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-rw-r--r--lib/compiler/doc/src/compile.xml11
-rw-r--r--lib/compiler/internal_doc/cerl-notes.md75
-rw-r--r--lib/compiler/src/Makefile13
-rw-r--r--lib/compiler/src/beam_asm.erl39
-rw-r--r--lib/compiler/src/beam_block.erl11
-rw-r--r--lib/compiler/src/beam_clean.erl58
-rw-r--r--lib/compiler/src/beam_jump.erl223
-rw-r--r--lib/compiler/src/beam_listing.erl80
-rw-r--r--lib/compiler/src/beam_peep.erl28
-rw-r--r--lib/compiler/src/beam_receive.erl2
-rw-r--r--lib/compiler/src/beam_utils.erl93
-rw-r--r--lib/compiler/src/cerl_clauses.erl2
-rw-r--r--lib/compiler/src/compile.erl51
-rw-r--r--lib/compiler/src/compiler.app.src4
-rw-r--r--lib/compiler/src/core_pp.erl4
-rw-r--r--lib/compiler/src/core_scan.erl4
-rw-r--r--lib/compiler/src/sys_core_alias.erl308
-rw-r--r--lib/compiler/src/sys_core_fold.erl32
-rw-r--r--lib/compiler/src/v3_codegen.erl1105
-rw-r--r--lib/compiler/src/v3_core.erl45
-rw-r--r--lib/compiler/src/v3_kernel.erl168
-rw-r--r--lib/compiler/src/v3_kernel.hrl2
-rw-r--r--lib/compiler/src/v3_kernel_pp.erl4
-rw-r--r--lib/compiler/src/v3_life.erl468
-rw-r--r--lib/compiler/src/v3_life.hrl29
-rw-r--r--lib/compiler/test/Makefile1
-rw-r--r--lib/compiler/test/bs_match_SUITE.erl19
-rw-r--r--lib/compiler/test/compilation_SUITE_data/opt_crash.erl6
-rw-r--r--lib/compiler/test/compile_SUITE.erl67
-rw-r--r--lib/compiler/test/core_alias_SUITE.erl195
-rw-r--r--lib/compiler/test/core_fold_SUITE.erl28
-rw-r--r--lib/compiler/test/guard_SUITE.erl4
-rw-r--r--lib/compiler/test/match_SUITE.erl64
-rw-r--r--lib/compiler/test/misc_SUITE.erl11
-rw-r--r--lib/compiler/test/trycatch_SUITE.erl6
35 files changed, 2070 insertions, 1190 deletions
diff --git a/lib/compiler/doc/src/compile.xml b/lib/compiler/doc/src/compile.xml
index 10164890f2..b398871ddf 100644
--- a/lib/compiler/doc/src/compile.xml
+++ b/lib/compiler/doc/src/compile.xml
@@ -123,6 +123,17 @@
in the Efficiency Guide.</p>
</item>
+ <tag><c>{compile_info, [{atom(), term()}]}</c></tag>
+ <item>
+ <p>Allows compilers built on top of <c>compile</c> to attach
+ extra compilation metadata to the <c>compile_info</c> chunk
+ in the generated beam file.</p>
+
+ <p>It is advised for compilers to remove all non-deterministic
+ information if the <c>deterministic</c> option is supported and
+ it was supplied by the user.</p>
+ </item>
+
<tag><c>compressed</c></tag>
<item>
<p>The compiler will compress the generated object code,
diff --git a/lib/compiler/internal_doc/cerl-notes.md b/lib/compiler/internal_doc/cerl-notes.md
new file mode 100644
index 0000000000..705fe8f42d
--- /dev/null
+++ b/lib/compiler/internal_doc/cerl-notes.md
@@ -0,0 +1,75 @@
+Some notes on the cerl modules
+==============================
+
+Maps in cerl_clauses:match/3
+----------------------------
+
+Not much optimization is done for maps in `cerl_clauses:match/3`.
+
+The reason is that the inliner (`cerl_inline`) was not designed for
+data types that depend on variables bound in the enclosing environment
+(for example, the keys for maps). If we attempt to extend the
+optimizations for maps similar to the optimizations for the other data
+types, the inliner will crash for certain code. Here is an example of
+code that would crash the inliner:
+
+ t() ->
+ f(key).
+
+ f(K) ->
+ case #{K => value} of
+ #{key := V} -> V
+ end.
+
+The reason for the crash is that the inliner works in several
+passes and calls `cerl_clauses:match/3` twice. The inliner will
+assume that the same result will be returned both times, but
+for this example different bindings will be returned.
+
+Here is the rough outline of what happens:
+
+* The first time `cerl_clauses:match/3` will be asked to match the
+pattern `#{K := V}` against `#{key => value}`. It cannot say more
+than that the pattern *may* match.
+
+* Now the inliner will add the bindings to body of the clause (which
+is simply `V`). In this case, the bindings are still empty, so
+nothing is added.
+
+* The inliner will now do some substitutions and renaming. The
+variable `K` will be replaced with `key`.
+
+* The next time `cerl_clauses:match/3` is called, it will be asked to
+match the pattern `#{key := V}` against `#{key => value#}`. In this
+case, there will be a match and the bindings can be extended with
+`{V,value}`.
+
+* The inliner will see that the entire case can be removed. Only
+the body for the clause needs to be kept.
+
+Thus, after inlining the function `t/0` will look like this:
+
+ t() ->
+ V.
+
+The problem here is that the inliner assumed that the bindings from
+the first and second call to `cer_clauses:match/3` would be the same.
+It used the empty bindings from the first call for the body.
+
+The correct way would be to add the bindings from the second call:
+
+ t() ->
+ let V = value in V.
+
+### How to fix this ###
+
+The inliner will need to call `cerl_clauses:match/3` after doing
+all substitutions and renaming. It is not clear to me how difficult
+that would be. I assume that the inliner is written the way it is
+for a good reason. That means that switching the order things are
+done would lead to correctness and/or performance problems.
+
+### What must also be done to fix this ###
+
+`cerl_inline:make_template/3` must be extended to create a template
+for maps. That is relatively straightforward.
diff --git a/lib/compiler/src/Makefile b/lib/compiler/src/Makefile
index ef6db66ff6..9e96147787 100644
--- a/lib/compiler/src/Makefile
+++ b/lib/compiler/src/Makefile
@@ -83,6 +83,7 @@ MODULES = \
core_scan \
erl_bifs \
rec_env \
+ sys_core_alias \
sys_core_bsm \
sys_core_dsetel \
sys_core_fold \
@@ -92,16 +93,14 @@ MODULES = \
v3_codegen \
v3_core \
v3_kernel \
- v3_kernel_pp \
- v3_life
+ v3_kernel_pp
BEAM_H = $(wildcard ../priv/beam_h/*.h)
HRL_FILES= \
beam_disasm.hrl \
core_parse.hrl \
- v3_kernel.hrl \
- v3_life.hrl
+ v3_kernel.hrl
YRL_FILE = core_parse.yrl
@@ -186,7 +185,7 @@ release_docs_spec:
# ----------------------------------------------------
$(EBIN)/beam_disasm.beam: $(EGEN)/beam_opcodes.hrl beam_disasm.hrl
-$(EBIN)/beam_listing.beam: v3_life.hrl
+$(EBIN)/beam_listing.beam: core_parse.hrl v3_kernel.hrl
$(EBIN)/beam_validator.beam: beam_disasm.hrl
$(EBIN)/cerl.beam: core_parse.hrl
$(EBIN)/compile.beam: core_parse.hrl ../../stdlib/include/erl_compile.hrl
@@ -194,12 +193,12 @@ $(EBIN)/core_lib.beam: core_parse.hrl
$(EBIN)/core_lint.beam: core_parse.hrl
$(EBIN)/core_parse.beam: core_parse.hrl $(EGEN)/core_parse.erl
$(EBIN)/core_pp.beam: core_parse.hrl
+$(EBIN)/sys_core_alias.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)/v3_codegen.beam: v3_life.hrl
+$(EBIN)/v3_codegen.beam: v3_kernel.hrl
$(EBIN)/v3_core.beam: core_parse.hrl
$(EBIN)/v3_kernel.beam: core_parse.hrl v3_kernel.hrl
$(EBIN)/v3_kernel_pp.beam: v3_kernel.hrl
-$(EBIN)/v3_life.beam: v3_kernel.hrl v3_life.hrl
diff --git a/lib/compiler/src/beam_asm.erl b/lib/compiler/src/beam_asm.erl
index f7c838e392..9ecbb7884c 100644
--- a/lib/compiler/src/beam_asm.erl
+++ b/lib/compiler/src/beam_asm.erl
@@ -21,7 +21,7 @@
-module(beam_asm).
--export([module/5]).
+-export([module/4]).
-export([encode/2]).
-export_type([fail/0,label/0,reg/0,src/0,module_code/0,function_name/0]).
@@ -55,20 +55,20 @@
-type module_code() ::
{module(),[_],[_],[asm_function()],pos_integer()}.
--spec module(module_code(), [{binary(), binary()}], [_], [compile:option()], [compile:option()]) ->
+-spec module(module_code(), [{binary(), binary()}], [{atom(),term()}], [compile:option()]) ->
{'ok',binary()}.
-module(Code, ExtraChunks, SourceFile, Opts, CompilerOpts) ->
- {ok,assemble(Code, ExtraChunks, SourceFile, Opts, CompilerOpts)}.
+module(Code, ExtraChunks, CompileInfo, CompilerOpts) ->
+ {ok,assemble(Code, ExtraChunks, CompileInfo, CompilerOpts)}.
-assemble({Mod,Exp0,Attr0,Asm0,NumLabels}, ExtraChunks, SourceFile, Opts, CompilerOpts) ->
+assemble({Mod,Exp0,Attr0,Asm0,NumLabels}, ExtraChunks, CompileInfo, CompilerOpts) ->
{1,Dict0} = beam_dict:atom(Mod, beam_dict:new()),
{0,Dict1} = beam_dict:fname(atom_to_list(Mod) ++ ".erl", Dict0),
NumFuncs = length(Asm0),
{Asm,Attr} = on_load(Asm0, Attr0),
Exp = cerl_sets:from_list(Exp0),
{Code,Dict2} = assemble_1(Asm, Exp, Dict1, []),
- build_file(Code, Attr, Dict2, NumLabels, NumFuncs, ExtraChunks, SourceFile, Opts, CompilerOpts).
+ build_file(Code, Attr, Dict2, NumLabels, NumFuncs, ExtraChunks, CompileInfo, CompilerOpts).
on_load(Fs0, Attr0) ->
case proplists:get_value(on_load, Attr0) of
@@ -111,7 +111,7 @@ assemble_function([H|T], Acc, Dict0) ->
assemble_function([], Code, Dict) ->
{Code, Dict}.
-build_file(Code, Attr, Dict, NumLabels, NumFuncs, ExtraChunks, SourceFile, Opts, CompilerOpts) ->
+build_file(Code, Attr, Dict, NumLabels, NumFuncs, ExtraChunks, CompileInfo, CompilerOpts) ->
%% Create the code chunk.
CodeChunk = chunk(<<"Code">>,
@@ -182,8 +182,7 @@ build_file(Code, Attr, Dict, NumLabels, NumFuncs, ExtraChunks, SourceFile, Opts,
Essentials1 = [iolist_to_binary(C) || C <- Essentials0],
MD5 = module_md5(Essentials1),
Essentials = finalize_fun_table(Essentials1, MD5),
- {Attributes,Compile} = build_attributes(Opts, CompilerOpts, SourceFile,
- Attr, MD5),
+ {Attributes,Compile} = build_attributes(Attr, CompileInfo, MD5),
AttrChunk = chunk(<<"Attr">>, Attributes),
CompileChunk = chunk(<<"CInf">>, Compile),
@@ -193,7 +192,7 @@ build_file(Code, Attr, Dict, NumLabels, NumFuncs, ExtraChunks, SourceFile, Opts,
%% Create IFF chunk.
- Chunks = case member(slim, Opts) of
+ Chunks = case member(slim, CompilerOpts) of
true ->
[Essentials,AttrChunk];
false ->
@@ -265,22 +264,10 @@ flatten_exports(Exps) ->
flatten_imports(Imps) ->
list_to_binary(map(fun({M,F,A}) -> <<M:32,F:32,A:32>> end, Imps)).
-build_attributes(Opts, CompilerOpts, SourceFile, Attr, MD5) ->
- Misc0 = case SourceFile of
- [] -> [];
- [_|_] -> [{source,SourceFile}]
- end,
- Misc = case member(slim, CompilerOpts) of
- false -> Misc0;
- true -> []
- end,
- Compile = case member(deterministic, CompilerOpts) of
- false ->
- [{options,Opts},{version,?COMPILER_VSN}|Misc];
- true ->
- [{version,?COMPILER_VSN}]
- end,
- {term_to_binary(set_vsn_attribute(Attr, MD5)),term_to_binary(Compile)}.
+build_attributes(Attr, Compile, MD5) ->
+ AttrBinary = term_to_binary(set_vsn_attribute(Attr, MD5)),
+ CompileBinary = term_to_binary([{version,?COMPILER_VSN}|Compile]),
+ {AttrBinary,CompileBinary}.
build_line_table(Dict) ->
{NumLineInstrs,NumFnames0,Fnames0,NumLines,Lines0} =
diff --git a/lib/compiler/src/beam_block.erl b/lib/compiler/src/beam_block.erl
index 6543e05e20..c640af224d 100644
--- a/lib/compiler/src/beam_block.erl
+++ b/lib/compiler/src/beam_block.erl
@@ -219,11 +219,20 @@ alloc_may_pass({set,_,_,{set_tuple_element,_}}) -> false;
alloc_may_pass({set,_,_,put_list}) -> false;
alloc_may_pass({set,_,_,put}) -> false;
alloc_may_pass({set,_,_,_}) -> true.
-
+
%% opt([Instruction]) -> [Instruction]
%% Optimize the instruction stream inside a basic block.
opt([{set,[X],[X],move}|Is]) -> opt(Is);
+opt([{set,[X],_,move},{set,[X],_,move}=I|Is]) ->
+ opt([I|Is]);
+opt([{set,[{x,0}],[S1],move}=I1,{set,[D2],[{x,0}],move}|Is]) ->
+ opt([I1,{set,[D2],[S1],move}|Is]);
+opt([{set,[{x,0}],[S1],move}=I1,{set,[D2],[S2],move}|Is0]) when S1 =/= D2 ->
+ %% Place move S x0 at the end of move sequences so that
+ %% loader can merge with the following instruction
+ {Ds,Is} = opt_moves([D2], Is0),
+ [{set,Ds,[S2],move}|opt([I1|Is])];
opt([{set,_,_,{line,_}}=Line1,
{set,[D1],[{integer,Idx1},Reg],{bif,element,{f,0}}}=I1,
{set,_,_,{line,_}}=Line2,
diff --git a/lib/compiler/src/beam_clean.erl b/lib/compiler/src/beam_clean.erl
index b736d39f9c..e094c2c320 100644
--- a/lib/compiler/src/beam_clean.erl
+++ b/lib/compiler/src/beam_clean.erl
@@ -24,7 +24,7 @@
-export([module/2]).
-export([bs_clean_saves/1]).
-export([clean_labels/1]).
--import(lists, [map/2,foldl/3,reverse/1,filter/2]).
+-import(lists, [foldl/3,reverse/1,filter/2]).
-spec module(beam_utils:module_code(), [compile:option()]) ->
{'ok',beam_utils:module_code()}.
@@ -118,7 +118,7 @@ add_to_work_list(F, {Fs,Used}=Sets) ->
clean_labels(Fs0) ->
St0 = #st{lmap=[],entry=1,lc=1},
{Fs1,#st{lmap=Lmap0,lc=Lc}} = function_renumber(Fs0, St0, []),
- Lmap = gb_trees:from_orddict(ordsets:from_list(Lmap0)),
+ Lmap = maps:from_list(Lmap0),
Fs = function_replace(Fs1, Lmap, []),
{Fs,Lc}.
@@ -187,7 +187,8 @@ is_record_tuple(_, _, _) -> no.
function_replace([{function,Name,Arity,Entry,Asm0}|Fs], Dict, Acc) ->
Asm = try
- replace(Asm0, [], Dict)
+ Fb = fun(Old) -> throw({error,{undefined_label,Old}}) end,
+ beam_utils:replace_labels(Asm0, [], Dict, Fb)
catch
throw:{error,{undefined_label,Lbl}=Reason} ->
io:format("Function ~s/~w refers to undefined label ~w\n",
@@ -197,57 +198,6 @@ function_replace([{function,Name,Arity,Entry,Asm0}|Fs], Dict, Acc) ->
function_replace(Fs, Dict, [{function,Name,Arity,Entry,Asm}|Acc]);
function_replace([], _, Acc) -> Acc.
-replace([{test,Test,{f,Lbl},Ops}|Is], Acc, D) ->
- replace(Is, [{test,Test,{f,label(Lbl, D)},Ops}|Acc], D);
-replace([{test,Test,{f,Lbl},Live,Ops,Dst}|Is], Acc, D) ->
- replace(Is, [{test,Test,{f,label(Lbl, D)},Live,Ops,Dst}|Acc], D);
-replace([{select,I,R,{f,Fail0},Vls0}|Is], Acc, D) ->
- Vls = map(fun ({f,L}) -> {f,label(L, D)};
- (Other) -> Other
- end, Vls0),
- Fail = label(Fail0, D),
- replace(Is, [{select,I,R,{f,Fail},Vls}|Acc], D);
-replace([{'try',R,{f,Lbl}}|Is], Acc, D) ->
- replace(Is, [{'try',R,{f,label(Lbl, D)}}|Acc], D);
-replace([{'catch',R,{f,Lbl}}|Is], Acc, D) ->
- replace(Is, [{'catch',R,{f,label(Lbl, D)}}|Acc], D);
-replace([{jump,{f,Lbl}}|Is], Acc, D) ->
- replace(Is, [{jump,{f,label(Lbl, D)}}|Acc], D);
-replace([{loop_rec,{f,Lbl},R}|Is], Acc, D) ->
- replace(Is, [{loop_rec,{f,label(Lbl, D)},R}|Acc], D);
-replace([{loop_rec_end,{f,Lbl}}|Is], Acc, D) ->
- replace(Is, [{loop_rec_end,{f,label(Lbl, D)}}|Acc], D);
-replace([{wait,{f,Lbl}}|Is], Acc, D) ->
- replace(Is, [{wait,{f,label(Lbl, D)}}|Acc], D);
-replace([{wait_timeout,{f,Lbl},To}|Is], Acc, D) ->
- replace(Is, [{wait_timeout,{f,label(Lbl, D)},To}|Acc], D);
-replace([{bif,Name,{f,Lbl},As,R}|Is], Acc, D) when Lbl =/= 0 ->
- replace(Is, [{bif,Name,{f,label(Lbl, D)},As,R}|Acc], D);
-replace([{gc_bif,Name,{f,Lbl},Live,As,R}|Is], Acc, D) when Lbl =/= 0 ->
- replace(Is, [{gc_bif,Name,{f,label(Lbl, D)},Live,As,R}|Acc], D);
-replace([{call,Ar,{f,Lbl}}|Is], Acc, D) ->
- replace(Is, [{call,Ar,{f,label(Lbl,D)}}|Acc], D);
-replace([{make_fun2,{f,Lbl},U1,U2,U3}|Is], Acc, D) ->
- replace(Is, [{make_fun2,{f,label(Lbl, D)},U1,U2,U3}|Acc], D);
-replace([{bs_init,{f,Lbl},Info,Live,Ss,Dst}|Is], Acc, D) when Lbl =/= 0 ->
- replace(Is, [{bs_init,{f,label(Lbl, D)},Info,Live,Ss,Dst}|Acc], D);
-replace([{bs_put,{f,Lbl},Info,Ss}|Is], Acc, D) when Lbl =/= 0 ->
- replace(Is, [{bs_put,{f,label(Lbl, D)},Info,Ss}|Acc], D);
-replace([{put_map=I,{f,Lbl},Op,Src,Dst,Live,List}|Is], Acc, D)
- when Lbl =/= 0 ->
- replace(Is, [{I,{f,label(Lbl, D)},Op,Src,Dst,Live,List}|Acc], D);
-replace([{get_map_elements=I,{f,Lbl},Src,List}|Is], Acc, D) when Lbl =/= 0 ->
- replace(Is, [{I,{f,label(Lbl, D)},Src,List}|Acc], D);
-replace([I|Is], Acc, D) ->
- replace(Is, [I|Acc], D);
-replace([], Acc, _) -> Acc.
-
-label(Old, D) ->
- case gb_trees:lookup(Old, D) of
- {value,Val} -> Val;
- none -> throw({error,{undefined_label,Old}})
- end.
-
%%%
%%% Final fixup of bs_start_match2/5,bs_save2/bs_restore2 instructions for
%%% new bit syntax matching (introduced in R11B).
diff --git a/lib/compiler/src/beam_jump.erl b/lib/compiler/src/beam_jump.erl
index 4365451356..0bcec9ce19 100644
--- a/lib/compiler/src/beam_jump.erl
+++ b/lib/compiler/src/beam_jump.erl
@@ -71,9 +71,9 @@
%%%
%%% jump L2
%%% . . .
-%%% L1:
%%% L2: ...
%%%
+%%% and all preceding uses of L1 renamed to L2.
%%% If the jump is unreachable, it will be removed according to (1).
%%%
%%% (5) In
@@ -156,41 +156,46 @@ function({function,Name,Arity,CLabel,Asm0}) ->
%%%
share(Is0) ->
- %% We will get more sharing if we never fall through to a label.
- Is = eliminate_fallthroughs(Is0, []),
- share_1(Is, #{}, [], []).
+ Is1 = eliminate_fallthroughs(Is0, []),
+ Is2 = find_fixpoint(fun(Is) ->
+ share_1(Is, #{}, #{}, [], [])
+ end, Is1),
+ reverse(Is2).
-share_1([{label,L}=Lbl|Is], Dict0, [_|_]=Seq, Acc) ->
+share_1([{label,L}=Lbl|Is], Dict0, Lbls0, [_|_]=Seq, Acc) ->
case maps:find(Seq, Dict0) of
error ->
Dict = maps:put(Seq, L, Dict0),
- share_1(Is, Dict, [], [Lbl|Seq ++ Acc]);
+ share_1(Is, Dict, Lbls0, [], [Lbl|Seq ++ Acc]);
{ok,Label} ->
- share_1(Is, Dict0, [], [Lbl,{jump,{f,Label}}|Acc])
+ Lbls = maps:put(L, Label, Lbls0),
+ share_1(Is, Dict0, Lbls, [], [Lbl,{jump,{f,Label}}|Acc])
end;
-share_1([{func_info,_,_,_}=I|Is], _, [], Acc) ->
- reverse(Is, [I|Acc]);
-share_1([{'catch',_,_}=I|Is], Dict0, Seq, Acc) ->
- Dict = clean_non_sharable(Dict0),
- share_1(Is, Dict, [I|Seq], Acc);
-share_1([{'try',_,_}=I|Is], Dict0, Seq, Acc) ->
- Dict = clean_non_sharable(Dict0),
- share_1(Is, Dict, [I|Seq], Acc);
-share_1([{try_case,_}=I|Is], Dict0, Seq, Acc) ->
- Dict = clean_non_sharable(Dict0),
- share_1(Is, Dict, [I|Seq], Acc);
-share_1([{catch_end,_}=I|Is], Dict0, Seq, Acc) ->
- Dict = clean_non_sharable(Dict0),
- share_1(Is, Dict, [I|Seq], Acc);
-share_1([I|Is], Dict, Seq, Acc) ->
+share_1([{func_info,_,_,_}|_]=Is, _, Lbls, [], Acc) when Lbls =/= #{} ->
+ beam_utils:replace_labels(Acc, Is, Lbls, fun(Old) -> Old end);
+share_1([{func_info,_,_,_}|_]=Is, _, Lbls, [], Acc) when Lbls =:= #{} ->
+ reverse(Acc, Is);
+share_1([{'catch',_,_}=I|Is], Dict0, Lbls0, Seq, Acc) ->
+ {Dict,Lbls} = clean_non_sharable(Dict0, Lbls0),
+ share_1(Is, Dict, Lbls, [I|Seq], Acc);
+share_1([{'try',_,_}=I|Is], Dict0, Lbls0, Seq, Acc) ->
+ {Dict,Lbls} = clean_non_sharable(Dict0, Lbls0),
+ share_1(Is, Dict, Lbls, [I|Seq], Acc);
+share_1([{try_case,_}=I|Is], Dict0, Lbls0, Seq, Acc) ->
+ {Dict,Lbls} = clean_non_sharable(Dict0, Lbls0),
+ share_1(Is, Dict, Lbls, [I|Seq], Acc);
+share_1([{catch_end,_}=I|Is], Dict0, Lbls0, Seq, Acc) ->
+ {Dict,Lbls} = clean_non_sharable(Dict0, Lbls0),
+ share_1(Is, Dict, Lbls, [I|Seq], Acc);
+share_1([I|Is], Dict, Lbls, Seq, Acc) ->
case is_unreachable_after(I) of
false ->
- share_1(Is, Dict, [I|Seq], Acc);
+ share_1(Is, Dict, Lbls, [I|Seq], Acc);
true ->
- share_1(Is, Dict, [I], Acc)
+ share_1(Is, Dict, Lbls, [I], Acc)
end.
-clean_non_sharable(Dict) ->
+clean_non_sharable(Dict0, Lbls0) ->
%% We are passing in or out of a 'catch' or 'try' block. Remove
%% sequences that should not be shared over the boundaries of the
%% block. Since the end of the sequence must match, the only
@@ -198,7 +203,17 @@ clean_non_sharable(Dict) ->
%% the 'catch'/'try' block is a sequence that ends with an
%% instruction that causes an exception. Any sequence that causes
%% an exception must contain a line/1 instruction.
- maps:filter(fun(K, _V) -> sharable_with_try(K) end, Dict).
+ Dict1 = maps:to_list(Dict0),
+ Lbls1 = maps:to_list(Lbls0),
+ {Dict2,Lbls2} = foldl(fun({K, V}, {Dict,Lbls}) ->
+ case sharable_with_try(K) of
+ true ->
+ {[{K,V}|Dict],lists:keydelete(V, 2, Lbls)};
+ false ->
+ {Dict,Lbls}
+ end
+ end, {[],Lbls1}, Dict1),
+ {maps:from_list(Dict2),maps:from_list(Lbls2)}.
sharable_with_try([{line,_}|_]) ->
%% This sequence may cause an exception and may potentially
@@ -275,14 +290,15 @@ extract_seq_1(_, _) -> no.
-record(st,
{
entry :: beam_asm:label(), %Entry label (must not be moved).
- mlbl :: #{beam_asm:label() := [beam_asm:label()]}, %Moved labels.
- labels :: cerl_sets:set() %Set of referenced labels.
+ replace :: #{beam_asm:label() := beam_asm:label()}, %Labels to replace.
+ labels :: cerl_sets:set(), %Set of referenced labels.
+ index :: beam_utils:code_index() | {lazy,[beam_utils:instruction()]} %Index built lazily only if needed
}).
opt(Is0, CLabel) ->
find_fixpoint(fun(Is) ->
Lbls = initial_labels(Is),
- St = #st{entry=CLabel,mlbl=#{},labels=Lbls},
+ St = #st{entry=CLabel,replace=#{},labels=Lbls,index={lazy,Is}},
opt(Is, [], St)
end, Is0).
@@ -292,7 +308,7 @@ find_fixpoint(OptFun, Is0) ->
Is -> find_fixpoint(OptFun, Is)
end.
-opt([{test,_,{f,L}=Lbl,_}=I|[{jump,{f,L}}|_]=Is], Acc, St) ->
+opt([{test,_,{f,L}=Lbl,_}=I|[{jump,{f,L}}|_]=Is], Acc0, St0) ->
%% We have
%% Test Label Ops
%% jump Label
@@ -301,10 +317,34 @@ opt([{test,_,{f,L}=Lbl,_}=I|[{jump,{f,L}}|_]=Is], Acc, St) ->
case beam_utils:is_pure_test(I) of
false ->
%% Test is not pure; we must keep it.
- opt(Is, [I|Acc], label_used(Lbl, St));
+ opt(Is, [I|Acc0], label_used(Lbl, St0));
true ->
%% The test is pure and its failure label is the same
%% as in the jump that follows -- thus it is not needed.
+ %% Check if any of the previous instructions could also be eliminated.
+ {Acc,St} = opt_useless_loads(Acc0, L, St0),
+ opt(Is, Acc, St)
+ end;
+opt([{test,_,{f,L}=Lbl,_}=I|[{label,L}|_]=Is], Acc0, St0) ->
+ %% Similar to the above, except we have a fall-through rather than jump
+ %% Test Label Ops
+ %% label Label
+ case beam_utils:is_pure_test(I) of
+ false ->
+ opt(Is, [I|Acc0], label_used(Lbl, St0));
+ true ->
+ {Acc,St} = opt_useless_loads(Acc0, L, St0),
+ opt(Is, Acc, St)
+ end;
+opt([{test,_,{f,L}=Lbl,_}=I|[{label,L}|_]=Is], Acc0, St0) ->
+ %% Similar to the above, except we have a fall-through rather than jump
+ %% Test Label Ops
+ %% label Label
+ case beam_utils:is_pure_test(I) of
+ false ->
+ opt(Is, [I|Acc0], label_used(Lbl, St0));
+ true ->
+ {Acc,St} = opt_useless_loads(Acc0, L, St0),
opt(Is, Acc, St)
end;
opt([{test,Test0,{f,L}=Lbl,Ops}=I|[{jump,To}|Is]=Is0], Acc, St) ->
@@ -326,30 +366,16 @@ opt([{test,_,{f,_}=Lbl,_,_,_}=I|Is], Acc, St) ->
opt(Is, [I|Acc], label_used(Lbl, St));
opt([{select,_,_R,Fail,Vls}=I|Is], Acc, St) ->
skip_unreachable(Is, [I|Acc], label_used([Fail|Vls], St));
-opt([{label,Lbl}=I|Is], Acc, #st{mlbl=Mlbl}=St0) ->
- case maps:find(Lbl, Mlbl) of
- {ok,Lbls} ->
- %% Essential to remove the list of labels from the dictionary,
- %% since we will rescan the inserted labels. We MUST rescan.
- St = St0#st{mlbl=maps:remove(Lbl, Mlbl)},
- insert_labels([Lbl|Lbls], Is, Acc, St);
- error ->
- opt(Is, [I|Acc], St0)
- end;
+opt([{label,From}=I,{label,To}|Is], Acc, #st{replace=Replace}=St) ->
+ opt([I|Is], Acc, St#st{replace=Replace#{To => From}});
opt([{jump,{f,_}=X}|[{label,_},{jump,X}|_]=Is], Acc, St) ->
opt(Is, Acc, St);
opt([{jump,{f,Lbl}}|[{label,Lbl}|_]=Is], Acc, St) ->
opt(Is, Acc, St);
-opt([{jump,{f,L}=Lbl}=I|Is], Acc0, #st{mlbl=Mlbl0}=St0) ->
- %% All labels before this jump instruction should now be
- %% moved to the location of the jump's target.
- {Lbls,Acc} = collect_labels(Acc0, St0),
- St = case Lbls of
- [] -> St0;
- [_|_] ->
- Mlbl = maps_append_list(L, Lbls, Mlbl0),
- St0#st{mlbl=Mlbl}
- end,
+opt([{jump,{f,L}=Lbl}=I|Is], Acc0, St0) ->
+ %% Replace all labels before this jump instruction into the
+ %% location of the jump's target.
+ {Acc,St} = collect_labels(Acc0, L, St0),
skip_unreachable(Is, [I|Acc], label_used(Lbl, St));
%% Optimization: quickly handle some common instructions that don't
%% have any failure labels and where is_unreachable_after(I) =:= false.
@@ -369,36 +395,72 @@ opt([I|Is], Acc, #st{labels=Used0}=St0) ->
true -> skip_unreachable(Is, [I|Acc], St);
false -> opt(Is, [I|Acc], St)
end;
-opt([], Acc, #st{mlbl=Mlbl}) ->
- Code = reverse(Acc),
- insert_fc_labels(Code, Mlbl).
-
-insert_fc_labels([{label,L}=I|Is0], Mlbl) ->
- case maps:find(L, Mlbl) of
- error ->
- [I|insert_fc_labels(Is0, Mlbl)];
- {ok,Lbls} ->
- Is = [{label,Lb} || Lb <- Lbls] ++ Is0,
- [I|insert_fc_labels(Is, maps:remove(L, Mlbl))]
+opt([], Acc, #st{replace=Replace0}) when Replace0 =/= #{} ->
+ Replace = normalize_replace(maps:to_list(Replace0), Replace0, []),
+ beam_utils:replace_labels(Acc, [], Replace, fun(Old) -> Old end);
+opt([], Acc, #st{replace=Replace}) when Replace =:= #{} ->
+ reverse(Acc).
+
+normalize_replace([{From,To0}|Rest], Replace, Acc) ->
+ case Replace of
+ #{To0 := To} ->
+ normalize_replace([{From,To}|Rest], Replace, Acc);
+ _ ->
+ normalize_replace(Rest, Replace, [{From,To0}|Acc])
end;
-insert_fc_labels([_|_]=Is, _) -> Is.
-
-maps_append_list(K,Vs,M) ->
- case M of
- #{K:=Vs0} -> M#{K:=Vs0++Vs}; % same order as dict
- _ -> M#{K => Vs}
- end.
+normalize_replace([], _Replace, Acc) ->
+ maps:from_list(Acc).
+
+%% After eliminating a test, it might happen, that a register was only used
+%% in this test. Let's check if that was the case and if it was so, we can
+%% eliminate the load into the register completely.
+opt_useless_loads([{block,_}|_]=Is, L, #st{index={lazy,FIs}}=St) ->
+ opt_useless_loads(Is, L, St#st{index=beam_utils:index_labels(FIs)});
+opt_useless_loads([{block,Block0}|Is], L, #st{index=Index}=St) ->
+ case opt_useless_block_loads(Block0, L, Index) of
+ [] ->
+ opt_useless_loads(Is, L, St);
+ [_|_]=Block ->
+ {[{block,Block}|Is],St}
+ end;
+%% After eliminating the test and useless blocks, it might happen,
+%% that the previous test could also be eliminated.
+%% It might be that the label was already marked as used, even if ultimately,
+%% it never will be - we can't do much about it at that point, though
+opt_useless_loads([{test,_,{f,L},_}=I|Is], L, St) ->
+ case beam_utils:is_pure_test(I) of
+ false ->
+ {[I|Is],St};
+ true ->
+ opt_useless_loads(Is, L, St)
+ end;
+opt_useless_loads(Is, _L, St) ->
+ {Is,St}.
+
+opt_useless_block_loads([{set,[Dst],_,_}=I|Is], L, Index) ->
+ BlockJump = [{block,Is},{jump,{f,L}}],
+ case beam_utils:is_killed(Dst, BlockJump, Index) of
+ true ->
+ %% The register is killed and not used, we can remove the load
+ opt_useless_block_loads(Is, L, Index);
+ false ->
+ [I|opt_useless_block_loads(Is, L, Index)]
+ end;
+opt_useless_block_loads([I|Is], L, Index) ->
+ [I|opt_useless_block_loads(Is, L, Index)];
+opt_useless_block_loads([], _L, _Index) ->
+ [].
-collect_labels(Is, #st{entry=Entry}) ->
- collect_labels_1(Is, Entry, []).
+collect_labels(Is, Label, #st{entry=Entry,replace=Replace} = St) ->
+ collect_labels_1(Is, Label, Entry, Replace, St).
-collect_labels_1([{label,Entry}|_]=Is, Entry, Acc) ->
+collect_labels_1([{label,Entry}|_]=Is, _Label, Entry, Acc, St) ->
%% Never move the entry label.
- {Acc,Is};
-collect_labels_1([{label,L}|Is], Entry, Acc) ->
- collect_labels_1(Is, Entry, [L|Acc]);
-collect_labels_1(Is, _Entry, Acc) ->
- {Acc,Is}.
+ {Is,St#st{replace=Acc}};
+collect_labels_1([{label,L}|Is], Label, Entry, Acc, St) ->
+ collect_labels_1(Is, Label, Entry, Acc#{L => Label}, St);
+collect_labels_1(Is, _Label, _Entry, Acc, St) ->
+ {Is,St#st{replace=Acc}}.
%% label_defined(Is, Label) -> true | false.
%% Test whether the label Label is defined at the start of the instruction
@@ -418,13 +480,6 @@ invert_test(is_eq_exact) -> is_ne_exact;
invert_test(is_ne_exact) -> is_eq_exact;
invert_test(_) -> not_possible.
-insert_labels([L|Ls], Is, [{jump,{f,L}}|Acc], St) ->
- insert_labels(Ls, [{label,L}|Is], Acc, St);
-insert_labels([L|Ls], Is, Acc, St) ->
- insert_labels(Ls, [{label,L}|Is], Acc, St);
-insert_labels([], Is, Acc, St) ->
- opt(Is, Acc, St).
-
%% skip_unreachable([Instruction], St).
%% Remove all instructions (including definitions of labels
%% that have not been referenced yet) up to the next
diff --git a/lib/compiler/src/beam_listing.erl b/lib/compiler/src/beam_listing.erl
index 836378727b..73c6501fe5 100644
--- a/lib/compiler/src/beam_listing.erl
+++ b/lib/compiler/src/beam_listing.erl
@@ -23,7 +23,6 @@
-include("core_parse.hrl").
-include("v3_kernel.hrl").
--include("v3_life.hrl").
-include("beam_disasm.hrl").
-import(lists, [foreach/2]).
@@ -31,7 +30,6 @@
-type code() :: cerl:c_module()
| beam_utils:module_code()
| #k_mdef{}
- | {module(),_,_,_} %v3_life
| [_]. %form-based format
-spec module(file:io_device(), code()) -> 'ok'.
@@ -43,13 +41,9 @@ module(File, #k_mdef{}=Kern) ->
%% This is a kernel module.
io:put_chars(File, v3_kernel_pp:format(Kern));
%%io:put_chars(File, io_lib:format("~p~n", [Kern]));
-module(File, {Mod,Exp,Attr,Kern}) ->
- %% This is output from beam_life (v3).
- io:fwrite(File, "~w.~n~p.~n~p.~n", [Mod,Exp,Attr]),
- foreach(fun (F) -> function(File, F) end, Kern);
module(Stream, {Mod,Exp,Attr,Code,NumLabels}) ->
- %% This is output from beam_codegen.
- io:format(Stream, "{module, ~p}. %% version = ~w\n",
+ %% This is output from v3_codegen.
+ io:format(Stream, "{module, ~p}. %% version = ~w\n",
[Mod, beam_opcodes:format_number()]),
io:format(Stream, "\n{exports, ~p}.\n", [Exp]),
io:format(Stream, "\n{attributes, ~p}.\n", [Attr]),
@@ -60,19 +54,6 @@ module(Stream, {Mod,Exp,Attr,Code,NumLabels}) ->
[Name, Arity, Entry]),
io:put_chars(Stream, format_asm(Asm))
end, Code);
-module(Stream, Code) when is_binary(Code) ->
- #beam_file{ module = Module, compile_info = CInfo } = beam_disasm:file(Code),
- Loaded = code:is_loaded(Module),
- Sticky = code:is_sticky(Module),
- [code:unstick_mod(Module) || Sticky],
-
- {module, Module} = code:load_binary(Module, proplists:get_value(source, CInfo), Code),
- ok = erts_debug:df(Stream, Module),
-
- %% Restore loaded module
- _ = [{module, Module} = code:load_file(Module) || Loaded =/= false],
- [code:stick_mod(Module) || Sticky],
- ok;
module(Stream, [_|_]=Fs) ->
%% Form-based abstract format.
foreach(fun (F) -> io:format(Stream, "~p.\n", [F]) end, Fs).
@@ -82,60 +63,3 @@ format_asm([{label,L}|Is]) ->
format_asm([I|Is]) ->
[io_lib:format(" ~p", [I]),".\n"|format_asm(Is)];
format_asm([]) -> [].
-
-function(File, {function,Name,Arity,Args,Body,Vdb,_Anno}) ->
- io:nl(File),
- io:format(File, "function ~p/~p.\n", [Name,Arity]),
- io:format(File, " ~p.\n", [Args]),
- print_vdb(File, Vdb),
- put(beam_listing_nl, false),
- nl(File),
- foreach(fun(F) -> format(File, F, []) end, Body),
- nl(File),
- erase(beam_listing_nl).
-
-format(File, #l{ke=Ke,i=I,vdb=Vdb}, Ind) ->
- nl(File),
- ind_format(File, Ind, "~p ", [I]),
- print_vdb(File, Vdb),
- nl(File),
- format(File, Ke, Ind);
-format(File, Tuple, Ind) when is_tuple(Tuple) ->
- ind_format(File, Ind, "{", []),
- format_list(File, tuple_to_list(Tuple), [$\s|Ind]),
- ind_format(File, Ind, "}", []);
-format(File, List, Ind) when is_list(List) ->
- ind_format(File, Ind, "[", []),
- format_list(File, List, [$\s|Ind]),
- ind_format(File, Ind, "]", []);
-format(File, F, Ind) ->
- ind_format(File, Ind, "~p", [F]).
-
-format_list(File, [F], Ind) ->
- format(File, F, Ind);
-format_list(File, [F|Fs], Ind) ->
- format(File, F, Ind),
- ind_format(File, Ind, ",", []),
- format_list(File, Fs, Ind);
-format_list(_, [], _) -> ok.
-
-
-print_vdb(File, [{Var,F,E}|Vs]) ->
- io:format(File, "~p:~p..~p ", [Var,F,E]),
- print_vdb(File, Vs);
-print_vdb(_, []) -> ok.
-
-ind_format(File, Ind, Format, Args) ->
- case get(beam_listing_nl) of
- true ->
- put(beam_listing_nl, false),
- io:put_chars(File, Ind);
- false -> ok
- end,
- io:format(File, Format, Args).
-
-nl(File) ->
- case put(beam_listing_nl, true) of
- true -> ok;
- false -> io:nl(File)
- end.
diff --git a/lib/compiler/src/beam_peep.erl b/lib/compiler/src/beam_peep.erl
index 6df5c02334..9436c20b36 100644
--- a/lib/compiler/src/beam_peep.erl
+++ b/lib/compiler/src/beam_peep.erl
@@ -89,15 +89,37 @@ peep([{gc_bif,_,_,_,_,Dst}=I|Is], SeenTests0, Acc) ->
peep([{jump,{f,L}},{label,L}=I|Is], _, Acc) ->
%% Sometimes beam_jump has missed this optimization.
peep(Is, gb_sets:empty(), [I|Acc]);
-peep([{select,Op,R,F,Vls0}|Is], _, Acc) ->
+peep([{select,Op,R,F,Vls0}|Is], SeenTests0, Acc0) ->
case prune_redundant_values(Vls0, F) of
[] ->
%% No values left. Must convert to plain jump.
I = {jump,F},
- peep(Is, gb_sets:empty(), [I|Acc]);
+ peep([I|Is], gb_sets:empty(), Acc0);
+ [{atom,_}=Value,Lbl] when Op =:= select_val ->
+ %% Single value left. Convert to regular test and pop redundant tests.
+ Is1 = [{test,is_eq_exact,F,[R,Value]},{jump,Lbl}|Is],
+ case Acc0 of
+ [{test,is_atom,F,[R]}|Acc] ->
+ peep(Is1, SeenTests0, Acc);
+ _ ->
+ peep(Is1, SeenTests0, Acc0)
+ end;
+ [{integer,_}=Value,Lbl] when Op =:= select_val ->
+ %% Single value left. Convert to regular test and pop redundant tests.
+ Is1 = [{test,is_eq_exact,F,[R,Value]},{jump,Lbl}|Is],
+ case Acc0 of
+ [{test,is_integer,F,[R]}|Acc] ->
+ peep(Is1, SeenTests0, Acc);
+ _ ->
+ peep(Is1, SeenTests0, Acc0)
+ end;
+ [Arity,Lbl] when Op =:= select_tuple_arity ->
+ %% Single value left. Convert to regular test
+ Is1 = [{test,test_arity,F,[R,Arity]},{jump,Lbl}|Is],
+ peep(Is1, SeenTests0, Acc0);
[_|_]=Vls ->
I = {select,Op,R,F,Vls},
- peep(Is, gb_sets:empty(), [I|Acc])
+ peep(Is, gb_sets:empty(), [I|Acc0])
end;
peep([{test,Op,_,Ops}=I|Is], SeenTests0, Acc) ->
case beam_utils:is_pure_test(I) of
diff --git a/lib/compiler/src/beam_receive.erl b/lib/compiler/src/beam_receive.erl
index 1403e1e05e..468460eedf 100644
--- a/lib/compiler/src/beam_receive.erl
+++ b/lib/compiler/src/beam_receive.erl
@@ -207,6 +207,8 @@ opt_update_regs({label,Lbl}, R, L) ->
%% A catch label for a previously seen catch instruction is OK.
{R,L}
end;
+opt_update_regs({'try',_,{f,Lbl}}, R, L) ->
+ {R,gb_sets:add(Lbl, L)};
opt_update_regs({try_end,_}, R, L) ->
{R,L};
opt_update_regs({line,_}, R, L) ->
diff --git a/lib/compiler/src/beam_utils.erl b/lib/compiler/src/beam_utils.erl
index e39fbdc3b7..00f396c246 100644
--- a/lib/compiler/src/beam_utils.erl
+++ b/lib/compiler/src/beam_utils.erl
@@ -23,14 +23,19 @@
-module(beam_utils).
-export([is_killed_block/2,is_killed/3,is_killed_at/3,
is_not_used/3,
- empty_label_index/0,index_label/3,index_labels/1,
+ empty_label_index/0,index_label/3,index_labels/1,replace_labels/4,
code_at/2,bif_to_test/3,is_pure_test/1,
live_opt/1,delete_live_annos/1,combine_heap_needs/2,
split_even/1]).
-export_type([code_index/0,module_code/0,instruction/0]).
--import(lists, [member/2,sort/1,reverse/1,splitwith/2]).
+-import(lists, [map/2,member/2,sort/1,reverse/1,splitwith/2]).
+
+-define(is_const(Val), (element(1, Val) =:= integer orelse
+ element(1, Val) =:= float orelse
+ element(1, Val) =:= atom orelse
+ element(1, Val) =:= literal)).
%% instruction() describes all instructions that are used during optimzation
%% (from beam_a to beam_z).
@@ -160,6 +165,18 @@ index_label(Lbl, Is0, Acc) ->
code_at(L, Ll) ->
gb_trees:get(L, Ll).
+%% replace_labels(FunctionIs, Tail, ReplaceDb, Fallback) -> FunctionIs.
+%% Replace all labels in instructions according to the ReplaceDb.
+%% If label is not found the Fallback is called with the label to
+%% produce a new one.
+
+-spec replace_labels([instruction()],
+ [instruction()],
+ #{beam_asm:label() => beam_asm:label()},
+ fun((beam_asm:label()) -> term())) -> [instruction()].
+replace_labels(Is, Acc, D, Fb) ->
+ replace_labels_1(Is, Acc, D, Fb).
+
%% bif_to_test(Bif, [Op], Fail) -> {test,Test,Fail,[Op]}
%% Convert a BIF to a test. Fail if not possible.
@@ -185,10 +202,20 @@ bif_to_test('>', [A,B], Fail) -> {test,is_lt,Fail,[B,A]};
bif_to_test('<', [_,_]=Ops, Fail) -> {test,is_lt,Fail,Ops};
bif_to_test('>=', [_,_]=Ops, Fail) -> {test,is_ge,Fail,Ops};
bif_to_test('==', [A,nil], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('==', [nil,A], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('==', [C,A], Fail) when ?is_const(C) ->
+ {test,is_eq,Fail,[A,C]};
bif_to_test('==', [_,_]=Ops, Fail) -> {test,is_eq,Fail,Ops};
+bif_to_test('/=', [C,A], Fail) when ?is_const(C) ->
+ {test,is_ne,Fail,[A,C]};
bif_to_test('/=', [_,_]=Ops, Fail) -> {test,is_ne,Fail,Ops};
bif_to_test('=:=', [A,nil], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('=:=', [nil,A], Fail) -> {test,is_nil,Fail,[A]};
+bif_to_test('=:=', [C,A], Fail) when ?is_const(C) ->
+ {test,is_eq_exact,Fail,[A,C]};
bif_to_test('=:=', [_,_]=Ops, Fail) -> {test,is_eq_exact,Fail,Ops};
+bif_to_test('=/=', [C,A], Fail) when ?is_const(C) ->
+ {test,is_ne_exact,Fail,[A,C]};
bif_to_test('=/=', [_,_]=Ops, Fail) -> {test,is_ne_exact,Fail,Ops};
bif_to_test(is_record, [_,_,_]=Ops, Fail) -> {test,is_record,Fail,Ops}.
@@ -643,6 +670,58 @@ index_labels_1([], Acc) -> gb_trees:from_orddict(sort(Acc)).
drop_labels([{label,_}|Is]) -> drop_labels(Is);
drop_labels(Is) -> Is.
+
+replace_labels_1([{test,Test,{f,Lbl},Ops}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{test,Test,{f,label(Lbl, D, Fb)},Ops}|Acc], D, Fb);
+replace_labels_1([{test,Test,{f,Lbl},Live,Ops,Dst}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{test,Test,{f,label(Lbl, D, Fb)},Live,Ops,Dst}|Acc], D, Fb);
+replace_labels_1([{select,I,R,{f,Fail0},Vls0}|Is], Acc, D, Fb) ->
+ Vls = map(fun ({f,L}) -> {f,label(L, D, Fb)};
+ (Other) -> Other
+ end, Vls0),
+ Fail = label(Fail0, D, Fb),
+ replace_labels_1(Is, [{select,I,R,{f,Fail},Vls}|Acc], D, Fb);
+replace_labels_1([{'try',R,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{'try',R,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{'catch',R,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{'catch',R,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{jump,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{jump,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{loop_rec,{f,Lbl},R}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{loop_rec,{f,label(Lbl, D, Fb)},R}|Acc], D, Fb);
+replace_labels_1([{loop_rec_end,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{loop_rec_end,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{wait,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{wait,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{wait_timeout,{f,Lbl},To}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{wait_timeout,{f,label(Lbl, D, Fb)},To}|Acc], D, Fb);
+replace_labels_1([{bif,Name,{f,Lbl},As,R}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{bif,Name,{f,label(Lbl, D, Fb)},As,R}|Acc], D, Fb);
+replace_labels_1([{gc_bif,Name,{f,Lbl},Live,As,R}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{gc_bif,Name,{f,label(Lbl, D, Fb)},Live,As,R}|Acc], D, Fb);
+replace_labels_1([{call,Ar,{f,Lbl}}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{call,Ar,{f,label(Lbl, D, Fb)}}|Acc], D, Fb);
+replace_labels_1([{make_fun2,{f,Lbl},U1,U2,U3}|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [{make_fun2,{f,label(Lbl, D, Fb)},U1,U2,U3}|Acc], D, Fb);
+replace_labels_1([{bs_init,{f,Lbl},Info,Live,Ss,Dst}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{bs_init,{f,label(Lbl, D, Fb)},Info,Live,Ss,Dst}|Acc], D, Fb);
+replace_labels_1([{bs_put,{f,Lbl},Info,Ss}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{bs_put,{f,label(Lbl, D, Fb)},Info,Ss}|Acc], D, Fb);
+replace_labels_1([{put_map=I,{f,Lbl},Op,Src,Dst,Live,List}|Is], Acc, D, Fb)
+ when Lbl =/= 0 ->
+ replace_labels_1(Is, [{I,{f,label(Lbl, D, Fb)},Op,Src,Dst,Live,List}|Acc], D, Fb);
+replace_labels_1([{get_map_elements=I,{f,Lbl},Src,List}|Is], Acc, D, Fb) when Lbl =/= 0 ->
+ replace_labels_1(Is, [{I,{f,label(Lbl, D, Fb)},Src,List}|Acc], D, Fb);
+replace_labels_1([I|Is], Acc, D, Fb) ->
+ replace_labels_1(Is, [I|Acc], D, Fb);
+replace_labels_1([], Acc, _, _) -> Acc.
+
+label(Old, D, Fb) ->
+ case D of
+ #{Old := New} -> New;
+ _ -> Fb(Old)
+ end.
+
%% Help functions for combine_heap_needs.
combine_alloc_lists(Al1, Al2) ->
@@ -746,8 +825,14 @@ live_opt([{select,_,Src,Fail,List}=I|Is], Regs0, D, Acc) ->
Regs1 = x_live([Src], Regs0),
Regs = live_join_labels([Fail|List], D, Regs1),
live_opt(Is, Regs, D, [I|Acc]);
-live_opt([{try_case,_}=I|Is], _, D, Acc) ->
- live_opt(Is, live_call(1), D, [I|Acc]);
+live_opt([{try_case,Y}=I|Is], Regs0, D, Acc) ->
+ Regs = live_call(1),
+ case Regs0 of
+ 0 ->
+ live_opt(Is, Regs, D, [{try_end,Y}|Acc]);
+ _ ->
+ live_opt(Is, live_call(1), D, [I|Acc])
+ end;
live_opt([{loop_rec,_Fail,_Dst}=I|Is], _, D, Acc) ->
live_opt(Is, 0, D, [I|Acc]);
live_opt([timeout=I|Is], _, D, Acc) ->
diff --git a/lib/compiler/src/cerl_clauses.erl b/lib/compiler/src/cerl_clauses.erl
index 7d6518c3c6..fa5104c01b 100644
--- a/lib/compiler/src/cerl_clauses.erl
+++ b/lib/compiler/src/cerl_clauses.erl
@@ -353,6 +353,8 @@ match(P, E, Bs) ->
map ->
%% The most we can do is to say "definitely no match" if a
%% map pattern is matched against non-map data.
+ %% (Note: See the document internal_doc/cerl-notes.md for
+ %% information why we don't try to do more here.)
case E of
any ->
{false, Bs};
diff --git a/lib/compiler/src/compile.erl b/lib/compiler/src/compile.erl
index 50b0ba76f8..327fecf0e6 100644
--- a/lib/compiler/src/compile.erl
+++ b/lib/compiler/src/compile.erl
@@ -706,14 +706,16 @@ core_passes() ->
[{unless,no_copt,
[{core_old_inliner,fun test_old_inliner/1,fun core_old_inliner/2},
{iff,doldinline,{listing,"oldinline"}},
- {pass,sys_core_fold},
+ {unless,no_fold,{pass,sys_core_fold}},
{iff,dcorefold,{listing,"corefold"}},
{core_inline_module,fun test_core_inliner/1,fun core_inline_module/2},
{iff,dinline,{listing,"inline"}},
{core_fold_after_inlining,fun test_any_inliner/1,
fun core_fold_module_after_inlining/2},
+ {iff,dcopt,{listing,"copt"}},
+ {unless,no_alias,{pass,sys_core_alias}},
+ {iff,dalias,{listing,"core_alias"}},
?pass(core_transforms)]},
- {iff,dcopt,{listing,"copt"}},
{iff,'to_core',{done,"core"}}]}
| kernel_passes()].
@@ -731,8 +733,6 @@ kernel_passes() ->
?pass(v3_kernel),
{iff,dkern,{listing,"kernel"}},
{iff,'to_kernel',{done,"kernel"}},
- {pass,v3_life},
- {iff,dlife,{listing,"life"}},
{pass,v3_codegen},
{iff,dcg,{listing,"codegen"}}
| asm_passes()].
@@ -787,7 +787,7 @@ asm_passes() ->
| binary_passes()].
binary_passes() ->
- [{iff,'to_dis',{listing,"dis"}},
+ [{iff,'to_dis',?pass(to_dis)},
{native_compile,fun test_native/1,fun native_compile/2},
{unless,binary,?pass(save_binary,not_werror)}
].
@@ -1448,15 +1448,33 @@ save_core_code(Code, St) ->
beam_asm(Code0, #compile{ifile=File,extra_chunks=ExtraChunks,options=CompilerOpts}=St) ->
case debug_info(St) of
{ok,DebugInfo,Opts0} ->
- Source = paranoid_absname(File),
Opts1 = [O || O <- Opts0, effects_code_generation(O)],
Chunks = [{<<"Dbgi">>, DebugInfo} | ExtraChunks],
- {ok,Code} = beam_asm:module(Code0, Chunks, Source, Opts1, CompilerOpts),
+ CompileInfo = compile_info(File, CompilerOpts, Opts1),
+ {ok,Code} = beam_asm:module(Code0, Chunks, CompileInfo, CompilerOpts),
{ok,Code,St#compile{abstract_code=[]}};
{error,Es} ->
{error,St#compile{errors=St#compile.errors ++ [{File,Es}]}}
end.
+compile_info(File, CompilerOpts, Opts) ->
+ IsSlim = member(slim, CompilerOpts),
+ IsDeterministic = member(deterministic, CompilerOpts),
+ Info0 = proplists:get_value(compile_info, Opts, []),
+ Info1 =
+ case paranoid_absname(File) of
+ [_|_] = Source when not IsSlim, not IsDeterministic ->
+ [{source,Source} | Info0];
+ _ ->
+ Info0
+ end,
+ Info2 =
+ case IsDeterministic of
+ false -> [{options,proplists:delete(compile_info, Opts)} | Info1];
+ true -> Info1
+ end,
+ Info2.
+
paranoid_absname(""=File) ->
File;
paranoid_absname(File) ->
@@ -1748,6 +1766,21 @@ listing(LFun, Ext, Code, St) ->
{error,St#compile{errors=St#compile.errors ++ Es}}
end.
+to_dis(Code, #compile{module=Module,ofile=Outfile}=St) ->
+ Loaded = code:is_loaded(Module),
+ Sticky = code:is_sticky(Module),
+ _ = [code:unstick_mod(Module) || Sticky],
+
+ {module,Module} = code:load_binary(Module, "", Code),
+ DestDir = filename:dirname(Outfile),
+ DisFile = filename:join(DestDir, atom_to_list(Module) ++ ".dis"),
+ ok = erts_debug:dis_to_file(Module, DisFile),
+
+ %% Restore loaded module
+ _ = [{module, Module} = code:load_file(Module) || Loaded =/= false],
+ [code:stick_mod(Module) || Sticky],
+ {ok,Code,St}.
+
output_encoding(F, #compile{encoding = none}) ->
ok = io:setopts(F, [{encoding, epp:default_encoding()}]);
output_encoding(F, #compile{encoding = Encoding}) ->
@@ -1923,12 +1956,12 @@ pre_load() ->
erl_lint,
erl_parse,
erl_scan,
+ sys_core_alias,
sys_core_bsm,
sys_core_dsetel,
sys_core_fold,
v3_codegen,
v3_core,
- v3_kernel,
- v3_life],
+ v3_kernel],
_ = code:ensure_modules_loaded(L),
ok.
diff --git a/lib/compiler/src/compiler.app.src b/lib/compiler/src/compiler.app.src
index 3139d68902..cf32fd251c 100644
--- a/lib/compiler/src/compiler.app.src
+++ b/lib/compiler/src/compiler.app.src
@@ -58,6 +58,7 @@
core_lib,
erl_bifs,
rec_env,
+ sys_core_alias,
sys_core_bsm,
sys_core_dsetel,
sys_core_fold,
@@ -67,8 +68,7 @@
v3_codegen,
v3_core,
v3_kernel,
- v3_kernel_pp,
- v3_life
+ v3_kernel_pp
]},
{registered, []},
{applications, [kernel, stdlib]},
diff --git a/lib/compiler/src/core_pp.erl b/lib/compiler/src/core_pp.erl
index cff6c7098b..2516a9a1e1 100644
--- a/lib/compiler/src/core_pp.erl
+++ b/lib/compiler/src/core_pp.erl
@@ -1,7 +1,7 @@
%%
%% %CopyrightBegin%
%%
-%% Copyright Ericsson AB 1999-2016. All Rights Reserved.
+%% Copyright Ericsson AB 1999-2017. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
@@ -464,7 +464,7 @@ indent(#ctxt{indent=N}) ->
N =< 0 ->
"";
true ->
- string:chars($\t, N div ?TAB_WIDTH, spaces(N rem ?TAB_WIDTH))
+ lists:duplicate(N div ?TAB_WIDTH, $\t) ++ spaces(N rem ?TAB_WIDTH)
end.
nl_indent(Ctxt) -> [$\n|indent(Ctxt)].
diff --git a/lib/compiler/src/core_scan.erl b/lib/compiler/src/core_scan.erl
index 9f0676538f..a50a2ffa8d 100644
--- a/lib/compiler/src/core_scan.erl
+++ b/lib/compiler/src/core_scan.erl
@@ -200,8 +200,8 @@ pre_string(eof, Q, _, Sp, SoFar, Pos) ->
pre_string_error(Q, Sp, SoFar, Pos).
pre_string_error(Q, Sp, SoFar, Pos) ->
- S = reverse(string:substr(SoFar, 1, string:chr(SoFar, Q)-1)),
- pre_error({string,Q,string:substr(S, 1, 16)}, Sp, Pos).
+ [S,_] = string:split(SoFar, [Q]),
+ pre_error({string,Q,string:slice(string:reverse(S), 0, 16)}, Sp, Pos).
pre_char([C|Cs], SoFar) -> pre_char(C, Cs, SoFar);
pre_char([], _) -> more;
diff --git a/lib/compiler/src/sys_core_alias.erl b/lib/compiler/src/sys_core_alias.erl
new file mode 100644
index 0000000000..63e2f7488e
--- /dev/null
+++ b/lib/compiler/src/sys_core_alias.erl
@@ -0,0 +1,308 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 1999-2016. All Rights Reserved.
+%%
+%% Licensed under the Apache License, Version 2.0 (the "License");
+%% you may not use this file except in compliance with the License.
+%% You may obtain a copy of the License at
+%%
+%% http://www.apache.org/licenses/LICENSE-2.0
+%%
+%% Unless required by applicable law or agreed to in writing, software
+%% distributed under the License is distributed on an "AS IS" BASIS,
+%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+%% See the License for the specific language governing permissions and
+%% limitations under the License.
+%%
+%% %CopyrightEnd%
+%%
+%% Purpose : Replace values by aliases from patterns optimisation for Core
+
+%% Replace expressions by aliases from patterns. For example:
+%%
+%% example({ok, Val}) ->
+%% {ok, Val}.
+%%
+%% will become:
+%%
+%% example({ok, Val} = Tuple) ->
+%% Tuple.
+%%
+%% Currently this pass aliases tuple and cons nodes made of literals,
+%% variables and other cons. The tuple/cons may appear anywhere in the
+%% pattern and it will be aliased if used later on.
+%%
+%% Notice a tuple/cons made only of literals is not aliased as it may
+%% be part of the literal pool.
+
+-module(sys_core_alias).
+
+-export([module/2]).
+
+-include("core_parse.hrl").
+
+-define(NOTSET, 0).
+
+-record(sub, {p=#{} :: #{term() => ?NOTSET | atom()}, %% Found pattern substitutions
+ v=cerl_sets:new() :: cerl_sets:set(cerl:var_name()), %% Variables used by patterns
+ t=undefined :: term()}). %% Temporary information from pre to post
+
+-type sub() :: #sub{}.
+
+-spec module(cerl:c_module(), [compile:option()]) ->
+ {'ok',cerl:c_module(),[]}.
+
+module(#c_module{defs=Ds0}=Mod, _Opts) ->
+ Ds1 = [def(D) || D <- Ds0],
+ {ok,Mod#c_module{defs=Ds1},[]}.
+
+def({#c_var{name={F,Arity}}=Name,B0}) ->
+ try
+ put(new_var_num, 0),
+ {B1,_} = cerl_trees:mapfold(fun pre/2, fun post/2, sub_new(undefined), B0),
+ erase(new_var_num),
+ {Name,B1}
+ catch
+ Class:Error ->
+ Stack = erlang:get_stacktrace(),
+ io:fwrite("Function: ~w/~w\n", [F,Arity]),
+ erlang:raise(Class, Error, Stack)
+ end.
+
+pre(#c_let{vars=Vars}=Node, Sub) ->
+ {Node,sub_fold(get_variables(Vars), Sub)};
+
+pre(#c_fun{vars=Vars}=Node, Sub) ->
+ {Node,sub_fold(get_variables(Vars), Sub)};
+
+pre(#c_clause{pats=Pats}=Node, Sub0) ->
+ VarNames = get_variables(Pats),
+ Sub1 = sub_fold(VarNames, Sub0),
+ Keys = get_pattern_keys(Pats),
+ Sub2 = sub_add_keys(Keys, Sub1),
+
+ #sub{v=SubNames,t=Temp} = Sub2,
+ Sub3 = Sub2#sub{v=merge_variables(VarNames, SubNames),
+ t={clause,Pats,Keys,SubNames,Temp}},
+
+ {Node#c_clause{pats=[]},Sub3};
+
+pre(Node, Sub0) ->
+ %% We cache only tuples and cons.
+ case cerl:is_data(Node) andalso not cerl:is_literal(Node) of
+ false ->
+ {Node,Sub0};
+ true ->
+ Kind = cerl:data_type(Node),
+ Es = cerl:data_es(Node),
+ case sub_cache_nodes(Kind, Es, Sub0) of
+ {Name,Sub1} ->
+ {cerl:ann_c_var(cerl:get_ann(Node), Name),Sub1};
+ error ->
+ {Node,Sub0}
+ end
+ end.
+
+post(#c_let{}=Node, Sub) ->
+ {Node,sub_unfold(Sub)};
+
+post(#c_fun{}=Node, Sub) ->
+ {Node,sub_unfold(Sub)};
+
+post(#c_clause{}=Node, #sub{t={clause,Pats0,Keys,V,T}}=Sub0) ->
+ {Sub1,PostKeys} = sub_take_keys(Keys, Sub0),
+ Pats1 = put_pattern_keys(Pats0, PostKeys),
+ Sub2 = sub_unfold(Sub1#sub{v=V,t=T}),
+ {Node#c_clause{pats=Pats1},Sub2};
+
+post(Node, Sub) ->
+ {Node,Sub}.
+
+%% sub_new/1
+%% sub_add_keys/2
+%% sub_take_keys/3
+%% sub_cache_nodes/3
+%%
+%% Manages the substitutions record.
+
+%% Builds a new sub.
+-spec sub_new(term()) -> sub().
+sub_new(Temp) ->
+ #sub{t=Temp}.
+
+%% Folds the sub into a new one if the variables in nodes are not disjoint
+sub_fold(VarNames, #sub{v=SubNames}=Sub) ->
+ case is_disjoint_variables(VarNames, SubNames) of
+ true -> Sub#sub{t={temp,Sub#sub.t}};
+ false -> sub_new({sub,Sub})
+ end.
+
+%% Unfolds the sub in case one was folded in the previous step
+sub_unfold(#sub{t={temp,Temp}}=Sub) ->
+ Sub#sub{t=Temp};
+sub_unfold(#sub{t={sub,Sub}}) ->
+ Sub.
+
+%% Adds the keys extracted from patterns to the state.
+-spec sub_add_keys([term()], sub()) -> sub().
+sub_add_keys(Keys, #sub{p=Pat0}=Sub) ->
+ Pat1 =
+ lists:foldl(fun(Key, Acc) ->
+ false = maps:is_key(Key, Acc), %Assertion.
+ maps:put(Key, ?NOTSET, Acc)
+ end, Pat0, Keys),
+ Sub#sub{p=Pat1}.
+
+%% Take the keys from the map taking into account the keys
+%% that have changed as those must become aliases in the pattern.
+-spec sub_take_keys([term()], sub()) -> {sub(), [{term(), atom()}]}.
+sub_take_keys(Keys, #sub{p=Pat0}=Sub) ->
+ {Pat1,Acc} = sub_take_keys(Keys, Pat0, []),
+ {Sub#sub{p=Pat1},Acc}.
+
+sub_take_keys([K|T], Sub0, Acc) ->
+ case maps:take(K, Sub0) of
+ {?NOTSET,Sub1} ->
+ sub_take_keys(T, Sub1, Acc);
+ {Name,Sub1} ->
+ sub_take_keys(T, Sub1, [{K,Name}|Acc])
+ end;
+sub_take_keys([], Sub, Acc) ->
+ {Sub,Acc}.
+
+%% Check if the node can be cached based on the state information.
+%% If it can be cached and it does not have an alias for it, we
+%% build one.
+-spec sub_cache_nodes(atom(), [cerl:cerl()], sub()) -> {atom(), sub()} | error.
+sub_cache_nodes(Kind, Nodes, #sub{p=Pat}=Sub) ->
+ case nodes_to_key(Kind, Nodes) of
+ {ok, Key} ->
+ case Pat of
+ #{Key := ?NOTSET} ->
+ new_var_name(Key, Sub);
+ #{Key := Name} ->
+ {Name,Sub};
+ #{} ->
+ error
+ end;
+ error ->
+ error
+ end.
+
+new_var_name(Key, #sub{p=Pat}=Sub) ->
+ Counter = get(new_var_num),
+ Name = list_to_atom("@r" ++ integer_to_list(Counter)),
+ put(new_var_num, Counter + 1),
+ {Name,Sub#sub{p=maps:put(Key, Name, Pat)}}.
+
+%% get_variables/1
+%% is_disjoint_variables/2
+%% merge_variables/2
+
+get_variables(NodesList) ->
+ cerl_sets:from_list([Var || Node <- NodesList, Var <- cerl_trees:variables(Node)]).
+
+is_disjoint_variables(Vars1, Vars2) ->
+ cerl_sets:is_disjoint(Vars1, Vars2).
+
+merge_variables(Vars1, Vars2) ->
+ cerl_sets:union(Vars1, Vars2).
+
+%% get_pattern_keys/2
+%% put_pattern_keys/2
+%%
+%% Gets keys from patterns or add them as aliases.
+
+get_pattern_keys(Patterns) ->
+ lists:foldl(fun get_pattern_keys/2, [], Patterns).
+
+get_pattern_keys(#c_tuple{es=Es}, Acc0) ->
+ Acc1 = accumulate_pattern_keys(tuple, Es, Acc0),
+ lists:foldl(fun get_pattern_keys/2, Acc1, Es);
+get_pattern_keys(#c_cons{hd=Hd,tl=Tl}, Acc0) ->
+ Acc1 = accumulate_pattern_keys(cons, [Hd, Tl], Acc0),
+ get_pattern_keys(Tl, get_pattern_keys(Hd, Acc1));
+get_pattern_keys(#c_alias{pat=Pat}, Acc0) ->
+ get_pattern_keys(Pat, Acc0);
+get_pattern_keys(#c_map{es=Es}, Acc0) ->
+ lists:foldl(fun get_pattern_keys/2, Acc0, Es);
+get_pattern_keys(#c_map_pair{val=Val}, Acc0) ->
+ get_pattern_keys(Val, Acc0);
+get_pattern_keys(_, Acc) ->
+ Acc.
+
+accumulate_pattern_keys(Kind, Nodes, Acc) ->
+ case nodes_to_key(Kind, Nodes) of
+ {ok,Key} -> [Key|Acc];
+ error -> Acc
+ end.
+
+put_pattern_keys(Patterns, []) ->
+ Patterns;
+put_pattern_keys(Patterns, Keys) ->
+ {NewPatterns,Map} =
+ lists:mapfoldl(fun alias_pattern_keys/2, maps:from_list(Keys), Patterns),
+ %% Check all aliases have been consumed from the map.
+ 0 = map_size(Map),
+ NewPatterns.
+
+alias_pattern_keys(#c_tuple{anno=Anno,es=Es0}=Node, Acc0) ->
+ {Es1,Acc1} = lists:mapfoldl(fun alias_pattern_keys/2, Acc0, Es0),
+ nodes_to_alias(tuple, Es0, Anno, Node#c_tuple{es=Es1}, Acc1);
+alias_pattern_keys(#c_cons{anno=Anno,hd=Hd0,tl=Tl0}=Node, Acc0) ->
+ {Hd1,Acc1} = alias_pattern_keys(Hd0, Acc0),
+ {Tl1,Acc2} = alias_pattern_keys(Tl0, Acc1),
+ nodes_to_alias(cons, [Hd0, Tl0], Anno, Node#c_cons{hd=Hd1,tl=Tl1}, Acc2);
+alias_pattern_keys(#c_alias{pat=Pat0}=Node, Acc0) ->
+ {Pat1,Acc1} = alias_pattern_keys(Pat0, Acc0),
+ {Node#c_alias{pat=Pat1}, Acc1};
+alias_pattern_keys(#c_map{es=Es0}=Node, Acc0) ->
+ {Es1,Acc1} = lists:mapfoldl(fun alias_pattern_keys/2, Acc0, Es0),
+ {Node#c_map{es=Es1}, Acc1};
+alias_pattern_keys(#c_map_pair{val=Val0}=Node, Acc0) ->
+ {Val1,Acc1} = alias_pattern_keys(Val0, Acc0),
+ {Node#c_map_pair{val=Val1}, Acc1};
+alias_pattern_keys(Pattern, Acc) ->
+ {Pattern,Acc}.
+
+%% Check if a node must become an alias because
+%% its pattern was used later on as an expression.
+nodes_to_alias(Kind, Inner, Anno, Node, Keys0) ->
+ case nodes_to_key(Kind, Inner) of
+ {ok,Key} ->
+ case maps:take(Key, Keys0) of
+ {Name,Keys1} ->
+ Var = cerl:ann_c_var(Anno, Name),
+ {cerl:ann_c_alias(Anno, Var, Node), Keys1};
+ error ->
+ {Node,Keys0}
+ end;
+ error ->
+ {Node,Keys0}
+ end.
+
+%% Builds the key used to check if a value can be
+%% replaced by an alias. It considers literals,
+%% aliases, variables, tuples and cons recursively.
+nodes_to_key(Kind, Nodes) ->
+ nodes_to_key(Nodes, [], Kind).
+
+nodes_to_key([#c_alias{var=Var}|T], Acc, Kind) ->
+ nodes_to_key([Var|T], Acc, Kind);
+nodes_to_key([#c_var{name=Name}|T], Acc, Kind) ->
+ nodes_to_key(T, [[var,Name]|Acc], Kind);
+nodes_to_key([Node|T], Acc0, Kind) ->
+ case cerl:is_data(Node) of
+ false ->
+ error;
+ true ->
+ case nodes_to_key(cerl:data_es(Node), [], cerl:data_type(Node)) of
+ {ok,Key} ->
+ nodes_to_key(T, [Key|Acc0], Kind);
+ error ->
+ error
+ end
+ end;
+nodes_to_key([], Acc, Kind) ->
+ {ok,[Kind|Acc]}.
diff --git a/lib/compiler/src/sys_core_fold.erl b/lib/compiler/src/sys_core_fold.erl
index d73060fb7e..df880ff784 100644
--- a/lib/compiler/src/sys_core_fold.erl
+++ b/lib/compiler/src/sys_core_fold.erl
@@ -418,6 +418,15 @@ expr(#c_call{module=M0,name=N0}=Call0, Ctxt, Sub) ->
expr(#c_primop{args=As0}=Prim, _, Sub) ->
As1 = expr_list(As0, value, Sub),
Prim#c_primop{args=As1};
+expr(#c_catch{anno=Anno,body=B}, effect, Sub) ->
+ %% When the return value of the 'catch' is ignored, we can replace it
+ %% with a try/catch to avoid building a stack trace when an exception
+ %% occurs.
+ Var = #c_var{name='catch_value'},
+ Evs = [#c_var{name='Class'},#c_var{name='Reason'},#c_var{name='Stk'}],
+ Try = #c_try{anno=Anno,arg=B,vars=[Var],body=Var,
+ evars=Evs,handler=void()},
+ expr(Try, effect, Sub);
expr(#c_catch{body=B0}=Catch, _, Sub) ->
%% We can remove catch if the value is simple
B1 = body(B0, value, Sub),
@@ -2422,16 +2431,10 @@ move_let_into_expr(#c_let{vars=InnerVs0,body=InnerBody0}=Inner,
Outer#c_let{vars=OuterVs,arg=Arg,
body=Inner#c_let{vars=InnerVs,arg=OuterBody,body=InnerBody}};
move_let_into_expr(#c_let{vars=Lvs0,body=Lbody0}=Let,
- #c_case{arg=Cexpr0,clauses=[Ca0,Cb0|Cs]}=Case, Sub0) ->
- %% Test if there are no more clauses than Ca0 and Cb0, or if
- %% Cb0 is guaranteed to match.
- TwoClauses = Cs =:= [] orelse
- case Cb0 of
- #c_clause{pats=[#c_var{}],guard=#c_literal{val=true}} -> true;
- _ -> false
- end,
- case {TwoClauses,is_failing_clause(Ca0),is_failing_clause(Cb0)} of
- {true,false,true} ->
+ #c_case{arg=Cexpr0,clauses=[Ca0|Cs0]}=Case, Sub0) ->
+ case not is_failing_clause(Ca0) andalso
+ are_all_failing_clauses(Cs0) of
+ true ->
%% let <Lvars> = case <Case-expr> of
%% <Cpats> -> <Clause-body>;
%% <OtherCpats> -> erlang:error(...)
@@ -2467,8 +2470,8 @@ move_let_into_expr(#c_let{vars=Lvs0,body=Lbody0}=Let,
body=Lbody},
Ca = Ca0#c_clause{pats=CaPats,guard=G,body=B},
- Cb = clause(Cb0, Cexpr, value, Sub0),
- Case#c_case{arg=Cexpr,clauses=[Ca,Cb]}
+ Cs = [clause(C, Cexpr, value, Sub0) || C <- Cs0],
+ Case#c_case{arg=Cexpr,clauses=[Ca|Cs]}
catch
nomatch ->
%% This is not a defeat. The code will eventually
@@ -2476,7 +2479,7 @@ move_let_into_expr(#c_let{vars=Lvs0,body=Lbody0}=Let,
%% optimizations done in this module.
impossible
end;
- {_,_,_} -> impossible
+ false -> impossible
end;
move_let_into_expr(#c_let{vars=Lvs0,body=Lbody0}=Let,
#c_seq{arg=Sarg0,body=Sbody0}=Seq, Sub0) ->
@@ -2499,6 +2502,9 @@ move_let_into_expr(#c_let{vars=Lvs0,body=Lbody0}=Let,
body=Lbody}};
move_let_into_expr(_Let, _Expr, _Sub) -> impossible.
+are_all_failing_clauses(Cs) ->
+ all(fun is_failing_clause/1, Cs).
+
is_failing_clause(#c_clause{body=B}) ->
will_fail(B).
diff --git a/lib/compiler/src/v3_codegen.erl b/lib/compiler/src/v3_codegen.erl
index 47c1567f10..006a6a82d2 100644
--- a/lib/compiler/src/v3_codegen.erl
+++ b/lib/compiler/src/v3_codegen.erl
@@ -19,25 +19,6 @@
%%
%% Purpose : Code generator for Beam.
-%% The following assumptions have been made:
-%%
-%% 1. Matches, i.e. things with {match,M,Ret} wrappers, only return
-%% values; no variables are exported. If the match would have returned
-%% extra variables then these have been transformed to multiple return
-%% values.
-%%
-%% 2. All BIF's called in guards are gc-safe so there is no need to
-%% put thing on the stack in the guard. While this would in principle
-%% work it would be difficult to keep track of the stack depth when
-%% trimming.
-%%
-%% The code generation uses variable lifetime information added by
-%% the v3_life module to save variables, allocate registers and
-%% move registers to the stack when necessary.
-%%
-%% We try to use a consistent variable name scheme throughout. The
-%% StackReg record is always called Bef,Int<n>,Aft.
-
-module(v3_codegen).
%% The main interface.
@@ -45,12 +26,14 @@
-import(lists, [member/2,keymember/3,keysort/2,keydelete/3,
append/1,flatmap/2,filter/2,foldl/3,foldr/3,mapfoldl/3,
- sort/1,reverse/1,reverse/2]).
--import(v3_life, [vdb_find/2]).
+ sort/1,reverse/1,reverse/2,map/2]).
+-import(ordsets, [add_element/2,intersection/2,union/2]).
-%%-compile([export_all]).
+-include("v3_kernel.hrl").
--include("v3_life.hrl").
+%% These are not defined in v3_kernel.hrl.
+get_kanno(Kthing) -> element(2, Kthing).
+set_kanno(Kthing, Anno) -> setelement(2, Kthing, Anno).
%% Main codegen structure.
-record(cg, {lcount=1, %Label counter
@@ -61,38 +44,273 @@
functable=#{}, %Map of local functions: {Name,Arity}=>Label
in_catch=false, %Inside a catch or not.
need_frame, %Need a stack frame.
- ultimate_failure %Label for ultimate match failure.
- }).
+ ultimate_failure, %Label for ultimate match failure.
+ ctx %Match context.
+ }).
%% Stack/register state record.
-record(sr, {reg=[], %Register table
stk=[], %Stack table
res=[]}). %Reserved regs: [{reserved,I,V}]
--type life_module() :: {module(),_,_,[_]}.
+%% Internal records.
+-record(cg_need_heap, {anno=[] :: term(),
+ h=0 :: integer()}).
+-record(cg_block, {anno=[] :: term(),
+ es=[] :: [term()]}).
--spec module(life_module(), [compile:option()]) -> {'ok',beam_asm:module_code()}.
+-type vdb_entry() :: {atom(),non_neg_integer(),non_neg_integer()}.
-module({Mod,Exp,Attr,Forms}, _Options) ->
- {Fs,St} = functions(Forms, {atom,Mod}),
- {ok,{Mod,Exp,Attr,Fs,St#cg.lcount}}.
+-record(l, {i=0 :: non_neg_integer(), %Op number
+ vdb=[] :: [vdb_entry()], %Variable database
+ a=[] :: [term()]}). %Core annotation
+
+-spec module(#k_mdef{}, [compile:option()]) -> {'ok',beam_asm:module_code()}.
+
+module(#k_mdef{name=Mod,exports=Es,attributes=Attr,body=Forms}, _Opts) ->
+ {Asm,St} = functions(Forms, {atom,Mod}),
+ {ok,{Mod,Es,Attr,Asm,St#cg.lcount}}.
functions(Forms, AtomMod) ->
mapfoldl(fun (F, St) -> function(F, AtomMod, St) end, #cg{lcount=1}, Forms).
-function({function,Name,Arity,Asm0,Vb,Vdb,Anno}, AtomMod, St0) ->
+function(#k_fdef{anno=#k{a=Anno},func=Name,arity=Arity,
+ vars=As,body=Kb}, AtomMod, St0) ->
try
- {Asm,EntryLabel,St} = cg_fun(Vb, Asm0, Vdb, AtomMod,
- {Name,Arity}, Anno, St0),
- Func = {function,Name,Arity,EntryLabel,Asm},
- {Func,St}
+ %% Annotate kernel records with variable usage.
+ #k_match{} = Kb, %Assertion.
+ Vdb0 = init_vars(As),
+ {Body,_,Vdb} = body(Kb, 1, Vdb0),
+
+ %% Generate the BEAM assembly code.
+ {Asm,EntryLabel,St} = cg_fun(Body, As, Vdb, AtomMod,
+ {Name,Arity}, Anno, St0),
+ Func = {function,Name,Arity,EntryLabel,Asm},
+ {Func,St}
catch
- Class:Error ->
- Stack = erlang:get_stacktrace(),
- io:fwrite("Function: ~w/~w\n", [Name,Arity]),
- erlang:raise(Class, Error, Stack)
+ Class:Error ->
+ Stack = erlang:get_stacktrace(),
+ io:fwrite("Function: ~w/~w\n", [Name,Arity]),
+ erlang:raise(Class, Error, Stack)
end.
+%% This pass creates beam format annotated with variable lifetime
+%% information. Each thing is given an index and for each variable we
+%% store the first and last index for its occurrence. The variable
+%% database, VDB, attached to each thing is only relevant internally
+%% for that thing.
+%%
+%% For nested things like matches the numbering continues locally and
+%% the VDB for that thing refers to the variable usage within that
+%% thing. Variables which live through a such a thing are internally
+%% given a very large last index. Internally the indexes continue
+%% after the index of that thing. This creates no problems as the
+%% internal variable info never escapes and externally we only see
+%% variable which are alive both before or after.
+%%
+%% This means that variables never "escape" from a thing and the only
+%% way to get values from a thing is to "return" them, with 'break' or
+%% 'return'. Externally these values become the return values of the
+%% thing. This is no real limitation as most nested things have
+%% multiple threads so working out a common best variable usage is
+%% difficult.
+
+%% body(Kbody, I, Vdb) -> {[Expr],MaxI,Vdb}.
+%% Handle a body.
+
+body(#k_seq{arg=Ke,body=Kb}, I, Vdb0) ->
+ %%ok = io:fwrite("life ~w:~p~n", [?LINE,{Ke,I,Vdb0}]),
+ A = get_kanno(Ke),
+ Vdb1 = use_vars(union(A#k.us, A#k.ns), I, Vdb0),
+ {Es,MaxI,Vdb2} = body(Kb, I+1, Vdb1),
+ E = expr(Ke, I, Vdb2),
+ {[E|Es],MaxI,Vdb2};
+body(Ke, I, Vdb0) ->
+ %%ok = io:fwrite("life ~w:~p~n", [?LINE,{Ke,I,Vdb0}]),
+ A = get_kanno(Ke),
+ Vdb1 = use_vars(union(A#k.us, A#k.ns), I, Vdb0),
+ E = expr(Ke, I, Vdb1),
+ {[E],I,Vdb1}.
+
+%% expr(Kexpr, I, Vdb) -> Expr.
+
+expr(#k_test{anno=A}=Test, I, _Vdb) ->
+ Test#k_test{anno=#l{i=I,a=A#k.a}};
+expr(#k_call{anno=A}=Call, I, _Vdb) ->
+ Call#k_call{anno=#l{i=I,a=A#k.a}};
+expr(#k_enter{anno=A}=Enter, I, _Vdb) ->
+ Enter#k_enter{anno=#l{i=I,a=A#k.a}};
+expr(#k_bif{anno=A}=Bif, I, _Vdb) ->
+ Bif#k_bif{anno=#l{i=I,a=A#k.a}};
+expr(#k_match{anno=A,body=Kb,ret=Rs}, I, Vdb) ->
+ %% Work out imported variables which need to be locked.
+ Mdb = vdb_sub(I, I+1, Vdb),
+ M = match(Kb, A#k.us, I+1, Mdb),
+ L = #l{i=I,vdb=use_vars(A#k.us, I+1, Mdb),a=A#k.a},
+ #k_match{anno=L,body=M,ret=Rs};
+expr(#k_guard_match{anno=A,body=Kb,ret=Rs}, I, Vdb) ->
+ %% Work out imported variables which need to be locked.
+ Mdb = vdb_sub(I, I+1, Vdb),
+ M = match(Kb, A#k.us, I+1, Mdb),
+ L = #l{i=I,vdb=use_vars(A#k.us, I+1, Mdb),a=A#k.a},
+ #k_guard_match{anno=L,body=M,ret=Rs};
+expr(#k_protected{}=Protected, I, Vdb) ->
+ protected(Protected, I, Vdb);
+expr(#k_try{anno=A,arg=Ka,vars=Vs,body=Kb,evars=Evs,handler=Kh}=Try, I, Vdb) ->
+ %% Lock variables that are alive before the catch and used afterwards.
+ %% Don't lock variables that are only used inside the try.
+ Tdb0 = vdb_sub(I, I+1, Vdb),
+ %% This is the tricky bit. Lock variables in Arg that are used in
+ %% the body and handler. Add try tag 'variable'.
+ Ab = get_kanno(Kb),
+ Ah = get_kanno(Kh),
+ Tdb1 = use_vars(union(Ab#k.us, Ah#k.us), I+3, Tdb0),
+ Tdb2 = vdb_sub(I, I+2, Tdb1),
+ Vnames = fun (Kvar) -> Kvar#k_var.name end, %Get the variable names
+ {Aes,_,Adb} = body(Ka, I+2, add_var({catch_tag,I+1}, I+1, locked, Tdb2)),
+ {Bes,_,Bdb} = body(Kb, I+4, new_vars(sort(map(Vnames, Vs)), I+3, Tdb2)),
+ {Hes,_,Hdb} = body(Kh, I+4, new_vars(sort(map(Vnames, Evs)), I+3, Tdb2)),
+ L = #l{i=I,vdb=Tdb1,a=A#k.a},
+ Try#k_try{anno=L,
+ arg=#cg_block{es=Aes,anno=#l{i=I+1,vdb=Adb,a=[]}},
+ vars=Vs,body=#cg_block{es=Bes,anno=#l{i=I+3,vdb=Bdb,a=[]}},
+ evars=Evs,handler=#cg_block{es=Hes,anno=#l{i=I+3,vdb=Hdb,a=[]}}};
+expr(#k_try_enter{anno=A,arg=Ka,vars=Vs,body=Kb,evars=Evs,handler=Kh}, I, Vdb) ->
+ %% Lock variables that are alive before the catch and used afterwards.
+ %% Don't lock variables that are only used inside the try.
+ Tdb0 = vdb_sub(I, I+1, Vdb),
+ %% This is the tricky bit. Lock variables in Arg that are used in
+ %% the body and handler. Add try tag 'variable'.
+ Ab = get_kanno(Kb),
+ Ah = get_kanno(Kh),
+ Tdb1 = use_vars(union(Ab#k.us, Ah#k.us), I+3, Tdb0),
+ Tdb2 = vdb_sub(I, I+2, Tdb1),
+ Vnames = fun (Kvar) -> Kvar#k_var.name end, %Get the variable names
+ {Aes,_,Adb} = body(Ka, I+2, add_var({catch_tag,I+1}, I+1, 1000000, Tdb2)),
+ {Bes,_,Bdb} = body(Kb, I+4, new_vars(sort(map(Vnames, Vs)), I+3, Tdb2)),
+ {Hes,_,Hdb} = body(Kh, I+4, new_vars(sort(map(Vnames, Evs)), I+3, Tdb2)),
+ L = #l{i=I,vdb=Tdb1,a=A#k.a},
+ #k_try_enter{anno=L,
+ arg=#cg_block{es=Aes,anno=#l{i=I+1,vdb=Adb,a=[]}},
+ vars=Vs,body=#cg_block{es=Bes,anno=#l{i=I+3,vdb=Bdb,a=[]}},
+ evars=Evs,handler=#cg_block{es=Hes,anno=#l{i=I+3,vdb=Hdb,a=[]}}};
+expr(#k_catch{anno=A,body=Kb}=Catch, I, Vdb) ->
+ %% Lock variables that are alive before the catch and used afterwards.
+ %% Don't lock variables that are only used inside the catch.
+ %% Add catch tag 'variable'.
+ Cdb0 = vdb_sub(I, I+1, Vdb),
+ {Es,_,Cdb1} = body(Kb, I+1, add_var({catch_tag,I}, I, locked, Cdb0)),
+ L = #l{i=I,vdb=Cdb1,a=A#k.a},
+ Catch#k_catch{anno=L,body=#cg_block{es=Es}};
+expr(#k_receive{anno=A,var=V,body=Kb,action=Ka}=Recv, I, Vdb) ->
+ %% Work out imported variables which need to be locked.
+ Rdb = vdb_sub(I, I+1, Vdb),
+ M = match(Kb, add_element(V#k_var.name, A#k.us), I+1,
+ new_vars([V#k_var.name], I, Rdb)),
+ {Tes,_,Adb} = body(Ka, I+1, Rdb),
+ Le = #l{i=I,vdb=use_vars(A#k.us, I+1, Vdb),a=A#k.a},
+ Recv#k_receive{anno=Le,body=M,
+ action=#cg_block{anno=#l{i=I+1,vdb=Adb,a=[]},es=Tes}};
+expr(#k_receive_accept{anno=A}, I, _Vdb) ->
+ #k_receive_accept{anno=#l{i=I,a=A#k.a}};
+expr(#k_receive_next{anno=A}, I, _Vdb) ->
+ #k_receive_next{anno=#l{i=I,a=A#k.a}};
+expr(#k_put{anno=A}=Put, I, _Vdb) ->
+ Put#k_put{anno=#l{i=I,a=A#k.a}};
+expr(#k_break{anno=A}=Break, I, _Vdb) ->
+ Break#k_break{anno=#l{i=I,a=A#k.a}};
+expr(#k_guard_break{anno=A}=Break, I, Vdb) ->
+ Locked = [V || {V,_,_} <- Vdb],
+ L = #l{i=I,a=A#k.a},
+ Break#k_guard_break{anno=L,locked=Locked};
+expr(#k_return{anno=A}=Ret, I, _Vdb) ->
+ Ret#k_return{anno=#l{i=I,a=A#k.a}}.
+
+%% protected(Kprotected, I, Vdb) -> Protected.
+%% Only used in guards.
+
+protected(#k_protected{anno=A,arg=Ts}=Prot, I, Vdb) ->
+ %% Lock variables that are alive before try and used afterwards.
+ %% Don't lock variables that are only used inside the protected
+ %% expression.
+ Pdb0 = vdb_sub(I, I+1, Vdb),
+ {T,MaxI,Pdb1} = body(Ts, I+1, Pdb0),
+ Pdb2 = use_vars(A#k.ns, MaxI+1, Pdb1), %Save "return" values
+ Prot#k_protected{arg=T,anno=#l{i=I,a=A#k.a,vdb=Pdb2}}.
+
+%% match(Kexpr, [LockVar], I, Vdb) -> Expr.
+%% Convert match tree to old format.
+
+match(#k_alt{anno=A,first=Kf,then=Kt}, Ls, I, Vdb0) ->
+ Vdb1 = use_vars(union(A#k.us, Ls), I, Vdb0),
+ F = match(Kf, Ls, I+1, Vdb1),
+ T = match(Kt, Ls, I+1, Vdb1),
+ #k_alt{anno=[],first=F,then=T};
+match(#k_select{anno=A,var=V,types=Kts}=Select, Ls0, I, Vdb0) ->
+ Vanno = get_kanno(V),
+ Ls1 = case member(no_usage, Vanno) of
+ false -> add_element(V#k_var.name, Ls0);
+ true -> Ls0
+ end,
+ Vdb1 = use_vars(union(A#k.us, Ls1), I, Vdb0),
+ Ts = [type_clause(Tc, Ls1, I+1, Vdb1) || Tc <- Kts],
+ Select#k_select{anno=[],types=Ts};
+match(#k_guard{anno=A,clauses=Kcs}, Ls, I, Vdb0) ->
+ Vdb1 = use_vars(union(A#k.us, Ls), I, Vdb0),
+ Cs = [guard_clause(G, Ls, I+1, Vdb1) || G <- Kcs],
+ #k_guard{anno=[],clauses=Cs};
+match(Other, Ls, I, Vdb0) ->
+ Vdb1 = use_vars(Ls, I, Vdb0),
+ {B,_,Vdb2} = body(Other, I+1, Vdb1),
+ Le = #l{i=I,vdb=Vdb2,a=[]},
+ #cg_block{anno=Le,es=B}.
+
+type_clause(#k_type_clause{anno=A,type=T,values=Kvs}, Ls, I, Vdb0) ->
+ %%ok = io:format("life ~w: ~p~n", [?LINE,{T,Kvs}]),
+ Vdb1 = use_vars(union(A#k.us, Ls), I+1, Vdb0),
+ Vs = [val_clause(Vc, Ls, I+1, Vdb1) || Vc <- Kvs],
+ #k_type_clause{anno=[],type=T,values=Vs}.
+
+val_clause(#k_val_clause{anno=A,val=V,body=Kb}, Ls0, I, Vdb0) ->
+ New = (get_kanno(V))#k.ns,
+ Bus = (get_kanno(Kb))#k.us,
+ %%ok = io:format("Ls0 = ~p, Used=~p\n New=~p, Bus=~p\n", [Ls0,Used,New,Bus]),
+ Ls1 = union(intersection(New, Bus), Ls0), %Lock for safety
+ Vdb1 = use_vars(union(A#k.us, Ls1), I+1, new_vars(New, I, Vdb0)),
+ B = match(Kb, Ls1, I+1, Vdb1),
+ Le = #l{i=I,vdb=use_vars(Bus, I+1, Vdb1),a=A#k.a},
+ #k_val_clause{anno=Le,val=V,body=B}.
+
+guard_clause(#k_guard_clause{anno=A,guard=Kg,body=Kb}, Ls, I, Vdb0) ->
+ Vdb1 = use_vars(union(A#k.us, Ls), I+2, Vdb0),
+ Gdb = vdb_sub(I+1, I+2, Vdb1),
+ G = protected(Kg, I+1, Gdb),
+ B = match(Kb, Ls, I+2, Vdb1),
+ Le = #l{i=I,vdb=use_vars((get_kanno(Kg))#k.us, I+2, Vdb1),a=A#k.a},
+ #k_guard_clause{anno=Le,guard=G,body=B}.
+
+
+%% Here follows the code generator pass.
+%%
+%% The following assumptions have been made:
+%%
+%% 1. Matches, i.e. things with {match,M,Ret} wrappers, only return
+%% values; no variables are exported. If the match would have returned
+%% extra variables then these have been transformed to multiple return
+%% values.
+%%
+%% 2. All BIF's called in guards are gc-safe so there is no need to
+%% put thing on the stack in the guard. While this would in principle
+%% work it would be difficult to keep track of the stack depth when
+%% trimming.
+%%
+%% The code generation uses variable lifetime information added by
+%% the previous pass to save variables, allocate registers and
+%% move registers to the stack when necessary.
+%%
+%% We try to use a consistent variable name scheme throughout. The
+%% StackReg record is always called Bef,Int<n>,Aft.
+
%% cg_fun([Lkexpr], [HeadVar], Vdb, State) -> {[Ainstr],State}
cg_fun(Les, Hvs, Vdb, AtomMod, NameArity, Anno, St0) ->
@@ -114,14 +332,14 @@ cg_fun(Les, Hvs, Vdb, AtomMod, NameArity, Anno, St0) ->
%% Note that and 'if_end' instruction does not need any
%% live x registers, so it will always be safe to jump to
%% it. (We never ever expect the jump to be taken, and in
- %% must functions there will never be any references to
+ %% most functions there will never be any references to
%% the label in the first place.)
%%
{UltimateMatchFail,St3} = new_label(St2),
%% Create initial stack/register state, clear unused arguments.
- Bef = clear_dead(#sr{reg=foldl(fun ({var,V}, Reg) ->
+ Bef = clear_dead(#sr{reg=foldl(fun (#k_var{name=V}, Reg) ->
put_reg(V, Reg)
end, [], Hvs),
stk=[]}, 0, Vdb),
@@ -136,45 +354,43 @@ cg_fun(Les, Hvs, Vdb, AtomMod, NameArity, Anno, St0) ->
%% cg(Lkexpr, Vdb, StackReg, State) -> {[Ainstr],StackReg,State}.
%% Generate code for a kexpr.
-%% Split function into two steps for clarity, not efficiency.
-
-cg(Le, Vdb, Bef, St) ->
- cg(Le#l.ke, Le, Vdb, Bef, St).
-cg({block,Es}, Le, Vdb, Bef, St) ->
+cg(#cg_block{anno=Le,es=Es}, Vdb, Bef, St) ->
block_cg(Es, Le, Vdb, Bef, St);
-cg({match,M,Rs}, Le, Vdb, Bef, St) ->
+cg(#k_match{anno=Le,body=M,ret=Rs}, Vdb, Bef, St) ->
match_cg(M, Rs, Le, Vdb, Bef, St);
-cg({guard_match,M,Rs}, Le, Vdb, Bef, St) ->
+cg(#k_guard_match{anno=Le,body=M,ret=Rs}, Vdb, Bef, St) ->
guard_match_cg(M, Rs, Le, Vdb, Bef, St);
-cg({call,Func,As,Rs}, Le, Vdb, Bef, St) ->
+cg(#k_call{anno=Le,op=Func,args=As,ret=Rs}, Vdb, Bef, St) ->
call_cg(Func, As, Rs, Le, Vdb, Bef, St);
-cg({enter,Func,As}, Le, Vdb, Bef, St) ->
+cg(#k_enter{anno=Le,op=Func,args=As}, Vdb, Bef, St) ->
enter_cg(Func, As, Le, Vdb, Bef, St);
-cg({bif,Bif,As,Rs}, Le, Vdb, Bef, St) ->
- bif_cg(Bif, As, Rs, Le, Vdb, Bef, St);
-cg({gc_bif,Bif,As,Rs}, Le, Vdb, Bef, St) ->
- gc_bif_cg(Bif, As, Rs, Le, Vdb, Bef, St);
-cg({internal,Bif,As,Rs}, Le, Vdb, Bef, St) ->
- internal_cg(Bif, As, Rs, Le, Vdb, Bef, St);
-cg({receive_loop,Te,Rvar,Rm,Tes,Rs}, Le, Vdb, Bef, St) ->
+cg(#k_bif{anno=Le}=Bif, Vdb, Bef, St) ->
+ bif_cg(Bif, Le, Vdb, Bef, St);
+cg(#k_receive{anno=Le,timeout=Te,var=Rvar,body=Rm,action=Tes,ret=Rs},
+ Vdb, Bef, St) ->
recv_loop_cg(Te, Rvar, Rm, Tes, Rs, Le, Vdb, Bef, St);
-cg(receive_next, Le, Vdb, Bef, St) ->
+cg(#k_receive_next{anno=Le}, Vdb, Bef, St) ->
recv_next_cg(Le, Vdb, Bef, St);
-cg(receive_accept, _Le, _Vdb, Bef, St) -> {[remove_message],Bef,St};
-cg({'try',Ta,Vs,Tb,Evs,Th,Rs}, Le, Vdb, Bef, St) ->
+cg(#k_receive_accept{}, _Vdb, Bef, St) ->
+ {[remove_message],Bef,St};
+cg(#k_try{anno=Le,arg=Ta,vars=Vs,body=Tb,evars=Evs,handler=Th,ret=Rs},
+ Vdb, Bef, St) ->
try_cg(Ta, Vs, Tb, Evs, Th, Rs, Le, Vdb, Bef, St);
-cg({try_enter,Ta,Vs,Tb,Evs,Th}, Le, Vdb, Bef, St) ->
+cg(#k_try_enter{anno=Le,arg=Ta,vars=Vs,body=Tb,evars=Evs,handler=Th},
+ Vdb, Bef, St) ->
try_enter_cg(Ta, Vs, Tb, Evs, Th, Le, Vdb, Bef, St);
-cg({'catch',Cb,R}, Le, Vdb, Bef, St) ->
+cg(#k_catch{anno=Le,body=Cb,ret=[R]}, Vdb, Bef, St) ->
catch_cg(Cb, R, Le, Vdb, Bef, St);
-cg({set,Var,Con}, Le, Vdb, Bef, St) ->
- set_cg(Var, Con, Le, Vdb, Bef, St);
-cg({return,Rs}, Le, Vdb, Bef, St) -> return_cg(Rs, Le, Vdb, Bef, St);
-cg({break,Bs}, Le, Vdb, Bef, St) -> break_cg(Bs, Le, Vdb, Bef, St);
-cg({guard_break,Bs,N}, Le, Vdb, Bef, St) ->
+cg(#k_put{anno=Le,arg=Con,ret=Var}, Vdb, Bef, St) ->
+ put_cg(Var, Con, Le, Vdb, Bef, St);
+cg(#k_return{anno=Le,args=Rs}, Vdb, Bef, St) ->
+ return_cg(Rs, Le, Vdb, Bef, St);
+cg(#k_break{anno=Le,args=Bs}, Vdb, Bef, St) ->
+ break_cg(Bs, Le, Vdb, Bef, St);
+cg(#k_guard_break{anno=Le,args=Bs,locked=N}, Vdb, Bef, St) ->
guard_break_cg(Bs, N, Le, Vdb, Bef, St);
-cg({need_heap,H}, _Le, _Vdb, Bef, St) ->
+cg(#cg_need_heap{h=H}, _Vdb, Bef, St) ->
{[{test_heap,H,max_reg(Bef#sr.reg)}],Bef,St}.
%% cg_list([Kexpr], FirstI, Vdb, StackReg, St) -> {[Ainstr],StackReg,St}.
@@ -191,11 +407,11 @@ cg_list(Kes, I, Vdb, Bef, St0) ->
%% Insert need_heap instructions in Kexpr list. Try to be smart and
%% collect them together as much as possible.
-need_heap(Kes0, I) ->
+need_heap(Kes0, _I) ->
{Kes,H} = need_heap_0(reverse(Kes0), 0, []),
%% Prepend need_heap if necessary.
- need_heap_need(I, H) ++ Kes.
+ need_heap_need(H) ++ Kes.
need_heap_0([Ke|Kes], H0, Acc) ->
{Ns,H} = need_heap_1(Ke, H0),
@@ -203,27 +419,54 @@ need_heap_0([Ke|Kes], H0, Acc) ->
need_heap_0([], H, Acc) ->
{Acc,H}.
-need_heap_1(#l{ke={set,_,{binary,_}},i=I}, H) ->
- {need_heap_need(I, H),0};
-need_heap_1(#l{ke={set,_,{map,_,_,_}},i=I}, H) ->
- {need_heap_need(I, H),0};
-need_heap_1(#l{ke={set,_,Val}}, H) ->
+need_heap_1(#k_put{arg=#k_binary{}}, H) ->
+ {need_heap_need(H),0};
+need_heap_1(#k_put{arg=#k_map{}}, H) ->
+ {need_heap_need(H),0};
+need_heap_1(#k_put{arg=Val}, H) ->
%% Just pass through adding to needed heap.
{[],H + case Val of
- {cons,_} -> 2;
- {tuple,Es} -> 1 + length(Es);
+ #k_cons{} -> 2;
+ #k_tuple{es=Es} -> 1 + length(Es);
_Other -> 0
end};
-need_heap_1(#l{ke={bif,_Bif,_As,_Rs}}, H) ->
- {[],H};
-need_heap_1(#l{i=I}, H) ->
+need_heap_1(#k_bif{}=Bif, H) ->
+ case is_gc_bif(Bif) of
+ false ->
+ {[],H};
+ true ->
+ {need_heap_need(H),0}
+ end;
+need_heap_1(_Ke, H) ->
%% Call or call-like instruction such as set_tuple_element/3.
- {need_heap_need(I, H),0}.
-
-need_heap_need(_I, 0) -> [];
-need_heap_need(I, H) -> [#l{ke={need_heap,H},i=I}].
-
-%% match_cg(Match, [Ret], Le, Vdb, StackReg, State) ->
+ {need_heap_need(H),0}.
+
+need_heap_need(0) -> [];
+need_heap_need(H) -> [#cg_need_heap{h=H}].
+
+%% is_gc_bif(#k_bif{}) -> true|false.
+%% is_gc_bif(Name, Arity) -> true|false.
+%% Determines whether the BIF Name/Arity might do a GC.
+
+is_gc_bif(#k_bif{op=#k_remote{name=#k_atom{val=Name}},args=Args}) ->
+ is_gc_bif(Name, length(Args));
+is_gc_bif(#k_bif{op=#k_internal{}}) ->
+ true.
+
+is_gc_bif(hd, 1) -> false;
+is_gc_bif(tl, 1) -> false;
+is_gc_bif(self, 0) -> false;
+is_gc_bif(node, 0) -> false;
+is_gc_bif(node, 1) -> false;
+is_gc_bif(element, 2) -> false;
+is_gc_bif(get, 1) -> false;
+is_gc_bif(tuple_size, 1) -> false;
+is_gc_bif(Bif, Arity) ->
+ not (erl_internal:bool_op(Bif, Arity) orelse
+ erl_internal:new_type_test(Bif, Arity) orelse
+ erl_internal:comp_op(Bif, Arity)).
+
+%% match_cg(Matc, [Ret], Le, Vdb, StackReg, State) ->
%% {[Ainstr],StackReg,State}.
%% Generate code for a match. First save all variables on the stack
%% that are to survive after the match. We leave saved variables in
@@ -252,7 +495,7 @@ guard_match_cg(M, Rs, Le, Vdb, Bef, St0) ->
clear_dead(Aft#sr{reg=Reg}, I, Vdb),
St2#cg{break=St1#cg.break}}.
-guard_match_regs([{I,gbreakvar}|Rs], [{var,V}|Vs]) ->
+guard_match_regs([{I,gbreakvar}|Rs], [#k_var{name=V}|Vs]) ->
[{I,V}|guard_match_regs(Rs, Vs)];
guard_match_regs([R|Rs], Vs) ->
[R|guard_match_regs(Rs, Vs)];
@@ -264,17 +507,14 @@ guard_match_regs([], []) -> [].
%% down as each level which uses this takes its own internal Vdb not
%% the outer one.
-match_cg(Le, Fail, Bef, St) ->
- match_cg(Le#l.ke, Le, Fail, Bef, St).
-
-match_cg({alt,F,S}, _Le, Fail, Bef, St0) ->
+match_cg(#k_alt{first=F,then=S}, Fail, Bef, St0) ->
{Tf,St1} = new_label(St0),
{Fis,Faft,St2} = match_cg(F, Tf, Bef, St1),
{Sis,Saft,St3} = match_cg(S, Fail, Bef, St2),
Aft = sr_merge(Faft, Saft),
{Fis ++ [{label,Tf}] ++ Sis,Aft,St3};
-match_cg({select,{var,Vname}=V,Scs0}, #l{a=Anno}, Fail, Bef, St) ->
- ReuseForContext = member(reuse_for_context, Anno) andalso
+match_cg(#k_select{var=#k_var{anno=Vanno,name=Vname}=V,types=Scs0}, Fail, Bef, St) ->
+ ReuseForContext = member(reuse_for_context, Vanno) andalso
find_reg(Vname, Bef#sr.reg) =/= error,
Scs = case ReuseForContext of
false -> Scs0;
@@ -283,10 +523,10 @@ match_cg({select,{var,Vname}=V,Scs0}, #l{a=Anno}, Fail, Bef, St) ->
match_fmf(fun (S, F, Sta) ->
select_cg(S, V, F, Fail, Bef, Sta) end,
Fail, St, Scs);
-match_cg({guard,Gcs}, _Le, Fail, Bef, St) ->
+match_cg(#k_guard{clauses=Gcs}, Fail, Bef, St) ->
match_fmf(fun (G, F, Sta) -> guard_clause_cg(G, F, Bef, Sta) end,
Fail, St, Gcs);
-match_cg({block,Es}, Le, _Fail, Bef, St) ->
+match_cg(#cg_block{anno=Le,es=Es}, _Fail, Bef, St) ->
%% Must clear registers and stack of dead variables.
Int = clear_dead(Bef, Le#l.i, Le#l.vdb),
block_cg(Es, Le, Int, St).
@@ -294,8 +534,8 @@ match_cg({block,Es}, Le, _Fail, Bef, St) ->
%% bsm_rename_ctx([Clause], Var) -> [Clause]
%% We know from an annotation that the register for a binary can
%% be reused for the match context because the two are not truly
-%% alive at the same time (even though the conservative life time
-%% information calculated by v3_life says so).
+%% alive at the same time (even though the life time information
+%% says so).
%%
%% The easiest way to have those variables share the same register is
%% to rename the variable with the shortest life-span (the match
@@ -306,12 +546,14 @@ match_cg({block,Es}, Le, _Fail, Bef, St) ->
%% We must also remove all information about the match context
%% variable from all life-time information databases (Vdb).
-bsm_rename_ctx([#l{ke={type_clause,binary,
- [#l{ke={val_clause,{binary,{var,Old}},Ke0}}=L2]}}=L1|Cs], New) ->
+bsm_rename_ctx([#k_type_clause{type=k_binary,values=Vcs}=TC|Cs], New) ->
+ [#k_val_clause{val=#k_binary{segs=#k_var{name=Old}}=Bin,
+ body=Ke0}=VC0] = Vcs,
Ke = bsm_rename_ctx(Ke0, Old, New, false),
- [L1#l{ke={type_clause,binary,
- [L2#l{ke={val_clause,{binary,{var,New}},Ke}}]}}|bsm_rename_ctx(Cs, New)];
-bsm_rename_ctx([C|Cs], New) ->
+ VC = VC0#k_val_clause{val=Bin#k_binary{segs=#k_var{name=New}},
+ body=Ke},
+ [TC#k_type_clause{values=[VC]}|bsm_rename_ctx(Cs, New)];
+bsm_rename_ctx([C|Cs], New) ->
[C|bsm_rename_ctx(Cs, New)];
bsm_rename_ctx([], _) -> [].
@@ -321,34 +563,24 @@ bsm_rename_ctx([], _) -> [].
%% only complicatate things to recurse into blocks not in a protected
%% (the match context variable is not live inside them).
-bsm_rename_ctx(#l{ke={select,{var,V},Cs0}}=L, Old, New, InProt) ->
+bsm_rename_ctx(#k_select{var=#k_var{name=V},types=Cs0}=Sel,
+ Old, New, InProt) ->
Cs = bsm_rename_ctx_list(Cs0, Old, New, InProt),
- L#l{ke={select,{var,bsm_rename_var(V, Old, New)},Cs}};
-bsm_rename_ctx(#l{ke={type_clause,Type,Cs0}}=L, Old, New, InProt) ->
+ Sel#k_select{var=#k_var{name=bsm_rename_var(V, Old, New)},types=Cs};
+bsm_rename_ctx(#k_type_clause{values=Cs0}=TC, Old, New, InProt) ->
Cs = bsm_rename_ctx_list(Cs0, Old, New, InProt),
- L#l{ke={type_clause,Type,Cs}};
-bsm_rename_ctx(#l{ke={val_clause,{bin_end,V},Ke0}}=L, Old, New, InProt) ->
- Ke = bsm_rename_ctx(Ke0, Old, New, InProt),
- L#l{ke={val_clause,{bin_end,bsm_rename_var(V, Old, New)},Ke}};
-bsm_rename_ctx(#l{ke={val_clause,{bin_seg,V,Sz,U,Type,Fl,Vs},Ke0}}=L,
- Old, New, InProt) ->
+ TC#k_type_clause{values=Cs};
+bsm_rename_ctx(#k_val_clause{body=Ke0}=VC, Old, New, InProt) ->
Ke = bsm_rename_ctx(Ke0, Old, New, InProt),
- L#l{ke={val_clause,{bin_seg,bsm_rename_var(V, Old, New),Sz,U,Type,Fl,Vs},Ke}};
-bsm_rename_ctx(#l{ke={val_clause,{bin_int,V,Sz,U,Fl,Val,Vs},Ke0}}=L,
- Old, New, InProt) ->
- Ke = bsm_rename_ctx(Ke0, Old, New, InProt),
- L#l{ke={val_clause,{bin_int,bsm_rename_var(V, Old, New),Sz,U,Fl,Val,Vs},Ke}};
-bsm_rename_ctx(#l{ke={val_clause,Val,Ke0}}=L, Old, New, InProt) ->
- Ke = bsm_rename_ctx(Ke0, Old, New, InProt),
- L#l{ke={val_clause,Val,Ke}};
-bsm_rename_ctx(#l{ke={alt,F0,S0}}=L, Old, New, InProt) ->
+ VC#k_val_clause{body=Ke};
+bsm_rename_ctx(#k_alt{first=F0,then=S0}=Alt, Old, New, InProt) ->
F = bsm_rename_ctx(F0, Old, New, InProt),
S = bsm_rename_ctx(S0, Old, New, InProt),
- L#l{ke={alt,F,S}};
-bsm_rename_ctx(#l{ke={guard,Gcs0}}=L, Old, New, InProt) ->
+ Alt#k_alt{first=F,then=S};
+bsm_rename_ctx(#k_guard{clauses=Gcs0}=Guard, Old, New, InProt) ->
Gcs = bsm_rename_ctx_list(Gcs0, Old, New, InProt),
- L#l{ke={guard,Gcs}};
-bsm_rename_ctx(#l{ke={guard_clause,G0,B0}}=L, Old, New, InProt) ->
+ Guard#k_guard{clauses=Gcs};
+bsm_rename_ctx(#k_guard_clause{guard=G0,body=B0}=GC, Old, New, InProt) ->
G = bsm_rename_ctx(G0, Old, New, InProt),
B = bsm_rename_ctx(B0, Old, New, InProt),
%% A guard clause may cause unsaved variables to be saved on the stack.
@@ -356,49 +588,49 @@ bsm_rename_ctx(#l{ke={guard_clause,G0,B0}}=L, Old, New, InProt) ->
%% same register), it is neither in the stack nor register descriptor
%% lists and we would crash when we didn't find it unless we remove
%% it from the database.
- bsm_forget_var(L#l{ke={guard_clause,G,B}}, Old);
-bsm_rename_ctx(#l{ke={protected,Ts0,Rs}}=L, Old, New, _InProt) ->
+ bsm_forget_var(GC#k_guard_clause{guard=G,body=B}, Old);
+bsm_rename_ctx(#k_protected{arg=Ts0}=Prot, Old, New, _InProt) ->
InProt = true,
Ts = bsm_rename_ctx_list(Ts0, Old, New, InProt),
- bsm_forget_var(L#l{ke={protected,Ts,Rs}}, Old);
-bsm_rename_ctx(#l{ke={match,Ms0,Rs}}=L, Old, New, InProt) ->
+ bsm_forget_var(Prot#k_protected{arg=Ts}, Old);
+bsm_rename_ctx(#k_match{body=Ms0}=Match, Old, New, InProt) ->
Ms = bsm_rename_ctx(Ms0, Old, New, InProt),
- L#l{ke={match,Ms,Rs}};
-bsm_rename_ctx(#l{ke={guard_match,Ms0,Rs}}=L, Old, New, InProt) ->
+ Match#k_match{body=Ms};
+bsm_rename_ctx(#k_guard_match{body=Ms0}=Match, Old, New, InProt) ->
Ms = bsm_rename_ctx(Ms0, Old, New, InProt),
- L#l{ke={guard_match,Ms,Rs}};
-bsm_rename_ctx(#l{ke={test,_,_,_}}=L, _, _, _) -> L;
-bsm_rename_ctx(#l{ke={bif,_,_,_}}=L, _, _, _) -> L;
-bsm_rename_ctx(#l{ke={gc_bif,_,_,_}}=L, _, _, _) -> L;
-bsm_rename_ctx(#l{ke={set,_,_}}=L, _, _, _) -> L;
-bsm_rename_ctx(#l{ke={call,_,_,_}}=L, _, _, _) -> L;
-bsm_rename_ctx(#l{ke={block,_}}=L, Old, _, false) ->
+ Match#k_guard_match{body=Ms};
+bsm_rename_ctx(#k_test{}=Test, _, _, _) -> Test;
+bsm_rename_ctx(#k_bif{}=Bif, _, _, _) -> Bif;
+bsm_rename_ctx(#k_put{}=Put, _, _, _) -> Put;
+bsm_rename_ctx(#k_call{}=Call, _, _, _) -> Call;
+bsm_rename_ctx(#cg_block{}=Block, Old, _, false) ->
%% This block is not inside a protected. The match context variable cannot
%% possibly be live inside the block.
- bsm_forget_var(L, Old);
-bsm_rename_ctx(#l{ke={block,Bl0}}=L, Old, New, true) ->
+ bsm_forget_var(Block, Old);
+bsm_rename_ctx(#cg_block{es=Es0}=Block, Old, New, true) ->
%% A block in a protected. We must recursively rename the variable
%% inside the block.
- Bl = bsm_rename_ctx_list(Bl0, Old, New, true),
- bsm_forget_var(L#l{ke={block,Bl}}, Old);
-bsm_rename_ctx(#l{ke={guard_break,Bs,Locked0}}=L0, Old, _New, _InProt) ->
+ Es = bsm_rename_ctx_list(Es0, Old, New, true),
+ bsm_forget_var(Block#cg_block{es=Es}, Old);
+bsm_rename_ctx(#k_guard_break{locked=Locked0}=Break, Old, _New, _InProt) ->
Locked = Locked0 -- [Old],
- L = L0#l{ke={guard_break,Bs,Locked}},
- bsm_forget_var(L, Old).
+ bsm_forget_var(Break#k_guard_break{locked=Locked}, Old).
bsm_rename_ctx_list([C|Cs], Old, New, InProt) ->
[bsm_rename_ctx(C, Old, New, InProt)|
bsm_rename_ctx_list(Cs, Old, New, InProt)];
bsm_rename_ctx_list([], _, _, _) -> [].
-
+
bsm_rename_var(Old, Old, New) -> New;
bsm_rename_var(V, _, _) -> V.
%% bsm_forget_var(#l{}, Variable) -> #l{}
%% Remove a variable from the variable life-time database.
-bsm_forget_var(#l{vdb=Vdb}=L, V) ->
- L#l{vdb=keydelete(V, 1, Vdb)}.
+bsm_forget_var(Ke, V) ->
+ #l{vdb=Vdb} = L0 = get_kanno(Ke),
+ L = L0#l{vdb=keydelete(V, 1, Vdb)},
+ set_kanno(Ke, L).
%% block_cg([Kexpr], Le, Vdb, StackReg, St) -> {[Ainstr],StackReg,St}.
%% block_cg([Kexpr], Le, StackReg, St) -> {[Ainstr],StackReg,St}.
@@ -421,7 +653,7 @@ cg_block(Kes0, I, Vdb, Bef, St0) ->
case basic_block(Kes0) of
{Kes1,LastI,Args,Rest} ->
Ke = hd(Kes1),
- Fb = Ke#l.i,
+ #l{i=Fb} = get_kanno(Ke),
cg_basic_block(Kes1, Fb, LastI, Args, Vdb, Bef, St0);
{Kes1,Rest} ->
cg_list(Kes1, I, Vdb, Bef, St0)
@@ -431,36 +663,46 @@ cg_block(Kes0, I, Vdb, Bef, St0) ->
basic_block(Kes) -> basic_block(Kes, []).
-basic_block([Le|Les], Acc) ->
- case collect_block(Le#l.ke) of
- include -> basic_block(Les, [Le|Acc]);
+basic_block([Ke|Kes], Acc) ->
+ case collect_block(Ke) of
+ include -> basic_block(Kes, [Ke|Acc]);
{block_end,As} ->
case Acc of
[] ->
- %% If the basic block does not contain any set instructions,
+ %% If the basic block does not contain any #k_put{} instructions,
%% it serves no useful purpose to do basic block optimizations.
- {[Le],Les};
+ {[Ke],Kes};
_ ->
- {reverse(Acc, [Le]),Le#l.i,As,Les}
+ #l{i=I} = get_kanno(Ke),
+ {reverse(Acc, [Ke]),I,As,Kes}
end;
- no_block -> {reverse(Acc, [Le]),Les}
+ no_block -> {reverse(Acc, [Ke]),Kes}
end.
-%% sets that may garbage collect are not allowed in basic blocks.
-
-collect_block({set,_,{binary,_}}) -> no_block;
-collect_block({set,_,{map,_,_,_}}) -> no_block;
-collect_block({set,_,_}) -> include;
-collect_block({call,{var,_}=Var,As,_Rs}) -> {block_end,As++[Var]};
-collect_block({call,Func,As,_Rs}) -> {block_end,As++func_vars(Func)};
-collect_block({enter,{var,_}=Var,As})-> {block_end,As++[Var]};
-collect_block({enter,Func,As}) -> {block_end,As++func_vars(Func)};
-collect_block({return,Rs}) -> {block_end,Rs};
-collect_block({break,Bs}) -> {block_end,Bs};
+%% #k_put{} instructions that may garbage collect are not allowed in basic blocks.
+
+collect_block(#k_put{arg=#k_binary{}}) ->
+ no_block;
+collect_block(#k_put{arg=#k_map{}}) ->
+ no_block;
+collect_block(#k_put{}) ->
+ include;
+collect_block(#k_call{op=#k_var{}=Var,args=As}) ->
+ {block_end,As++[Var]};
+collect_block(#k_call{op=Func,args=As}) ->
+ {block_end,As++func_vars(Func)};
+collect_block(#k_enter{op=#k_var{}=Var,args=As}) ->
+ {block_end,As++[Var]};
+collect_block(#k_enter{op=Func,args=As}) ->
+ {block_end,As++func_vars(Func)};
+collect_block(#k_return{args=Rs}) ->
+ {block_end,Rs};
+collect_block(#k_break{args=Bs}) ->
+ {block_end,Bs};
collect_block(_) -> no_block.
-func_vars({remote,M,F}) when element(1, M) =:= var;
- element(1, F) =:= var ->
+func_vars(#k_remote{mod=M,name=F})
+ when is_record(M, k_var); is_record(F, k_var) ->
[M,F];
func_vars(_) -> [].
@@ -478,18 +720,19 @@ cg_basic_block(Kes, Fb, Lf, As, Vdb, Bef, St0) ->
{Int0,X0_v0,St0}, need_heap(Kes, Fb)),
{Keis,Aft,St1}.
-cg_basic_block(#l{ke={need_heap,_}}=Ke, {Inta,X0v,Sta}, _Lf, Vdb) ->
+cg_basic_block(#cg_need_heap{}=Ke, {Inta,X0v,Sta}, _Lf, Vdb) ->
{Keis,Intb,Stb} = cg(Ke, Vdb, Inta, Sta),
{Keis, {Intb,X0v,Stb}};
cg_basic_block(Ke, {Inta,X0_v1,Sta}, Lf, Vdb) ->
- {Sis,Intb} = save_carefully(Inta, Ke#l.i, Lf+1, Vdb),
- {X0_v2,Intc} = allocate_x0(X0_v1, Ke#l.i, Intb),
+ #l{i=I} = get_kanno(Ke),
+ {Sis,Intb} = save_carefully(Inta, I, Lf+1, Vdb),
+ {X0_v2,Intc} = allocate_x0(X0_v1, I, Intb),
Intd = reserve(Intc),
{Keis,Inte,Stb} = cg(Ke, Vdb, Intd, Sta),
{Sis ++ Keis, {Inte,X0_v2,Stb}}.
make_reservation([], _) -> [];
-make_reservation([{var,V}|As], I) -> [{I,V}|make_reservation(As, I+1)];
+make_reservation([#k_var{name=V}|As], I) -> [{I,V}|make_reservation(As, I+1)];
make_reservation([A|As], I) -> [{I,A}|make_reservation(As, I+1)].
reserve(Sr) -> Sr#sr{reg=reserve(Sr#sr.res, Sr#sr.reg, Sr#sr.stk)}.
@@ -538,7 +781,7 @@ save_carefully([V|Vs], Bef, Acc) ->
end.
x0_vars([], _Fb, _Lf, _Vdb) -> [];
-x0_vars([{var,V}|_], Fb, _Lf, Vdb) ->
+x0_vars([#k_var{name=V}|_], Fb, _Lf, Vdb) ->
{V,F,_L} = VFL = vdb_find(V, Vdb),
x0_vars1([VFL], Fb, F, Vdb);
x0_vars([X0|_], Fb, Lf, Vdb) ->
@@ -640,21 +883,27 @@ turn_yreg(Other, _MaxY) ->
%% wrong. These are different as in the second case there is no need
%% to try the next type, it will always fail.
-select_cg(#l{ke={type_clause,cons,[S]}}, {var,V}, Tf, Vf, Bef, St) ->
+select_cg(#k_type_clause{type=Type,values=Vs}, Var, Tf, Vf, Bef, St) ->
+ #k_var{name=V} = Var,
+ select_cg(Type, Vs, V, Tf, Vf, Bef, St).
+
+select_cg(k_cons, [S], V, Tf, Vf, Bef, St) ->
select_cons(S, V, Tf, Vf, Bef, St);
-select_cg(#l{ke={type_clause,nil,[S]}}, {var,V}, Tf, Vf, Bef, St) ->
+select_cg(k_nil, [S], V, Tf, Vf, Bef, St) ->
select_nil(S, V, Tf, Vf, Bef, St);
-select_cg(#l{ke={type_clause,binary,[S]}}, {var,V}, Tf, Vf, Bef, St) ->
+select_cg(k_binary, [S], V, Tf, Vf, Bef, St) ->
select_binary(S, V, Tf, Vf, Bef, St);
-select_cg(#l{ke={type_clause,bin_seg,S}}, {var,V}, Tf, _Vf, Bef, St) ->
+select_cg(k_bin_seg, S, V, Tf, _Vf, Bef, St) ->
select_bin_segs(S, V, Tf, Bef, St);
-select_cg(#l{ke={type_clause,bin_int,S}}, {var,V}, Tf, _Vf, Bef, St) ->
+select_cg(k_bin_int, S, V, Tf, _Vf, Bef, St) ->
select_bin_segs(S, V, Tf, Bef, St);
-select_cg(#l{ke={type_clause,bin_end,[S]}}, {var,V}, Tf, _Vf, Bef, St) ->
+select_cg(k_bin_end, [S], V, Tf, _Vf, Bef, St) ->
select_bin_end(S, V, Tf, Bef, St);
-select_cg(#l{ke={type_clause,map,S}}, {var,V}, Tf, Vf, Bef, St) ->
+select_cg(k_map, S, V, Tf, Vf, Bef, St) ->
select_map(S, V, Tf, Vf, Bef, St);
-select_cg(#l{ke={type_clause,Type,Scs}}, {var,V}, Tf, Vf, Bef, St0) ->
+select_cg(k_literal, S, V, Tf, Vf, Bef, St) ->
+ select_literal(S, V, Tf, Vf, Bef, St);
+select_cg(Type, Scs, V, Tf, Vf, Bef, St0) ->
{Vis,{Aft,St1}} =
mapfoldl(fun (S, {Int,Sta}) ->
{Val,Is,Inta,Stb} = select_val(S, V, Vf, Bef, Sta),
@@ -664,22 +913,29 @@ select_cg(#l{ke={type_clause,Type,Scs}}, {var,V}, Tf, Vf, Bef, St0) ->
{Vls,Sis,St2} = select_labels(OptVls, St1, [], []),
{select_val_cg(Type, fetch_var(V, Bef), Vls, Tf, Vf, Sis), Aft, St2}.
-select_val_cg(tuple, R, [Arity,{f,Lbl}], Tf, Vf, [{label,Lbl}|Sis]) ->
+select_val_cg(k_tuple, R, [Arity,{f,Lbl}], Tf, Vf, [{label,Lbl}|Sis]) ->
[{test,is_tuple,{f,Tf},[R]},{test,test_arity,{f,Vf},[R,Arity]}|Sis];
-select_val_cg(tuple, R, Vls, Tf, Vf, Sis) ->
+select_val_cg(k_tuple, R, Vls, Tf, Vf, Sis) ->
[{test,is_tuple,{f,Tf},[R]},{select_tuple_arity,R,{f,Vf},{list,Vls}}|Sis];
select_val_cg(Type, R, [Val, {f,Lbl}], Fail, Fail, [{label,Lbl}|Sis]) ->
- [{test,is_eq_exact,{f,Fail},[R,{Type,Val}]}|Sis];
+ [{test,is_eq_exact,{f,Fail},[R,{type(Type),Val}]}|Sis];
select_val_cg(Type, R, [Val, {f,Lbl}], Tf, Vf, [{label,Lbl}|Sis]) ->
[{test,select_type_test(Type),{f,Tf},[R]},
- {test,is_eq_exact,{f,Vf},[R,{Type,Val}]}|Sis];
+ {test,is_eq_exact,{f,Vf},[R,{type(Type),Val}]}|Sis];
select_val_cg(Type, R, Vls0, Tf, Vf, Sis) ->
- Vls1 = [case Value of {f,_Lbl} -> Value; _ -> {Type,Value} end || Value <- Vls0],
+ Vls1 = [case Value of
+ {f,_Lbl} -> Value;
+ _ -> {type(Type),Value}
+ end || Value <- Vls0],
[{test,select_type_test(Type),{f,Tf},[R]}, {select_val,R,{f,Vf},{list,Vls1}}|Sis].
-
-select_type_test(integer) -> is_integer;
-select_type_test(atom) -> is_atom;
-select_type_test(float) -> is_float.
+
+type(k_atom) -> atom;
+type(k_float) -> float;
+type(k_int) -> integer.
+
+select_type_test(k_int) -> is_integer;
+select_type_test(k_atom) -> is_atom;
+select_type_test(k_float) -> is_float.
combine([{Is,Vs1}, {Is,Vs2}|Vis]) -> combine([{Is,Vs1 ++ Vs2}|Vis]);
combine([V|Vis]) -> [V|combine(Vis)];
@@ -695,36 +951,49 @@ add_vls([V|Vs], Lbl, Acc) ->
add_vls(Vs, Lbl, [V, {f,Lbl}|Acc]);
add_vls([], _, Acc) -> Acc.
-select_cons(#l{ke={val_clause,{cons,Es},B},i=I,vdb=Vdb}, V, Tf, Vf, Bef, St0) ->
+select_literal(S, V, Tf, Vf, Bef, St) ->
+ Reg = fetch_var(V, Bef),
+ F = fun(ValClause, Fail, St0) ->
+ {Val,Is,Aft,St1} = select_val(ValClause, V, Vf, Bef, St0),
+ Test = {test,is_eq_exact,{f,Fail},[Reg,{literal,Val}]},
+ {[Test|Is],Aft,St1}
+ end,
+ match_fmf(F, Tf, St, S).
+
+select_cons(#k_val_clause{val=#k_cons{hd=Hd,tl=Tl},body=B,anno=#l{i=I,vdb=Vdb}},
+ V, Tf, Vf, Bef, St0) ->
+ Es = [Hd,Tl],
{Eis,Int,St1} = select_extract_cons(V, Es, I, Vdb, Bef, St0),
{Bis,Aft,St2} = match_cg(B, Vf, Int, St1),
{[{test,is_nonempty_list,{f,Tf},[fetch_var(V, Bef)]}] ++ Eis ++ Bis,Aft,St2}.
-select_nil(#l{ke={val_clause,nil,B}}, V, Tf, Vf, Bef, St0) ->
+select_nil(#k_val_clause{val=#k_nil{},body=B}, V, Tf, Vf, Bef, St0) ->
{Bis,Aft,St1} = match_cg(B, Vf, Bef, St0),
{[{test,is_nil,{f,Tf},[fetch_var(V, Bef)]}] ++ Bis,Aft,St1}.
-select_binary(#l{ke={val_clause,{binary,{var,V}},B},i=I,vdb=Vdb},
- V, Tf, Vf, Bef, St0) ->
+select_binary(#k_val_clause{val=#k_binary{segs=#k_var{name=V}},body=B,
+ anno=#l{i=I,vdb=Vdb}}, V, Tf, Vf, Bef, St0) ->
+ #cg{ctx=OldCtx} = St0,
Int0 = clear_dead(Bef#sr{reg=Bef#sr.reg}, I, Vdb),
- {Bis0,Aft,St1} = match_cg(B, Vf, Int0, St0),
+ {Bis0,Aft,St1} = match_cg(B, Vf, Int0, St0#cg{ctx=V}),
CtxReg = fetch_var(V, Int0),
Live = max_reg(Bef#sr.reg),
Bis1 = [{test,bs_start_match2,{f,Tf},Live,[CtxReg,V],CtxReg},
{bs_save2,CtxReg,{V,V}}|Bis0],
Bis = finish_select_binary(Bis1),
- {Bis,Aft,St1};
-select_binary(#l{ke={val_clause,{binary,{var,Ivar}},B},i=I,vdb=Vdb},
- V, Tf, Vf, Bef, St0) ->
+ {Bis,Aft,St1#cg{ctx=OldCtx}};
+select_binary(#k_val_clause{val=#k_binary{segs=#k_var{name=Ivar}},body=B,
+ anno=#l{i=I,vdb=Vdb}}, V, Tf, Vf, Bef, St0) ->
+ #cg{ctx=OldCtx} = St0,
Regs = put_reg(Ivar, Bef#sr.reg),
Int0 = clear_dead(Bef#sr{reg=Regs}, I, Vdb),
- {Bis0,Aft,St1} = match_cg(B, Vf, Int0, St0),
+ {Bis0,Aft,St1} = match_cg(B, Vf, Int0, St0#cg{ctx=Ivar}),
CtxReg = fetch_var(Ivar, Int0),
Live = max_reg(Bef#sr.reg),
Bis1 = [{test,bs_start_match2,{f,Tf},Live,[fetch_var(V, Bef),Ivar],CtxReg},
{bs_save2,CtxReg,{Ivar,Ivar}}|Bis0],
Bis = finish_select_binary(Bis1),
- {Bis,Aft,St1}.
+ {Bis,Aft,St1#cg{ctx=OldCtx}}.
finish_select_binary([{bs_save2,R,Point}=I,{bs_restore2,R,Point}|Is]) ->
[I|finish_select_binary(Is)];
@@ -746,9 +1015,16 @@ select_bin_segs(Scs, Ivar, Tf, Bef, St) ->
select_bin_seg(S, Ivar, Fail, Bef, Sta) end,
Tf, St, Scs).
-select_bin_seg(#l{ke={val_clause,{bin_seg,Ctx,Size,U,T,Fs0,Es},B},i=I,vdb=Vdb,a=A},
- Ivar, Fail, Bef, St0) ->
+select_bin_seg(#k_val_clause{val=#k_bin_seg{size=Size,unit=U,type=T,
+ seg=Seg,flags=Fs0,next=Next},
+ body=B,
+ anno=#l{i=I,vdb=Vdb,a=A}}, Ivar, Fail, Bef, St0) ->
+ Ctx = St0#cg.ctx,
Fs = [{anno,A}|Fs0],
+ Es = case Next of
+ [] -> [Seg];
+ _ -> [Seg,Next]
+ end,
{Mis,Int,St1} = select_extract_bin(Es, Size, U, T, Fs, Fail,
I, Vdb, Bef, Ctx, B, St0),
{Bis,Aft,St2} = match_cg(B, Fail, Int, St1),
@@ -761,9 +1037,12 @@ select_bin_seg(#l{ke={val_clause,{bin_seg,Ctx,Size,U,T,Fs0,Es},B},i=I,vdb=Vdb,a=
[{bs_restore2,CtxReg,{Ctx,Ivar}}|Mis++Bis]
end,
{Is,Aft,St2};
-select_bin_seg(#l{ke={val_clause,{bin_int,Ctx,Sz,U,Fs,Val,Es},B},i=I,vdb=Vdb},
- Ivar, Fail, Bef, St0) ->
- {Mis,Int,St1} = select_extract_int(Es, Val, Sz, U, Fs, Fail,
+select_bin_seg(#k_val_clause{val=#k_bin_int{size=Sz,unit=U,flags=Fs,
+ val=Val,next=Next},
+ body=B,
+ anno=#l{i=I,vdb=Vdb}}, Ivar, Fail, Bef, St0) ->
+ Ctx = St0#cg.ctx,
+ {Mis,Int,St1} = select_extract_int(Next, Val, Sz, U, Fs, Fail,
I, Vdb, Bef, Ctx, St0),
{Bis,Aft,St2} = match_cg(B, Fail, Int, St1),
CtxReg = fetch_var(Ctx, Bef),
@@ -784,7 +1063,7 @@ select_bin_seg(#l{ke={val_clause,{bin_int,Ctx,Sz,U,Fs,Val,Es},B},i=I,vdb=Vdb},
end,
{[{bs_restore2,CtxReg,{Ctx,Ivar}}|Is],Aft,St2}.
-select_extract_int([{var,Tl}], Val, {integer,Sz}, U, Fs, Vf,
+select_extract_int(#k_var{name=Tl}, Val, #k_int{val=Sz}, U, Fs, Vf,
I, Vdb, Bef, Ctx, St) ->
Bits = U*Sz,
Bin = case member(big, Fs) of
@@ -805,7 +1084,7 @@ select_extract_int([{var,Tl}], Val, {integer,Sz}, U, Fs, Vf,
end,
{Is,clear_dead(Bef, I, Vdb),St}.
-select_extract_bin([{var,Hd},{var,Tl}], Size0, Unit, Type, Flags, Vf,
+select_extract_bin([#k_var{name=Hd},#k_var{name=Tl}], Size0, Unit, Type, Flags, Vf,
I, Vdb, Bef, Ctx, _Body, St) ->
SizeReg = get_bin_size_reg(Size0, Bef),
{Es,Aft} =
@@ -828,11 +1107,11 @@ select_extract_bin([{var,Hd},{var,Tl}], Size0, Unit, Type, Flags, Vf,
{bs_save2,CtxReg,{Ctx,Tl}}],Int1}
end,
{Es,clear_dead(Aft, I, Vdb),St};
-select_extract_bin([{var,Hd}], Size, Unit, binary, Flags, Vf,
+select_extract_bin([#k_var{name=Hd}], Size, Unit, binary, Flags, Vf,
I, Vdb, Bef, Ctx, Body, St) ->
%% Match the last segment of a binary. We KNOW that the size
%% must be 'all'.
- Size = {atom,all}, %Assertion.
+ #k_atom{val=all} = Size, %Assertion.
{Es,Aft} =
case vdb_find(Hd, Vdb) of
{_,_,Lhd} when Lhd =< I ->
@@ -857,7 +1136,7 @@ select_extract_bin([{var,Hd}], Size, Unit, binary, Flags, Vf,
Name = bs_get_binary2,
Live = max_reg(Bef#sr.reg),
{[{test,Name,{f,Vf},Live,
- [CtxReg,Size,Unit,{field_flags,Flags}],Rhd}],
+ [CtxReg,atomic(Size),Unit,{field_flags,Flags}],Rhd}],
Int1};
true ->
%% Since the matching context will not be used again,
@@ -872,36 +1151,42 @@ select_extract_bin([{var,Hd}], Size, Unit, binary, Flags, Vf,
Name = bs_get_binary2,
Live = max_reg(Int1#sr.reg),
{[{test,Name,{f,Vf},Live,
- [CtxReg,Size,Unit,{field_flags,Flags}],CtxReg}],
+ [CtxReg,atomic(Size),Unit,{field_flags,Flags}],CtxReg}],
Int1}
end
end,
{Es,clear_dead(Aft, I, Vdb),St}.
%% is_context_unused(Ke) -> true | false
-%% Simple heurististic to determine whether the code that follows will
-%% use the current matching context again. (The information of liveness
-%% calculcated by v3_life is too conservative to be useful for this purpose.)
-%% 'true' means that the code that follows will definitely not use the context
-%% again (because it is a block, not guard or matching code); 'false' that we
-%% are not sure (there is either a guard, or more matching, either which may
-%% reference the context again).
-
-is_context_unused(#l{ke=Ke}) -> is_context_unused(Ke);
-is_context_unused({block,_}) -> true;
-is_context_unused(_) -> false.
-
-select_bin_end(#l{ke={val_clause,{bin_end,Ctx},B}},
- Ivar, Tf, Bef, St0) ->
+%% Simple heurististic to determine whether the code that follows
+%% will use the current matching context again. (The liveness
+%% information is too conservative to be useful for this purpose.)
+%% 'true' means that the code that follows will definitely not use
+%% the context again (because it is a block, not guard or matching
+%% code); 'false' that we are not sure (there could be more
+%% matching).
+
+is_context_unused(#k_alt{then=Then}) ->
+ %% #k_alt{} can be used for different purposes. If the Then part
+ %% is a block, it means that matching has finished and is used for a guard
+ %% to choose between the matched clauses.
+ is_context_unused(Then);
+is_context_unused(#cg_block{}) ->
+ true;
+is_context_unused(_) ->
+ false.
+
+select_bin_end(#k_val_clause{val=#k_bin_end{},body=B}, Ivar, Tf, Bef, St0) ->
+ Ctx = St0#cg.ctx,
{Bis,Aft,St2} = match_cg(B, Tf, Bef, St0),
CtxReg = fetch_var(Ctx, Bef),
{[{bs_restore2,CtxReg,{Ctx,Ivar}},
{test,bs_test_tail2,{f,Tf},[CtxReg,0]}|Bis],Aft,St2}.
-get_bin_size_reg({var,V}, Bef) ->
+get_bin_size_reg(#k_var{name=V}, Bef) ->
fetch_var(V, Bef);
get_bin_size_reg(Literal, _Bef) ->
- Literal.
+ atomic(Literal).
build_bs_instr(Type, Vf, CtxReg, Live, SizeReg, Unit, Flags, Rhd) ->
{Format,Name} = case Type of
@@ -935,11 +1220,18 @@ build_skip_instr(Type, Vf, CtxReg, Live, SizeReg, Unit, Flags) ->
{test,Name,{f,Vf},[CtxReg,Live,{field_flags,Flags}]}
end.
-select_val(#l{ke={val_clause,{tuple,Es},B},i=I,vdb=Vdb}, V, Vf, Bef, St0) ->
+select_val(#k_val_clause{val=#k_tuple{es=Es},body=B,anno=#l{i=I,vdb=Vdb}},
+ V, Vf, Bef, St0) ->
{Eis,Int,St1} = select_extract_tuple(V, Es, I, Vdb, Bef, St0),
{Bis,Aft,St2} = match_cg(B, Vf, Int, St1),
{length(Es),Eis ++ Bis,Aft,St2};
-select_val(#l{ke={val_clause,{_,Val},B}}, _V, Vf, Bef, St0) ->
+select_val(#k_val_clause{val=Val0,body=B}, _V, Vf, Bef, St0) ->
+ Val = case Val0 of
+ #k_atom{val=Lit} -> Lit;
+ #k_float{val=Lit} -> Lit;
+ #k_int{val=Lit} -> Lit;
+ #k_literal{val=Lit} -> Lit
+ end,
{Bis,Aft,St1} = match_cg(B, Vf, Bef, St0),
{Val,Bis,Aft,St1}.
@@ -948,7 +1240,7 @@ select_val(#l{ke={val_clause,{_,Val},B}}, _V, Vf, Bef, St0) ->
%% Extract tuple elements, but only if they do not immediately die.
select_extract_tuple(Src, Vs, I, Vdb, Bef, St) ->
- F = fun ({var,V}, {Int0,Elem}) ->
+ F = fun (#k_var{name=V}, {Int0,Elem}) ->
case vdb_find(V, Vdb) of
{V,_,L} when L =< I -> {[], {Int0,Elem+1}};
_Other ->
@@ -965,9 +1257,10 @@ select_extract_tuple(Src, Vs, I, Vdb, Bef, St) ->
select_map(Scs, V, Tf, Vf, Bef, St0) ->
Reg = fetch_var(V, Bef),
{Is,Aft,St1} =
- match_fmf(fun(#l{ke={val_clause,{map,exact,_,Es},B},i=I,vdb=Vdb}, Fail, St1) ->
- select_map_val(V, Es, B, Fail, I, Vdb, Bef, St1)
- end, Vf, St0, Scs),
+ match_fmf(fun(#k_val_clause{val=#k_map{op=exact,es=Es},
+ body=B,anno=#l{i=I,vdb=Vdb}}, Fail, St1) ->
+ select_map_val(V, Es, B, Fail, I, Vdb, Bef, St1)
+ end, Vf, St0, Scs),
{[{test,is_map,{f,Tf},[Reg]}|Is],Aft,St1}.
select_map_val(V, Es, B, Fail, I, Vdb, Bef, St0) ->
@@ -984,29 +1277,32 @@ select_extract_map(Src, Vs, Fail, I, Vdb, Bef, St) ->
%% Assume keys are term-sorted
Rsrc = fetch_var(Src, Bef),
- {{HasKs,GetVs,HasVarKs,GetVarVs},Aft} = lists:foldr(fun
- ({map_pair,{var,K},{var,V}},{{HasKsi,GetVsi,HasVarVsi,GetVarVsi},Int0}) ->
- case vdb_find(V, Vdb) of
- {V,_,L} when L =< I ->
- RK = fetch_var(K,Int0),
- {{HasKsi,GetVsi,[RK|HasVarVsi],GetVarVsi},Int0};
- _Other ->
- Reg1 = put_reg(V, Int0#sr.reg),
- Int1 = Int0#sr{reg=Reg1},
- RK = fetch_var(K,Int0),
- RV = fetch_reg(V,Reg1),
- {{HasKsi,GetVsi,HasVarVsi,[[RK,RV]|GetVarVsi]},Int1}
- end;
- ({map_pair,Key,{var,V}},{{HasKsi,GetVsi,HasVarVsi,GetVarVsi},Int0}) ->
- case vdb_find(V, Vdb) of
- {V,_,L} when L =< I ->
- {{[Key|HasKsi],GetVsi,HasVarVsi,GetVarVsi},Int0};
- _Other ->
- Reg1 = put_reg(V, Int0#sr.reg),
- Int1 = Int0#sr{reg=Reg1},
- {{HasKsi,[Key,fetch_reg(V, Reg1)|GetVsi],HasVarVsi,GetVarVsi},Int1}
- end
- end, {{[],[],[],[]},Bef}, Vs),
+ {{HasKs,GetVs,HasVarKs,GetVarVs},Aft} =
+ foldr(fun(#k_map_pair{key=#k_var{name=K},val=#k_var{name=V}},
+ {{HasKsi,GetVsi,HasVarVsi,GetVarVsi},Int0}) ->
+ case vdb_find(V, Vdb) of
+ {V,_,L} when L =< I ->
+ RK = fetch_var(K,Int0),
+ {{HasKsi,GetVsi,[RK|HasVarVsi],GetVarVsi},Int0};
+ _Other ->
+ Reg1 = put_reg(V, Int0#sr.reg),
+ Int1 = Int0#sr{reg=Reg1},
+ RK = fetch_var(K,Int0),
+ RV = fetch_reg(V,Reg1),
+ {{HasKsi,GetVsi,HasVarVsi,[[RK,RV]|GetVarVsi]},Int1}
+ end;
+ (#k_map_pair{key=Key,val=#k_var{name=V}},
+ {{HasKsi,GetVsi,HasVarVsi,GetVarVsi},Int0}) ->
+ case vdb_find(V, Vdb) of
+ {V,_,L} when L =< I ->
+ {{[atomic(Key)|HasKsi],GetVsi,HasVarVsi,GetVarVsi},Int0};
+ _Other ->
+ Reg1 = put_reg(V, Int0#sr.reg),
+ Int1 = Int0#sr{reg=Reg1},
+ {{HasKsi,[atomic(Key),fetch_reg(V, Reg1)|GetVsi],
+ HasVarVsi,GetVarVsi},Int1}
+ end
+ end, {{[],[],[],[]},Bef}, Vs),
Code = [{test,has_map_fields,{f,Fail},Rsrc,{list,HasKs}} || HasKs =/= []] ++
[{test,has_map_fields,{f,Fail},Rsrc,{list,[K]}} || K <- HasVarKs] ++
@@ -1015,7 +1311,7 @@ select_extract_map(Src, Vs, Fail, I, Vdb, Bef, St) ->
{Code, Aft, St}.
-select_extract_cons(Src, [{var,Hd}, {var,Tl}], I, Vdb, Bef, St) ->
+select_extract_cons(Src, [#k_var{name=Hd}, #k_var{name=Tl}], I, Vdb, Bef, St) ->
{Es,Aft} = case {vdb_find(Hd, Vdb), vdb_find(Tl, Vdb)} of
{{_,_,Lhd}, {_,_,Ltl}} when Lhd =< I, Ltl =< I ->
%% Both head and tail are dead. No need to generate
@@ -1038,7 +1334,7 @@ select_extract_cons(Src, [{var,Hd}, {var,Tl}], I, Vdb, Bef, St) ->
{Es,Aft,St}.
-guard_clause_cg(#l{ke={guard_clause,G,B},vdb=Vdb}, Fail, Bef, St0) ->
+guard_clause_cg(#k_guard_clause{anno=#l{vdb=Vdb},guard=G,body=B}, Fail, Bef, St0) ->
{Gis,Int,St1} = guard_cg(G, Fail, Vdb, Bef, St0),
{Bis,Aft,St} = match_cg(B, Fail, Int, St1),
{Gis ++ Bis,Aft,St}.
@@ -1051,11 +1347,13 @@ guard_clause_cg(#l{ke={guard_clause,G,B},vdb=Vdb}, Fail, Bef, St0) ->
%% the correct exit point. Primops and tests all go to the next
%% instruction on success or jump to a failure label.
-guard_cg(#l{ke={protected,Ts,Rs},i=I,vdb=Pdb}, Fail, _Vdb, Bef, St) ->
+guard_cg(#k_protected{arg=Ts,ret=Rs,anno=#l{i=I,vdb=Pdb}}, Fail, _Vdb, Bef, St) ->
protected_cg(Ts, Rs, Fail, I, Pdb, Bef, St);
-guard_cg(#l{ke={block,Ts},i=I,vdb=Bdb}, Fail, _Vdb, Bef, St) ->
+guard_cg(#cg_block{es=Ts,anno=#l{i=I,vdb=Bdb}}, Fail, _Vdb, Bef, St) ->
guard_cg_list(Ts, Fail, I, Bdb, Bef, St);
-guard_cg(#l{ke={test,Test,As,Inverted},i=I,vdb=_Tdb}, Fail, Vdb, Bef, St0) ->
+guard_cg(#k_test{anno=#l{i=I},op=Test0,args=As,inverted=Inverted},
+ Fail, Vdb, Bef, St0) ->
+ #k_remote{mod=#k_atom{val=erlang},name=#k_atom{val=Test}} = Test0,
case Inverted of
false ->
test_cg(Test, As, Fail, I, Vdb, Bef, St0);
@@ -1089,7 +1387,7 @@ protected_cg(Ts, Rs, _Fail, I, Vdb, Bef, St0) ->
St2#cg{bfail=Pfail}),
%%ok = io:fwrite("cg ~w: ~p~n", [?LINE,{Rs,I,Vdb,Aft}]),
%% Set return values to false.
- Mis = [{move,{atom,false},fetch_var(V,Aft)}||{var,V} <- Rs],
+ Mis = [{move,{atom,false},fetch_var(V,Aft)}||#k_var{name=V} <- Rs],
{Tis ++ [{jump,{f,Psucc}},
{label,Pfail}] ++ Mis ++ [{label,Psucc}],
Aft,St3#cg{bfail=St0#cg.bfail}}.
@@ -1114,7 +1412,7 @@ test_cg(is_map, [A], Fail, I, Vdb, Bef, St) ->
Arg = cg_reg_arg_prefer_y(A, Bef),
Aft = clear_dead(Bef, I, Vdb),
{[{test,is_map,{f,Fail},[Arg]}],Aft,St};
-test_cg(is_boolean, [{atom,Val}], Fail, I, Vdb, Bef, St) ->
+test_cg(is_boolean, [#k_atom{val=Val}], Fail, I, Vdb, Bef, St) ->
Aft = clear_dead(Bef, I, Vdb),
Is = case is_boolean(Val) of
true -> [];
@@ -1160,7 +1458,7 @@ match_fmf(F, LastFail, St0, [H|T]) ->
%% frame size. Finally the actual call is made. Call then needs the
%% return values filled in.
-call_cg({var,_V} = Var, As, Rs, Le, Vdb, Bef, St0) ->
+call_cg(#k_var{}=Var, As, Rs, Le, Vdb, Bef, St0) ->
{Sis,Int} = cg_setup_call(As++[Var], Bef, Le#l.i, Vdb),
%% Put return values in registers.
Reg = load_vars(Rs, clear_regs(Int#sr.reg)),
@@ -1169,9 +1467,8 @@ call_cg({var,_V} = Var, As, Rs, Le, Vdb, Bef, St0) ->
{Frees,Aft} = free_dead(clear_dead(Int#sr{reg=Reg}, Le#l.i, Vdb)),
{Sis ++ Frees ++ [line(Le),{call_fun,Arity}],Aft,
need_stack_frame(St0)};
-call_cg({remote,Mod,Name}, As, Rs, Le, Vdb, Bef, St0)
- when element(1, Mod) =:= var;
- element(1, Name) =:= var ->
+call_cg(#k_remote{mod=Mod,name=Name}, As, Rs, Le, Vdb, Bef, St0)
+ when is_record(Mod, k_var); is_record(Name, k_var) ->
{Sis,Int} = cg_setup_call(As++[Mod,Name], Bef, Le#l.i, Vdb),
%% Put return values in registers.
Reg = load_vars(Rs, clear_regs(Int#sr.reg)),
@@ -1189,8 +1486,9 @@ call_cg(Func, As, Rs, Le, Vdb, Bef, St0) ->
%%
%% move {atom,ok} DestReg
%% jump FailureLabel
- {remote,{atom,erlang},{atom,error}} = Func, %Assertion.
- [{var,DestVar}] = Rs,
+ #k_remote{mod=#k_atom{val=erlang},
+ name=#k_atom{val=error}} = Func, %Assertion.
+ [#k_var{name=DestVar}] = Rs,
Int0 = clear_dead(Bef, Le#l.i, Vdb),
Reg = put_reg(DestVar, Int0#sr.reg),
Int = Int0#sr{reg=Reg},
@@ -1209,11 +1507,11 @@ call_cg(Func, As, Rs, Le, Vdb, Bef, St0) ->
{Sis ++ Frees ++ [line(Le)|Call],Aft,St1}
end.
-build_call({remote,{atom,erlang},{atom,'!'}}, 2, St0) ->
+build_call(#k_remote{mod=#k_atom{val=erlang},name=#k_atom{val='!'}}, 2, St0) ->
{[send],need_stack_frame(St0)};
-build_call({remote,{atom,Mod},{atom,Name}}, Arity, St0) ->
+build_call(#k_remote{mod=#k_atom{val=Mod},name=#k_atom{val=Name}}, Arity, St0) ->
{[{call_ext,Arity,{extfunc,Mod,Name,Arity}}],need_stack_frame(St0)};
-build_call(Name, Arity, St0) when is_atom(Name) ->
+build_call(#k_local{name=Name}, Arity, St0) when is_atom(Name) ->
{Lbl,St1} = local_func_label(Name, Arity, need_stack_frame(St0)),
{[{call,Arity,{f,Lbl}}],St1}.
@@ -1229,16 +1527,15 @@ free_dead([Any|Stk], Y, Instr, StkAcc) ->
free_dead(Stk, Y+1, Instr, [Any|StkAcc]);
free_dead([], _, Instr, StkAcc) -> {Instr,reverse(StkAcc)}.
-enter_cg({var,_V} = Var, As, Le, Vdb, Bef, St0) ->
+enter_cg(#k_var{} = Var, As, Le, Vdb, Bef, St0) ->
{Sis,Int} = cg_setup_call(As++[Var], Bef, Le#l.i, Vdb),
%% Build complete code and final stack/register state.
Arity = length(As),
{Sis ++ [line(Le),{call_fun,Arity},return],
clear_dead(Int#sr{reg=clear_regs(Int#sr.reg)}, Le#l.i, Vdb),
need_stack_frame(St0)};
-enter_cg({remote,Mod,Name}, As, Le, Vdb, Bef, St0)
- when element(1, Mod) =:= var;
- element(1, Name) =:= var ->
+enter_cg(#k_remote{mod=Mod,name=Name}, As, Le, Vdb, Bef, St0)
+ when is_record(Mod, k_var); is_record(Name, k_var) ->
{Sis,Int} = cg_setup_call(As++[Mod,Name], Bef, Le#l.i, Vdb),
%% Build complete code and final stack/register state.
Arity = length(As),
@@ -1256,19 +1553,19 @@ enter_cg(Func, As, Le, Vdb, Bef, St0) ->
clear_dead(Int#sr{reg=clear_regs(Int#sr.reg)}, Le#l.i, Vdb),
St1}.
-build_enter({remote,{atom,erlang},{atom,'!'}}, 2, St0) ->
+build_enter(#k_remote{mod=#k_atom{val=erlang},name=#k_atom{val='!'}}, 2, St0) ->
{[send,return],need_stack_frame(St0)};
-build_enter({remote,{atom,Mod},{atom,Name}}, Arity, St0) ->
+build_enter(#k_remote{mod=#k_atom{val=Mod},name=#k_atom{val=Name}}, Arity, St0) ->
St1 = case trap_bif(Mod, Name, Arity) of
true -> need_stack_frame(St0);
false -> St0
end,
{[{call_ext_only,Arity,{extfunc,Mod,Name,Arity}}],St1};
-build_enter(Name, Arity, St0) when is_atom(Name) ->
+build_enter(#k_local{name=Name}, Arity, St0) when is_atom(Name) ->
{Lbl,St1} = local_func_label(Name, Arity, St0),
{[{call_only,Arity,{f,Lbl}}],St1}.
-enter_line({remote,{atom,Mod},{atom,Name}}, Arity, Le) ->
+enter_line(#k_remote{mod=#k_atom{val=Mod},name=#k_atom{val=Name}}, Arity, Le) ->
case erl_bifs:is_safe(Mod, Name, Arity) of
false ->
%% Tail-recursive call, possibly to a BIF.
@@ -1316,6 +1613,22 @@ trap_bif(erlang, group_leader, 2) -> true;
trap_bif(erlang, exit, 2) -> true;
trap_bif(_, _, _) -> false.
+%% bif_cg(#k_bif{}, Le, Vdb, StackReg, State) ->
+%% {[Ainstr],StackReg,State}.
+%% Generate code a BIF.
+
+bif_cg(#k_bif{op=#k_internal{name=Name},args=As,ret=Rs}, Le, Vdb, Bef, St) ->
+ internal_cg(Name, As, Rs, Le, Vdb, Bef, St);
+bif_cg(#k_bif{op=#k_remote{mod=#k_atom{val=erlang},name=#k_atom{val=Name}},
+ args=As,ret=Rs}, Le, Vdb, Bef, St) ->
+ Ar = length(As),
+ case is_gc_bif(Name, Ar) of
+ false ->
+ bif_cg(Name, As, Rs, Le, Vdb, Bef, St);
+ true ->
+ gc_bif_cg(Name, As, Rs, Le, Vdb, Bef, St)
+ end.
+
%% internal_cg(Bif, [Arg], [Ret], Le, Vdb, StackReg, State) ->
%% {[Ainstr],StackReg,State}.
@@ -1334,8 +1647,8 @@ internal_cg(dsetelement, [Index0,Tuple0,New0], _Rs, Le, Vdb, Bef, St0) ->
clear_dead(Bef, Le#l.i, Vdb), St0};
internal_cg(make_fun, [Func0,Arity0|As], Rs, Le, Vdb, Bef, St0) ->
%% This behaves more like a function call.
- {atom,Func} = Func0,
- {integer,Arity} = Arity0,
+ #k_atom{val=Func} = Func0,
+ #k_int{val=Arity} = Arity0,
{Sis,Int} = cg_setup_call(As, Bef, Le#l.i, Vdb),
Reg = load_vars(Rs, clear_regs(Int#sr.reg)),
{FuncLbl,St1} = local_func_label(Func, Arity, St0),
@@ -1355,7 +1668,7 @@ internal_cg(raise, As, Rs, Le, Vdb, Bef, St) ->
%% bif_cg(Bif, [Arg], [Ret], Le, Vdb, StackReg, State) ->
%% {[Ainstr],StackReg,State}.
-bif_cg(Bif, As, [{var,V}], Le, Vdb, Bef, St0) ->
+bif_cg(Bif, As, [#k_var{name=V}], Le, Vdb, Bef, St0) ->
Ars = cg_reg_args(As, Bef),
%% If we are inside a catch and in a body (not in guard) and the
@@ -1393,7 +1706,7 @@ bif_cg(Bif, As, [{var,V}], Le, Vdb, Bef, St0) ->
%% gc_bif_cg(Bif, [Arg], [Ret], Le, Vdb, StackReg, State) ->
%% {[Ainstr],StackReg,State}.
-gc_bif_cg(Bif, As, [{var,V}], Le, Vdb, Bef, St0) ->
+gc_bif_cg(Bif, As, [#k_var{name=V}], Le, Vdb, Bef, St0) ->
Ars = cg_reg_args(As, Bef),
%% If we are inside a catch and in a body (not in guard) and the
@@ -1439,7 +1752,7 @@ recv_loop_cg(Te, Rvar, Rm, Tes, Rs, Le, Vdb, Bef, St0) ->
%% cg_recv_mesg( ) -> {[Ainstr],Aft,St}.
-cg_recv_mesg({var,R}, Rm, Tl, Bef, St0) ->
+cg_recv_mesg(#k_var{name=R}, Rm, Tl, Bef, St0) ->
Int0 = Bef#sr{reg=put_reg(R, Bef#sr.reg)},
Ret = fetch_reg(R, Int0#sr.reg),
%% Int1 = clear_dead(Int0, I, Rm#l.vdb),
@@ -1449,22 +1762,22 @@ cg_recv_mesg({var,R}, Rm, Tl, Bef, St0) ->
%% cg_recv_wait(Te, Tes, I, Vdb, Int2, St3) -> {[Ainstr],Aft,St}.
-cg_recv_wait({atom,infinity}, Tes, I, Bef, St0) ->
+cg_recv_wait(#k_atom{val=infinity}, #cg_block{anno=Le,es=Tes}, I, Bef, St0) ->
%% We know that the 'after' body will never be executed.
%% But to keep the stack and register information up to date,
%% we will generate the code for the 'after' body, and then discard it.
- Int1 = clear_dead(Bef, I, Tes#l.vdb),
- {_,Int2,St1} = cg_block(Tes#l.ke, Tes#l.i, Tes#l.vdb,
- Int1#sr{reg=clear_regs(Int1#sr.reg)}, St0),
+ Int1 = clear_dead(Bef, I, Le#l.vdb),
+ {_,Int2,St1} = cg_block(Tes, Le#l.i, Le#l.vdb,
+ Int1#sr{reg=clear_regs(Int1#sr.reg)}, St0),
{[{wait,{f,St1#cg.recv}}],Int2,St1};
-cg_recv_wait({integer,0}, Tes, _I, Bef, St0) ->
- {Tis,Int,St1} = cg_block(Tes#l.ke, Tes#l.i, Tes#l.vdb, Bef, St0),
+cg_recv_wait(#k_int{val=0}, #cg_block{anno=Le,es=Tes}, _I, Bef, St0) ->
+ {Tis,Int,St1} = cg_block(Tes, Le#l.i, Le#l.vdb, Bef, St0),
{[timeout|Tis],Int,St1};
-cg_recv_wait(Te, Tes, I, Bef, St0) ->
+cg_recv_wait(Te, #cg_block{anno=Le,es=Tes}, I, Bef, St0) ->
Reg = cg_reg_arg(Te, Bef),
%% Must have empty registers here! Bug if anything in registers.
- Int0 = clear_dead(Bef, I, Tes#l.vdb),
- {Tis,Int,St1} = cg_block(Tes#l.ke, Tes#l.i, Tes#l.vdb,
+ Int0 = clear_dead(Bef, I, Le#l.vdb),
+ {Tis,Int,St1} = cg_block(Tes, Le#l.i, Le#l.vdb,
Int0#sr{reg=clear_regs(Int0#sr.reg)}, St0),
{[{wait_timeout,{f,St1#cg.recv},Reg},timeout] ++ Tis,Int,St1}.
@@ -1482,7 +1795,7 @@ try_cg(Ta, Vs, Tb, Evs, Th, Rs, Le, Vdb, Bef, St0) ->
{B,St1} = new_label(St0), %Body label
{H,St2} = new_label(St1), %Handler label
{E,St3} = new_label(St2), %End label
- TryTag = Ta#l.i,
+ #l{i=TryTag} = get_kanno(Ta),
Int1 = Bef#sr{stk=put_catch(TryTag, Bef#sr.stk)},
TryReg = fetch_stack({catch_tag,TryTag}, Int1#sr.stk),
{Ais,Int2,St4} = cg(Ta, Vdb, Int1, St3#cg{break=B,in_catch=true}),
@@ -1502,7 +1815,7 @@ try_cg(Ta, Vs, Tb, Evs, Th, Rs, Le, Vdb, Bef, St0) ->
try_enter_cg(Ta, Vs, Tb, Evs, Th, Le, Vdb, Bef, St0) ->
{B,St1} = new_label(St0), %Body label
{H,St2} = new_label(St1), %Handler label
- TryTag = Ta#l.i,
+ #l{i=TryTag} = get_kanno(Ta),
Int1 = Bef#sr{stk=put_catch(TryTag, Bef#sr.stk)},
TryReg = fetch_stack({catch_tag,TryTag}, Int1#sr.stk),
{Ais,Int2,St3} = cg(Ta, Vdb, Int1, St2#cg{break=B,in_catch=true}),
@@ -1520,7 +1833,7 @@ try_enter_cg(Ta, Vs, Tb, Evs, Th, Le, Vdb, Bef, St0) ->
%% catch_cg(CatchBlock, Ret, Le, Vdb, Bef, St) -> {[Ainstr],Aft,St}.
-catch_cg(C, {var,R}, Le, Vdb, Bef, St0) ->
+catch_cg(#cg_block{es=C}, #k_var{name=R}, Le, Vdb, Bef, St0) ->
{B,St1} = new_label(St0),
CatchTag = Le#l.i,
Int1 = Bef#sr{stk=put_catch(CatchTag, Bef#sr.stk)},
@@ -1534,8 +1847,8 @@ catch_cg(C, {var,R}, Le, Vdb, Bef, St0) ->
clear_dead(Aft, Le#l.i, Vdb),
St2#cg{break=St1#cg.break,in_catch=St1#cg.in_catch}}.
-%% set_cg([Var], Constr, Le, Vdb, Bef, St) -> {[Ainstr],Aft,St}.
-%% We have to be careful how a 'set' works. First the structure is
+%% put_cg([Var], Constr, Le, Vdb, Bef, St) -> {[Ainstr],Aft,St}.
+%% We have to be careful how a 'put' works. First the structure is
%% built, then it is filled and finally things can be cleared. The
%% annotation must reflect this and make sure that the return
%% variable is allocated first.
@@ -1543,13 +1856,14 @@ catch_cg(C, {var,R}, Le, Vdb, Bef, St0) ->
%% put_list and put_map are atomic instructions, both of
%% which can safely resuse one of the source registers as target.
-set_cg([{var,R}], {cons,Es}, Le, Vdb, Bef, St) ->
- [S1,S2] = cg_reg_args(Es, Bef),
+put_cg([#k_var{name=R}], #k_cons{hd=Hd,tl=Tl}, Le, Vdb, Bef, St) ->
+ [S1,S2] = cg_reg_args([Hd,Tl], Bef),
Int0 = clear_dead(Bef, Le#l.i, Vdb),
Int1 = Int0#sr{reg=put_reg(R, Int0#sr.reg)},
Ret = fetch_reg(R, Int1#sr.reg),
{[{put_list,S1,S2,Ret}], Int1, St};
-set_cg([{var,R}], {binary,Segs}, Le, Vdb, Bef, #cg{bfail=Bfail}=St) ->
+put_cg([#k_var{name=R}], #k_binary{segs=Segs}, Le, Vdb, Bef,
+ #cg{bfail=Bfail}=St) ->
%% At run-time, binaries are constructed in three stages:
%% 1) First the size of the binary is calculated.
%% 2) Then the binary is allocated.
@@ -1577,7 +1891,9 @@ set_cg([{var,R}], {binary,Segs}, Le, Vdb, Bef, #cg{bfail=Bfail}=St) ->
{Sis++Code,Aft,St};
%% Map: single variable key.
-set_cg([{var,R}], {map,Op,Map,[{map_pair,{var,_}=K,V}]}, Le, Vdb, Bef, St0) ->
+put_cg([#k_var{name=R}], #k_map{op=Op,var=Map,
+ es=[#k_map_pair{key=#k_var{}=K,val=V}]},
+ Le, Vdb, Bef, St0) ->
{Sis,Int0} = maybe_adjust_stack(Bef, Le#l.i, Le#l.i+1, Vdb, St0),
SrcReg = cg_reg_arg_prefer_y(Map, Int0),
@@ -1592,22 +1908,23 @@ set_cg([{var,R}], {map,Op,Map,[{map_pair,{var,_}=K,V}]}, Le, Vdb, Bef, St0) ->
Aft = Aft0#sr{reg=put_reg(R, Aft0#sr.reg)},
Target = fetch_reg(R, Aft#sr.reg),
- {Is,St1} = set_cg_map(Line, Op, SrcReg, Target, Live, List, St0),
+ {Is,St1} = put_cg_map(Line, Op, SrcReg, Target, Live, List, St0),
{Sis++Is,Aft,St1};
%% Map: (possibly) multiple literal keys.
-set_cg([{var,R}], {map,Op,Map,Es}, Le, Vdb, Bef, St0) ->
+put_cg([#k_var{name=R}], #k_map{op=Op,var=Map,es=Es}, Le, Vdb, Bef, St0) ->
%% assert key literals
- [] = [Var||{map_pair,{var,_}=Var,_} <- Es],
+ [] = [Var || #k_map_pair{key=#k_var{}=Var} <- Es],
{Sis,Int0} = maybe_adjust_stack(Bef, Le#l.i, Le#l.i+1, Vdb, St0),
SrcReg = cg_reg_arg_prefer_y(Map, Int0),
Line = line(Le#l.a),
%% fetch registers for values to be put into the map
- Pairs = [{K,V} || {_,K,V} <- Es],
- List = flatmap(fun({K,V}) -> [K,cg_reg_arg(V,Int0)] end, Pairs),
+ List = flatmap(fun(#k_map_pair{key=K,val=V}) ->
+ [atomic(K),cg_reg_arg(V, Int0)]
+ end, Es),
Live = max_reg(Bef#sr.reg),
@@ -1616,16 +1933,16 @@ set_cg([{var,R}], {map,Op,Map,Es}, Le, Vdb, Bef, St0) ->
Aft = Aft0#sr{reg=put_reg(R, Aft0#sr.reg)},
Target = fetch_reg(R, Aft#sr.reg),
- {Is,St1} = set_cg_map(Line, Op, SrcReg, Target, Live, List, St0),
+ {Is,St1} = put_cg_map(Line, Op, SrcReg, Target, Live, List, St0),
{Sis++Is,Aft,St1};
%% Everything else.
-set_cg([{var,R}], Con, Le, Vdb, Bef, St) ->
+put_cg([#k_var{name=R}], Con, Le, Vdb, Bef, St) ->
%% Find a place for the return register first.
Int = Bef#sr{reg=put_reg(R, Bef#sr.reg)},
Ret = fetch_reg(R, Int#sr.reg),
Ais = case Con of
- {tuple,Es} ->
+ #k_tuple{es=Es} ->
[{put_tuple,length(Es),Ret}] ++ cg_build_args(Es, Bef);
Other ->
[{move,cg_reg_arg(Other, Int),Ret}]
@@ -1633,7 +1950,7 @@ set_cg([{var,R}], Con, Le, Vdb, Bef, St) ->
{Ais,clear_dead(Int, Le#l.i, Vdb),St}.
-set_cg_map(Line, Op0, SrcReg, Target, Live, List, St0) ->
+put_cg_map(Line, Op0, SrcReg, Target, Live, List, St0) ->
Bfail = St0#cg.bfail,
Fail = {f,St0#cg.bfail},
Op = case Op0 of
@@ -1811,24 +2128,44 @@ cg_gen_binsize([], _, _, _, _, Acc) -> Acc.
%% cg_bin_opt(Code0) -> Code
%% Optimize the size calculations for binary construction.
-cg_bin_opt([{move,Size,D},{bs_append,Fail,D,Extra,Regs,U,Bin,Flags,D}|Is]) ->
- cg_bin_opt([{bs_append,Fail,Size,Extra,Regs,U,Bin,Flags,D}|Is]);
-cg_bin_opt([{move,Size,D},{bs_private_append,Fail,D,U,Bin,Flags,D}|Is]) ->
- cg_bin_opt([{bs_private_append,Fail,Size,U,Bin,Flags,D}|Is]);
-cg_bin_opt([{move,{integer,0},D},{bs_add,_,[D,{integer,_}=S,1],Dst}|Is]) ->
- cg_bin_opt([{move,S,Dst}|Is]);
-cg_bin_opt([{move,{integer,0},D},{bs_add,Fail,[D,S,U],Dst}|Is]) ->
- cg_bin_opt([{bs_add,Fail,[{integer,0},S,U],Dst}|Is]);
-cg_bin_opt([{move,{integer,Bytes},D},{Op,Fail,D,Extra,Regs,Flags,D}|Is])
+cg_bin_opt([{move,S1,{x,X}=D},{gc_bif,Op,Fail,Live0,As,Dst}|Is]) ->
+ Live = if
+ X + 1 =:= Live0 -> X;
+ true -> Live0
+ end,
+ [{gc_bif,Op,Fail,Live,As,D}|cg_bin_opt([{move,S1,Dst}|Is])];
+cg_bin_opt([{move,_,_}=I1,{Op,_,_,_}=I2|Is])
+ when Op =:= bs_utf8_size orelse Op =:= bs_utf16_size ->
+ [I2|cg_bin_opt([I1|Is])];
+cg_bin_opt([{bs_add,_,[{integer,0},Src,1],Dst}|Is]) ->
+ cg_bin_opt_1([{move,Src,Dst}|Is]);
+cg_bin_opt([{bs_add,_,[Src,{integer,0},_],Dst}|Is]) ->
+ cg_bin_opt_1([{move,Src,Dst}|Is]);
+cg_bin_opt(Is) ->
+ cg_bin_opt_1(Is).
+
+cg_bin_opt_1([{move,Size,D},{bs_append,Fail,D,Extra,Regs,U,Bin,Flags,D}|Is]) ->
+ [{bs_append,Fail,Size,Extra,Regs,U,Bin,Flags,D}|cg_bin_opt(Is)];
+cg_bin_opt_1([{move,Size,D},{bs_private_append,Fail,D,U,Bin,Flags,D}|Is]) ->
+ [{bs_private_append,Fail,Size,U,Bin,Flags,D}|cg_bin_opt(Is)];
+cg_bin_opt_1([{move,Size,D},{Op,Fail,D,Extra,Regs,Flags,D}|Is])
when Op =:= bs_init2; Op =:= bs_init_bits ->
- cg_bin_opt([{Op,Fail,Bytes,Extra,Regs,Flags,D}|Is]);
-cg_bin_opt([{move,Src1,Dst},{bs_add,Fail,[Dst,Src2,U],Dst}|Is]) ->
- cg_bin_opt([{bs_add,Fail,[Src1,Src2,U],Dst}|Is]);
-cg_bin_opt([I|Is]) ->
+ Bytes = case Size of
+ {integer,Int} -> Int;
+ _ -> Size
+ end,
+ [{Op,Fail,Bytes,Extra,Regs,Flags,D}|cg_bin_opt(Is)];
+cg_bin_opt_1([{move,S1,D},{bs_add,Fail,[D,S2,U],Dst}|Is]) ->
+ cg_bin_opt([{bs_add,Fail,[S1,S2,U],Dst}|Is]);
+cg_bin_opt_1([{move,S1,D},{bs_add,Fail,[S2,D,U],Dst}|Is]) ->
+ cg_bin_opt([{bs_add,Fail,[S2,S1,U],Dst}|Is]);
+cg_bin_opt_1([I|Is]) ->
[I|cg_bin_opt(Is)];
-cg_bin_opt([]) -> [].
+cg_bin_opt_1([]) ->
+ [].
-cg_bin_put({bin_seg,[],S0,U,T,Fs,[E0,Next]}, Fail, Bef) ->
+cg_bin_put(#k_bin_seg{size=S0,unit=U,type=T,flags=Fs,seg=E0,next=Next},
+ Fail, Bef) ->
S1 = cg_reg_arg(S0, Bef),
E1 = cg_reg_arg(E0, Bef),
{Format,Op} = case T of
@@ -1845,7 +2182,7 @@ cg_bin_put({bin_seg,[],S0,U,T,Fs,[E0,Next]}, Fail, Bef) ->
utf ->
[{Op,Fail,{field_flags,Fs},E1}|cg_bin_put(Next, Fail, Bef)]
end;
-cg_bin_put({bin_end,[]}, _, _) -> [].
+cg_bin_put(#k_bin_end{}, _, _) -> [].
cg_build_args(As, Bef) ->
[{put,cg_reg_arg(A, Bef)} || A <- As].
@@ -1899,11 +2236,11 @@ get_locked_regs([], _) -> [].
cg_reg_args(As, Bef) -> [cg_reg_arg(A, Bef) || A <- As].
-cg_reg_arg({var,V}, Bef) -> fetch_var(V, Bef);
-cg_reg_arg(Literal, _) -> Literal.
+cg_reg_arg(#k_var{name=V}, Bef) -> fetch_var(V, Bef);
+cg_reg_arg(Literal, _) -> atomic(Literal).
-cg_reg_arg_prefer_y({var,V}, Bef) -> fetch_var_prefer_y(V, Bef);
-cg_reg_arg_prefer_y(Literal, _) -> Literal.
+cg_reg_arg_prefer_y(#k_var{name=V}, Bef) -> fetch_var_prefer_y(V, Bef);
+cg_reg_arg_prefer_y(Literal, _) -> atomic(Literal).
%% cg_setup_call([Arg], Bef, Cur, Vdb) -> {[Instr],Aft}.
%% Do the complete setup for a call/enter.
@@ -1941,9 +2278,9 @@ cg_call_args(As, Bef, I, Vdb) ->
load_arg_regs(Regs, As) -> load_arg_regs(Regs, As, 0).
-load_arg_regs([_|Rs], [{var,V}|As], I) -> [{I,V}|load_arg_regs(Rs, As, I+1)];
+load_arg_regs([_|Rs], [#k_var{name=V}|As], I) -> [{I,V}|load_arg_regs(Rs, As, I+1)];
load_arg_regs([_|Rs], [A|As], I) -> [{I,A}|load_arg_regs(Rs, As, I+1)];
-load_arg_regs([], [{var,V}|As], I) -> [{I,V}|load_arg_regs([], As, I+1)];
+load_arg_regs([], [#k_var{name=V}|As], I) -> [{I,V}|load_arg_regs([], As, I+1)];
load_arg_regs([], [A|As], I) -> [{I,A}|load_arg_regs([], As, I+1)];
load_arg_regs(Rs, [], _) -> Rs.
@@ -1979,12 +2316,13 @@ move_unsaved([], _, Regs, Acc) -> {Acc,Regs}.
gen_moves(As, Sr) -> gen_moves(As, Sr, 0, []).
-gen_moves([{var,V}|As], Sr, I, Acc) ->
+gen_moves([#k_var{name=V}|As], Sr, I, Acc) ->
case fetch_var(V, Sr) of
{x,I} -> gen_moves(As, Sr, I+1, Acc);
Reg -> gen_moves(As, Sr, I+1, [{move,Reg,{x,I}}|Acc])
end;
-gen_moves([A|As], Sr, I, Acc) ->
+gen_moves([A0|As], Sr, I, Acc) ->
+ A = atomic(A0),
gen_moves(As, Sr, I+1, [{move,A,{x,I}}|Acc]);
gen_moves([], _, _, Acc) -> lists:keysort(3, Acc).
@@ -2153,7 +2491,7 @@ fetch_var_prefer_y(V, #sr{reg=Reg,stk=Stk}) ->
end.
load_vars(Vs, Regs) ->
- foldl(fun ({var,V}, Rs) -> put_reg(V, Rs) end, Regs, Vs).
+ foldl(fun (#k_var{name=V}, Rs) -> put_reg(V, Rs) end, Regs, Vs).
%% put_reg(Val, Regs) -> Regs.
%% find_reg(Val, Regs) -> {ok,r{R}} | error.
@@ -2254,6 +2592,16 @@ put_catch(Tag, [Other|Stk], Acc) ->
drop_catch(Tag, [{{catch_tag,Tag}}|Stk]) -> [free|Stk];
drop_catch(Tag, [Other|Stk]) -> [Other|drop_catch(Tag, Stk)].
+%% atomic(Klit) -> Lit.
+%% atomic_list([Klit]) -> [Lit].
+
+atomic(#k_literal{val=V}) -> {literal,V};
+atomic(#k_int{val=I}) -> {integer,I};
+atomic(#k_float{val=F}) -> {float,F};
+atomic(#k_atom{val=A}) -> {atom,A};
+%%atomic(#k_char{val=C}) -> {char,C};
+atomic(#k_nil{}) -> nil.
+
%% new_label(St) -> {L,St}.
new_label(#cg{lcount=Next}=St) ->
@@ -2296,3 +2644,86 @@ flatmapfoldl(F, Accu0, [Hd|Tail]) ->
{Rs,Accu2} = flatmapfoldl(F, Accu1, Tail),
{R++Rs,Accu2};
flatmapfoldl(_, Accu, []) -> {[],Accu}.
+
+%% Keep track of life time for variables.
+%%
+%% init_vars([{var,VarName}]) -> Vdb.
+%% new_vars([VarName], I, Vdb) -> Vdb.
+%% use_vars([VarName], I, Vdb) -> Vdb.
+%% add_var(VarName, F, L, Vdb) -> Vdb.
+%%
+%% The list of variable names for new_vars/3 and use_vars/3
+%% must be sorted.
+
+init_vars(Vs) ->
+ vdb_new(Vs).
+
+new_vars([], _, Vdb) -> Vdb;
+new_vars([V], I, Vdb) -> vdb_store_new(V, {V,I,I}, Vdb);
+new_vars(Vs, I, Vdb) -> vdb_update_vars(Vs, Vdb, I).
+
+use_vars([], _, Vdb) ->
+ Vdb;
+use_vars([V], I, Vdb) ->
+ case vdb_find(V, Vdb) of
+ {V,F,L} when I > L -> vdb_update(V, {V,F,I}, Vdb);
+ {V,_,_} -> Vdb;
+ error -> vdb_store_new(V, {V,I,I}, Vdb)
+ end;
+use_vars(Vs, I, Vdb) -> vdb_update_vars(Vs, Vdb, I).
+
+add_var(V, F, L, Vdb) ->
+ vdb_store_new(V, {V,F,L}, Vdb).
+
+%% vdb
+
+vdb_new(Vs) ->
+ ordsets:from_list([{V,0,0} || #k_var{name=V} <- Vs]).
+
+-type var() :: atom().
+
+-spec vdb_find(var(), [vdb_entry()]) -> 'error' | vdb_entry().
+
+vdb_find(V, Vdb) ->
+ case lists:keyfind(V, 1, Vdb) of
+ false -> error;
+ Vd -> Vd
+ end.
+
+vdb_update(V, Update, [{V,_,_}|Vdb]) ->
+ [Update|Vdb];
+vdb_update(V, Update, [Vd|Vdb]) ->
+ [Vd|vdb_update(V, Update, Vdb)].
+
+vdb_store_new(V, New, [{V1,_,_}=Vd|Vdb]) when V > V1 ->
+ [Vd|vdb_store_new(V, New, Vdb)];
+vdb_store_new(V, New, [{V1,_,_}|_]=Vdb) when V < V1 ->
+ [New|Vdb];
+vdb_store_new(_, New, []) -> [New].
+
+vdb_update_vars([V|_]=Vs, [{V1,_,_}=Vd|Vdb], I) when V > V1 ->
+ [Vd|vdb_update_vars(Vs, Vdb, I)];
+vdb_update_vars([V|Vs], [{V1,_,_}|_]=Vdb, I) when V < V1 ->
+ %% New variable.
+ [{V,I,I}|vdb_update_vars(Vs, Vdb, I)];
+vdb_update_vars([V|Vs], [{_,F,L}=Vd|Vdb], I) ->
+ %% Existing variable.
+ if
+ I > L -> [{V,F,I}|vdb_update_vars(Vs, Vdb, I)];
+ true -> [Vd|vdb_update_vars(Vs, Vdb, I)]
+ end;
+vdb_update_vars([V|Vs], [], I) ->
+ %% New variable.
+ [{V,I,I}|vdb_update_vars(Vs, [], I)];
+vdb_update_vars([], Vdb, _) -> Vdb.
+
+%% vdb_sub(Min, Max, Vdb) -> Vdb.
+%% Extract variables which are used before and after Min. Lock
+%% variables alive after Max.
+
+vdb_sub(Min, Max, Vdb) ->
+ [ if L >= Max -> {V,F,locked};
+ true -> Vd
+ end || {V,F,L}=Vd <- Vdb,
+ F < Min,
+ L >= Min ].
diff --git a/lib/compiler/src/v3_core.erl b/lib/compiler/src/v3_core.erl
index ae650546e5..20cb3343fb 100644
--- a/lib/compiler/src/v3_core.erl
+++ b/lib/compiler/src/v3_core.erl
@@ -2505,8 +2505,46 @@ cexpr(#ifun{anno=#a{us=Us0}=A0,name={named,Name},fc=#iclause{pats=Ps}}=Fun0,
end;
cexpr(#iapply{anno=A,op=Op,args=Args}, _As, St) ->
{#c_apply{anno=A#a.anno,op=Op,args=Args},[],A#a.us,St};
-cexpr(#icall{anno=A,module=Mod,name=Name,args=Args}, _As, St) ->
- {#c_call{anno=A#a.anno,module=Mod,name=Name,args=Args},[],A#a.us,St};
+cexpr(#icall{anno=A,module=Mod,name=Name,args=Args}, _As, St0) ->
+ Anno = A#a.anno,
+ case (not cerl:is_c_atom(Mod)) andalso member(tuple_calls, St0#core.opts) of
+ true ->
+ GenAnno = [compiler_generated|Anno],
+
+ %% Generate the clause that matches on the tuple
+ {TupleVar,St1} = new_var(GenAnno, St0),
+ {TupleSizeVar, St2} = new_var(GenAnno, St1),
+ {TupleModVar, St3} = new_var(GenAnno, St2),
+ {TupleArgsVar, St4} = new_var(GenAnno, St3),
+ TryVar = cerl:c_var('Try'),
+
+ TupleGuardExpr =
+ cerl:c_let([TupleSizeVar],
+ c_call_erl(tuple_size, [TupleVar]),
+ c_call_erl('>', [TupleSizeVar, cerl:c_int(0)])),
+
+ TupleGuard =
+ cerl:c_try(TupleGuardExpr, [TryVar], TryVar,
+ [cerl:c_var('T'),cerl:c_var('R')], cerl:c_atom(false)),
+
+ TupleApply =
+ cerl:c_let([TupleModVar],
+ c_call_erl(element, [cerl:c_int(1),TupleVar]),
+ cerl:c_let([TupleArgsVar],
+ cerl:make_list(Args ++ [TupleVar]),
+ c_call_erl(apply, [TupleModVar,Name,TupleArgsVar]))),
+
+ TupleClause = cerl:ann_c_clause(GenAnno, [TupleVar], TupleGuard, TupleApply),
+
+ %% Generate the fallback clause
+ {OtherVar,St5} = new_var(GenAnno, St4),
+ OtherApply = cerl:ann_c_call(GenAnno, OtherVar, Name, Args),
+ OtherClause = cerl:ann_c_clause(GenAnno, [OtherVar], OtherApply),
+
+ {cerl:ann_c_case(GenAnno, Mod, [TupleClause,OtherClause]),[],A#a.us,St5};
+ false ->
+ {#c_call{anno=Anno,module=Mod,name=Name,args=Args},[],A#a.us,St0}
+ end;
cexpr(#iprimop{anno=A,name=Name,args=Args}, _As, St) ->
{#c_primop{anno=A#a.anno,name=Name,args=Args},[],A#a.us,St};
cexpr(#iprotect{anno=A,body=Es}, _As, St0) ->
@@ -2536,6 +2574,9 @@ cfun(#ifun{anno=A,id=Id,vars=Args,clauses=Lcs,fc=Lfc}, _As, St0) ->
clauses=Ccs ++ [Cfc]}},
[],A#a.us,St2}.
+c_call_erl(Fun, Args) ->
+ cerl:c_call(cerl:c_atom(erlang), cerl:c_atom(Fun), Args).
+
%% lit_vars(Literal) -> [Var].
lit_vars(Lit) -> lit_vars(Lit, []).
diff --git a/lib/compiler/src/v3_kernel.erl b/lib/compiler/src/v3_kernel.erl
index 1fc05109c5..3eea058153 100644
--- a/lib/compiler/src/v3_kernel.erl
+++ b/lib/compiler/src/v3_kernel.erl
@@ -82,7 +82,8 @@
-export([module/2,format_error/1]).
-import(lists, [map/2,foldl/3,foldr/3,mapfoldl/3,splitwith/2,member/2,
- keymember/3,keyfind/3,partition/2,droplast/1,last/1,sort/1]).
+ keymember/3,keyfind/3,partition/2,droplast/1,last/1,sort/1,
+ reverse/1]).
-import(ordsets, [add_element/2,del_element/2,union/2,union/1,subtract/2]).
-import(cerl, [c_tuple/1]).
@@ -159,8 +160,7 @@ function({#c_var{name={F,Arity}=FA},Body}, St0) ->
{#ifun{anno=Ab,vars=Kvs,body=B0},[],St2} = expr(Body, new_sub(), St1),
{B1,_,St3} = ubody(B0, return, St2),
%%B1 = B0, St3 = St2, %Null second pass
- {#k_fdef{anno=#k{us=[],ns=[],a=Ab},
- func=F,arity=Arity,vars=Kvs,body=B1},St3}
+ {make_fdef(#k{us=[],ns=[],a=Ab}, F, Arity, Kvs, B1),St3}
catch
Class:Error ->
Stack = erlang:get_stacktrace(),
@@ -1589,23 +1589,18 @@ match_var([U|Us], Cs0, Def, St) ->
%% according to type, the order is really irrelevant but tries to be
%% smart.
-match_con(Us, [C], Def, St) ->
- %% There is only one clause. We can keep literal tuples and
- %% lists, but we must convert []/integer/float/atom literals
- %% to the proper record (#k_nil{} and so on).
- Cs = [expand_pat_lit_clause(C, false)],
- match_con_1(Us, Cs, Def, St);
match_con(Us, Cs0, Def, St) ->
- %% More than one clause. Remove literals at the top level.
- Cs = [expand_pat_lit_clause(C, true) || C <- Cs0],
+ %% Expand literals at the top level.
+ Cs = [expand_pat_lit_clause(C) || C <- Cs0],
match_con_1(Us, Cs, Def, St).
match_con_1([U|_Us] = L, Cs, Def, St0) ->
%% Extract clauses for different constructors (types).
%%ok = io:format("match_con ~p~n", [Cs]),
- Ttcs = select_types([k_binary], Cs) ++ select_bin_con(Cs) ++
- select_types([k_cons,k_tuple,k_map,k_atom,k_float,k_int,
- k_nil,k_literal], Cs),
+ Ttcs0 = select_types([k_binary], Cs) ++ select_bin_con(Cs) ++
+ select_types([k_cons,k_tuple,k_map,k_atom,k_float,
+ k_int,k_nil], Cs),
+ Ttcs = opt_single_valued(Ttcs0),
%%ok = io:format("ttcs = ~p~n", [Ttcs]),
{Scs,St1} =
mapfoldl(fun ({T,Tcs}, St) ->
@@ -1618,28 +1613,14 @@ match_con_1([U|_Us] = L, Cs, Def, St0) ->
select_types(Types, Cs) ->
[{T,Tcs} || T <- Types, begin Tcs = select(T, Cs), Tcs =/= [] end].
-
-expand_pat_lit_clause(#iclause{pats=[#ialias{pat=#k_literal{anno=A,val=Val}}=Alias|Ps]}=C, B) ->
- P = case B of
- true -> expand_pat_lit(Val, A);
- false -> literal(Val, A)
- end,
+
+expand_pat_lit_clause(#iclause{pats=[#ialias{pat=#k_literal{anno=A,val=Val}}=Alias|Ps]}=C) ->
+ P = expand_pat_lit(Val, A),
C#iclause{pats=[Alias#ialias{pat=P}|Ps]};
-expand_pat_lit_clause(#iclause{pats=[#k_literal{anno=A,val=Val}|Ps]}=C, B) ->
- P = case B of
- true -> expand_pat_lit(Val, A);
- false -> literal(Val, A)
- end,
+expand_pat_lit_clause(#iclause{pats=[#k_literal{anno=A,val=Val}|Ps]}=C) ->
+ P = expand_pat_lit(Val, A),
C#iclause{pats=[P|Ps]};
-expand_pat_lit_clause(#iclause{pats=[#k_binary{anno=A,segs=#k_bin_end{}}|Ps]}=C, B) ->
- case B of
- true ->
- C;
- false ->
- P = #k_literal{anno=A,val = <<>>},
- C#iclause{pats=[P|Ps]}
- end;
-expand_pat_lit_clause(C, _) -> C.
+expand_pat_lit_clause(C) -> C.
expand_pat_lit([H|T], A) ->
#k_cons{anno=A,hd=literal(H, A),tl=literal(T, A)};
@@ -1659,6 +1640,107 @@ literal(Val, A) when is_atom(Val) ->
literal(Val, A) when is_list(Val); is_tuple(Val) ->
#k_literal{anno=A,val=Val}.
+%% opt_singled_valued([{Type,Clauses}]) -> [{Type,Clauses}].
+%% If a type only has one clause and if the pattern is literal,
+%% the matching can be done more efficiently by directly comparing
+%% with the literal (that is especially true for binaries).
+
+opt_single_valued(Ttcs) ->
+ opt_single_valued(Ttcs, [], []).
+
+opt_single_valued([{_,[#iclause{pats=[P0|Ps]}=Tc]}=Ttc|Ttcs], TtcAcc, LitAcc) ->
+ try combine_lit_pat(P0) of
+ P ->
+ LitTtc = Tc#iclause{pats=[P|Ps]},
+ opt_single_valued(Ttcs, TtcAcc, [LitTtc|LitAcc])
+ catch
+ not_possible ->
+ opt_single_valued(Ttcs, [Ttc|TtcAcc], LitAcc)
+ end;
+opt_single_valued([Ttc|Ttcs], TtcAcc, LitAcc) ->
+ opt_single_valued(Ttcs, [Ttc|TtcAcc], LitAcc);
+opt_single_valued([], TtcAcc, []) ->
+ reverse(TtcAcc);
+opt_single_valued([], TtcAcc, LitAcc) ->
+ Literals = {k_literal,reverse(LitAcc)},
+ %% Test the literals as early as possible.
+ case reverse(TtcAcc) of
+ [{k_binary,_}=Bin|Ttcs] ->
+ %% The delayed creation of sub binaries requires
+ %% bs_start_match2 to be the first instruction in the
+ %% function.
+ [Bin,Literals|Ttcs];
+ Ttcs ->
+ [Literals|Ttcs]
+ end.
+
+combine_lit_pat(#ialias{pat=Pat0}=Alias) ->
+ Pat = combine_lit_pat(Pat0),
+ Alias#ialias{pat=Pat};
+combine_lit_pat(Pat) ->
+ case do_combine_lit_pat(Pat) of
+ #k_literal{val=Val} when is_atom(Val) ->
+ throw(not_possible);
+ #k_literal{val=Val} when is_number(Val) ->
+ throw(not_possible);
+ #k_literal{val=[]} ->
+ throw(not_possible);
+ #k_literal{}=Lit ->
+ Lit
+ end.
+
+do_combine_lit_pat(#k_atom{anno=A,val=Val}) ->
+ #k_literal{anno=A,val=Val};
+do_combine_lit_pat(#k_float{anno=A,val=Val}) ->
+ #k_literal{anno=A,val=Val};
+do_combine_lit_pat(#k_int{anno=A,val=Val}) ->
+ #k_literal{anno=A,val=Val};
+do_combine_lit_pat(#k_nil{anno=A}) ->
+ #k_literal{anno=A,val=[]};
+do_combine_lit_pat(#k_binary{anno=A,segs=Segs}) ->
+ Bin = combine_bin_segs(Segs),
+ #k_literal{anno=A,val=Bin};
+do_combine_lit_pat(#k_cons{anno=A,hd=Hd0,tl=Tl0}) ->
+ #k_literal{val=Hd} = do_combine_lit_pat(Hd0),
+ #k_literal{val=Tl} = do_combine_lit_pat(Tl0),
+ #k_literal{anno=A,val=[Hd|Tl]};
+do_combine_lit_pat(#k_literal{}=Lit) ->
+ Lit;
+do_combine_lit_pat(#k_tuple{anno=A,es=Es0}) ->
+ Es = [begin
+ #k_literal{val=Lit} = do_combine_lit_pat(El),
+ Lit
+ end || El <- Es0],
+ #k_literal{anno=A,val=list_to_tuple(Es)};
+do_combine_lit_pat(_) ->
+ throw(not_possible).
+
+combine_bin_segs(#k_bin_seg{size=Size0,unit=Unit,type=integer,
+ flags=[unsigned,big],seg=Seg,next=Next}) ->
+ #k_literal{val=Size1} = do_combine_lit_pat(Size0),
+ #k_literal{val=Int} = do_combine_lit_pat(Seg),
+ Size = Size1 * Unit,
+ if
+ 0 < Size, Size < 64 ->
+ Bin = <<Int:Size>>,
+ case Bin of
+ <<Int:Size>> ->
+ NextBin = combine_bin_segs(Next),
+ <<Bin/bits,NextBin/bits>>;
+ _ ->
+ %% The integer Int does not fit in the segment,
+ %% thus it will not match.
+ throw(not_possible)
+ end;
+ true ->
+ %% Avoid creating huge binary literals.
+ throw(not_possible)
+ end;
+combine_bin_segs(#k_bin_end{}) ->
+ <<>>;
+combine_bin_segs(_) ->
+ throw(not_possible).
+
%% select_bin_con([Clause]) -> [{Type,[Clause]}].
%% Extract clauses for the k_bin_seg constructor. As k_bin_seg
%% matching can overlap, the k_bin_seg constructors cannot be
@@ -2179,9 +2261,8 @@ iletrec_funs_gen(Fs, FreeVs, St) ->
Arity0 = length(Vs),
{Fb1,_,Lst1} = ubody(Fb0, return, Lst0#kern{ff={N,Arity0}}),
Arity = Arity0 + length(FreeVs),
- Fun = #k_fdef{anno=#k{us=[],ns=[],a=Fa},
- func=N,arity=Arity,
- vars=Vs ++ FreeVs,body=Fb1},
+ Fun = make_fdef(#k{us=[],ns=[],a=Fa}, N, Arity,
+ Vs++FreeVs, Fb1),
Lst1#kern{funs=[Fun|Lst1#kern.funs]}
end, St, Fs).
@@ -2325,8 +2406,7 @@ uexpr(#ifun{anno=A,vars=Vs,body=B0}, {break,Rs}, St0) ->
%% No id annotation. Must invent a fun name.
new_fun_name(St1)
end,
- Fun = #k_fdef{anno=#k{us=[],ns=[],a=A},func=Fname,arity=Arity,
- vars=Vs ++ Fvs,body=B1},
+ Fun = make_fdef(#k{us=[],ns=[],a=A}, Fname, Arity, Vs++Fvs, B1),
{#k_bif{anno=#k{us=Free,ns=lit_list_vars(Rs),a=A},
op=#k_internal{name=make_fun,arity=length(Free)+2},
args=[#k_atom{val=Fname},#k_int{val=Arity}|Fvs],
@@ -2343,6 +2423,16 @@ uexpr(Lit, {break,Rs0}, St0) ->
add_local_function(_, #kern{funs=ignore}=St) -> St;
add_local_function(F, #kern{funs=Funs}=St) -> St#kern{funs=[F|Funs]}.
+%% Make a #k_fdef{}, making sure that the body is always a #k_match{}.
+make_fdef(Anno, Name, Arity, Vs, #k_match{}=Body) ->
+ #k_fdef{anno=Anno,func=Name,arity=Arity,vars=Vs,body=Body};
+make_fdef(Anno, Name, Arity, Vs, Body) ->
+ Ka = get_kanno(Body),
+ Match = #k_match{anno=#k{us=Ka#k.us,ns=[],a=Ka#k.a},
+ vars=Vs,body=Body,ret=[]},
+ #k_fdef{anno=Anno,func=Name,arity=Arity,vars=Vs,body=Match}.
+
+
%% handle_reuse_annos([#k_var{}], State) -> State.
%% In general, it is only safe to reuse a variable for a match context
%% if the original value of the variable will no longer be needed.
diff --git a/lib/compiler/src/v3_kernel.hrl b/lib/compiler/src/v3_kernel.hrl
index 7cd30b25a8..87011b7680 100644
--- a/lib/compiler/src/v3_kernel.hrl
+++ b/lib/compiler/src/v3_kernel.hrl
@@ -79,7 +79,7 @@
-record(k_guard_clause, {anno=[],guard,body}).
-record(k_break, {anno=[],args=[]}).
--record(k_guard_break, {anno=[],args=[]}).
+-record(k_guard_break, {anno=[],args=[],locked=[]}).
-record(k_return, {anno=[],args=[]}).
%%k_get_anno(Thing) -> element(2, Thing).
diff --git a/lib/compiler/src/v3_kernel_pp.erl b/lib/compiler/src/v3_kernel_pp.erl
index 53097d0d7d..ac91039ae0 100644
--- a/lib/compiler/src/v3_kernel_pp.erl
+++ b/lib/compiler/src/v3_kernel_pp.erl
@@ -491,7 +491,7 @@ indent(Ctxt) -> indent(Ctxt#ctxt.indent, Ctxt).
indent(N, _Ctxt) when N =< 0 -> "";
indent(N, Ctxt) ->
T = Ctxt#ctxt.tab_width,
- string:chars($\t, N div T, string:chars($\s, N rem T)).
+ lists:duplicate(N div T, $\t) ++ lists:duplicate(N rem T, $\s).
nl_indent(Ctxt) -> [$\n|indent(Ctxt)].
@@ -508,7 +508,7 @@ unindent([$\t|T], N, Ctxt, C) ->
if N >= Tab ->
unindent(T, N - Tab, Ctxt, C);
true ->
- unindent([string:chars($\s, Tab - N)|T], 0, Ctxt, C)
+ unindent([lists:duplicate(Tab - N, $\s)|T], 0, Ctxt, C)
end;
unindent([L|T], N, Ctxt, C) when is_list(L) ->
unindent(L, N, Ctxt, [T|C]);
diff --git a/lib/compiler/src/v3_life.erl b/lib/compiler/src/v3_life.erl
deleted file mode 100644
index be3ade47ff..0000000000
--- a/lib/compiler/src/v3_life.erl
+++ /dev/null
@@ -1,468 +0,0 @@
-%%
-%% %CopyrightBegin%
-%%
-%% Copyright Ericsson AB 1999-2016. All Rights Reserved.
-%%
-%% Licensed under the Apache License, Version 2.0 (the "License");
-%% you may not use this file except in compliance with the License.
-%% You may obtain a copy of the License at
-%%
-%% http://www.apache.org/licenses/LICENSE-2.0
-%%
-%% Unless required by applicable law or agreed to in writing, software
-%% distributed under the License is distributed on an "AS IS" BASIS,
-%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-%% See the License for the specific language governing permissions and
-%% limitations under the License.
-%%
-%% %CopyrightEnd%
-%%
-%% Purpose : Convert annotated kernel expressions to annotated beam format.
-
-%% This module creates beam format annotated with variable lifetime
-%% information. Each thing is given an index and for each variable we
-%% store the first and last index for its occurrence. The variable
-%% database, VDB, attached to each thing is only relevant internally
-%% for that thing.
-%%
-%% For nested things like matches the numbering continues locally and
-%% the VDB for that thing refers to the variable usage within that
-%% thing. Variables which live through a such a thing are internally
-%% given a very large last index. Internally the indexes continue
-%% after the index of that thing. This creates no problems as the
-%% internal variable info never escapes and externally we only see
-%% variable which are alive both before or after.
-%%
-%% This means that variables never "escape" from a thing and the only
-%% way to get values from a thing is to "return" them, with 'break' or
-%% 'return'. Externally these values become the return values of the
-%% thing. This is no real limitation as most nested things have
-%% multiple threads so working out a common best variable usage is
-%% difficult.
-
--module(v3_life).
-
--export([module/2]).
-
--export([vdb_find/2]).
-
--import(lists, [member/2,map/2,reverse/1,sort/1]).
--import(ordsets, [add_element/2,intersection/2,union/2]).
-
--include("v3_kernel.hrl").
--include("v3_life.hrl").
-
--type fa() :: {atom(),arity()}.
-
-%% These are not defined in v3_kernel.hrl.
-get_kanno(Kthing) -> element(2, Kthing).
-%%set_kanno(Kthing, Anno) -> setelement(2, Kthing, Anno).
-
--spec module(#k_mdef{}, [compile:option()]) ->
- {'ok',{module(),[fa()],[_],[_]}}.
-
-module(#k_mdef{name=M,exports=Es,attributes=As,body=Fs0}, _Opts) ->
- Fs1 = functions(Fs0, []),
- {ok,{M,Es,As,Fs1}}.
-
-functions([F|Fs], Acc) ->
- functions(Fs, [function(F)|Acc]);
-functions([], Acc) -> reverse(Acc).
-
-%% function(Kfunc) -> Func.
-
-function(#k_fdef{anno=#k{a=Anno},func=F,arity=Ar,vars=Vs,body=Kb}) ->
- try
- As = var_list(Vs),
- Vdb0 = init_vars(As),
- %% Force a top-level match!
- B0 = case Kb of
- #k_match{} -> Kb;
- _ ->
- Ka = get_kanno(Kb),
- #k_match{anno=#k{us=Ka#k.us,ns=[],a=Ka#k.a},
- vars=Vs,body=Kb,ret=[]}
- end,
- {B1,_,Vdb1} = body(B0, 1, Vdb0),
- {function,F,Ar,As,B1,Vdb1,Anno}
- catch
- Class:Error ->
- Stack = erlang:get_stacktrace(),
- io:fwrite("Function: ~w/~w\n", [F,Ar]),
- erlang:raise(Class, Error, Stack)
- end.
-
-%% body(Kbody, I, Vdb) -> {[Expr],MaxI,Vdb}.
-%% Handle a body.
-
-body(#k_seq{arg=Ke,body=Kb}, I, Vdb0) ->
- %%ok = io:fwrite("life ~w:~p~n", [?LINE,{Ke,I,Vdb0}]),
- A = get_kanno(Ke),
- Vdb1 = use_vars(union(A#k.us, A#k.ns), I, Vdb0),
- {Es,MaxI,Vdb2} = body(Kb, I+1, Vdb1),
- E = expr(Ke, I, Vdb2),
- {[E|Es],MaxI,Vdb2};
-body(Ke, I, Vdb0) ->
- %%ok = io:fwrite("life ~w:~p~n", [?LINE,{Ke,I,Vdb0}]),
- A = get_kanno(Ke),
- Vdb1 = use_vars(union(A#k.us, A#k.ns), I, Vdb0),
- E = expr(Ke, I, Vdb1),
- {[E],I,Vdb1}.
-
-%% protected(Kprotected, I, Vdb) -> Protected.
-%% Only used in guards.
-
-protected(#k_protected{anno=A,arg=Ts,ret=Rs}, I, Vdb) ->
- %% Lock variables that are alive before try and used afterwards.
- %% Don't lock variables that are only used inside the protected
- %% expression.
- Pdb0 = vdb_sub(I, I+1, Vdb),
- {T,MaxI,Pdb1} = body(Ts, I+1, Pdb0),
- Pdb2 = use_vars(A#k.ns, MaxI+1, Pdb1), %Save "return" values
- #l{ke={protected,T,var_list(Rs)},i=I,a=A#k.a,vdb=Pdb2}.
-
-%% expr(Kexpr, I, Vdb) -> Expr.
-
-expr(#k_test{anno=A,op=Op,args=As,inverted=Inverted}, I, _Vdb) ->
- #l{ke={test,test_op(Op),atomic_list(As),Inverted},i=I,a=A#k.a};
-expr(#k_call{anno=A,op=Op,args=As,ret=Rs}, I, _Vdb) ->
- #l{ke={call,call_op(Op),atomic_list(As),var_list(Rs)},i=I,a=A#k.a};
-expr(#k_enter{anno=A,op=Op,args=As}, I, _Vdb) ->
- #l{ke={enter,call_op(Op),atomic_list(As)},i=I,a=A#k.a};
-expr(#k_bif{anno=A,op=Op,args=As,ret=Rs}, I, _Vdb) ->
- Bif = k_bif(A, Op, As, Rs),
- #l{ke=Bif,i=I,a=A#k.a};
-expr(#k_match{anno=A,body=Kb,ret=Rs}, I, Vdb) ->
- %% Work out imported variables which need to be locked.
- Mdb = vdb_sub(I, I+1, Vdb),
- M = match(Kb, A#k.us, I+1, [], Mdb),
- #l{ke={match,M,var_list(Rs)},i=I,vdb=use_vars(A#k.us, I+1, Mdb),a=A#k.a};
-expr(#k_guard_match{anno=A,body=Kb,ret=Rs}, I, Vdb) ->
- %% Work out imported variables which need to be locked.
- Mdb = vdb_sub(I, I+1, Vdb),
- M = match(Kb, A#k.us, I+1, [], Mdb),
- #l{ke={guard_match,M,var_list(Rs)},i=I,vdb=use_vars(A#k.us, I+1, Mdb),a=A#k.a};
-expr(#k_try{}=Try, I, Vdb) ->
- body_try(Try, I, Vdb);
-expr(#k_protected{}=Protected, I, Vdb) ->
- protected(Protected, I, Vdb);
-expr(#k_try_enter{anno=A,arg=Ka,vars=Vs,body=Kb,evars=Evs,handler=Kh}, I, Vdb) ->
- %% Lock variables that are alive before the catch and used afterwards.
- %% Don't lock variables that are only used inside the try.
- Tdb0 = vdb_sub(I, I+1, Vdb),
- %% This is the tricky bit. Lock variables in Arg that are used in
- %% the body and handler. Add try tag 'variable'.
- Ab = get_kanno(Kb),
- Ah = get_kanno(Kh),
- Tdb1 = use_vars(union(Ab#k.us, Ah#k.us), I+3, Tdb0),
- Tdb2 = vdb_sub(I, I+2, Tdb1),
- Vnames = fun (Kvar) -> Kvar#k_var.name end, %Get the variable names
- {Aes,_,Adb} = body(Ka, I+2, add_var({catch_tag,I+1}, I+1, 1000000, Tdb2)),
- {Bes,_,Bdb} = body(Kb, I+4, new_vars(sort(map(Vnames, Vs)), I+3, Tdb2)),
- {Hes,_,Hdb} = body(Kh, I+4, new_vars(sort(map(Vnames, Evs)), I+3, Tdb2)),
- #l{ke={try_enter,#l{ke={block,Aes},i=I+1,vdb=Adb,a=[]},
- var_list(Vs),#l{ke={block,Bes},i=I+3,vdb=Bdb,a=[]},
- var_list(Evs),#l{ke={block,Hes},i=I+3,vdb=Hdb,a=[]}},
- i=I,vdb=Tdb1,a=A#k.a};
-expr(#k_catch{anno=A,body=Kb,ret=[R]}, I, Vdb) ->
- %% Lock variables that are alive before the catch and used afterwards.
- %% Don't lock variables that are only used inside the catch.
- %% Add catch tag 'variable'.
- Cdb0 = vdb_sub(I, I+1, Vdb),
- {Es,_,Cdb1} = body(Kb, I+1, add_var({catch_tag,I}, I, locked, Cdb0)),
- #l{ke={'catch',Es,variable(R)},i=I,vdb=Cdb1,a=A#k.a};
-expr(#k_receive{anno=A,var=V,body=Kb,timeout=T,action=Ka,ret=Rs}, I, Vdb) ->
- %% Work out imported variables which need to be locked.
- Rdb = vdb_sub(I, I+1, Vdb),
- M = match(Kb, add_element(V#k_var.name, A#k.us), I+1, [],
- new_vars([V#k_var.name], I, Rdb)),
- {Tes,_,Adb} = body(Ka, I+1, Rdb),
- #l{ke={receive_loop,atomic(T),variable(V),M,
- #l{ke=Tes,i=I+1,vdb=Adb,a=[]},var_list(Rs)},
- i=I,vdb=use_vars(A#k.us, I+1, Vdb),a=A#k.a};
-expr(#k_receive_accept{anno=A}, I, _Vdb) ->
- #l{ke=receive_accept,i=I,a=A#k.a};
-expr(#k_receive_next{anno=A}, I, _Vdb) ->
- #l{ke=receive_next,i=I,a=A#k.a};
-expr(#k_put{anno=A,arg=Arg,ret=Rs}, I, _Vdb) ->
- #l{ke={set,var_list(Rs),literal(Arg, [])},i=I,a=A#k.a};
-expr(#k_break{anno=A,args=As}, I, _Vdb) ->
- #l{ke={break,atomic_list(As)},i=I,a=A#k.a};
-expr(#k_guard_break{anno=A,args=As}, I, Vdb) ->
- Locked = [V || {V,_,_} <- Vdb],
- #l{ke={guard_break,atomic_list(As),Locked},i=I,a=A#k.a};
-expr(#k_return{anno=A,args=As}, I, _Vdb) ->
- #l{ke={return,atomic_list(As)},i=I,a=A#k.a}.
-
-body_try(#k_try{anno=A,arg=Ka,vars=Vs,body=Kb,evars=Evs,handler=Kh,ret=Rs},
- I, Vdb) ->
- %% Lock variables that are alive before the catch and used afterwards.
- %% Don't lock variables that are only used inside the try.
- Tdb0 = vdb_sub(I, I+1, Vdb),
- %% This is the tricky bit. Lock variables in Arg that are used in
- %% the body and handler. Add try tag 'variable'.
- Ab = get_kanno(Kb),
- Ah = get_kanno(Kh),
- Tdb1 = use_vars(union(Ab#k.us, Ah#k.us), I+3, Tdb0),
- Tdb2 = vdb_sub(I, I+2, Tdb1),
- Vnames = fun (Kvar) -> Kvar#k_var.name end, %Get the variable names
- {Aes,_,Adb} = body(Ka, I+2, add_var({catch_tag,I+1}, I+1, locked, Tdb2)),
- {Bes,_,Bdb} = body(Kb, I+4, new_vars(sort(map(Vnames, Vs)), I+3, Tdb2)),
- {Hes,_,Hdb} = body(Kh, I+4, new_vars(sort(map(Vnames, Evs)), I+3, Tdb2)),
- #l{ke={'try',#l{ke={block,Aes},i=I+1,vdb=Adb,a=[]},
- var_list(Vs),#l{ke={block,Bes},i=I+3,vdb=Bdb,a=[]},
- var_list(Evs),#l{ke={block,Hes},i=I+3,vdb=Hdb,a=[]},
- var_list(Rs)},
- i=I,vdb=Tdb1,a=A#k.a}.
-
-%% call_op(Op) -> Op.
-%% test_op(Op) -> Op.
-%% Do any necessary name translations here to munge into beam format.
-
-call_op(#k_local{name=N}) -> N;
-call_op(#k_remote{mod=M,name=N}) -> {remote,atomic(M),atomic(N)};
-call_op(Other) -> variable(Other).
-
-test_op(#k_remote{mod=#k_atom{val=erlang},name=#k_atom{val=N}}) -> N.
-
-%% k_bif(Anno, Op, [Arg], [Ret], Vdb) -> Expr.
-%% Build bifs.
-
-k_bif(_A, #k_internal{name=Name}, As, Rs) ->
- {internal,Name,atomic_list(As),var_list(Rs)};
-k_bif(_A, #k_remote{mod=#k_atom{val=erlang},name=#k_atom{val=Name}}, As, Rs) ->
- Ar = length(As),
- case is_gc_bif(Name, Ar) of
- false ->
- {bif,Name,atomic_list(As),var_list(Rs)};
- true ->
- {gc_bif,Name,atomic_list(As),var_list(Rs)}
- end.
-
-%% match(Kexpr, [LockVar], I, Vdb) -> Expr.
-%% Convert match tree to old format.
-
-match(#k_alt{anno=A,first=Kf,then=Kt}, Ls, I, Ctxt, Vdb0) ->
- Vdb1 = use_vars(union(A#k.us, Ls), I, Vdb0),
- F = match(Kf, Ls, I+1, Ctxt, Vdb1),
- T = match(Kt, Ls, I+1, Ctxt, Vdb1),
- #l{ke={alt,F,T},i=I,vdb=Vdb1,a=A#k.a};
-match(#k_select{anno=A,var=V,types=Kts}, Ls0, I, Ctxt, Vdb0) ->
- Vanno = get_kanno(V),
- Ls1 = case member(no_usage, Vanno) of
- false -> add_element(V#k_var.name, Ls0);
- true -> Ls0
- end,
- Anno = case member(reuse_for_context, Vanno) of
- true -> [reuse_for_context|A#k.a];
- false -> A#k.a
- end,
- Vdb1 = use_vars(union(A#k.us, Ls1), I, Vdb0),
- Ts = [type_clause(Tc, Ls1, I+1, Ctxt, Vdb1) || Tc <- Kts],
- #l{ke={select,literal(V, Ctxt),Ts},i=I,vdb=Vdb1,a=Anno};
-match(#k_guard{anno=A,clauses=Kcs}, Ls, I, Ctxt, Vdb0) ->
- Vdb1 = use_vars(union(A#k.us, Ls), I, Vdb0),
- Cs = [guard_clause(G, Ls, I+1, Ctxt, Vdb1) || G <- Kcs],
- #l{ke={guard,Cs},i=I,vdb=Vdb1,a=A#k.a};
-match(Other, Ls, I, _Ctxt, Vdb0) ->
- Vdb1 = use_vars(Ls, I, Vdb0),
- {B,_,Vdb2} = body(Other, I+1, Vdb1),
- #l{ke={block,B},i=I,vdb=Vdb2,a=[]}.
-
-type_clause(#k_type_clause{anno=A,type=T,values=Kvs}, Ls, I, Ctxt, Vdb0) ->
- %%ok = io:format("life ~w: ~p~n", [?LINE,{T,Kvs}]),
- Vdb1 = use_vars(union(A#k.us, Ls), I+1, Vdb0),
- Vs = [val_clause(Vc, Ls, I+1, Ctxt, Vdb1) || Vc <- Kvs],
- #l{ke={type_clause,type(T),Vs},i=I,vdb=Vdb1,a=A#k.a}.
-
-val_clause(#k_val_clause{anno=A,val=V,body=Kb}, Ls0, I, Ctxt0, Vdb0) ->
- New = (get_kanno(V))#k.ns,
- Bus = (get_kanno(Kb))#k.us,
- %%ok = io:format("Ls0 = ~p, Used=~p\n New=~p, Bus=~p\n", [Ls0,Used,New,Bus]),
- Ls1 = union(intersection(New, Bus), Ls0), %Lock for safety
- Vdb1 = use_vars(union(A#k.us, Ls1), I+1, new_vars(New, I, Vdb0)),
- Ctxt = case V of
- #k_binary{segs=#k_var{name=C0}} -> C0;
- _ -> Ctxt0
- end,
- B = match(Kb, Ls1, I+1, Ctxt, Vdb1),
- #l{ke={val_clause,literal(V, Ctxt),B},i=I,vdb=use_vars(Bus, I+1, Vdb1),a=A#k.a}.
-
-guard_clause(#k_guard_clause{anno=A,guard=Kg,body=Kb}, Ls, I, Ctxt, Vdb0) ->
- Vdb1 = use_vars(union(A#k.us, Ls), I+2, Vdb0),
- Gdb = vdb_sub(I+1, I+2, Vdb1),
- G = protected(Kg, I+1, Gdb),
- B = match(Kb, Ls, I+2, Ctxt, Vdb1),
- #l{ke={guard_clause,G,B},
- i=I,vdb=use_vars((get_kanno(Kg))#k.us, I+2, Vdb1),
- a=A#k.a}.
-
-%% type(Ktype) -> Type.
-
-type(k_literal) -> literal;
-type(k_int) -> integer;
-%%type(k_char) -> integer; %Hhhmmm???
-type(k_float) -> float;
-type(k_atom) -> atom;
-type(k_nil) -> nil;
-type(k_cons) -> cons;
-type(k_tuple) -> tuple;
-type(k_binary) -> binary;
-type(k_bin_seg) -> bin_seg;
-type(k_bin_int) -> bin_int;
-type(k_bin_end) -> bin_end;
-type(k_map) -> map.
-
-%% variable(Klit) -> Lit.
-%% var_list([Klit]) -> [Lit].
-
-variable(#k_var{name=N}) -> {var,N}.
-
-var_list(Ks) -> [variable(K) || K <- Ks].
-
-%% atomic(Klit) -> Lit.
-%% atomic_list([Klit]) -> [Lit].
-
-atomic(#k_literal{val=V}) -> {literal,V};
-atomic(#k_var{name=N}) -> {var,N};
-atomic(#k_int{val=I}) -> {integer,I};
-atomic(#k_float{val=F}) -> {float,F};
-atomic(#k_atom{val=N}) -> {atom,N};
-%%atomic(#k_char{val=C}) -> {char,C};
-atomic(#k_nil{}) -> nil.
-
-atomic_list(Ks) -> [atomic(K) || K <- Ks].
-
-%% literal(Klit) -> Lit.
-%% literal_list([Klit]) -> [Lit].
-
-literal(#k_var{name=N}, _) -> {var,N};
-literal(#k_literal{val=I}, _) -> {literal,I};
-literal(#k_int{val=I}, _) -> {integer,I};
-literal(#k_float{val=F}, _) -> {float,F};
-literal(#k_atom{val=N}, _) -> {atom,N};
-%%literal(#k_char{val=C}, _) -> {char,C};
-literal(#k_nil{}, _) -> nil;
-literal(#k_cons{hd=H,tl=T}, Ctxt) ->
- {cons,[literal(H, Ctxt),literal(T, Ctxt)]};
-literal(#k_binary{segs=V}, Ctxt) ->
- {binary,literal(V, Ctxt)};
-literal(#k_bin_seg{size=S,unit=U,type=T,flags=Fs,seg=Seg,next=[]}, Ctxt) ->
- %% Only occurs in patterns.
- {bin_seg,Ctxt,literal(S, Ctxt),U,T,Fs,[literal(Seg, Ctxt)]};
-literal(#k_bin_seg{size=S,unit=U,type=T,flags=Fs,seg=Seg,next=N}, Ctxt) ->
- {bin_seg,Ctxt,literal(S, Ctxt),U,T,Fs,
- [literal(Seg, Ctxt),literal(N, Ctxt)]};
-literal(#k_bin_int{size=S,unit=U,flags=Fs,val=Int,next=N}, Ctxt) ->
- %% Only occurs in patterns.
- {bin_int,Ctxt,literal(S, Ctxt),U,Fs,Int,
- [literal(N, Ctxt)]};
-literal(#k_bin_end{}, Ctxt) ->
- {bin_end,Ctxt};
-literal(#k_tuple{es=Es}, Ctxt) ->
- {tuple,literal_list(Es, Ctxt)};
-literal(#k_map{op=Op,var=Var,es=Es0}, Ctxt) ->
- {map,Op,literal(Var, Ctxt),literal_list(Es0, Ctxt)};
-literal(#k_map_pair{key=K,val=V}, Ctxt) ->
- {map_pair,literal(K, Ctxt),literal(V, Ctxt)}.
-
-literal_list(Ks, Ctxt) ->
- [literal(K, Ctxt) || K <- Ks].
-
-
-%% is_gc_bif(Name, Arity) -> true|false
-%% Determines whether the BIF Name/Arity might do a GC.
-
-is_gc_bif(hd, 1) -> false;
-is_gc_bif(tl, 1) -> false;
-is_gc_bif(self, 0) -> false;
-is_gc_bif(node, 0) -> false;
-is_gc_bif(node, 1) -> false;
-is_gc_bif(element, 2) -> false;
-is_gc_bif(get, 1) -> false;
-is_gc_bif(tuple_size, 1) -> false;
-is_gc_bif(Bif, Arity) ->
- not (erl_internal:bool_op(Bif, Arity) orelse
- erl_internal:new_type_test(Bif, Arity) orelse
- erl_internal:comp_op(Bif, Arity)).
-
-%% Keep track of life time for variables.
-%%
-%% init_vars([{var,VarName}]) -> Vdb.
-%% new_vars([VarName], I, Vdb) -> Vdb.
-%% use_vars([VarName], I, Vdb) -> Vdb.
-%% add_var(VarName, F, L, Vdb) -> Vdb.
-%%
-%% The list of variable names for new_vars/3 and use_vars/3
-%% must be sorted.
-
-init_vars(Vs) ->
- vdb_new(Vs).
-
-new_vars([], _, Vdb) -> Vdb;
-new_vars([V], I, Vdb) -> vdb_store_new(V, {V,I,I}, Vdb);
-new_vars(Vs, I, Vdb) -> vdb_update_vars(Vs, Vdb, I).
-
-use_vars([], _, Vdb) ->
- Vdb;
-use_vars([V], I, Vdb) ->
- case vdb_find(V, Vdb) of
- {V,F,L} when I > L -> vdb_update(V, {V,F,I}, Vdb);
- {V,_,_} -> Vdb;
- error -> vdb_store_new(V, {V,I,I}, Vdb)
- end;
-use_vars(Vs, I, Vdb) -> vdb_update_vars(Vs, Vdb, I).
-
-add_var(V, F, L, Vdb) ->
- vdb_store_new(V, {V,F,L}, Vdb).
-
-%% vdb
-
-vdb_new(Vs) ->
- sort([{V,0,0} || {var,V} <- Vs]).
-
--type var() :: atom().
-
--spec vdb_find(var(), [vdb_entry()]) -> 'error' | vdb_entry().
-
-vdb_find(V, Vdb) ->
- case lists:keyfind(V, 1, Vdb) of
- false -> error;
- Vd -> Vd
- end.
-
-vdb_update(V, Update, [{V,_,_}|Vdb]) ->
- [Update|Vdb];
-vdb_update(V, Update, [Vd|Vdb]) ->
- [Vd|vdb_update(V, Update, Vdb)].
-
-vdb_store_new(V, New, [{V1,_,_}=Vd|Vdb]) when V > V1 ->
- [Vd|vdb_store_new(V, New, Vdb)];
-vdb_store_new(V, New, [{V1,_,_}|_]=Vdb) when V < V1 ->
- [New|Vdb];
-vdb_store_new(_, New, []) -> [New].
-
-vdb_update_vars([V|_]=Vs, [{V1,_,_}=Vd|Vdb], I) when V > V1 ->
- [Vd|vdb_update_vars(Vs, Vdb, I)];
-vdb_update_vars([V|Vs], [{V1,_,_}|_]=Vdb, I) when V < V1 ->
- %% New variable.
- [{V,I,I}|vdb_update_vars(Vs, Vdb, I)];
-vdb_update_vars([V|Vs], [{_,F,L}=Vd|Vdb], I) ->
- %% Existing variable.
- if
- I > L -> [{V,F,I}|vdb_update_vars(Vs, Vdb, I)];
- true -> [Vd|vdb_update_vars(Vs, Vdb, I)]
- end;
-vdb_update_vars([V|Vs], [], I) ->
- %% New variable.
- [{V,I,I}|vdb_update_vars(Vs, [], I)];
-vdb_update_vars([], Vdb, _) -> Vdb.
-
-%% vdb_sub(Min, Max, Vdb) -> Vdb.
-%% Extract variables which are used before and after Min. Lock
-%% variables alive after Max.
-
-vdb_sub(Min, Max, Vdb) ->
- [ if L >= Max -> {V,F,locked};
- true -> Vd
- end || {V,F,L}=Vd <- Vdb, F < Min, L >= Min ].
diff --git a/lib/compiler/src/v3_life.hrl b/lib/compiler/src/v3_life.hrl
deleted file mode 100644
index 5c76312067..0000000000
--- a/lib/compiler/src/v3_life.hrl
+++ /dev/null
@@ -1,29 +0,0 @@
-%%
-%% %CopyrightBegin%
-%%
-%% Copyright Ericsson AB 1999-2016. All Rights Reserved.
-%%
-%% Licensed under the Apache License, Version 2.0 (the "License");
-%% you may not use this file except in compliance with the License.
-%% You may obtain a copy of the License at
-%%
-%% http://www.apache.org/licenses/LICENSE-2.0
-%%
-%% Unless required by applicable law or agreed to in writing, software
-%% distributed under the License is distributed on an "AS IS" BASIS,
-%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-%% See the License for the specific language governing permissions and
-%% limitations under the License.
-%%
-%% %CopyrightEnd%
-%%
-%% This record contains variable life-time annotation for a
-%% kernel expression. Added by v3_life, used by v3_codegen.
-
--type vdb_entry() :: {atom(),non_neg_integer(),non_neg_integer()}.
-
--record(l, {ke, %Kernel expression
- i=0 :: non_neg_integer(), %Op number
- vdb=[] :: [vdb_entry()], %Variable database
- a=[] :: [term()]}). %Core annotation
-
diff --git a/lib/compiler/test/Makefile b/lib/compiler/test/Makefile
index 63763f31b2..da5d207db9 100644
--- a/lib/compiler/test/Makefile
+++ b/lib/compiler/test/Makefile
@@ -22,6 +22,7 @@ MODULES= \
bs_construct_SUITE \
bs_match_SUITE \
bs_utf_SUITE \
+ core_alias_SUITE \
core_fold_SUITE \
compile_SUITE \
compilation_SUITE \
diff --git a/lib/compiler/test/bs_match_SUITE.erl b/lib/compiler/test/bs_match_SUITE.erl
index 2fe8cd0cff..ad48d4c0b7 100644
--- a/lib/compiler/test/bs_match_SUITE.erl
+++ b/lib/compiler/test/bs_match_SUITE.erl
@@ -39,7 +39,7 @@
match_string_opt/1,select_on_integer/1,
map_and_binary/1,unsafe_branch_caching/1,
bad_literals/1,good_literals/1,constant_propagation/1,
- parse_xml/1,get_payload/1,num_slots_different/1]).
+ parse_xml/1,get_payload/1,escape/1,num_slots_different/1]).
-export([coverage_id/1,coverage_external_ignore/2]).
@@ -71,7 +71,7 @@ groups() ->
match_string_opt,select_on_integer,
map_and_binary,unsafe_branch_caching,
bad_literals,good_literals,constant_propagation,parse_xml,
- get_payload,num_slots_different]}].
+ get_payload,escape,num_slots_different]}].
init_per_suite(Config) ->
@@ -1524,6 +1524,21 @@ do_get_payload(ExtHdr) ->
<<_:13,_:35>> = ExtHdr#ext_header.ext_hdr_opts,
ExtHdrOptions.
+escape(_Config) ->
+ 0 = escape(<<>>, 0),
+ 1 = escape(<<128>>, 0),
+ 2 = escape(<<128,255>>, 0),
+ 42 = escape(<<42>>, 0),
+ 50 = escape(<<42,8>>, 0),
+ ok.
+
+escape(<<Byte, Rest/bits>>, Pos) when Byte >= 127 ->
+ escape(Rest, Pos + 1);
+escape(<<Byte, Rest/bits>>, Pos) ->
+ escape(Rest, Pos + Byte);
+escape(<<_Rest/bits>>, Pos) ->
+ Pos.
+
%% ERL-490
num_slots_different(_Config) ->
Ts = [{<<"de">>, <<"default">>, <<"Remove">>, <<"a">>},
diff --git a/lib/compiler/test/compilation_SUITE_data/opt_crash.erl b/lib/compiler/test/compilation_SUITE_data/opt_crash.erl
index f1607cca68..c65ec31593 100644
--- a/lib/compiler/test/compilation_SUITE_data/opt_crash.erl
+++ b/lib/compiler/test/compilation_SUITE_data/opt_crash.erl
@@ -33,7 +33,7 @@ test() ->
{userinfo,nil},
fun() -> nil end},
nil},
- {'query',nil}}},
+ {query,nil}}},
{absoluteURI,
{scheme,_},
@@ -43,7 +43,7 @@ test() ->
{userinfo,nil},
HostportBefore},
nil},
- {'query',nil}}} = URI_Before,
+ {query,nil}}} = URI_Before,
%% ... some funky code ommitted, not relevant ...
@@ -55,7 +55,7 @@ test() ->
{userinfo,nil},
HostportAfter},
nil},
- {'query',nil}}} = URI_Before,
+ {query,nil}}} = URI_Before,
%% NOTE: I intended to write URI_After instead of URI_Before
%% but the accident revealed that when you add the line below,
%% it causes internal error in v3_codegen on compilation
diff --git a/lib/compiler/test/compile_SUITE.erl b/lib/compiler/test/compile_SUITE.erl
index 96897d612d..daebbe9d9d 100644
--- a/lib/compiler/test/compile_SUITE.erl
+++ b/lib/compiler/test/compile_SUITE.erl
@@ -27,12 +27,12 @@
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2,
app_test/1,appup_test/1,
- debug_info/4, custom_debug_info/1,
+ debug_info/4, custom_debug_info/1, custom_compile_info/1,
file_1/1, forms_2/1, module_mismatch/1, big_file/1, outdir/1,
binary/1, makedep/1, cond_and_ifdef/1, listings/1, listings_big/1,
other_output/1, kernel_listing/1, encrypted_abstr/1,
strict_record/1, utf8_atoms/1, utf8_functions/1, extra_chunks/1,
- cover/1, env/1, core_pp/1,
+ cover/1, env/1, core_pp/1, tuple_calls/1,
core_roundtrip/1, asm/1, optimized_guards/1,
sys_pre_attributes/1, dialyzer/1,
warnings/1, pre_load_check/1, env_compiler_options/1,
@@ -49,11 +49,12 @@ all() ->
test_lib:recompile(?MODULE),
[app_test, appup_test, file_1, forms_2, module_mismatch, big_file, outdir,
binary, makedep, cond_and_ifdef, listings, listings_big,
- other_output, kernel_listing, encrypted_abstr,
+ other_output, kernel_listing, encrypted_abstr, tuple_calls,
strict_record, utf8_atoms, utf8_functions, extra_chunks,
cover, env, core_pp, core_roundtrip, asm, optimized_guards,
sys_pre_attributes, dialyzer, warnings, pre_load_check,
- env_compiler_options, custom_debug_info, bc_options].
+ env_compiler_options, custom_debug_info, bc_options,
+ custom_compile_info].
groups() ->
[].
@@ -384,7 +385,6 @@ do_file_listings(DataDir, PrivDir, [File|Files]) ->
do_listing(Simple, TargetDir, dcbsm, ".core_bsm"),
do_listing(Simple, TargetDir, dsetel, ".dsetel"),
do_listing(Simple, TargetDir, dkern, ".kernel"),
- do_listing(Simple, TargetDir, dlife, ".life"),
do_listing(Simple, TargetDir, dcg, ".codegen"),
do_listing(Simple, TargetDir, dblk, ".block"),
do_listing(Simple, TargetDir, dexcept, ".except"),
@@ -661,6 +661,23 @@ custom_debug_info(Config) when is_list(Config) ->
{ok,{simple,[{debug_info,{debug_info_v1,?MODULE,error}}]}} =
beam_lib:chunks(ErrorBin, [debug_info]).
+custom_compile_info(Config) when is_list(Config) ->
+ Anno = erl_anno:new(1),
+ Forms = [{attribute,Anno,module,custom_compile_info}],
+ Opts = [binary,{compile_info,[{another,version}]}],
+
+ {ok,custom_compile_info,Bin} = compile:forms(Forms, Opts),
+ {ok,{custom_compile_info,[{compile_info,CompileInfo}]}} =
+ beam_lib:chunks(Bin, [compile_info]),
+ version = proplists:get_value(another, CompileInfo),
+ CompileOpts = proplists:get_value(options, CompileInfo),
+ undefined = proplists:get_value(compile_info, CompileOpts),
+
+ {ok,custom_compile_info,DetBin} = compile:forms(Forms, [deterministic|Opts]),
+ {ok,{custom_compile_info,[{compile_info,DetInfo}]}} =
+ beam_lib:chunks(DetBin, [compile_info]),
+ version = proplists:get_value(another, DetInfo).
+
cover(Config) when is_list(Config) ->
io:format("~p\n", [compile:options()]),
ok.
@@ -793,6 +810,37 @@ extra_chunks(Config) when is_list(Config) ->
{ok,{extra_chunks,[{"ExCh",<<"Contents">>}]}} =
beam_lib:chunks(ExtraChunksBinary, ["ExCh"]).
+tuple_calls(Config) when is_list(Config) ->
+ Anno = erl_anno:new(1),
+ Forms = [{attribute,Anno,export,[{size,1},{store,1}]},
+ {function,Anno,size,1,
+ [{clause,Anno,[{var,[],mod}],[],
+ [{call,[],{remote,[],{var,[],mod},{atom,[],size}},[]}]}]},
+ {function,Anno,store,1,
+ [{clause,Anno,[{var,[],mod}],[],
+ [{call,[],{remote,[],{var,[],mod},{atom,[],store}},[{atom,[],key},{atom,[],value}]}]}]}],
+
+ TupleCallsFalse = [{attribute,Anno,module,tuple_calls_false}|Forms],
+ {ok,_,TupleCallsFalseBinary} = compile:forms(TupleCallsFalse, [binary]),
+ code:load_binary(tuple_calls_false, "compile_SUITE.erl", TupleCallsFalseBinary),
+ {'EXIT',{badarg,_}} = (catch tuple_calls_false:store(dict())),
+ {'EXIT',{badarg,_}} = (catch tuple_calls_false:size(dict())),
+ {'EXIT',{badarg,_}} = (catch tuple_calls_false:size(empty_tuple())),
+
+ TupleCallsTrue = [{attribute,Anno,module,tuple_calls_true}|Forms],
+ {ok,_,TupleCallsTrueBinary} = compile:forms(TupleCallsTrue, [binary,tuple_calls]),
+ code:load_binary(tuple_calls_true, "compile_SUITE.erl", TupleCallsTrueBinary),
+ Dict = tuple_calls_true:store(dict()),
+ 1 = tuple_calls_true:size(Dict),
+ {'EXIT',{badarg,_}} = (catch tuple_calls_true:size(empty_tuple())),
+
+ ok.
+
+dict() ->
+ dict:new().
+empty_tuple() ->
+ {}.
+
env(Config) when is_list(Config) ->
{Simple,Target} = get_files(Config, simple, env),
{ok,Cwd} = file:get_cwd(),
@@ -1282,10 +1330,13 @@ do_warnings_2([], Next, F) ->
%% pre-loads the modules that are used by a typical compilation.
pre_load_check(Config) ->
- case test_server:is_cover() of
- true ->
+ case {test_server:is_cover(),code:module_info(native)} of
+ {true,_} ->
{skip,"Cover is running"};
- false ->
+ {false,true} ->
+ %% Tracing won't work.
+ {skip,"'code' is native-compiled"};
+ {false,false} ->
try
do_pre_load_check(Config)
after
diff --git a/lib/compiler/test/core_alias_SUITE.erl b/lib/compiler/test/core_alias_SUITE.erl
new file mode 100644
index 0000000000..f3f15ef0f8
--- /dev/null
+++ b/lib/compiler/test/core_alias_SUITE.erl
@@ -0,0 +1,195 @@
+%%
+%% %CopyrightBegin%
+%%
+%% Copyright Ericsson AB 2007-2016. All Rights Reserved.
+%%
+%% Licensed under the Apache License, Version 2.0 (the "License");
+%% you may not use this file except in compliance with the License.
+%% You may obtain a copy of the License at
+%%
+%% http://www.apache.org/licenses/LICENSE-2.0
+%%
+%% Unless required by applicable law or agreed to in writing, software
+%% distributed under the License is distributed on an "AS IS" BASIS,
+%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+%% See the License for the specific language governing permissions and
+%% limitations under the License.
+%%
+%% %CopyrightEnd%
+%%
+-module(core_alias_SUITE).
+
+-export([all/0, suite/0, groups/0,init_per_suite/1, end_per_suite/1,
+ init_per_group/2, end_per_group/2,
+ tuples/1, cons/1]).
+
+-include_lib("common_test/include/ct.hrl").
+
+suite() -> [{ct_hooks,[ts_install_cth]}].
+
+all() ->
+ test_lib:recompile(?MODULE),
+ [{group,p}].
+
+groups() ->
+ [{p,[parallel],
+ [tuples, cons]}].
+
+init_per_suite(Config) ->
+ Config.
+
+end_per_suite(_Config) ->
+ ok.
+
+init_per_group(_GroupName, Config) ->
+ Config.
+
+end_per_group(_GroupName, Config) ->
+ Config.
+
+
+id(X) -> X.
+
+tuples(Config) when is_list(Config) ->
+ Tuple = {ok,id(value)},
+
+ true = erts_debug:same(Tuple, simple_tuple(Tuple)),
+ true = erts_debug:same(Tuple, simple_tuple_in_map(#{hello => Tuple})),
+ true = erts_debug:same(Tuple, simple_tuple_case_repeated(Tuple, Tuple)),
+ true = erts_debug:same(Tuple, simple_tuple_fun_repeated(Tuple, Tuple)),
+ true = erts_debug:same(Tuple, simple_tuple_twice_head(Tuple, Tuple)),
+
+ {Tuple1, Tuple2} = simple_tuple_twice_body(Tuple),
+ true = erts_debug:same(Tuple, Tuple1),
+ true = erts_debug:same(Tuple, Tuple2),
+
+ Nested = {nested,Tuple},
+ true = erts_debug:same(Tuple, nested_tuple_part(Nested)),
+ true = erts_debug:same(Nested, nested_tuple_whole(Nested)),
+ true = erts_debug:same(Nested, nested_tuple_with_alias(Nested)),
+
+ true = erts_debug:same(Tuple, tuple_rebinding_after(Tuple)),
+
+ Tuple = unaliased_tuple_rebinding_before(Tuple),
+ false = erts_debug:same(Tuple, unaliased_tuple_rebinding_before(Tuple)),
+ Nested = unaliased_literal_tuple_head(Nested),
+ false = erts_debug:same(Nested, unaliased_literal_tuple_head(Nested)),
+ Nested = unaliased_literal_tuple_body(Nested),
+ false = erts_debug:same(Nested, unaliased_literal_tuple_body(Nested)),
+ Nested = unaliased_different_var_tuple(Nested, Tuple),
+ false = erts_debug:same(Nested, unaliased_different_var_tuple(Nested, Tuple)).
+
+simple_tuple({ok,X}) ->
+ {ok,X}.
+simple_tuple_twice_head({ok,X}, {ok,X}) ->
+ {ok,X}.
+simple_tuple_twice_body({ok,X}) ->
+ {{ok,X},{ok,X}}.
+simple_tuple_in_map(#{hello := {ok,X}}) ->
+ {ok,X}.
+simple_tuple_fun_repeated({ok,X}, Y) ->
+ io:format("~p~n", [X]),
+ (fun({ok,X}) -> {ok,X} end)(Y).
+simple_tuple_case_repeated({ok,X}, Y) ->
+ io:format("~p~n", [X]),
+ case Y of {ok,X} -> {ok,X} end.
+
+nested_tuple_part({nested,{ok,X}}) ->
+ {ok,X}.
+nested_tuple_whole({nested,{ok,X}}) ->
+ {nested,{ok,X}}.
+nested_tuple_with_alias({nested,{ok,_}=Y}) ->
+ {nested,Y}.
+
+tuple_rebinding_after(Y) ->
+ (fun(X) -> {ok,X} end)(Y),
+ case Y of {ok,X} -> {ok,X} end.
+unaliased_tuple_rebinding_before({ok,X}) ->
+ io:format("~p~n", [X]),
+ (fun(X) -> {ok,X} end)(value).
+unaliased_literal_tuple_head({nested,{ok,value}=X}) ->
+ io:format("~p~n", [X]),
+ {nested,{ok,value}}.
+unaliased_literal_tuple_body({nested,{ok,value}=X}) ->
+ Res = {nested,Y={ok,value}},
+ io:format("~p~n", [[X,Y]]),
+ Res.
+unaliased_different_var_tuple({nested,{ok,value}=X}, Y) ->
+ io:format("~p~n", [X]),
+ {nested,Y}.
+
+cons(Config) when is_list(Config) ->
+ Cons = [ok|id(value)],
+
+ true = erts_debug:same(Cons, simple_cons(Cons)),
+ true = erts_debug:same(Cons, simple_cons_in_map(#{hello => Cons})),
+ true = erts_debug:same(Cons, simple_cons_case_repeated(Cons, Cons)),
+ true = erts_debug:same(Cons, simple_cons_fun_repeated(Cons, Cons)),
+ true = erts_debug:same(Cons, simple_cons_twice_head(Cons, Cons)),
+
+ {Cons1,Cons2} = simple_cons_twice_body(Cons),
+ true = erts_debug:same(Cons, Cons1),
+ true = erts_debug:same(Cons, Cons2),
+
+ Nested = [nested,Cons],
+ true = erts_debug:same(Cons, nested_cons_part(Nested)),
+ true = erts_debug:same(Nested, nested_cons_whole(Nested)),
+ true = erts_debug:same(Nested, nested_cons_with_alias(Nested)),
+ true = erts_debug:same(Cons, cons_rebinding_after(Cons)),
+
+ Unstripped = id([a,b]),
+ Stripped = cons_with_binary([<<>>|Unstripped]),
+ true = erts_debug:same(Unstripped, Stripped),
+
+ Cons = unaliased_cons_rebinding_before(Cons),
+ false = erts_debug:same(Cons, unaliased_cons_rebinding_before(Cons)),
+ Nested = unaliased_literal_cons_head(Nested),
+ false = erts_debug:same(Nested, unaliased_literal_cons_head(Nested)),
+ Nested = unaliased_literal_cons_body(Nested),
+ false = erts_debug:same(Nested, unaliased_literal_cons_body(Nested)),
+ Nested = unaliased_different_var_cons(Nested, Cons),
+ false = erts_debug:same(Nested, unaliased_different_var_cons(Nested, Cons)).
+
+simple_cons([ok|X]) ->
+ [ok|X].
+simple_cons_twice_head([ok|X], [ok|X]) ->
+ [ok|X].
+simple_cons_twice_body([ok|X]) ->
+ {[ok|X],[ok|X]}.
+simple_cons_in_map(#{hello := [ok|X]}) ->
+ [ok|X].
+simple_cons_fun_repeated([ok|X], Y) ->
+ io:format("~p~n", [X]),
+ (fun([ok|X]) -> [ok|X] end)(Y).
+simple_cons_case_repeated([ok|X], Y) ->
+ io:format("~p~n", [X]),
+ case Y of [ok|X] -> [ok|X] end.
+
+nested_cons_part([nested,[ok|X]]) ->
+ [ok|X].
+nested_cons_whole([nested,[ok|X]]) ->
+ [nested,[ok|X]].
+nested_cons_with_alias([nested,[ok|_]=Y]) ->
+ [nested,Y].
+
+cons_with_binary([<<>>,X|Y]) ->
+ cons_with_binary([X|Y]);
+cons_with_binary(A) ->
+ A.
+
+cons_rebinding_after(Y) ->
+ (fun(X) -> [ok|X] end)(Y),
+ case Y of [ok|X] -> [ok|X] end.
+unaliased_cons_rebinding_before([ok|X]) ->
+ io:format("~p~n", [X]),
+ (fun(X) -> [ok|X] end)(value).
+unaliased_literal_cons_head([nested,[ok|value]=X]) ->
+ io:format("~p~n", [X]),
+ [nested,[ok|value]].
+unaliased_literal_cons_body([nested,[ok|value]=X]) ->
+ Res = [nested,Y=[ok|value]],
+ io:format("~p~n", [[X, Y]]),
+ Res.
+unaliased_different_var_cons([nested,[ok|value]=X], Y) ->
+ io:format("~p~n", [X]),
+ [nested,Y].
diff --git a/lib/compiler/test/core_fold_SUITE.erl b/lib/compiler/test/core_fold_SUITE.erl
index 0097e28d4d..262967d03d 100644
--- a/lib/compiler/test/core_fold_SUITE.erl
+++ b/lib/compiler/test/core_fold_SUITE.erl
@@ -26,7 +26,8 @@
unused_multiple_values_error/1,unused_multiple_values/1,
multiple_aliases/1,redundant_boolean_clauses/1,
mixed_matching_clauses/1,unnecessary_building/1,
- no_no_file/1,configuration/1,supplies/1]).
+ no_no_file/1,configuration/1,supplies/1,
+ redundant_stack_frame/1]).
-export([foo/0,foo/1,foo/2,foo/3]).
@@ -45,7 +46,8 @@ groups() ->
unused_multiple_values_error,unused_multiple_values,
multiple_aliases,redundant_boolean_clauses,
mixed_matching_clauses,unnecessary_building,
- no_no_file,configuration,supplies]}].
+ no_no_file,configuration,supplies,
+ redundant_stack_frame]}].
init_per_suite(Config) ->
@@ -527,4 +529,26 @@ supplies(_Config) ->
do_supplies(#{1 := Value}) when byte_size(Value), byte_size(kg) -> working.
+redundant_stack_frame(_Config) ->
+ {1,2} = do_redundant_stack_frame(#{x=>1,y=>2}),
+ {'EXIT',{{badkey,_,x},_}} = (catch do_redundant_stack_frame(#{y=>2})),
+ {'EXIT',{{badkey,_,y},_}} = (catch do_redundant_stack_frame(#{x=>1})),
+ ok.
+
+do_redundant_stack_frame(Map) ->
+ %% There should not be a stack frame for this function.
+ X = case Map of
+ #{x := X0} ->
+ X0;
+ #{} ->
+ erlang:error({badkey, Map, x})
+ end,
+ Y = case Map of
+ #{y := Y0} ->
+ Y0;
+ #{} ->
+ erlang:error({badkey, Map, y})
+ end,
+ {X, Y}.
+
id(I) -> I.
diff --git a/lib/compiler/test/guard_SUITE.erl b/lib/compiler/test/guard_SUITE.erl
index ccb9b58225..d96cfdb7ac 100644
--- a/lib/compiler/test/guard_SUITE.erl
+++ b/lib/compiler/test/guard_SUITE.erl
@@ -1291,6 +1291,10 @@ rel_ops(Config) when is_list(Config) ->
true = any_atom /= id(42),
true = [] /= id(42),
+ %% Coverage of beam_utils:bif_to_test/3
+ Empty = id([]),
+ ?T(==, [], Empty),
+
ok.
-undef(TestOp).
diff --git a/lib/compiler/test/match_SUITE.erl b/lib/compiler/test/match_SUITE.erl
index 52b2da05f7..c31695be24 100644
--- a/lib/compiler/test/match_SUITE.erl
+++ b/lib/compiler/test/match_SUITE.erl
@@ -23,7 +23,7 @@
init_per_group/2,end_per_group/2,
pmatch/1,mixed/1,aliases/1,non_matching_aliases/1,
match_in_call/1,untuplify/1,shortcut_boolean/1,letify_guard/1,
- selectify/1,underscore/1,match_map/1,map_vars_used/1,
+ selectify/1,deselectify/1,underscore/1,match_map/1,map_vars_used/1,
coverage/1,grab_bag/1,literal_binary/1]).
-include_lib("common_test/include/ct.hrl").
@@ -38,7 +38,7 @@ groups() ->
[{p,[parallel],
[pmatch,mixed,aliases,non_matching_aliases,
match_in_call,untuplify,
- shortcut_boolean,letify_guard,selectify,
+ shortcut_boolean,letify_guard,selectify,deselectify,
underscore,match_map,map_vars_used,coverage,
grab_bag,literal_binary]}].
@@ -466,6 +466,66 @@ sel_same_value2(V) when V =:= 42; V =:= 43 ->
sel_same_value2(_) ->
error.
+%% Test deconstruction of select_val instructions in beam_peep into
+%% regular tests with just one possible value left. Hitting proper cases
+%% in beam_peep relies on unification of labels by beam_jump.
+
+deselectify(Config) when is_list(Config) ->
+ one_or_other = desel_tuple_arity({1}),
+ two = desel_tuple_arity({1,1}),
+ one_or_other = desel_tuple_arity({1,1,1}),
+
+ one_or_other = dsel_integer(1),
+ two = dsel_integer(2),
+ one_or_other = dsel_integer(3),
+
+ one_or_other = dsel_integer_typecheck(1),
+ two = dsel_integer_typecheck(2),
+ one_or_other = dsel_integer_typecheck(3),
+
+ one_or_other = dsel_atom(one),
+ two = dsel_atom(two),
+ one_or_other = dsel_atom(three),
+
+ one_or_other = dsel_atom_typecheck(one),
+ two = dsel_atom_typecheck(two),
+ one_or_other = dsel_atom_typecheck(three).
+
+desel_tuple_arity(Tuple) when is_tuple(Tuple) ->
+ case Tuple of
+ {_} -> one_or_other;
+ {_,_} -> two;
+ _ -> one_or_other
+ end.
+
+dsel_integer(Val) ->
+ case Val of
+ 1 -> one_or_other;
+ 2 -> two;
+ _ -> one_or_other
+ end.
+
+dsel_integer_typecheck(Val) when is_integer(Val) ->
+ case Val of
+ 1 -> one_or_other;
+ 2 -> two;
+ _ -> one_or_other
+ end.
+
+dsel_atom(Val) ->
+ case Val of
+ one -> one_or_other;
+ two -> two;
+ _ -> one_or_other
+ end.
+
+dsel_atom_typecheck(Val) when is_atom(Val) ->
+ case Val of
+ one -> one_or_other;
+ two -> two;
+ _ -> one_or_other
+ end.
+
underscore(Config) when is_list(Config) ->
case Config of
[] ->
diff --git a/lib/compiler/test/misc_SUITE.erl b/lib/compiler/test/misc_SUITE.erl
index 4bd884d86b..b12bcbeeab 100644
--- a/lib/compiler/test/misc_SUITE.erl
+++ b/lib/compiler/test/misc_SUITE.erl
@@ -161,16 +161,17 @@ md5_1(Beam) ->
%% Cover some code that handles internal errors.
silly_coverage(Config) when is_list(Config) ->
- %% sys_core_fold, sys_core_bsm, sys_core_setel, v3_kernel
+ %% sys_core_fold, sys_core_alias, sys_core_bsm, sys_core_setel, v3_kernel
BadCoreErlang = {c_module,[],
name,[],[],
[{{c_var,[],{foo,2}},seriously_bad_body}]},
expect_error(fun() -> sys_core_fold:module(BadCoreErlang, []) end),
+ expect_error(fun() -> sys_core_alias:module(BadCoreErlang, []) end),
expect_error(fun() -> sys_core_bsm:module(BadCoreErlang, []) end),
expect_error(fun() -> sys_core_dsetel:module(BadCoreErlang, []) end),
expect_error(fun() -> v3_kernel:module(BadCoreErlang, []) end),
- %% v3_life
+ %% v3_codegen
BadKernel = {k_mdef,[],?MODULE,
[{foo,0}],
[],
@@ -178,11 +179,7 @@ silly_coverage(Config) when is_list(Config) ->
{k,[],[],[]},
f,0,[],
seriously_bad_body}]},
- expect_error(fun() -> v3_life:module(BadKernel, []) end),
-
- %% v3_codegen
- CodegenInput = {?MODULE,[{foo,0}],[],[{function,foo,0,[a|b],a,b,[]}]},
- expect_error(fun() -> v3_codegen:module(CodegenInput, []) end),
+ expect_error(fun() -> v3_codegen:module(BadKernel, []) end),
%% beam_a
BeamAInput = {?MODULE,[{foo,0}],[],
diff --git a/lib/compiler/test/trycatch_SUITE.erl b/lib/compiler/test/trycatch_SUITE.erl
index a591d6cc93..42dbf7d5f0 100644
--- a/lib/compiler/test/trycatch_SUITE.erl
+++ b/lib/compiler/test/trycatch_SUITE.erl
@@ -324,11 +324,11 @@ eclectic(Conf) when is_list(Conf) ->
{{error,{exit,V},{'EXIT',V}},V} =
eclectic_1({foo,{error,{exit,V}}}, error, {value,V}),
{{value,{value,V},V},
- {'EXIT',{badarith,[{?MODULE,my_add,2,_}|_]}}} =
+ {'EXIT',{badarith,[{erlang,'+',[0,a],_},{?MODULE,my_add,2,_}|_]}}} =
eclectic_1({foo,{value,{value,V}}}, undefined, {'add',{0,a}}),
{{'EXIT',V},V} =
eclectic_1({catch_foo,{exit,V}}, undefined, {throw,V}),
- {{error,{'div',{1,0}},{'EXIT',{badarith,[{?MODULE,my_div,2,_}|_]}}},
+ {{error,{'div',{1,0}},{'EXIT',{badarith,[{erlang,'div',[1,0],_},{?MODULE,my_div,2,_}|_]}}},
{'EXIT',V}} =
eclectic_1({foo,{error,{'div',{1,0}}}}, error, {exit,V}),
{{{error,V},{'EXIT',{V,[{?MODULE,foo,1,_}|_]}}},
@@ -345,7 +345,7 @@ eclectic(Conf) when is_list(Conf) ->
eclectic_2({error,{value,V}}, throw, {error,V}),
{{caught,{'EXIT',{badarg,[{erlang,abs,[V],_}|_]}}},V} =
eclectic_2({value,{'abs',V}}, undefined, {value,V}),
- {{caught,{'EXIT',{badarith,[{?MODULE,my_add,2,_}|_]}}},V} =
+ {{caught,{'EXIT',{badarith,[{erlang,'+',[0,a],_},{?MODULE,my_add,2,_}|_]}}},V} =
eclectic_2({exit,{'add',{0,a}}}, exit, {value,V}),
{{caught,{'EXIT',V}},undefined} =
eclectic_2({value,{error,V}}, undefined, {exit,V}),