aboutsummaryrefslogtreecommitdiffstats
path: root/lib/compiler/test
AgeCommit message (Collapse)Author
2013-07-11Merge branch 'jw/fix-float-middle-endian/OTP-11201' into maintFredrik Gustafsson
* jw/fix-float-middle-endian/OTP-11201: Fix binary construction on floating point middle-endian machines Fix binary matching on floating point middle-endian machines Fix erlang:phash2() on floating point middle-endian machines Fix external term format BIFs on floating point middle-endian machines
2013-06-14Fix binary construction on floating point middle-endian machinesJohannes Weißl
This complements 933e701 (OTP-10209). Without this patch the test cases "in_guard/1" and "coerce_to_float/1" in bs_construct_SUITE fail. The added lines in bs_construct_SUITE cover all branches that were not covered before (small and big numbers if BIT_OFFSET(erts_bin_offset) != 0).
2013-06-12Update copyright yearsBjörn-Egil Dahlberg
2013-05-29compiler: Correct liveness optimization for wait/1Björn Gustavsson
The live optimization in beam_utils:live_opt/4 did not take into account that the wait/1 instruction *never* falls through to the next instruction (it has the same effect on the control flow as the jump/1 instruction).
2013-05-20beam_lib, compile: Replace use of deprecated crypto functionsBjörn Gustavsson
Since both the STDLIB and compiler applications turn warnings into errors, we must stop using the old deprecated crypto functions. While we are at it, generalize the format of the key tuple returned by beam_lib:make_crypto_key/2 to facilitate introducing new crypto methods in the future. Change the format to: {Type,Key,IV,BlockSize} where Type, Key, and IV are the first three arguments for either crypto:block_encrypt4/ or crypto:block_decrypt/4, and BlockSize is the block size for the crypto algorithm (it is needed to properly pad the plaintext blocks before encryption).
2013-04-19Use a set to store ref registers in beam_receiveAnthony Ramine
In some circumstances, as when inlining code, when some optimization passes are disabled or with hand-written but semantically correct Core Erlang or BEAM assembly, a fresh reference may be live in more than one register: ... {allocate_zero,2,2}. ... {call_ext,0,{extfunc,erlang,make_ref,0}}. % Ref in [x0] ... {move,{x,0},{y,0}}. % Ref in [x0,y0] {move,{y,1},{x,0}}. % Ref in [y0] ... {move,{y,0},{x,0}}. % Ref in [x0,y0] {move,{x,0},{y,1}}. % Ref in [x0,y0,y1] {label,5}. {loop_rec,{f,6},{x,0}}. % Ref in [y0,y1] ... {loop_rec_end,{f,5}}. {label,6}. {wait,{f,5}}. ... Pass beam_receive expects a single live register for the ref when it encounters the loop_rec instruction and crashes with the following reason: $ erlc t.S ... crash reason: {{case_clause, {'EXIT', {{case_clause,[{y,1},{y,0}]}, [{beam_receive,opt_recv,5, [{file,"beam_receive.erl"},{line,154}]}, ...]}}}, ...} This commit teaches beam_receive how to use a set of registers instead of a single one when tracking fresh references, thus avoiding the crash.
2013-04-05Use erlang:demonitor(Ref, [flush]) where applicableLoïc Hoguin
2013-04-03Merge branch 'nox/fix-bc-optim/OTP-11005' into maintFredrik Gustafsson
* nox/fix-bc-optim/OTP-11005: Add a new option +clint0 to the compiler Fix optimization of some binary comprehensions
2013-03-28Fix optimization of some binary comprehensionsAnthony Ramine
If a variable bound in a generator is used as the size of a segment in the comprehension body, v3_core uses this variable in the code generated to compute the initial size given to the `bs_init_writable` primop before the variable is actually bound, as in: << <<0:S>> || S <- Slist >> Reported-By: Peer Stritzinger
2013-03-19Fix slow compilation of complex guardsBjörn Gustavsson
beam_utils:is_not_used_at/3 could be very slow for complex guards, because the cached result for previously encountered labels were neither used nor updated within blocks. Reported-by: Magnus Müller
2013-02-22Update copyright yearsBjörn-Egil Dahlberg
2013-02-09Fix unsafe optimization of funsBjörn Gustavsson
Commits 53bd4974a101 and 726f6e4c7afe simplified the handling of match_fail (used to generated exceptions such as 'function_clause') by first rewriting them to a call to erlang/error{1,2} and later rewriting them to specialized BEAM instructions (to reduce the code size). There was one flaw, though, which only was exposed when more aggressive optimizations were added in c3b60f86c622. Here is an example to explain it: t(V) -> fun(get) -> V end. The following BEAM code will be initially generated for the fun: {function, '-t/1-fun-0-', 2, 5}. {label,1}. {line,[{location,"t.erl",5}]}. {func_info,{atom,t},{atom,'-t/1-fun-0-'},2}. {label,2}. {test,is_eq_exact,{f,2},[{x,0},{atom,get}]}. {move,{x,1},{x,0}}. return. {label,2}. {test_heap,2,1}. {put_list,{x,0},nil,{x,1}}. {move,{atom,function_clause},{x,0}}. {line,[{location,"t.erl",5}]}. {call_ext_only,2,{extfunc,erlang,error,2}}. Translating back to Erlang code, that would be roughly: '-t/1-fun-0-'(get, V) -> V; '-t/1-fun-0-'(Arg1, _) -> erlang:error(function_clause, [Arg1]). Note that the second argument (the free variable V) is not included in the call to erlang:error/2. The beam_except pass will simplify the code to: {function, '-t/1-fun-0-', 2, 8}. {label,1}. {line,[{location,"t.erl",5}]}. {func_info,{atom,t},{atom,'-t/1-fun-0-'},2}. {label,2}. {test,is_eq_exact,{f,1},[{x,0},{atom,get}]}. {move,{x,1},{x,0}}. return. The code has been shortened by jumping to the func_info/3 instruction. Translating back to Erlang: '-t/1-fun-0-'(get, V) -> V; '-t/1-fun-0-'(Arg1, Arg2) -> erlang:error(function_clause, [Arg1,Arg2]). it is clear that both arguments are now included in the 'function_clause' exception, even though the initially generated code only included the first argument. That is no problem in this particular case, but for some more complex funs, optimizing the first version based on variable usage could make the second version unsafe. I rejected the following potential solutions: - Including the free arguments in the call to erlang:error/2: '-t/1-fun-0-'(get, V) -> V; '-t/1-fun-0-'(Arg1, Arg2) -> erlang:error(function_clause, [Arg1,Arg2]). Unfortunately, that is tricky. The free variables are only known after the second pass in v3_kernel when variable usage has been calculated. We would need to add a third pass (only for funs) that would the free arguments to the second argument for erlang:error/2 *and* update the variable usage information. - Calling beam_except earlier, from within beam_block before any optimizations based on variable usages are done. But means that the problem could reappear in some other form in the future when other updates are done to the code generator and/or optimization passes. The solution I have chosen is to modify beam_except to only replace a call to erlang:error(function_class, Args) if the length of Args is the same as the arity in the func_info/3 instruction. The code will be slightly larger. Also, the free variables for funs and list comprehensions will no longer be included in the function_clause exception (that could be less confusing, but it also means less information during debugging).
2013-02-06Merge branch 'nox/fix-seq-opt/OTP-10818'Fredrik Gustafsson
* nox/fix-seq-opt/OTP-10818: Add two tests for unused multiple values in effect context Forbid multiple values in Core Erlang sequence arguments
2013-02-04Add two tests for unused multiple values in effect contextAnthony Ramine
2013-01-30Test setelement(1, not_a_tuple, NewValue)Björn Gustavsson
2013-01-30Fix crash in the compiler when compiling element(2, not_a_tuple)Björn Gustavsson
2013-01-25Update copyright yearsBjörn-Egil Dahlberg
2013-01-18compiler: Eliminate internal consistency failure in binary matchingBjörn Gustavsson
The following code: check(<<"string">>, a1) -> one; check(_, a2) -> two; check(undefined, a3) -> three. produces an internal consistency failure: check: function check/2+17: Internal consistency check failed - please report this bug. Instruction: {test,is_eq_exact,{f,7},[{x,0},{atom,undefined}]} Error: {match_context,{x,0}}: Actually, in the current implementation of the run-time system, comparing a match context to an atom is safe, so I briefly considered updating the beam_validator to let this code pass through. I abandoned that approach because not all terms would be safe to compare to a match context, and the implementation might change in the future. Therefore, fix this problem by not allowing any matching of non-variables (in the argument position for binary being matched) following binary matching. That solution is simple and safe, and since this kind of code seems to be rare in practice, there is no need to pursue any more compilicated solution. Reported-by: Viktor Sovietov
2013-01-18Merge branch 'bjorn/remove-parameterized-modules/OTP-10616'Björn Gustavsson
* bjorn/remove-parameterized-modules/OTP-10616: Remove support for parameterized modules xref_SUITE: Don't test parameterized modules shell_SUITE: Don't test parameterized modules erl_expand_records_SUITE: Don't test parameterized modules erl_eval: Don't test parameterized modules
2013-01-18Remove support for parameterized modulesBjörn Gustavsson
2013-01-18Merge branch 'nox/promote-inline_list_funcs/OTP-10690'Fredrik Gustafsson
* nox/promote-inline_list_funcs/OTP-10690: Raise a function_clause error with the right arguments when inlining Properly guard against badly-typed arguments when inlining Make inlined list functions fail with function_clause Document compiler option 'inline_list_funcs' Silence some wrong warnings triggered by inline_list_funcs
2013-01-16Raise a function_clause error with the right arguments when inliningAnthony Ramine
The inlined lists functions raised an error with only the list instead of all their given arguments.
2013-01-16Properly guard against badly-typed arguments when inliningAnthony Ramine
The inlining code for inline_list_funcs silenced the function_clause error that should occur when calling lists:map(3.5, []).
2013-01-16Make inlined list functions fail with function_clauseAnthony Ramine
The function_clause errors produced by inline_list_funcs should properly be annotated with their function names to avoid kernel_v3 making them into case_clauses errors. See v3_kernel:translate_match_fail_1/4.
2013-01-09compiler: Remove support for packagesBjörn Gustavsson
2012-11-26beam_bsm: Improve handling of bs_start_match2 instructionsBjörn Gustavsson
The handling of bs_start_match2 was both too conservative and too careless. It was too conservative in that would not do the optimization if the were copies of the match state in other registers. It was careless in that it did not consider the failure branch. Reorganize the code and fix both these issues. Add a test case to test that the failure branch is considered.
2012-11-23Merge branch 'maint'Björn-Egil Dahlberg
2012-11-23Update copyright yearsBjörn-Egil Dahlberg
2012-11-12Merge branch 'maint'Björn Gustavsson
* maint: Fix compiler crash for binary matching and a complicated guard
2012-11-07compiler tests: Correct error in receive_SUITE:groups/0Björn Gustavsson
Commit c4375a62cfaabfd8de757f59714623ba1a8cb915 added a parallel group, but incorrectly, so no test cases at all were run in receive_SUITE.
2012-11-06Fix compiler crash for binary matching and a complicated guardBjörn Gustavsson
The compiler would crash when attempting to compile a function head that did binary matching and had a complex expression using 'andalso' and 'not'. Noticed-by: José Valim
2012-10-23Correct typo in test suite nameBjörn Gustavsson
It should be beam_except_SUITE, since it tests the beam_except module (introduced in 726f6e4c7afe8ce37b30eedbebe583e7b9bfc51b).
2012-10-23compiler: Run testcases in parallelBjörn Gustavsson
Run testcases in parallel will make the test suite run slightly faster. Another reason for this change is that we want more testing of parallel testcase support in common_test.
2012-10-09Introduce the mandatory beam_a and beam_z passesBjörn Gustavsson
Introduce the mandary beam_a pass that will be run directly after code generation, and the mandatory beam_z pass that will be run just before beam_asm. Since these passes surround the optimizations, beam_a can (for example) do instruction renaming to simplify the optimization passes and beam_z can undo those renamings.
2012-10-09beam_receive: Optimize receives using refs created by spawn_monitor/{1,3}Björn Gustavsson
2012-10-09compile: Give a friendler error message if a parse transform cannot be foundBjörn Gustavsson
Don't throw the parse tree in the face of the user. OTP-8707
2012-10-09beam_jump: Don't move a block which can be entered via a fallthroughBjörn Gustavsson
beam_jump moves short code sequences ending in an instruction that causes an exception to the end of the function, in the hope that a jump around the moved blocked can be replaced with a fallthrough. Therefore, moving a block that is entered via a fallthrough defeats the purpose of the optimization. Also add two more test cases for the beam_receive module to ensure that all lines are still covered.
2012-10-09v3_kernel: Fix match code for matched out segment size in multiple clausesBjörn Gustavsson
When matched variable is used as a size field in multiple clauses, as in: foo(<<L:8,A:L>>) -> A; foo(<<L:8,A:L,B:8>>) -> {A,B}. the match tree would branch out before the segment that used the matched-out variable (in this example, the tree would branch out before the matching of A:L). That happens because the pattern matching compilator did not take variable substitutions into account when grouping clauses that match the same value. That is, the generated code would work similarly to this code: foo(<<L:8,T/binary>>) -> case T of <<A:L>> -> A; _ -> case T of <<A:L,B:8>> -> %% A matched out again! {A,B} end end. We would like the matching to work more like: foo(<<L,A:L,T/binary>>) -> case T of <<>> -> A; <<B:8>> -> {A,B} end. Fix the problem by taking the substitutions into account when grouping clauses that match out the same value.
2012-10-09Improve binary matching of literalsBjörn Gustavsson
The bs_match_string instruction is used to speed up matching of binary literals. For example, given this source code: foo1(<<1,2,3>>) -> ok. The matching part of the code will look like: {test,bs_start_match2,{f,1},1,[{x,0},0],{x,0}}. {test,bs_match_string,{f,3},[{x,0},24,{string,[1,2,3]}]}. {test,bs_test_tail2,{f,3},[{x,0},0]}. Nice. However, if we do a simple change to the source code: foo2(<<1,2,3>>) -> ok; foo2(<<>>) -> error. the resulting matching code will look like (sligthly simplified): {test,bs_start_match2,{f,4},1,[{x,0},0],{x,0}}. {test,bs_get_integer2,{f,7},1,[{x,0},{integer,8},1,Flags],{x,1}}. {test,is_eq_exact,{f,8},[{x,1},{integer,1}]}. {test,bs_match_string,{f,6},[{x,0},16,{string,[2,3]}]}. {test,bs_test_tail2,{f,6},[{x,0},0]}. {move,{atom,ok},{x,0}}. return. {label,6}. {bs_restore2,{x,0},{atom,start}}. {label,7}. {test,bs_test_tail2,{f,8},[{x,0},0]}. That is, matching of the first byte is not combined into the bs_match_string instruction that follows. Fix this problem by allowing a bs_match_string instruction to be used if all clauses will match either the same integer literal or the empty binary.
2012-10-09beam_utils: Extend live_opt/1 to recalculate live registers in allocsBjörn Gustavsson
The code generator uses conservative liveness information. Therefore the number of live registers in allocation instructions (such as test_heap/2) may be too high. Use the actual liveness information to lower the number of live register if it's too high. The main reason we want to do this is to enable more optimizations that depend on liveness analysis, such as the beam_bool and beam_dead passes.
2012-08-31Update copyright yearsBjörn-Egil Dahlberg
2012-08-24Merge branch 'rc/fix-MP-compiler-flag/OTP-10211' into maintFredrik Gustafsson
2012-08-23Merge branch 'bjorn/compiler/illegal-size/OTP-10197' into maintBjörn Gustavsson
* bjorn/compiler/illegal-size/OTP-10197: compiler: Warn if the size of a binary segment is invalid
2012-08-22Revert "Merge branch 'nox/compile-column-numbers' into maint"Lukas Larsson
Column numbers was merged without understanding all the whole story. See mail on erlang-patches for details. This reverts commit df8e67e203b83f95d1e098fec88ad5d0ad840069, reversing changes made to 0c9d90f314f364e5b1301ec89d762baabc57c7aa.
2012-08-22compiler: Warn if the size of a binary segment is invalidBjörn Gustavsson
The compiler would silently accept and Dialyzer would crash on code like: <<X:(2.5)>> It is never acceptable for Dialyzer to crash. The compiler should at least generate a warning for such code. It is tempting to let the compiler generate an error, but that would mean that code like: Sz = 42.0, <<X:Sz>>. would be possible to compile with optimizations disabled, but not with optimizations enabled. Dialyzer crashes because it calls cerl:bitstr_bitsize/1, which crashes if the type of size for the segment is invalid. The easiest way to avoid that crash is to extend the sanity checks in v3_core to also include the size field of binary segments. That will cause the compiler to issue a warning and to replace the bad binary construction with a call to erlang:error/1. (It also means that Dialyzer will not issue a warning for bad size fields.)
2012-08-15Merge branch 'bjorn/compiler/minor-fixes/OTP-10185' into maintBjörn Gustavsson
* bjorn/compiler/minor-fixes/OTP-10185: erl_lint: Add a deprecated warning for literal tuple funs beam_utils:live_opt/1: Correct handling of try_case_end/1 Correct guard_SUITE_tuple_size.S beam_type: Print the offending function if this pass crashes beam_validator: Validate the size operand in bs_init_bits and bs_init2
2012-08-15Correct guard_SUITE_tuple_size.SBjörn Gustavsson
The number of live registers in the gc_bif instructions was wrong. It was not noticed because the beam_type pass silently corrected it.
2012-08-15beam_type: Print the offending function if this pass crashesBjörn Gustavsson
2012-08-14Merge branch 'nox/compile-column-numbers' into maintFredrik Gustafsson
* nox/compile-column-numbers: Fix messages ordering with column numbers Fix type compile:err_info/0 Test column number reporting in error_SUITE Fix printing of errors with column numbers Create a new "column" option in compile Allow setting of initial position in epp Export type erl_scan:location/0
2012-08-06compiler: Eliminate EXIT messages from the temporary compiler processBjörn Gustavsson
If a process trap exits, calling the compiler would leave an EXIT message in the message queue of the calling process because the compiler spawns a temporary work process. Eliminate the EXIT process by monitoring the temporary process instead of linking to it. Reported-by: Jeremy Heater