Given my patch
<https://gcc.gnu.org/ml/gcc-patches/2017-08/msg00965.html> for the
ICEs building a glibc string function test for SH, the testsuite can
build completely for SH with GCC 7 and mainline. However, there is a
test failure that does not appear for GCC 6: check-localplt fails
because of an abort PLT reference in libc.so.
Given the lack of a trap insn pattern for SH, it seems unavoidable
that the compiler might sometimes generate abort calls, and such abort
calls (generated from __builtin_trap when there is no trap insn
pattern) will be unaffected by the normal mapping to __GI_abort for
calls within glibc. Thus, this patch allows (but does not require) an
abort PLT reference in libc.so for SH.
Tested for sh4-linux-gnu with build-many-glibcs.py (GCC 7, with my
patch applied).
* sysdeps/unix/sysv/linux/sh/localplt.data: Allow abort in
libc.so.
sysdeps/x86_64/fpu/e_expf.S has
lea L(SP_RANGE)(%rip), %rdx /* load over/underflow bound */
cmpl (%rdx,%rax,4), %ecx /* |x|<under/overflow bound ? */
...
/* Here if |x| is Inf */
lea L(SP_INF_0)(%rip), %rdx /* depending on sign of x: */
movss (%rdx,%rax,4), %xmm0 /* return zero or Inf */
ret
...
.section .rodata.cst8,"aM",@progbits,8
...
.p2align 2
L(SP_RANGE): /* single precision overflow/underflow bounds */
.long 0x42b17217 /* if x>this bound, then result overflows */
.long 0x42cff1b4 /* if x<this bound, then result underflows */
.type L(SP_RANGE), @object
ASM_SIZE_DIRECTIVE(L(SP_RANGE))
.p2align 2
L(SP_INF_0):
.long 0x7f800000 /* single precision Inf */
.long 0 /* single precision zero */
.type L(SP_INF_0), @object
ASM_SIZE_DIRECTIVE(L(SP_INF_0))
Since L(SP_RANGE) and L(SP_INF_0) are in .rodata.cst8 section, they must
be aligned to 8 bytes.
[BZ #21955]
* sysdeps/x86_64/fpu/e_expf.S (L(SP_RANGE)): Aligned to 8 bytes.
(L(SP_INF_0)): Likewise.
__mcount_internal is called from assembler code. Use an explicit
regparm attribute to pass both arguments in registers, to match what
used to happen with internal_function before commit
fbdc1e3e8d (i386: Do not set
internal_function).
The new IBM z14 is added to platform string array.
The macro _DL_PLATFORMS_COUNT is incremented.
ChangeLog:
* sysdeps/s390/dl-procinfo.c (_dl_s390_cap_flags): Add z14.
* sysdeps/s390/dl-procinfo.h (_DL_PLATFORMS_COUNT): Increased.
[BZ #14925]
* locales/bn_BD (LC_IDENTIFICATION): Change language name in
“title” and “language” from Bengali to Bangla.
* locales/bn_IN (LC_IDENTIFICATION): Likewise.
The custom stuff which was in LC_CTYPE of the km_KH locale seems
to be a very incomplete subset of what one gets by using
“copy "i18n"”. I cannot find anything special there which is not
in “copy "i18n"”, only lots of stuff which is missing.
[BZ #20008]
* locales/km_KH (LC_CTYPE): Use “copy "i18n"”.
This patch corrects the conform/ expectations for sys/wait.h not to
expect si_value for XPG4.2.
Tested for x86_64.
* conform/data/sys/wait.h-data (si_value): Do not expect for
XPG42.
Commit 384ca55174 from 2007 added this to
nss/XXX-lookup.c:
+#ifndef NO_COMPAT
+int
+internal_function attribute_compat_text_section
+DB_COMPAT_FCT (service_user **ni, const char *fct_name, void **fctp)
+{
+ return DB_LOOKUP_FCT (ni, fct_name, NULL, fctp);
+}
+#endif
That is, it adds a pseudo-compat function with an internal_function
attribute. The function it was supposed to replace did not have the
attribute:
extern int DB_LOOKUP_FCT (service_user **ni, const char *fct_name,
- void **fctp) internal_function;
+ const char *fct2_name, void **fctp)
+ internal_function;
This changed the calling convention on i386 for the following
functions in the public ABI:
__nss_passwd_lookup
__nss_group_lookup
__nss_hosts_lookup
This commit replaces the functions with always-failing stubs,
with true compat symbols. Due to a happy accident, the calling
convention of the stub is identical for the internal_function
and non-internal_function case on i386.
In addition, this commit auto-generates the __nss_*_lookup2
function declarations as part of <nsswitch.h>.
[BZ #20482]
* locales/de_AT (LC_TIME): Use 2 letter abbreviations in abday.
* locales/de_BE (LC_TIME): Use 2 letter abbreviations in abday.
* locales/de_CH (LC_TIME): Use 2 letter abbreviations in abday.
* locales/de_DE (LC_TIME): Use readable ASCII in abday.
* locales/de_IT (LC_TIME): Use readable ASCII in abday.
* locales/de_LU (LC_TIME): Use 2 letter abbreviations in abday.
Default semantic for mmap2 syscall is to take the offset in 4096-byte
units. However m68k and ia64 mmap2 implementation take in the
configured pageunit units and for both architecture it can be
different values.
This patch fixes the m68k runtime discover of mmap2 offset unit
and adds the ia64 definition to find it at runtime.
Checked the basic tst-mmap and tst-mmap-offset on m68k (the system
is configured with 4k, so current code is already passing on this
system) and a sanity check on x86_64-linux-gnu (which should not be
affected by this change). Sergei also states that ia64 loader now
work correctly with this change.
Adhemerval Zanella <adhemerval.zanella@linaro.org>
Sergei Trofimovich <slyfox@inbox.ru>
* sysdeps/unix/sysv/linux/m68k/mmap_internal.h (MMAP2_PAGE_SHIFT):
Rename to MMAP2_PAGE_UNIT.
* sysdeps/unix/sysv/linux/mmap.c: Include mmap_internal iff
__OFF_T_MATCHES_OFF64_T is not defined.
* sysdeps/unix/sysv/linux/mmap_internal.h (page_unit): Declare as
uint64_t.
(MMAP2_PAGE_UNIT) [MMAP2_PAGE_UNIT == -1]: Redefine to page_unit.
(page_unit) [MMAP2_PAGE_UNIT != -1]: Remove definition.
All calls to functions with the internal_function attribute
have been removed from assembler implementations, which means that
the definition of internal_function can be changed at the C level
without causing ABI issues with assembler code.
_dl_fixup still uses a regparm calling convention on i386, but this
is controlled through ARCH_FIXUP_ATTRIBUTE, not internal_function.
Assembler code passes the address of _dl_fini to __libc_start_main,
whose function pointer argument lacks the attribute. This means
that calls could use the wrong ABI. Fortunately, for zero-parameter
void-returning functions, internal_function does not change ABI
on i386 (the only architecture which uses internal_function), so
this inconsistency was harmless (which is why it had not been
noticed so far).
See also [BZ #20756].
U+202F NARROW NO-BREAK SPACE: a narrow form of a no-break space,
typically the width of a thin space or a mid space.
U+2009 THIN SPACE.
Many languages use small gap as thousands separator.
Thousands separator should not be a plain space, but a narrow space.
And additionally, it is not allowed to wrap line in the middle of the
number.
Locale data were created in a deep age of 8-bit encodings, so most of
them use space (incorrect: it allows wrapping the line in the middle
of the number), or NBSP (better, but typographically incorrect: space
between groups is too wide).
Now UNICODE is widely supported, so we should leave legacy characters
in favor of correct UNICODE character.
UNICODE has a dedicated character for this purpose:
NNBSP
U+202F NARROW NO-BREAK SPACE: a narrow form of a no-break space,
typically the width of a thin space or a mid space
The NNBSP exists since Unicode 3.0.
Use of NNBSP will prevent line wrapping in the midle of number and
improve readability of numbers.
[BZ #20756]
* locales/aa_DJ (LC_MONETARY): Replace space by NNBSP as thousands separator.
* locales/az_AZ (LC_MONETARY): Likewise.
* locales/be_BY (LC_MONETARY): Likewise.
* locales/be_BY@latin (LC_MONETARY): Likewise.
* locales/bg_BG (LC_MONETARY): Likewise.
* locales/bs_BA (LC_MONETARY): Likewise.
* locales/ce_RU (LC_MONETARY): Likewise.
* locales/crh_UA (LC_MONETARY): Likewise.
* locales/cs_CZ (LC_MONETARY): Likewise.
* locales/cs_CZ (LC_NUMERIC): Likewise.
* locales/cv_RU (LC_MONETARY): Likewise.
* locales/de_AT (LC_MONETARY): Likewise.
* locales/eo (LC_MONETARY): Likewise.
* locales/es_CR (LC_MONETARY): Likewise.
* locales/es_CR (LC_NUMERIC): Likewise.
* locales/es_CU (LC_MONETARY): Likewise.
* locales/et_EE (LC_MONETARY): Likewise.
* locales/et_EE (LC_NUMERIC): Likewise.
* locales/fi_FI (LC_MONETARY): Likewise.
* locales/fi_FI (LC_NUMERIC): Likewise.
* locales/fr_CA (LC_MONETARY): Likewise.
* locales/fr_FR (LC_MONETARY): Likewise.
* locales/fr_FR (LC_NUMERIC): Likewise.
* locales/fr_LU (LC_MONETARY): Likewise.
* locales/fr_LU (LC_NUMERIC): Likewise.
* locales/hr_HR (LC_MONETARY): Likewise.
* locales/ht_HT (LC_NUMERIC): Likewise.
* locales/kk_KZ (LC_MONETARY): Likewise.
* locales/kk_KZ (LC_NUMERIC): Likewise.
* locales/ky_KG (LC_MONETARY): Likewise.
* locales/ky_KG (LC_NUMERIC): Likewise.
* locales/lv_LV (LC_MONETARY): Likewise.
* locales/lv_LV (LC_NUMERIC): Likewise.
* locales/mg_MG (LC_MONETARY): Likewise.
* locales/mhr_RU (LC_MONETARY): Likewise.
* locales/mk_MK (LC_MONETARY): Likewise.
* locales/mk_MK (LC_NUMERIC): Likewise.
* locales/mn_MN (LC_MONETARY): Likewise.
* locales/nb_NO (LC_MONETARY): Likewise.
* locales/nb_NO (LC_NUMERIC): Likewise.
* locales/nl_AW (LC_MONETARY): Likewise.
* locales/nl_NL (LC_MONETARY): Likewise.
* locales/nn_NO (LC_MONETARY): Likewise.
* locales/os_RU (LC_MONETARY): Likewise.
* locales/pap_AW (LC_MONETARY): Likewise.
* locales/pap_CW (LC_MONETARY): Likewise.
* locales/ru_RU (LC_MONETARY): Likewise.
* locales/ru_RU (LC_NUMERIC): Likewise.
* locales/ru_UA (LC_MONETARY): Likewise.
* locales/sk_SK (LC_MONETARY): Likewise.
* locales/sk_SK (LC_NUMERIC): Likewise.
* locales/sl_SI (LC_MONETARY): Likewise.
* locales/sl_SI (LC_NUMERIC): Likewise.
* locales/sq_MK (LC_MONETARY): Likewise.
* locales/sv_SE (LC_MONETARY): Likewise.
* locales/sv_SE (LC_NUMERIC): Likewise.
* locales/tg_TJ (LC_MONETARY): Likewise.
* locales/tt_RU (LC_MONETARY): Likewise.
* locales/tt_RU@iqtelif (LC_MONETARY): Likewise.
* locales/uk_UA (LC_MONETARY): Likewise.
* locales/uk_UA (LC_NUMERIC): Likewise.
* locales/unm_US (LC_MONETARY): Likewise.
* locales/unm_US (LC_NUMERIC): Likewise.
* locales/wo_SN (LC_MONETARY): Likewise.
Make the memmove benchmarks (bench-memmove and bench-memmove-large)
print their output in JSON so that they can be evaluated using the
compare_strings.py script.
* benchtests/bench-memmove-large.c: Print output in JSON
format.
* benchtests/bench-memmove.c: Likewise.
The test run is unnecessary and interferes with the benchmark. The
tests are done during make check, so they're unnecessary here.
* benchtests/bench-memccpy.c (do_one_test): Remove checks.
* benchtests/bench-memchr.c (do_one_test): Likewise.
* benchtests/bench-memcpy-large.c (do_one_test): Likewise.
* benchtests/bench-memcpy.c (do_one_test): Likewise.
* benchtests/bench-memmove-large.c (do_one_test): Likewise.
* benchtests/bench-memmove.c (do_one_test): Likewise.
* benchtests/bench-memset-large.c (do_one_test): Likewise.
* benchtests/bench-memset.c (do_one_test): Likewise.
* benchtests/bench-string.h (test_init): Remove memsets.
The manual contradicted itself by saying the number of bits in an
integer type needed to be computed, and then listing a number of
macros that later standards provided for exactly that. The entire
section has been reworked to provide those macros first, while
preserving the documentation of CHAR_BIT and the associated examples
within that context.
* manual/lang.texi
(Computing the Width of an Integer Data Type): Rename section
to "Width of an Integer Type". Remove inaccurate statement
regarding lack of C language facilities for determining width
of integer types, and reorder content to improve flow and
context of discussion.
The ISO version in which va_copy was introduced is made explicit, and
__va_copy is given @standards. The description is updated to be more
clear about the origins of each macro, and the reader is informed
these macros are now provided by the compiler (information previously
embedded in a Texinfo @comment).
* lang.texi (va_copy): Change standard from ISO to C99.
(__va_copy): Add standard and header annotation.
Update description for clarity of origins and current use.
POWER ISA 3.0 introduces the xssqrtqp instructions, which expects
operands to be in Vector Registers (Altivec/VMX), even though this
instruction belongs to the Vector-Scalar Instruction Set.
In GCC's Extended Assembly for POWER, the 'wq' register constraint is
provided for use with IEEE 754 128-bit floating-point values. However,
this constraint does not limit the register allocation to Vector
Registers (Altivec/VMX) and could assign a Vector-Scalar Register (VSX)
to the operands of the instruction.
This patch changes the register constraint used in sqrtf128 from 'wq' to
'v', in order to request a Vector Register (Altivec/VMX) for use with
the xssqrtqp instruction.
Tested for powerpc64le and --with-cpu=power9.
[BZ #21941]
* sysdeps/powerpc/fpu/math_private.h (__ieee754_sqrtf128): Since
xssqrtqp requires operands to be in Vector Registers
(Altivec/VMX), replace the register constraint 'wq' with 'v'.
* sysdeps/powerpc/powerpc64le/power9/fpu/e_sqrtf128.c
(__ieee754_sqrtf128): Likewise.
This is an optimized memcmp for AArch64. This is a complete rewrite
using a different algorithm. The previous version split into cases
where both inputs were aligned, the inputs were mutually aligned and
unaligned using a byte loop. The new version combines all these cases,
while small inputs of less than 8 bytes are handled separately.
This allows the main code to be sped up using unaligned loads since
there are now at least 8 bytes to be compared. After the first 8 bytes,
align the first input. This ensures each iteration does at most one
unaligned access and mutually aligned inputs behave as aligned.
After the main loop, process the last 8 bytes using unaligned accesses.
This improves performance of (mutually) aligned cases by 25% and
unaligned by >500% (yes >6 times faster) on large inputs.
* sysdeps/aarch64/memcmp.S (memcmp):
Rewrite of optimized memcmp.
This commit separates allocating and raising exceptions. This
simplifies catching and re-raising them because it is no longer
necessary to make a temporary, on-stack copy of the exception message.
The hidden attribute was overridden by libc_hidden_proto on GNU/Linux.
It is incorrect because the function is used from nscd.
internal_function is not supposed to be used across DSO boundaries,
so this commit removes it (again, due to the use in nscd).
The test cases should expose non-standard grouping and the trailing
space after the currency sign. After the changes to the Indian
monetary formatting, the Indian formatting still shows the
non-standard grouping. To test the trailing space after the currency
sign I chose the hr_HR locale.
See:
commit 82b3124268bec0609b337dd993e771c93e44cbf2
Author: Akhilesh Kumar <akhilesh.k@samsung.com>
Remove redundant data for LC_MONETARY for Indian locales
[BZ #17563]
[BZ #16905]
* locales/cmn_TW (LC_COLLATE): Use cns11643_stroke file for sorting.
* locales/cmn_TW (LC_TIME): Improve time and date formats.
* locales/cmn_TW (LC_MESSAGES): Add yesstr and nostr.
* locales/cns11643_stroke: New file, stroke count collation for
traditional Chinese.