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authorBjörn Gustavsson <[email protected]>2016-09-15 16:33:57 +0200
committerBjörn Gustavsson <[email protected]>2016-11-18 11:58:34 +0100
commit348b5e6bee2f83d10642558d511cc904f5015ab3 (patch)
tree796175b689cfcf463fa854b2f306cfdf5f5d46bf
parentcb4b1276acae0406344a24d4597c0d33a1d72ac7 (diff)
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v3_kernel: Generate optimized code for guards
The compiler produces poor code for complex guard expressions with andalso/orelse. Here is an example from the filename module: -define(IS_DRIVELETTER(Letter),(((Letter >= $A) andalso (Letter =< $Z)) orelse ((Letter >= $a) andalso (Letter =< $z)))). skip_prefix(Name, false) -> Name; skip_prefix([L, DrvSep|Name], DrvSep) when ?IS_DRIVELETTER(L) -> Name; skip_prefix(Name, _) -> Name. beam_bool fails to simplify the code for the guard, leaving several 'bif' instructions: {function, skip_prefix, 2, 49}. {label,48}. {line,[{location,"filename.erl",187}]}. {func_info,{atom,filename},{atom,skip_prefix},2}. {label,49}. {test,is_ne_exact,{f,52},[{x,1},{atom,false}]}. {test,is_nonempty_list,{f,52},[{x,0}]}. {get_list,{x,0},{x,2},{x,3}}. {test,is_nonempty_list,{f,52},[{x,3}]}. {get_list,{x,3},{x,4},{x,5}}. {bif,'=:=',{f,52},[{x,1},{x,4}],{x,6}}. {test,is_ge,{f,50},[{x,2},{integer,65}]}. {bif,'=<',{f,52},[{x,2},{integer,90}],{x,7}}. {test,is_eq_exact,{f,51},[{x,7},{atom,false}]}. {test,is_ge,{f,50},[{x,2},{integer,97}]}. {bif,'=<',{f,52},[{x,2},{integer,122}],{x,7}}. {jump,{f,51}}. {label,50}. {move,{atom,false},{x,7}}. {label,51}. {bif,'=:=',{f,52},[{x,7},{atom,true}],{x,7}}. {test,is_eq_exact,{f,52},[{x,6},{atom,true}]}. {test,is_eq_exact,{f,52},[{x,7},{atom,true}]}. {move,{x,5},{x,0}}. return. {label,52}. return. We can add optimizations of guard tests to v3_kernel to achive a better result: {function, skip_prefix, 2, 49}. {label,48}. {line,[{location,"filename.erl",187}]}. {func_info,{atom,filename},{atom,skip_prefix},2}. {label,49}. {test,is_ne_exact,{f,51},[{x,1},{atom,false}]}. {test,is_nonempty_list,{f,51},[{x,0}]}. {get_list,{x,0},{x,2},{x,3}}. {test,is_nonempty_list,{f,51},[{x,3}]}. {get_list,{x,3},{x,4},{x,5}}. {test,is_eq_exact,{f,51},[{x,1},{x,4}]}. {test,is_ge,{f,51},[{x,2},{integer,65}]}. {test,is_lt,{f,50},[{integer,90},{x,2}]}. {test,is_ge,{f,51},[{x,2},{integer,97}]}. {test,is_ge,{f,51},[{integer,122},{x,2}]}. {label,50}. {move,{x,5},{x,0}}. return. {label,51}. return. Looking at the STDLIB application, there were 112 lines of BIF calls in guards that beam_bool failed to convert to test instructions. This commit eliminates all those BIF calls. Here is how I counted the instructions: $ PATH=$ERL_TOP/bin:$PATH erlc -I ../include -I ../../kernel/include -S *.erl $ grep "bif,'[=<>]" *.S | grep -v f,0 dets.S: {bif,'=:=',{f,547},[{x,4},{atom,read_write}],{x,4}}. dets.S: {bif,'=:=',{f,547},[{x,5},{atom,saved}],{x,5}}. dets.S: {bif,'=:=',{f,589},[{x,5},{atom,read}],{x,5}}. . . . $ grep "bif,'[=<>]" *.S | grep -v f,0 | wc 112 224 6765 $
-rw-r--r--lib/compiler/src/sys_core_fold.erl84
-rw-r--r--lib/compiler/src/v3_codegen.erl20
-rw-r--r--lib/compiler/src/v3_kernel.erl474
-rw-r--r--lib/compiler/src/v3_kernel.hrl2
-rw-r--r--lib/compiler/src/v3_kernel_pp.erl9
-rw-r--r--lib/compiler/src/v3_life.erl4
-rw-r--r--lib/compiler/test/bs_match_SUITE.erl33
-rw-r--r--lib/compiler/test/core_SUITE.erl20
-rw-r--r--lib/compiler/test/core_SUITE_data/cover_v3_kernel_1.core147
-rw-r--r--lib/compiler/test/core_SUITE_data/cover_v3_kernel_2.core98
-rw-r--r--lib/compiler/test/core_SUITE_data/cover_v3_kernel_3.core98
-rw-r--r--lib/compiler/test/core_SUITE_data/cover_v3_kernel_4.core82
-rw-r--r--lib/compiler/test/core_SUITE_data/cover_v3_kernel_5.core98
13 files changed, 1078 insertions, 91 deletions
diff --git a/lib/compiler/src/sys_core_fold.erl b/lib/compiler/src/sys_core_fold.erl
index d20159c140..50d28c0a5f 100644
--- a/lib/compiler/src/sys_core_fold.erl
+++ b/lib/compiler/src/sys_core_fold.erl
@@ -373,7 +373,7 @@ expr(#c_case{}=Case0, Ctxt, Sub) ->
%% (in addition to any warnings that may have been emitted
%% according to the rules above).
%%
- case opt_bool_case(Case0) of
+ case opt_bool_case(Case0, Sub) of
#c_case{arg=Arg0,clauses=Cs0}=Case1 ->
Arg1 = body(Arg0, value, Sub),
LitExpr = cerl:is_literal(Arg1),
@@ -1554,9 +1554,11 @@ will_match(E, [P]) ->
will_match_1({false,_}) -> maybe;
will_match_1({true,_}) -> yes.
-%% opt_bool_case(CoreExpr) - CoreExpr'.
-%% Do various optimizations to case statement that has a
-%% boolean case expression.
+%% opt_bool_case(CoreExpr, Sub) - CoreExpr'.
+%%
+%% In bodies, do various optimizations to case statements that have
+%% boolean case expressions. We don't do the optimizations in guards,
+%% because they would thwart the optimization in v3_kernel.
%%
%% We start with some simple optimizations and normalization
%% to facilitate later optimizations.
@@ -1565,7 +1567,7 @@ will_match_1({true,_}) -> yes.
%% (or fail), we can remove any clause that cannot
%% possibly match 'true' or 'false'. Also, any clause
%% following both 'true' and 'false' clause can
-%% be removed. If successful, we will end up this:
+%% be removed. If successful, we will end up like this:
%%
%% case BoolExpr of case BoolExpr of
%% true -> false ->
@@ -1576,8 +1578,11 @@ will_match_1({true,_}) -> yes.
%%
%% We give up if there are clauses with guards, or if there
%% is a variable clause that matches anything.
-%%
-opt_bool_case(#c_case{arg=Arg}=Case0) ->
+
+opt_bool_case(#c_case{}=Case, #sub{in_guard=true}) ->
+ %% v3_kernel does a better job without "help".
+ Case;
+opt_bool_case(#c_case{arg=Arg}=Case0, #sub{in_guard=false}) ->
case is_bool_expr(Arg) of
false ->
Case0;
@@ -1589,8 +1594,7 @@ opt_bool_case(#c_case{arg=Arg}=Case0) ->
impossible ->
Case0
end
- end;
-opt_bool_case(Core) -> Core.
+ end.
opt_bool_clauses(#c_case{clauses=Cs}=Case) ->
Case#c_case{clauses=opt_bool_clauses(Cs, false, false)}.
@@ -2236,14 +2240,14 @@ inverse_rel_op(_) -> no.
%% opt_bool_case_in_let(LetExpr) -> Core
-opt_bool_case_in_let(#c_let{vars=Vs,arg=Arg,body=B}=Let) ->
- opt_bool_case_in_let_1(Vs, Arg, B, Let).
+opt_bool_case_in_let(#c_let{vars=Vs,arg=Arg,body=B}=Let, Sub) ->
+ opt_bool_case_in_let_1(Vs, Arg, B, Let, Sub).
opt_bool_case_in_let_1([#c_var{name=V}], Arg,
- #c_case{arg=#c_var{name=V}}=Case0, Let) ->
+ #c_case{arg=#c_var{name=V}}=Case0, Let, Sub) ->
case is_simple_case_arg(Arg) of
true ->
- Case = opt_bool_case(Case0#c_case{arg=Arg}),
+ Case = opt_bool_case(Case0#c_case{arg=Arg}, Sub),
case core_lib:is_var_used(V, Case) of
false -> Case;
true -> Let
@@ -2251,7 +2255,7 @@ opt_bool_case_in_let_1([#c_var{name=V}], Arg,
false ->
Let
end;
-opt_bool_case_in_let_1(_, _, _, Let) -> Let.
+opt_bool_case_in_let_1(_, _, _, Let, _) -> Let.
%% is_simple_case_arg(Expr) -> true|false
%% Determine whether the Expr is simple enough to be worth
@@ -2684,8 +2688,7 @@ opt_simple_let_2(Let0, Vs0, Arg0, Body, PrevBody, Ctxt, Sub) ->
#c_seq{arg=Arg,body=Body};
true ->
Let1 = Let0#c_let{vars=Vs,arg=Arg1,body=Body},
- Let2 = opt_bool_case_in_let(Let1),
- opt_case_in_let_arg(Let2, Ctxt, Sub)
+ opt_bool_case_in_let(Let1, Sub)
end
end.
@@ -2813,48 +2816,6 @@ move_case_into_arg(#c_case{arg=#c_seq{arg=OuterArg,body=InnerArg}=Outer,
move_case_into_arg(_, _) ->
impossible.
-%% In guards only, rewrite a case in a let argument like
-%%
-%% let <Var> = case <> of
-%% <> when AnyGuard -> Literal1;
-%% <> when AnyGuard -> Literal2
-%% end
-%% in LetBody
-%%
-%% to
-%%
-%% case <> of
-%% <> when AnyGuard ->
-%% let <Var> = Literal1 in LetBody
-%% <> when 'true' ->
-%% let <Var> = Literal2 in LetBody
-%% end
-%%
-%% In the worst case, the size of the code could increase.
-%% In practice, though, substituting the literals into
-%% LetBody and doing constant folding will decrease the code
-%% size. (Doing this transformation outside of guards could
-%% lead to a substantational increase in code size.)
-%%
-opt_case_in_let_arg(#c_let{arg=#c_case{}=Case}=Let, Ctxt,
- #sub{in_guard=true}=Sub) ->
- opt_case_in_let_arg_1(Let, Case, Ctxt, Sub);
-opt_case_in_let_arg(Let, _, _) -> Let.
-
-opt_case_in_let_arg_1(Let0, #c_case{arg=#c_values{es=[]},
- clauses=Cs}=Case0, _Ctxt, _Sub) ->
- Let = mark_compiler_generated(Let0),
- case Cs of
- [#c_clause{body=#c_literal{}=BodyA}=Ca0,
- #c_clause{body=#c_literal{}=BodyB}=Cb0] ->
- Ca = Ca0#c_clause{body=Let#c_let{arg=BodyA}},
- Cb = Cb0#c_clause{body=Let#c_let{arg=BodyB}},
- Case0#c_case{clauses=[Ca,Cb]};
- _ ->
- Let
- end;
-opt_case_in_let_arg_1(Let, _, _, _) -> Let.
-
is_any_var_used([#c_var{name=V}|Vs], Expr) ->
case core_lib:is_var_used(V, Expr) of
false -> is_any_var_used(Vs, Expr);
@@ -3285,13 +3246,6 @@ bsm_problem(Where, What) ->
%%% Handling of warnings.
%%%
-mark_compiler_generated(Term) ->
- cerl_trees:map(fun mark_compiler_generated_1/1, Term).
-
-mark_compiler_generated_1(#c_call{anno=Anno}=Term) ->
- Term#c_call{anno=[compiler_generated|Anno--[compiler_generated]]};
-mark_compiler_generated_1(Term) -> Term.
-
init_warnings() ->
put({?MODULE,warnings}, []).
diff --git a/lib/compiler/src/v3_codegen.erl b/lib/compiler/src/v3_codegen.erl
index c2e0c2bd1a..3627cdb7cd 100644
--- a/lib/compiler/src/v3_codegen.erl
+++ b/lib/compiler/src/v3_codegen.erl
@@ -363,7 +363,7 @@ bsm_rename_ctx(#l{ke={match,Ms0,Rs}}=L, Old, New, InProt) ->
bsm_rename_ctx(#l{ke={guard_match,Ms0,Rs}}=L, 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={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;
@@ -1051,8 +1051,15 @@ guard_cg(#l{ke={protected,Ts,Rs},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_list(Ts, Fail, I, Bdb, Bef, St);
-guard_cg(#l{ke={test,Test,As},i=I,vdb=_Tdb}, Fail, Vdb, Bef, St) ->
- test_cg(Test, As, Fail, I, Vdb, Bef, St);
+guard_cg(#l{ke={test,Test,As,Inverted},i=I,vdb=_Tdb}, Fail, Vdb, Bef, St0) ->
+ case Inverted of
+ false ->
+ test_cg(Test, As, Fail, I, Vdb, Bef, St0);
+ true ->
+ {Psucc,St1} = new_label(St0),
+ {Is,Aft,St2} = test_cg(Test, As, Psucc, I, Vdb, Bef, St1),
+ {Is++[{jump,{f,Fail}},{label,Psucc}],Aft,St2}
+ end;
guard_cg(G, _Fail, Vdb, Bef, St) ->
%%ok = io:fwrite("cg ~w: ~p~n", [?LINE,{G,Fail,Vdb,Bef}]),
{Gis,Aft,St1} = cg(G, Vdb, Bef, St),
@@ -1103,6 +1110,13 @@ 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) ->
+ Aft = clear_dead(Bef, I, Vdb),
+ Is = case is_boolean(Val) of
+ true -> [];
+ false -> [{jump,{f,Fail}}]
+ end,
+ {Is,Aft,St};
test_cg(Test, As, Fail, I, Vdb, Bef, St) ->
Args = cg_reg_args(As, Bef),
Aft = clear_dead(Bef, I, Vdb),
diff --git a/lib/compiler/src/v3_kernel.erl b/lib/compiler/src/v3_kernel.erl
index f8e99905b5..2bfa610628 100644
--- a/lib/compiler/src/v3_kernel.erl
+++ b/lib/compiler/src/v3_kernel.erl
@@ -82,7 +82,7 @@
-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]).
+ keymember/3,keyfind/3,partition/2,droplast/1,last/1,sort/1]).
-import(ordsets, [add_element/2,del_element/2,union/2,union/1,subtract/2]).
-import(cerl, [c_tuple/1]).
@@ -190,9 +190,479 @@ body(Ce, Sub, St0) ->
guard(G0, Sub, St0) ->
{G1,St1} = wrap_guard(G0, St0),
{Ge0,Pre,St2} = expr(G1, Sub, St1),
- {Ge,St} = gexpr_test(Ge0, St2),
+ {Ge1,St3} = gexpr_test(Ge0, St2),
+ {Ge,St} = guard_opt(Ge1, St3),
{pre_seq(Pre, Ge),St}.
+%% guard_opt(Kexpr, State) -> {Kexpr,State}.
+%% Optimize the Kexpr for the guard. Instead of evaluating a boolean
+%% expression comparing it to 'true' in a final #k_test{},
+%% replace BIF calls with #k_test{} in the expression.
+%%
+%% As an example, take the guard:
+%%
+%% when is_integer(V0), is_atom(V1) ->
+%%
+%% The unoptimized Kexpr translated to pseudo BEAM assembly
+%% code would look like:
+%%
+%% bif is_integer V0 => Bool0
+%% bif is_atom V1 => Bool1
+%% bif and Bool0 Bool1 => Bool
+%% test Bool =:= true else goto Fail
+%% ...
+%% Fail:
+%% ...
+%%
+%% The optimized code would look like:
+%%
+%% test is_integer V0 else goto Fail
+%% test is_atom V1 else goto Fail
+%% ...
+%% Fail:
+%% ...
+%%
+%% An 'or' operation is only slightly more complicated:
+%%
+%% test is_integer V0 else goto NotFailedYet
+%% goto Success
+%%
+%% NotFailedYet:
+%% test is_atom V1 else goto Fail
+%%
+%% Success:
+%% ...
+%% Fail:
+%% ...
+
+guard_opt(G, St0) ->
+ {Root,Forest0,St1} = make_forest(G, St0),
+ {Exprs,Forest,St} = rewrite_bool(Root, Forest0, false, St1),
+ E = forest_pre_seq(Exprs, Forest),
+ {G#k_try{arg=E},St}.
+
+%% rewrite_bool(Kexpr, Forest, Inv, St) -> {[Kexpr],Forest,St}.
+%% Rewrite Kexpr to use #k_test{} operations instead of comparison
+%% and type test BIFs.
+%%
+%% If Kexpr is a #k_test{} operation, the call will always
+%% succeed. Otherwise, a 'not_possible' exception will be
+%% thrown if Kexpr cannot be rewritten.
+
+rewrite_bool(#k_test{op=#k_remote{mod=#k_atom{val=erlang},name=#k_atom{val='=:='}},
+ args=[#k_var{}=V,#k_atom{val=true}]}=Test, Forest0, Inv, St0) ->
+ try rewrite_bool_var(V, Forest0, Inv, St0) of
+ {_,_,_}=Res ->
+ Res
+ catch
+ throw:not_possible ->
+ {[Test],Forest0,St0}
+ end;
+rewrite_bool(#k_test{op=#k_remote{mod=#k_atom{val=erlang},name=#k_atom{val='=:='}},
+ args=[#k_var{}=V,#k_atom{val=false}]}=Test, Forest0, Inv, St0) ->
+ try rewrite_bool_var(V, Forest0, not Inv, St0) of
+ {_,_,_}=Res ->
+ Res
+ catch
+ throw:not_possible ->
+ {[Test],Forest0,St0}
+ end;
+rewrite_bool(#k_test{op=#k_remote{mod=#k_atom{val=erlang},name=#k_atom{val='=:='}},
+ args=[#k_atom{val=V1},#k_atom{val=V2}]}, Forest0, false, St0) ->
+ case V1 =:= V2 of
+ true ->
+ {[make_test(is_boolean, [#k_atom{val=true}])],Forest0,St0};
+ false ->
+ {[make_failing_test()],Forest0,St0}
+ end;
+rewrite_bool(#k_test{}=Test, Forest, false, St) ->
+ {[Test],Forest,St};
+rewrite_bool(#k_try{vars=[#k_var{name=X}],body=#k_var{name=X},
+ handler=#k_atom{val=false},ret=[]}=Prot,
+ Forest0, Inv, St0) ->
+ {Root,Forest1,St1} = make_forest(Prot, Forest0, St0),
+ {Exprs,Forest2,St} = rewrite_bool(Root, Forest1, Inv, St1),
+ InnerForest = maps:without(maps:keys(Forest0), Forest2),
+ Forest = maps:without(maps:keys(InnerForest), Forest2),
+ E = forest_pre_seq(Exprs, InnerForest),
+ {[Prot#k_try{arg=E}],Forest,St};
+rewrite_bool(#k_match{body=Body,ret=[]}, Forest, Inv, St) ->
+ rewrite_match(Body, Forest, Inv, St);
+rewrite_bool(Other, Forest, Inv, St) ->
+ case extract_bif(Other) of
+ {Name,Args} ->
+ rewrite_bif(Name, Args, Forest, Inv, St);
+ error ->
+ throw(not_possible)
+ end.
+
+%% rewrite_bool_var(Var, Forest, Inv, St) -> {[Kexpr],Forest,St}.
+%% Rewrite the boolean expression whose key in Forest is
+%% given by Var. Throw a 'not_possible' expression if something
+%% prevents the rewriting.
+
+rewrite_bool_var(Arg, Forest0, Inv, St) ->
+ {Expr,Forest} = forest_take_expr(Arg, Forest0),
+ rewrite_bool(Expr, Forest, Inv, St).
+
+%% rewrite_bool_args([Kexpr], Forest, Inv, St) -> {[[Kexpr]],Forest,St}.
+%% Rewrite each Kexpr in the list. The input Kexpr should be variables
+%% or boolean values. Throw a 'not_possible' expression if something
+%% prevents the rewriting.
+%%
+%% This function is suitable for handling the arguments for both
+%% 'and' and 'or'.
+
+rewrite_bool_args([#k_atom{val=B}=A|Vs], Forest0, false=Inv, St0) when is_boolean(B) ->
+ {Tail,Forest1,St1} = rewrite_bool_args(Vs, Forest0, Inv, St0),
+ Bif = make_bif('=:=', [A,#k_atom{val=true}]),
+ {Exprs,Forest,St} = rewrite_bool(Bif, Forest1, Inv, St1),
+ {[Exprs|Tail],Forest,St};
+rewrite_bool_args([#k_var{}=Var|Vs], Forest0, false=Inv, St0) ->
+ {Tail,Forest1,St1} = rewrite_bool_args(Vs, Forest0, Inv, St0),
+ {Exprs,Forest,St} =
+ case is_bool_expr(Var, Forest0) of
+ true ->
+ rewrite_bool_var(Var, Forest1, Inv, St1);
+ false ->
+ Bif = make_bif('=:=', [Var,#k_atom{val=true}]),
+ rewrite_bool(Bif, Forest1, Inv, St1)
+ end,
+ {[Exprs|Tail],Forest,St};
+rewrite_bool_args([_|_], _Forest, _Inv, _St) ->
+ throw(not_possible);
+rewrite_bool_args([], Forest, _Inv, St) ->
+ {[],Forest,St}.
+
+%% rewrite_bif(Name, [Kexpr], Forest, Inv, St) -> {[Kexpr],Forest,St}.
+%% Rewrite a BIF. Throw a 'not_possible' expression if something
+%% prevents the rewriting.
+
+rewrite_bif('or', Args, Forest, true, St) ->
+ rewrite_not_args('and', Args, Forest, St);
+rewrite_bif('and', Args, Forest, true, St) ->
+ rewrite_not_args('or', Args, Forest, St);
+rewrite_bif('and', [#k_atom{val=Val},Arg], Forest0, Inv, St0) ->
+ false = Inv, %Assertion.
+ case Val of
+ true ->
+ %% The result only depends on Arg.
+ rewrite_bool_var(Arg, Forest0, Inv, St0);
+ _ ->
+ %% Will fail. There is no need to evalute the expression
+ %% represented by Arg. Take it out from the forest and
+ %% discard the expression.
+ Failing = make_failing_test(),
+ try rewrite_bool_var(Arg, Forest0, Inv, St0) of
+ {_,Forest,St} ->
+ {[Failing],Forest,St}
+ catch
+ throw:not_possible ->
+ try forest_take_expr(Arg, Forest0) of
+ {_,Forest} ->
+ {[Failing],Forest,St0}
+ catch
+ throw:not_possible ->
+ %% Arg is probably a variable bound in an
+ %% outer scope.
+ {[Failing],Forest0,St0}
+ end
+ end
+ end;
+rewrite_bif('and', [Arg,#k_atom{}=Atom], Forest, Inv, St) ->
+ false = Inv, %Assertion.
+ rewrite_bif('and', [Atom,Arg], Forest, Inv, St);
+rewrite_bif('and', Args, Forest0, Inv, St0) ->
+ false = Inv, %Assertion.
+ {[Es1,Es2],Forest,St} = rewrite_bool_args(Args, Forest0, Inv, St0),
+ {Es1 ++ Es2,Forest,St};
+rewrite_bif('or', Args, Forest0, Inv, St0) ->
+ false = Inv, %Assertion.
+ {[First,Then],Forest,St} = rewrite_bool_args(Args, Forest0, Inv, St0),
+ Alt = make_alt(First, Then),
+ {[Alt],Forest,St};
+rewrite_bif('xor', [_,_], _Forest, _Inv, _St) ->
+ %% Rewriting 'xor' is not practical. Fortunately, 'xor' is
+ %% almost never used in practice.
+ throw(not_possible);
+rewrite_bif('not', [Arg], Forest0, Inv, St) ->
+ {Expr,Forest} = forest_take_expr(Arg, Forest0),
+ rewrite_bool(Expr, Forest, not Inv, St);
+rewrite_bif(Op, Args, Forest, Inv, St) ->
+ case is_test(Op, Args) of
+ true ->
+ rewrite_bool(make_test(Op, Args, Inv), Forest, false, St);
+ false ->
+ throw(not_possible)
+ end.
+
+rewrite_not_args(Op, [A0,B0], Forest0, St0) ->
+ {A,Forest1,St1} = rewrite_not_args_1(A0, Forest0, St0),
+ {B,Forest2,St2} = rewrite_not_args_1(B0, Forest1, St1),
+ rewrite_bif(Op, [A,B], Forest2, false, St2).
+
+rewrite_not_args_1(Arg, Forest, St) ->
+ Not = make_bif('not', [Arg]),
+ forest_add_expr(Not, Forest, St).
+
+%% rewrite_match(Kvar, TypeClause, Forest, Inv, St) ->
+%% {[Kexpr],Forest,St}.
+%% Try to rewrite a #k_match{} originating from an 'andalso' or an 'orelse'.
+
+rewrite_match(#k_alt{first=First,then=Then}, Forest, Inv, St) ->
+ case {First,Then} of
+ {#k_select{var=#k_var{name=V}=Var,types=[TypeClause]},#k_var{name=V}} ->
+ rewrite_match_1(Var, TypeClause, Forest, Inv, St);
+ {_,_} ->
+ throw(not_possible)
+ end.
+
+rewrite_match_1(Var, #k_type_clause{values=Cs0}, Forest0, Inv, St0) ->
+ Cs = sort([{Val,B} || #k_val_clause{val=#k_atom{val=Val},body=B} <- Cs0]),
+ case Cs of
+ [{false,False},{true,True}] ->
+ rewrite_match_2(Var, False, True, Forest0, Inv, St0);
+ _ ->
+ throw(not_possible)
+ end.
+
+rewrite_match_2(Var, False, #k_atom{val=true}, Forest0, Inv, St0) ->
+ %% Originates from an 'orelse'.
+ case False of
+ #k_atom{val=NotBool} when not is_boolean(NotBool) ->
+ rewrite_bool(Var, Forest0, Inv, St0);
+ _ ->
+ {CodeVar,Forest1,St1} = add_protected_expr(False, Forest0, St0),
+ rewrite_bif('or', [Var,CodeVar], Forest1, Inv, St1)
+ end;
+rewrite_match_2(Var, #k_atom{val=false}, True, Forest0, Inv, St0) ->
+ %% Originates from an 'andalso'.
+ {CodeVar,Forest1,St1} = add_protected_expr(True, Forest0, St0),
+ rewrite_bif('and', [Var,CodeVar], Forest1, Inv, St1);
+rewrite_match_2(_V, _, _, _Forest, _Inv, _St) ->
+ throw(not_possible).
+
+%% is_bool_expr(#k_var{}, Forest) -> true|false.
+%% Return true if the variable refers to a boolean expression
+%% that does not need an explicit '=:= true' test.
+
+is_bool_expr(V, Forest) ->
+ case forest_peek_expr(V, Forest) of
+ error ->
+ %% Defined outside of the guard. We can't know.
+ false;
+ Expr ->
+ case extract_bif(Expr) of
+ {Name,Args} ->
+ is_test(Name, Args) orelse
+ erl_internal:bool_op(Name, length(Args));
+ error ->
+ %% Not a BIF. Should be possible to rewrite
+ %% to a boolean. Definitely does not need
+ %% a '=:= true' test.
+ true
+ end
+ end.
+
+make_bif(Op, Args) ->
+ #k_bif{op=#k_remote{mod=#k_atom{val=erlang},
+ name=#k_atom{val=Op},
+ arity=length(Args)},
+ args=Args}.
+
+extract_bif(#k_bif{op=#k_remote{mod=#k_atom{val=erlang},
+ name=#k_atom{val=Name}},
+ args=Args}) ->
+ {Name,Args};
+extract_bif(_) ->
+ error.
+
+%% make_alt(First, Then) -> KMatch.
+%% Make a #k_alt{} within a #k_match{} to implement
+%% 'or' or 'orelse'.
+
+make_alt(First0, Then0) ->
+ First1 = pre_seq(droplast(First0), last(First0)),
+ Then1 = pre_seq(droplast(Then0), last(Then0)),
+ First2 = make_protected(First1),
+ Then2 = make_protected(Then1),
+ Body = #k_atom{val=ignored},
+ First3 = #k_guard_clause{guard=First2,body=Body},
+ Then3 = #k_guard_clause{guard=Then2,body=Body},
+ First = #k_guard{clauses=[First3]},
+ Then = #k_guard{clauses=[Then3]},
+ Alt = #k_alt{first=First,then=Then},
+ #k_match{vars=[],body=Alt}.
+
+add_protected_expr(#k_atom{}=Atom, Forest, St) ->
+ {Atom,Forest,St};
+add_protected_expr(#k_var{}=Var, Forest, St) ->
+ {Var,Forest,St};
+add_protected_expr(E0, Forest, St) ->
+ E = make_protected(E0),
+ forest_add_expr(E, Forest, St).
+
+make_protected(#k_try{}=Try) ->
+ Try;
+make_protected(B) ->
+ #k_try{arg=B,vars=[#k_var{name=''}],body=#k_var{name=''},
+ handler=#k_atom{val=false}}.
+
+make_failing_test() ->
+ make_test(is_boolean, [#k_atom{val=fail}]).
+
+make_test(Op, Args) ->
+ make_test(Op, Args, false).
+
+make_test(Op, Args, Inv) ->
+ Remote = #k_remote{mod=#k_atom{val=erlang},
+ name=#k_atom{val=Op},
+ arity=length(Args)},
+ #k_test{op=Remote,args=Args,inverted=Inv}.
+
+is_test(Op, Args) ->
+ A = length(Args),
+ erl_internal:new_type_test(Op, A) orelse erl_internal:comp_op(Op, A).
+
+%% make_forest(Kexpr, St) -> {RootKexpr,Forest,St}.
+%% Build a forest out of Kexpr. RootKexpr is the final expression
+%% nested inside Kexpr.
+
+make_forest(G, St) ->
+ make_forest_1(G, #{}, 0, St).
+
+%% make_forest(Kexpr, St) -> {RootKexpr,Forest,St}.
+%% Add to Forest from Kexpr. RootKexpr is the final expression
+%% nested inside Kexpr.
+
+make_forest(G, Forest0, St) ->
+ N = forest_next_index(Forest0),
+ make_forest_1(G, Forest0, N, St).
+
+make_forest_1(#k_try{arg=B}, Forest, I, St) ->
+ make_forest_1(B, Forest, I, St);
+make_forest_1(#iset{vars=[]}=Iset0, Forest, I, St0) ->
+ {UnrefVar,St} = new_var(St0),
+ Iset = Iset0#iset{vars=[UnrefVar]},
+ make_forest_1(Iset, Forest, I, St);
+make_forest_1(#iset{vars=[#k_var{name=V}],arg=Arg,body=B}, Forest0, I, St) ->
+ Forest = Forest0#{V => {I,Arg}, {untaken,V} => true},
+ make_forest_1(B, Forest, I+1, St);
+make_forest_1(Innermost, Forest, _I, St) ->
+ {Innermost,Forest,St}.
+
+%% forest_take_expr(Kexpr, Forest) -> {Expr,Forest}.
+%% If Kexpr is a variable, take out the expression corresponding
+%% to variable in Forest. Expressions that have been taken out
+%% of the forest will not be included the Kexpr returned
+%% by forest_pre_seq/2.
+%%
+%% Throw a 'not_possible' exception if Kexpr is not a variable or
+%% if the name of the variable is not a key in Forest.
+
+forest_take_expr(#k_var{name=V}, Forest0) ->
+ %% v3_core currently always generates guard expressions that can
+ %% be represented as a tree. Other code generators (such as LFE)
+ %% could generate guard expressions that can only be represented
+ %% as a DAG (i.e. some nodes are referenced more than once). To
+ %% handle DAGs, we must never remove a node from the forest, but
+ %% just remove the {untaken,V} marker. That will effectively convert
+ %% the DAG to a tree by duplicating the shared nodes and their
+ %% descendants.
+
+ case maps:find(V, Forest0) of
+ {ok,{_,Expr}} ->
+ Forest = maps:remove({untaken,V}, Forest0),
+ {Expr,Forest};
+ error ->
+ throw(not_possible)
+ end;
+forest_take_expr(_, _) ->
+ throw(not_possible).
+
+%% forest_peek_expr(Kvar, Forest) -> Kexpr | error.
+%% Return the expression corresponding to Kvar in Forest or
+%% return 'error' if there is a corresponding expression.
+
+forest_peek_expr(#k_var{name=V}, Forest0) ->
+ case maps:find(V, Forest0) of
+ {ok,{_,Expr}} -> Expr;
+ error -> error
+ end.
+
+%% forest_add_expr(Kexpr, Forest, St) -> {Kvar,Forest,St}.
+%% Add a new expression to Forest.
+
+forest_add_expr(Expr, Forest0, St0) ->
+ {#k_var{name=V}=Var,St} = new_var(St0),
+ N = forest_next_index(Forest0),
+ Forest = Forest0#{V => {N,Expr}},
+ {Var,Forest,St}.
+
+forest_next_index(Forest) ->
+ 1 + lists:max([N || {N,_} <- maps:values(Forest),
+ is_integer(N)] ++ [0]).
+
+%% forest_pre_seq([Kexpr], Forest) -> Kexpr.
+%% Package the list of Kexprs into a nested Kexpr, prepending all
+%% expressions in Forest that have not been taken out using
+%% forest_take_expr/2.
+
+forest_pre_seq(Exprs, Forest) ->
+ Es0 = [#k_var{name=V} || {untaken,V} <- maps:keys(Forest)],
+ Es = Es0 ++ Exprs,
+ Vs = extract_all_vars(Es, Forest, []),
+ Pre0 = sort([{maps:get(V, Forest),V} || V <- Vs]),
+ Pre = [#iset{vars=[#k_var{name=V}],arg=A} ||
+ {{_,A},V} <- Pre0],
+ pre_seq(Pre++droplast(Exprs), last(Exprs)).
+
+extract_all_vars(Es, Forest, Acc0) ->
+ case extract_var_list(Es) of
+ [] ->
+ Acc0;
+ [_|_]=Vs0 ->
+ Vs = [V || V <- Vs0, maps:is_key(V, Forest)],
+ NewVs = ordsets:subtract(Vs, Acc0),
+ NewEs = [begin
+ {_,E} = maps:get(V, Forest),
+ E
+ end || V <- NewVs],
+ Acc = union(NewVs, Acc0),
+ extract_all_vars(NewEs, Forest, Acc)
+ end.
+
+extract_vars(#iset{arg=A,body=B}) ->
+ union(extract_vars(A), extract_vars(B));
+extract_vars(#k_bif{args=Args}) ->
+ ordsets:from_list(lit_list_vars(Args));
+extract_vars(#k_call{}) ->
+ [];
+extract_vars(#k_test{args=Args}) ->
+ ordsets:from_list(lit_list_vars(Args));
+extract_vars(#k_match{body=Body}) ->
+ extract_vars(Body);
+extract_vars(#k_alt{first=First,then=Then}) ->
+ union(extract_vars(First), extract_vars(Then));
+extract_vars(#k_guard{clauses=Cs}) ->
+ extract_var_list(Cs);
+extract_vars(#k_guard_clause{guard=G}) ->
+ extract_vars(G);
+extract_vars(#k_select{var=Var,types=Types}) ->
+ union(ordsets:from_list(lit_vars(Var)),
+ extract_var_list(Types));
+extract_vars(#k_type_clause{values=Values}) ->
+ extract_var_list(Values);
+extract_vars(#k_val_clause{body=Body}) ->
+ extract_vars(Body);
+extract_vars(#k_try{arg=Arg}) ->
+ extract_vars(Arg);
+extract_vars(Lit) ->
+ ordsets:from_list(lit_vars(Lit)).
+
+extract_var_list(L) ->
+ union([extract_vars(E) || E <- L]).
+
%% Wrap the entire guard in a try/catch if needed.
wrap_guard(#c_try{}=Try, St) -> {Try,St};
diff --git a/lib/compiler/src/v3_kernel.hrl b/lib/compiler/src/v3_kernel.hrl
index 1169a69117..7cd30b25a8 100644
--- a/lib/compiler/src/v3_kernel.hrl
+++ b/lib/compiler/src/v3_kernel.hrl
@@ -58,7 +58,7 @@
-record(k_seq, {anno=[],arg,body}).
-record(k_put, {anno=[],arg,ret=[]}).
-record(k_bif, {anno=[],op,args,ret=[]}).
--record(k_test, {anno=[],op,args}).
+-record(k_test, {anno=[],op,args,inverted=false}).
-record(k_call, {anno=[],op,args,ret=[]}).
-record(k_enter, {anno=[],op,args}).
-record(k_receive, {anno=[],var,body,timeout,action,ret=[]}).
diff --git a/lib/compiler/src/v3_kernel_pp.erl b/lib/compiler/src/v3_kernel_pp.erl
index 45065b7e11..d5f6ee19c9 100644
--- a/lib/compiler/src/v3_kernel_pp.erl
+++ b/lib/compiler/src/v3_kernel_pp.erl
@@ -235,8 +235,13 @@ format_1(#k_bif{op=Op,args=As,ret=Rs}, Ctxt) ->
[Txt,format_args(As, Ctxt1),
format_ret(Rs, Ctxt1)
];
-format_1(#k_test{op=Op,args=As}, Ctxt) ->
- Txt = ["test (",format(Op, ctxt_bump_indent(Ctxt, 6)),$)],
+format_1(#k_test{op=Op,args=As,inverted=Inverted}, Ctxt) ->
+ Txt = case Inverted of
+ false ->
+ ["test (",format(Op, ctxt_bump_indent(Ctxt, 6)),$)];
+ true ->
+ ["inverted_test (",format(Op, ctxt_bump_indent(Ctxt, 6)),$)]
+ end,
Ctxt1 = ctxt_bump_indent(Ctxt, 2),
[Txt,format_args(As, Ctxt1)];
format_1(#k_put{arg=A,ret=Rs}, Ctxt) ->
diff --git a/lib/compiler/src/v3_life.erl b/lib/compiler/src/v3_life.erl
index 4337ec732c..0f2aeda87f 100644
--- a/lib/compiler/src/v3_life.erl
+++ b/lib/compiler/src/v3_life.erl
@@ -118,8 +118,8 @@ protected(#k_protected{anno=A,arg=Ts,ret=Rs}, I, Vdb) ->
%% expr(Kexpr, I, Vdb) -> Expr.
-expr(#k_test{anno=A,op=Op,args=As}, I, _Vdb) ->
- #l{ke={test,test_op(Op),atomic_list(As)},i=I,a=A#k.a};
+expr(#k_test{anno=A,op=Op,args=As,inverted=Inverted}, I, _Vdb) ->
+ #l{ke={test,test_op(Op),atomic_list(As),Inverted},i=I,a=A#k.a};
expr(#k_call{anno=A,op=Op,args=As,ret=Rs}, I, _Vdb) ->
#l{ke={call,call_op(Op),atomic_list(As),var_list(Rs)},i=I,a=A#k.a};
expr(#k_enter{anno=A,op=Op,args=As}, I, _Vdb) ->
diff --git a/lib/compiler/test/bs_match_SUITE.erl b/lib/compiler/test/bs_match_SUITE.erl
index 6742571b86..89f851ac3b 100644
--- a/lib/compiler/test/bs_match_SUITE.erl
+++ b/lib/compiler/test/bs_match_SUITE.erl
@@ -887,28 +887,41 @@ matching_and_andalso(Config) when is_list(Config) ->
{'EXIT',{function_clause,_}} = (catch matching_and_andalso_1(<<1,2,3>>, blurf)),
{'EXIT',{function_clause,_}} = (catch matching_and_andalso_1(<<1,2,3>>, 19)),
- {"abc",<<"xyz">>} = matching_and_andalso_2("abc", <<"-xyz">>),
- {"abc",<<"">>} = matching_and_andalso_2("abc", <<($a-1)>>),
- {"abc",<<"">>} = matching_and_andalso_2("abc", <<($z+1)>>),
- {"abc",<<"">>} = matching_and_andalso_2("abc", <<($A-1)>>),
- {"abc",<<"">>} = matching_and_andalso_2("abc", <<($Z+1)>>),
- error = matching_and_andalso_2([], <<>>),
- error = matching_and_andalso_2([], <<$A>>),
- error = matching_and_andalso_2([], <<$Z>>),
- error = matching_and_andalso_2([], <<$a>>),
- error = matching_and_andalso_2([], <<$z>>),
+ {"abc",<<"xyz">>} = matching_and_andalso_23("abc", <<"-xyz">>),
+ {"abc",<<"">>} = matching_and_andalso_23("abc", <<($a-1)>>),
+ {"abc",<<"">>} = matching_and_andalso_23("abc", <<($z+1)>>),
+ {"abc",<<"">>} = matching_and_andalso_23("abc", <<($A-1)>>),
+ {"abc",<<"">>} = matching_and_andalso_23("abc", <<($Z+1)>>),
+ error = matching_and_andalso_23([], <<>>),
+ error = matching_and_andalso_23([], <<$A>>),
+ error = matching_and_andalso_23([], <<$Z>>),
+ error = matching_and_andalso_23([], <<$a>>),
+ error = matching_and_andalso_23([], <<$z>>),
ok.
matching_and_andalso_1(<<Bitmap/binary>>, K)
when is_integer(K) andalso size(Bitmap) >= K andalso 0 < K ->
ok.
+matching_and_andalso_23(Datetime, Bin) ->
+ Res = matching_and_andalso_2(Datetime, Bin),
+ Res = matching_and_andalso_3(Datetime, Bin),
+ Res.
+
matching_and_andalso_2(Datetime, <<H,T/binary>>)
when not ((H >= $a) andalso (H =< $z)) andalso
not ((H >= $A) andalso (H =< $Z)) ->
{Datetime,T};
matching_and_andalso_2(_, _) -> error.
+%% Contrived example to ensure we cover the handling of 'call' instructions
+%% in v3_codegen:bsm_rename_ctx/4.
+matching_and_andalso_3(Datetime, <<H,T/binary>>)
+ when not ((abs(H) >= $a) andalso (abs(H) =< $z)) andalso
+ not ((abs(H) >= $A) andalso (abs(H) =< $Z)) ->
+ {Datetime,T};
+matching_and_andalso_3(_, _) -> error.
+
%% Thanks to Tomas Stejskal.
otp_7188(Config) when is_list(Config) ->
MP3 = <<84,65,71,68,117,154,105,232,107,121,0,0,0,0,0,0,0,0,0,0,
diff --git a/lib/compiler/test/core_SUITE.erl b/lib/compiler/test/core_SUITE.erl
index b768f49e2c..f8839da42f 100644
--- a/lib/compiler/test/core_SUITE.erl
+++ b/lib/compiler/test/core_SUITE.erl
@@ -26,8 +26,9 @@
seq_in_guard/1,make_effect_seq/1,eval_is_boolean/1,
unsafe_case/1,nomatch_shadow/1,reversed_annos/1,
map_core_test/1,eval_case/1,bad_boolean_guard/1,
- bs_shadowed_size_var/1
- ]).
+ bs_shadowed_size_var/1,
+ cover_v3_kernel_1/1,cover_v3_kernel_2/1,cover_v3_kernel_3/1,
+ cover_v3_kernel_4/1,cover_v3_kernel_5/1]).
-include_lib("common_test/include/ct.hrl").
@@ -53,8 +54,10 @@ groups() ->
[dehydrated_itracer,nested_tries,seq_in_guard,make_effect_seq,
eval_is_boolean,unsafe_case,nomatch_shadow,reversed_annos,
map_core_test,eval_case,bad_boolean_guard,
- bs_shadowed_size_var
- ]}].
+ bs_shadowed_size_var,
+ cover_v3_kernel_1,cover_v3_kernel_2,cover_v3_kernel_3,
+ cover_v3_kernel_4,cover_v3_kernel_5
+ ]}].
init_per_suite(Config) ->
@@ -64,10 +67,10 @@ end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
- Config.
+ Config.
end_per_group(_GroupName, Config) ->
- Config.
+ Config.
?comp(dehydrated_itracer).
@@ -82,6 +85,11 @@ end_per_group(_GroupName, Config) ->
?comp(eval_case).
?comp(bad_boolean_guard).
?comp(bs_shadowed_size_var).
+?comp(cover_v3_kernel_1).
+?comp(cover_v3_kernel_2).
+?comp(cover_v3_kernel_3).
+?comp(cover_v3_kernel_4).
+?comp(cover_v3_kernel_5).
try_it(Mod, Conf) ->
diff --git a/lib/compiler/test/core_SUITE_data/cover_v3_kernel_1.core b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_1.core
new file mode 100644
index 0000000000..9e5788796f
--- /dev/null
+++ b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_1.core
@@ -0,0 +1,147 @@
+module 'cover_v3_kernel_1' ['cover_v3_kernel_1'/0,
+ 'module_info'/0,
+ 'module_info'/1]
+ attributes []
+'cover_v3_kernel_1'/0 =
+ %% Line 4
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ %% Line 5
+ case apply 'bad_and_args'/1
+ ('x') of
+ <'error'> when 'true' ->
+ %% Line 7
+ case apply 'bad_and_args'/2
+ (1, 2) of
+ <'error'> when 'true' ->
+ %% Line 8
+ case apply 'bad_and_args'/2
+ (1, 'true') of
+ <'error'> when 'true' ->
+ %% Line 9
+ case apply 'bad_and_args'/2
+ ('true', 42) of
+ <'error'> when 'true' ->
+ %% Line 10
+ case apply 'bad_and_args'/2
+ ('true', 'false') of
+ <'error'> when 'true' ->
+ %% Line 11
+ case apply 'bad_and_args'/2
+ ('false', 'true') of
+ <'error'> when 'true' ->
+ %% Line 12
+ case apply 'bad_and_args'/2
+ ('true', 'true') of
+ <'ok'> when 'true' ->
+ %% Line 14
+ 'ok'
+ ( <_@c6> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c6})
+ -| ['compiler_generated'] )
+ end
+ ( <_@c5> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c5})
+ -| ['compiler_generated'] )
+ end
+ ( <_@c4> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c4})
+ -| ['compiler_generated'] )
+ end
+ ( <_@c3> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c3})
+ -| ['compiler_generated'] )
+ end
+ ( <_@c2> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c2})
+ -| ['compiler_generated'] )
+ end
+ ( <_@c1> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c1})
+ -| ['compiler_generated'] )
+ end
+ ( <_@c0> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c0})
+ -| ['compiler_generated'] )
+ end
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'cover_v3_kernel_1',0}}] )
+ -| ['compiler_generated'] )
+ end
+'bad_and_args'/1 =
+ %% Line 16
+ fun (_@c0) ->
+ case _@c0 of
+ <A>
+ when try
+ call 'erlang':'and'(A, 42)
+ of <Try> ->
+ Try
+ catch <T,R> ->
+ 'false' ->
+ 'ok'
+ %% Line 17
+ <_@c4> when 'true' ->
+ 'error'
+ ( <_@c3> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_@c3})
+ -| [{'function_name',{'bad_and_args',1}}] )
+ -| ['compiler_generated'] )
+ end
+'bad_and_args'/2 =
+ %% Line 19
+ fun (_@c1,_@c0) ->
+ case <_@c1,_@c0> of
+ <X,Y>
+ when try
+ call 'erlang':'and'(X, Y)
+ of <Try> ->
+ Try
+ catch <T,R> ->
+ 'false' ->
+ 'ok'
+ %% Line 20
+ <_@c6,_@c7> when 'true' ->
+ 'error'
+ ( <_@c5,_@c4> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_@c5,_@c4})
+ -| [{'function_name',{'bad_and_args',2}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/0 =
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_1')
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'module_info',0}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/1 =
+ fun (_@c0) ->
+ case _@c0 of
+ <X> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_1', X)
+ ( <_@c1> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_@c1})
+ -| [{'function_name',{'module_info',1}}] )
+ -| ['compiler_generated'] )
+ end
+end
diff --git a/lib/compiler/test/core_SUITE_data/cover_v3_kernel_2.core b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_2.core
new file mode 100644
index 0000000000..165aacd691
--- /dev/null
+++ b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_2.core
@@ -0,0 +1,98 @@
+module 'cover_v3_kernel_2' ['cover_v3_kernel_2'/0,
+ 'module_info'/0,
+ 'module_info'/1]
+ attributes []
+'cover_v3_kernel_2'/0 =
+ %% Line 4
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ %% Line 5
+ case apply 'strange_case'/1
+ ('a') of
+ <'ok'> when 'true' ->
+ %% Line 6
+ case apply 'strange_case'/1
+ ('b') of
+ <'ok'> when 'true' ->
+ %% Line 7
+ case apply 'strange_case'/1
+ ('c') of
+ <'error'> when 'true' ->
+ %% Line 8
+ case apply 'strange_case'/1
+ (42) of
+ <'error'> when 'true' ->
+ %% Line 9
+ 'ok'
+ ( <_cor3> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor3})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor2> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor2})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor1> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor1})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor0> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor0})
+ -| ['compiler_generated'] )
+ end
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'cover_v3_kernel_2',0}}] )
+ -| ['compiler_generated'] )
+ end
+'strange_case'/1 =
+ %% Line 12
+ fun (_cor0) ->
+ case _cor0 of
+ <X> when
+ case X of
+ <'a'> when 'true' -> 'true'
+ <'b'> when 'true' -> 'true'
+ <Other> when 'true' -> 'false'
+ end ->
+ 'ok'
+ %% Line 13
+ <_cor4> when 'true' ->
+ 'error'
+ ( <_cor3> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_cor3})
+ -| [{'function_name',{'strange_case',1}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/0 =
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_2')
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'module_info',0}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/1 =
+ fun (_cor0) ->
+ case _cor0 of
+ <X> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_2', X)
+ ( <_cor1> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_cor1})
+ -| [{'function_name',{'module_info',1}}] )
+ -| ['compiler_generated'] )
+ end
+end
diff --git a/lib/compiler/test/core_SUITE_data/cover_v3_kernel_3.core b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_3.core
new file mode 100644
index 0000000000..88a9edc354
--- /dev/null
+++ b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_3.core
@@ -0,0 +1,98 @@
+module 'cover_v3_kernel_3' ['cover_v3_kernel_3'/0,
+ 'module_info'/0,
+ 'module_info'/1]
+ attributes []
+'cover_v3_kernel_3'/0 =
+ %% Line 4
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ %% Line 5
+ case apply 'strange_case'/1
+ (1) of
+ <'ok'> when 'true' ->
+ %% Line 6
+ case apply 'strange_case'/1
+ (2) of
+ <'ok'> when 'true' ->
+ %% Line 7
+ case apply 'strange_case'/1
+ (42) of
+ <'error'> when 'true' ->
+ %% Line 8
+ case apply 'strange_case'/1
+ ('atom') of
+ <'error'> when 'true' ->
+ %% Line 9
+ 'ok'
+ ( <_cor3> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor3})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor2> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor2})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor1> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor1})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor0> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor0})
+ -| ['compiler_generated'] )
+ end
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'cover_v3_kernel_3',0}}] )
+ -| ['compiler_generated'] )
+ end
+'strange_case'/1 =
+ %% Line 12
+ fun (_cor0) ->
+ case _cor0 of
+ <X> when
+ case X of
+ <1> when 'true' -> 'true'
+ <2> when 'true' -> 'true'
+ <Other> when 'true' -> 'false'
+ end ->
+ 'ok'
+ %% Line 13
+ <_cor4> when 'true' ->
+ 'error'
+ ( <_cor3> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_cor3})
+ -| [{'function_name',{'strange_case',1}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/0 =
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_3')
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'module_info',0}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/1 =
+ fun (_cor0) ->
+ case _cor0 of
+ <X> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_3', X)
+ ( <_cor1> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_cor1})
+ -| [{'function_name',{'module_info',1}}] )
+ -| ['compiler_generated'] )
+ end
+end
diff --git a/lib/compiler/test/core_SUITE_data/cover_v3_kernel_4.core b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_4.core
new file mode 100644
index 0000000000..905e236f26
--- /dev/null
+++ b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_4.core
@@ -0,0 +1,82 @@
+module 'cover_v3_kernel_4' ['cover_v3_kernel_4'/0,
+ 'module_info'/0,
+ 'module_info'/1]
+ attributes []
+'cover_v3_kernel_4'/0 =
+ %% Line 4
+ fun () ->
+ %% Line 5
+ case apply 'turned_case'/1
+ (20) of
+ <'ok'> when 'true' ->
+ %% Line 6
+ case apply 'turned_case'/1
+ (0) of
+ <'error'> when 'true' ->
+ %% Line 7
+ 'ok'
+ ( <_@c1> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c1})
+ -| ['compiler_generated'] )
+ end
+ ( <_@c0> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_@c0})
+ -| ['compiler_generated'] )
+ end
+'turned_case'/1 =
+ %% Line 9
+ fun (_@c0) ->
+ let <True> =
+ apply %% Line 10
+ 'id'/1
+ (%% Line 10
+ 'true')
+ in %% Line 11
+ case <> of
+ %% Line 12
+ <>
+ when try
+ ( let <_@c4> =
+ case call 'erlang':'<'
+ (_@c0, 10) of
+ ( <( 'false'
+ -| ['compiler_generated'] )> when 'true' ->
+ True
+ -| ['compiler_generated'] )
+ ( <( 'true'
+ -| ['compiler_generated'] )> when 'true' ->
+ 'false'
+ -| ['compiler_generated'] )
+ ( <_@c2> when 'true' ->
+ _@c2
+ -| ['compiler_generated'] )
+ end
+ in ( call 'erlang':'=:='
+ (( _@c4
+ -| ['compiler_generated'] ), 'true')
+ -| ['compiler_generated'] )
+ -| ['compiler_generated'] )
+ of <Try> ->
+ Try
+ catch <T,R> ->
+ 'false' ->
+ 'ok'
+ %% Line 13
+ <> when 'true' ->
+ 'error'
+ end
+'id'/1 =
+ %% Line 16
+ fun (_@c0) ->
+ _@c0
+'module_info'/0 =
+ fun () ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_4')
+'module_info'/1 =
+ fun (_@c0) ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_4', _@c0)
+end \ No newline at end of file
diff --git a/lib/compiler/test/core_SUITE_data/cover_v3_kernel_5.core b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_5.core
new file mode 100644
index 0000000000..48c1bb84e6
--- /dev/null
+++ b/lib/compiler/test/core_SUITE_data/cover_v3_kernel_5.core
@@ -0,0 +1,98 @@
+module 'cover_v3_kernel_5' ['cover_v3_kernel_5'/0,
+ 'module_info'/0,
+ 'module_info'/1]
+ attributes []
+'cover_v3_kernel_5'/0 =
+ %% Line 4
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ %% Line 5
+ case apply 'strange_case'/1
+ (1) of
+ <'ok'> when 'true' ->
+ %% Line 6
+ case apply 'strange_case'/1
+ (2) of
+ <'ok'> when 'true' ->
+ %% Line 7
+ case apply 'strange_case'/1
+ (42) of
+ <'error'> when 'true' ->
+ %% Line 8
+ case apply 'strange_case'/1
+ ('atom') of
+ <'error'> when 'true' ->
+ %% Line 9
+ 'ok'
+ ( <_cor3> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor3})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor2> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor2})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor1> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor1})
+ -| ['compiler_generated'] )
+ end
+ ( <_cor0> when 'true' ->
+ primop 'match_fail'
+ ({'badmatch',_cor0})
+ -| ['compiler_generated'] )
+ end
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'cover_v3_kernel_5',0}}] )
+ -| ['compiler_generated'] )
+ end
+'strange_case'/1 =
+ %% Line 12
+ fun (_cor0) ->
+ case _cor0 of
+ <X> when
+ case X of
+ <1> when 'true' -> 'true'
+ <2> when 'true' -> 'true'
+ <Other> when 'true' -> X
+ end ->
+ 'ok'
+ %% Line 13
+ <_cor4> when 'true' ->
+ 'error'
+ ( <_cor3> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_cor3})
+ -| [{'function_name',{'strange_case',1}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/0 =
+ fun () ->
+ case <> of
+ <> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_5')
+ ( <> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause'})
+ -| [{'function_name',{'module_info',0}}] )
+ -| ['compiler_generated'] )
+ end
+'module_info'/1 =
+ fun (_cor0) ->
+ case _cor0 of
+ <X> when 'true' ->
+ call 'erlang':'get_module_info'
+ ('cover_v3_kernel_5', X)
+ ( <_cor1> when 'true' ->
+ ( primop 'match_fail'
+ ({'function_clause',_cor1})
+ -| [{'function_name',{'module_info',1}}] )
+ -| ['compiler_generated'] )
+ end
+end