The two GDB plugins in libcc1 share a fair amount of code. This was
done by copy-and-paste, though in reality the underlying code is
nearly identical.
libcc1
* libcp1.cc (struct libcp1): Derive from base_gdb_plugin. Remove
shared code.
(class libcp1_connection): Remove.
(rpc): Remove.
(libcp1_set_verbose, libcp1_compile): Update.
(cp_call_binding_oracle, cp_call_symbol_address)
(cp_call_enter_scope, cp_call_leave_scope): Update.
* libcc1.cc (struct libcc1): Derive from base_gdb_plugin. Remove
shared code.
(class libcc1_connection): Remove.
(c_call_binding_oracle, c_call_symbol_address): Update.
(rpc): Remove.
(libcc1_set_verbose, libcc1_compile): Update.
* gdbctx.hh: New file.
Both plugins in libcc1 share a fair amount of boilerplate. They both
share error-emission code, context management code, and tree GC code.
This patch unifies these two bodies of code, avoiding needless
duplication.
libcc1
* libcc1plugin.cc: Move code to context.cc.
* libcp1plugin.cc: Move code to context.cc.
* context.hh: New file.
* context.cc: New file.
* Makefile.in: Rebuild.
* Makefile.am (AM_CPPFLAGS): Add more gcc flags.
(CPPFLAGS_FOR_C, CPPFLAGS_FOR_CXX): Update.
(libcc1plugin_la_SOURCES): Add context.hh, context.cc.
(libcp1plugin_la_SOURCES): Likewise.
This changes libcc1 to ues foreach in a couple of spots.
libcc1
* libcp1plugin.cc (plugin_context::mark): Use foreach.
* libcc1plugin.cc (plugin_context::mark): Use foreach.
Both libcc1 plugins have nearly identical copies of code to find the
underlying compiler. This seemed wasteful to me, so this patch
unifies the copies.
Two minor API changes were needed.
First, the old code used a back-link from the compiler object to the
plugin object to check the 'verbose' setting. This patch adds a
'verbose' setting directly to the compiler object instead.
Second, the 'find' method implicitly knew which compiler base name
("gcc" or "g++") to use. This patch makes this a parameter that is
passed in by the plugin.
libcc1
* libcp1.cc (compiler, compiler_triplet_regexp)
(compiler_driver_filename): Remove.
(libcp1::libcp1): Update.
(make_regexp, libcp1::compiler::find)
(libcp1::compiler_triplet_regexp::find)
(libcp1::compiler_driver_filename::find): Remove.
(libcp1_set_verbose, libcp1_set_arguments)
(libcp1_set_triplet_regexp, libcp1_set_driver_filename): Update.
* libcc1.cc (compiler, compiler_triplet_regexp)
(compiler_driver_filename): Remove.
(libcc1::libcc1): Update.
(make_regexp, libcc1::compiler::find)
(libcc1::compiler_triplet_regexp::find)
(libcc1::compiler_driver_filename::find): Remove.
(libcc1_set_verbose, libcc1_set_arguments)
(libcc1_set_triplet_regexp, libcc1_set_driver_filename): Update.
* compiler.cc: New file.
* compiler.hh: New file.
* Makefile.in: Rebuild.
* Makefile.am (libcc1_la_SOURCES): Add compiler.hh, compiler.cc.
This changes libcc1 to use unique_ptr in a few more places, removing
some manual memory management.
libcc1
* libcp1.cc (struct libcp1) <connection, compilerp>: Use
unique_ptr.
(~libcp1): Remove.
(libcp1_compile, libcp1_set_triplet_regexp)
(libcp1_set_driver_filename): Update.
* libcc1.cc (struct libcc1) <connection, compilerp>: Use
unique_ptr.
(~libcc1): Remove.
(libcc1_set_triplet_regexp, libcc1_set_driver_filename)
(libcc1_compile): Update.
This changes libcc1 to use the 'deleter' template in a few more
places. The template and basic specializations are moved to a new
header, then some unmarshall functions are changed to use this code.
This change avoids the need to repeat cleanup code in the
unmarshallers.
libcc1
* rpc.hh (deleter): Move template and some specializations to
deleter.hh.
(argument_wrapper<const T *>): Use cc1_plugin::unique_ptr.
* marshall.cc (cc1_plugin::unmarshall): Use
cc1_plugin::unique_ptr.
* marshall-cp.hh (deleter): New specializations.
(unmarshall): Use cc1_plugin::unique_ptr.
* deleter.hh: New file.
This adds deleter objects for various kinds of protocol pointers to
libcc1. Existing specializations of argument_wrapper are then
replaced with a single specialization that handles all pointer types
via the appropriate deleter. The result here is a bit nicer because
the argument_wrapper boilerplate code is completely shared, leaving
just the memory-management detail to the particular specializations.
libcc1
* rpc.hh (struct deleter): New template class and
specializations.
(argument_wrapper): Remove specializations. Add specialization
for any pointer type.
This changes libcc1 to use std::vector in the code that builds
function types. This avoids some explicit memory management.
libcc1
* libcp1plugin.cc (plugin_build_function_type): Use std::vector.
* libcc1plugin.cc (plugin_build_function_type): Use std::vector.
This changes libcc1 to use variadic templates for the "rpc" functions.
This simplifies the code and removes some possibility for mistakes.
libcc1
* libcp1.cc (rpc): Use variadic template. Remove overloads.
* libcc1.cc (rpc): Use variadic template. Remove overloads.
This changes libcc1 to use variadic templates for the "call"
functions. The primary benefit is that this simplifies the code.
libcc1
* rpc.hh (call): Use variadic template. Remove overloads.
* marshall.hh (marshall): Add base overload. Use variadic
template.
Change libcc1 to use "= delete" for the copy constructor and
assignment operator, rather than the old approach of private methods
that are nowhere defined.
libcc1
* rpc.hh (argument_wrapper): Use delete for copy constructor.
* connection.hh (class connection): Use delete for copy
constructor.
* callbacks.hh (class callbacks): Use delete for copy constructor.
This changes libcc1 to inline a trivial method and to use the default
constructor.
libcc1
* connection.hh (~connection): Use default.
(print): Inline.
* connection.cc (cc1_plugin::connection::~connection)
(cc1_plugin::connection::print): Remove definitions.
This changes libcc1 to use "override" where appropriate.
libcc1
* libcp1.cc (class compiler_triplet_regexp)
(class compiler_driver_filename, class libcp1_connection): Use
"override".
* libcc1.cc (class compiler_triplet_regexp)
(class compiler_driver_filename, class libcc1_connection): Use
"override".
Now that C++11 can be used in GCC, libcc1 can be changed to use
templates and type traits to handle unmarshalling all kinds of enums.
libcc1
* marshall.hh (cc1_plugin::unmarshall): Use type traits.
* marshall-cp.hh (cc1_plugin::unmarshall): Remove overloads.
* marshall-c.hh: Remove.
* libcc1plugin.cc: Update includes.
* libcc1.cc: Update includes.
for libstdc++-v3/ChangeLog
* acinclude.m4: Add VxWorks-specific case for the
configuration of ctypes.
* configure: Regenerate.
* config/locale/vxworks/ctype_members.cc: Add VxWorks-specific
version.
* config/os/vxworks/ctype_base.h: Adjust for VxWorks7+.
* config/os/vxworks/ctype_configure_char.cc: Likewise.
* config/os/vxworks/ctype_inline.h: Likewise.
* testsuite/28_regex/traits/char/isctype.cc: Defines
NEWLINE_IN_CLASS_BLANK if the target is VxWorks.
* testsuite/28_regex/traits/wchar_t/isctype.cc: Likewise.
x86-vx7r2 needs svr4_dbx_register_map, but the default in i386/i386.h
was dbx_register_map, partially swapping ebp and esp in unwind info.
i386/vxworks.h had a correct overrider, but it was conditional for
vxworks < 7. This patch reenables the overrider unconditionally.
for gcc/ChangeLog
* config/i386/vxworks.h (DBX_REGISTER_NUMBER): Make it
unconditional.
This fixes some ubsan errors in std::promise:
future:1153:34: runtime error: member call on null pointer of type 'struct element_type'
future:1153:34: runtime error: member access within null pointer of type 'struct element_type'
The problem is that the check for a null pointer is done inside the
_State::__Setter function, which is only evaluated after evaluating the
_M_future->_M_set_result postfix-expression.
This change adds a new promise::_M_state() helper for accessing
_M_future, and moves the check for no shared state into there, instead
of inside the __setter functions. The __setter functions are made
always_inline, to avoid the situation where the linker selects the old
version of set_value (without the _S_check call) and the new version of
__setter (without the _S_check call) and so there is no check. With the
always_inline attribute the old version of set_value will either inline
the old __setter or call an extern definition of it, and the new
set_value will do the check itself, so both versions do the check.
libstdc++-v3/ChangeLog:
* include/std/future (promise::set_value): Check for existence
of shared state before dereferncing it.
(promise::set_exception, promise::set_value_at_thread_exit)
(promise::set_exception_at_thread_exit): Likewise.
(promise<R&>::set_value, promise<R&>::set_exception)
(promise<R&>::set_value_at_thread_exit)
(promise<R&>::set_exception_at_thread_exit): Likewise.
(promise<void>::set_value, promise<void>::set_exception)
(promise<void>::set_value_at_thread_exit)
(promise<void>::set_exception_at_thread_exit): Likewise.
* testsuite/30_threads/promise/members/at_thread_exit2.cc:
Remove unused variable.
This fixes a ubsan error when constructing a string with a null pointer:
bits/basic_string.h:534:21: runtime error: applying non-zero offset 18446744073709551615 to null pointer
The _M_construct function only cares whether the second pointer is
non-null, so create a non-null value without undefined arithmetic.
We can also pass the random_access_iterator_tag directly to the
_M_construct function, to avoid going via the tag dispatching
_M_construct_aux, because we know we have pointers not integers here.
libstdc++-v3/ChangeLog:
* include/bits/basic_string.h (basic_string(const CharT*, const A&)):
Do not do arithmetic on null pointer.
This fixes ubsan errors:
ext/pb_ds/detail/cc_hash_table_map_/cc_ht_map_.hpp:533:15: runtime error: member access within null pointer of type 'struct entry'
libstdc++-v3/ChangeLog:
* include/ext/pb_ds/detail/cc_hash_table_map_/cc_ht_map_.hpp
(find_key_pointer(key_const_reference, false_type))
(find_key_pointer(key_const_reference, true_type)): Do not
dereference null pointer.
Fix some test bugs found by ubsan.
libstdc++-v3/ChangeLog:
* testsuite/20_util/from_chars/3.cc: Use unsigned type to avoid
overflow.
* testsuite/24_iterators/reverse_iterator/2.cc: Do not add
non-zero value to null pointer.
* testsuite/25_algorithms/copy_backward/move_iterators/69478.cc:
Use past-the-end iterator for result.
* testsuite/25_algorithms/move_backward/69478.cc: Likewise.
* testsuite/25_algorithms/move_backward/93872.cc: Likewise.
AIX XCOFF symbols can be labels or qualnames (names with an appended
mapping class). CSECTs must be declared with a mapping class.
Within an assembler file, the symbol names with and without the mapping
class are unique. An object file symbol table only presents the symbol
name without the mapping class, but the section of the symbol depends on
the mapping class.
The AIX XCOFF assembly language does not support first class aliases.
GCC implements symbol aliases by emitting additional labels for the function
or object. When GCC encodes sections for a DECL, it must distinguish
between the primary definition and the aliases, which don't have a
mapping class encoding.
.globl foo[DS]
.globl .foo
.globl foo1
.globl .foo1
.csect foo[DS]
foo:
foo1:
.long .foo, TOC[tc0] 0
.csect .foo[PR]
.foo:
.foo1:
The CSECT foo[DS] and label foo are distinct. foo1 is another label (alias)
for foo, and .foo1 is another label (alias) for .foo. foo is the function
descriptor and .foo is the code.
This patch adds the [DS] mapping class to the encoding of FUNCTION_DECL
but ensures that mapping class is not added to function aliases.
rs6000_output_mi_thunk is updated to emit the function name that matches
the behavior of GCC final.c for normal functions: get_fnname_from_decl based
on the RTL name, not the DECL name.
* config/rs6000/rs6000-call.c (rs6000_output_mi_thunk): Use
get_fnname_from_decl for name of thunk.
* config/rs6000/rs6000.c (rs6000_declare_alias): Use assemble_name
and ASM_OUTPUT_LABEL.
(rs6000_xcoff_declare_function_name): Use assemble_name and
ASM_OUTPUT_LABEL.
(rs6000_xcoff_declare_object_name): Use ASM_OUTPUT_LABEL.
(rs6000_xcoff_encode_section_info): Don't add mapping class
for aliases. Always add [DS] mapping class to primary
FUNCTION_DECL.
(rs6000_asm_weaken_decl): Don't explicitly add [DS].
Checking for an osc break is somewhat brittle especially with many
passes potentially introducing new insns and moving them around.
Therefore, only compile the test with -O1 -fschedule-insns in order
to limit the influence of other passes.
gcc/testsuite/ChangeLog:
* gcc.target/s390/oscbreak-1.c: Compile with -O1
-fschedule-insns
phiopt now has dominator queries but fails to compute dominance
info.
2021-05-04 Richard Biener <rguenther@suse.de>
PR tree-optimization/100414
* tree-ssa-phiopt.c (get_non_trapping): Do not compute dominance
info here.
(tree_ssa_phiopt_worker): But unconditionally here.
* gcc.dg/pr100414.c: New testcase.
C/C++ permit logical AND and logical OR also with floating-point or complex
arguments by doing an unequal zero comparison; the result is an 'int' with
value one or zero. Hence, those are also permitted as reduction variable,
even though it is not the most sensible thing to do.
gcc/c/ChangeLog:
* c-typeck.c (c_finish_omp_clauses): Accept float + complex
for || and && reductions.
gcc/cp/ChangeLog:
* semantics.c (finish_omp_reduction_clause): Accept float + complex
for || and && reductions.
gcc/ChangeLog:
* omp-low.c (lower_rec_input_clauses, lower_reduction_clauses): Handle
&& and || with floating-point and complex arguments.
gcc/testsuite/ChangeLog:
* gcc.dg/gomp/clause-1.c: Use 'reduction(&:..)' instead of '...(&&:..)'.
libgomp/ChangeLog:
* testsuite/libgomp.c-c++-common/reduction-1.c: New test.
* testsuite/libgomp.c-c++-common/reduction-2.c: New test.
* testsuite/libgomp.c-c++-common/reduction-3.c: New test.
This avoids errors outside the immediate context when std::visit is an
overload candidate because of ADL, but not actually viable.
The solution is to give std::visit a non-deduced return type. New
helpers are introduced for that, and existing ones refactored slightly.
libstdc++-v3/ChangeLog:
PR libstdc++/100384
* include/std/variant (__get_t): New alias template yielding the
return type of std::get<N> on a variant.
(__visit_result_t): New alias template yielding the result of
std::visit.
(__same_types): Move into namespace __detail::__variant.
(__check_visitor_results): Likewise. Use __invoke_result_t and
__get_t.
(__check_visitor_result): Remove.
(visit): Use __visit_result_t for return type.
* testsuite/20_util/variant/100384.cc: New test.
We don't need to decide whether to use __int128 when running configure,
we can do so at compilation time by seeing if __SIZEOF_INT128__ is
defined and if it's greater than __SIZEOF_LONG_LONG__.
This removes another unnecessary architecture-specific config macro in
<bits/c++config.h>, so the same header can work for 32-bit or 64-bit
compilation on AIX.
libstdc++-v3/ChangeLog:
* acinclude.m4 (GLIBCXX_ENABLE_INT128_FLOAT128): Remove
checks for __int128 and rename to GLIBCXX_ENABLE_FLOAT128.
* config.h.in: Regenerate.
* configure: Regenerate.
* configure.ac: Adjust to use GLIBCXX_ENABLE_FLOAT128.
* include/bits/random.h (_Select_uint_least_t<s, 1>):
Use __SIZEOF_INT128__ to decide whether to use __int128.
* include/std/charconv (__to_chars_unsigned_type): Likewise.
When a call to a function is inlined and takes a parameter whose type is not
gimple_reg, a local variable is created in the caller to hold a copy of the
argument passed in the call with the following comment:
/* We may produce non-gimple trees by adding NOPs or introduce
invalid sharing when operand is not really constant.
It is not big deal to prohibit constant propagation here as
we will constant propagate in DOM1 pass anyway. *
Of course the second sentence of the comment does not apply to non-gimple_reg
values, unless they get SRAed later, because we don't do constant propagation
for them. This for example prevents two identical calls to a pure function
from being merged in the attached Ada testcase.
Therefore the attached patch attempts to reuse a read-only or non-addressable
local DECL of the caller, the hitch being that expand_call_inline needs to be
prevented from creating a CLOBBER for the case where it ends uo being reused.
gcc/
* tree-inline.c (insert_debug_decl_map): Delete.
(copy_debug_stmt): Minor tweak.
(setup_one_parameter): Do not use a variable if the value is either
a read-only DECL or a non-addressable local variable in the caller.
In this case, insert the debug-only variable in the map manually.
(expand_call_inline): Do not generate a CLOBBER for these values.
* tree-inline.h (debug_map): Minor tweak.
The test for the presence of variables (really symbols) does not work
when you add -Ox -flto to CFLAGS:
for v in $vars; do
AC_MSG_CHECKING([for $v])
AC_CACHE_VAL(libiberty_cv_var_$v,
[AC_LINK_IFELSE([AC_LANG_PROGRAM([[int *p;]],[[extern int $v [];
p = $v;]])],
[eval "libiberty_cv_var_$v=yes"],
[eval "libiberty_cv_var_$v=no"])])
if eval "test \"`echo '$libiberty_cv_var_'$v`\" = yes"; then
AC_MSG_RESULT(yes)
AC_DEFINE_UNQUOTED($n)
else
AC_MSG_RESULT(no)
fi
done
because the assignment to 'p' is optimized away by LTO. This is visible
on MinGW platforms in the form of a link failure for sys_siglist.
There is another link failures for stpcpy: the symbol is both referenced
by libiberty's pex-win32.c and provided by libiberty's stpcpy.c, so it
needs to have a linkage to be resolved in LTO mode.
libiberty/
* configure.ac: Make test for variables more robust.
* configure: Regenerate.
gcc/
* builtins.c (builtin_with_linkage_p): Return true for stp[n]cpy.
* symtab.c (symtab_node::output_to_lto_symbol_table_p): Tidy up.
This restricts the testcase to the target where it exposes the
situation fixed with g:e9d297a15d68121ba5bdd5a76ea71c1916180622
which targets BIT_FIELD_REFs created by fold_truth_andor.
This avoids strange dejagnu limits with overly long target lists
and simplifies the tests.
2021-05-04 Richard Biener <rguenther@suse.de>
* gcc.dg/tree-ssa/ssa-dse-26.c: Skip on !lp64 targets,
simplify dump scanning down to one case.
This avoids reassociating asm goto defs because we have no idea
on which outgoing edge to insert defs.
2021-05-04 Richard Biener <rguenther@suse.de>
PR tree-optimization/100329
* tree-ssa-reassoc.c (can_reassociate_p): Do not reassociate
asm goto defs.
(insert_stmt_after): Assert we're not running into asm goto.
* gcc.dg/torture/pr100329.c: New testcase.
The following makes sure to preserve control altering stmts
when removing trivially dead stmts in DSE.
2021-05-04 Richard Biener <rguenther@suse.de>
PR tree-optimization/100398
* tree-ssa-dse.c (pass_dse::execute): Preserve control
altering stmts.
* gcc.dg/torture/pr100398.c: New testcase.
gcc/ada/
* lib-xref.adb (Generate_Reference_To_Formals): Remove dedicated
branch for generic subprograms (they are now handled together
with non-generic subprograms in the ELSE branch); replace a
low-level Ekind membership test with a high-level call to
Is_Access_Subprogram_Type.
gcc/ada/
* sem_prag.ads (Collect_Subprogram_Inputs_Outputs): Update
comment; this routine is no longer used by GNATprove.
* sem_prag.adb (Find_Role): The IN parameter is on output only
when it belongs to non-function; also, the otherwise constant
object can only be written by a non-function.
(Collect_Global_Item): The IN parameter can only be written when
it belongs to non-function; also, unnest this check to make it
easier to read.
gcc/ada/
* libgnat/s-assert.ads (Assert_Failure): Now a renaming of
Assertion_Error.
* libgnat/a-assert.ads (Assertion_Error): Now a first class
citizen. Remove dependency on System.Assertions.
* gcc-interface/a-assert.ads, gcc-interface/a-assert.adb: New.
* gcc-interface/Make-lang.in (GNAT_ADA_OBJS, GNATBIND_OBJS): Add
a-assert.o from gcc-interface.