%% -*- erlang-indent-level: 2 -*-
%%-------------------------------------------------------------------
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2006-2014. 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()],
external_types = [] :: [mfa()],
legal_warnings = ordsets:new() :: [dial_warn_tag()],
mod_deps = dict:new() :: dict(),
output = standard_io :: io:device(),
output_format = formatted :: format(),
filename_opt = basename :: fopt(),
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()],
unknown_behaviours = [] :: [dialyzer_behaviours:behaviour()]
}).
%%--------------------------------------------------------------------
-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_plts of
[] -> Opts#options{output_plt = get_default_output_plt()};
[Plt] -> Opts#options{init_plts = [], output_plt = Plt};
Plts ->
Msg = io_lib:format("Could not build multiple PLT files: ~s\n",
[format_plts(Plts)]),
cl_error(Msg)
end;
false -> Opts#options{init_plts = []}
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_plts of
[] -> Opts#options{output_plt = get_default_output_plt(),
init_plts = get_default_init_plt()};
[Plt] -> Opts#options{output_plt = Plt};
Plts ->
Msg = io_lib:format("Could not add to multiple PLT files: ~s\n",
[format_plts(Plts)]),
cl_error(Msg)
end;
false ->
case Opts#options.init_plts =:= [] of
true -> Opts#options{init_plts = get_default_init_plt()};
false -> Opts
end
end.
%%--------------------------------------------------------------------
check_plt(#options{init_plts = []} = Opts) ->
Opts1 = init_opts_for_check(Opts),
report_check(Opts1),
plt_common(Opts1, [], []);
check_plt(#options{init_plts = Plts} = Opts) ->
check_plt_aux(Plts, Opts).
check_plt_aux([_] = Plt, Opts) ->
Opts1 = Opts#options{init_plts = Plt},
Opts2 = init_opts_for_check(Opts1),
report_check(Opts2),
plt_common(Opts2, [], []);
check_plt_aux([Plt|Plts], Opts) ->
case check_plt_aux([Plt], Opts) of
{?RET_NOTHING_SUSPICIOUS, []} -> check_plt_aux(Plts, Opts);
{?RET_DISCREPANCIES, Warns} ->
{_RET, MoreWarns} = check_plt_aux(Plts, Opts),
{?RET_DISCREPANCIES, Warns ++ MoreWarns}
end.
init_opts_for_check(Opts) ->
InitPlt =
case Opts#options.init_plts of
[]-> get_default_init_plt();
Plt -> Plt
end,
[OutputPlt] = InitPlt,
Opts#options{files = [],
files_rec = [],
analysis_type = plt_check,
defines = [],
from = byte_code,
init_plts = InitPlt,
include_dirs = [],
output_plt = OutputPlt,
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_plts of
[] -> Opts#options{output_plt = get_default_output_plt(),
init_plts = get_default_init_plt()};
[Plt] -> Opts#options{output_plt = Plt};
Plts ->
Msg = io_lib:format("Could not remove from multiple PLT files: ~s\n",
[format_plts(Plts)]),
cl_error(Msg)
end;
false ->
case Opts#options.init_plts =:= [] of
true -> Opts#options{init_plts = get_default_init_plt()};
false -> Opts
end
end.
%%--------------------------------------------------------------------
plt_common(#options{init_plts = [InitPlt]} = Opts, RemoveFiles, AddFiles) ->
case check_plt(Opts, RemoveFiles, AddFiles) of
ok ->
case Opts#options.output_plt of
none -> ok;
InitPlt -> ok;
OutPlt ->
{ok, Binary} = file:read_file(InitPlt),
ok = file:write_file(OutPlt, Binary)
end,
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(InitPlt, 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",
[InitPlt, default_plt_error_msg()]),
cl_error(Msg);
{error, not_valid} ->
Msg = io_lib:format("The file: ~s is not a valid PLT file\n~s",
[InitPlt, default_plt_error_msg()]),
cl_error(Msg);
{error, read_error} ->
Msg = io_lib:format("Could not read the PLT: ~s\n~s",
[InitPlt, default_plt_error_msg()]),
cl_error(Msg);
{error, {no_file_to_remove, F}} ->
Msg = io_lib:format("Could not remove the file ~s from the PLT: ~s\n",
[F, InitPlt]),
cl_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(#options{init_plts = [Plt]} = Opts, RemoveFiles, AddFiles) ->
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_plts = [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_plts = [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_plts = InitPlts,
output_plt = OutputPlt}) ->
case ReportMode of
quiet -> ok;
_ ->
io:format(" "),
case Type of
plt_add ->
[InitPlt] = InitPlts,
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 ->
[InitPlt] = InitPlts,
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_init_plt() ->
[dialyzer_plt:get_default_plt()].
get_default_output_plt() ->
dialyzer_plt:get_default_plt().
%%--------------------------------------------------------------------
format_plts([Plt]) -> Plt;
format_plts([Plt|Plts]) ->
Plt ++ ", " ++ format_plts(Plts).
%%--------------------------------------------------------------------
do_analysis(Options) ->
Files = get_files_from_opts(Options),
case Options#options.init_plts of
[] -> do_analysis(Files, Options, dialyzer_plt:new(), none);
PltFiles ->
Plts = [dialyzer_plt:from_file(F) || F <- PltFiles],
Plt = dialyzer_plt:merge_plts_or_report_conflicts(PltFiles, Plts),
do_analysis(Files, Options, Plt, 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,
timing = Options#options.timing,
plt = Plt,
use_contracts = Options#options.use_contracts,
callgraph_file = Options#options.callgraph_file,
solvers = Options#options.solvers},
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]),
cl_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_PARALLELISM, 7).
-define(MIN_FILES_FOR_NATIVE_COMPILE, 20).
-spec hipe_compile([file:filename()], #options{}) -> 'ok'.
hipe_compile(Files, #options{erlang_mode = ErlangMode} = Options) ->
NoNative = (get(dialyzer_options_native) =:= false),
FewFiles = (length(Files) < ?MIN_FILES_FOR_NATIVE_COMPILE),
case NoNative orelse FewFiles orelse ErlangMode of
true -> ok;
false ->
case erlang:system_info(hipe_architecture) of
undefined -> ok;
_ ->
Mods = [lists, dict, digraph, digraph_utils, ets,
gb_sets, gb_trees, ordsets, sets, sofs,
cerl, cerl_trees, erl_types, erl_bif_types,
dialyzer_analysis_callgraph, dialyzer, dialyzer_behaviours,
dialyzer_codeserver, dialyzer_contracts,
dialyzer_coordinator, dialyzer_dataflow, dialyzer_dep,
dialyzer_plt, dialyzer_succ_typings, dialyzer_typesig,
dialyzer_worker],
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 dialyzer_utils:parallelism() > ?MIN_PARALLELISM of
true ->
Parent = self(),
Pids = [spawn(fun () -> Parent ! {self(), hc(M)} end) || M <- Mods],
lists:foreach(fun (Pid) -> receive {Pid, Res} -> Res end end, Pids);
false ->
lists:foreach(fun (Mod) -> hc(Mod) end, Mods)
end.
hc(Mod) ->
{module, Mod} = code:ensure_loaded(Mod),
case code:is_module_native(Mod) of
true -> ok;
false ->
%% io:format(" ~s", [Mod]),
{ok, Mod} = hipe:c(Mod),
ok
end.
new_state() ->
#cl_state{}.
init_output(State0, #options{output_file = OutFile,
output_format = OutFormat,
filename_opt = FOpt}) ->
State = State0#cl_state{output_format = OutFormat, filename_opt = FOpt},
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]),
cl_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, unknown_behaviours, Behaviours} ->
NewState = store_unknown_behaviours(State, Behaviours),
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, ext_types, ExtTypes} ->
cl_loop(State#cl_state{external_types = ExtTypes}, 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),
cl_error(State, Msg);
{'EXIT', BackendPid, Reason} when Reason =/= 'normal' ->
Msg = failed_anal_msg(io_lib:format("~P", [Reason, 12]), LogCache),
cl_error(State, Msg);
_Other ->
%% io:format("Received ~p\n", [_Other]),
cl_loop(State, LogCache)
end.
-spec failed_anal_msg(string(), [_]) -> nonempty_string().
failed_anal_msg(Reason, LogCache) ->
Msg = "Analysis failed with error:\n" ++ lists:flatten(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 store_unknown_behaviours(#cl_state{}, [dialyzer_behaviours:behaviour()]) -> #cl_state{}.
store_unknown_behaviours(#cl_state{unknown_behaviours = Behs} = St, Beh) ->
St#cl_state{unknown_behaviours = Beh ++ Behs}.
-spec cl_error(string()) -> no_return().
cl_error(Msg) ->
throw({dialyzer_error, lists:flatten(Msg)}).
-spec cl_error(#cl_state{}, string()) -> no_return().
cl_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, lists:flatten(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),
print_ext_types(State),
print_unknown_behaviours(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_ext_types(#cl_state{report_mode = quiet}) ->
ok;
print_ext_types(#cl_state{output = Output,
external_calls = Calls,
external_types = Types,
stored_warnings = Warnings,
output_format = Format}) ->
case Types =:= [] of
true -> ok;
false ->
case Warnings =:= [] andalso Calls =:= [] of
true -> io:nl(Output); %% Need to do a newline first
false -> ok
end,
case Format of
formatted ->
io:put_chars(Output, "Unknown types:\n"),
do_print_ext_types(Output, Types, " ");
raw ->
io:put_chars(Output, "%% Unknown types:\n"),
do_print_ext_types(Output, Types, "%% ")
end
end.
do_print_ext_types(Output, [{M,F,A}|T], Before) ->
io:format(Output, "~s~p:~p/~p\n", [Before,M,F,A]),
do_print_ext_types(Output, T, Before);
do_print_ext_types(_, [], _) ->
ok.
%%print_unknown_behaviours(#cl_state{report_mode = quiet}) ->
%% ok;
print_unknown_behaviours(#cl_state{output = Output,
external_calls = Calls,
external_types = Types,
stored_warnings = Warnings,
unknown_behaviours = DupBehaviours,
legal_warnings = LegalWarnings,
output_format = Format}) ->
case ordsets:is_element(?WARN_BEHAVIOUR, LegalWarnings)
andalso DupBehaviours =/= [] of
false -> ok;
true ->
Behaviours = lists:usort(DupBehaviours),
case Warnings =:= [] andalso Calls =:= [] andalso Types =:= [] of
true -> io:nl(Output); %% Need to do a newline first
false -> ok
end,
{Prompt, Prefix} =
case Format of
formatted -> {"Unknown behaviours:\n"," "};
raw -> {"%% Unknown behaviours:\n","%% "}
end,
io:put_chars(Output, Prompt),
do_print_unknown_behaviours(Output, Behaviours, Prefix)
end.
do_print_unknown_behaviours(Output, [B|T], Before) ->
io:format(Output, "~s~p\n", [Before,B]),
do_print_unknown_behaviours(Output, T, Before);
do_print_unknown_behaviours(_, [], _) ->
ok.
print_warnings(#cl_state{stored_warnings = []}) ->
ok;
print_warnings(#cl_state{output = Output,
output_format = Format,
filename_opt = FOpt,
stored_warnings = Warnings}) ->
PrWarnings = process_warnings(Warnings),
case PrWarnings of
[] -> ok;
[_|_] ->
S = case Format of
formatted ->
[dialyzer:format_warning(W, FOpt) || 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}.