract(lookup_type(Self, Map), OtherVarType); + false -> t_any() + end; + false -> + t_any() + end + end + end + end, + DstFun = fun(Map) -> + ArgType1 = lookup_type(Arg1, Map), + ArgType2 = lookup_type(Arg2, Map), + case t_is_none(t_inf(ArgType1, ArgType2)) of + true -> t_from_term(false); + false -> t_boolean() + end + end, + DstArgs = [Dst, Arg1, Arg2], + ArgV1 = mk_fun_var(ArgFun(Arg1, Arg2), DstArgs), + ArgV2 = mk_fun_var(ArgFun(Arg2, Arg1), DstArgs), + DstV = mk_fun_var(DstFun, Args), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstV), + mk_constraint(Arg1, sub, ArgV1), + mk_constraint(Arg2, sub, ArgV2)]); +get_bif_constr({erlang, '==', 2}, Dst, [Arg1, Arg2] = Args, _State) -> + DstFun = fun(Map) -> + TmpArgTypes = lookup_type_list(Args, Map), + erl_bif_types:type(erlang, '==', 2, TmpArgTypes) + end, + ArgFun = + fun(Var, Self) -> + fun(Map) -> + VarType = lookup_type(Var, Map), + DstType = lookup_type(Dst, Map), + case is_singleton_non_number_type(VarType) of + true -> + case t_is_atom(true, DstType) of + true -> VarType; + false -> + case t_is_atom(false, DstType) of + true -> t_subtract(lookup_type(Self, Map), VarType); + false -> t_any() + end + end; + false -> + case t_is_atom(true, DstType) of + true -> + case t_is_number(VarType) of + true -> t_number(); + false -> + case t_is_atom(VarType) of + true -> VarType; + false -> t_any() + end + end; + false -> + t_any() + end + end + end + end, + DstV = mk_fun_var(DstFun, Args), + ArgL = [Arg1, Arg2, Dst], + ArgV1 = mk_fun_var(ArgFun(Arg2, Arg1), ArgL), + ArgV2 = mk_fun_var(ArgFun(Arg1, Arg2), ArgL), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstV), + mk_constraint(Arg1, sub, ArgV1), + mk_constraint(Arg2, sub, ArgV2)]); +get_bif_constr({erlang, element, 2} = _BIF, Dst, Args, State) -> + GenType = erl_bif_types:type(erlang, element, 2), + case t_is_none(GenType) of + true -> ?debug("Bif: ~w failed\n", [_BIF]), throw(error); + false -> + Fun = fun(Map) -> + [I, T] = ATs = lookup_type_list(Args, Map), + ATs2 = case lists:member(T, State#state.opaques) of + true -> [I, erl_types:t_opaque_structure(T)]; + false -> ATs + end, + erl_bif_types:type(erlang, element, 2, ATs2) + end, + ReturnType = mk_fun_var(Fun, Args), + ArgTypes = erl_bif_types:arg_types(erlang, element, 2), + Cs = mk_constraints(Args, sub, ArgTypes), + mk_conj_constraint_list([mk_constraint(Dst, sub, ReturnType)|Cs]) + end; +get_bif_constr({M, F, A} = _BIF, Dst, Args, _State) -> + GenType = erl_bif_types:type(M, F, A), + case t_is_none(GenType) of + true -> ?debug("Bif: ~w failed\n", [_BIF]), throw(error); + false -> + ReturnType = mk_fun_var(fun(Map) -> + TmpArgTypes = lookup_type_list(Args, Map), + erl_bif_types:type(M, F, A, TmpArgTypes) + end, Args), + case erl_bif_types:is_known(M, F, A) of + false -> + case t_is_any(GenType) of + true -> + none; + false -> + mk_constraint(Dst, sub, ReturnType) + end; + true -> + ArgTypes = erl_bif_types:arg_types(M, F, A), + Cs = mk_constraints(Args, sub, ArgTypes), + mk_conj_constraint_list([mk_constraint(Dst, sub, ReturnType)|Cs]) + end + end. + +eval_inv_arith('+', _Pos, Dst, Arg) -> + erl_bif_types:type(erlang, '-', 2, [Dst, Arg]); +eval_inv_arith('*', _Pos, Dst, Arg) -> + case t_number_vals(Arg) of + [0] -> t_integer(); + _ -> + TmpRet = erl_bif_types:type(erlang, 'div', 2, [Dst, Arg]), + Zero = t_from_term(0), + %% If 0 is not part of the result, it cannot be part of the argument. + case t_is_subtype(Zero, Dst) of + false -> t_subtract(TmpRet, Zero); + true -> TmpRet + end + end; +eval_inv_arith('-', 1, Dst, Arg) -> + erl_bif_types:type(erlang, '-', 2, [Arg, Dst]); +eval_inv_arith('-', 2, Dst, Arg) -> + erl_bif_types:type(erlang, '+', 2, [Arg, Dst]). + +range_inc(neg_inf) -> neg_inf; +range_inc(pos_inf) -> pos_inf; +range_inc(Int) when is_integer(Int) -> Int + 1. + +range_dec(neg_inf) -> neg_inf; +range_dec(pos_inf) -> pos_inf; +range_dec(Int) when is_integer(Int) -> Int - 1. + +get_bif_test_constr(Dst, Arg, Type, State) -> + ArgFun = fun(Map) -> + DstType = lookup_type(Dst, Map), + case t_is_atom(true, DstType) of + true -> Type; + false -> t_any() + end + end, + ArgV = mk_fun_var(ArgFun, [Dst]), + DstFun = fun(Map) -> + ArgType = lookup_type(Arg, Map), + case t_is_none(t_inf(ArgType, Type)) of + true -> + case lists:member(ArgType, State#state.opaques) of + true -> + OpaqueStruct = erl_types:t_opaque_structure(ArgType), + case t_is_none(t_inf(OpaqueStruct, Type)) of + true -> t_from_term(false); + false -> + case t_is_subtype(ArgType, Type) of + true -> t_from_term(true); + false -> t_boolean() + end + end; + false -> t_from_term(false) + end; + false -> + case t_is_subtype(ArgType, Type) of + true -> t_from_term(true); + false -> t_boolean() + end + end + end, + DstV = mk_fun_var(DstFun, [Arg]), + mk_conj_constraint_list([mk_constraint(Dst, sub, DstV), + mk_constraint(Arg, sub, ArgV)]). + +%%============================================================================= +%% +%% Constraint solver. +%% +%%============================================================================= + +solve([Fun], State) -> + ?debug("============ Analyzing Fun: ~w ===========\n", + [debug_lookup_name(Fun)]), + solve_fun(Fun, dict:new(), State); +solve([_|_] = SCC, State) -> + ?debug("============ Analyzing SCC: ~w ===========\n", + [[debug_lookup_name(F) || F <- SCC]]), + solve_scc(SCC, dict:new(), State, false). + +solve_fun(Fun, FunMap, State) -> + Cs = state__get_cs(Fun, State), + Deps = get_deps(Cs), + Ref = mk_constraint_ref(Fun, Deps), + %% Note that functions are always considered to succeed. + {ok, _MapDict, NewMap} = solve_ref_or_list(Ref, FunMap, dict:new(), State), + NewType = lookup_type(Fun, NewMap), + NewFunMap1 = case state__get_rec_var(Fun, State) of + error -> FunMap; + {ok, Var} -> enter_type(Var, NewType, FunMap) + end, + enter_type(Fun, NewType, NewFunMap1). + +solve_scc(SCC, Map, State, TryingUnit) -> + State1 = state__mark_as_non_self_rec(SCC, State), + Vars0 = [{Fun, state__get_rec_var(Fun, State)} || Fun <- SCC], + Vars = [Var || {_, {ok, Var}} <- Vars0], + Funs = [Fun || {Fun, {ok, _}} <- Vars0], + Types = unsafe_lookup_type_list(Funs, Map), + RecTypes = [t_limit(Type, ?TYPE_LIMIT) || Type <- Types], + CleanMap = lists:foldl(fun(Fun, AccFunMap) -> + dict:erase(t_var_name(Fun), AccFunMap) + end, Map, SCC), + Map1 = enter_type_lists(Vars, RecTypes, CleanMap), + ?debug("Checking SCC: ~w\n", [[debug_lookup_name(F) || F <- SCC]]), + SolveFun = fun(X, Y) -> scc_fold_fun(X, Y, State1) end, + Map2 = lists:foldl(SolveFun, Map1, SCC), + FunSet = ordsets:from_list([t_var_name(F) || F <- SCC]), + case maps_are_equal(Map2, Map, FunSet) of + true -> + ?debug("SCC ~w reached fixpoint\n", [SCC]), + NewTypes = unsafe_lookup_type_list(Funs, Map2), + case lists:all(fun(T) -> t_is_none(t_fun_range(T)) end, NewTypes) + andalso TryingUnit =:= false of + true -> + UnitTypes = [t_fun(state__fun_arity(F, State), t_unit()) + || F <- Funs], + Map3 = enter_type_lists(Funs, UnitTypes, Map2), + solve_scc(SCC, Map3, State, true); + false -> + Map2 + end; + false -> + ?debug("SCC ~w did not reach fixpoint\n", [SCC]), + solve_scc(SCC, Map2, State, TryingUnit) + end. + +scc_fold_fun(F, FunMap, State) -> + Deps = get_deps(state__get_cs(F, State)), + Cs = mk_constraint_ref(F, Deps), + %% Note that functions are always considered to succeed. + {ok, _NewMapDict, Map} = solve_ref_or_list(Cs, FunMap, dict:new(), State), + NewType0 = unsafe_lookup_type(F, Map), + NewType = t_limit(NewType0, ?TYPE_LIMIT), + NewFunMap = case state__get_rec_var(F, State) of + {ok, R} -> + enter_type(R, NewType, enter_type(F, NewType, FunMap)); + error -> + enter_type(F, NewType, FunMap) + end, + ?debug("Done solving for function ~w :: ~s\n", [debug_lookup_name(F), + format_type(NewType)]), + NewFunMap. + +solve_ref_or_list(#constraint_ref{id = Id, deps = Deps}, + Map, MapDict, State) -> + {OldLocalMap, Check} = + case dict:find(Id, MapDict) of + error -> {dict:new(), false}; + {ok, M} -> {M, true} + end, + ?debug("Checking ref to fun: ~w\n", [debug_lookup_name(Id)]), + CheckDeps = ordsets:del_element(t_var_name(Id), Deps), + case Check andalso maps_are_equal(OldLocalMap, Map, CheckDeps) of + true -> + ?debug("Equal\n", []), + {ok, MapDict, Map}; + false -> + ?debug("Not equal. Solving\n", []), + Cs = state__get_cs(Id, State), + Res = + case state__is_self_rec(Id, State) of + true -> solve_self_recursive(Cs, Map, MapDict, Id, t_none(), State); + false -> solve_ref_or_list(Cs, Map, MapDict, State) + end, + case Res of + {error, NewMapDict} -> + ?debug("Error solving for function ~p\n", [debug_lookup_name(Id)]), + Arity = state__fun_arity(Id, State), + FunType = + case state__prop_domain(t_var_name(Id), State) of + error -> t_fun(Arity, t_none()); + {ok, Dom} -> t_fun(Dom, t_none()) + end, + NewMap1 = enter_type(Id, FunType, Map), + NewMap2 = + case state__get_rec_var(Id, State) of + {ok, Var} -> enter_type(Var, FunType, NewMap1); + error -> NewMap1 + end, + {ok, dict:store(Id, NewMap2, NewMapDict), NewMap2}; + {ok, NewMapDict, NewMap} -> + ?debug("Done solving fun: ~p\n", [debug_lookup_name(Id)]), + FunType = lookup_type(Id, NewMap), + NewMap1 = enter_type(Id, FunType, Map), + NewMap2 = + case state__get_rec_var(Id, State) of + {ok, Var} -> enter_type(Var, FunType, NewMap1); + error -> NewMap1 + end, + {ok, dict:store(Id, NewMap2, NewMapDict), NewMap2} + end + end; +solve_ref_or_list(#constraint_list{type=Type, list = Cs, deps = Deps, id = Id}, + Map, MapDict, State) -> + {OldLocalMap, Check} = + case dict:find(Id, MapDict) of + error -> {dict:new(), false}; + {ok, M} -> {M, true} + end, + ?debug("Checking ref to list: ~w\n", [Id]), + case Check andalso maps_are_equal(OldLocalMap, Map, Deps) of + true -> + ?debug("~w equal ~w\n", [Type, Id]), + {ok, MapDict, Map}; + false -> + ?debug("~w not equal: ~w. Solving\n", [Type, Id]), + solve_clist(Cs, Type, Id, Deps, MapDict, Map, State) + end. + +solve_self_recursive(Cs, Map, MapDict, Id, RecType0, State) -> + ?debug("Solving self recursive ~w\n", [debug_lookup_name(Id)]), + {ok, RecVar} = state__get_rec_var(Id, State), + ?debug("OldRecType ~s\n", [format_type(RecType0)]), + RecType = t_limit(RecType0, ?TYPE_LIMIT), + Map1 = enter_type(RecVar, RecType, dict:erase(t_var_name(Id), Map)), + ?debug("\tMap in: ~p\n",[[{X, format_type(Y)}||{X, Y}<-dict:to_list(Map1)]]), + case solve_ref_or_list(Cs, Map1, MapDict, State) of + {error, _} = Error -> + case t_is_none(RecType0) of + true -> + %% Try again and assume that this is a non-terminating function. + Arity = state__fun_arity(Id, State), + NewRecType = t_fun(lists:duplicate(Arity, t_any()), t_unit()), + solve_self_recursive(Cs, Map, MapDict, Id, NewRecType, State); + false -> + Error + end; + {ok, NewMapDict, NewMap} -> + ?debug("\tMap: ~p\n", + [[{X, format_type(Y)} || {X, Y} <- dict:to_list(NewMap)]]), + NewRecType = unsafe_lookup_type(Id, NewMap), + case t_is_equal(NewRecType, RecType0) of + true -> + {ok, NewMapDict, enter_type(RecVar, NewRecType, NewMap)}; + false -> + solve_self_recursive(Cs, Map, MapDict, Id, NewRecType, State) + end + end. + +solve_clist(Cs, conj, Id, Deps, MapDict, Map, State) -> + case solve_cs(Cs, Map, MapDict, State) of + {error, _} = Error -> Error; + {ok, NewMapDict, NewMap} = Ret -> + case Cs of + [_] -> + %% Just a special case for one conjunctive constraint. + Ret; + _ -> + case maps_are_equal(Map, NewMap, Deps) of + true -> {ok, dict:store(Id, NewMap, NewMapDict), NewMap}; + false -> solve_clist(Cs, conj, Id, Deps, NewMapDict, NewMap, State) + end + end + end; +solve_clist(Cs, disj, Id, _Deps, MapDict, Map, State) -> + Fun = fun(C, Dict) -> + case solve_ref_or_list(C, Map, Dict, State) of + {ok, NewDict, NewMap} -> {{ok, NewMap}, NewDict}; + {error, _NewDict} = Error -> Error + end + end, + {Maps, NewMapDict} = lists:mapfoldl(Fun, MapDict, Cs), + case [X || {ok, X} <- Maps] of + [] -> {error, NewMapDict}; + MapList -> + NewMap = join_maps(MapList), + {ok, dict:store(Id, NewMap, NewMapDict), NewMap} + end. + +solve_cs([#constraint_ref{} = C|Tail], Map, MapDict, State) -> + case solve_ref_or_list(C, Map, MapDict, State) of + {ok, NewMapDict, Map1} -> solve_cs(Tail, Map1, NewMapDict, State); + {error, _NewMapDict} = Error -> Error + end; +solve_cs([#constraint_list{} = C|Tail], Map, MapDict, State) -> + case solve_ref_or_list(C, Map, MapDict, State) of + {ok, NewMapDict, Map1} -> solve_cs(Tail, Map1, NewMapDict, State); + {error, _NewMapDict} = Error -> Error + end; +solve_cs([#constraint{} = C|Tail], Map, MapDict, State) -> + case solve_one_c(C, Map) of + error -> + ?debug("+++++++++++\nFailed: ~s :: ~s ~w ~s :: ~s\n+++++++++++\n", + [format_type(C#constraint.lhs), + format_type(lookup_type(C#constraint.lhs, Map)), + C#constraint.op, + format_type(C#constraint.rhs), + format_type(lookup_type(C#constraint.rhs, Map))]), + {error, MapDict}; + {ok, NewMap} -> + solve_cs(Tail, NewMap, MapDict, State) + end; +solve_cs([], Map, MapDict, _State) -> + {ok, MapDict, Map}. + +solve_one_c(#constraint{lhs = Lhs, rhs = Rhs, op = Op}, Map) -> + LhsType = lookup_type(Lhs, Map), + RhsType = lookup_type(Rhs, Map), + Inf = t_inf(LhsType, RhsType, opaque), + ?debug("Solving: ~s :: ~s ~w ~s :: ~s\n\tInf: ~s\n", + [format_type(Lhs), format_type(LhsType), Op, + format_type(Rhs), format_type(RhsType), format_type(Inf)]), + case t_is_none(Inf) of + true -> error; + false -> + case Op of + sub -> solve_subtype(Lhs, Inf, Map); + eq -> + case solve_subtype(Lhs, Inf, Map) of + error -> error; + {ok, Map1} -> solve_subtype(Rhs, Inf, Map1) + end + end + end. + +solve_subtype(Type, Inf, Map) -> + %% case cerl:is_literal(Type) of + %% true -> + %% case t_is_subtype(t_from_term(cerl:concrete(Type)), Inf) of + %% true -> {ok, Map}; + %% false -> error + %% end; + %% false -> + try t_unify(Type, Inf) of + {_, List} -> {ok, enter_type_list(List, Map)} + catch + throw:{mismatch, _T1, _T2} -> + ?debug("Mismatch between ~s and ~s\n", + [format_type(_T1), format_type(_T2)]), + error + end. + %% end. + +%% ============================================================================ +%% +%% Maps and types. +%% +%% ============================================================================ + +join_maps(Maps) -> + Keys = lists:foldl(fun(TmpMap, AccKeys) -> + [Key || Key <- AccKeys, dict:is_key(Key, TmpMap)] + end, + dict:fetch_keys(hd(Maps)), tl(Maps)), + join_maps(Keys, Maps, dict:new()). + +join_maps([Key|Left], Maps = [Map|MapsLeft], AccMap) -> + NewType = join_one_key(Key, MapsLeft, lookup_type(Key, Map)), + NewAccMap = enter_type(Key, NewType, AccMap), + join_maps(Left, Maps, NewAccMap); +join_maps([], _Maps, AccMap) -> + AccMap. + +join_one_key(Key, [Map|Maps], Type) -> + case t_is_any(Type) of + true -> Type; + false -> + NewType = lookup_type(Key, Map), + case t_is_equal(NewType, Type) of + true -> join_one_key(Key, Maps, Type); + false -> join_one_key(Key, Maps, t_sup(NewType, Type)) + end + end; +join_one_key(_Key, [], Type) -> + Type. + +maps_are_equal(Map1, Map2, Deps) -> + NewDeps = prune_keys(Map1, Map2, Deps), + maps_are_equal_1(Map1, Map2, NewDeps). + +maps_are_equal_1(Map1, Map2, [H|Tail]) -> + T1 = lookup_type(H, Map1), + T2 = lookup_type(H, Map2), + case t_is_equal(T1, T2) of + true -> maps_are_equal_1(Map1, Map2, Tail); + false -> + ?debug("~w: ~s =/= ~s\n", [H, format_type(T1), format_type(T2)]), + false + end; +maps_are_equal_1(_Map1, _Map2, []) -> + true. + +-define(PRUNE_LIMIT, 100). + +prune_keys(Map1, Map2, Deps) -> + %% This is only worthwhile if the number of deps is reasonably large, + %% and also bigger than the number of elements in the maps. + NofDeps = length(Deps), + case NofDeps > ?PRUNE_LIMIT of + true -> + Keys1 = dict:fetch_keys(Map1), + case length(Keys1) > NofDeps of + true -> + Set1 = lists:sort(Keys1), + Set2 = lists:sort(dict:fetch_keys(Map2)), + ordsets:intersection(ordsets:union(Set1, Set2), Deps); + false -> + Deps + end; + false -> + Deps + end. + +enter_type(Key, Val, Map) when is_integer(Key) -> + ?debug("Entering ~s :: ~s\n", [format_type(t_var(Key)), format_type(Val)]), + case t_is_any(Val) of + true -> + dict:erase(Key, Map); + false -> + LimitedVal = t_limit(Val, ?INTERNAL_TYPE_LIMIT), + case dict:find(Key, Map) of + {ok, LimitedVal} -> Map; + {ok, _} -> dict:store(Key, LimitedVal, Map); + error -> dict:store(Key, LimitedVal, Map) + end + end; +enter_type(Key, Val, Map) -> + ?debug("Entering ~s :: ~s\n", [format_type(Key), format_type(Val)]), + KeyName = t_var_name(Key), + case t_is_any(Val) of + true -> + dict:erase(KeyName, Map); + false -> + LimitedVal = t_limit(Val, ?INTERNAL_TYPE_LIMIT), + case dict:find(KeyName, Map) of + {ok, LimitedVal} -> Map; + {ok, _} -> dict:store(KeyName, LimitedVal, Map); + error -> dict:store(KeyName, LimitedVal, Map) + end + end. + +enter_type_lists([Key|KeyTail], [Val|ValTail], Map) -> + Map1 = enter_type(Key, Val, Map), + enter_type_lists(KeyTail, ValTail, Map1); +enter_type_lists([], [], Map) -> + Map. + +enter_type_list([{Key, Val}|Tail], Map) -> + Map1 = enter_type(Key, Val, Map), + enter_type_list(Tail, Map1); +enter_type_list([], Map) -> + Map. + +lookup_type_list(List, Map) -> + [lookup_type(X, Map) || X <- List]. + +unsafe_lookup_type(Key, Map) -> + case dict:find(t_var_name(Key), Map) of + {ok, Type} -> Type; + error -> t_none() + end. + +unsafe_lookup_type_list(List, Map) -> + [unsafe_lookup_type(X, Map) || X <- List]. + +lookup_type(Key, Map) when is_integer(Key) -> + case dict:find(Key, Map) of + error -> t_any(); + {ok, Val} -> Val + end; +lookup_type(#fun_var{'fun' = Fun}, Map) -> + Fun(Map); +lookup_type(Key, Map) -> + %% Seems unused and dialyzer complains about it -- commented out. + %% case cerl:is_literal(Key) of + %% true -> t_from_term(cerl:concrete(Key)); + %% false -> + Subst = t_subst(Key, Map), + t_sup(Subst, Subst). + %% end. + +mk_var(Var) -> + case cerl:is_literal(Var) of + true -> Var; + false -> + case cerl:is_c_values(Var) of + true -> t_product(mk_var_no_lit_list(cerl:values_es(Var))); + false -> t_var(cerl_trees:get_label(Var)) + end + end. + +mk_var_list(List) -> + [mk_var(X) || X <- List]. + +mk_var_no_lit(Var) -> + case cerl:is_literal(Var) of + true -> t_from_term(cerl:concrete(Var)); + false -> mk_var(Var) + end. + +mk_var_no_lit_list(List) -> + [mk_var_no_lit(X) || X <- List]. + +%% ============================================================================ +%% +%% The State. +%% +%% ============================================================================ + +new_state(SCC0, NextLabel, CallGraph, Plt, PropTypes) -> + NameMap = dict:from_list([{MFA, Var} || {MFA, {Var, _Fun}, _Rec} <- SCC0]), + SCC = [mk_var(Fun) || {_MFA, {_Var, Fun}, _Rec} <- SCC0], + #state{callgraph = CallGraph, name_map = NameMap, next_label = NextLabel, + prop_types = PropTypes, plt = Plt, scc = SCC}. + +state__set_rec_dict(State, RecDict) -> + State#state{records = RecDict}. + +state__set_opaques(#state{records = RecDict} = State, {M, _F, _A}) -> + Opaques = + erl_types:module_builtin_opaques(M) ++ t_opaque_from_records(RecDict), + State#state{opaques = Opaques}. + +state__lookup_record(#state{records = Records}, Tag, Arity) -> + case erl_types:lookup_record(Tag, Arity, Records) of + {ok, Fields} -> + {ok, t_tuple([t_from_term(Tag)| + [FieldType || {_FieldName, FieldType} <- Fields]])}; + error -> + error + end. + +state__set_in_match(State, Bool) -> + State#state{in_match = Bool}. + +state__is_in_match(#state{in_match = Bool}) -> + Bool. + +state__set_in_guard(State, Bool) -> + State#state{in_guard = Bool}. + +state__is_in_guard(#state{in_guard = Bool}) -> + Bool. + +state__get_fun_prototype(Op, Arity, State) -> + case t_is_fun(Op) of + true -> {State, Op}; + false -> + {State1, [Ret|Args]} = state__mk_vars(Arity+1, State), + Fun = t_fun(Args, Ret), + {State1, Fun} + end. + +state__lookup_rec_var_in_scope(MFA, #state{name_map = NameMap}) -> + dict:find(MFA, NameMap). + +state__store_fun_arity(Tree, #state{fun_arities = Map} = State) -> + Arity = length(cerl:fun_vars(Tree)), + Id = mk_var(Tree), + State#state{fun_arities = dict:store(Id, Arity, Map)}. + +state__fun_arity(Id, #state{fun_arities = Map}) -> + dict:fetch(Id, Map). + +state__lookup_undef_var(Tree, #state{callgraph = CG, plt = Plt}) -> + Label = cerl_trees:get_label(Tree), + case dialyzer_callgraph:lookup_rec_var(Label, CG) of + error -> error; + {ok, MFA} -> + case dialyzer_plt:lookup(Plt, MFA) of + none -> error; + {value, {RetType, ArgTypes}} -> {ok, t_fun(ArgTypes, RetType)} + end + end. + +state__lookup_apply(Tree, #state{callgraph = Callgraph}) -> + Apply = cerl_trees:get_label(Tree), + case dialyzer_callgraph:lookup_call_site(Apply, Callgraph) of + error -> + unknown; + {ok, List} -> + case lists:member(external, List) of + true -> unknown; + false -> List + end + end. + +get_apply_constr(FunLabels, Dst, ArgTypes, #state{callgraph = CG} = State) -> + MFAs = [dialyzer_callgraph:lookup_name(Label, CG) || Label <- FunLabels], + case lists:member(error, MFAs) of + true -> error; + false -> + Constrs = [begin + State1 = state__new_constraint_context(State), + State2 = get_plt_constr(MFA, Dst, ArgTypes, State1), + state__cs(State2) + end || {ok, MFA} <- MFAs], + ApplyConstr = mk_disj_constraint_list(Constrs), + {ok, state__store_conj(ApplyConstr, State)} + end. + +state__scc(#state{scc = SCC}) -> + SCC. + +state__plt(#state{plt = PLT}) -> + PLT. + +state__new_constraint_context(State) -> + State#state{cs = []}. + +state__prop_domain(FunLabel, #state{prop_types = PropTypes}) -> + case dict:find(FunLabel, PropTypes) of + error -> error; + {ok, {_Range_Fun, Dom}} -> {ok, Dom}; + {ok, FunType} -> {ok, t_fun_args(FunType)} + end. + +state__add_prop_constrs(Tree, #state{prop_types = PropTypes} = State) -> + Label = cerl_trees:get_label(Tree), + case dict:find(Label, PropTypes) of + error -> State; + {ok, FunType} -> + case t_fun_args(FunType) of + unknown -> State; + ArgTypes -> + case erl_types:any_none(ArgTypes) of + true -> not_called; + false -> + ?debug("Adding propagated constr: ~s for function ~w\n", + [format_type(FunType), debug_lookup_name(mk_var(Tree))]), + FunVar = mk_var(Tree), + state__store_conj(FunVar, sub, FunType, State) + end + end + end. + +state__cs(#state{cs = Cs}) -> + mk_conj_constraint_list(Cs). + +state__store_conj(C, #state{cs = Cs} = State) -> + State#state{cs = [C|Cs]}. + +state__store_conj_list([H|T], State) -> + State1 = state__store_conj(H, State), + state__store_conj_list(T, State1); +state__store_conj_list([], State) -> + State. + +state__store_conj(Lhs, Op, Rhs, #state{cs = Cs} = State) -> + State#state{cs = [mk_constraint(Lhs, Op, Rhs)|Cs]}. + +state__store_conj_lists(List1, Op, List2, State) -> + {NewList1, NewList2} = strip_of_any_constrs(List1, List2), + state__store_conj_lists_1(NewList1, Op, NewList2, State). + +strip_of_any_constrs(List1, List2) -> + strip_of_any_constrs(List1, List2, [], []). + +strip_of_any_constrs([T1|Left1], [T2|Left2], Acc1, Acc2) -> + case t_is_any(T1) orelse constraint_opnd_is_any(T2) of + true -> strip_of_any_constrs(Left1, Left2, Acc1, Acc2); + false -> strip_of_any_constrs(Left1, Left2, [T1|Acc1], [T2|Acc2]) + end; +strip_of_any_constrs([], [], Acc1, Acc2) -> + {Acc1, Acc2}. + +state__store_conj_lists_1([Arg1|Arg1Tail], Op, [Arg2|Arg2Tail], State) -> + State1 = state__store_conj(Arg1, Op, Arg2, State), + state__store_conj_lists_1(Arg1Tail, Op, Arg2Tail, State1); +state__store_conj_lists_1([], _Op, [], State) -> + State. + +state__mk_var(#state{next_label = NL} = State) -> + {State#state{next_label = NL+1}, t_var(NL)}. + +state__mk_vars(N, #state{next_label = NL} = State) -> + NewLabel = NL + N, + Vars = [t_var(X) || X <- lists:seq(NL, NewLabel-1)], + {State#state{next_label = NewLabel}, Vars}. + +state__store_constrs(Id, Cs, #state{cmap = Dict} = State) -> + NewDict = dict:store(Id, Cs, Dict), + State#state{cmap = NewDict}. + +state__get_cs(Var, #state{cmap = Dict}) -> + dict:fetch(Var, Dict). + +%% The functions here will not be treated as self recursive. +%% These functions will need to be handled as such manually. +state__mark_as_non_self_rec(SCC, #state{non_self_recs = NS} = State) -> + State#state{non_self_recs = ordsets:union(NS, ordsets:from_list(SCC))}. + +state__is_self_rec(Fun, #state{callgraph = CallGraph, non_self_recs = NS}) -> + case ordsets:is_element(Fun, NS) of + true -> false; + false -> dialyzer_callgraph:is_self_rec(t_var_name(Fun), CallGraph) + end. + +state__store_funs(Vars0, Funs0, #state{fun_map = Map} = State) -> + debug_make_name_map(Vars0, Funs0), + Vars = mk_var_list(Vars0), + Funs = mk_var_list(Funs0), + NewMap = lists:foldl(fun({Var, Fun}, MP) -> orddict:store(Var, Fun, MP) end, + Map, lists:zip(Vars, Funs)), + State#state{fun_map = NewMap}. + +state__get_rec_var(Fun, #state{fun_map = Map}) -> + case [V || {V, FV} <- Map, FV =:= Fun] of + [Var] -> {ok, Var}; + [] -> error + end. + +state__finalize(State) -> + State1 = enumerate_constraints(State), + order_fun_constraints(State1). + +%% ============================================================================ +%% +%% Constraints +%% +%% ============================================================================ + +-spec mk_constraint(erl_types:erl_type(), constr_op(), fvar_or_type()) -> #constraint{}. + +mk_constraint(Lhs, Op, Rhs) -> + case t_is_any(Lhs) orelse constraint_opnd_is_any(Rhs) of + false -> + Deps = find_constraint_deps([Lhs, Rhs]), + C0 = mk_constraint_1(Lhs, Op, Rhs), + C = C0#constraint{deps = Deps}, + case Deps =:= [] of + true -> + %% This constraint is constant. Solve it immediately. + case solve_one_c(C, dict:new()) of + error -> throw(error); + _ -> + %% This is always true, keep it anyway for logistic reasons + C + end; + false -> + C + end; + true -> + C = mk_constraint_1(t_any(), Op, t_any()), + C#constraint{deps = []} + end. + +%% the following function is used so that we do not call +%% erl_types:t_is_any/1 with a term other than an erl_type() +-spec constraint_opnd_is_any(fvar_or_type()) -> boolean(). + +constraint_opnd_is_any(#fun_var{}) -> false; +constraint_opnd_is_any(Type) -> t_is_any(Type). + +-spec mk_fun_var(fun((_) -> erl_types:erl_type()), [erl_types:erl_type()]) -> #fun_var{}. + +mk_fun_var(Fun, Types) -> + Deps = [t_var_name(Var) || Var <- t_collect_vars(t_product(Types))], + #fun_var{'fun' = Fun, deps = ordsets:from_list(Deps)}. + +-spec get_deps(constr()) -> [dep()]. + +get_deps(#constraint{deps = D}) -> D; +get_deps(#constraint_list{deps = D}) -> D; +get_deps(#constraint_ref{deps = D}) -> D. + +-spec find_constraint_deps([fvar_or_type()]) -> [dep()]. + +find_constraint_deps(List) -> + ordsets:from_list(find_constraint_deps(List, [])). + +find_constraint_deps([#fun_var{deps = Deps}|Tail], Acc) -> + find_constraint_deps(Tail, [Deps|Acc]); +find_constraint_deps([Type|Tail], Acc) -> + NewAcc = [[t_var_name(D) || D <- t_collect_vars(Type)]|Acc], + find_constraint_deps(Tail, NewAcc); +find_constraint_deps([], Acc) -> + lists:flatten(Acc). + +mk_constraint_1(Lhs, eq, Rhs) when Lhs < Rhs -> + #constraint{lhs = Lhs, op = eq, rhs = Rhs}; +mk_constraint_1(Lhs, eq, Rhs) -> + #constraint{lhs = Rhs, op = eq, rhs = Lhs}; +mk_constraint_1(Lhs, Op, Rhs) -> + #constraint{lhs = Lhs, op = Op, rhs = Rhs}. + +mk_constraints([Lhs|LhsTail], Op, [Rhs|RhsTail]) -> + [mk_constraint(Lhs, Op, Rhs)|mk_constraints(LhsTail, Op, RhsTail)]; +mk_constraints([], _Op, []) -> + []. + +mk_constraint_ref(Id, Deps) -> + #constraint_ref{id = Id, deps = Deps}. + +mk_constraint_list(Type, List) -> + List1 = ordsets:from_list(lift_lists(Type, List)), + List2 = ordsets:filter(fun(X) -> get_deps(X) =/= [] end, List1), + Deps = calculate_deps(List2), + case Deps =:= [] of + true -> #constraint_list{type = conj, + list = [mk_constraint(t_any(), eq, t_any())], + deps = []}; + false -> #constraint_list{type = Type, list = List2, deps = Deps} + end. + +lift_lists(Type, List) -> + lift_lists(Type, List, []). + +lift_lists(Type, [#constraint_list{type = Type, list = List}|Tail], Acc) -> + lift_lists(Type, Tail, List++Acc); +lift_lists(Type, [C|Tail], Acc) -> + lift_lists(Type, Tail, [C|Acc]); +lift_lists(_Type, [], Acc) -> + Acc. + +update_constraint_list(CL, List) -> + CL#constraint_list{list = List}. + +%% We expand guard constraints into dijunctive normal form to gain +%% precision in simple guards. However, because of the exponential +%% growth of this expansion in the presens of disjunctions we can even +%% get into trouble while expanding. +%% +%% To limit this we only expand when the number of disjunctions are +%% below a certain limit. This limit is currently set based on the +%% behaviour of boolean 'or'. +%% +%% V1 = V2 or V3 +%% +%% Gives us in simplified form the constraints +%% +%% <Some cs> * ((V1 = true) + (V2 = true) + (V1 = false)) +%% +%% and thus a three-parted disjunction. If want to allow for two +%% levels of disjunction we need to have 3^2 = 9 disjunctions. If we +%% want three levels we need 3^3 = 27 disjunctions. More than that +%% seems unnecessary and tends to blow up. +%% +%% Note that by not expanding we lose some precision, but we get a +%% safe over approximation. + +-define(DISJ_NORM_FORM_LIMIT, 28). + +mk_disj_norm_form(#constraint_list{} = CL) -> + try + List1 = expand_to_conjunctions(CL), + mk_disj_constraint_list(List1) + catch + throw:too_many_disj -> CL + end. + +expand_to_conjunctions(#constraint_list{type = conj, list = List}) -> + List1 = [C || C <- List, is_simple_constraint(C)], + List2 = [expand_to_conjunctions(C) || #constraint_list{} = C <- List], + case List2 =:= [] of + true -> [mk_conj_constraint_list(List1)]; + false -> + case List2 of + [JustOneList] -> + [mk_conj_constraint_list([L|List1]) || L <- JustOneList]; + _ -> + combine_conj_lists(List2, List1) + end + end; +expand_to_conjunctions(#constraint_list{type = disj, list = List}) -> + if length(List) > ?DISJ_NORM_FORM_LIMIT -> throw(too_many_disj); + true -> ok + end, + List1 = [C || C <- List, is_simple_constraint(C)], + %% Just an assert. + [] = [C || #constraint{} = C <- List1], + Expanded = lists:flatten([expand_to_conjunctions(C) + || #constraint_list{} = C <- List]), + ReturnList = Expanded ++ List1, + if length(ReturnList) > ?DISJ_NORM_FORM_LIMIT -> throw(too_many_disj); + true -> ReturnList + end. + +is_simple_constraint(#constraint{}) -> true; +is_simple_constraint(#constraint_ref{}) -> true; +is_simple_constraint(#constraint_list{}) -> false. + +combine_conj_lists([List1, List2|Left], Prefix) -> + NewList = [mk_conj_constraint_list([L1, L2]) || L1 <- List1, L2 <- List2], + if length(NewList) > ?DISJ_NORM_FORM_LIMIT -> throw(too_many_disj); + true -> ok + end, + combine_conj_lists([NewList|Left], Prefix); +combine_conj_lists([List], Prefix) -> + [mk_conj_constraint_list([mk_conj_constraint_list(Prefix), L]) || L <- List]. + +calculate_deps(List) -> + calculate_deps(List, []). + +calculate_deps([H|Tail], Acc) -> + Deps = get_deps(H), + calculate_deps(Tail, [Deps|Acc]); +calculate_deps([], Acc) -> + ordsets:from_list(lists:flatten(Acc)). + +mk_conj_constraint_list(List) -> + mk_constraint_list(conj, List). + +mk_disj_constraint_list([NotReallyAList]) -> + NotReallyAList; +mk_disj_constraint_list(List) -> + %% Make sure each element in the list is either a conjunction or a + %% ref. Wrap single constraints into conjunctions. + List1 = [wrap_simple_constr(C) || C <- List], + mk_constraint_list(disj, List1). + +wrap_simple_constr(#constraint{} = C) -> mk_conj_constraint_list([C]); +wrap_simple_constr(#constraint_list{} = C) -> C; +wrap_simple_constr(#constraint_ref{} = C) -> C. + +enumerate_constraints(State) -> + Cs = [mk_constraint_ref(Id, get_deps(state__get_cs(Id, State))) + || Id <- state__scc(State)], + {_, _, NewState} = enumerate_constraints(Cs, 0, [], State), + NewState. + +enumerate_constraints([#constraint_ref{id = Id} = C|Tail], N, Acc, State) -> + Cs = state__get_cs(Id, State), + {[NewCs], NewN, NewState1} = enumerate_constraints([Cs], N, [], State), + NewState2 = state__store_constrs(Id, NewCs, NewState1), + enumerate_constraints(Tail, NewN+1, [C|Acc], NewState2); +enumerate_constraints([#constraint_list{type = conj, list = List} = C|Tail], + N, Acc, State) -> + %% Separate the flat constraints from the deep ones to make a + %% separate fixpoint interation over the flat ones for speed. + {Flat, Deep} = lists:splitwith(fun(#constraint{}) -> true; + (#constraint_list{}) -> false; + (#constraint_ref{}) -> false + end, List), + {NewFlat, N1, State1} = enumerate_constraints(Flat, N, [], State), + {NewDeep, N2, State2} = enumerate_constraints(Deep, N1, [], State1), + {NewList, N3} = + case shorter_than_two(NewFlat) orelse (NewDeep =:= []) of + true -> {NewFlat ++ NewDeep, N2}; + false -> + {NewCLists, TmpN} = group_constraints_in_components(NewFlat, N2), + {NewCLists ++ NewDeep, TmpN} + end, + NewAcc = [C#constraint_list{list = NewList, id = {list, N3}}|Acc], + enumerate_constraints(Tail, N3+1, NewAcc, State2); +enumerate_constraints([#constraint_list{list = List, type = disj} = C|Tail], + N, Acc, State) -> + {NewList, NewN, NewState} = enumerate_constraints(List, N, [], State), + NewAcc = [C#constraint_list{list = NewList, id = {list, NewN}}|Acc], + enumerate_constraints(Tail, NewN+1, NewAcc, NewState); +enumerate_constraints([#constraint{} = C|Tail], N, Acc, State) -> + enumerate_constraints(Tail, N, [C|Acc], State); +enumerate_constraints([], N, Acc, State) -> + {lists:reverse(Acc), N, State}. + +shorter_than_two([]) -> true; +shorter_than_two([_]) -> true; +shorter_than_two([_|_]) -> false. + +group_constraints_in_components(Cs, N) -> + DepList = [Deps || #constraint{deps = Deps} <- Cs], + case find_dep_components(DepList, []) of + [_] -> {Cs, N}; + [_|_] = Components -> + ConstrComp = [[C || #constraint{deps = D} = C <- Cs, + ordsets:is_subset(D, Comp)] + || Comp <- Components], + lists:mapfoldl(fun(CComp, TmpN) -> + TmpCList = mk_conj_constraint_list(CComp), + {TmpCList#constraint_list{id = {list, TmpN}}, + TmpN + 1} + end, N, ConstrComp) + end. + +find_dep_components([Set|Left], AccComponents) -> + {Component, Ungrouped} = find_dep_components(Left, Set, []), + case Component =:= Set of + true -> find_dep_components(Ungrouped, [Component|AccComponents]); + false -> find_dep_components([Component|Ungrouped], AccComponents) + end; +find_dep_components([], AccComponents) -> + AccComponents. + +find_dep_components([Set|Left], AccSet, Ungrouped) -> + case ordsets:intersection(Set, AccSet) of + [] -> find_dep_components(Left, AccSet, [Set|Ungrouped]); + [_|_] -> find_dep_components(Left, ordsets:union(Set, AccSet), Ungrouped) + end; +find_dep_components([], AccSet, Ungrouped) -> + {AccSet, Ungrouped}. + +%% Put the fun ref constraints last in any conjunction since we need +%% to separate the environment from the interior of the function. +order_fun_constraints(State) -> + Cs = [mk_constraint_ref(Id, get_deps(state__get_cs(Id, State))) + || Id <- state__scc(State)], + order_fun_constraints(Cs, State). + +order_fun_constraints([#constraint_ref{id = Id}|Tail], State) -> + Cs = state__get_cs(Id, State), + {[NewCs], State1} = order_fun_constraints([Cs], [], [], State), + NewState = state__store_constrs(Id, NewCs, State1), + order_fun_constraints(Tail, NewState); +order_fun_constraints([], State) -> + State. + +order_fun_constraints([#constraint_ref{} = C|Tail], Funs, Acc, State) -> + order_fun_constraints(Tail, [C|Funs], Acc, State); +order_fun_constraints([#constraint_list{list = List, type = Type} = C|Tail], + Funs, Acc, State) -> + {NewList, NewState} = + case Type of + conj -> order_fun_constraints(List, [], [], State); + disj -> + FoldFun = fun(X, AccState) -> + {[NewX], NewAccState} = + order_fun_constraints([X], [], [], AccState), + {NewX, NewAccState} + end, + lists:mapfoldl(FoldFun, State, List) + end, + NewAcc = [update_constraint_list(C, NewList)|Acc], + order_fun_constraints(Tail, Funs, NewAcc, NewState); +order_fun_constraints([#constraint{} = C|Tail], Funs, Acc, State) -> + order_fun_constraints(Tail, Funs, [C|Acc], State); +order_fun_constraints([], Funs, Acc, State) -> + NewState = order_fun_constraints(Funs, State), + {lists:reverse(Acc)++Funs, NewState}. + +%% ============================================================================ +%% +%% Utilities. +%% +%% ============================================================================ + +is_singleton_non_number_type(Type) -> + case t_is_number(Type) of + true -> false; + false -> is_singleton_type(Type) + end. + +is_singleton_type(Type) -> + case t_is_atom(Type) of + true -> + case t_atom_vals(Type) of + unknown -> false; + [_] -> true; + [_|_] -> false + end; + false -> + case t_is_integer(Type) of + true -> + case t_number_vals(Type) of + unknown -> false; + [_] -> true; + [_|_] -> false + end; + false -> + t_is_nil(Type) + end + end. + +%% ============================================================================ +%% +%% Pretty printer and debug facilities. +%% +%% ============================================================================ + +-ifdef(DEBUG_CONSTRAINTS). +-ifndef(DEBUG). +-define(DEBUG, true). +-endif. +-endif. + +-ifdef(DEBUG). +format_type(#fun_var{deps = Deps}) -> + io_lib:format("Fun(~s)", [lists:flatten([format_type(t_var(X))||X<-Deps])]); +format_type(Type) -> + case cerl:is_literal(Type) of + true -> io_lib:format("~w", [cerl:concrete(Type)]); + false -> erl_types:t_to_string(Type) + end. +-endif. + +-ifdef(DEBUG_NAME_MAP). +debug_make_name_map(Vars, Funs) -> + Map = get(dialyzer_typesig_map), + NewMap = + if Map =:= undefined -> debug_make_name_map(Vars, Funs, dict:new()); + true -> debug_make_name_map(Vars, Funs, Map) + end, + put(dialyzer_typesig_map, NewMap). + +debug_make_name_map([Var|VarLeft], [Fun|FunLeft], Map) -> + Name = {cerl:fname_id(Var), cerl:fname_arity(Var)}, + FunLabel = cerl_trees:get_label(Fun), + debug_make_name_map(VarLeft, FunLeft, dict:store(FunLabel, Name, Map)); +debug_make_name_map([], [], Map) -> + Map. + +debug_lookup_name(Var) -> + case dict:find(t_var_name(Var), get(dialyzer_typesig_map)) of + error -> Var; + {ok, Name} -> Name + end. + +-else. +debug_make_name_map(_Vars, _Funs) -> + ok. +-endif. + +-ifdef(DEBUG_CONSTRAINTS). +pp_constrs_scc(SCC, State) -> + [pp_constrs(Fun, state__get_cs(Fun, State), State) || Fun <- SCC]. + +pp_constrs(Fun, Cs, State) -> + io:format("Constraints for fun: ~w\n", [debug_lookup_name(Fun)]), + MaxDepth = pp_constraints(Cs, State), + io:format("Depth: ~w\n", [MaxDepth]). + +pp_constraints(Cs, State) -> + Res = pp_constraints([Cs], none, 0, 0, State), + io:nl(), + Res. + +pp_constraints([List|Tail], Separator, Level, MaxDepth, + State) when is_list(List) -> + pp_constraints(List++Tail, Separator, Level, MaxDepth, State); +pp_constraints([#constraint_ref{id = Id}|Left], Separator, + Level, MaxDepth, State) -> + Cs = state__get_cs(Id, State), + io:format("%Ref ~w%", [t_var_name(Id)]), + pp_constraints([Cs|Left], Separator, Level, MaxDepth, State); +pp_constraints([#constraint{lhs = Lhs, op = Op, rhs = Rhs}], _Separator, + Level, MaxDepth, _State) -> + io:format("~s ~w ~s", [format_type(Lhs), Op, format_type(Rhs)]), + erlang:max(Level, MaxDepth); +pp_constraints([#constraint{lhs = Lhs, op = Op, rhs = Rhs}|Tail], Separator, + Level, MaxDepth, State) -> + io:format("~s ~w ~s ~s ", [format_type(Lhs), Op, format_type(Rhs),Separator]), + pp_constraints(Tail, Separator, Level, MaxDepth, State); +pp_constraints([#constraint_list{type = Type, list = List, id = Id}], + _Separator, Level, MaxDepth, State) -> + io:format("%List ~w(", [Id]), + NewSeparator = case Type of + conj -> "*"; + disj -> "+" + end, + NewMaxDepth = pp_constraints(List, NewSeparator, Level + 1, MaxDepth, State), + io:format(")", []), + NewMaxDepth; +pp_constraints([#constraint_list{type = Type, list = List, id = Id}|Tail], + Separator, Level, MaxDepth, State) -> + io:format("List ~w(", [Id]), + NewSeparator = case Type of + conj -> "*"; + disj -> "+" + end, + NewMaxDepth = pp_constraints(List, NewSeparator, Level+1, MaxDepth, State), + io:format(") ~s\n~s ", [Separator, Separator]), + pp_constraints(Tail, Separator, Level, NewMaxDepth, State). +-else. +pp_constrs_scc(_SCC, _State) -> + ok. +-endif. + +-ifdef(TO_DOT). + +constraints_to_dot_scc(SCC, State) -> + io:format("SCC: ~p\n", [SCC]), + Name = lists:flatten([io_lib:format("'~w'", [debug_lookup_name(Fun)]) + || Fun <- SCC]), + Cs = [state__get_cs(Fun, State) || Fun <- SCC], + constraints_to_dot(Cs, Name, State). + +constraints_to_dot(Cs0, Name, State) -> + NofCs = length(Cs0), + Cs = lists:zip(lists:seq(1, NofCs), Cs0), + {Graph, Opts, _N} = constraints_to_nodes(Cs, NofCs + 1, 1, [], [], State), + hipe_dot:translate_list(Graph, "/tmp/cs.dot", "foo", Opts), + Res = os:cmd("dot -o /tmp/"++ Name ++ ".ps -T ps /tmp/cs.dot"), + io:format("Res: ~p~n", [Res]), + ok. + +constraints_to_nodes([{Name, #constraint_list{type = Type, list = List, id=Id}} + |Left], N, Level, Graph, Opts, State) -> + N1 = N + length(List), + NewList = lists:zip(lists:seq(N, N1 - 1), List), + Names = [SubName || {SubName, _C} <- NewList], + Edges = [{Name, SubName} || SubName <- Names], + ThisNode = [{Name, Opt} || Opt <- [{label, + lists:flatten(io_lib:format("~w", [Id]))}, + {shape, get_shape(Type)}, + {level, Level}]], + {NewGraph, NewOpts, N2} = constraints_to_nodes(NewList, N1, Level+1, + [Edges|Graph], + [ThisNode|Opts], State), + constraints_to_nodes(Left, N2, Level, NewGraph, NewOpts, State); +constraints_to_nodes([{Name, #constraint{lhs = Lhs, op = Op, rhs = Rhs}}|Left], + N, Level, Graph, Opts, State) -> + Label = lists:flatten(io_lib:format("~s ~w ~s", + [format_type(Lhs), Op, + format_type(Rhs)])), + ThisNode = [{Name, Opt} || Opt <- [{label, Label}, {level, Level}]], + NewOpts = [ThisNode|Opts], + constraints_to_nodes(Left, N, Level, Graph, NewOpts, State); +constraints_to_nodes([{Name, #constraint_ref{id = Id0}}|Left], + N, Level, Graph, Opts, State) -> + Id = debug_lookup_name(Id0), + CList = state__get_cs(Id0, State), + ThisNode = [{Name, Opt} || Opt <- [{label, + lists:flatten(io_lib:format("~w", [Id]))}, + {shape, ellipse}, + {level, Level}]], + NewList = [{N, CList}], + {NewGraph, NewOpts, N1} = constraints_to_nodes(NewList, N + 1, Level + 1, + [{Name, N}|Graph], + [ThisNode|Opts], State), + constraints_to_nodes(Left, N1, Level, NewGraph, NewOpts, State); +constraints_to_nodes([], N, _Level, Graph, Opts, _State) -> + {lists:flatten(Graph), lists:flatten(Opts), N}. + +get_shape(conj) -> box; +get_shape(disj) -> diamond. + +-else. +constraints_to_dot_scc(_SCC, _State) -> + ok. +-endif. diff --git a/lib/dialyzer/src/dialyzer_utils.erl b/lib/dialyzer/src/dialyzer_utils.erl new file mode 100644 index 0000000000..fa9ad2eae2 --- /dev/null +++ b/lib/dialyzer/src/dialyzer_utils.erl @@ -0,0 +1,458 @@ +%% -*- erlang-indent-level: 2 -*- +%%----------------------------------------------------------------------- +%% %CopyrightBegin% +%% +%% Copyright Ericsson AB 2006-2009. All Rights Reserved. +%% +%% The contents of this file are subject to the Erlang Public License, +%% Version 1.1, (the "License"); you may not use this file except in +%% compliance with the License. You should have received a copy of the +%% Erlang Public License along with this software. If not, it can be +%% retrieved online at http://www.erlang.org/. +%% +%% Software distributed under the License is distributed on an "AS IS" +%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See +%% the License for the specific language governing rights and limitations +%% under the License. +%% +%% %CopyrightEnd% +%% + +%%%------------------------------------------------------------------- +%%% File : dialyzer_utils.erl +%%% Author : Tobias Lindahl <[email protected]> +%%% Description : +%%% +%%% Created : 5 Dec 2006 by Tobias Lindahl <[email protected]> +%%%------------------------------------------------------------------- +-module(dialyzer_utils). + +-export([ + format_sig/1, + format_sig/2, + get_abstract_code_from_beam/1, + get_abstract_code_from_src/1, + get_abstract_code_from_src/2, + get_core_from_abstract_code/1, + get_core_from_abstract_code/2, + get_core_from_src/1, + get_core_from_src/2, + get_record_and_type_info/1, + get_spec_info/3, + merge_records/2, + pp_hook/0, + process_record_remote_types/1, + src_compiler_opts/0 + ]). + +-include("dialyzer.hrl"). + +%% +%% Types that need to be imported from somewhere else +%% + +-type abstract_code() :: [tuple()]. %% XXX: refine +-type comp_options() :: [atom()]. %% XXX: only a resticted set of options used + +%% ============================================================================ +%% +%% Compilation utils +%% +%% ============================================================================ + +-spec get_abstract_code_from_src(atom() | file:filename()) -> + {'ok', abstract_code()} | {'error', [string()]}. + +get_abstract_code_from_src(File) -> + get_abstract_code_from_src(File, src_compiler_opts()). + +-spec get_abstract_code_from_src(atom() | file:filename(), comp_options()) -> + {'ok', abstract_code()} | {'error', [string()]}. + +get_abstract_code_from_src(File, Opts) -> + case compile:file(File, [to_pp, binary|Opts]) of + error -> {error, []}; + {error, Errors, _} -> {error, format_errors(Errors)}; + {ok, _, AbstrCode} -> {ok, AbstrCode} + end. + +-type get_core_from_src_ret() :: {'ok', cerl:c_module()} | {'error', string()}. + +-spec get_core_from_src(file:filename()) -> get_core_from_src_ret(). + +get_core_from_src(File) -> + get_core_from_src(File, []). + +-spec get_core_from_src(file:filename(), comp_options()) -> get_core_from_src_ret(). + +get_core_from_src(File, Opts) -> + case get_abstract_code_from_src(File, Opts) of + {error, _} = Error -> Error; + {ok, AbstrCode} -> + case get_core_from_abstract_code(AbstrCode, Opts) of + error -> {error, " Could not get Core Erlang code from abstract code"}; + {ok, _Core} = C -> C + end + end. + +-spec get_abstract_code_from_beam(file:filename()) -> 'error' | {'ok', abstract_code()}. + +get_abstract_code_from_beam(File) -> + case beam_lib:chunks(File, [abstract_code]) of + {ok, {_, List}} -> + case lists:keyfind(abstract_code, 1, List) of + {abstract_code, {raw_abstract_v1, Abstr}} -> {ok, Abstr}; + _ -> error + end; + _ -> + %% No or unsuitable abstract code. + error + end. + +-type get_core_from_abs_ret() :: {'ok', cerl:c_module()} | 'error'. + +-spec get_core_from_abstract_code(abstract_code()) -> get_core_from_abs_ret(). + +get_core_from_abstract_code(AbstrCode) -> + get_core_from_abstract_code(AbstrCode, []). + +-spec get_core_from_abstract_code(abstract_code(), comp_options()) -> get_core_from_abs_ret(). + +get_core_from_abstract_code(AbstrCode, Opts) -> + %% We do not want the parse_transforms around since we already + %% performed them. In some cases we end up in trouble when + %% performing them again. + AbstrCode1 = cleanup_parse_transforms(AbstrCode), + try compile:forms(AbstrCode1, Opts ++ src_compiler_opts()) of + {ok, _, Core} -> {ok, Core}; + _What -> error + catch + error:_ -> error + end. + +%% ============================================================================ +%% +%% Typed Records +%% +%% ============================================================================ + +-spec get_record_and_type_info(abstract_code()) -> + {'ok', dict()} | {'error', string()}. + +get_record_and_type_info(AbstractCode) -> + Module = get_module(AbstractCode), + get_record_and_type_info(AbstractCode, Module, dict:new()). + +-spec get_record_and_type_info(abstract_code(), atom(), dict()) -> + {'ok', dict()} | {'error', string()}. + +get_record_and_type_info([{attribute, _, record, {Name, Fields0}}|Left], + Module, RecDict) -> + case get_record_fields(Fields0, RecDict) of + {ok, Fields} -> + Arity = length(Fields), + Fun = fun(OldOrdDict) -> orddict:store(Arity, Fields, OldOrdDict) end, + NewRecDict = dict:update({record, Name}, Fun, [{Arity, Fields}], RecDict), + get_record_and_type_info(Left, Module, NewRecDict); + {error, Error} -> + {error, lists:flatten(io_lib:format(" Error while parsing #~w{}: ~s\n", + [Name, Error]))} + end; +get_record_and_type_info([{attribute, _, type, {{record, Name}, Fields0, []}} + |Left], Module, RecDict) -> + %% This overrides the original record declaration. + case get_record_fields(Fields0, RecDict) of + {ok, Fields} -> + Arity = length(Fields), + Fun = fun(OldOrdDict) -> orddict:store(Arity, Fields, OldOrdDict) end, + NewRecDict = dict:update({record, Name}, Fun, [{Arity, Fields}], RecDict), + get_record_and_type_info(Left, Module, NewRecDict); + {error, Error} -> + {error, lists:flatten(io_lib:format(" Error while parsing #~w{}: ~s\n", + [Name, Error]))} + end; +get_record_and_type_info([{attribute, _, Attr, {Name, TypeForm}}|Left], + Module, RecDict) when Attr =:= 'type'; Attr =:= 'opaque' -> + try + NewRecDict = add_new_type(Attr, Name, TypeForm, [], Module, RecDict), + get_record_and_type_info(Left, Module, NewRecDict) + catch + throw:{error, _} = Error -> Error + end; +get_record_and_type_info([{attribute, _, Attr, {Name, TypeForm, Args}}|Left], + Module, RecDict) when Attr =:= 'type'; Attr =:= 'opaque' -> + try + NewRecDict = add_new_type(Attr, Name, TypeForm, Args, Module, RecDict), + get_record_and_type_info(Left, Module, NewRecDict) + catch + throw:{error, _} = Error -> Error + end; +get_record_and_type_info([_Other|Left], Module, RecDict) -> + get_record_and_type_info(Left, Module, RecDict); +get_record_and_type_info([], _Module, RecDict) -> + {ok, RecDict}. + +add_new_type(TypeOrOpaque, Name, TypeForm, ArgForms, Module, RecDict) -> + case erl_types:type_is_defined(TypeOrOpaque, Name, RecDict) of + true -> + throw({error, io_lib:format("Type already defined: ~w\n", [Name])}); + false -> + ArgTypes = [erl_types:t_from_form(X) || X <- ArgForms], + _Type = erl_types:t_from_form(TypeForm, RecDict), + case lists:all(fun erl_types:t_is_var/1, ArgTypes) of + true -> + ArgNames = [erl_types:t_var_name(X) || X <- ArgTypes], + dict:store({TypeOrOpaque, Name}, {Module, TypeForm, ArgNames}, RecDict); + false -> + throw({error, io_lib:format("Type declaration for ~w does not " + "have variables as parameters", [Name])}) + end + end. + +get_record_fields(Fields, RecDict) -> + get_record_fields(Fields, RecDict, []). + +get_record_fields([{typed_record_field, OrdRecField, TypeForm}|Left], + RecDict, Acc) -> + Name = + case OrdRecField of + {record_field, _Line, Name0} -> erl_parse:normalise(Name0); + {record_field, _Line, Name0, _Init} -> erl_parse:normalise(Name0) + end, + try + Type = erl_types:t_from_form(TypeForm, RecDict), + get_record_fields(Left, RecDict, [{Name, Type}|Acc]) + catch + throw:{error, _} = Error -> Error + end; +get_record_fields([{record_field, _Line, Name}|Left], RecDict, Acc) -> + NewAcc = [{erl_parse:normalise(Name), erl_types:t_any()}|Acc], + get_record_fields(Left, RecDict, NewAcc); +get_record_fields([{record_field, _Line, Name, _Init}|Left], RecDict, Acc) -> + NewAcc = [{erl_parse:normalise(Name), erl_types:t_any()}|Acc], + get_record_fields(Left, RecDict, NewAcc); +get_record_fields([], _RecDict, Acc) -> + {ok, lists:reverse(Acc)}. + +-spec process_record_remote_types(dialyzer_codeserver:codeserver()) -> dialyzer_codeserver:codeserver(). + +process_record_remote_types(CServer) -> + TempRecords = dialyzer_codeserver:get_temp_records(CServer), + RecordFun = + fun(Key, Value) -> + case Key of + {record, _Name} -> + FieldFun = + fun(_Arity, Fields) -> + [{Name, erl_types:t_solve_remote(Field, TempRecords)} || {Name, Field} <- Fields] + end, + orddict:map(FieldFun, Value); + _Other -> Value + end + end, + ModuleFun = + fun(_Module, Record) -> + dict:map(RecordFun, Record) + end, + NewRecords = dict:map(ModuleFun, TempRecords), + dialyzer_codeserver:finalize_records(NewRecords, CServer). + +-spec merge_records(dict(), dict()) -> dict(). + +merge_records(NewRecords, OldRecords) -> + dict:merge(fun(_Key, NewVal, _OldVal) -> NewVal end, NewRecords, OldRecords). + +%% ============================================================================ +%% +%% Spec info +%% +%% ============================================================================ + +-spec get_spec_info(module(), abstract_code(), dict()) -> + {'ok', dict()} | {'error', string()}. + +get_spec_info(ModName, AbstractCode, RecordsDict) -> + get_spec_info(AbstractCode, dict:new(), RecordsDict, ModName, "nofile"). + +%% TypeSpec is a list of conditional contracts for a function. +%% Each contract is of the form {[Argument], Range, [Constraint]} where +%% - Argument and Range are in erl_types:erl_type() format and +%% - Constraint is of the form {subtype, T1, T2} where T1 and T2 +%% are erl_types:erl_type() + +get_spec_info([{attribute, Ln, spec, {Id, TypeSpec}}|Left], + SpecDict, RecordsDict, ModName, File) when is_list(TypeSpec) -> + MFA = case Id of + {_, _, _} = T -> T; + {F, A} -> {ModName, F, A} + end, + try dict:find(MFA, SpecDict) of + error -> + NewSpecDict = + dialyzer_contracts:store_tmp_contract(MFA, {File, Ln}, TypeSpec, + SpecDict, RecordsDict), + get_spec_info(Left, NewSpecDict, RecordsDict, ModName, File); + {ok, {{OtherFile, L},_C}} -> + {Mod, Fun, Arity} = MFA, + Msg = io_lib:format(" Contract for function ~w:~w/~w " + "already defined in ~s:~w\n", + [Mod, Fun, Arity, OtherFile, L]), + throw({error, Msg}) + catch + throw:{error, Error} -> + {error, lists:flatten(io_lib:format(" Error while parsing contract " + "in line ~w: ~s\n", [Ln, Error]))} + end; +get_spec_info([{attribute, _, file, {IncludeFile, _}}|Left], + SpecDict, RecordsDict, ModName, _File) -> + get_spec_info(Left, SpecDict, RecordsDict, ModName, IncludeFile); +get_spec_info([_Other|Left], SpecDict, RecordsDict, ModName, File) -> + get_spec_info(Left, SpecDict, RecordsDict, ModName, File); +get_spec_info([], SpecDict, _RecordsDict, _ModName, _File) -> + {ok, SpecDict}. + +%% ============================================================================ +%% +%% Util utils +%% +%% ============================================================================ + +-spec src_compiler_opts() -> comp_options(). + +src_compiler_opts() -> + [no_copt, to_core, binary, return_errors, + no_inline, strict_record_tests, strict_record_updates]. + +-spec get_module(abstract_code()) -> module(). + +get_module([{attribute, _, module, {M, _As}} | _]) -> M; +get_module([{attribute, _, module, M} | _]) -> M; +get_module([_ | Rest]) -> get_module(Rest). + +-spec cleanup_parse_transforms(abstract_code()) -> abstract_code(). + +cleanup_parse_transforms([{attribute, _, compile, {parse_transform, _}}|Left]) -> + cleanup_parse_transforms(Left); +cleanup_parse_transforms([Other|Left]) -> + [Other|cleanup_parse_transforms(Left)]; +cleanup_parse_transforms([]) -> + []. + +-spec format_errors([{module(), string()}]) -> [string()]. + +format_errors([{Mod, Errors}|Left]) -> + FormatedError = + [io_lib:format("~s:~w: ~s\n", [Mod, Line, M:format_error(Desc)]) + || {Line, M, Desc} <- Errors], + [lists:flatten(FormatedError) | format_errors(Left)]; +format_errors([]) -> + []. + +-spec format_sig(erl_types:erl_type()) -> string(). + +format_sig(Type) -> + format_sig(Type, dict:new()). + +-spec format_sig(erl_types:erl_type(), dict()) -> string(). + +format_sig(Type, RecDict) -> + "fun(" ++ Sig = lists:flatten(erl_types:t_to_string(Type, RecDict)), + ")" ++ RevSig = lists:reverse(Sig), + lists:reverse(RevSig). + +%%------------------------------------------------------------------- +%% Author : Per Gustafsson <[email protected]> +%% Description : Provides better printing of binaries. +%% Created : 5 March 2007 +%%------------------------------------------------------------------- + +pp_hook() -> + fun pp_hook/3. + +-spec pp_hook() -> fun((cerl:cerl(), _, _) -> term()). + +pp_hook(Node, Ctxt, Cont) -> + case cerl:type(Node) of + binary -> + pp_binary(Node, Ctxt, Cont); + bitstr -> + pp_segment(Node, Ctxt, Cont); + _ -> + Cont(Node, Ctxt) + end. + +pp_binary(Node, Ctxt, Cont) -> + prettypr:beside(prettypr:text("<<"), + prettypr:beside(pp_segments(cerl:binary_segments(Node), + Ctxt, Cont), + prettypr:text(">>"))). + +pp_segments([Seg], Ctxt, Cont) -> + pp_segment(Seg, Ctxt, Cont); +pp_segments([], _Ctxt, _Cont) -> + prettypr:text(""); +pp_segments([Seg|Rest], Ctxt, Cont) -> + prettypr:beside(pp_segment(Seg, Ctxt, Cont), + prettypr:beside(prettypr:text(","), + pp_segments(Rest, Ctxt, Cont))). + +pp_segment(Node, Ctxt, Cont) -> + Val = cerl:bitstr_val(Node), + Size = cerl:bitstr_size(Node), + Unit = cerl:bitstr_unit(Node), + Type = cerl:bitstr_type(Node), + Flags = cerl:bitstr_flags(Node), + prettypr:beside(Cont(Val, Ctxt), + prettypr:beside(pp_size(Size, Ctxt, Cont), + prettypr:beside(pp_opts(Type, Flags), + pp_unit(Unit, Ctxt, Cont)))). + +pp_size(Size, Ctxt, Cont) -> + case cerl:is_c_atom(Size) of + true -> + prettypr:text(""); + false -> + prettypr:beside(prettypr:text(":"), Cont(Size, Ctxt)) + end. + +pp_opts(Type, Flags) -> + FinalFlags = + case cerl:atom_val(Type) of + binary -> []; + float -> keep_endian(cerl:concrete(Flags)); + integer -> keep_all(cerl:concrete(Flags)); + utf8 -> []; + utf16 -> []; + utf32 -> [] + end, + prettypr:beside(prettypr:text("/"), + prettypr:beside(pp_atom(Type), + pp_flags(FinalFlags))). + +pp_flags([]) -> + prettypr:text(""); +pp_flags([Flag|Flags]) -> + prettypr:beside(prettypr:text("-"), + prettypr:beside(pp_atom(Flag), + pp_flags(Flags))). + +keep_endian(Flags) -> + [cerl:c_atom(X) || X <- Flags, (X =:= little) or (X =:= native)]. + +keep_all(Flags) -> + [cerl:c_atom(X) || X <- Flags, + (X =:= little) or (X =:= native) or (X =:= signed)]. + +pp_unit(Unit, Ctxt, Cont) -> + case cerl:concrete(Unit) of + N when is_integer(N) -> + prettypr:beside(prettypr:text("-"), + prettypr:beside(prettypr:text("unit:"), + Cont(Unit, Ctxt))); + _ -> % Other value: e.g. 'undefined' when UTF + prettypr:text("") + end. + +pp_atom(Atom) -> + String = atom_to_list(cerl:atom_val(Atom)), + prettypr:text(String). |