aboutsummaryrefslogtreecommitdiffstats
diff options
context:
space:
mode:
authorBjörn Gustavsson <[email protected]>2015-02-18 09:56:45 +0100
committerBjörn Gustavsson <[email protected]>2015-02-18 09:56:45 +0100
commit3dd2608a5dae7f054af9a5a3bf76befb00f38b98 (patch)
treee400b92905d2fc826308544f07ec182e538be3a8
parent36a515e52d89a6a5f87c271bdea794394ca35d27 (diff)
parent116e8aa05f84ee66aead2792b07b644c7f3e8fcd (diff)
downloadotp-3dd2608a5dae7f054af9a5a3bf76befb00f38b98.tar.gz
otp-3dd2608a5dae7f054af9a5a3bf76befb00f38b98.tar.bz2
otp-3dd2608a5dae7f054af9a5a3bf76befb00f38b98.zip
Merge branch 'bjorn/compiler/clean-up/OTP-12497'
* bjorn/compiler/clean-up/OTP-12497: cerl: Teach is_literal_term/1 to handle maps cerl: Add missing is_c_map/1 function v3_core: Simplify translation of maps sys_core_fold: Simplify opt_simple_let_2/6 Break out inlining of 'lists' functions to a new module sys_core_fold: Add is_int_type/2 and is_tuple_type/2 sys_core_fold: Refactor type information access core_lib: Deprecate functions that are no longer used by the compiler Eliminate use of core_lib:literal_value/1 Eliminate all uses of core_lib:get_anno/1 and core_lib:set_anno/2 core_lint: Eliminate call to core_lib:is_literal/1 test_lib: Include test_server.hrl using -include_lib sys_core_fold: Rename add_scope/2 to fit in the sub_* family v3_core: Suppress compiler-generated calls in guards v3_core: Remove out-commented code v3_core: Remove unused function argument for bc_tq() v3_core: Use Core Erlang annotations in a type-safe way
-rw-r--r--bootstrap/lib/stdlib/ebin/otp_internal.beambin10112 -> 10360 bytes
-rw-r--r--lib/compiler/src/Makefile2
-rw-r--r--lib/compiler/src/cerl.erl17
-rw-r--r--lib/compiler/src/compiler.app.src1
-rw-r--r--lib/compiler/src/core_lib.erl50
-rw-r--r--lib/compiler/src/core_lint.erl2
-rw-r--r--lib/compiler/src/core_parse.yrl12
-rw-r--r--lib/compiler/src/core_pp.erl6
-rw-r--r--lib/compiler/src/sys_core_fold.erl723
-rw-r--r--lib/compiler/src/sys_core_fold_lists.erl386
-rw-r--r--lib/compiler/src/sys_core_inline.erl8
-rw-r--r--lib/compiler/src/v3_core.erl101
-rw-r--r--lib/compiler/src/v3_kernel.erl16
-rw-r--r--lib/compiler/test/andor_SUITE.erl8
-rw-r--r--lib/compiler/test/core_fold_SUITE.erl11
-rw-r--r--lib/compiler/test/record_SUITE.erl8
-rw-r--r--lib/compiler/test/test_lib.erl2
-rw-r--r--lib/stdlib/src/otp_internal.erl13
18 files changed, 714 insertions, 652 deletions
diff --git a/bootstrap/lib/stdlib/ebin/otp_internal.beam b/bootstrap/lib/stdlib/ebin/otp_internal.beam
index 670943aad3..f25e1c78cf 100644
--- a/bootstrap/lib/stdlib/ebin/otp_internal.beam
+++ b/bootstrap/lib/stdlib/ebin/otp_internal.beam
Binary files differ
diff --git a/lib/compiler/src/Makefile b/lib/compiler/src/Makefile
index c6d09d85eb..2032392821 100644
--- a/lib/compiler/src/Makefile
+++ b/lib/compiler/src/Makefile
@@ -81,6 +81,7 @@ MODULES = \
rec_env \
sys_core_dsetel \
sys_core_fold \
+ sys_core_fold_lists \
sys_core_inline \
sys_pre_attributes \
sys_pre_expand \
@@ -187,6 +188,7 @@ $(EBIN)/core_parse.beam: core_parse.hrl $(EGEN)/core_parse.erl
$(EBIN)/core_pp.beam: core_parse.hrl
$(EBIN)/sys_core_dsetel.beam: core_parse.hrl
$(EBIN)/sys_core_fold.beam: core_parse.hrl
+$(EBIN)/sys_core_fold_lists.beam: core_parse.hrl
$(EBIN)/sys_core_inline.beam: core_parse.hrl
$(EBIN)/sys_pre_expand.beam: ../../stdlib/include/erl_bits.hrl
$(EBIN)/v3_codegen.beam: v3_life.hrl
diff --git a/lib/compiler/src/cerl.erl b/lib/compiler/src/cerl.erl
index 1a2957ee31..3d4b9ee0c6 100644
--- a/lib/compiler/src/cerl.erl
+++ b/lib/compiler/src/cerl.erl
@@ -124,6 +124,7 @@
%% keep map exports here for now
c_map_pattern/1,
+ is_c_map/1,
map_es/1,
map_arg/1,
update_c_map/3,
@@ -433,6 +434,8 @@ is_literal_term([H | T]) ->
is_literal_term(T) when is_tuple(T) ->
is_literal_term_list(tuple_to_list(T));
is_literal_term(B) when is_bitstring(B) -> true;
+is_literal_term(M) when is_map(M) ->
+ is_literal_term_list(maps:to_list(M));
is_literal_term(_) ->
false.
@@ -1579,6 +1582,20 @@ ann_make_list(_, [], Node) ->
%% ---------------------------------------------------------------------
%% maps
+%% @spec is_c_map(Node::cerl()) -> boolean()
+%%
+%% @doc Returns <code>true</code> if <code>Node</code> is an abstract
+%% map constructor, otherwise <code>false</code>.
+
+-spec is_c_map(cerl()) -> boolean().
+
+is_c_map(#c_map{}) ->
+ true;
+is_c_map(#c_literal{val = V}) when is_map(V) ->
+ true;
+is_c_map(_) ->
+ false.
+
-spec map_es(c_map()) -> [c_map_pair()].
map_es(#c_map{es = Es}) ->
diff --git a/lib/compiler/src/compiler.app.src b/lib/compiler/src/compiler.app.src
index 8f68915f8e..fbaa7a96fe 100644
--- a/lib/compiler/src/compiler.app.src
+++ b/lib/compiler/src/compiler.app.src
@@ -56,6 +56,7 @@
rec_env,
sys_core_dsetel,
sys_core_fold,
+ sys_core_fold_lists,
sys_core_inline,
sys_pre_attributes,
sys_pre_expand,
diff --git a/lib/compiler/src/core_lib.erl b/lib/compiler/src/core_lib.erl
index 730e3a5317..66319dbd36 100644
--- a/lib/compiler/src/core_lib.erl
+++ b/lib/compiler/src/core_lib.erl
@@ -20,6 +20,12 @@
-module(core_lib).
+-deprecated({get_anno,1,next_major_release}).
+-deprecated({set_anno,2,next_major_release}).
+-deprecated({is_literal,1,next_major_release}).
+-deprecated({is_literal_list,1,next_major_release}).
+-deprecated({literal_value,1,next_major_release}).
+
-export([get_anno/1,set_anno/2]).
-export([is_literal/1,is_literal_list/1]).
-export([literal_value/1]).
@@ -33,59 +39,27 @@
%%
-spec get_anno(cerl:cerl()) -> term().
-get_anno(C) -> element(2, C).
+get_anno(C) -> cerl:get_ann(C).
-spec set_anno(cerl:cerl(), term()) -> cerl:cerl().
-set_anno(C, A) -> setelement(2, C, A).
+set_anno(C, A) -> cerl:set_ann(C, A).
-spec is_literal(cerl:cerl()) -> boolean().
-is_literal(#c_literal{}) -> true;
-is_literal(#c_cons{hd=H,tl=T}) ->
- is_literal(H) andalso is_literal(T);
-is_literal(#c_tuple{es=Es}) -> is_literal_list(Es);
-is_literal(#c_binary{segments=Es}) -> is_lit_bin(Es);
-is_literal(_) -> false.
+is_literal(Cerl) ->
+ cerl:is_literal(cerl:fold_literal(Cerl)).
-spec is_literal_list([cerl:cerl()]) -> boolean().
is_literal_list(Es) -> lists:all(fun is_literal/1, Es).
-is_lit_bin(Es) ->
- lists:all(fun (#c_bitstr{val=E,size=S}) ->
- is_literal(E) andalso is_literal(S)
- end, Es).
-
%% Return the value of LitExpr.
-spec literal_value(cerl:c_literal() | cerl:c_binary() |
cerl:c_map() | cerl:c_cons() | cerl:c_tuple()) -> term().
-literal_value(#c_literal{val=V}) -> V;
-literal_value(#c_binary{segments=Es}) ->
- list_to_binary([literal_value_bin(Bit) || Bit <- Es]);
-literal_value(#c_cons{hd=H,tl=T}) ->
- [literal_value(H)|literal_value(T)];
-literal_value(#c_tuple{es=Es}) ->
- list_to_tuple(literal_value_list(Es));
-literal_value(#c_map{arg=Cm,es=Cmps}) ->
- M = literal_value(Cm),
- lists:foldl(fun(#c_map_pair{ key=Ck, val=Cv },Mi) ->
- K = literal_value(Ck),
- V = literal_value(Cv),
- maps:put(K,V,Mi)
- end, M, Cmps).
-
-literal_value_list(Vals) -> [literal_value(V) || V <- Vals].
-
-literal_value_bin(#c_bitstr{val=Val,size=Sz,unit=U,type=T,flags=Fs}) ->
- %% We will only handle literals constructed by make_literal/1.
- %% Could be made more general in the future if the need arises.
- 8 = literal_value(Sz),
- 1 = literal_value(U),
- integer = literal_value(T),
- [unsigned,big] = literal_value(Fs),
- literal_value(Val).
+literal_value(Cerl) ->
+ cerl:concrete(cerl:fold_literal(Cerl)).
%% Make a suitable values structure, expr or values, depending on Expr.
-spec make_values([cerl:cerl()] | cerl:cerl()) -> cerl:cerl().
diff --git a/lib/compiler/src/core_lint.erl b/lib/compiler/src/core_lint.erl
index c0e2bdaba0..f62b2bb0ba 100644
--- a/lib/compiler/src/core_lint.erl
+++ b/lib/compiler/src/core_lint.erl
@@ -173,7 +173,7 @@ check_exports(Es, St) ->
end.
check_attrs(As, St) ->
- case all(fun ({#c_literal{},V}) -> core_lib:is_literal(V);
+ case all(fun ({#c_literal{},#c_literal{}}) -> true;
(_) -> false
end, As) of
true -> St;
diff --git a/lib/compiler/src/core_parse.yrl b/lib/compiler/src/core_parse.yrl
index 8bdb6bc37d..eeb9f5dba7 100644
--- a/lib/compiler/src/core_parse.yrl
+++ b/lib/compiler/src/core_parse.yrl
@@ -124,7 +124,7 @@ function_definition ->
{'$1','$3'}.
anno_fun -> '(' fun_expr '-|' annotation ')' :
- core_lib:set_anno('$2', '$4').
+ cerl:set_ann('$2', '$4').
anno_fun -> fun_expr : '$1'.
%% Constant terms for annotations and attributes.
@@ -163,7 +163,7 @@ tail_constant -> ',' constant tail_constant : ['$2'|'$3'].
%% ( ( V -| <anno> ) = ( {a} -| <anno> ) -| <anno> )
anno_pattern -> '(' other_pattern '-|' annotation ')' :
- core_lib:set_anno('$2', '$4').
+ cerl:set_ann('$2', '$4').
anno_pattern -> other_pattern : '$1'.
anno_pattern -> anno_variable : '$1'.
@@ -224,7 +224,7 @@ anno_variables -> anno_variable : ['$1'].
anno_variable -> variable : '$1'.
anno_variable -> '(' variable '-|' annotation ')' :
- core_lib:set_anno('$2', '$4').
+ cerl:set_ann('$2', '$4').
%% Expressions
%% Must split expressions into two levels as nested value expressions
@@ -232,7 +232,7 @@ anno_variable -> '(' variable '-|' annotation ')' :
anno_expression -> expression : '$1'.
anno_expression -> '(' expression '-|' annotation ')' :
- core_lib:set_anno('$2', '$4').
+ cerl:set_ann('$2', '$4').
anno_expressions -> anno_expression ',' anno_expressions : ['$1' | '$3'].
anno_expressions -> anno_expression : ['$1'].
@@ -328,7 +328,7 @@ function_name -> atom '/' integer :
anno_function_name -> function_name : '$1'.
anno_function_name -> '(' function_name '-|' annotation ')' :
- core_lib:set_anno('$2', '$4').
+ cerl:set_ann('$2', '$4').
let_vars -> anno_variable : ['$1'].
let_vars -> '<' '>' : [].
@@ -356,7 +356,7 @@ anno_clauses -> anno_clause : ['$1'].
anno_clause -> clause : '$1'.
anno_clause -> '(' clause '-|' annotation ')' :
- core_lib:set_anno('$2', '$4').
+ cerl:set_ann('$2', '$4').
clause -> clause_pattern 'when' anno_expression '->' anno_expression :
#c_clause{pats='$1',guard='$3',body='$5'}.
diff --git a/lib/compiler/src/core_pp.erl b/lib/compiler/src/core_pp.erl
index 662ef6c83f..9cfca88e8c 100644
--- a/lib/compiler/src/core_pp.erl
+++ b/lib/compiler/src/core_pp.erl
@@ -45,7 +45,7 @@ format(Node) ->
format(Node, #ctxt{}).
maybe_anno(Node, Fun, Ctxt) ->
- As = core_lib:get_anno(Node),
+ As = cerl:get_ann(Node),
case get_line(As) of
none ->
maybe_anno(Node, Fun, Ctxt, As);
@@ -195,7 +195,7 @@ format_1(#c_alias{var=V,pat=P}, Ctxt) ->
Txt = [format(V, Ctxt)|" = "],
[Txt|format(P, add_indent(Ctxt, width(Txt, Ctxt)))];
format_1(#c_let{vars=Vs0,arg=A,body=B}, Ctxt) ->
- Vs = [core_lib:set_anno(V, []) || V <- Vs0],
+ Vs = [cerl:set_ann(V, []) || V <- Vs0],
case is_simple_term(A) of
false ->
Ctxt1 = add_indent(Ctxt, Ctxt#ctxt.body_indent),
@@ -213,7 +213,7 @@ format_1(#c_let{vars=Vs0,arg=A,body=B}, Ctxt) ->
["let ",
format_values(Vs, add_indent(Ctxt, 4)),
" = ",
- format(core_lib:set_anno(A, []), Ctxt1),
+ format(cerl:set_ann(A, []), Ctxt1),
nl_indent(Ctxt),
"in "
| format(B, add_indent(Ctxt, 4))
diff --git a/lib/compiler/src/sys_core_fold.erl b/lib/compiler/src/sys_core_fold.erl
index de92792a68..7d1819ea15 100644
--- a/lib/compiler/src/sys_core_fold.erl
+++ b/lib/compiler/src/sys_core_fold.erl
@@ -96,6 +96,10 @@
t=[], %Types
in_guard=false}). %In guard or not.
+-type type_info() :: cerl:cerl() | 'bool'.
+-type yes_no_maybe() :: 'yes' | 'no' | 'maybe'.
+-type sub() :: #sub{}.
+
-spec module(cerl:c_module(), [compile:option()]) ->
{'ok', cerl:c_module(), [_]}.
@@ -462,10 +466,7 @@ is_safe_simple(#c_call{module=#c_literal{val=erlang},
case erl_internal:bool_op(Name, NumArgs) of
true ->
%% Boolean operators are safe if the arguments are boolean.
- all(fun(#c_var{name=V}) -> is_boolean_type(V, Sub);
- (#c_literal{val=Lit}) -> is_boolean(Lit);
- (_) -> false
- end, Args);
+ all(fun(C) -> is_boolean_type(C, Sub) =:= yes end, Args);
false ->
%% We need a rather complicated test to ensure that
%% we only allow safe calls that are allowed in a guard.
@@ -714,385 +715,23 @@ make_effect_seq([], _) -> void().
call(#c_call{args=As}=Call, #c_literal{val=M}=M0, #c_literal{val=N}=N0, Sub) ->
case get(no_inline_list_funcs) of
true ->
- call_0(Call, M0, N0, As, Sub);
+ call_1(Call, M0, N0, As, Sub);
false ->
- call_1(Call, M, N, As, Sub)
+ case sys_core_fold_lists:call(Call, M, N, As) of
+ none ->
+ call_1(Call, M, N, As, Sub);
+ Core ->
+ expr(Core, Sub)
+ end
+
end;
call(#c_call{args=As}=Call, M, N, Sub) ->
- call_0(Call, M, N, As, Sub).
+ call_1(Call, M, N, As, Sub).
-call_0(Call, M, N, As0, Sub) ->
+call_1(Call, M, N, As0, Sub) ->
As1 = expr_list(As0, value, Sub),
fold_call(Call#c_call{args=As1}, M, N, As1, Sub).
-%% We inline some very common higher order list operations.
-%% We use the same evaluation order as the library function.
-
-call_1(#c_call{anno=Anno}, lists, all, [Arg1,Arg2], Sub) ->
- Loop = #c_var{name={'lists^all',1}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- Err1 = #c_tuple{es=[#c_literal{val='case_clause'}, X]},
- CC1 = #c_clause{pats=[#c_literal{val=true}], guard=#c_literal{val=true},
- body=#c_apply{anno=Anno, op=Loop, args=[Xs]}},
- CC2 = #c_clause{pats=[#c_literal{val=false}], guard=#c_literal{val=true},
- body=#c_literal{val=false}},
- CC3 = #c_clause{pats=[X], guard=#c_literal{val=true},
- body=match_fail(Anno, Err1)},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_case{arg=#c_apply{anno=Anno, op=F, args=[X]},
- clauses = [CC1, CC2, CC3]}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=1}]},
- body=#c_literal{val=true}},
- Err2 = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^all',1}}|Anno], Err2)},
- Fun = #c_fun{vars=[Xs],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, any, [Arg1,Arg2], Sub) ->
- Loop = #c_var{name={'lists^any',1}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- Err1 = #c_tuple{es=[#c_literal{val='case_clause'}, X]},
- CC1 = #c_clause{pats=[#c_literal{val=true}], guard=#c_literal{val=true},
- body=#c_literal{val=true}},
- CC2 = #c_clause{pats=[#c_literal{val=false}], guard=#c_literal{val=true},
- body=#c_apply{anno=Anno, op=Loop, args=[Xs]}},
- CC3 = #c_clause{pats=[X], guard=#c_literal{val=true},
- body=match_fail(Anno, Err1)},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_case{arg=#c_apply{anno=Anno, op=F, args=[X]},
- clauses = [CC1, CC2, CC3]}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=1}]},
- body=#c_literal{val=false}},
- Err2 = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^any',1}}|Anno], Err2)},
- Fun = #c_fun{vars=[Xs],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, foreach, [Arg1,Arg2], Sub) ->
- Loop = #c_var{name={'lists^foreach',1}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_seq{arg=#c_apply{anno=Anno, op=F, args=[X]},
- body=#c_apply{anno=Anno, op=Loop, args=[Xs]}}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=1}]},
- body=#c_literal{val=ok}},
- Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^foreach',1}}|Anno], Err)},
- Fun = #c_fun{vars=[Xs],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, map, [Arg1,Arg2], Sub) ->
- Loop = #c_var{name={'lists^map',1}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- H = #c_var{name='H'},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_let{vars=[H], arg=#c_apply{anno=Anno,
- op=F,
- args=[X]},
- body=#c_cons{hd=H,
- anno=[compiler_generated],
- tl=#c_apply{anno=Anno,
- op=Loop,
- args=[Xs]}}}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=1}]},
- body=#c_literal{val=[]}},
- Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^map',1}}|Anno], Err)},
- Fun = #c_fun{vars=[Xs],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, flatmap, [Arg1,Arg2], Sub) ->
- Loop = #c_var{name={'lists^flatmap',1}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- H = #c_var{name='H'},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_let{vars=[H],
- arg=#c_apply{anno=Anno, op=F, args=[X]},
- body=#c_call{anno=[compiler_generated|Anno],
- module=#c_literal{val=erlang},
- name=#c_literal{val='++'},
- args=[H,
- #c_apply{anno=Anno,
- op=Loop,
- args=[Xs]}]}}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=1}]},
- body=#c_literal{val=[]}},
- Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^flatmap',1}}|Anno], Err)},
- Fun = #c_fun{vars=[Xs],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, filter, [Arg1,Arg2], Sub) ->
- Loop = #c_var{name={'lists^filter',1}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- B = #c_var{name='B'},
- Err1 = #c_tuple{es=[#c_literal{val='case_clause'}, X]},
- CC1 = #c_clause{pats=[#c_literal{val=true}], guard=#c_literal{val=true},
- body=#c_cons{anno=[compiler_generated], hd=X, tl=Xs}},
- CC2 = #c_clause{pats=[#c_literal{val=false}], guard=#c_literal{val=true},
- body=Xs},
- CC3 = #c_clause{pats=[X], guard=#c_literal{val=true},
- body=match_fail(Anno, Err1)},
- Case = #c_case{arg=B, clauses = [CC1, CC2, CC3]},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_let{vars=[B],
- arg=#c_apply{anno=Anno, op=F, args=[X]},
- body=#c_let{vars=[Xs],
- arg=#c_apply{anno=Anno,
- op=Loop,
- args=[Xs]},
- body=Case}}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=1}]},
- body=#c_literal{val=[]}},
- Err2 = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^filter',1}}|Anno], Err2)},
- Fun = #c_fun{vars=[Xs],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, foldl, [Arg1,Arg2,Arg3], Sub) ->
- Loop = #c_var{name={'lists^foldl',2}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- A = #c_var{name='A'},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_apply{anno=Anno,
- op=Loop,
- args=[Xs, #c_apply{anno=Anno,
- op=F,
- args=[X, A]}]}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=2}]},
- body=A},
- Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, A, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^foldl',2}}|Anno], Err)},
- Fun = #c_fun{vars=[Xs, A],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, A, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L, A]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, foldr, [Arg1,Arg2,Arg3], Sub) ->
- Loop = #c_var{name={'lists^foldr',2}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- A = #c_var{name='A'},
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=#c_apply{anno=Anno,
- op=F,
- args=[X, #c_apply{anno=Anno,
- op=Loop,
- args=[Xs, A]}]}},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=2}]},
- body=A},
- Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, A, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^foldr',2}}|Anno], Err)},
- Fun = #c_fun{vars=[Xs, A],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, A, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
- body=#c_letrec{defs=[{Loop,Fun}],
- body=#c_apply{anno=Anno, op=Loop, args=[L, A]}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, mapfoldl, [Arg1,Arg2,Arg3], Sub) ->
- Loop = #c_var{name={'lists^mapfoldl',2}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- Avar = #c_var{name='A'},
- Match =
- fun (A, P, E) ->
- C1 = #c_clause{pats=[P], guard=#c_literal{val=true}, body=E},
- Err = #c_tuple{es=[#c_literal{val='badmatch'}, X]},
- C2 = #c_clause{pats=[X], guard=#c_literal{val=true},
- body=match_fail(Anno, Err)},
- #c_case{arg=A, clauses=[C1, C2]}
- end,
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
- body=Match(#c_apply{anno=Anno, op=F, args=[X, Avar]},
- #c_tuple{es=[X, Avar]},
-%%% Tuple passing version
- Match(#c_apply{anno=Anno,
- op=Loop,
- args=[Xs, Avar]},
- #c_tuple{es=[Xs, Avar]},
- #c_tuple{anno=[compiler_generated],
- es=[#c_cons{anno=[compiler_generated],
- hd=X, tl=Xs},
- Avar]})
-%%% Multiple-value version
-%%% #c_let{vars=[Xs,A],
-%%% %% The tuple here will be optimised
-%%% %% away later; no worries.
-%%% arg=#c_apply{op=Loop, args=[Xs, A]},
-%%% body=#c_values{es=[#c_cons{hd=X, tl=Xs},
-%%% A]}}
- )},
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=2}]},
-%%% Tuple passing version
- body=#c_tuple{anno=[compiler_generated],
- es=[#c_literal{val=[]}, Avar]}},
-%%% Multiple-value version
-%%% body=#c_values{es=[#c_literal{val=[]}, A]}},
- Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Avar, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^mapfoldl',2}}|Anno], Err)},
- Fun = #c_fun{vars=[Xs, Avar],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, Avar, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
- body=#c_letrec{defs=[{Loop,Fun}],
-%%% Tuple passing version
- body=#c_apply{anno=Anno,
- op=Loop,
- args=[L, Avar]}}},
-%%% Multiple-value version
-%%% body=#c_let{vars=[Xs, A],
-%%% arg=#c_apply{op=Loop,
-%%% args=[L, A]},
-%%% body=#c_tuple{es=[Xs, A]}}}},
- Sub);
-call_1(#c_call{anno=Anno}, lists, mapfoldr, [Arg1,Arg2,Arg3], Sub) ->
- Loop = #c_var{name={'lists^mapfoldr',2}},
- F = #c_var{name='F'},
- Xs = #c_var{name='Xs'},
- X = #c_var{name='X'},
- Avar = #c_var{name='A'},
- Match =
- fun (A, P, E) ->
- C1 = #c_clause{pats=[P], guard=#c_literal{val=true}, body=E},
- Err = #c_tuple{es=[#c_literal{val='badmatch'}, X]},
- C2 = #c_clause{pats=[X], guard=#c_literal{val=true},
- body=match_fail(Anno, Err)},
- #c_case{arg=A, clauses=[C1, C2]}
- end,
- C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
-%%% Tuple passing version
- body=Match(#c_apply{anno=Anno,
- op=Loop,
- args=[Xs, Avar]},
- #c_tuple{es=[Xs, Avar]},
- Match(#c_apply{anno=Anno, op=F, args=[X, Avar]},
- #c_tuple{es=[X, Avar]},
- #c_tuple{anno=[compiler_generated],
- es=[#c_cons{anno=[compiler_generated],
- hd=X, tl=Xs}, Avar]}))
-%%% Multiple-value version
-%%% body=#c_let{vars=[Xs,A],
-%%% %% The tuple will be optimised away
-%%% arg=#c_apply{op=Loop, args=[Xs, A]},
-%%% body=Match(#c_apply{op=F, args=[X, A]},
-%%% #c_tuple{es=[X, A]},
-%%% #c_values{es=[#c_cons{hd=X, tl=Xs},
-%%% A]})}
- },
- C2 = #c_clause{pats=[#c_literal{val=[]}],
- guard=#c_call{module=#c_literal{val=erlang},
- name=#c_literal{val=is_function},
- args=[F, #c_literal{val=2}]},
-%%% Tuple passing version
- body=#c_tuple{anno=[compiler_generated],
- es=[#c_literal{val=[]}, Avar]}},
-%%% Multiple-value version
-%%% body=#c_values{es=[#c_literal{val=[]}, A]}},
- Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Avar, Xs]},
- C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
- body=match_fail([{function_name,{'lists^mapfoldr',2}}|Anno], Err)},
- Fun = #c_fun{vars=[Xs, Avar],
- body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
- L = #c_var{name='L'},
- expr(#c_let{vars=[F, Avar, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
- body=#c_letrec{defs=[{Loop,Fun}],
-%%% Tuple passing version
- body=#c_apply{anno=Anno,
- op=Loop,
- args=[L, Avar]}}},
-%%% Multiple-value version
-%%% body=#c_let{vars=[Xs, A],
-%%% arg=#c_apply{op=Loop,
-%%% args=[L, A]},
-%%% body=#c_tuple{es=[Xs, A]}}}},
- Sub);
-call_1(#c_call{module=M, name=N}=Call, _, _, As, Sub) ->
- call_0(Call, M, N, As, Sub).
-
-match_fail(Anno, Arg) ->
- #c_primop{anno=Anno,
- name=#c_literal{val='match_fail'},
- args=[Arg]}.
-
%% fold_call(Call, Mod, Name, Args, Sub) -> Expr.
%% Try to safely evaluate the call. Just try to evaluate arguments,
%% do the call and convert return values to literals. If this
@@ -1117,29 +756,33 @@ fold_call_1(Call, Mod, Name, Args, Sub) ->
true -> fold_call_2(Call, Mod, Name, Args, Sub)
end.
-fold_call_2(Call, Module, Name, Args0, Sub) ->
- try
- Args = [core_lib:literal_value(A) || A <- Args0],
- try apply(Module, Name, Args) of
- Val ->
- case cerl:is_literal_term(Val) of
- true ->
- #c_literal{val=Val};
- false ->
- %% Successful evaluation, but it was not
- %% possible to express the computed value as a literal.
- Call
- end
- catch
- error:Reason ->
- %% Evaluation of the function failed. Warn and replace
- %% the call with a call to erlang:error/1.
- eval_failure(Call, Reason)
- end
+fold_call_2(Call, Module, Name, Args, Sub) ->
+ case all(fun cerl:is_literal/1, Args) of
+ true ->
+ %% All arguments are literals.
+ fold_lit_args(Call, Module, Name, Args);
+ false ->
+ %% At least one non-literal argument.
+ fold_non_lit_args(Call, Module, Name, Args, Sub)
+ end.
+
+fold_lit_args(Call, Module, Name, Args0) ->
+ Args = [cerl:concrete(A) || A <- Args0],
+ try apply(Module, Name, Args) of
+ Val ->
+ case cerl:is_literal_term(Val) of
+ true ->
+ cerl:abstract(Val);
+ false ->
+ %% Successful evaluation, but it was not possible
+ %% to express the computed value as a literal.
+ Call
+ end
catch
- error:_ ->
- %% There was at least one non-literal argument.
- fold_non_lit_args(Call, Module, Name, Args0, Sub)
+ error:Reason ->
+ %% Evaluation of the function failed. Warn and replace
+ %% the call with a call to erlang:error/1.
+ eval_failure(Call, Reason)
end.
%% fold_non_lit_args(Call, Module, Name, Args, Sub) -> Expr.
@@ -1178,17 +821,18 @@ fold_non_lit_args(Call, _, _, _, _) -> Call.
%% Evaluate a relational operation using type information.
eval_rel_op(Call, Op, [#c_var{name=V},#c_var{name=V}], _) ->
Bool = erlang:Op(same, same),
- #c_literal{anno=core_lib:get_anno(Call),val=Bool};
-eval_rel_op(Call, '=:=', [#c_var{name=V}=Var,#c_literal{val=true}], Sub) ->
+ #c_literal{anno=cerl:get_ann(Call),val=Bool};
+eval_rel_op(Call, '=:=', [Term,#c_literal{val=true}], Sub) ->
%% BoolVar =:= true ==> BoolVar
- case is_boolean_type(V, Sub) of
- true -> Var;
- false -> Call
+ case is_boolean_type(Term, Sub) of
+ yes -> Term;
+ maybe -> Call;
+ no -> #c_literal{val=false}
end;
eval_rel_op(Call, '==', Ops, _Sub) ->
case is_exact_eq_ok(Ops) of
true ->
- Name = #c_literal{anno=core_lib:get_anno(Call),val='=:='},
+ Name = #c_literal{anno=cerl:get_ann(Call),val='=:='},
Call#c_call{name=Name};
false ->
Call
@@ -1196,7 +840,7 @@ eval_rel_op(Call, '==', Ops, _Sub) ->
eval_rel_op(Call, '/=', Ops, _Sub) ->
case is_exact_eq_ok(Ops) of
true ->
- Name = #c_literal{anno=core_lib:get_anno(Call),val='=/='},
+ Name = #c_literal{anno=cerl:get_ann(Call),val='=/='},
Call#c_call{name=Name};
false ->
Call
@@ -1231,40 +875,31 @@ is_non_numeric_tuple(_Tuple, 0) -> true.
%% there must be at least one non-literal argument (i.e.
%% there is no need to handle the case that all argments
%% are literal).
-eval_bool_op(Call, 'and', [#c_literal{val=true},#c_var{name=V}=Res], Sub) ->
- case is_boolean_type(V, Sub) of
- true -> Res;
- false-> Call
- end;
-eval_bool_op(Call, 'and', [#c_var{name=V}=Res,#c_literal{val=true}], Sub) ->
- case is_boolean_type(V, Sub) of
- true -> Res;
- false-> Call
- end;
-eval_bool_op(Call, 'and', [#c_literal{val=false}=Res,#c_var{name=V}], Sub) ->
- case is_boolean_type(V, Sub) of
- true -> Res;
- false-> Call
- end;
-eval_bool_op(Call, 'and', [#c_var{name=V},#c_literal{val=false}=Res], Sub) ->
- case is_boolean_type(V, Sub) of
- true -> Res;
- false-> Call
- end;
+
+eval_bool_op(Call, 'and', [#c_literal{val=true},Term], Sub) ->
+ eval_bool_op_1(Call, Term, Term, Sub);
+eval_bool_op(Call, 'and', [Term,#c_literal{val=true}], Sub) ->
+ eval_bool_op_1(Call, Term, Term, Sub);
+eval_bool_op(Call, 'and', [#c_literal{val=false}=Res,Term], Sub) ->
+ eval_bool_op_1(Call, Res, Term, Sub);
+eval_bool_op(Call, 'and', [Term,#c_literal{val=false}=Res], Sub) ->
+ eval_bool_op_1(Call, Res, Term, Sub);
eval_bool_op(Call, _, _, _) -> Call.
+eval_bool_op_1(Call, Res, Term, Sub) ->
+ case is_boolean_type(Term, Sub) of
+ yes -> Res;
+ no -> eval_failure(Call, badarg);
+ maybe -> Call
+ end.
+
%% Evaluate is_boolean/1 using type information.
-eval_is_boolean(Call, #c_var{name=V}, Sub) ->
- case is_boolean_type(V, Sub) of
- true -> #c_literal{val=true};
- false -> Call
- end;
-eval_is_boolean(_, #c_cons{}, _) ->
- #c_literal{val=false};
-eval_is_boolean(_, #c_tuple{}, _) ->
- #c_literal{val=false};
-eval_is_boolean(Call, _, _) ->
- Call.
+eval_is_boolean(Call, Term, Sub) ->
+ case is_boolean_type(Term, Sub) of
+ no -> #c_literal{val=false};
+ yes -> #c_literal{val=true};
+ maybe -> Call
+ end.
%% eval_length(Call, List) -> Val.
%% Evaluates the length for the prefix of List which has a known
@@ -1314,20 +949,19 @@ eval_append(Call, X, Y) ->
%% Evaluates element/2 if the position Pos is a literal and
%% the shape of the tuple Tuple is known.
%%
-eval_element(Call, #c_literal{val=Pos}, #c_tuple{es=Es}, _Types) when is_integer(Pos) ->
- if
- 1 =< Pos, Pos =< length(Es) ->
- lists:nth(Pos, Es);
- true ->
- eval_failure(Call, badarg)
- end;
-eval_element(Call, #c_literal{val=Pos}, #c_var{name=V}, Types)
+eval_element(Call, #c_literal{val=Pos}, Tuple, Types)
when is_integer(Pos) ->
- case orddict:find(V, Types#sub.t) of
- {ok,#c_tuple{es=Elements}} ->
+ case get_type(Tuple, Types) of
+ none ->
+ Call;
+ Type ->
+ Es = case cerl:is_c_tuple(Type) of
+ false -> [];
+ true -> cerl:tuple_es(Type)
+ end,
if
- 1 =< Pos, Pos =< length(Elements) ->
- El = lists:nth(Pos, Elements),
+ 1 =< Pos, Pos =< length(Es) ->
+ El = lists:nth(Pos, Es),
try
pat_to_expr(El)
catch
@@ -1335,15 +969,13 @@ eval_element(Call, #c_literal{val=Pos}, #c_var{name=V}, Types)
Call
end;
true ->
+ %% Index outside tuple or not a tuple.
eval_failure(Call, badarg)
- end;
- {ok,_} ->
- eval_failure(Call, badarg);
- error ->
- Call
+ end
end;
-eval_element(Call, Pos, Tuple, _Types) ->
- case is_not_integer(Pos) orelse is_not_tuple(Tuple) of
+eval_element(Call, Pos, Tuple, Sub) ->
+ case is_int_type(Pos, Sub) =:= no orelse
+ is_tuple_type(Tuple, Sub) =:= no of
true ->
eval_failure(Call, badarg);
false ->
@@ -1353,32 +985,27 @@ eval_element(Call, Pos, Tuple, _Types) ->
%% eval_is_record(Call, Var, Tag, Size, Types) -> Val.
%% Evaluates is_record/3 using type information.
%%
-eval_is_record(Call, #c_var{name=V}, #c_literal{val=NeededTag}=Lit,
+eval_is_record(Call, Term, #c_literal{val=NeededTag},
#c_literal{val=Size}, Types) ->
- case orddict:find(V, Types#sub.t) of
- {ok,#c_tuple{es=[#c_literal{val=Tag}|_]=Es}} ->
- Lit#c_literal{val=Tag =:= NeededTag andalso
- length(Es) =:= Size};
- _ ->
- Call
+ case get_type(Term, Types) of
+ none ->
+ Call;
+ Type ->
+ Es = case cerl:is_c_tuple(Type) of
+ false -> [];
+ true -> cerl:tuple_es(Type)
+ end,
+ case Es of
+ [#c_literal{val=Tag}|_] ->
+ Bool = Tag =:= NeededTag andalso
+ length(Es) =:= Size,
+ #c_literal{val=Bool};
+ _ ->
+ #c_literal{val=false}
+ end
end;
eval_is_record(Call, _, _, _, _) -> Call.
-%% is_not_integer(Core) -> true | false.
-%% Returns true if Core is definitely not an integer.
-
-is_not_integer(#c_literal{val=Val}) when not is_integer(Val) -> true;
-is_not_integer(#c_tuple{}) -> true;
-is_not_integer(#c_cons{}) -> true;
-is_not_integer(_) -> false.
-
-%% is_not_tuple(Core) -> true | false.
-%% Returns true if Core is definitely not a tuple.
-
-is_not_tuple(#c_literal{val=Val}) when not is_tuple(Val) -> true;
-is_not_tuple(#c_cons{}) -> true;
-is_not_tuple(_) -> false.
-
%% eval_setelement(Call, Pos, Tuple, NewVal) -> Core.
%% Evaluates setelement/3 if position Pos is an integer
%% the shape of the tuple Tuple is known.
@@ -1482,7 +1109,7 @@ clause(#c_clause{pats=Ps0,guard=G0,body=B0}=Cl, Cexpr, Ctxt, Sub0) ->
let_substs(Vs0, As0, Sub0) ->
{Vs1,Sub1} = pattern_list(Vs0, Sub0),
{Vs2,As1,Ss} = let_substs_1(Vs1, As0, Sub1),
- Sub2 = scope_add([V || #c_var{name=V} <- Vs2], Sub1),
+ Sub2 = sub_add_scope([V || #c_var{name=V} <- Vs2], Sub1),
{Vs2,As1,
foldl(fun ({V,S}, Sub) -> sub_set_name(V, S, Sub) end, Sub2, Ss)}.
@@ -1517,7 +1144,7 @@ pattern(#c_var{}=Pat, Isub, Osub) ->
true ->
V1 = make_var_name(),
Pat1 = #c_var{name=V1},
- {Pat1,sub_set_var(Pat, Pat1, scope_add([V1], Osub))};
+ {Pat1,sub_set_var(Pat, Pat1, sub_add_scope([V1], Osub))};
false ->
{Pat,sub_del_var(Pat, Osub)}
end;
@@ -1587,6 +1214,7 @@ is_subst(_) -> false.
%% sub_del_var(Var, #sub{}) -> #sub{}.
%% sub_subst_var(Var, Value, #sub{}) -> [{Name,Value}].
%% sub_is_val(Var, #sub{}) -> boolean().
+%% sub_add_scope(#sub{}) -> #sub{}
%% sub_subst_scope(#sub{}) -> #sub{}
%%
%% We use the variable name as key so as not have problems with
@@ -1597,9 +1225,10 @@ is_subst(_) -> false.
%% In addition to the list of substitutions, we also keep track of
%% all variable currently live (the scope).
%%
-%% sub_subst_scope/1 adds dummy substitutions for all variables
-%% in the scope in order to force renaming if variables in the
-%% scope occurs as pattern variables.
+%% sub_add_scope/2 adds variables to the scope. sub_subst_scope/1
+%% adds dummy substitutions for all variables in the scope in order
+%% to force renaming if variables in the scope occurs as pattern
+%% variables.
sub_new() -> #sub{v=orddict:new(),s=gb_trees:empty(),t=[]}.
@@ -1639,6 +1268,12 @@ sub_subst_var(#c_var{name=V}, Val, #sub{v=S0}) ->
%% Fold chained substitutions.
[{V,Val}] ++ [ {K,Val} || {K,#c_var{name=V1}} <- S0, V1 =:= V].
+sub_add_scope(Vs, #sub{s=Scope0}=Sub) ->
+ Scope = foldl(fun(V, S) when is_integer(V); is_atom(V) ->
+ gb_sets:add(V, S)
+ end, Scope0, Vs),
+ Sub#sub{s=Scope}.
+
sub_subst_scope(#sub{v=S0,s=Scope}=Sub) ->
S = [{-1,#c_var{name=Sv}} || Sv <- gb_sets:to_list(Scope)]++S0,
Sub#sub{v=S}.
@@ -1686,7 +1321,7 @@ clauses(E, [C0|Cs], Ctxt, Sub, LitExpr) ->
{yes,yes} ->
case LitExpr of
false ->
- Line = get_line(core_lib:get_anno(C1)),
+ Line = get_line(cerl:get_ann(C1)),
shadow_warning(Cs, Line);
true ->
%% If the case expression is a literal,
@@ -1920,7 +1555,7 @@ opt_bool_case_guard(#c_case{arg=Arg,clauses=Cs0}=Case) ->
Case;
true ->
Cs = opt_bool_case_guard(Arg, Cs0),
- Case#c_case{arg=#c_values{anno=core_lib:get_anno(Arg),es=[]},
+ Case#c_case{arg=#c_values{anno=cerl:get_ann(Arg),es=[]},
clauses=Cs}
end.
@@ -2394,11 +2029,8 @@ is_bool_expr(#c_let{vars=[V],arg=Arg,body=B}, Sub0) ->
is_bool_expr(#c_let{body=B}, Sub) ->
%% Binding of multiple variables.
is_bool_expr(B, Sub);
-is_bool_expr(#c_literal{val=Bool}, _) when is_boolean(Bool) ->
- true;
-is_bool_expr(#c_var{name=V}, Sub) ->
- is_boolean_type(V, Sub);
-is_bool_expr(_, _) -> false.
+is_bool_expr(C, Sub) ->
+ is_boolean_type(C, Sub) =:= yes.
is_bool_expr_list([C|Cs], Sub) ->
is_bool_expr(C, Sub) andalso is_bool_expr_list(Cs, Sub);
@@ -2612,12 +2244,6 @@ move_let_into_expr(_Let, _Expr, _Sub) -> impossible.
is_failing_clause(#c_clause{body=B}) ->
will_fail(B).
-scope_add(Vs, #sub{s=Scope0}=Sub) ->
- Scope = foldl(fun(V, S) when is_integer(V); is_atom(V) ->
- gb_sets:add(V, S)
- end, Scope0, Vs),
- Sub#sub{s=Scope}.
-
%% opt_simple_let(#c_let{}, Context, Sub) -> CoreTerm
%% Optimize a let construct that does not contain any lets in
%% in its argument.
@@ -2646,31 +2272,7 @@ opt_simple_let_1(#c_let{vars=Vs0,body=B0}=Let, Arg0, Ctxt, Sub0) ->
Arg = core_lib:make_values(Args),
opt_simple_let_2(Let, Vs, Arg, B, Ctxt, Sub1).
-opt_simple_let_2(Let0, Vs0, Arg0, Body0, effect, Sub) ->
- case {Vs0,Arg0,Body0} of
- {[],#c_values{es=[]},Body} ->
- %% No variables left (because of substitutions).
- Body;
- {[_|_],Arg,#c_literal{}} ->
- %% The body is a literal. That means that we can ignore
- %% it and that the return value is Arg revisited in
- %% effect context.
- body(Arg, effect, sub_new_preserve_types(Sub));
- {Vs,Arg,Body} ->
- %% Since we are in effect context, there is a chance
- %% that the body no longer references the variables.
- %% In that case we can construct a sequence and visit
- %% that in effect context:
- %% let <Var> = Arg in BodyWithoutVar ==> seq Arg BodyWithoutVar
- case is_any_var_used(Vs, Body) of
- false ->
- expr(#c_seq{arg=Arg,body=Body}, effect, sub_new_preserve_types(Sub));
- true ->
- Let = Let0#c_let{vars=Vs,arg=Arg,body=Body},
- opt_case_in_let_arg(opt_case_in_let(Let, Sub), effect, Sub)
- end
- end;
-opt_simple_let_2(Let0, Vs0, Arg0, Body, value, Sub) ->
+opt_simple_let_2(Let0, Vs0, Arg0, Body, Ctxt, Sub) ->
case {Vs0,Arg0,Body} of
{[#c_var{name=N1}],Arg,#c_var{name=N2}} ->
case N1 =:= N2 of
@@ -2679,26 +2281,30 @@ opt_simple_let_2(Let0, Vs0, Arg0, Body, value, Sub) ->
Arg;
false ->
%% let <Var> = Arg in <OtherVar> ==> seq Arg OtherVar
- expr(#c_seq{arg=Arg,body=Body}, value, sub_new_preserve_types(Sub))
+ expr(#c_seq{arg=Arg,body=Body}, Ctxt,
+ sub_new_preserve_types(Sub))
end;
{[],#c_values{es=[]},_} ->
%% No variables left.
Body;
{_,Arg,#c_literal{}} ->
- %% The variable is not used in the body. The argument
- %% can be evaluated in effect context to simplify it.
- expr(#c_seq{arg=Arg,body=Body}, value, sub_new_preserve_types(Sub));
- {Vs,Arg,Body} ->
- %% If none of the variables are used in the body, we can rewrite the
+ %% Since the variable is not used in the body, we can rewrite the
%% let to a sequence:
- %% let <Var> = Arg in BodyWithoutVar ==> seq Arg BodyWithoutVar
+ %% let <Var> = Arg in Literal ==> seq Arg Literal
+ expr(#c_seq{arg=Arg,body=Body}, Ctxt, sub_new_preserve_types(Sub));
+ {Vs,Arg,Body} ->
+ %% If none of the variables are used in the body, we can
+ %% rewrite the let to a sequence:
+ %% let <Var> = Arg in BodyWithoutVar ==>
+ %% seq Arg BodyWithoutVar
case is_any_var_used(Vs, Body) of
false ->
- expr(#c_seq{arg=Arg,body=Body}, value,
+ expr(#c_seq{arg=Arg,body=Body}, Ctxt,
sub_new_preserve_types(Sub));
true ->
- Let = Let0#c_let{vars=Vs,arg=Arg,body=Body},
- opt_case_in_let_arg(opt_case_in_let(Let, Sub), value, Sub)
+ Let1 = Let0#c_let{vars=Vs,arg=Arg,body=Body},
+ Let2 = opt_case_in_let(Let1, Sub),
+ opt_case_in_let_arg(Let2, Ctxt, Sub)
end
end.
@@ -2822,12 +2428,61 @@ is_any_var_used([#c_var{name=V}|Vs], Expr) ->
end;
is_any_var_used([], _) -> false.
-is_boolean_type(V, #sub{t=Tdb}) ->
+%%%
+%%% Retrieving information about types.
+%%%
+
+-spec get_type(cerl:cerl(), #sub{}) -> type_info() | 'none'.
+
+get_type(#c_var{name=V}, #sub{t=Tdb}) ->
case orddict:find(V, Tdb) of
- {ok,bool} -> true;
- _ -> false
+ {ok,Type} -> Type;
+ error -> none
+ end;
+get_type(C, _) ->
+ case cerl:type(C) of
+ binary -> C;
+ map -> C;
+ _ ->
+ case cerl:is_data(C) of
+ true -> C;
+ false -> none
+ end
+ end.
+
+-spec is_boolean_type(cerl:cerl(), sub()) -> yes_no_maybe().
+
+is_boolean_type(Var, Sub) ->
+ case get_type(Var, Sub) of
+ none ->
+ maybe;
+ bool ->
+ yes;
+ C ->
+ B = cerl:is_c_atom(C) andalso
+ is_boolean(cerl:atom_val(C)),
+ yes_no(B)
+ end.
+
+-spec is_int_type(cerl:cerl(), sub()) -> yes_no_maybe().
+
+is_int_type(Var, Sub) ->
+ case get_type(Var, Sub) of
+ none -> maybe;
+ C -> yes_no(cerl:is_c_int(C))
end.
+-spec is_tuple_type(cerl:cerl(), sub()) -> yes_no_maybe().
+
+is_tuple_type(Var, Sub) ->
+ case get_type(Var, Sub) of
+ none -> maybe;
+ C -> yes_no(cerl:is_c_tuple(C))
+ end.
+
+yes_no(true) -> yes;
+yes_no(false) -> no.
+
%% update_types(Expr, Pattern, Sub) -> Sub'
%% Update the type database.
update_types(Expr, Pat, #sub{t=Tdb0}=Sub) ->
@@ -3153,7 +2808,7 @@ add_warning(Core, Term) ->
true ->
ok;
false ->
- Anno = core_lib:get_anno(Core),
+ Anno = cerl:get_ann(Core),
Line = get_line(Anno),
File = get_file(Anno),
Key = {?MODULE,warnings},
diff --git a/lib/compiler/src/sys_core_fold_lists.erl b/lib/compiler/src/sys_core_fold_lists.erl
new file mode 100644
index 0000000000..49dc59052a
--- /dev/null
+++ b/lib/compiler/src/sys_core_fold_lists.erl
@@ -0,0 +1,386 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2015. 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%
+%%
+%% Purpose : Inline high order lists functions from the lists module.
+
+-module(sys_core_fold_lists).
+
+-export([call/4]).
+
+-include("core_parse.hrl").
+
+%% We inline some very common higher order list operations.
+%% We use the same evaluation order as the library function.
+
+-spec call(cerl:c_call(), atom(), atom(), [cerl:cerl()]) ->
+ 'none' | cerl:cerl().
+
+call(#c_call{anno=Anno}, lists, all, [Arg1,Arg2]) ->
+ Loop = #c_var{name={'lists^all',1}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ Err1 = #c_tuple{es=[#c_literal{val='case_clause'}, X]},
+ CC1 = #c_clause{pats=[#c_literal{val=true}], guard=#c_literal{val=true},
+ body=#c_apply{anno=Anno, op=Loop, args=[Xs]}},
+ CC2 = #c_clause{pats=[#c_literal{val=false}], guard=#c_literal{val=true},
+ body=#c_literal{val=false}},
+ CC3 = #c_clause{pats=[X], guard=#c_literal{val=true},
+ body=match_fail(Anno, Err1)},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_case{arg=#c_apply{anno=Anno, op=F, args=[X]},
+ clauses = [CC1, CC2, CC3]}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=1}]},
+ body=#c_literal{val=true}},
+ Err2 = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^all',1}}|Anno], Err2)},
+ Fun = #c_fun{vars=[Xs],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L]}}};
+call(#c_call{anno=Anno}, lists, any, [Arg1,Arg2]) ->
+ Loop = #c_var{name={'lists^any',1}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ Err1 = #c_tuple{es=[#c_literal{val='case_clause'}, X]},
+ CC1 = #c_clause{pats=[#c_literal{val=true}], guard=#c_literal{val=true},
+ body=#c_literal{val=true}},
+ CC2 = #c_clause{pats=[#c_literal{val=false}], guard=#c_literal{val=true},
+ body=#c_apply{anno=Anno, op=Loop, args=[Xs]}},
+ CC3 = #c_clause{pats=[X], guard=#c_literal{val=true},
+ body=match_fail(Anno, Err1)},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_case{arg=#c_apply{anno=Anno, op=F, args=[X]},
+ clauses = [CC1, CC2, CC3]}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=1}]},
+ body=#c_literal{val=false}},
+ Err2 = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^any',1}}|Anno], Err2)},
+ Fun = #c_fun{vars=[Xs],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L]}}};
+call(#c_call{anno=Anno}, lists, foreach, [Arg1,Arg2]) ->
+ Loop = #c_var{name={'lists^foreach',1}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_seq{arg=#c_apply{anno=Anno, op=F, args=[X]},
+ body=#c_apply{anno=Anno, op=Loop, args=[Xs]}}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=1}]},
+ body=#c_literal{val=ok}},
+ Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^foreach',1}}|Anno], Err)},
+ Fun = #c_fun{vars=[Xs],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L]}}};
+call(#c_call{anno=Anno}, lists, map, [Arg1,Arg2]) ->
+ Loop = #c_var{name={'lists^map',1}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ H = #c_var{name='H'},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_let{vars=[H], arg=#c_apply{anno=Anno,
+ op=F,
+ args=[X]},
+ body=#c_cons{hd=H,
+ anno=[compiler_generated],
+ tl=#c_apply{anno=Anno,
+ op=Loop,
+ args=[Xs]}}}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=1}]},
+ body=#c_literal{val=[]}},
+ Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^map',1}}|Anno], Err)},
+ Fun = #c_fun{vars=[Xs],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L]}}};
+call(#c_call{anno=Anno}, lists, flatmap, [Arg1,Arg2]) ->
+ Loop = #c_var{name={'lists^flatmap',1}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ H = #c_var{name='H'},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_let{vars=[H],
+ arg=#c_apply{anno=Anno, op=F, args=[X]},
+ body=#c_call{anno=[compiler_generated|Anno],
+ module=#c_literal{val=erlang},
+ name=#c_literal{val='++'},
+ args=[H,
+ #c_apply{anno=Anno,
+ op=Loop,
+ args=[Xs]}]}}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=1}]},
+ body=#c_literal{val=[]}},
+ Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^flatmap',1}}|Anno], Err)},
+ Fun = #c_fun{vars=[Xs],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L]}}};
+call(#c_call{anno=Anno}, lists, filter, [Arg1,Arg2]) ->
+ Loop = #c_var{name={'lists^filter',1}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ B = #c_var{name='B'},
+ Err1 = #c_tuple{es=[#c_literal{val='case_clause'}, X]},
+ CC1 = #c_clause{pats=[#c_literal{val=true}], guard=#c_literal{val=true},
+ body=#c_cons{anno=[compiler_generated], hd=X, tl=Xs}},
+ CC2 = #c_clause{pats=[#c_literal{val=false}], guard=#c_literal{val=true},
+ body=Xs},
+ CC3 = #c_clause{pats=[X], guard=#c_literal{val=true},
+ body=match_fail(Anno, Err1)},
+ Case = #c_case{arg=B, clauses = [CC1, CC2, CC3]},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_let{vars=[B],
+ arg=#c_apply{anno=Anno, op=F, args=[X]},
+ body=#c_let{vars=[Xs],
+ arg=#c_apply{anno=Anno,
+ op=Loop,
+ args=[Xs]},
+ body=Case}}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=1}]},
+ body=#c_literal{val=[]}},
+ Err2 = #c_tuple{es=[#c_literal{val='function_clause'}, F, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^filter',1}}|Anno], Err2)},
+ Fun = #c_fun{vars=[Xs],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, L], arg=#c_values{es=[Arg1, Arg2]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L]}}};
+call(#c_call{anno=Anno}, lists, foldl, [Arg1,Arg2,Arg3]) ->
+ Loop = #c_var{name={'lists^foldl',2}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ A = #c_var{name='A'},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_apply{anno=Anno,
+ op=Loop,
+ args=[Xs, #c_apply{anno=Anno,
+ op=F,
+ args=[X, A]}]}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=2}]},
+ body=A},
+ Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, A, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^foldl',2}}|Anno], Err)},
+ Fun = #c_fun{vars=[Xs, A],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, A, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L, A]}}};
+call(#c_call{anno=Anno}, lists, foldr, [Arg1,Arg2,Arg3]) ->
+ Loop = #c_var{name={'lists^foldr',2}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ A = #c_var{name='A'},
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=#c_apply{anno=Anno,
+ op=F,
+ args=[X, #c_apply{anno=Anno,
+ op=Loop,
+ args=[Xs, A]}]}},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=2}]},
+ body=A},
+ Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, A, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^foldr',2}}|Anno], Err)},
+ Fun = #c_fun{vars=[Xs, A],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, A, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+ body=#c_apply{anno=Anno, op=Loop, args=[L, A]}}};
+call(#c_call{anno=Anno}, lists, mapfoldl, [Arg1,Arg2,Arg3]) ->
+ Loop = #c_var{name={'lists^mapfoldl',2}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ Avar = #c_var{name='A'},
+ Match =
+ fun (A, P, E) ->
+ C1 = #c_clause{pats=[P], guard=#c_literal{val=true}, body=E},
+ Err = #c_tuple{es=[#c_literal{val='badmatch'}, X]},
+ C2 = #c_clause{pats=[X], guard=#c_literal{val=true},
+ body=match_fail(Anno, Err)},
+ #c_case{arg=A, clauses=[C1, C2]}
+ end,
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+ body=Match(#c_apply{anno=Anno, op=F, args=[X, Avar]},
+ #c_tuple{es=[X, Avar]},
+%%% Tuple passing version
+ Match(#c_apply{anno=Anno,
+ op=Loop,
+ args=[Xs, Avar]},
+ #c_tuple{es=[Xs, Avar]},
+ #c_tuple{anno=[compiler_generated],
+ es=[#c_cons{anno=[compiler_generated],
+ hd=X, tl=Xs},
+ Avar]})
+%%% Multiple-value version
+%%% #c_let{vars=[Xs,A],
+%%% %% The tuple here will be optimised
+%%% %% away later; no worries.
+%%% arg=#c_apply{op=Loop, args=[Xs, A]},
+%%% body=#c_values{es=[#c_cons{hd=X, tl=Xs},
+%%% A]}}
+ )},
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=2}]},
+%%% Tuple passing version
+ body=#c_tuple{anno=[compiler_generated],
+ es=[#c_literal{val=[]}, Avar]}},
+%%% Multiple-value version
+%%% body=#c_values{es=[#c_literal{val=[]}, A]}},
+ Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Avar, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^mapfoldl',2}}|Anno], Err)},
+ Fun = #c_fun{vars=[Xs, Avar],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, Avar, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+%%% Tuple passing version
+ body=#c_apply{anno=Anno,
+ op=Loop,
+ args=[L, Avar]}}};
+%%% Multiple-value version
+%%% body=#c_let{vars=[Xs, A],
+%%% arg=#c_apply{op=Loop,
+%%% args=[L, A]},
+%%% body=#c_tuple{es=[Xs, A]}}}};
+call(#c_call{anno=Anno}, lists, mapfoldr, [Arg1,Arg2,Arg3]) ->
+ Loop = #c_var{name={'lists^mapfoldr',2}},
+ F = #c_var{name='F'},
+ Xs = #c_var{name='Xs'},
+ X = #c_var{name='X'},
+ Avar = #c_var{name='A'},
+ Match =
+ fun (A, P, E) ->
+ C1 = #c_clause{pats=[P], guard=#c_literal{val=true}, body=E},
+ Err = #c_tuple{es=[#c_literal{val='badmatch'}, X]},
+ C2 = #c_clause{pats=[X], guard=#c_literal{val=true},
+ body=match_fail(Anno, Err)},
+ #c_case{arg=A, clauses=[C1, C2]}
+ end,
+ C1 = #c_clause{pats=[#c_cons{hd=X, tl=Xs}], guard=#c_literal{val=true},
+%%% Tuple passing version
+ body=Match(#c_apply{anno=Anno,
+ op=Loop,
+ args=[Xs, Avar]},
+ #c_tuple{es=[Xs, Avar]},
+ Match(#c_apply{anno=Anno, op=F, args=[X, Avar]},
+ #c_tuple{es=[X, Avar]},
+ #c_tuple{anno=[compiler_generated],
+ es=[#c_cons{anno=[compiler_generated],
+ hd=X, tl=Xs}, Avar]}))
+%%% Multiple-value version
+%%% body=#c_let{vars=[Xs,A],
+%%% %% The tuple will be optimised away
+%%% arg=#c_apply{op=Loop, args=[Xs, A]},
+%%% body=Match(#c_apply{op=F, args=[X, A]},
+%%% #c_tuple{es=[X, A]},
+%%% #c_values{es=[#c_cons{hd=X, tl=Xs},
+%%% A]})}
+ },
+ C2 = #c_clause{pats=[#c_literal{val=[]}],
+ guard=#c_call{module=#c_literal{val=erlang},
+ name=#c_literal{val=is_function},
+ args=[F, #c_literal{val=2}]},
+%%% Tuple passing version
+ body=#c_tuple{anno=[compiler_generated],
+ es=[#c_literal{val=[]}, Avar]}},
+%%% Multiple-value version
+%%% body=#c_values{es=[#c_literal{val=[]}, A]}},
+ Err = #c_tuple{es=[#c_literal{val='function_clause'}, F, Avar, Xs]},
+ C3 = #c_clause{pats=[Xs], guard=#c_literal{val=true},
+ body=match_fail([{function_name,{'lists^mapfoldr',2}}|Anno], Err)},
+ Fun = #c_fun{vars=[Xs, Avar],
+ body=#c_case{arg=Xs, clauses=[C1, C2, C3]}},
+ L = #c_var{name='L'},
+ #c_let{vars=[F, Avar, L], arg=#c_values{es=[Arg1, Arg2, Arg3]},
+ body=#c_letrec{defs=[{Loop,Fun}],
+%%% Tuple passing version
+ body=#c_apply{anno=Anno,
+ op=Loop,
+ args=[L, Avar]}}};
+%%% Multiple-value version
+%%% body=#c_let{vars=[Xs, A],
+%%% arg=#c_apply{op=Loop,
+%%% args=[L, A]},
+%%% body=#c_tuple{es=[Xs, A]}}}};
+call(_, _, _, _) ->
+ none.
+
+match_fail(Ann, Arg) ->
+ Name = cerl:abstract(match_fail),
+ Args = [Arg],
+ cerl:ann_c_primop(Ann, Name, Args).
diff --git a/lib/compiler/src/sys_core_inline.erl b/lib/compiler/src/sys_core_inline.erl
index 9f93acb666..1e3a735e9b 100644
--- a/lib/compiler/src/sys_core_inline.erl
+++ b/lib/compiler/src/sys_core_inline.erl
@@ -195,10 +195,10 @@ kill_id_anns(Body) ->
A = kill_id_anns_1(A0),
CFun#c_fun{anno=A};
(Expr) ->
- %% Mark everything as compiler generated to suppress
- %% bogus warnings.
- A = compiler_generated(core_lib:get_anno(Expr)),
- core_lib:set_anno(Expr, A)
+ %% Mark everything as compiler generated to
+ %% suppress bogus warnings.
+ A = compiler_generated(cerl:get_ann(Expr)),
+ cerl:set_ann(Expr, A)
end, Body).
kill_id_anns_1([{'id',_}|As]) ->
diff --git a/lib/compiler/src/v3_core.erl b/lib/compiler/src/v3_core.erl
index f0b90ff31c..9dd6b319a3 100644
--- a/lib/compiler/src/v3_core.erl
+++ b/lib/compiler/src/v3_core.erl
@@ -66,6 +66,7 @@
%% match arguments are novars
%% case arguments are novars
%% receive timeouts are novars
+%% binaries and maps are novars
%% let/set arguments are expressions
%% fun is not a safe
@@ -107,6 +108,7 @@
-record(ifilter, {anno=#a{},arg}).
-record(igen, {anno=#a{},ceps=[],acc_pat,acc_guard,
skip_pat,tail,tail_pat,arg}).
+-record(isimple, {anno=#a{},term :: cerl:cerl()}).
-type iapply() :: #iapply{}.
-type ibinary() :: #ibinary{}.
@@ -125,11 +127,12 @@
-type itry() :: #itry{}.
-type ifilter() :: #ifilter{}.
-type igen() :: #igen{}.
+-type isimple() :: #isimple{}.
-type i() :: iapply() | ibinary() | icall() | icase() | icatch()
| iclause() | ifun() | iletrec() | imatch() | iprimop()
| iprotect() | ireceive1() | ireceive2() | iset() | itry()
- | ifilter() | igen().
+ | ifilter() | igen() | isimple().
-type warning() :: {file:filename(), [{integer(), module(), term()}]}.
@@ -288,13 +291,15 @@ gexpr({protect,Line,Arg}, Bools0, St0) ->
{#iprotect{anno=#a{anno=Anno},body=Eps++[E]},[],Bools0,St}
end;
gexpr({op,L,'andalso',E1,E2}, Bools, St0) ->
- {#c_var{name=V0},St} = new_var(L, St0),
+ Anno = lineno_anno(L, St0),
+ {#c_var{name=V0},St} = new_var(Anno, St0),
V = {var,L,V0},
False = {atom,L,false},
E = make_bool_switch_guard(L, E1, V, E2, False),
gexpr(E, Bools, St);
gexpr({op,L,'orelse',E1,E2}, Bools, St0) ->
- {#c_var{name=V0},St} = new_var(L, St0),
+ Anno = lineno_anno(L, St0),
+ {#c_var{name=V0},St} = new_var(Anno, St0),
V = {var,L,V0},
True = {atom,L,true},
E = make_bool_switch_guard(L, E1, V, True, E2),
@@ -383,33 +388,30 @@ gexpr_test(E0, Bools0, St0) ->
Lanno = Anno#a.anno,
{New,St2} = new_var(Lanno, St1),
Bools = [New|Bools0],
- {#icall{anno=Anno, %Must have an #a{}
- module=#c_literal{anno=Lanno,val=erlang},
- name=#c_literal{anno=Lanno,val='=:='},
- args=[New,#c_literal{anno=Lanno,val=true}]},
+ {icall_eq_true(New),
Eps0 ++ [#iset{anno=Anno,var=New,arg=E1}],Bools,St2}
end;
_ ->
- Anno = get_ianno(E1),
Lanno = get_lineno_anno(E1),
+ ACompGen = #a{anno=[compiler_generated]},
case is_simple(E1) of
true ->
Bools = [E1|Bools0],
- {#icall{anno=Anno, %Must have an #a{}
- module=#c_literal{anno=Lanno,val=erlang},
- name=#c_literal{anno=Lanno,val='=:='},
- args=[E1,#c_literal{anno=Lanno,val=true}]},Eps0,Bools,St1};
+ {icall_eq_true(E1),Eps0,Bools,St1};
false ->
{New,St2} = new_var(Lanno, St1),
Bools = [New|Bools0],
- {#icall{anno=Anno, %Must have an #a{}
- module=#c_literal{anno=Lanno,val=erlang},
- name=#c_literal{anno=Lanno,val='=:='},
- args=[New,#c_literal{anno=Lanno,val=true}]},
- Eps0 ++ [#iset{anno=Anno,var=New,arg=E1}],Bools,St2}
+ {icall_eq_true(New),
+ Eps0 ++ [#iset{anno=ACompGen,var=New,arg=E1}],Bools,St2}
end
end.
+icall_eq_true(Arg) ->
+ #icall{anno=#a{anno=[compiler_generated]},
+ module=#c_literal{val=erlang},
+ name=#c_literal{val='=:='},
+ args=[Arg,#c_literal{val=true}]}.
+
force_booleans(Vs0, E, Eps, St) ->
Vs1 = [set_anno(V, []) || V <- Vs0],
Vs = unforce(E, Eps, Vs1),
@@ -419,16 +421,15 @@ force_booleans_1([], E, Eps, St) ->
{E,Eps,St};
force_booleans_1([V|Vs], E0, Eps0, St0) ->
{E1,Eps1,St1} = force_safe(E0, St0),
- Lanno = element(2, V),
- Anno = #a{anno=Lanno},
- Call = #icall{anno=Anno,module=#c_literal{anno=Lanno,val=erlang},
- name=#c_literal{anno=Lanno,val=is_boolean},
+ ACompGen = #a{anno=[compiler_generated]},
+ Call = #icall{anno=ACompGen,module=#c_literal{val=erlang},
+ name=#c_literal{val=is_boolean},
args=[V]},
- {New,St} = new_var(Lanno, St1),
- Iset = #iset{anno=Anno,var=New,arg=Call},
+ {New,St} = new_var([], St1),
+ Iset = #iset{var=New,arg=Call},
Eps = Eps0 ++ Eps1 ++ [Iset],
- E = #icall{anno=Anno,
- module=#c_literal{anno=Lanno,val=erlang},name=#c_literal{anno=Lanno,val='and'},
+ E = #icall{anno=ACompGen,
+ module=#c_literal{val=erlang},name=#c_literal{val='and'},
args=[E1,New]},
force_booleans_1(Vs, E, Eps, St).
@@ -530,7 +531,7 @@ expr({lc,L,E,Qs0}, St0) ->
{Qs1,St1} = preprocess_quals(L, Qs0, St0),
lc_tq(L, E, Qs1, #c_literal{anno=lineno_anno(L, St1),val=[]}, St1);
expr({bc,L,E,Qs}, St) ->
- bc_tq(L, E, Qs, {nil,L}, St);
+ bc_tq(L, E, Qs, St);
expr({tuple,L,Es0}, St0) ->
{Es1,Eps,St1} = safe_list(Es0, St0),
A = record_anno(L, St1),
@@ -707,13 +708,15 @@ expr({op,_,'++',{lc,Llc,E,Qs0},More}, St0) ->
{Y,Yps,St} = lc_tq(Llc, E, Qs, Mc, St2),
{Y,Mps++Yps,St};
expr({op,L,'andalso',E1,E2}, St0) ->
- {#c_var{name=V0},St} = new_var(L, St0),
+ Anno = lineno_anno(L, St0),
+ {#c_var{name=V0},St} = new_var(Anno, St0),
V = {var,L,V0},
False = {atom,L,false},
E = make_bool_switch(L, E1, V, E2, False, St0),
expr(E, St);
expr({op,L,'orelse',E1,E2}, St0) ->
- {#c_var{name=V0},St} = new_var(L, St0),
+ Anno = lineno_anno(L, St0),
+ {#c_var{name=V0},St} = new_var(Anno, St0),
V = {var,L,V0},
True = {atom,L,true},
E = make_bool_switch(L, E1, V, True, E2, St0),
@@ -781,15 +784,9 @@ expr_map(M0,Es0,A,St0) ->
false -> throw({bad_map,bad_map})
end.
-map_build_pairs(Map0, Es0, Ann, St0) ->
+map_build_pairs(Map, Es0, Ann, St0) ->
{Es,Pre,St1} = map_build_pairs_1(Es0, St0),
- case ann_c_map(Ann, Map0, Es) of
- #c_literal{}=Map ->
- {Map,[],St1};
- #c_map{}=Map ->
- {Var,St2} = new_var(St1),
- {Var,Pre++[#iset{var=Var,arg=Map}],St2}
- end.
+ {ann_c_map(Ann, Map, Es),Pre,St1}.
map_build_pairs_1([{Op0,L,K0,V0}|Es], St0) ->
{K,Pre0,St1} = safe(K0, St0),
@@ -1027,7 +1024,7 @@ lc_tq(Line, E0, [], Mc0, St0) ->
%% This TQ from Gustafsson ERLANG'05.
%% More could be transformed before calling bc_tq.
-bc_tq(Line, Exp, Qs0, _, St0) ->
+bc_tq(Line, Exp, Qs0, St0) ->
{BinVar,St1} = new_var(St0),
{Sz,SzPre,St2} = bc_initial_size(Exp, Qs0, St1),
{Qs,St3} = preprocess_quals(Line, Qs0, St2),
@@ -1484,6 +1481,7 @@ force_novars(#iapply{}=App, St) -> {App,[],St};
force_novars(#icall{}=Call, St) -> {Call,[],St};
force_novars(#ifun{}=Fun, St) -> {Fun,[],St}; %These are novars too
force_novars(#ibinary{}=Bin, St) -> {Bin,[],St};
+force_novars(#c_map{}=Bin, St) -> {Bin,[],St};
force_novars(Ce, St) ->
force_safe(Ce, St).
@@ -1763,7 +1761,7 @@ new_var_name(#core{vcount=C}=St) ->
new_var(St) ->
new_var([], St).
-new_var(Anno, St0) ->
+new_var(Anno, St0) when is_list(Anno) ->
{New,St} = new_var_name(St0),
{#c_var{anno=Anno,name=New},St}.
@@ -1990,11 +1988,11 @@ uexpr(#ibinary{anno=A,segments=Ss}, _, St) ->
uexpr(#c_literal{}=Lit, _, St) ->
Anno = get_anno(Lit),
{set_anno(Lit, #a{us=[],anno=Anno}),St};
-uexpr(Lit, _, St) ->
- true = is_simple(Lit), %Sanity check!
- Vs = lit_vars(Lit),
- Anno = get_anno(Lit),
- {set_anno(Lit, #a{us=Vs,anno=Anno}),St}.
+uexpr(Simple, _, St) ->
+ true = is_simple(Simple), %Sanity check!
+ Vs = lit_vars(Simple),
+ Anno = get_anno(Simple),
+ {#isimple{anno=#a{us=Vs,anno=Anno},term=Simple},St}.
uexpr_list(Les0, Ks, St0) ->
mapfoldl(fun (Le, St) -> uexpr(Le, Ks, St) end, St0, Les0).
@@ -2171,7 +2169,8 @@ cguard(Gs, St0) ->
cexprs([#iset{var=#c_var{name=Name}=Var}=Iset], As, St) ->
%% Make return value explicit, and make Var true top level.
- cexprs([Iset,Var#c_var{anno=#a{us=[Name]}}], As, St);
+ Isimple = #isimple{anno=#a{us=[Name]},term=Var},
+ cexprs([Iset,Isimple], As, St);
cexprs([Le], As, St0) ->
{Ce,Es,Us,St1} = cexpr(Le, As, St0),
Exp = make_vars(As), %The export variables
@@ -2286,12 +2285,9 @@ cexpr(#c_literal{}=Lit, _As, St) ->
Anno = get_anno(Lit),
Vs = Anno#a.us,
{set_anno(Lit, Anno#a.anno),[],Vs,St};
-cexpr(Lit, _As, St) ->
- true = is_simple(Lit), %Sanity check!
- Anno = get_anno(Lit),
- Vs = Anno#a.us,
- %%Vs = lit_vars(Lit),
- {set_anno(Lit, Anno#a.anno),[],Vs,St}.
+cexpr(#isimple{anno=#a{us=Vs},term=Simple}, _As, St) ->
+ true = is_simple(Simple), %Sanity check!
+ {Simple,[],Vs,St}.
cfun(#ifun{anno=A,id=Id,vars=Args,clauses=Lcs,fc=Lfc}, _As, St0) ->
{Ccs,St1} = cclauses(Lcs, [], St0), %NEVER export!
@@ -2314,11 +2310,6 @@ lit_vars(#c_map_pair{key=K,val=V}, Vs) -> lit_vars(K, lit_vars(V, Vs));
lit_vars(#c_var{name=V}, Vs) -> add_element(V, Vs);
lit_vars(_, Vs) -> Vs. %These are atomic
-% lit_bin_vars(Segs, Vs) ->
-% foldl(fun (#c_bitstr{val=V,size=S}, Vs0) ->
-% lit_vars(V, lit_vars(S, Vs0))
-% end, Vs, Segs).
-
lit_list_vars(Ls) -> lit_list_vars(Ls, []).
lit_list_vars(Ls, Vs) ->
diff --git a/lib/compiler/src/v3_kernel.erl b/lib/compiler/src/v3_kernel.erl
index 72e7a39333..08e84efc1b 100644
--- a/lib/compiler/src/v3_kernel.erl
+++ b/lib/compiler/src/v3_kernel.erl
@@ -131,12 +131,12 @@ module(#c_module{anno=A,name=M,exports=Es,attrs=As,defs=Fs}, _Options) ->
{ok,#k_mdef{anno=A,name=M#c_literal.val,exports=Kes,attributes=Kas,
body=Kfs ++ St#kern.funs},lists:sort(St#kern.ws)}.
-attributes([{#c_literal{val=Name},Val}|As]) ->
+attributes([{#c_literal{val=Name},#c_literal{val=Val}}|As]) ->
case include_attribute(Name) of
false ->
attributes(As);
true ->
- [{Name,core_lib:literal_value(Val)}|attributes(As)]
+ [{Name,Val}|attributes(As)]
end;
attributes([]) -> [].
@@ -675,12 +675,12 @@ atomic_bin([#c_bitstr{anno=A,val=E0,size=S0,unit=U0,type=T,flags=Fs0}|Es0],
{E,Ap1,St1} = atomic(E0, Sub, St0),
{S1,Ap2,St2} = atomic(S0, Sub, St1),
validate_bin_element_size(S1),
- U1 = core_lib:literal_value(U0),
- Fs1 = core_lib:literal_value(Fs0),
+ U1 = cerl:concrete(U0),
+ Fs1 = cerl:concrete(Fs0),
{Es,Ap3,St3} = atomic_bin(Es0, Sub, St2),
{#k_bin_seg{anno=A,size=S1,
unit=U1,
- type=core_lib:literal_value(T),
+ type=cerl:concrete(T),
flags=Fs1,
seg=E,next=Es},
Ap1++Ap2++Ap3,St3};
@@ -807,8 +807,8 @@ pattern_bin_1([#c_bitstr{anno=A,val=E0,size=S0,unit=U,type=T,flags=Fs}|Es0],
%% problems.
#k_atom{val=bad_size}
end,
- U0 = core_lib:literal_value(U),
- Fs0 = core_lib:literal_value(Fs),
+ U0 = cerl:concrete(U),
+ Fs0 = cerl:concrete(Fs),
%%ok= io:fwrite("~w: ~p~n", [?LINE,{B0,S,U0,Fs0}]),
{E,Osub1,St2} = pattern(E0, Isub0, Osub0, St1),
Isub1 = case E0 of
@@ -819,7 +819,7 @@ pattern_bin_1([#c_bitstr{anno=A,val=E0,size=S0,unit=U,type=T,flags=Fs}|Es0],
{Es,{Isub,Osub},St3} = pattern_bin_1(Es0, Isub1, Osub1, St2),
{#k_bin_seg{anno=A,size=S,
unit=U0,
- type=core_lib:literal_value(T),
+ type=cerl:concrete(T),
flags=Fs0,
seg=E,next=Es},
{Isub,Osub},St3};
diff --git a/lib/compiler/test/andor_SUITE.erl b/lib/compiler/test/andor_SUITE.erl
index 22aa19522d..3199440d84 100644
--- a/lib/compiler/test/andor_SUITE.erl
+++ b/lib/compiler/test/andor_SUITE.erl
@@ -173,7 +173,13 @@ t_and_or(Config) when is_list(Config) ->
true = (fun (X = true) when X or true or X -> true end)(True),
- ok.
+ Tuple = id({a,b}),
+ case Tuple of
+ {_,_} ->
+ {'EXIT',{badarg,_}} = (catch true and Tuple)
+ end,
+
+ ok.
t_andalso(Config) when is_list(Config) ->
Bs = [true,false],
diff --git a/lib/compiler/test/core_fold_SUITE.erl b/lib/compiler/test/core_fold_SUITE.erl
index 40a5ba2b17..512aada203 100644
--- a/lib/compiler/test/core_fold_SUITE.erl
+++ b/lib/compiler/test/core_fold_SUITE.erl
@@ -197,7 +197,10 @@ foo(A, B, C) ->
A + B + C.
bifs(Config) when is_list(Config) ->
- ?line <<1,2,3,4>> = id(list_to_binary([1,2,3,4])),
+ <<1,2,3,4>> = id(list_to_binary([1,2,3,4])),
+ K = {a,key},
+ V = {a,value},
+ {ok,#{K:=V}} = id(list_to_tuple([ok,#{K=>V}])),
ok.
-define(CMP_SAME(A0, B), (fun(A) -> true = A == B, false = A /= B end)(id(A0))).
@@ -280,6 +283,12 @@ coverage(Config) when is_list(Config) ->
error = bsm_an_inlined(<<1,2,3>>, Config),
error = bsm_an_inlined([], Config),
+ %% Cover eval_rel_op/4.
+ Tuple = id({a,b}),
+ false = case Tuple of
+ {_,_} ->
+ Tuple =:= true
+ end,
ok.
cover_will_match_list_type(A) ->
diff --git a/lib/compiler/test/record_SUITE.erl b/lib/compiler/test/record_SUITE.erl
index f736e14bf6..8cc90026ec 100644
--- a/lib/compiler/test/record_SUITE.erl
+++ b/lib/compiler/test/record_SUITE.erl
@@ -246,6 +246,14 @@ record_test_2(Config) when is_list(Config) ->
?line Barf = update_barf(Barf0),
?line #barf{a="abc",b=1} = id(Barf),
+ %% Test optimization of is_record/3.
+ false = case id({a,b}) of
+ {_,_}=Tuple -> is_record(Tuple, foo)
+ end,
+ false = case id(true) of
+ true=Bool -> is_record(Bool, foo)
+ end,
+
ok.
record_test_3(Config) when is_list(Config) ->
diff --git a/lib/compiler/test/test_lib.erl b/lib/compiler/test/test_lib.erl
index e8f469c5b4..a5e2855f8c 100644
--- a/lib/compiler/test/test_lib.erl
+++ b/lib/compiler/test/test_lib.erl
@@ -18,7 +18,7 @@
%%
-module(test_lib).
--include("test_server.hrl").
+-include_lib("test_server/include/test_server.hrl").
-compile({no_auto_import,[binary_part/2]}).
-export([id/1,recompile/1,parallel/0,uniq/0,opt_opts/1,get_data_dir/1,
smoke_disasm/1,p_run/2,binary_part/2]).
diff --git a/lib/stdlib/src/otp_internal.erl b/lib/stdlib/src/otp_internal.erl
index 0ace87ef5c..4a338798d0 100644
--- a/lib/stdlib/src/otp_internal.erl
+++ b/lib/stdlib/src/otp_internal.erl
@@ -578,6 +578,19 @@ obsolete_1(asn1rt, utf8_binary_to_list, 1) ->
obsolete_1(asn1rt, utf8_list_to_binary, 1) ->
{deprecated,{unicode,characters_to_binary,1}};
+%% Added in OTP 18.
+obsolete_1(core_lib, get_anno, 1) ->
+ {deprecated,{cerl,get_ann,1}};
+obsolete_1(core_lib, set_anno, 2) ->
+ {deprecated,{cerl,set_ann,2}};
+obsolete_1(core_lib, is_literal, 1) ->
+ {deprecated,{cerl,is_literal,1}};
+obsolete_1(core_lib, is_literal_list, 1) ->
+ {deprecated,"deprecated; use lists:all(fun cerl:is_literal/1, L)"
+ " instead"};
+obsolete_1(core_lib, literal_value, 1) ->
+ {deprecated,{core_lib,concrete,1}};
+
obsolete_1(_, _, _) ->
no.