diff options
author | jakub <jakub@138bc75d-0d04-0410-961f-82ee72b054a4> | 2011-02-17 19:57:18 +0000 |
---|---|---|
committer | jakub <jakub@138bc75d-0d04-0410-961f-82ee72b054a4> | 2011-02-17 19:57:18 +0000 |
commit | abb2a4bd504c9958ac546e455e43edd369f9a885 (patch) | |
tree | b5a17c88786cf39ebb208a8d2d138097c0866b3e /libquadmath | |
parent | 455188e991d39c980b400395b19b30db229c20eb (diff) | |
download | gcc-abb2a4bd504c9958ac546e455e43edd369f9a885.tar.gz |
* libquadmath.texi (FLT128_DIG, FLT128_MIN_10_EXP,
FLT128_MAX_10_EXP): Document.
(strtoflt128): Remove obsolete comment.
* configure.ac (HAVE_STRTOULL): New check.
* printf/gmp-impl.h (mpn_construct_float128): New prototype,
define.
* printf/mul_n.c: Include <config.h>.
* printf/add_n.c: Likewise.
* printf/cmp.c: Likewise.
* printf/fpioconst.c: Likewise.
* printf/mul_1.c: Likewise.
* printf/rshift.c: Likewise.
* printf/lshift.c: Likewise.
* printf/submul_1.c: Likewise.
* printf/sub_n.c: Likewise.
* printf/divrem.c: Likewise.
* printf/addmul_1.c: Likewise.
* printf/mul.c: Likewise.
* printf/quadmath-printf.h (isupper, isdigit, tolower): Change
to avoid evaluating argument multiple times.
(isxdigit): Redefine.
* strtod/strtoflt128.c: New file.
* strtod/strtod_l.c: New file.
* strtod/mpn2flt128.c: New file.
* strtod/grouping.h: New file.
* strtod/tens_in_limb.c: New file.
* gdtoa/arith.h: Removed.
* gdtoa/gd_qnan.h: Removed.
* gdtoa/gdtoa_fltrnds.h: Removed.
* gdtoa/gdtoa.h: Removed.
* gdtoa/gdtoaimp.h: Removed.
* gdtoa/gethex.c: Removed.
* gdtoa/gmisc.c: Removed.
* gdtoa/hd_init.c: Removed.
* gdtoa/hexnan.c: Removed.
* gdtoa/makefile: Removed.
* gdtoa/misc.c: Removed.
* gdtoa/README.gdtoa: Removed.
* gdtoa/smisc.c: Removed.
* gdtoa/strtodg.c: Removed.
* gdtoa/strtopQ.c: Removed.
* gdtoa/sum.c: Removed.
* quadmath.h (FLT128_DIG, FLT128_MIN_10_EXP, FLT128_MAX_10_EXP):
Define.
* Makefile.am (libquadmath_la_SOURCES): Remove gdtoa/*, add
strtod/strtoflt128.c, strtod/mpn2flt128.c and strtod/tens_in_limb.c.
* config.h.in: Regenerated.
* configure: Regenerated.
* Makefile.in: Regenerated.
git-svn-id: svn+ssh://gcc.gnu.org/svn/gcc/trunk@170254 138bc75d-0d04-0410-961f-82ee72b054a4
Diffstat (limited to 'libquadmath')
43 files changed, 1919 insertions, 4319 deletions
diff --git a/libquadmath/ChangeLog b/libquadmath/ChangeLog index b8706ae676a..fe1dfed0daa 100644 --- a/libquadmath/ChangeLog +++ b/libquadmath/ChangeLog @@ -1,3 +1,55 @@ +2011-02-17 Jakub Jelinek <jakub@redhat.com> + + * libquadmath.texi (FLT128_DIG, FLT128_MIN_10_EXP, + FLT128_MAX_10_EXP): Document. + (strtoflt128): Remove obsolete comment. + * configure.ac (HAVE_STRTOULL): New check. + * printf/gmp-impl.h (mpn_construct_float128): New prototype, + define. + * printf/mul_n.c: Include <config.h>. + * printf/add_n.c: Likewise. + * printf/cmp.c: Likewise. + * printf/fpioconst.c: Likewise. + * printf/mul_1.c: Likewise. + * printf/rshift.c: Likewise. + * printf/lshift.c: Likewise. + * printf/submul_1.c: Likewise. + * printf/sub_n.c: Likewise. + * printf/divrem.c: Likewise. + * printf/addmul_1.c: Likewise. + * printf/mul.c: Likewise. + * printf/quadmath-printf.h (isupper, isdigit, tolower): Change + to avoid evaluating argument multiple times. + (isxdigit): Redefine. + * strtod/strtoflt128.c: New file. + * strtod/strtod_l.c: New file. + * strtod/mpn2flt128.c: New file. + * strtod/grouping.h: New file. + * strtod/tens_in_limb.c: New file. + * gdtoa/arith.h: Removed. + * gdtoa/gd_qnan.h: Removed. + * gdtoa/gdtoa_fltrnds.h: Removed. + * gdtoa/gdtoa.h: Removed. + * gdtoa/gdtoaimp.h: Removed. + * gdtoa/gethex.c: Removed. + * gdtoa/gmisc.c: Removed. + * gdtoa/hd_init.c: Removed. + * gdtoa/hexnan.c: Removed. + * gdtoa/makefile: Removed. + * gdtoa/misc.c: Removed. + * gdtoa/README.gdtoa: Removed. + * gdtoa/smisc.c: Removed. + * gdtoa/strtodg.c: Removed. + * gdtoa/strtopQ.c: Removed. + * gdtoa/sum.c: Removed. + * quadmath.h (FLT128_DIG, FLT128_MIN_10_EXP, FLT128_MAX_10_EXP): + Define. + * Makefile.am (libquadmath_la_SOURCES): Remove gdtoa/*, add + strtod/strtoflt128.c, strtod/mpn2flt128.c and strtod/tens_in_limb.c. + * config.h.in: Regenerated. + * configure: Regenerated. + * Makefile.in: Regenerated. + 2011-02-16 Jakub Jelinek <jakub@redhat.com> * printf/quadmath-printf.c: Also check __GLIBC__ when checking diff --git a/libquadmath/Makefile.am b/libquadmath/Makefile.am index 411720d64cc..d8dc2c39435 100644 --- a/libquadmath/Makefile.am +++ b/libquadmath/Makefile.am @@ -43,11 +43,6 @@ nodist_libsubinclude_HEADERS = quadmath.h quadmath_weak.h libsubincludedir = $(libdir)/gcc/$(target_alias)/$(gcc_version)/include libquadmath_la_SOURCES = \ - gdtoa/arith.h gdtoa/gdtoa_fltrnds.h gdtoa/gd_qnan.h gdtoa/gdtoaimp.h \ - gdtoa/gdtoa.h quadmath-imp.h \ - gdtoa/hd_init.c gdtoa/smisc.c gdtoa/sum.c \ - gdtoa/gethex.c gdtoa/hexnan.c gdtoa/strtodg.c \ - gdtoa/gmisc.c gdtoa/misc.c gdtoa/strtopQ.c \ math/acoshq.c math/fmodq.c math/acosq.c math/frexpq.c \ math/rem_pio2q.c math/asinhq.c math/hypotq.c math/remainderq.c \ math/asinq.c math/rintq.c math/atan2q.c math/isinfq.c \ @@ -68,7 +63,8 @@ libquadmath_la_SOURCES = \ printf/addmul_1.c printf/add_n.c printf/cmp.c printf/divrem.c \ printf/flt1282mpn.c printf/fpioconst.c printf/lshift.c printf/mul_1.c \ printf/mul_n.c printf/mul.c printf/printf_fphex.c printf/printf_fp.c \ - printf/quadmath-printf.c printf/rshift.c printf/submul_1.c printf/sub_n.c + printf/quadmath-printf.c printf/rshift.c printf/submul_1.c printf/sub_n.c \ + strtod/strtoflt128.c strtod/mpn2flt128.c strtod/tens_in_limb.c # Work around what appears to be a GNU make bug handling MAKEFLAGS diff --git a/libquadmath/Makefile.in b/libquadmath/Makefile.in index a70179ddc8f..6bf7c11388e 100644 --- a/libquadmath/Makefile.in +++ b/libquadmath/Makefile.in @@ -87,59 +87,57 @@ am__installdirs = "$(DESTDIR)$(toolexeclibdir)" "$(DESTDIR)$(infodir)" \ "$(DESTDIR)$(libsubincludedir)" LTLIBRARIES = $(toolexeclib_LTLIBRARIES) am__dirstamp = $(am__leading_dot)dirstamp -@BUILD_LIBQUADMATH_TRUE@am_libquadmath_la_OBJECTS = gdtoa/hd_init.lo \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/smisc.lo gdtoa/sum.lo \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/gethex.lo gdtoa/hexnan.lo \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/strtodg.lo gdtoa/gmisc.lo \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/misc.lo gdtoa/strtopQ.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/acoshq.lo math/fmodq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/acosq.lo math/frexpq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/rem_pio2q.lo math/asinhq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/hypotq.lo math/remainderq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/asinq.lo math/rintq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/atan2q.lo math/isinfq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/roundq.lo math/atanhq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/isnanq.lo math/scalblnq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/atanq.lo math/j0q.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/scalbnq.lo math/cbrtq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/j1q.lo math/signbitq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/ceilq.lo math/jnq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/sincos_table.lo math/complex.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/ldexpq.lo math/sincosq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/copysignq.lo math/lgammaq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/sincosq_kernel.lo math/coshq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/llroundq.lo math/sinhq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/cosq.lo math/log10q.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/sinq.lo math/cosq_kernel.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/log1pq.lo math/sinq_kernel.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/erfq.lo math/logq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/sqrtq.lo math/expm1q.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/lroundq.lo math/tanhq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/expq.lo math/modfq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/tanq.lo math/fabsq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/nanq.lo math/tgammaq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/finiteq.lo math/nextafterq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/truncq.lo math/floorq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/powq.lo math/fmaq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/cacoshq.lo math/cacosq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/casinhq.lo math/casinq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/catanhq.lo math/catanq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/cimagq.lo math/conjq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/cprojq.lo math/crealq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/fdimq.lo math/fmaxq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/fminq.lo math/ilogbq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/llrintq.lo math/log2q.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/lrintq.lo math/nearbyintq.lo \ -@BUILD_LIBQUADMATH_TRUE@ math/remquoq.lo printf/addmul_1.lo \ -@BUILD_LIBQUADMATH_TRUE@ printf/add_n.lo printf/cmp.lo \ -@BUILD_LIBQUADMATH_TRUE@ printf/divrem.lo printf/flt1282mpn.lo \ +@BUILD_LIBQUADMATH_TRUE@am_libquadmath_la_OBJECTS = math/acoshq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/fmodq.lo math/acosq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/frexpq.lo math/rem_pio2q.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/asinhq.lo math/hypotq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/remainderq.lo math/asinq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/rintq.lo math/atan2q.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/isinfq.lo math/roundq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/atanhq.lo math/isnanq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/scalblnq.lo math/atanq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/j0q.lo math/scalbnq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/cbrtq.lo math/j1q.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/signbitq.lo math/ceilq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/jnq.lo math/sincos_table.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/complex.lo math/ldexpq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/sincosq.lo math/copysignq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/lgammaq.lo math/sincosq_kernel.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/coshq.lo math/llroundq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/sinhq.lo math/cosq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/log10q.lo math/sinq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/cosq_kernel.lo math/log1pq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/sinq_kernel.lo math/erfq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/logq.lo math/sqrtq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/expm1q.lo math/lroundq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/tanhq.lo math/expq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/modfq.lo math/tanq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/fabsq.lo math/nanq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/tgammaq.lo math/finiteq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/nextafterq.lo math/truncq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/floorq.lo math/powq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/fmaq.lo math/cacoshq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/cacosq.lo math/casinhq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/casinq.lo math/catanhq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/catanq.lo math/cimagq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/conjq.lo math/cprojq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/crealq.lo math/fdimq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/fmaxq.lo math/fminq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/ilogbq.lo math/llrintq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/log2q.lo math/lrintq.lo \ +@BUILD_LIBQUADMATH_TRUE@ math/nearbyintq.lo math/remquoq.lo \ +@BUILD_LIBQUADMATH_TRUE@ printf/addmul_1.lo printf/add_n.lo \ +@BUILD_LIBQUADMATH_TRUE@ printf/cmp.lo printf/divrem.lo \ +@BUILD_LIBQUADMATH_TRUE@ printf/flt1282mpn.lo \ @BUILD_LIBQUADMATH_TRUE@ printf/fpioconst.lo printf/lshift.lo \ @BUILD_LIBQUADMATH_TRUE@ printf/mul_1.lo printf/mul_n.lo \ @BUILD_LIBQUADMATH_TRUE@ printf/mul.lo printf/printf_fphex.lo \ @BUILD_LIBQUADMATH_TRUE@ printf/printf_fp.lo \ @BUILD_LIBQUADMATH_TRUE@ printf/quadmath-printf.lo \ @BUILD_LIBQUADMATH_TRUE@ printf/rshift.lo printf/submul_1.lo \ -@BUILD_LIBQUADMATH_TRUE@ printf/sub_n.lo +@BUILD_LIBQUADMATH_TRUE@ printf/sub_n.lo strtod/strtoflt128.lo \ +@BUILD_LIBQUADMATH_TRUE@ strtod/mpn2flt128.lo \ +@BUILD_LIBQUADMATH_TRUE@ strtod/tens_in_limb.lo libquadmath_la_OBJECTS = $(am_libquadmath_la_OBJECTS) libquadmath_la_LINK = $(LIBTOOL) --tag=CC $(AM_LIBTOOLFLAGS) \ $(LIBTOOLFLAGS) --mode=link $(CCLD) $(AM_CFLAGS) $(CFLAGS) \ @@ -323,11 +321,6 @@ AUTOMAKE_OPTIONS = 1.8 foreign @BUILD_LIBQUADMATH_TRUE@nodist_libsubinclude_HEADERS = quadmath.h quadmath_weak.h @BUILD_LIBQUADMATH_TRUE@libsubincludedir = $(libdir)/gcc/$(target_alias)/$(gcc_version)/include @BUILD_LIBQUADMATH_TRUE@libquadmath_la_SOURCES = \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/arith.h gdtoa/gdtoa_fltrnds.h gdtoa/gd_qnan.h gdtoa/gdtoaimp.h \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/gdtoa.h quadmath-imp.h \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/hd_init.c gdtoa/smisc.c gdtoa/sum.c \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/gethex.c gdtoa/hexnan.c gdtoa/strtodg.c \ -@BUILD_LIBQUADMATH_TRUE@ gdtoa/gmisc.c gdtoa/misc.c gdtoa/strtopQ.c \ @BUILD_LIBQUADMATH_TRUE@ math/acoshq.c math/fmodq.c math/acosq.c math/frexpq.c \ @BUILD_LIBQUADMATH_TRUE@ math/rem_pio2q.c math/asinhq.c math/hypotq.c math/remainderq.c \ @BUILD_LIBQUADMATH_TRUE@ math/asinq.c math/rintq.c math/atan2q.c math/isinfq.c \ @@ -348,7 +341,8 @@ AUTOMAKE_OPTIONS = 1.8 foreign @BUILD_LIBQUADMATH_TRUE@ printf/addmul_1.c printf/add_n.c printf/cmp.c printf/divrem.c \ @BUILD_LIBQUADMATH_TRUE@ printf/flt1282mpn.c printf/fpioconst.c printf/lshift.c printf/mul_1.c \ @BUILD_LIBQUADMATH_TRUE@ printf/mul_n.c printf/mul.c printf/printf_fphex.c printf/printf_fp.c \ -@BUILD_LIBQUADMATH_TRUE@ printf/quadmath-printf.c printf/rshift.c printf/submul_1.c printf/sub_n.c +@BUILD_LIBQUADMATH_TRUE@ printf/quadmath-printf.c printf/rshift.c printf/submul_1.c printf/sub_n.c \ +@BUILD_LIBQUADMATH_TRUE@ strtod/strtoflt128.c strtod/mpn2flt128.c strtod/tens_in_limb.c # Work around what appears to be a GNU make bug handling MAKEFLAGS @@ -501,24 +495,6 @@ clean-toolexeclibLTLIBRARIES: echo "rm -f \"$${dir}/so_locations\""; \ rm -f "$${dir}/so_locations"; \ done -gdtoa/$(am__dirstamp): - @$(MKDIR_P) gdtoa - @: > gdtoa/$(am__dirstamp) -gdtoa/$(DEPDIR)/$(am__dirstamp): - @$(MKDIR_P) gdtoa/$(DEPDIR) - @: > gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/hd_init.lo: gdtoa/$(am__dirstamp) \ - gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/smisc.lo: gdtoa/$(am__dirstamp) gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/sum.lo: gdtoa/$(am__dirstamp) gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/gethex.lo: gdtoa/$(am__dirstamp) gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/hexnan.lo: gdtoa/$(am__dirstamp) gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/strtodg.lo: gdtoa/$(am__dirstamp) \ - gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/gmisc.lo: gdtoa/$(am__dirstamp) gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/misc.lo: gdtoa/$(am__dirstamp) gdtoa/$(DEPDIR)/$(am__dirstamp) -gdtoa/strtopQ.lo: gdtoa/$(am__dirstamp) \ - gdtoa/$(DEPDIR)/$(am__dirstamp) math/$(am__dirstamp): @$(MKDIR_P) math @: > math/$(am__dirstamp) @@ -645,29 +621,23 @@ printf/submul_1.lo: printf/$(am__dirstamp) \ printf/$(DEPDIR)/$(am__dirstamp) printf/sub_n.lo: printf/$(am__dirstamp) \ printf/$(DEPDIR)/$(am__dirstamp) +strtod/$(am__dirstamp): + @$(MKDIR_P) strtod + @: > strtod/$(am__dirstamp) +strtod/$(DEPDIR)/$(am__dirstamp): + @$(MKDIR_P) strtod/$(DEPDIR) + @: > strtod/$(DEPDIR)/$(am__dirstamp) +strtod/strtoflt128.lo: strtod/$(am__dirstamp) \ + strtod/$(DEPDIR)/$(am__dirstamp) +strtod/mpn2flt128.lo: strtod/$(am__dirstamp) \ + strtod/$(DEPDIR)/$(am__dirstamp) +strtod/tens_in_limb.lo: strtod/$(am__dirstamp) \ + strtod/$(DEPDIR)/$(am__dirstamp) libquadmath.la: $(libquadmath_la_OBJECTS) $(libquadmath_la_DEPENDENCIES) $(libquadmath_la_LINK) $(am_libquadmath_la_rpath) $(libquadmath_la_OBJECTS) $(libquadmath_la_LIBADD) $(LIBS) mostlyclean-compile: -rm -f *.$(OBJEXT) - -rm -f gdtoa/gethex.$(OBJEXT) - -rm -f gdtoa/gethex.lo - -rm -f gdtoa/gmisc.$(OBJEXT) - -rm -f gdtoa/gmisc.lo - -rm -f gdtoa/hd_init.$(OBJEXT) - -rm -f gdtoa/hd_init.lo - -rm -f gdtoa/hexnan.$(OBJEXT) - -rm -f gdtoa/hexnan.lo - -rm -f gdtoa/misc.$(OBJEXT) - -rm -f gdtoa/misc.lo - -rm -f gdtoa/smisc.$(OBJEXT) - -rm -f gdtoa/smisc.lo - -rm -f gdtoa/strtodg.$(OBJEXT) - -rm -f gdtoa/strtodg.lo - -rm -f gdtoa/strtopQ.$(OBJEXT) - -rm -f gdtoa/strtopQ.lo - -rm -f gdtoa/sum.$(OBJEXT) - -rm -f gdtoa/sum.lo -rm -f math/acoshq.$(OBJEXT) -rm -f math/acoshq.lo -rm -f math/acosq.$(OBJEXT) @@ -854,19 +824,16 @@ mostlyclean-compile: -rm -f printf/sub_n.lo -rm -f printf/submul_1.$(OBJEXT) -rm -f printf/submul_1.lo + -rm -f strtod/mpn2flt128.$(OBJEXT) + -rm -f strtod/mpn2flt128.lo + -rm -f strtod/strtoflt128.$(OBJEXT) + -rm -f strtod/strtoflt128.lo + -rm -f strtod/tens_in_limb.$(OBJEXT) + -rm -f strtod/tens_in_limb.lo distclean-compile: -rm -f *.tab.c -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/gethex.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/gmisc.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/hd_init.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/hexnan.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/misc.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/smisc.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/strtodg.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/strtopQ.Plo@am__quote@ -@AMDEP_TRUE@@am__include@ @am__quote@gdtoa/$(DEPDIR)/sum.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@math/$(DEPDIR)/acoshq.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@math/$(DEPDIR)/acosq.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@math/$(DEPDIR)/asinhq.Plo@am__quote@ @@ -960,6 +927,9 @@ distclean-compile: @AMDEP_TRUE@@am__include@ @am__quote@printf/$(DEPDIR)/rshift.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@printf/$(DEPDIR)/sub_n.Plo@am__quote@ @AMDEP_TRUE@@am__include@ @am__quote@printf/$(DEPDIR)/submul_1.Plo@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@strtod/$(DEPDIR)/mpn2flt128.Plo@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@strtod/$(DEPDIR)/strtoflt128.Plo@am__quote@ +@AMDEP_TRUE@@am__include@ @am__quote@strtod/$(DEPDIR)/tens_in_limb.Plo@am__quote@ .c.o: @am__fastdepCC_TRUE@ depbase=`echo $@ | sed 's|[^/]*$$|$(DEPDIR)/&|;s|\.o$$||'`;\ @@ -990,9 +960,9 @@ mostlyclean-libtool: clean-libtool: -rm -rf .libs _libs - -rm -rf gdtoa/.libs gdtoa/_libs -rm -rf math/.libs math/_libs -rm -rf printf/.libs printf/_libs + -rm -rf strtod/.libs strtod/_libs distclean-libtool: -rm -f libtool config.lt @@ -1239,12 +1209,12 @@ clean-generic: distclean-generic: -test -z "$(CONFIG_CLEAN_FILES)" || rm -f $(CONFIG_CLEAN_FILES) -test . = "$(srcdir)" || test -z "$(CONFIG_CLEAN_VPATH_FILES)" || rm -f $(CONFIG_CLEAN_VPATH_FILES) - -rm -f gdtoa/$(DEPDIR)/$(am__dirstamp) - -rm -f gdtoa/$(am__dirstamp) -rm -f math/$(DEPDIR)/$(am__dirstamp) -rm -f math/$(am__dirstamp) -rm -f printf/$(DEPDIR)/$(am__dirstamp) -rm -f printf/$(am__dirstamp) + -rm -f strtod/$(DEPDIR)/$(am__dirstamp) + -rm -f strtod/$(am__dirstamp) maintainer-clean-generic: @echo "This command is intended for maintainers to use" @@ -1257,7 +1227,7 @@ clean-am: clean-aminfo clean-generic clean-libtool \ distclean: distclean-am distclean-multi -rm -f $(am__CONFIG_DISTCLEAN_FILES) - -rm -rf gdtoa/$(DEPDIR) math/$(DEPDIR) printf/$(DEPDIR) + -rm -rf math/$(DEPDIR) printf/$(DEPDIR) strtod/$(DEPDIR) -rm -f Makefile distclean-am: clean-am distclean-compile distclean-generic \ distclean-hdr distclean-libtool distclean-tags @@ -1381,7 +1351,7 @@ installcheck-am: maintainer-clean: maintainer-clean-am maintainer-clean-multi -rm -f $(am__CONFIG_DISTCLEAN_FILES) -rm -rf $(top_srcdir)/autom4te.cache - -rm -rf gdtoa/$(DEPDIR) math/$(DEPDIR) printf/$(DEPDIR) + -rm -rf math/$(DEPDIR) printf/$(DEPDIR) strtod/$(DEPDIR) -rm -f Makefile maintainer-clean-am: distclean-am maintainer-clean-aminfo \ maintainer-clean-generic diff --git a/libquadmath/config.h.in b/libquadmath/config.h.in index 38e08c03366..ea3f10c2786 100644 --- a/libquadmath/config.h.in +++ b/libquadmath/config.h.in @@ -69,6 +69,9 @@ /* Define to 1 if you have the <string.h> header file. */ #undef HAVE_STRING_H +/* Define to 1 if you have the `strtoull' function. */ +#undef HAVE_STRTOULL + /* Define to 1 if you have the <sys/stat.h> header file. */ #undef HAVE_SYS_STAT_H diff --git a/libquadmath/configure b/libquadmath/configure index 612d56c7ccb..8735ac5a17d 100755 --- a/libquadmath/configure +++ b/libquadmath/configure @@ -12255,6 +12255,17 @@ $as_echo "#define HAVE_FETESTEXCEPT 1" >>confdefs.h fi + for ac_func in strtoull +do : + ac_fn_c_check_func "$LINENO" "strtoull" "ac_cv_func_strtoull" +if test "x$ac_cv_func_strtoull" = x""yes; then : + cat >>confdefs.h <<_ACEOF +#define HAVE_STRTOULL 1 +_ACEOF + +fi +done + else if test "x$ac_cv_lib_m_sqrtl" = x""yes; then diff --git a/libquadmath/configure.ac b/libquadmath/configure.ac index 0cd675fb2fc..8559c1d5aad 100644 --- a/libquadmath/configure.ac +++ b/libquadmath/configure.ac @@ -124,6 +124,7 @@ if test x$gcc_no_link != xyes; then AC_CHECK_LIB([m],[feupdateenv],[AC_DEFINE([HAVE_FEUPDATEENV],[1],[libm includes feupdateenv])]) AC_CHECK_LIB([m],[fesetenv],[AC_DEFINE([HAVE_FESETENV],[1],[libm includes fesetenv])]) AC_CHECK_LIB([m],[fetestexcept],[AC_DEFINE([HAVE_FETESTEXCEPT],[1],[libm includes fetestexcept])]) + AC_CHECK_FUNCS(strtoull) else if test "x$ac_cv_lib_m_sqrtl" = x""yes; then AC_DEFINE([HAVE_SQRTL],[1],[libm includes sqrtl]) diff --git a/libquadmath/gdtoa/README.gdtoa b/libquadmath/gdtoa/README.gdtoa deleted file mode 100644 index 069fd0832c3..00000000000 --- a/libquadmath/gdtoa/README.gdtoa +++ /dev/null @@ -1,369 +0,0 @@ -The content below is the README file of the gdtoa distribution, available -from http://www.netlib.org/fp/ - ----------------------------------------------------- - -This directory contains source for a library of binary -> decimal -and decimal -> binary conversion routines, for single-, double-, -and extended-precision IEEE binary floating-point arithmetic, and -other IEEE-like binary floating-point, including "double double", -as in - - T. J. Dekker, "A Floating-Point Technique for Extending the - Available Precision", Numer. Math. 18 (1971), pp. 224-242 - -and - - "Inside Macintosh: PowerPC Numerics", Addison-Wesley, 1994 - -The conversion routines use double-precision floating-point arithmetic -and, where necessary, high precision integer arithmetic. The routines -are generalizations of the strtod and dtoa routines described in - - David M. Gay, "Correctly Rounded Binary-Decimal and - Decimal-Binary Conversions", Numerical Analysis Manuscript - No. 90-10, Bell Labs, Murray Hill, 1990; - http://cm.bell-labs.com/cm/cs/what/ampl/REFS/rounding.ps.gz - -(based in part on papers by Clinger and Steele & White: see the -references in the above paper). - -The present conversion routines should be able to use any of IEEE binary, -VAX, or IBM-mainframe double-precision arithmetic internally, but I (dmg) -have so far only had a chance to test them with IEEE double precision -arithmetic. - -The core conversion routines are strtodg for decimal -> binary conversions -and gdtoa for binary -> decimal conversions. These routines operate -on arrays of unsigned 32-bit integers of type ULong, a signed 32-bit -exponent of type Long, and arithmetic characteristics described in -struct FPI; FPI, Long, and ULong are defined in gdtoa.h. File arith.h -is supposed to provide #defines that cause gdtoa.h to define its -types correctly. File arithchk.c is source for a program that -generates a suitable arith.h on all systems where I've been able to -test it. - -The core conversion routines are meant to be called by helper routines -that know details of the particular binary arithmetic of interest and -convert. The present directory provides helper routines for 5 variants -of IEEE binary floating-point arithmetic, each indicated by one or -two letters: - - f IEEE single precision - d IEEE double precision - x IEEE extended precision, as on Intel 80x87 - and software emulations of Motorola 68xxx chips - that do not pad the way the 68xxx does, but - only store 80 bits - xL IEEE extended precision, as on Motorola 68xxx chips - Q quad precision, as on Sun Sparc chips - dd double double, pairs of IEEE double numbers - whose sum is the desired value - -For decimal -> binary conversions, there are three families of -helper routines: one for round-nearest (or the current rounding -mode on IEEE-arithmetic systems that provide the C99 fegetround() -function, if compiled with -DHonor_FLT_ROUNDS): - - strtof - strtod - strtodd - strtopd - strtopf - strtopx - strtopxL - strtopQ - -one with rounding direction specified: - - strtorf - strtord - strtordd - strtorx - strtorxL - strtorQ - -and one for computing an interval (at most one bit wide) that contains -the decimal number: - - strtoIf - strtoId - strtoIdd - strtoIx - strtoIxL - strtoIQ - -The latter call strtoIg, which makes one call on strtodg and adjusts -the result to provide the desired interval. On systems where native -arithmetic can easily make one-ulp adjustments on values in the -desired floating-point format, it might be more efficient to use the -native arithmetic. Routine strtodI is a variant of strtoId that -illustrates one way to do this for IEEE binary double-precision -arithmetic -- but whether this is more efficient remains to be seen. - -Functions strtod and strtof have "natural" return types, float and -double -- strtod is specified by the C standard, and strtof appears -in the stdlib.h of some systems, such as (at least some) Linux systems. -The other functions write their results to their final argument(s): -to the final two argument for the strtoI... (interval) functions, -and to the final argument for the others (strtop... and strtor...). -Where possible, these arguments have "natural" return types (double* -or float*), to permit at least some type checking. In reality, they -are viewed as arrays of ULong (or, for the "x" functions, UShort) -values. On systems where long double is the appropriate type, one can -pass long double* final argument(s) to these routines. The int value -that these routines return is the return value from the call they make -on strtodg; see the enum of possible return values in gdtoa.h. - -Source files g_ddfmt.c, misc.c, smisc.c, strtod.c, strtodg.c, and ulp.c -should use true IEEE double arithmetic (not, e.g., double extended), -at least for storing (and viewing the bits of) the variables declared -"double" within them. - -One detail indicated in struct FPI is whether the target binary -arithmetic departs from the IEEE standard by flushing denormalized -numbers to 0. On systems that do this, the helper routines for -conversion to double-double format (when compiled with -Sudden_Underflow #defined) penalize the bottom of the exponent -range so that they return a nonzero result only when the least -significant bit of the less significant member of the pair of -double values returned can be expressed as a normalized double -value. An alternative would be to drop to 53-bit precision near -the bottom of the exponent range. To get correct rounding, this -would (in general) require two calls on strtodg (one specifying -126-bit arithmetic, then, if necessary, one specifying 53-bit -arithmetic). - -By default, the core routine strtodg and strtod set errno to ERANGE -if the result overflows to +Infinity or underflows to 0. Compile -these routines with NO_ERRNO #defined to inhibit errno assignments. - -Routine strtod is based on netlib's "dtoa.c from fp", and -(f = strtod(s,se)) is more efficient for some conversions than, say, -strtord(s,se,1,&f). Parts of strtod require true IEEE double -arithmetic with the default rounding mode (round-to-nearest) and, on -systems with IEEE extended-precision registers, double-precision -(53-bit) rounding precision. If the machine uses (the equivalent of) -Intel 80x87 arithmetic, the call - _control87(PC_53, MCW_PC); -does this with many compilers. Whether this or another call is -appropriate depends on the compiler; for this to work, it may be -necessary to #include "float.h" or another system-dependent header -file. - -Source file strtodnrp.c gives a strtod that does not require 53-bit -rounding precision on systems (such as Intel IA32 systems) that may -suffer double rounding due to use of extended-precision registers. -For some conversions this variant of strtod is less efficient than the -one in strtod.c when the latter is run with 53-bit rounding precision. - -The values that the strto* routines return for NaNs are determined by -gd_qnan.h, which the makefile generates by running the program whose -source is qnan.c. Note that the rules for distinguishing signaling -from quiet NaNs are system-dependent. For cross-compilation, you need -to determine arith.h and gd_qnan.h suitably, e.g., using the -arithmetic of the target machine. - -C99's hexadecimal floating-point constants are recognized by the -strto* routines (but this feature has not yet been heavily tested). -Compiling with NO_HEX_FP #defined disables this feature. - -When compiled with -DINFNAN_CHECK, the strto* routines recognize C99's -NaN and Infinity syntax. Moreover, unless No_Hex_NaN is #defined, the -strto* routines also recognize C99's NaN(...) syntax: they accept -(case insensitively) strings of the form NaN(x), where x is a string -of hexadecimal digits and spaces; if there is only one string of -hexadecimal digits, it is taken for the fraction bits of the resulting -NaN; if there are two or more strings of hexadecimal digits, each -string is assigned to the next available sequence of 32-bit words of -fractions bits (starting with the most significant), right-aligned in -each sequence. - -For binary -> decimal conversions, I've provided just one family -of helper routines: - - g_ffmt - g_dfmt - g_ddfmt - g_xfmt - g_xLfmt - g_Qfmt - -which do a "%g" style conversion either to a specified number of decimal -places (if their ndig argument is positive), or to the shortest -decimal string that rounds to the given binary floating-point value -(if ndig <= 0). They write into a buffer supplied as an argument -and return either a pointer to the end of the string (a null character) -in the buffer, if the buffer was long enough, or 0. Other forms of -conversion are easily done with the help of gdtoa(), such as %e or %f -style and conversions with direction of rounding specified (so that, if -desired, the decimal value is either >= or <= the binary value). -On IEEE-arithmetic systems that provide the C99 fegetround() function, -if compiled with -DHonor_FLT_ROUNDS, these routines honor the current -rounding mode. - -For an example of more general conversions based on dtoa(), see -netlib's "printf.c from ampl/solvers". - -For double-double -> decimal, g_ddfmt() assumes IEEE-like arithmetic -of precision max(126, #bits(input)) bits, where #bits(input) is the -number of mantissa bits needed to represent the sum of the two double -values in the input. - -The makefile creates a library, gdtoa.a. To use the helper -routines, a program only needs to include gdtoa.h. All the -source files for gdtoa.a include a more extensive gdtoaimp.h; -among other things, gdtoaimp.h has #defines that make "internal" -names end in _D2A. To make a "system" library, one could modify -these #defines to make the names start with __. - -Various comments about possible #defines appear in gdtoaimp.h, -but for most purposes, arith.h should set suitable #defines. - -Systems with preemptive scheduling of multiple threads require some -manual intervention. On such systems, it's necessary to compile -dmisc.c, dtoa.c gdota.c, and misc.c with MULTIPLE_THREADS #defined, -and to provide (or suitably #define) two locks, acquired by -ACQUIRE_DTOA_LOCK(n) and freed by FREE_DTOA_LOCK(n) for n = 0 or 1. -(The second lock, accessed in pow5mult, ensures lazy evaluation of -only one copy of high powers of 5; omitting this lock would introduce -a small probability of wasting memory, but would otherwise be harmless.) -Routines that call dtoa or gdtoa directly must also invoke freedtoa(s) -to free the value s returned by dtoa or gdtoa. It's OK to do so whether -or not MULTIPLE_THREADS is #defined, and the helper g_*fmt routines -listed above all do this indirectly (in gfmt_D2A(), which they all call). - -By default, there is a private pool of memory of length 2000 bytes -for intermediate quantities, and MALLOC (see gdtoaimp.h) is called only -if the private pool does not suffice. 2000 is large enough that MALLOC -is called only under very unusual circumstances (decimal -> binary -conversion of very long strings) for conversions to and from double -precision. For systems with preemptively scheduled multiple threads -or for conversions to extended or quad, it may be appropriate to -#define PRIVATE_MEM nnnn, where nnnn is a suitable value > 2000. -For extended and quad precisions, -DPRIVATE_MEM=20000 is probably -plenty even for many digits at the ends of the exponent range. -Use of the private pool avoids some overhead. - -Directory test provides some test routines. See its README. -I've also tested this stuff (except double double conversions) -with Vern Paxson's testbase program: see - - V. Paxson and W. Kahan, "A Program for Testing IEEE Binary-Decimal - Conversion", manuscript, May 1991, - ftp://ftp.ee.lbl.gov/testbase-report.ps.Z . - -(The same ftp directory has source for testbase.) - -Some system-dependent additions to CFLAGS in the makefile: - - HU-UX: -Aa -Ae - OSF (DEC Unix): -ieee_with_no_inexact - SunOS 4.1x: -DKR_headers -DBad_float_h - -If you want to put this stuff into a shared library and your -operating system requires export lists for shared libraries, -the following would be an appropriate export list: - - dtoa - freedtoa - g_Qfmt - g_ddfmt - g_dfmt - g_ffmt - g_xLfmt - g_xfmt - gdtoa - strtoIQ - strtoId - strtoIdd - strtoIf - strtoIx - strtoIxL - strtod - strtodI - strtodg - strtof - strtopQ - strtopd - strtopdd - strtopf - strtopx - strtopxL - strtorQ - strtord - strtordd - strtorf - strtorx - strtorxL - -When time permits, I (dmg) hope to write in more detail about the -present conversion routines; for now, this README file must suffice. -Meanwhile, if you wish to write helper functions for other kinds of -IEEE-like arithmetic, some explanation of struct FPI and the bits -array may be helpful. Both gdtoa and strtodg operate on a bits array -described by FPI *fpi. The bits array is of type ULong, a 32-bit -unsigned integer type. Floating-point numbers have fpi->nbits bits, -with the least significant 32 bits in bits[0], the next 32 bits in -bits[1], etc. These numbers are regarded as integers multiplied by -2^e (i.e., 2 to the power of the exponent e), where e is the second -argument (be) to gdtoa and is stored in *exp by strtodg. The minimum -and maximum exponent values fpi->emin and fpi->emax for normalized -floating-point numbers reflect this arrangement. For example, the -P754 standard for binary IEEE arithmetic specifies doubles as having -53 bits, with normalized values of the form 1.xxxxx... times 2^(b-1023), -with 52 bits (the x's) and the biased exponent b represented explicitly; -b is an unsigned integer in the range 1 <= b <= 2046 for normalized -finite doubles, b = 0 for denormals, and b = 2047 for Infinities and NaNs. -To turn an IEEE double into the representation used by strtodg and gdtoa, -we multiply 1.xxxx... by 2^52 (to make it an integer) and reduce the -exponent e = (b-1023) by 52: - - fpi->emin = 1 - 1023 - 52 - fpi->emax = 1046 - 1023 - 52 - -In various wrappers for IEEE double, we actually write -53 + 1 rather -than -52, to emphasize that there are 53 bits including one implicit bit. -Field fpi->rounding indicates the desired rounding direction, with -possible values - FPI_Round_zero = toward 0, - FPI_Round_near = unbiased rounding -- the IEEE default, - FPI_Round_up = toward +Infinity, and - FPI_Round_down = toward -Infinity -given in gdtoa.h. - -Field fpi->sudden_underflow indicates whether strtodg should return -denormals or flush them to zero. Normal floating-point numbers have -bit fpi->nbits in the bits array on. Denormals have it off, with -exponent = fpi->emin. Strtodg provides distinct return values for normals -and denormals; see gdtoa.h. - -Compiling g__fmt.c, strtod.c, and strtodg.c with -DUSE_LOCALE causes -the decimal-point character to be taken from the current locale; otherwise -it is '.'. - -Source files dtoa.c and strtod.c in this directory are derived from -netlib's "dtoa.c from fp" and are meant to function equivalently. -When compiled with Honor_FLT_ROUNDS #defined (on systems that provide -FLT_ROUNDS and fegetround() as specified in the C99 standard), they -honor the current rounding mode. Because FLT_ROUNDS is buggy on some -(Linux) systems -- not reflecting calls on fesetround(), as the C99 -standard says it should -- when Honor_FLT_ROUNDS is #defined, the -current rounding mode is obtained from fegetround() rather than from -FLT_ROUNDS, unless Trust_FLT_ROUNDS is also #defined. - -Compile with -DUSE_LOCALE to use the current locale; otherwise -decimal points are assumed to be '.'. With -DUSE_LOCALE, unless -you also compile with -DNO_LOCALE_CACHE, the details about the -current "decimal point" character string are cached and assumed not -to change during the program's execution. - -On machines with a 64-bit long double and perhaps a 113-bit "quad" -type, you can invoke "make Printf" to add Printf (and variants, such -as Fprintf) to gdtoa.a. These are analogs, declared in stdio1.h, of -printf and fprintf, etc. in which %La, %Le, %Lf, and %Lg are for long -double and (if appropriate) %Lqa, %Lqe, %Lqf, and %Lqg are for quad -precision printing. - -Please send comments to David M. Gay (dmg at acm dot org, with " at " -changed at "@" and " dot " changed to "."). diff --git a/libquadmath/gdtoa/arith.h b/libquadmath/gdtoa/arith.h deleted file mode 100644 index f4209e31e89..00000000000 --- a/libquadmath/gdtoa/arith.h +++ /dev/null @@ -1,14 +0,0 @@ -#include <stdint.h> - -#if __LITTLE_ENDIAN__ -# define IEEE_8087 -#elif __BIG_ENDIAN__ -# define IEEE_MC68k -#else -// Because quad math is typically performed on little-endian hardware -//# error "Unknown endianness" -# define IEEE_8087 -#endif - -// This should be 32 bit integer type -#define Long int diff --git a/libquadmath/gdtoa/gd_qnan.h b/libquadmath/gdtoa/gd_qnan.h deleted file mode 100644 index 68d90e440f2..00000000000 --- a/libquadmath/gdtoa/gd_qnan.h +++ /dev/null @@ -1,12 +0,0 @@ -#define f_QNAN 0x7fc00000 -#define d_QNAN0 0x0 -#define d_QNAN1 0x7ff80000 -#define ld_QNAN0 0x0 -#define ld_QNAN1 0x0 -#define ld_QNAN2 0x0 -#define ld_QNAN3 0x7fff8000 -#define ldus_QNAN0 0x0 -#define ldus_QNAN1 0x0 -#define ldus_QNAN2 0x0 -#define ldus_QNAN3 0xc000 -#define ldus_QNAN4 0x7fff diff --git a/libquadmath/gdtoa/gdtoa.h b/libquadmath/gdtoa/gdtoa.h deleted file mode 100644 index de10a436c5a..00000000000 --- a/libquadmath/gdtoa/gdtoa.h +++ /dev/null @@ -1,153 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#ifndef GDTOA_H_INCLUDED -#define GDTOA_H_INCLUDED - -#include "arith.h" -#include <stddef.h> /* for size_t */ -#include <stdlib.h> /* for strtod */ - -#ifndef Long -#define Long long -#endif -#ifndef ULong -typedef unsigned Long ULong; -#endif -#ifndef UShort -typedef unsigned short UShort; -#endif - -#ifndef ANSI -#ifdef KR_headers -#define ANSI(x) () -#define Void /*nothing*/ -#else -#define ANSI(x) x -#define Void void -#endif -#endif /* ANSI */ - -#ifndef CONST -#ifdef KR_headers -#define CONST /* blank */ -#else -#define CONST const -#endif -#endif /* CONST */ - - enum { /* return values from strtodg */ - STRTOG_Zero = 0, - STRTOG_Normal = 1, - STRTOG_Denormal = 2, - STRTOG_Infinite = 3, - STRTOG_NaN = 4, - STRTOG_NaNbits = 5, - STRTOG_NoNumber = 6, - STRTOG_Retmask = 7, - - /* The following may be or-ed into one of the above values. */ - - STRTOG_Neg = 0x08, /* does not affect STRTOG_Inexlo or STRTOG_Inexhi */ - STRTOG_Inexlo = 0x10, /* returned result rounded toward zero */ - STRTOG_Inexhi = 0x20, /* returned result rounded away from zero */ - STRTOG_Inexact = 0x30, - STRTOG_Underflow= 0x40, - STRTOG_Overflow = 0x80 - }; - - typedef struct -FPI { - int nbits; - int emin; - int emax; - int rounding; - int sudden_underflow; - } FPI; - -enum { /* FPI.rounding values: same as FLT_ROUNDS */ - FPI_Round_zero = 0, - FPI_Round_near = 1, - FPI_Round_up = 2, - FPI_Round_down = 3 - }; - -#ifdef __cplusplus -extern "C" { -#endif - -extern char* dtoa ANSI((double d, int mode, int ndigits, int *decpt, - int *sign, char **rve)); -extern char* gdtoa ANSI((FPI *fpi, int be, ULong *bits, int *kindp, - int mode, int ndigits, int *decpt, char **rve)); -extern void freedtoa ANSI((char*)); -extern int strtodg ANSI((CONST char*, char**, FPI*, Long*, ULong*)); - -extern char* g_ddfmt ANSI((char*, double*, int, size_t)); -extern char* g_dfmt ANSI((char*, double*, int, size_t)); -extern char* g_ffmt ANSI((char*, float*, int, size_t)); -extern char* g_Qfmt ANSI((char*, void*, int, size_t)); -extern char* g_xfmt ANSI((char*, void*, int, size_t)); -extern char* g_xLfmt ANSI((char*, void*, int, size_t)); - -extern int strtoId ANSI((CONST char*, char**, double*, double*)); -extern int strtoIdd ANSI((CONST char*, char**, double*, double*)); -extern int strtoIf ANSI((CONST char*, char**, float*, float*)); -extern int strtoIQ ANSI((CONST char*, char**, void*, void*)); -extern int strtoIx ANSI((CONST char*, char**, void*, void*)); -extern int strtoIxL ANSI((CONST char*, char**, void*, void*)); -extern int strtord ANSI((CONST char*, char**, int, double*)); -extern int strtordd ANSI((CONST char*, char**, int, double*)); -extern int strtorf ANSI((CONST char*, char**, int, float*)); -extern int strtorQ ANSI((CONST char*, char**, int, void*)); -extern int strtorx ANSI((CONST char*, char**, int, void*)); -extern int strtorxL ANSI((CONST char*, char**, int, void*)); -#if 1 -extern int strtodI ANSI((CONST char*, char**, double*)); -extern int strtopd ANSI((CONST char*, char**, double*)); -extern int strtopdd ANSI((CONST char*, char**, double*)); -extern int strtopf ANSI((CONST char*, char**, float*)); -extern int quadmath_strtopQ ANSI((CONST char*, char**, void*)); -extern int strtopx ANSI((CONST char*, char**, void*)); -extern int strtopxL ANSI((CONST char*, char**, void*)); -#else -#define strtopd(s,se,x) strtord(s,se,1,x) -#define strtopdd(s,se,x) strtordd(s,se,1,x) -#define strtopf(s,se,x) strtorf(s,se,1,x) -#define strtopQ(s,se,x) strtorQ(s,se,1,x) -#define strtopx(s,se,x) strtorx(s,se,1,x) -#define strtopxL(s,se,x) strtorxL(s,se,1,x) -#endif - -#ifdef __cplusplus -} -#endif -#endif /* GDTOA_H_INCLUDED */ diff --git a/libquadmath/gdtoa/gdtoa_fltrnds.h b/libquadmath/gdtoa/gdtoa_fltrnds.h deleted file mode 100644 index 33e5f9e5342..00000000000 --- a/libquadmath/gdtoa/gdtoa_fltrnds.h +++ /dev/null @@ -1,18 +0,0 @@ - FPI *fpi, fpi1; - int Rounding; -#ifdef Trust_FLT_ROUNDS /*{{ only define this if FLT_ROUNDS really works! */ - Rounding = Flt_Rounds; -#else /*}{*/ - Rounding = 1; - switch(fegetround()) { - case FE_TOWARDZERO: Rounding = 0; break; - case FE_UPWARD: Rounding = 2; break; - case FE_DOWNWARD: Rounding = 3; - } -#endif /*}}*/ - fpi = &fpi0; - if (Rounding != 1) { - fpi1 = fpi0; - fpi = &fpi1; - fpi1.rounding = Rounding; - } diff --git a/libquadmath/gdtoa/gdtoaimp.h b/libquadmath/gdtoa/gdtoaimp.h deleted file mode 100644 index 4aa8f78d307..00000000000 --- a/libquadmath/gdtoa/gdtoaimp.h +++ /dev/null @@ -1,620 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998-2000 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* This is a variation on dtoa.c that converts arbitary binary - floating-point formats to and from decimal notation. It uses - double-precision arithmetic internally, so there are still - various #ifdefs that adapt the calculations to the native - double-precision arithmetic (any of IEEE, VAX D_floating, - or IBM mainframe arithmetic). - - Please send bug reports to David M. Gay (dmg at acm dot org, - with " at " changed at "@" and " dot " changed to "."). - */ - -/* On a machine with IEEE extended-precision registers, it is - * necessary to specify double-precision (53-bit) rounding precision - * before invoking strtod or dtoa. If the machine uses (the equivalent - * of) Intel 80x87 arithmetic, the call - * _control87(PC_53, MCW_PC); - * does this with many compilers. Whether this or another call is - * appropriate depends on the compiler; for this to work, it may be - * necessary to #include "float.h" or another system-dependent header - * file. - */ - -/* strtod for IEEE-, VAX-, and IBM-arithmetic machines. - * - * This strtod returns a nearest machine number to the input decimal - * string (or sets errno to ERANGE). With IEEE arithmetic, ties are - * broken by the IEEE round-even rule. Otherwise ties are broken by - * biased rounding (add half and chop). - * - * Inspired loosely by William D. Clinger's paper "How to Read Floating - * Point Numbers Accurately" [Proc. ACM SIGPLAN '90, pp. 112-126]. - * - * Modifications: - * - * 1. We only require IEEE, IBM, or VAX double-precision - * arithmetic (not IEEE double-extended). - * 2. We get by with floating-point arithmetic in a case that - * Clinger missed -- when we're computing d * 10^n - * for a small integer d and the integer n is not too - * much larger than 22 (the maximum integer k for which - * we can represent 10^k exactly), we may be able to - * compute (d*10^k) * 10^(e-k) with just one roundoff. - * 3. Rather than a bit-at-a-time adjustment of the binary - * result in the hard case, we use floating-point - * arithmetic to determine the adjustment to within - * one bit; only in really hard cases do we need to - * compute a second residual. - * 4. Because of 3., we don't need a large table of powers of 10 - * for ten-to-e (just some small tables, e.g. of 10^k - * for 0 <= k <= 22). - */ - -/* - * #define IEEE_8087 for IEEE-arithmetic machines where the least - * significant byte has the lowest address. - * #define IEEE_MC68k for IEEE-arithmetic machines where the most - * significant byte has the lowest address. - * #define Long int on machines with 32-bit ints and 64-bit longs. - * #define Sudden_Underflow for IEEE-format machines without gradual - * underflow (i.e., that flush to zero on underflow). - * #define IBM for IBM mainframe-style floating-point arithmetic. - * #define VAX for VAX-style floating-point arithmetic (D_floating). - * #define No_leftright to omit left-right logic in fast floating-point - * computation of dtoa. - * #define Check_FLT_ROUNDS if FLT_ROUNDS can assume the values 2 or 3. - * #define RND_PRODQUOT to use rnd_prod and rnd_quot (assembly routines - * that use extended-precision instructions to compute rounded - * products and quotients) with IBM. - * #define ROUND_BIASED for IEEE-format with biased rounding. - * #define Inaccurate_Divide for IEEE-format with correctly rounded - * products but inaccurate quotients, e.g., for Intel i860. - * #define NO_LONG_LONG on machines that do not have a "long long" - * integer type (of >= 64 bits). On such machines, you can - * #define Just_16 to store 16 bits per 32-bit Long when doing - * high-precision integer arithmetic. Whether this speeds things - * up or slows things down depends on the machine and the number - * being converted. If long long is available and the name is - * something other than "long long", #define Llong to be the name, - * and if "unsigned Llong" does not work as an unsigned version of - * Llong, #define #ULLong to be the corresponding unsigned type. - * #define KR_headers for old-style C function headers. - * #define Bad_float_h if your system lacks a float.h or if it does not - * define some or all of DBL_DIG, DBL_MAX_10_EXP, DBL_MAX_EXP, - * FLT_RADIX, FLT_ROUNDS, and DBL_MAX. - * #define MALLOC your_malloc, where your_malloc(n) acts like malloc(n) - * if memory is available and otherwise does something you deem - * appropriate. If MALLOC is undefined, malloc will be invoked - * directly -- and assumed always to succeed. Similarly, if you - * want something other than the system's free() to be called to - * recycle memory acquired from MALLOC, #define FREE to be the - * name of the alternate routine. (FREE or free is only called in - * pathological cases, e.g., in a gdtoa call after a gdtoa return in - * mode 3 with thousands of digits requested.) - * #define Omit_Private_Memory to omit logic (added Jan. 1998) for making - * memory allocations from a private pool of memory when possible. - * When used, the private pool is PRIVATE_MEM bytes long: 2304 bytes, - * unless #defined to be a different length. This default length - * suffices to get rid of MALLOC calls except for unusual cases, - * such as decimal-to-binary conversion of a very long string of - * digits. When converting IEEE double precision values, the - * longest string gdtoa can return is about 751 bytes long. For - * conversions by strtod of strings of 800 digits and all gdtoa - * conversions of IEEE doubles in single-threaded executions with - * 8-byte pointers, PRIVATE_MEM >= 7400 appears to suffice; with - * 4-byte pointers, PRIVATE_MEM >= 7112 appears adequate. - * #define NO_INFNAN_CHECK if you do not wish to have INFNAN_CHECK - * #defined automatically on IEEE systems. On such systems, - * when INFNAN_CHECK is #defined, strtod checks - * for Infinity and NaN (case insensitively). - * When INFNAN_CHECK is #defined and No_Hex_NaN is not #defined, - * strtodg also accepts (case insensitively) strings of the form - * NaN(x), where x is a string of hexadecimal digits (optionally - * preceded by 0x or 0X) and spaces; if there is only one string - * of hexadecimal digits, it is taken for the fraction bits of the - * resulting NaN; if there are two or more strings of hexadecimal - * digits, each string is assigned to the next available sequence - * of 32-bit words of fractions bits (starting with the most - * significant), right-aligned in each sequence. - * Unless GDTOA_NON_PEDANTIC_NANCHECK is #defined, input "NaN(...)" - * is consumed even when ... has the wrong form (in which case the - * "(...)" is consumed but ignored). - * #define MULTIPLE_THREADS if the system offers preemptively scheduled - * multiple threads. In this case, you must provide (or suitably - * #define) two locks, acquired by ACQUIRE_DTOA_LOCK(n) and freed - * by FREE_DTOA_LOCK(n) for n = 0 or 1. (The second lock, accessed - * in pow5mult, ensures lazy evaluation of only one copy of high - * powers of 5; omitting this lock would introduce a small - * probability of wasting memory, but would otherwise be harmless.) - * You must also invoke freedtoa(s) to free the value s returned by - * dtoa. You may do so whether or not MULTIPLE_THREADS is #defined. - * #define IMPRECISE_INEXACT if you do not care about the setting of - * the STRTOG_Inexact bits in the special case of doing IEEE double - * precision conversions (which could also be done by the strtod in - * dtoa.c). - * #define NO_HEX_FP to disable recognition of C9x's hexadecimal - * floating-point constants. - * #define -DNO_ERRNO to suppress setting errno (in strtod.c and - * strtodg.c). - * #define NO_STRING_H to use private versions of memcpy. - * On some K&R systems, it may also be necessary to - * #define DECLARE_SIZE_T in this case. - * #define USE_LOCALE to use the current locale's decimal_point value. - */ - -#ifndef GDTOAIMP_H_INCLUDED -#define GDTOAIMP_H_INCLUDED -#include "gdtoa.h" -#include "gd_qnan.h" -#ifdef Honor_FLT_ROUNDS -#include <fenv.h> -#endif - -#ifdef DEBUG -#include "stdio.h" -#define Bug(x) {fprintf(stderr, "%s\n", x); exit(1);} -#endif - -#include "stdlib.h" -#include "string.h" - -#ifdef KR_headers -#define Char char -#else -#define Char void -#endif - -#ifdef MALLOC -extern Char *MALLOC ANSI((size_t)); -#else -#define MALLOC malloc -#endif - -#undef IEEE_Arith -#undef Avoid_Underflow -#ifdef IEEE_MC68k -#define IEEE_Arith -#endif -#ifdef IEEE_8087 -#define IEEE_Arith -#endif - -#include "errno.h" -#ifdef Bad_float_h - -#ifdef IEEE_Arith -#define DBL_DIG 15 -#define DBL_MAX_10_EXP 308 -#define DBL_MAX_EXP 1024 -#define FLT_RADIX 2 -#define DBL_MAX 1.7976931348623157e+308 -#endif - -#ifdef IBM -#define DBL_DIG 16 -#define DBL_MAX_10_EXP 75 -#define DBL_MAX_EXP 63 -#define FLT_RADIX 16 -#define DBL_MAX 7.2370055773322621e+75 -#endif - -#ifdef VAX -#define DBL_DIG 16 -#define DBL_MAX_10_EXP 38 -#define DBL_MAX_EXP 127 -#define FLT_RADIX 2 -#define DBL_MAX 1.7014118346046923e+38 -#define n_bigtens 2 -#endif - -#ifndef LONG_MAX -#define LONG_MAX 2147483647 -#endif - -#else /* ifndef Bad_float_h */ -#include "float.h" -#endif /* Bad_float_h */ - -#ifdef IEEE_Arith -#define Scale_Bit 0x10 -#define n_bigtens 5 -#endif - -#ifdef IBM -#define n_bigtens 3 -#endif - -#ifdef VAX -#define n_bigtens 2 -#endif - -#ifndef __MATH_H__ -#include "math.h" -#endif - -#ifdef __cplusplus -extern "C" { -#endif - -#if defined(IEEE_8087) + defined(IEEE_MC68k) + defined(VAX) + defined(IBM) != 1 -Exactly one of IEEE_8087, IEEE_MC68k, VAX, or IBM should be defined. -#endif - -typedef union { double d; ULong L[2]; } U; - -#ifdef IEEE_8087 -#define word0(x) (x)->L[1] -#define word1(x) (x)->L[0] -#else -#define word0(x) (x)->L[0] -#define word1(x) (x)->L[1] -#endif -#define dval(x) (x)->d - -/* The following definition of Storeinc is appropriate for MIPS processors. - * An alternative that might be better on some machines is - * #define Storeinc(a,b,c) (*a++ = b << 16 | c & 0xffff) - */ -#if defined(IEEE_8087) + defined(VAX) -#define Storeinc(a,b,c) (((unsigned short *)a)[1] = (unsigned short)b, \ -((unsigned short *)a)[0] = (unsigned short)c, a++) -#else -#define Storeinc(a,b,c) (((unsigned short *)a)[0] = (unsigned short)b, \ -((unsigned short *)a)[1] = (unsigned short)c, a++) -#endif - -/* #define P DBL_MANT_DIG */ -/* Ten_pmax = floor(P*log(2)/log(5)) */ -/* Bletch = (highest power of 2 < DBL_MAX_10_EXP) / 16 */ -/* Quick_max = floor((P-1)*log(FLT_RADIX)/log(10) - 1) */ -/* Int_max = floor(P*log(FLT_RADIX)/log(10) - 1) */ - -#ifdef IEEE_Arith -#define Exp_shift 20 -#define Exp_shift1 20 -#define Exp_msk1 0x100000 -#define Exp_msk11 0x100000 -#define Exp_mask 0x7ff00000 -#define P 53 -#define Bias 1023 -#define Emin (-1022) -#define Exp_1 0x3ff00000 -#define Exp_11 0x3ff00000 -#define Ebits 11 -#define Frac_mask 0xfffff -#define Frac_mask1 0xfffff -#define Ten_pmax 22 -#define Bletch 0x10 -#define Bndry_mask 0xfffff -#define Bndry_mask1 0xfffff -#define LSB 1 -#define Sign_bit 0x80000000 -#define Log2P 1 -#define Tiny0 0 -#define Tiny1 1 -#define Quick_max 14 -#define Int_max 14 - -#ifndef Flt_Rounds -#ifdef FLT_ROUNDS -#define Flt_Rounds FLT_ROUNDS -#else -#define Flt_Rounds 1 -#endif -#endif /*Flt_Rounds*/ - -#else /* ifndef IEEE_Arith */ -#undef Sudden_Underflow -#define Sudden_Underflow -#ifdef IBM -#undef Flt_Rounds -#define Flt_Rounds 0 -#define Exp_shift 24 -#define Exp_shift1 24 -#define Exp_msk1 0x1000000 -#define Exp_msk11 0x1000000 -#define Exp_mask 0x7f000000 -#define P 14 -#define Bias 65 -#define Exp_1 0x41000000 -#define Exp_11 0x41000000 -#define Ebits 8 /* exponent has 7 bits, but 8 is the right value in b2d */ -#define Frac_mask 0xffffff -#define Frac_mask1 0xffffff -#define Bletch 4 -#define Ten_pmax 22 -#define Bndry_mask 0xefffff -#define Bndry_mask1 0xffffff -#define LSB 1 -#define Sign_bit 0x80000000 -#define Log2P 4 -#define Tiny0 0x100000 -#define Tiny1 0 -#define Quick_max 14 -#define Int_max 15 -#else /* VAX */ -#undef Flt_Rounds -#define Flt_Rounds 1 -#define Exp_shift 23 -#define Exp_shift1 7 -#define Exp_msk1 0x80 -#define Exp_msk11 0x800000 -#define Exp_mask 0x7f80 -#define P 56 -#define Bias 129 -#define Exp_1 0x40800000 -#define Exp_11 0x4080 -#define Ebits 8 -#define Frac_mask 0x7fffff -#define Frac_mask1 0xffff007f -#define Ten_pmax 24 -#define Bletch 2 -#define Bndry_mask 0xffff007f -#define Bndry_mask1 0xffff007f -#define LSB 0x10000 -#define Sign_bit 0x8000 -#define Log2P 1 -#define Tiny0 0x80 -#define Tiny1 0 -#define Quick_max 15 -#define Int_max 15 -#endif /* IBM, VAX */ -#endif /* IEEE_Arith */ - -#ifndef IEEE_Arith -#define ROUND_BIASED -#endif - -#ifdef RND_PRODQUOT -#define rounded_product(a,b) a = rnd_prod(a, b) -#define rounded_quotient(a,b) a = rnd_quot(a, b) -#ifdef KR_headers -extern double rnd_prod(), rnd_quot(); -#else -extern double rnd_prod(double, double), rnd_quot(double, double); -#endif -#else -#define rounded_product(a,b) a *= b -#define rounded_quotient(a,b) a /= b -#endif - -#define Big0 (Frac_mask1 | Exp_msk1*(DBL_MAX_EXP+Bias-1)) -#define Big1 0xffffffff - -#undef Pack_16 -#ifndef Pack_32 -#define Pack_32 -#endif - -#ifdef NO_LONG_LONG -#undef ULLong -#ifdef Just_16 -#undef Pack_32 -#define Pack_16 -/* When Pack_32 is not defined, we store 16 bits per 32-bit Long. - * This makes some inner loops simpler and sometimes saves work - * during multiplications, but it often seems to make things slightly - * slower. Hence the default is now to store 32 bits per Long. - */ -#endif -#else /* long long available */ -#ifndef Llong -#define Llong long long -#endif -#ifndef ULLong -#define ULLong unsigned Llong -#endif -#endif /* NO_LONG_LONG */ - -#ifdef Pack_32 -#define ULbits 32 -#define kshift 5 -#define kmask 31 -#define ALL_ON 0xffffffff -#else -#define ULbits 16 -#define kshift 4 -#define kmask 15 -#define ALL_ON 0xffff -#endif - -#ifndef MULTIPLE_THREADS -#define ACQUIRE_DTOA_LOCK(n) /*nothing*/ -#define FREE_DTOA_LOCK(n) /*nothing*/ -#endif - -#define Kmax 9 - - struct -Bigint { - struct Bigint *next; - int k, maxwds, sign, wds; - ULong x[1]; - }; - - typedef struct Bigint Bigint; - -#ifdef NO_STRING_H -#ifdef DECLARE_SIZE_T -typedef unsigned int size_t; -#endif -extern void memcpy_D2A ANSI((void*, const void*, size_t)); -#define Bcopy(x,y) memcpy_D2A(&x->sign,&y->sign,y->wds*sizeof(ULong) + 2*sizeof(int)) -#else /* !NO_STRING_H */ -#define Bcopy(x,y) memcpy(&x->sign,&y->sign,y->wds*sizeof(ULong) + 2*sizeof(int)) -#endif /* NO_STRING_H */ - -#define Balloc __quadmath_Balloc_D2A -#define Bfree __quadmath_Bfree_D2A -#define ULtoQ __quadmath_ULtoQ_D2A -#define ULtof __quadmath_ULtof_D2A -#define ULtod __quadmath_ULtod_D2A -#define ULtodd __quadmath_ULtodd_D2A -#define ULtox __quadmath_ULtox_D2A -#define ULtoxL __quadmath_ULtoxL_D2A -#define any_on __quadmath_any_on_D2A -#define b2d __quadmath_b2d_D2A -#define bigtens __quadmath_bigtens_D2A -#define cmp __quadmath_cmp_D2A -#define copybits __quadmath_copybits_D2A -#define d2b __quadmath_d2b_D2A -#define decrement __quadmath_decrement_D2A -#define diff __quadmath_diff_D2A -#define dtoa_result __quadmath_dtoa_result_D2A -#define g__fmt __quadmath_g__fmt_D2A -#define gethex __quadmath_gethex_D2A -#define hexdig __quadmath_hexdig_D2A -#define hexnan __quadmath_hexnan_D2A -#define hi0bits_D2A __quadmath_hi0bits_D2A -#define hi0bits(x) __quadmath_hi0bits_D2A((ULong)(x)) -#define i2b __quadmath_i2b_D2A -#define increment __quadmath_increment_D2A -#define lo0bits __quadmath_lo0bits_D2A -#define lshift __quadmath_lshift_D2A -#define match __quadmath_match_D2A -#define mult __quadmath_mult_D2A -#define multadd __quadmath_multadd_D2A -#define nrv_alloc __quadmath_nrv_alloc_D2A -#define pow5mult __quadmath_pow5mult_D2A -#define quorem __quadmath_quorem_D2A -#define ratio __quadmath_ratio_D2A -#define rshift __quadmath_rshift_D2A -#define rv_alloc __quadmath_rv_alloc_D2A -#define s2b __quadmath_s2b_D2A -#define set_ones __quadmath_set_ones_D2A -#ifdef NO_STRING_H -#define strcp __quadmath_strcp_D2A -#endif -#define strtoIg __quadmath_strtoIg_D2A -#define sum __quadmath_sum_D2A -#define tens __quadmath_tens_D2A -#define tinytens __quadmath_tinytens_D2A -#define tinytens __quadmath_tinytens_D2A -#define trailz __quadmath_trailz_D2A -#define ulp __quadmath_ulp_D2A - - extern char *dtoa_result; - extern CONST double bigtens[], tens[], tinytens[]; - extern unsigned char hexdig[]; - - extern Bigint *Balloc ANSI((int)); - extern void Bfree ANSI((Bigint*)); - extern void ULtof ANSI((ULong*, ULong*, Long, int)); - extern void ULtod ANSI((ULong*, ULong*, Long, int)); - extern void ULtodd ANSI((ULong*, ULong*, Long, int)); - extern void ULtoQ ANSI((ULong*, ULong*, Long, int)); - extern void ULtox ANSI((UShort*, ULong*, Long, int)); - extern void ULtoxL ANSI((ULong*, ULong*, Long, int)); - extern ULong any_on ANSI((Bigint*, int)); - extern double b2d ANSI((Bigint*, int*)); - extern int cmp ANSI((Bigint*, Bigint*)); - extern void copybits ANSI((ULong*, int, Bigint*)); - extern Bigint *d2b ANSI((double, int*, int*)); - extern void decrement ANSI((Bigint*)); - extern Bigint *diff ANSI((Bigint*, Bigint*)); - extern char *dtoa ANSI((double d, int mode, int ndigits, - int *decpt, int *sign, char **rve)); - extern char *g__fmt ANSI((char*, char*, char*, int, ULong, size_t)); - extern int gethex ANSI((CONST char**, FPI*, Long*, Bigint**, int)); - extern void hexdig_init_D2A(Void); - extern int hexnan ANSI((CONST char**, FPI*, ULong*)); - extern int hi0bits_D2A ANSI((ULong)); - extern Bigint *i2b ANSI((int)); - extern Bigint *increment ANSI((Bigint*)); - extern int lo0bits ANSI((ULong*)); - extern Bigint *lshift ANSI((Bigint*, int)); - extern int match ANSI((CONST char**, char*)); - extern Bigint *mult ANSI((Bigint*, Bigint*)); - extern Bigint *multadd ANSI((Bigint*, int, int)); - extern char *nrv_alloc ANSI((char*, char **, int)); - extern Bigint *pow5mult ANSI((Bigint*, int)); - extern int quorem ANSI((Bigint*, Bigint*)); - extern double ratio ANSI((Bigint*, Bigint*)); - extern void rshift ANSI((Bigint*, int)); - extern char *rv_alloc ANSI((int)); - extern Bigint *s2b ANSI((CONST char*, int, int, ULong, int)); - extern Bigint *set_ones ANSI((Bigint*, int)); -#ifdef NO_STRING_H - extern char *strcpy ANSI((char*, const char*)); -#endif - extern int strtoIg ANSI((CONST char*, char**, FPI*, Long*, Bigint**, int*)); - extern Bigint *sum ANSI((Bigint*, Bigint*)); - extern int trailz ANSI((Bigint*)); - extern double ulp ANSI((U*)); - -#ifdef __cplusplus -} -#endif -/* - * NAN_WORD0 and NAN_WORD1 are only referenced in strtod.c. Prior to - * 20050115, they used to be hard-wired here (to 0x7ff80000 and 0, - * respectively), but now are determined by compiling and running - * qnan.c to generate gd_qnan.h, which specifies d_QNAN0 and d_QNAN1. - * Formerly gdtoaimp.h recommended supplying suitable -DNAN_WORD0=... - * and -DNAN_WORD1=... values if necessary. This should still work. - * (On HP Series 700/800 machines, -DNAN_WORD0=0x7ff40000 works.) - */ -#ifdef IEEE_Arith -#ifndef NO_INFNAN_CHECK -#undef INFNAN_CHECK -#define INFNAN_CHECK -#endif -#ifdef IEEE_MC68k -#define _0 0 -#define _1 1 -#ifndef NAN_WORD0 -#define NAN_WORD0 d_QNAN0 -#endif -#ifndef NAN_WORD1 -#define NAN_WORD1 d_QNAN1 -#endif -#else -#define _0 1 -#define _1 0 -#ifndef NAN_WORD0 -#define NAN_WORD0 d_QNAN1 -#endif -#ifndef NAN_WORD1 -#define NAN_WORD1 d_QNAN0 -#endif -#endif -#else -#undef INFNAN_CHECK -#endif - -#undef SI -#ifdef Sudden_Underflow -#define SI 1 -#else -#define SI 0 -#endif - -#endif /* GDTOAIMP_H_INCLUDED */ diff --git a/libquadmath/gdtoa/gethex.c b/libquadmath/gdtoa/gethex.c deleted file mode 100644 index a9982c9d33a..00000000000 --- a/libquadmath/gdtoa/gethex.c +++ /dev/null @@ -1,350 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - -#ifdef USE_LOCALE -#include "locale.h" -#endif - - int -#ifdef KR_headers -gethex(sp, fpi, exp, bp, sign) - CONST char **sp; FPI *fpi; Long *exp; Bigint **bp; int sign; -#else -gethex( CONST char **sp, FPI *fpi, Long *exp, Bigint **bp, int sign) -#endif -{ - Bigint *b; - CONST unsigned char *decpt, *s0, *s, *s1; - int big, esign, havedig, irv, j, k, n, n0, nbits, up, zret; - ULong L, lostbits, *x; - Long e, e1; -#ifdef USE_LOCALE - int i; -#ifdef NO_LOCALE_CACHE - const unsigned char *decimalpoint = (unsigned char*)localeconv()->decimal_point; -#else - const unsigned char *decimalpoint; - static unsigned char *decimalpoint_cache; - if (!(s0 = decimalpoint_cache)) { - s0 = (unsigned char*)localeconv()->decimal_point; - if ((decimalpoint_cache = (char*)MALLOC(strlen(s0) + 1))) { - strcpy(decimalpoint_cache, s0); - s0 = decimalpoint_cache; - } - } - decimalpoint = s0; -#endif -#endif - - if (!hexdig['0']) - hexdig_init_D2A(); - *bp = 0; - havedig = 0; - s0 = *(CONST unsigned char **)sp + 2; - while(s0[havedig] == '0') - havedig++; - s0 += havedig; - s = s0; - decpt = 0; - zret = 0; - e = 0; - if (hexdig[*s]) - havedig++; - else { - zret = 1; -#ifdef USE_LOCALE - for(i = 0; decimalpoint[i]; ++i) { - if (s[i] != decimalpoint[i]) - goto pcheck; - } - decpt = s += i; -#else - if (*s != '.') - goto pcheck; - decpt = ++s; -#endif - if (!hexdig[*s]) - goto pcheck; - while(*s == '0') - s++; - if (hexdig[*s]) - zret = 0; - havedig = 1; - s0 = s; - } - while(hexdig[*s]) - s++; -#ifdef USE_LOCALE - if (*s == *decimalpoint && !decpt) { - for(i = 1; decimalpoint[i]; ++i) { - if (s[i] != decimalpoint[i]) - goto pcheck; - } - decpt = s += i; -#else - if (*s == '.' && !decpt) { - decpt = ++s; -#endif - while(hexdig[*s]) - s++; - }/*}*/ - if (decpt) - e = -(((Long)(s-decpt)) << 2); - pcheck: - s1 = s; - big = esign = 0; - switch(*s) { - case 'p': - case 'P': - switch(*++s) { - case '-': - esign = 1; - /* no break */ - case '+': - s++; - } - if ((n = hexdig[*s]) == 0 || n > 0x19) { - s = s1; - break; - } - e1 = n - 0x10; - while((n = hexdig[*++s]) !=0 && n <= 0x19) { - if (e1 & 0xf8000000) - big = 1; - e1 = 10*e1 + n - 0x10; - } - if (esign) - e1 = -e1; - e += e1; - } - *sp = (char*)s; - if (!havedig) - *sp = (char*)s0 - 1; - if (zret) - return STRTOG_Zero; - if (big) { - if (esign) { - switch(fpi->rounding) { - case FPI_Round_up: - if (sign) - break; - goto ret_tiny; - case FPI_Round_down: - if (!sign) - break; - goto ret_tiny; - } - goto retz; - ret_tiny: - b = Balloc(0); - b->wds = 1; - b->x[0] = 1; - goto dret; - } - switch(fpi->rounding) { - case FPI_Round_near: - goto ovfl1; - case FPI_Round_up: - if (!sign) - goto ovfl1; - goto ret_big; - case FPI_Round_down: - if (sign) - goto ovfl1; - goto ret_big; - } - ret_big: - nbits = fpi->nbits; - n0 = n = nbits >> kshift; - if (nbits & kmask) - ++n; - for(j = n, k = 0; j >>= 1; ++k); - *bp = b = Balloc(k); - b->wds = n; - for(j = 0; j < n0; ++j) - b->x[j] = ALL_ON; - if (n > n0) - b->x[j] = ULbits >> (ULbits - (nbits & kmask)); - *exp = fpi->emin; - return STRTOG_Normal | STRTOG_Inexlo; - } - n = s1 - s0 - 1; - for(k = 0; n > (1 << (kshift-2)) - 1; n >>= 1) - k++; - b = Balloc(k); - x = b->x; - n = 0; - L = 0; -#ifdef USE_LOCALE - for(i = 0; decimalpoint[i+1]; ++i); -#endif - while(s1 > s0) { -#ifdef USE_LOCALE - if (*--s1 == decimalpoint[i]) { - s1 -= i; - continue; - } -#else - if (*--s1 == '.') - continue; -#endif - if (n == ULbits) { - *x++ = L; - L = 0; - n = 0; - } - L |= (hexdig[*s1] & 0x0f) << n; - n += 4; - } - *x++ = L; - b->wds = n = x - b->x; - n = ULbits*n - hi0bits(L); - nbits = fpi->nbits; - lostbits = 0; - x = b->x; - if (n > nbits) { - n -= nbits; - if (any_on(b,n)) { - lostbits = 1; - k = n - 1; - if (x[k>>kshift] & 1 << (k & kmask)) { - lostbits = 2; - if (k > 0 && any_on(b,k)) - lostbits = 3; - } - } - rshift(b, n); - e += n; - } - else if (n < nbits) { - n = nbits - n; - b = lshift(b, n); - e -= n; - x = b->x; - } - if (e > fpi->emax) { - ovfl: - Bfree(b); - ovfl1: -#ifndef NO_ERRNO - errno = ERANGE; -#endif - return STRTOG_Infinite | STRTOG_Overflow | STRTOG_Inexhi; - } - irv = STRTOG_Normal; - if (e < fpi->emin) { - irv = STRTOG_Denormal; - n = fpi->emin - e; - if (n >= nbits) { - switch (fpi->rounding) { - case FPI_Round_near: - if (n == nbits && (n < 2 || any_on(b,n-1))) - goto one_bit; - break; - case FPI_Round_up: - if (!sign) - goto one_bit; - break; - case FPI_Round_down: - if (sign) { - one_bit: - x[0] = b->wds = 1; - dret: - *bp = b; - *exp = fpi->emin; -#ifndef NO_ERRNO - errno = ERANGE; -#endif - return STRTOG_Denormal | STRTOG_Inexhi - | STRTOG_Underflow; - } - } - Bfree(b); - retz: -#ifndef NO_ERRNO - errno = ERANGE; -#endif - return STRTOG_Zero | STRTOG_Inexlo | STRTOG_Underflow; - } - k = n - 1; - if (lostbits) - lostbits = 1; - else if (k > 0) - lostbits = any_on(b,k); - if (x[k>>kshift] & 1 << (k & kmask)) - lostbits |= 2; - nbits -= n; - rshift(b,n); - e = fpi->emin; - } - if (lostbits) { - up = 0; - switch(fpi->rounding) { - case FPI_Round_zero: - break; - case FPI_Round_near: - if (lostbits & 2 - && (lostbits | x[0]) & 1) - up = 1; - break; - case FPI_Round_up: - up = 1 - sign; - break; - case FPI_Round_down: - up = sign; - } - if (up) { - k = b->wds; - b = increment(b); - x = b->x; - if (irv == STRTOG_Denormal) { - if (nbits == fpi->nbits - 1 - && x[nbits >> kshift] & 1 << (nbits & kmask)) - irv = STRTOG_Normal; - } - else if (b->wds > k - || ((n = nbits & kmask) !=0 - && hi0bits(x[k-1]) < 32-n)) { - rshift(b,1); - if (++e > fpi->emax) - goto ovfl; - } - irv |= STRTOG_Inexhi; - } - else - irv |= STRTOG_Inexlo; - } - *bp = b; - *exp = e; - return irv; - } diff --git a/libquadmath/gdtoa/gmisc.c b/libquadmath/gdtoa/gmisc.c deleted file mode 100644 index 8270ef94479..00000000000 --- a/libquadmath/gdtoa/gmisc.c +++ /dev/null @@ -1,86 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - - void -#ifdef KR_headers -rshift(b, k) Bigint *b; int k; -#else -rshift(Bigint *b, int k) -#endif -{ - ULong *x, *x1, *xe, y; - int n; - - x = x1 = b->x; - n = k >> kshift; - if (n < b->wds) { - xe = x + b->wds; - x += n; - if (k &= kmask) { - n = ULbits - k; - y = *x++ >> k; - while(x < xe) { - *x1++ = (y | (*x << n)) & ALL_ON; - y = *x++ >> k; - } - if ((*x1 = y) !=0) - x1++; - } - else - while(x < xe) - *x1++ = *x++; - } - if ((b->wds = x1 - b->x) == 0) - b->x[0] = 0; - } - - int -#ifdef KR_headers -trailz(b) Bigint *b; -#else -trailz(Bigint *b) -#endif -{ - ULong L, *x, *xe; - int n = 0; - - x = b->x; - xe = x + b->wds; - for(n = 0; x < xe && !*x; x++) - n += ULbits; - if (x < xe) { - L = *x; - n += lo0bits(&L); - } - return n; - } diff --git a/libquadmath/gdtoa/hd_init.c b/libquadmath/gdtoa/hd_init.c deleted file mode 100644 index fa6e18dee8f..00000000000 --- a/libquadmath/gdtoa/hd_init.c +++ /dev/null @@ -1,55 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 2000 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - - unsigned char hexdig[256]; - - static void -#ifdef KR_headers -htinit(h, s, inc) unsigned char *h; unsigned char *s; int inc; -#else -htinit(unsigned char *h, unsigned char *s, int inc) -#endif -{ - int i, j; - for(i = 0; (j = s[i]) !=0; i++) - h[j] = i + inc; - } - - void -hexdig_init_D2A(Void) -{ -#define USC (unsigned char *) - htinit(hexdig, USC "0123456789", 0x10); - htinit(hexdig, USC "abcdef", 0x10 + 10); - htinit(hexdig, USC "ABCDEF", 0x10 + 10); - } diff --git a/libquadmath/gdtoa/hexnan.c b/libquadmath/gdtoa/hexnan.c deleted file mode 100644 index a443721f52d..00000000000 --- a/libquadmath/gdtoa/hexnan.c +++ /dev/null @@ -1,150 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 2000 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - - static void -#ifdef KR_headers -L_shift(x, x1, i) ULong *x; ULong *x1; int i; -#else -L_shift(ULong *x, ULong *x1, int i) -#endif -{ - int j; - - i = 8 - i; - i <<= 2; - j = ULbits - i; - do { - *x |= x[1] << j; - x[1] >>= i; - } while(++x < x1); - } - - int -#ifdef KR_headers -hexnan(sp, fpi, x0) - CONST char **sp; FPI *fpi; ULong *x0; -#else -hexnan( CONST char **sp, FPI *fpi, ULong *x0) -#endif -{ - ULong c, h, *x, *x1, *xe; - CONST char *s; - int havedig, hd0, i, nbits; - - if (!hexdig['0']) - hexdig_init_D2A(); - nbits = fpi->nbits; - x = x0 + (nbits >> kshift); - if (nbits & kmask) - x++; - *--x = 0; - x1 = xe = x; - havedig = hd0 = i = 0; - s = *sp; - /* allow optional initial 0x or 0X */ - while((c = *(CONST unsigned char*)(s+1)) && c <= ' ') - ++s; - if (s[1] == '0' && (s[2] == 'x' || s[2] == 'X') - && *(CONST unsigned char*)(s+3) > ' ') - s += 2; - while((c = *(CONST unsigned char*)++s)) { - if (!(h = hexdig[c])) { - if (c <= ' ') { - if (hd0 < havedig) { - if (x < x1 && i < 8) - L_shift(x, x1, i); - if (x <= x0) { - i = 8; - continue; - } - hd0 = havedig; - *--x = 0; - x1 = x; - i = 0; - } - while(*(CONST unsigned char*)(s+1) <= ' ') - ++s; - if (s[1] == '0' && (s[2] == 'x' || s[2] == 'X') - && *(CONST unsigned char*)(s+3) > ' ') - s += 2; - continue; - } - if (/*(*/ c == ')' && havedig) { - *sp = s + 1; - break; - } -#ifndef GDTOA_NON_PEDANTIC_NANCHECK - do { - if (/*(*/ c == ')') { - *sp = s + 1; - break; - } - } while((c = *++s)); -#endif - return STRTOG_NaN; - } - havedig++; - if (++i > 8) { - if (x <= x0) - continue; - i = 1; - *--x = 0; - } - *x = (*x << 4) | (h & 0xf); - } - if (!havedig) - return STRTOG_NaN; - if (x < x1 && i < 8) - L_shift(x, x1, i); - if (x > x0) { - x1 = x0; - do *x1++ = *x++; - while(x <= xe); - do *x1++ = 0; - while(x1 <= xe); - } - else { - /* truncate high-order word if necessary */ - if ( (i = nbits & (ULbits-1)) !=0) - *xe &= ((ULong)0xffffffff) >> (ULbits - i); - } - for(x1 = xe;; --x1) { - if (*x1 != 0) - break; - if (x1 == x0) { - *x1 = 1; - break; - } - } - return STRTOG_NaNbits; - } diff --git a/libquadmath/gdtoa/makefile b/libquadmath/gdtoa/makefile deleted file mode 100644 index c9a61e9951f..00000000000 --- a/libquadmath/gdtoa/makefile +++ /dev/null @@ -1,42 +0,0 @@ -# /**************************************************************** -# Copyright (C) 1998 by Lucent Technologies -# All Rights Reserved -# -# Permission to use, copy, modify, and distribute this software and -# its documentation for any purpose and without fee is hereby -# granted, provided that the above copyright notice appear in all -# copies and that both that the copyright notice and this -# permission notice and warranty disclaimer appear in supporting -# documentation, and that the name of Lucent or any of its entities -# not be used in advertising or publicity pertaining to -# distribution of the software without specific, written prior -# permission. -# -# LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -# INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -# IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -# SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -# IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -# ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -# THIS SOFTWARE. -# -# ****************************************************************/ - -.SUFFIXES: .c .o -CC = cc -CFLAGS = -g - -.c.o: - $(CC) -c $(CFLAGS) $*.c - -all: gdtoa.a - -gdtoa.a: dmisc.c g_Qfmt.c g__fmt.c gdtoa.c gethex.c gmisc.c hd_init.c\ - hexnan.c misc.c smisc.c strtopQ.c strtodg.c sum.c ulp.c - $(CC) -c $(CFLAGS) $? - x=`echo $? | sed 's/\.c/.o/g'` && ar ruv gdtoa.a $$x && rm $$x - ranlib gdtoa.a || true - -clean: - rm -f *.[ao] diff --git a/libquadmath/gdtoa/misc.c b/libquadmath/gdtoa/misc.c deleted file mode 100644 index ed81c470fba..00000000000 --- a/libquadmath/gdtoa/misc.c +++ /dev/null @@ -1,875 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998, 1999 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - - static Bigint *freelist[Kmax+1]; -#ifndef Omit_Private_Memory -#ifndef PRIVATE_MEM -#define PRIVATE_MEM 2304 -#endif -#define PRIVATE_mem ((PRIVATE_MEM+sizeof(double)-1)/sizeof(double)) -static double private_mem[PRIVATE_mem], *pmem_next = private_mem; -#endif - - Bigint * -Balloc -#ifdef KR_headers - (k) int k; -#else - (int k) -#endif -{ - int x; - Bigint *rv; -#ifndef Omit_Private_Memory - unsigned int len; -#endif - - ACQUIRE_DTOA_LOCK(0); - /* The k > Kmax case does not need ACQUIRE_DTOA_LOCK(0), */ - /* but this case seems very unlikely. */ - if (k <= Kmax && (rv = freelist[k]) !=0) { - freelist[k] = rv->next; - } - else { - x = 1 << k; -#ifdef Omit_Private_Memory - rv = (Bigint *)MALLOC(sizeof(Bigint) + (x-1)*sizeof(ULong)); -#else - len = (sizeof(Bigint) + (x-1)*sizeof(ULong) + sizeof(double) - 1) - /sizeof(double); - if (k <= Kmax && pmem_next - private_mem + len <= PRIVATE_mem) { - rv = (Bigint*)pmem_next; - pmem_next += len; - } - else - rv = (Bigint*)MALLOC(len*sizeof(double)); -#endif - rv->k = k; - rv->maxwds = x; - } - FREE_DTOA_LOCK(0); - rv->sign = rv->wds = 0; - return rv; - } - - void -Bfree -#ifdef KR_headers - (v) Bigint *v; -#else - (Bigint *v) -#endif -{ - if (v) { - if (v->k > Kmax) -#ifdef FREE - FREE((void*)v); -#else - free((void*)v); -#endif - else { - ACQUIRE_DTOA_LOCK(0); - v->next = freelist[v->k]; - freelist[v->k] = v; - FREE_DTOA_LOCK(0); - } - } - } - - int -lo0bits -#ifdef KR_headers - (y) ULong *y; -#else - (ULong *y) -#endif -{ - int k; - ULong x = *y; - - if (x & 7) { - if (x & 1) - return 0; - if (x & 2) { - *y = x >> 1; - return 1; - } - *y = x >> 2; - return 2; - } - k = 0; - if (!(x & 0xffff)) { - k = 16; - x >>= 16; - } - if (!(x & 0xff)) { - k += 8; - x >>= 8; - } - if (!(x & 0xf)) { - k += 4; - x >>= 4; - } - if (!(x & 0x3)) { - k += 2; - x >>= 2; - } - if (!(x & 1)) { - k++; - x >>= 1; - if (!x) - return 32; - } - *y = x; - return k; - } - - Bigint * -multadd -#ifdef KR_headers - (b, m, a) Bigint *b; int m, a; -#else - (Bigint *b, int m, int a) /* multiply by m and add a */ -#endif -{ - int i, wds; -#ifdef ULLong - ULong *x; - ULLong carry, y; -#else - ULong carry, *x, y; -#ifdef Pack_32 - ULong xi, z; -#endif -#endif - Bigint *b1; - - wds = b->wds; - x = b->x; - i = 0; - carry = a; - do { -#ifdef ULLong - y = *x * (ULLong)m + carry; - carry = y >> 32; - *x++ = y & 0xffffffffUL; -#else -#ifdef Pack_32 - xi = *x; - y = (xi & 0xffff) * m + carry; - z = (xi >> 16) * m + (y >> 16); - carry = z >> 16; - *x++ = (z << 16) + (y & 0xffff); -#else - y = *x * m + carry; - carry = y >> 16; - *x++ = y & 0xffff; -#endif -#endif - } - while(++i < wds); - if (carry) { - if (wds >= b->maxwds) { - b1 = Balloc(b->k+1); - Bcopy(b1, b); - Bfree(b); - b = b1; - } - b->x[wds++] = carry; - b->wds = wds; - } - return b; - } - - int -hi0bits_D2A -#ifdef KR_headers - (x) ULong x; -#else - (ULong x) -#endif -{ - int k = 0; - - if (!(x & 0xffff0000)) { - k = 16; - x <<= 16; - } - if (!(x & 0xff000000)) { - k += 8; - x <<= 8; - } - if (!(x & 0xf0000000)) { - k += 4; - x <<= 4; - } - if (!(x & 0xc0000000)) { - k += 2; - x <<= 2; - } - if (!(x & 0x80000000)) { - k++; - if (!(x & 0x40000000)) - return 32; - } - return k; - } - - Bigint * -i2b -#ifdef KR_headers - (i) int i; -#else - (int i) -#endif -{ - Bigint *b; - - b = Balloc(1); - b->x[0] = i; - b->wds = 1; - return b; - } - - Bigint * -mult -#ifdef KR_headers - (a, b) Bigint *a, *b; -#else - (Bigint *a, Bigint *b) -#endif -{ - Bigint *c; - int k, wa, wb, wc; - ULong *x, *xa, *xae, *xb, *xbe, *xc, *xc0; - ULong y; -#ifdef ULLong - ULLong carry, z; -#else - ULong carry, z; -#ifdef Pack_32 - ULong z2; -#endif -#endif - - if (a->wds < b->wds) { - c = a; - a = b; - b = c; - } - k = a->k; - wa = a->wds; - wb = b->wds; - wc = wa + wb; - if (wc > a->maxwds) - k++; - c = Balloc(k); - for(x = c->x, xa = x + wc; x < xa; x++) - *x = 0; - xa = a->x; - xae = xa + wa; - xb = b->x; - xbe = xb + wb; - xc0 = c->x; -#ifdef ULLong - for(; xb < xbe; xc0++) { - if ( (y = *xb++) !=0) { - x = xa; - xc = xc0; - carry = 0; - do { - z = *x++ * (ULLong)y + *xc + carry; - carry = z >> 32; - *xc++ = z & 0xffffffffUL; - } - while(x < xae); - *xc = carry; - } - } -#else -#ifdef Pack_32 - for(; xb < xbe; xb++, xc0++) { - if ( (y = *xb & 0xffff) !=0) { - x = xa; - xc = xc0; - carry = 0; - do { - z = (*x & 0xffff) * y + (*xc & 0xffff) + carry; - carry = z >> 16; - z2 = (*x++ >> 16) * y + (*xc >> 16) + carry; - carry = z2 >> 16; - Storeinc(xc, z2, z); - } - while(x < xae); - *xc = carry; - } - if ( (y = *xb >> 16) !=0) { - x = xa; - xc = xc0; - carry = 0; - z2 = *xc; - do { - z = (*x & 0xffff) * y + (*xc >> 16) + carry; - carry = z >> 16; - Storeinc(xc, z, z2); - z2 = (*x++ >> 16) * y + (*xc & 0xffff) + carry; - carry = z2 >> 16; - } - while(x < xae); - *xc = z2; - } - } -#else - for(; xb < xbe; xc0++) { - if ( (y = *xb++) !=0) { - x = xa; - xc = xc0; - carry = 0; - do { - z = *x++ * y + *xc + carry; - carry = z >> 16; - *xc++ = z & 0xffff; - } - while(x < xae); - *xc = carry; - } - } -#endif -#endif - for(xc0 = c->x, xc = xc0 + wc; wc > 0 && !*--xc; --wc) ; - c->wds = wc; - return c; - } - - static Bigint *p5s; - - Bigint * -pow5mult -#ifdef KR_headers - (b, k) Bigint *b; int k; -#else - (Bigint *b, int k) -#endif -{ - Bigint *b1, *p5, *p51; - int i; - static int p05[3] = { 5, 25, 125 }; - - if ( (i = k & 3) !=0) - b = multadd(b, p05[i-1], 0); - - if (!(k >>= 2)) - return b; - if ((p5 = p5s) == 0) { - /* first time */ -#ifdef MULTIPLE_THREADS - ACQUIRE_DTOA_LOCK(1); - if (!(p5 = p5s)) { - p5 = p5s = i2b(625); - p5->next = 0; - } - FREE_DTOA_LOCK(1); -#else - p5 = p5s = i2b(625); - p5->next = 0; -#endif - } - for(;;) { - if (k & 1) { - b1 = mult(b, p5); - Bfree(b); - b = b1; - } - if (!(k >>= 1)) - break; - if ((p51 = p5->next) == 0) { -#ifdef MULTIPLE_THREADS - ACQUIRE_DTOA_LOCK(1); - if (!(p51 = p5->next)) { - p51 = p5->next = mult(p5,p5); - p51->next = 0; - } - FREE_DTOA_LOCK(1); -#else - p51 = p5->next = mult(p5,p5); - p51->next = 0; -#endif - } - p5 = p51; - } - return b; - } - - Bigint * -lshift -#ifdef KR_headers - (b, k) Bigint *b; int k; -#else - (Bigint *b, int k) -#endif -{ - int i, k1, n, n1; - Bigint *b1; - ULong *x, *x1, *xe, z; - - n = k >> kshift; - k1 = b->k; - n1 = n + b->wds + 1; - for(i = b->maxwds; n1 > i; i <<= 1) - k1++; - b1 = Balloc(k1); - x1 = b1->x; - for(i = 0; i < n; i++) - *x1++ = 0; - x = b->x; - xe = x + b->wds; - if (k &= kmask) { -#ifdef Pack_32 - k1 = 32 - k; - z = 0; - do { - *x1++ = *x << k | z; - z = *x++ >> k1; - } - while(x < xe); - if ((*x1 = z) !=0) - ++n1; -#else - k1 = 16 - k; - z = 0; - do { - *x1++ = *x << k & 0xffff | z; - z = *x++ >> k1; - } - while(x < xe); - if (*x1 = z) - ++n1; -#endif - } - else do - *x1++ = *x++; - while(x < xe); - b1->wds = n1 - 1; - Bfree(b); - return b1; - } - - int -cmp -#ifdef KR_headers - (a, b) Bigint *a, *b; -#else - (Bigint *a, Bigint *b) -#endif -{ - ULong *xa, *xa0, *xb, *xb0; - int i, j; - - i = a->wds; - j = b->wds; -#ifdef DEBUG - if (i > 1 && !a->x[i-1]) - Bug("cmp called with a->x[a->wds-1] == 0"); - if (j > 1 && !b->x[j-1]) - Bug("cmp called with b->x[b->wds-1] == 0"); -#endif - if (i -= j) - return i; - xa0 = a->x; - xa = xa0 + j; - xb0 = b->x; - xb = xb0 + j; - for(;;) { - if (*--xa != *--xb) - return *xa < *xb ? -1 : 1; - if (xa <= xa0) - break; - } - return 0; - } - - Bigint * -diff -#ifdef KR_headers - (a, b) Bigint *a, *b; -#else - (Bigint *a, Bigint *b) -#endif -{ - Bigint *c; - int i, wa, wb; - ULong *xa, *xae, *xb, *xbe, *xc; -#ifdef ULLong - ULLong borrow, y; -#else - ULong borrow, y; -#ifdef Pack_32 - ULong z; -#endif -#endif - - i = cmp(a,b); - if (!i) { - c = Balloc(0); - c->wds = 1; - c->x[0] = 0; - return c; - } - if (i < 0) { - c = a; - a = b; - b = c; - i = 1; - } - else - i = 0; - c = Balloc(a->k); - c->sign = i; - wa = a->wds; - xa = a->x; - xae = xa + wa; - wb = b->wds; - xb = b->x; - xbe = xb + wb; - xc = c->x; - borrow = 0; -#ifdef ULLong - do { - y = (ULLong)*xa++ - *xb++ - borrow; - borrow = y >> 32 & 1UL; - *xc++ = y & 0xffffffffUL; - } - while(xb < xbe); - while(xa < xae) { - y = *xa++ - borrow; - borrow = y >> 32 & 1UL; - *xc++ = y & 0xffffffffUL; - } -#else -#ifdef Pack_32 - do { - y = (*xa & 0xffff) - (*xb & 0xffff) - borrow; - borrow = (y & 0x10000) >> 16; - z = (*xa++ >> 16) - (*xb++ >> 16) - borrow; - borrow = (z & 0x10000) >> 16; - Storeinc(xc, z, y); - } - while(xb < xbe); - while(xa < xae) { - y = (*xa & 0xffff) - borrow; - borrow = (y & 0x10000) >> 16; - z = (*xa++ >> 16) - borrow; - borrow = (z & 0x10000) >> 16; - Storeinc(xc, z, y); - } -#else - do { - y = *xa++ - *xb++ - borrow; - borrow = (y & 0x10000) >> 16; - *xc++ = y & 0xffff; - } - while(xb < xbe); - while(xa < xae) { - y = *xa++ - borrow; - borrow = (y & 0x10000) >> 16; - *xc++ = y & 0xffff; - } -#endif -#endif - while(!*--xc) - wa--; - c->wds = wa; - return c; - } - - double -b2d -#ifdef KR_headers - (a, e) Bigint *a; int *e; -#else - (Bigint *a, int *e) -#endif -{ - ULong *xa, *xa0, w, y, z; - int k; - U d; -#ifdef VAX - ULong d0, d1; -#else -#define d0 word0(&d) -#define d1 word1(&d) -#endif - - xa0 = a->x; - xa = xa0 + a->wds; - y = *--xa; -#ifdef DEBUG - if (!y) Bug("zero y in b2d"); -#endif - k = hi0bits(y); - *e = 32 - k; -#ifdef Pack_32 - if (k < Ebits) { - d0 = Exp_1 | y >> (Ebits - k); - w = xa > xa0 ? *--xa : 0; - d1 = y << ((32-Ebits) + k) | w >> (Ebits - k); - goto ret_d; - } - z = xa > xa0 ? *--xa : 0; - if (k -= Ebits) { - d0 = Exp_1 | y << k | z >> (32 - k); - y = xa > xa0 ? *--xa : 0; - d1 = z << k | y >> (32 - k); - } - else { - d0 = Exp_1 | y; - d1 = z; - } -#else - if (k < Ebits + 16) { - z = xa > xa0 ? *--xa : 0; - d0 = Exp_1 | y << k - Ebits | z >> Ebits + 16 - k; - w = xa > xa0 ? *--xa : 0; - y = xa > xa0 ? *--xa : 0; - d1 = z << k + 16 - Ebits | w << k - Ebits | y >> 16 + Ebits - k; - goto ret_d; - } - z = xa > xa0 ? *--xa : 0; - w = xa > xa0 ? *--xa : 0; - k -= Ebits + 16; - d0 = Exp_1 | y << k + 16 | z << k | w >> 16 - k; - y = xa > xa0 ? *--xa : 0; - d1 = w << k + 16 | y << k; -#endif - ret_d: -#ifdef VAX - word0(&d) = d0 >> 16 | d0 << 16; - word1(&d) = d1 >> 16 | d1 << 16; -#endif - return dval(&d); - } -#undef d0 -#undef d1 - - Bigint * -d2b -#ifdef KR_headers - (dd, e, bits) double dd; int *e, *bits; -#else - (double dd, int *e, int *bits) -#endif -{ - Bigint *b; - U d; -#ifndef Sudden_Underflow - int i; -#endif - int de, k; - ULong *x, y, z; -#ifdef VAX - ULong d0, d1; -#else -#define d0 word0(&d) -#define d1 word1(&d) -#endif - d.d = dd; -#ifdef VAX - d0 = word0(&d) >> 16 | word0(&d) << 16; - d1 = word1(&d) >> 16 | word1(&d) << 16; -#endif - -#ifdef Pack_32 - b = Balloc(1); -#else - b = Balloc(2); -#endif - x = b->x; - - z = d0 & Frac_mask; - d0 &= 0x7fffffff; /* clear sign bit, which we ignore */ -#ifdef Sudden_Underflow - de = (int)(d0 >> Exp_shift); -#ifndef IBM - z |= Exp_msk11; -#endif -#else - if ( (de = (int)(d0 >> Exp_shift)) !=0) - z |= Exp_msk1; -#endif -#ifdef Pack_32 - if ( (y = d1) !=0) { - if ( (k = lo0bits(&y)) !=0) { - x[0] = y | z << (32 - k); - z >>= k; - } - else - x[0] = y; -#ifndef Sudden_Underflow - i = -#endif - b->wds = (x[1] = z) !=0 ? 2 : 1; - } - else { - k = lo0bits(&z); - x[0] = z; -#ifndef Sudden_Underflow - i = -#endif - b->wds = 1; - k += 32; - } -#else - if ( (y = d1) !=0) { - if ( (k = lo0bits(&y)) !=0) - if (k >= 16) { - x[0] = y | z << 32 - k & 0xffff; - x[1] = z >> k - 16 & 0xffff; - x[2] = z >> k; - i = 2; - } - else { - x[0] = y & 0xffff; - x[1] = y >> 16 | z << 16 - k & 0xffff; - x[2] = z >> k & 0xffff; - x[3] = z >> k+16; - i = 3; - } - else { - x[0] = y & 0xffff; - x[1] = y >> 16; - x[2] = z & 0xffff; - x[3] = z >> 16; - i = 3; - } - } - else { -#ifdef DEBUG - if (!z) - Bug("Zero passed to d2b"); -#endif - k = lo0bits(&z); - if (k >= 16) { - x[0] = z; - i = 0; - } - else { - x[0] = z & 0xffff; - x[1] = z >> 16; - i = 1; - } - k += 32; - } - while(!x[i]) - --i; - b->wds = i + 1; -#endif -#ifndef Sudden_Underflow - if (de) { -#endif -#ifdef IBM - *e = (de - Bias - (P-1) << 2) + k; - *bits = 4*P + 8 - k - hi0bits(word0(&d) & Frac_mask); -#else - *e = de - Bias - (P-1) + k; - *bits = P - k; -#endif -#ifndef Sudden_Underflow - } - else { - *e = de - Bias - (P-1) + 1 + k; -#ifdef Pack_32 - *bits = 32*i - hi0bits(x[i-1]); -#else - *bits = (i+2)*16 - hi0bits(x[i]); -#endif - } -#endif - return b; - } -#undef d0 -#undef d1 - - CONST double -#ifdef IEEE_Arith -bigtens[] = { 1e16, 1e32, 1e64, 1e128, 1e256 }; -CONST double tinytens[] = { 1e-16, 1e-32, 1e-64, 1e-128, 1e-256 - }; -#else -#ifdef IBM -bigtens[] = { 1e16, 1e32, 1e64 }; -CONST double tinytens[] = { 1e-16, 1e-32, 1e-64 }; -#else -bigtens[] = { 1e16, 1e32 }; -CONST double tinytens[] = { 1e-16, 1e-32 }; -#endif -#endif - - CONST double -tens[] = { - 1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 1e9, - 1e10, 1e11, 1e12, 1e13, 1e14, 1e15, 1e16, 1e17, 1e18, 1e19, - 1e20, 1e21, 1e22 -#ifdef VAX - , 1e23, 1e24 -#endif - }; - -#ifdef NO_STRING_H - char * -#ifdef KR_headers -strcpy_D2A(a, b) char *a; char *b; -#else -strcpy_D2A(char *a, CONST char *b) -#endif -{ - while((*a = *b++)) - a++; - return a; - } - - - Char * -#ifdef KR_headers -memcpy_D2A(a, b, len) Char *a; Char *b; size_t len; -#else -memcpy_D2A(void *a1, void *b1, size_t len) -#endif -{ - char *a = (char*)a1, *ae = a + len; - char *b = (char*)b1, *a0 = a; - while(a < ae) - *a++ = *b++; - return a0; - } - -#endif /* NO_STRING_H */ diff --git a/libquadmath/gdtoa/smisc.c b/libquadmath/gdtoa/smisc.c deleted file mode 100644 index f4dbafb21c5..00000000000 --- a/libquadmath/gdtoa/smisc.c +++ /dev/null @@ -1,191 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998, 1999 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - - Bigint * -s2b -#ifdef KR_headers - (s, nd0, nd, y9, dplen) CONST char *s; int dplen, nd0, nd; ULong y9; -#else - (CONST char *s, int nd0, int nd, ULong y9, int dplen) -#endif -{ - Bigint *b; - int i, k; - Long x, y; - - x = (nd + 8) / 9; - for(k = 0, y = 1; x > y; y <<= 1, k++) ; -#ifdef Pack_32 - b = Balloc(k); - b->x[0] = y9; - b->wds = 1; -#else - b = Balloc(k+1); - b->x[0] = y9 & 0xffff; - b->wds = (b->x[1] = y9 >> 16) ? 2 : 1; -#endif - - i = 9; - if (9 < nd0) { - s += 9; - do b = multadd(b, 10, *s++ - '0'); - while(++i < nd0); - s += dplen; - } - else - s += dplen + 9; - for(; i < nd; i++) - b = multadd(b, 10, *s++ - '0'); - return b; - } - - double -ratio -#ifdef KR_headers - (a, b) Bigint *a, *b; -#else - (Bigint *a, Bigint *b) -#endif -{ - U da, db; - int k, ka, kb; - - dval(&da) = b2d(a, &ka); - dval(&db) = b2d(b, &kb); - k = ka - kb + ULbits*(a->wds - b->wds); -#ifdef IBM - if (k > 0) { - word0(&da) += (k >> 2)*Exp_msk1; - if (k &= 3) - dval(&da) *= 1 << k; - } - else { - k = -k; - word0(&db) += (k >> 2)*Exp_msk1; - if (k &= 3) - dval(&db) *= 1 << k; - } -#else - if (k > 0) - word0(&da) += k*Exp_msk1; - else { - k = -k; - word0(&db) += k*Exp_msk1; - } -#endif - return dval(&da) / dval(&db); - } - -#ifdef INFNAN_CHECK - - int -match -#ifdef KR_headers - (sp, t) char **sp, *t; -#else - (CONST char **sp, char *t) -#endif -{ - int c, d; - CONST char *s = *sp; - - while( (d = *t++) !=0) { - if ((c = *++s) >= 'A' && c <= 'Z') - c += 'a' - 'A'; - if (c != d) - return 0; - } - *sp = s + 1; - return 1; - } -#endif /* INFNAN_CHECK */ - - void -#ifdef KR_headers -copybits(c, n, b) ULong *c; int n; Bigint *b; -#else -copybits(ULong *c, int n, Bigint *b) -#endif -{ - ULong *ce, *x, *xe; -#ifdef Pack_16 - int nw, nw1; -#endif - - ce = c + ((n-1) >> kshift) + 1; - x = b->x; -#ifdef Pack_32 - xe = x + b->wds; - while(x < xe) - *c++ = *x++; -#else - nw = b->wds; - nw1 = nw & 1; - for(xe = x + (nw - nw1); x < xe; x += 2) - Storeinc(c, x[1], x[0]); - if (nw1) - *c++ = *x; -#endif - while(c < ce) - *c++ = 0; - } - - ULong -#ifdef KR_headers -any_on(b, k) Bigint *b; int k; -#else -any_on(Bigint *b, int k) -#endif -{ - int n, nwds; - ULong *x, *x0, x1, x2; - - x = b->x; - nwds = b->wds; - n = k >> kshift; - if (n > nwds) - n = nwds; - else if (n < nwds && (k &= kmask)) { - x1 = x2 = x[n]; - x1 >>= k; - x1 <<= k; - if (x1 != x2) - return 1; - } - x0 = x; - x += n; - while(x > x0) - if (*--x) - return 1; - return 0; - } diff --git a/libquadmath/gdtoa/strtodg.c b/libquadmath/gdtoa/strtodg.c deleted file mode 100644 index 5059869ecf5..00000000000 --- a/libquadmath/gdtoa/strtodg.c +++ /dev/null @@ -1,1065 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998-2001 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - -#ifdef USE_LOCALE -#include "locale.h" -#endif - - static CONST int -fivesbits[] = { 0, 3, 5, 7, 10, 12, 14, 17, 19, 21, - 24, 26, 28, 31, 33, 35, 38, 40, 42, 45, - 47, 49, 52 -#ifdef VAX - , 54, 56 -#endif - }; - - Bigint * -#ifdef KR_headers -increment(b) Bigint *b; -#else -increment(Bigint *b) -#endif -{ - ULong *x, *xe; - Bigint *b1; -#ifdef Pack_16 - ULong carry = 1, y; -#endif - - x = b->x; - xe = x + b->wds; -#ifdef Pack_32 - do { - if (*x < (ULong)0xffffffffL) { - ++*x; - return b; - } - *x++ = 0; - } while(x < xe); -#else - do { - y = *x + carry; - carry = y >> 16; - *x++ = y & 0xffff; - if (!carry) - return b; - } while(x < xe); - if (carry) -#endif - { - if (b->wds >= b->maxwds) { - b1 = Balloc(b->k+1); - Bcopy(b1,b); - Bfree(b); - b = b1; - } - b->x[b->wds++] = 1; - } - return b; - } - - void -#ifdef KR_headers -decrement(b) Bigint *b; -#else -decrement(Bigint *b) -#endif -{ - ULong *x, *xe; -#ifdef Pack_16 - ULong borrow = 1, y; -#endif - - x = b->x; - xe = x + b->wds; -#ifdef Pack_32 - do { - if (*x) { - --*x; - break; - } - *x++ = 0xffffffffL; - } - while(x < xe); -#else - do { - y = *x - borrow; - borrow = (y & 0x10000) >> 16; - *x++ = y & 0xffff; - } while(borrow && x < xe); -#endif - } - - static int -#ifdef KR_headers -all_on(b, n) Bigint *b; int n; -#else -all_on(Bigint *b, int n) -#endif -{ - ULong *x, *xe; - - x = b->x; - xe = x + (n >> kshift); - while(x < xe) - if ((*x++ & ALL_ON) != ALL_ON) - return 0; - if (n &= kmask) - return ((*x | (ALL_ON << n)) & ALL_ON) == ALL_ON; - return 1; - } - - Bigint * -#ifdef KR_headers -set_ones(b, n) Bigint *b; int n; -#else -set_ones(Bigint *b, int n) -#endif -{ - int k; - ULong *x, *xe; - - k = (n + ((1 << kshift) - 1)) >> kshift; - if (b->k < k) { - Bfree(b); - b = Balloc(k); - } - k = n >> kshift; - if (n &= kmask) - k++; - b->wds = k; - x = b->x; - xe = x + k; - while(x < xe) - *x++ = ALL_ON; - if (n) - x[-1] >>= ULbits - n; - return b; - } - - static int -rvOK -#ifdef KR_headers - (d, fpi, exp, bits, exact, rd, irv) - U *d; FPI *fpi; Long *exp; ULong *bits; int exact, rd, *irv; -#else - (U *d, FPI *fpi, Long *exp, ULong *bits, int exact, int rd, int *irv) -#endif -{ - Bigint *b; - ULong carry, inex, lostbits; - int bdif, e, j, k, k1, nb, rv; - - carry = rv = 0; - b = d2b(dval(d), &e, &bdif); - bdif -= nb = fpi->nbits; - e += bdif; - if (bdif <= 0) { - if (exact) - goto trunc; - goto ret; - } - if (P == nb) { - if ( -#ifndef IMPRECISE_INEXACT - exact && -#endif - fpi->rounding == -#ifdef RND_PRODQUOT - FPI_Round_near -#else - Flt_Rounds -#endif - ) goto trunc; - goto ret; - } - switch(rd) { - case 1: /* round down (toward -Infinity) */ - goto trunc; - case 2: /* round up (toward +Infinity) */ - break; - default: /* round near */ - k = bdif - 1; - if (k < 0) - goto trunc; - if (!k) { - if (!exact) - goto ret; - if (b->x[0] & 2) - break; - goto trunc; - } - if (b->x[k>>kshift] & ((ULong)1 << (k & kmask))) - break; - goto trunc; - } - /* "break" cases: round up 1 bit, then truncate; bdif > 0 */ - carry = 1; - trunc: - inex = lostbits = 0; - if (bdif > 0) { - if ( (lostbits = any_on(b, bdif)) !=0) - inex = STRTOG_Inexlo; - rshift(b, bdif); - if (carry) { - inex = STRTOG_Inexhi; - b = increment(b); - if ( (j = nb & kmask) !=0) - j = ULbits - j; - if (hi0bits(b->x[b->wds - 1]) != j) { - if (!lostbits) - lostbits = b->x[0] & 1; - rshift(b, 1); - e++; - } - } - } - else if (bdif < 0) - b = lshift(b, -bdif); - if (e < fpi->emin) { - k = fpi->emin - e; - e = fpi->emin; - if (k > nb || fpi->sudden_underflow) { - b->wds = inex = 0; - *irv = STRTOG_Underflow | STRTOG_Inexlo; - } - else { - k1 = k - 1; - if (k1 > 0 && !lostbits) - lostbits = any_on(b, k1); - if (!lostbits && !exact) - goto ret; - lostbits |= - carry = b->x[k1>>kshift] & (1 << (k1 & kmask)); - rshift(b, k); - *irv = STRTOG_Denormal; - if (carry) { - b = increment(b); - inex = STRTOG_Inexhi | STRTOG_Underflow; - } - else if (lostbits) - inex = STRTOG_Inexlo | STRTOG_Underflow; - } - } - else if (e > fpi->emax) { - e = fpi->emax + 1; - *irv = STRTOG_Infinite | STRTOG_Overflow | STRTOG_Inexhi; -#ifndef NO_ERRNO - errno = ERANGE; -#endif - b->wds = inex = 0; - } - *exp = e; - copybits(bits, nb, b); - *irv |= inex; - rv = 1; - ret: - Bfree(b); - return rv; - } - - static int -#ifdef KR_headers -mantbits(d) U *d; -#else -mantbits(U *d) -#endif -{ - ULong L; -#ifdef VAX - L = word1(d) << 16 | word1(d) >> 16; - if (L) -#else - if ( (L = word1(d)) !=0) -#endif - return P - lo0bits(&L); -#ifdef VAX - L = word0(d) << 16 | word0(d) >> 16 | Exp_msk11; -#else - L = word0(d) | Exp_msk1; -#endif - return P - 32 - lo0bits(&L); - } - - int -strtodg -#ifdef KR_headers - (s00, se, fpi, exp, bits) - CONST char *s00; char **se; FPI *fpi; Long *exp; ULong *bits; -#else - (CONST char *s00, char **se, FPI *fpi, Long *exp, ULong *bits) -#endif -{ - int abe, abits, asub; - int bb0, bb2, bb5, bbe, bd2, bd5, bbbits, bs2, c, decpt, denorm; - int dsign, e, e1, e2, emin, esign, finished, i, inex, irv; - int j, k, nbits, nd, nd0, nf, nz, nz0, rd, rvbits, rve, rve1, sign; - int sudden_underflow; - CONST char *s, *s0, *s1; - double adj0, tol; - Long L; - U adj, rv; - ULong *b, *be, y, z; - Bigint *ab, *bb, *bb1, *bd, *bd0, *bs, *delta, *rvb, *rvb0; -#ifdef USE_LOCALE /*{{*/ -#ifdef NO_LOCALE_CACHE - char *decimalpoint = localeconv()->decimal_point; - int dplen = strlen(decimalpoint); -#else - char *decimalpoint; - static char *decimalpoint_cache; - static int dplen; - if (!(s0 = decimalpoint_cache)) { - s0 = localeconv()->decimal_point; - if ((decimalpoint_cache = (char*)MALLOC(strlen(s0) + 1))) { - strcpy(decimalpoint_cache, s0); - s0 = decimalpoint_cache; - } - dplen = strlen(s0); - } - decimalpoint = (char*)s0; -#endif /*NO_LOCALE_CACHE*/ -#else /*USE_LOCALE}{*/ -#define dplen 1 -#endif /*USE_LOCALE}}*/ - - irv = STRTOG_Zero; - denorm = sign = nz0 = nz = 0; - dval(&rv) = 0.; - rvb = 0; - nbits = fpi->nbits; - for(s = s00;;s++) switch(*s) { - case '-': - sign = 1; - /* no break */ - case '+': - if (*++s) - goto break2; - /* no break */ - case 0: - sign = 0; - irv = STRTOG_NoNumber; - s = s00; - goto ret; - case '\t': - case '\n': - case '\v': - case '\f': - case '\r': - case ' ': - continue; - default: - goto break2; - } - break2: - if (*s == '0') { -#ifndef NO_HEX_FP - switch(s[1]) { - case 'x': - case 'X': - irv = gethex(&s, fpi, exp, &rvb, sign); - if (irv == STRTOG_NoNumber) { - s = s00; - sign = 0; - } - goto ret; - } -#endif - nz0 = 1; - while(*++s == '0') ; - if (!*s) - goto ret; - } - sudden_underflow = fpi->sudden_underflow; - s0 = s; - y = z = 0; - for(decpt = nd = nf = 0; (c = *s) >= '0' && c <= '9'; nd++, s++) - if (nd < 9) - y = 10*y + c - '0'; - else if (nd < 16) - z = 10*z + c - '0'; - nd0 = nd; -#ifdef USE_LOCALE - if (c == *decimalpoint) { - for(i = 1; decimalpoint[i]; ++i) - if (s[i] != decimalpoint[i]) - goto dig_done; - s += i; - c = *s; -#else - if (c == '.') { - c = *++s; -#endif - decpt = 1; - if (!nd) { - for(; c == '0'; c = *++s) - nz++; - if (c > '0' && c <= '9') { - s0 = s; - nf += nz; - nz = 0; - goto have_dig; - } - goto dig_done; - } - for(; c >= '0' && c <= '9'; c = *++s) { - have_dig: - nz++; - if (c -= '0') { - nf += nz; - for(i = 1; i < nz; i++) - if (nd++ < 9) - y *= 10; - else if (nd <= DBL_DIG + 1) - z *= 10; - if (nd++ < 9) - y = 10*y + c; - else if (nd <= DBL_DIG + 1) - z = 10*z + c; - nz = 0; - } - } - }/*}*/ - dig_done: - e = 0; - if (c == 'e' || c == 'E') { - if (!nd && !nz && !nz0) { - irv = STRTOG_NoNumber; - s = s00; - goto ret; - } - s00 = s; - esign = 0; - switch(c = *++s) { - case '-': - esign = 1; - case '+': - c = *++s; - } - if (c >= '0' && c <= '9') { - while(c == '0') - c = *++s; - if (c > '0' && c <= '9') { - L = c - '0'; - s1 = s; - while((c = *++s) >= '0' && c <= '9') - L = 10*L + c - '0'; - if (s - s1 > 8 || L > 19999) - /* Avoid confusion from exponents - * so large that e might overflow. - */ - e = 19999; /* safe for 16 bit ints */ - else - e = (int)L; - if (esign) - e = -e; - } - else - e = 0; - } - else - s = s00; - } - if (!nd) { - if (!nz && !nz0) { -#ifdef INFNAN_CHECK - /* Check for Nan and Infinity */ - if (!decpt) - switch(c) { - case 'i': - case 'I': - if (match(&s,"nf")) { - --s; - if (!match(&s,"inity")) - ++s; - irv = STRTOG_Infinite; - goto infnanexp; - } - break; - case 'n': - case 'N': - if (match(&s, "an")) { - irv = STRTOG_NaN; - *exp = fpi->emax + 1; -#ifndef No_Hex_NaN - if (*s == '(') /*)*/ - irv = hexnan(&s, fpi, bits); -#endif - goto infnanexp; - } - } -#endif /* INFNAN_CHECK */ - irv = STRTOG_NoNumber; - s = s00; - } - goto ret; - } - - irv = STRTOG_Normal; - e1 = e -= nf; - rd = 0; - switch(fpi->rounding & 3) { - case FPI_Round_up: - rd = 2 - sign; - break; - case FPI_Round_zero: - rd = 1; - break; - case FPI_Round_down: - rd = 1 + sign; - } - - /* Now we have nd0 digits, starting at s0, followed by a - * decimal point, followed by nd-nd0 digits. The number we're - * after is the integer represented by those digits times - * 10**e */ - - if (!nd0) - nd0 = nd; - k = nd < DBL_DIG + 1 ? nd : DBL_DIG + 1; - dval(&rv) = y; - if (k > 9) - dval(&rv) = tens[k - 9] * dval(&rv) + z; - bd0 = 0; - if (nbits <= P && nd <= DBL_DIG) { - if (!e) { - if (rvOK(&rv, fpi, exp, bits, 1, rd, &irv)) - goto ret; - } - else if (e > 0) { - if (e <= Ten_pmax) { -#ifdef VAX - goto vax_ovfl_check; -#else - i = fivesbits[e] + mantbits(&rv) <= P; - /* rv = */ rounded_product(dval(&rv), tens[e]); - if (rvOK(&rv, fpi, exp, bits, i, rd, &irv)) - goto ret; - e1 -= e; - goto rv_notOK; -#endif - } - i = DBL_DIG - nd; - if (e <= Ten_pmax + i) { - /* A fancier test would sometimes let us do - * this for larger i values. - */ - e2 = e - i; - e1 -= i; - dval(&rv) *= tens[i]; -#ifdef VAX - /* VAX exponent range is so narrow we must - * worry about overflow here... - */ - vax_ovfl_check: - dval(&adj) = dval(&rv); - word0(&adj) -= P*Exp_msk1; - /* adj = */ rounded_product(dval(&adj), tens[e2]); - if ((word0(&adj) & Exp_mask) - > Exp_msk1*(DBL_MAX_EXP+Bias-1-P)) - goto rv_notOK; - word0(&adj) += P*Exp_msk1; - dval(&rv) = dval(&adj); -#else - /* rv = */ rounded_product(dval(&rv), tens[e2]); -#endif - if (rvOK(&rv, fpi, exp, bits, 0, rd, &irv)) - goto ret; - e1 -= e2; - } - } -#ifndef Inaccurate_Divide - else if (e >= -Ten_pmax) { - /* rv = */ rounded_quotient(dval(&rv), tens[-e]); - if (rvOK(&rv, fpi, exp, bits, 0, rd, &irv)) - goto ret; - e1 -= e; - } -#endif - } - rv_notOK: - e1 += nd - k; - - /* Get starting approximation = rv * 10**e1 */ - - e2 = 0; - if (e1 > 0) { - if ( (i = e1 & 15) !=0) - dval(&rv) *= tens[i]; - if (e1 &= ~15) { - e1 >>= 4; - while(e1 >= (1 << (n_bigtens-1))) { - e2 += ((word0(&rv) & Exp_mask) - >> Exp_shift1) - Bias; - word0(&rv) &= ~Exp_mask; - word0(&rv) |= Bias << Exp_shift1; - dval(&rv) *= bigtens[n_bigtens-1]; - e1 -= 1 << (n_bigtens-1); - } - e2 += ((word0(&rv) & Exp_mask) >> Exp_shift1) - Bias; - word0(&rv) &= ~Exp_mask; - word0(&rv) |= Bias << Exp_shift1; - for(j = 0; e1 > 0; j++, e1 >>= 1) - if (e1 & 1) - dval(&rv) *= bigtens[j]; - } - } - else if (e1 < 0) { - e1 = -e1; - if ( (i = e1 & 15) !=0) - dval(&rv) /= tens[i]; - if (e1 &= ~15) { - e1 >>= 4; - while(e1 >= (1 << (n_bigtens-1))) { - e2 += ((word0(&rv) & Exp_mask) - >> Exp_shift1) - Bias; - word0(&rv) &= ~Exp_mask; - word0(&rv) |= Bias << Exp_shift1; - dval(&rv) *= tinytens[n_bigtens-1]; - e1 -= 1 << (n_bigtens-1); - } - e2 += ((word0(&rv) & Exp_mask) >> Exp_shift1) - Bias; - word0(&rv) &= ~Exp_mask; - word0(&rv) |= Bias << Exp_shift1; - for(j = 0; e1 > 0; j++, e1 >>= 1) - if (e1 & 1) - dval(&rv) *= tinytens[j]; - } - } -#ifdef IBM - /* e2 is a correction to the (base 2) exponent of the return - * value, reflecting adjustments above to avoid overflow in the - * native arithmetic. For native IBM (base 16) arithmetic, we - * must multiply e2 by 4 to change from base 16 to 2. - */ - e2 <<= 2; -#endif - rvb = d2b(dval(&rv), &rve, &rvbits); /* rv = rvb * 2^rve */ - rve += e2; - if ((j = rvbits - nbits) > 0) { - rshift(rvb, j); - rvbits = nbits; - rve += j; - } - bb0 = 0; /* trailing zero bits in rvb */ - e2 = rve + rvbits - nbits; - if (e2 > fpi->emax + 1) - goto huge; - rve1 = rve + rvbits - nbits; - if (e2 < (emin = fpi->emin)) { - denorm = 1; - j = rve - emin; - if (j > 0) { - rvb = lshift(rvb, j); - rvbits += j; - } - else if (j < 0) { - rvbits += j; - if (rvbits <= 0) { - if (rvbits < -1) { - ufl: - rvb->wds = 0; - rvb->x[0] = 0; - *exp = emin; - irv = STRTOG_Underflow | STRTOG_Inexlo; - goto ret; - } - rvb->x[0] = rvb->wds = rvbits = 1; - } - else - rshift(rvb, -j); - } - rve = rve1 = emin; - if (sudden_underflow && e2 + 1 < emin) - goto ufl; - } - - /* Now the hard part -- adjusting rv to the correct value.*/ - - /* Put digits into bd: true value = bd * 10^e */ - - bd0 = s2b(s0, nd0, nd, y, dplen); - - for(;;) { - bd = Balloc(bd0->k); - Bcopy(bd, bd0); - bb = Balloc(rvb->k); - Bcopy(bb, rvb); - bbbits = rvbits - bb0; - bbe = rve + bb0; - bs = i2b(1); - - if (e >= 0) { - bb2 = bb5 = 0; - bd2 = bd5 = e; - } - else { - bb2 = bb5 = -e; - bd2 = bd5 = 0; - } - if (bbe >= 0) - bb2 += bbe; - else - bd2 -= bbe; - bs2 = bb2; - j = nbits + 1 - bbbits; - i = bbe + bbbits - nbits; - if (i < emin) /* denormal */ - j += i - emin; - bb2 += j; - bd2 += j; - i = bb2 < bd2 ? bb2 : bd2; - if (i > bs2) - i = bs2; - if (i > 0) { - bb2 -= i; - bd2 -= i; - bs2 -= i; - } - if (bb5 > 0) { - bs = pow5mult(bs, bb5); - bb1 = mult(bs, bb); - Bfree(bb); - bb = bb1; - } - bb2 -= bb0; - if (bb2 > 0) - bb = lshift(bb, bb2); - else if (bb2 < 0) - rshift(bb, -bb2); - if (bd5 > 0) - bd = pow5mult(bd, bd5); - if (bd2 > 0) - bd = lshift(bd, bd2); - if (bs2 > 0) - bs = lshift(bs, bs2); - asub = 1; - inex = STRTOG_Inexhi; - delta = diff(bb, bd); - if (delta->wds <= 1 && !delta->x[0]) - break; - dsign = delta->sign; - delta->sign = finished = 0; - L = 0; - i = cmp(delta, bs); - if (rd && i <= 0) { - irv = STRTOG_Normal; - if ( (finished = dsign ^ (rd&1)) !=0) { - if (dsign != 0) { - irv |= STRTOG_Inexhi; - goto adj1; - } - irv |= STRTOG_Inexlo; - if (rve1 == emin) - goto adj1; - for(i = 0, j = nbits; j >= ULbits; - i++, j -= ULbits) { - if (rvb->x[i] & ALL_ON) - goto adj1; - } - if (j > 1 && lo0bits(rvb->x + i) < j - 1) - goto adj1; - rve = rve1 - 1; - rvb = set_ones(rvb, rvbits = nbits); - break; - } - irv |= dsign ? STRTOG_Inexlo : STRTOG_Inexhi; - break; - } - if (i < 0) { - /* Error is less than half an ulp -- check for - * special case of mantissa a power of two. - */ - irv = dsign - ? STRTOG_Normal | STRTOG_Inexlo - : STRTOG_Normal | STRTOG_Inexhi; - if (dsign || bbbits > 1 || denorm || rve1 == emin) - break; - delta = lshift(delta,1); - if (cmp(delta, bs) > 0) { - irv = STRTOG_Normal | STRTOG_Inexlo; - goto drop_down; - } - break; - } - if (i == 0) { - /* exactly half-way between */ - if (dsign) { - if (denorm && all_on(rvb, rvbits)) { - /*boundary case -- increment exponent*/ - rvb->wds = 1; - rvb->x[0] = 1; - rve = emin + nbits - (rvbits = 1); - irv = STRTOG_Normal | STRTOG_Inexhi; - denorm = 0; - break; - } - irv = STRTOG_Normal | STRTOG_Inexlo; - } - else if (bbbits == 1) { - irv = STRTOG_Normal; - drop_down: - /* boundary case -- decrement exponent */ - if (rve1 == emin) { - irv = STRTOG_Normal | STRTOG_Inexhi; - if (rvb->wds == 1 && rvb->x[0] == 1) - sudden_underflow = 1; - break; - } - rve -= nbits; - rvb = set_ones(rvb, rvbits = nbits); - break; - } - else - irv = STRTOG_Normal | STRTOG_Inexhi; - if ((bbbits < nbits && !denorm) || !(rvb->x[0] & 1)) - break; - if (dsign) { - rvb = increment(rvb); - j = kmask & (ULbits - (rvbits & kmask)); - if (hi0bits(rvb->x[rvb->wds - 1]) != j) - rvbits++; - irv = STRTOG_Normal | STRTOG_Inexhi; - } - else { - if (bbbits == 1) - goto undfl; - decrement(rvb); - irv = STRTOG_Normal | STRTOG_Inexlo; - } - break; - } - if ((dval(&adj) = ratio(delta, bs)) <= 2.) { - adj1: - inex = STRTOG_Inexlo; - if (dsign) { - asub = 0; - inex = STRTOG_Inexhi; - } - else if (denorm && bbbits <= 1) { - undfl: - rvb->wds = 0; - rve = emin; - irv = STRTOG_Underflow | STRTOG_Inexlo; - break; - } - adj0 = dval(&adj) = 1.; - } - else { - adj0 = dval(&adj) *= 0.5; - if (dsign) { - asub = 0; - inex = STRTOG_Inexlo; - } - if (dval(&adj) < 2147483647.) { - L = adj0; - adj0 -= L; - switch(rd) { - case 0: - if (adj0 >= .5) - goto inc_L; - break; - case 1: - if (asub && adj0 > 0.) - goto inc_L; - break; - case 2: - if (!asub && adj0 > 0.) { - inc_L: - L++; - inex = STRTOG_Inexact - inex; - } - } - dval(&adj) = L; - } - } - y = rve + rvbits; - - /* adj *= ulp(dval(&rv)); */ - /* if (asub) rv -= adj; else rv += adj; */ - - if (!denorm && rvbits < nbits) { - rvb = lshift(rvb, j = nbits - rvbits); - rve -= j; - rvbits = nbits; - } - ab = d2b(dval(&adj), &abe, &abits); - if (abe < 0) - rshift(ab, -abe); - else if (abe > 0) - ab = lshift(ab, abe); - rvb0 = rvb; - if (asub) { - /* rv -= adj; */ - j = hi0bits(rvb->x[rvb->wds-1]); - rvb = diff(rvb, ab); - k = rvb0->wds - 1; - if (denorm) - /* do nothing */; - else if (rvb->wds <= k - || hi0bits( rvb->x[k]) > - hi0bits(rvb0->x[k])) { - /* unlikely; can only have lost 1 high bit */ - if (rve1 == emin) { - --rvbits; - denorm = 1; - } - else { - rvb = lshift(rvb, 1); - --rve; - --rve1; - L = finished = 0; - } - } - } - else { - rvb = sum(rvb, ab); - k = rvb->wds - 1; - if (k >= rvb0->wds - || hi0bits(rvb->x[k]) < hi0bits(rvb0->x[k])) { - if (denorm) { - if (++rvbits == nbits) - denorm = 0; - } - else { - rshift(rvb, 1); - rve++; - rve1++; - L = 0; - } - } - } - Bfree(ab); - Bfree(rvb0); - if (finished) - break; - - z = rve + rvbits; - if (y == z && L) { - /* Can we stop now? */ - tol = dval(&adj) * 5e-16; /* > max rel error */ - dval(&adj) = adj0 - .5; - if (dval(&adj) < -tol) { - if (adj0 > tol) { - irv |= inex; - break; - } - } - else if (dval(&adj) > tol && adj0 < 1. - tol) { - irv |= inex; - break; - } - } - bb0 = denorm ? 0 : trailz(rvb); - Bfree(bb); - Bfree(bd); - Bfree(bs); - Bfree(delta); - } - if (!denorm && (j = nbits - rvbits)) { - if (j > 0) - rvb = lshift(rvb, j); - else - rshift(rvb, -j); - rve -= j; - } - *exp = rve; - Bfree(bb); - Bfree(bd); - Bfree(bs); - Bfree(bd0); - Bfree(delta); - if (rve > fpi->emax) { - switch(fpi->rounding & 3) { - case FPI_Round_near: - goto huge; - case FPI_Round_up: - if (!sign) - goto huge; - break; - case FPI_Round_down: - if (sign) - goto huge; - } - /* Round to largest representable magnitude */ - Bfree(rvb); - rvb = 0; - irv = STRTOG_Normal | STRTOG_Inexlo; - *exp = fpi->emax; - b = bits; - be = b + ((fpi->nbits + 31) >> 5); - while(b < be) - *b++ = -1; - if ((j = fpi->nbits & 0x1f)) - *--be >>= (32 - j); - goto ret; - huge: - rvb->wds = 0; - irv = STRTOG_Infinite | STRTOG_Overflow | STRTOG_Inexhi; -#ifndef NO_ERRNO - errno = ERANGE; -#endif - infnanexp: - *exp = fpi->emax + 1; - } - ret: - if (denorm) { - if (sudden_underflow) { - rvb->wds = 0; - irv = STRTOG_Underflow | STRTOG_Inexlo; -#ifndef NO_ERRNO - errno = ERANGE; -#endif - } - else { - irv = (irv & ~STRTOG_Retmask) | - (rvb->wds > 0 ? STRTOG_Denormal : STRTOG_Zero); - if (irv & STRTOG_Inexact) { - irv |= STRTOG_Underflow; -#ifndef NO_ERRNO - errno = ERANGE; -#endif - } - } - } - if (se) - *se = (char *)s; - if (sign) - irv |= STRTOG_Neg; - if (rvb) { - copybits(bits, nbits, rvb); - Bfree(rvb); - } - return irv; - } diff --git a/libquadmath/gdtoa/strtopQ.c b/libquadmath/gdtoa/strtopQ.c deleted file mode 100644 index 6a84173a47f..00000000000 --- a/libquadmath/gdtoa/strtopQ.c +++ /dev/null @@ -1,103 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998, 2000 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - -#undef _0 -#undef _1 - -/* one or the other of IEEE_MC68k or IEEE_8087 should be #defined */ - -#ifdef IEEE_MC68k -#define _0 0 -#define _1 1 -#define _2 2 -#define _3 3 -#endif -#ifdef IEEE_8087 -#define _0 3 -#define _1 2 -#define _2 1 -#define _3 0 -#endif - -__float128 -strtoflt128(CONST char *s, char **sp) -{ - static FPI fpi0 = { 113, 1-16383-113+1, 32766 - 16383 - 113 + 1, 1, SI }; - ULong bits[4]; - Long exp; - int k; - union { __float128 f; ULong L[4]; } u; - ULong *L = &u.L[0]; -#ifdef Honor_FLT_ROUNDS -#include "gdtoa_fltrnds.h" -#else -#define fpi &fpi0 -#endif - - k = strtodg(s, sp, fpi, &exp, bits); - switch(k & STRTOG_Retmask) { - case STRTOG_NoNumber: - case STRTOG_Zero: - L[0] = L[1] = L[2] = L[3] = 0; - break; - - case STRTOG_Normal: - case STRTOG_NaNbits: - L[_3] = bits[0]; - L[_2] = bits[1]; - L[_1] = bits[2]; - L[_0] = (bits[3] & ~0x10000) | ((exp + 0x3fff + 112) << 16); - break; - - case STRTOG_Denormal: - L[_3] = bits[0]; - L[_2] = bits[1]; - L[_1] = bits[2]; - L[_0] = bits[3]; - break; - - case STRTOG_Infinite: - L[_0] = 0x7fff0000; - L[_1] = L[_2] = L[_3] = 0; - break; - - case STRTOG_NaN: - L[_0] = ld_QNAN3; - L[_1] = ld_QNAN2; - L[_2] = ld_QNAN1; - L[_3] = ld_QNAN0; - } - if (k & STRTOG_Neg) - L[_0] |= 0x80000000L; - return u.f; -} diff --git a/libquadmath/gdtoa/sum.c b/libquadmath/gdtoa/sum.c deleted file mode 100644 index dc0c88bcfab..00000000000 --- a/libquadmath/gdtoa/sum.c +++ /dev/null @@ -1,98 +0,0 @@ -/**************************************************************** - -The author of this software is David M. Gay. - -Copyright (C) 1998 by Lucent Technologies -All Rights Reserved - -Permission to use, copy, modify, and distribute this software and -its documentation for any purpose and without fee is hereby -granted, provided that the above copyright notice appear in all -copies and that both that the copyright notice and this -permission notice and warranty disclaimer appear in supporting -documentation, and that the name of Lucent or any of its entities -not be used in advertising or publicity pertaining to -distribution of the software without specific, written prior -permission. - -LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, -INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. -IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY -SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES -WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER -IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, -ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF -THIS SOFTWARE. - -****************************************************************/ - -/* Please send bug reports to David M. Gay (dmg at acm dot org, - * with " at " changed at "@" and " dot " changed to "."). */ - -#include "gdtoaimp.h" - - Bigint * -#ifdef KR_headers -sum(a, b) Bigint *a; Bigint *b; -#else -sum(Bigint *a, Bigint *b) -#endif -{ - Bigint *c; - ULong carry, *xc, *xa, *xb, *xe, y; -#ifdef Pack_32 - ULong z; -#endif - - if (a->wds < b->wds) { - c = b; b = a; a = c; - } - c = Balloc(a->k); - c->wds = a->wds; - carry = 0; - xa = a->x; - xb = b->x; - xc = c->x; - xe = xc + b->wds; -#ifdef Pack_32 - do { - y = (*xa & 0xffff) + (*xb & 0xffff) + carry; - carry = (y & 0x10000) >> 16; - z = (*xa++ >> 16) + (*xb++ >> 16) + carry; - carry = (z & 0x10000) >> 16; - Storeinc(xc, z, y); - } - while(xc < xe); - xe += a->wds - b->wds; - while(xc < xe) { - y = (*xa & 0xffff) + carry; - carry = (y & 0x10000) >> 16; - z = (*xa++ >> 16) + carry; - carry = (z & 0x10000) >> 16; - Storeinc(xc, z, y); - } -#else - do { - y = *xa++ + *xb++ + carry; - carry = (y & 0x10000) >> 16; - *xc++ = y & 0xffff; - } - while(xc < xe); - xe += a->wds - b->wds; - while(xc < xe) { - y = *xa++ + carry; - carry = (y & 0x10000) >> 16; - *xc++ = y & 0xffff; - } -#endif - if (carry) { - if (c->wds == c->maxwds) { - b = Balloc(c->k + 1); - Bcopy(b, c); - Bfree(c); - c = b; - } - c->x[c->wds++] = 1; - } - return c; - } diff --git a/libquadmath/libquadmath.texi b/libquadmath/libquadmath.texi index f361ea934f3..f2557c8e61a 100644 --- a/libquadmath/libquadmath.texi +++ b/libquadmath/libquadmath.texi @@ -109,6 +109,9 @@ The following macros are defined, which give the numeric limits of the @item @code{FLT128_MANT_DIG}: number of digits in the mantissa (bit precision) @item @code{FLT128_MIN_EXP}: maximal negative exponent @item @code{FLT128_MAX_EXP}: maximal positive exponent +@item @code{FLT128_DIG}: number of decimal digits in the mantissa +@item @code{FLT128_MIN_10_EXP}: maximal negative decimal exponent +@item @code{FLT128_MAX_10_EXP}: maximal positive decimal exponent @end table The following mathematical constants of type @code{__float128} are defined. @@ -260,10 +263,6 @@ The function @code{dmath_strtopQ} converts a string into a @item Syntax @code{__float128 strtoflt128 (const char *s, char **sp)} -@c The return values are defined in gdtoa/gdtoa.h STRTOG_* -@c However, the values are currently not exported - thus we -@c do not define them here, either. - @item @emph{Arguments}: @multitable @columnfractions .15 .70 @item @var{s} @tab input string diff --git a/libquadmath/printf/add_n.c b/libquadmath/printf/add_n.c index cf3ab9fdd37..749cf3ee8ad 100644 --- a/libquadmath/printf/add_n.c +++ b/libquadmath/printf/add_n.c @@ -19,6 +19,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" mp_limb_t diff --git a/libquadmath/printf/addmul_1.c b/libquadmath/printf/addmul_1.c index 41408d5316b..f527f984839 100644 --- a/libquadmath/printf/addmul_1.c +++ b/libquadmath/printf/addmul_1.c @@ -22,6 +22,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" mp_limb_t diff --git a/libquadmath/printf/cmp.c b/libquadmath/printf/cmp.c index d033d19651b..a4be43e2a17 100644 --- a/libquadmath/printf/cmp.c +++ b/libquadmath/printf/cmp.c @@ -19,6 +19,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" /* Compare OP1_PTR/OP1_SIZE with OP2_PTR/OP2_SIZE. diff --git a/libquadmath/printf/divrem.c b/libquadmath/printf/divrem.c index 723ea34d117..944d1a0c08c 100644 --- a/libquadmath/printf/divrem.c +++ b/libquadmath/printf/divrem.c @@ -20,6 +20,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" /* Divide num (NP/NSIZE) by den (DP/DSIZE) and write diff --git a/libquadmath/printf/fpioconst.c b/libquadmath/printf/fpioconst.c index 7306770c092..8c67e6f904f 100644 --- a/libquadmath/printf/fpioconst.c +++ b/libquadmath/printf/fpioconst.c @@ -18,6 +18,7 @@ Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ +#include <config.h> #include "gmp-impl.h" /* This defines BITS_PER_MP_LIMB. */ #include "fpioconst.h" diff --git a/libquadmath/printf/gmp-impl.h b/libquadmath/printf/gmp-impl.h index 4ced3bd076f..ca49e196613 100644 --- a/libquadmath/printf/gmp-impl.h +++ b/libquadmath/printf/gmp-impl.h @@ -140,6 +140,10 @@ mp_limb_t mpn_submul_1 (mp_ptr, mp_srcptr, mp_size_t, mp_limb_t) mp_size_t mpn_extract_flt128 (mp_ptr res_ptr, mp_size_t size, int *expt, int *is_neg, __float128 value) attribute_hidden; +#define mpn_construct_float128 __MPN(construct_float128) +__float128 mpn_construct_float128 (mp_srcptr frac_ptr, int expt, int sign) + attribute_hidden; + #define mpn_divmod(qp,np,nsize,dp,dsize) mpn_divrem (qp,0,np,nsize,dp,dsize) static inline mp_limb_t diff --git a/libquadmath/printf/lshift.c b/libquadmath/printf/lshift.c index b00be87e7df..58aa8d4649f 100644 --- a/libquadmath/printf/lshift.c +++ b/libquadmath/printf/lshift.c @@ -19,6 +19,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" /* Shift U (pointed to by UP and USIZE digits long) CNT bits to the left diff --git a/libquadmath/printf/mul.c b/libquadmath/printf/mul.c index 8ecbff21cb1..d31fa36fa98 100644 --- a/libquadmath/printf/mul.c +++ b/libquadmath/printf/mul.c @@ -19,6 +19,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" /* Multiply the natural numbers u (pointed to by UP, with USIZE limbs) diff --git a/libquadmath/printf/mul_1.c b/libquadmath/printf/mul_1.c index bc363f7241b..48a273f075b 100644 --- a/libquadmath/printf/mul_1.c +++ b/libquadmath/printf/mul_1.c @@ -20,6 +20,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" mp_limb_t diff --git a/libquadmath/printf/mul_n.c b/libquadmath/printf/mul_n.c index 21b7b8ce092..c4bc1bed28f 100644 --- a/libquadmath/printf/mul_n.c +++ b/libquadmath/printf/mul_n.c @@ -19,6 +19,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" /* Multiply the natural numbers u (pointed to by UP) and v (pointed to by VP), diff --git a/libquadmath/printf/quadmath-printf.h b/libquadmath/printf/quadmath-printf.h index 05fed7aaf07..9e574c1eccc 100644 --- a/libquadmath/printf/quadmath-printf.h +++ b/libquadmath/printf/quadmath-printf.h @@ -62,10 +62,20 @@ Boston, MA 02110-1301, USA. */ /* Won't work for EBCDIC. */ #undef isupper #undef isdigit +#undef isxdigit #undef tolower -#define isupper(x) ((x) >= 'A' && (x) <= 'Z') -#define isdigit(x) ((x) >= '0' && (x) <= '9') -#define tolower(x) (isupper (x) ? (x) - 'A' + 'a' : (x)) +#define isupper(x) \ + ({__typeof(x) __is_x = (x); __is_x >= 'A' && __is_x <= 'Z'; }) +#define isdigit(x) \ + ({__typeof(x) __is_x = (x); __is_x >= '0' && __is_x <= '9'; }) +#define isxdigit(x) \ + ({__typeof(x) __is_x = (x); \ + (__is_x >= '0' && __is_x <= '9') \ + || ((x) >= 'A' && (x) <= 'F') \ + || ((x) >= 'a' && (x) <= 'f'); }) +#define tolower(x) \ + ({__typeof(x) __is_x = (x); \ + (__is_x >= 'A' && __is_x <= 'Z') ? __is_x - 'A' + 'a' : __is_x; }) #endif #ifndef CHAR_MAX diff --git a/libquadmath/printf/rshift.c b/libquadmath/printf/rshift.c index 508bc586e34..17fd914d9d0 100644 --- a/libquadmath/printf/rshift.c +++ b/libquadmath/printf/rshift.c @@ -19,6 +19,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" /* Shift U (pointed to by UP and USIZE limbs long) CNT bits to the right diff --git a/libquadmath/printf/sub_n.c b/libquadmath/printf/sub_n.c index c833abc6eec..92e7187313b 100644 --- a/libquadmath/printf/sub_n.c +++ b/libquadmath/printf/sub_n.c @@ -19,6 +19,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" mp_limb_t diff --git a/libquadmath/printf/submul_1.c b/libquadmath/printf/submul_1.c index 97607e80985..31903c6284e 100644 --- a/libquadmath/printf/submul_1.c +++ b/libquadmath/printf/submul_1.c @@ -22,6 +22,7 @@ along with the GNU MP Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ +#include <config.h> #include "gmp-impl.h" mp_limb_t diff --git a/libquadmath/quadmath.h b/libquadmath/quadmath.h index 3359a69f7bd..863fe440b23 100644 --- a/libquadmath/quadmath.h +++ b/libquadmath/quadmath.h @@ -144,8 +144,9 @@ extern int quadmath_snprintf (char *str, size_t size, #define FLT128_MANT_DIG 113 #define FLT128_MIN_EXP (-16381) #define FLT128_MAX_EXP 16384 -/* TODO -- One day, we need to add the following macros: - FLT128_DIG, FLT128_MIN_10_EXP, FLT128_MAX_10_EXP */ +#define FLT128_DIG 33 +#define FLT128_MIN_10_EXP (-4931) +#define FLT128_MAX_10_EXP 4932 #define HUGE_VALQ __builtin_huge_valq() diff --git a/libquadmath/strtod/grouping.h b/libquadmath/strtod/grouping.h new file mode 100644 index 00000000000..a1660871254 --- /dev/null +++ b/libquadmath/strtod/grouping.h @@ -0,0 +1,37 @@ +/* Internal header for proving correct grouping in strings of numbers. + Copyright (C) 1995,1996,1997,1998,2000,2003 Free Software Foundation, Inc. + This file is part of the GNU C Library. + Contributed by Ulrich Drepper <drepper@gnu.ai.mit.edu>, 1995. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +/* Find the maximum prefix of the string between BEGIN and END which + satisfies the grouping rules. It is assumed that at least one digit + follows BEGIN directly. */ +extern const wchar_t *__correctly_grouped_prefixwc (const wchar_t *begin, + const wchar_t *end, + wchar_t thousands, + const char *grouping) + attribute_hidden; + +extern const char *__correctly_grouped_prefixmb (const char *begin, + const char *end, + const char *thousands, + const char *grouping) + attribute_hidden; + +/* Disable grouping support for now. */ +#define __correctly_grouped_prefixmb(b,e,t,g) e diff --git a/libquadmath/strtod/mpn2flt128.c b/libquadmath/strtod/mpn2flt128.c new file mode 100644 index 00000000000..844ae97d834 --- /dev/null +++ b/libquadmath/strtod/mpn2flt128.c @@ -0,0 +1,51 @@ +/* Copyright (C) 1995,1996,1997,1998,1999,2002,2003 + Free Software Foundation, Inc. + This file is part of the GNU C Library. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +#include <config.h> +#include <float.h> +#include <math.h> +#include "../printf/gmp-impl.h" + +/* Convert a multi-precision integer of the needed number of bits (113 for + long double) and an integral power of two to a `long double' in IEEE854 + quad-precision format. */ + +__float128 +mpn_construct_float128 (mp_srcptr frac_ptr, int expt, int sign) +{ + ieee854_float128 u; + + u.ieee.negative = sign; + u.ieee.exponent = expt + IEEE854_FLOAT128_BIAS; +#if BITS_PER_MP_LIMB == 32 + u.ieee.mant_low = (((uint64_t) frac_ptr[1]) << 32) + | (frac_ptr[0] & 0xffffffff); + u.ieee.mant_high = (((uint64_t) frac_ptr[3] + & (((mp_limb_t) 1 << (FLT128_MANT_DIG - 96)) - 1)) + << 32) | (frac_ptr[2] & 0xffffffff); +#elif BITS_PER_MP_LIMB == 64 + u.ieee.mant_low = frac_ptr[0]; + u.ieee.mant_high = frac_ptr[1] + & (((mp_limb_t) 1 << (FLT128_MANT_DIG - 64)) - 1); +#else + #error "mp_limb size " BITS_PER_MP_LIMB "not accounted for" +#endif + + return u.value; +} diff --git a/libquadmath/strtod/strtod_l.c b/libquadmath/strtod/strtod_l.c new file mode 100644 index 00000000000..a3df5e2bae8 --- /dev/null +++ b/libquadmath/strtod/strtod_l.c @@ -0,0 +1,1571 @@ +/* Convert string representing a number to float value, using given locale. + Copyright (C) 1997,1998,2002,2004,2005,2006,2007,2008,2009,2010 + Free Software Foundation, Inc. + This file is part of the GNU C Library. + Contributed by Ulrich Drepper <drepper@cygnus.com>, 1997. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +#include <config.h> +#include <stdarg.h> +#include <string.h> +#include <float.h> +#include <math.h> +#define NDEBUG 1 +#include <assert.h> +#ifdef HAVE_ERRNO_H +#include <errno.h> +#endif +#include "../printf/quadmath-printf.h" +#include "../printf/fpioconst.h" + + +#undef L_ +#ifdef USE_WIDE_CHAR +# define STRING_TYPE wchar_t +# define CHAR_TYPE wint_t +# define L_(Ch) L##Ch +# define ISSPACE(Ch) __iswspace_l ((Ch), loc) +# define ISDIGIT(Ch) __iswdigit_l ((Ch), loc) +# define ISXDIGIT(Ch) __iswxdigit_l ((Ch), loc) +# define TOLOWER(Ch) __towlower_l ((Ch), loc) +# define TOLOWER_C(Ch) __towlower_l ((Ch), _nl_C_locobj_ptr) +# define STRNCASECMP(S1, S2, N) \ + __wcsncasecmp_l ((S1), (S2), (N), _nl_C_locobj_ptr) +# define STRTOULL(S, E, B) ____wcstoull_l_internal ((S), (E), (B), 0, loc) +#else +# define STRING_TYPE char +# define CHAR_TYPE char +# define L_(Ch) Ch +# define ISSPACE(Ch) isspace (Ch) +# define ISDIGIT(Ch) isdigit (Ch) +# define ISXDIGIT(Ch) isxdigit (Ch) +# define TOLOWER(Ch) tolower (Ch) +# define TOLOWER_C(Ch) \ + ({__typeof(Ch) __tlc = (Ch); \ + (__tlc >= 'A' && __tlc <= 'Z') ? __tlc - 'A' + 'a' : __tlc; }) +# define STRNCASECMP(S1, S2, N) \ + __quadmath_strncasecmp_c (S1, S2, N) +# ifdef HAVE_STRTOULL +# define STRTOULL(S, E, B) strtoull (S, E, B) +# else +# define STRTOULL(S, E, B) strtoul (S, E, B) +# endif + +static inline int +__quadmath_strncasecmp_c (const char *s1, const char *s2, size_t n) +{ + const unsigned char *p1 = (const unsigned char *) s1; + const unsigned char *p2 = (const unsigned char *) s2; + int result; + if (p1 == p2 || n == 0) + return 0; + while ((result = TOLOWER_C (*p1) - TOLOWER_C (*p2++)) == 0) + if (*p1++ == '\0' || --n == 0) + break; + + return result; +} +#endif + + +/* Constants we need from float.h; select the set for the FLOAT precision. */ +#define MANT_DIG PASTE(FLT,_MANT_DIG) +#define DIG PASTE(FLT,_DIG) +#define MAX_EXP PASTE(FLT,_MAX_EXP) +#define MIN_EXP PASTE(FLT,_MIN_EXP) +#define MAX_10_EXP PASTE(FLT,_MAX_10_EXP) +#define MIN_10_EXP PASTE(FLT,_MIN_10_EXP) + +/* Extra macros required to get FLT expanded before the pasting. */ +#define PASTE(a,b) PASTE1(a,b) +#define PASTE1(a,b) a##b + +/* Function to construct a floating point number from an MP integer + containing the fraction bits, a base 2 exponent, and a sign flag. */ +extern FLOAT MPN2FLOAT (mp_srcptr mpn, int exponent, int negative); + +/* Definitions according to limb size used. */ +#if BITS_PER_MP_LIMB == 32 +# define MAX_DIG_PER_LIMB 9 +# define MAX_FAC_PER_LIMB 1000000000UL +#elif BITS_PER_MP_LIMB == 64 +# define MAX_DIG_PER_LIMB 19 +# define MAX_FAC_PER_LIMB 10000000000000000000ULL +#else +# error "mp_limb_t size " BITS_PER_MP_LIMB "not accounted for" +#endif + +#define _tens_in_limb __quadmath_tens_in_limb +extern const mp_limb_t _tens_in_limb[MAX_DIG_PER_LIMB + 1] attribute_hidden; + +#ifndef howmany +#define howmany(x,y) (((x)+((y)-1))/(y)) +#endif +#define SWAP(x, y) ({ typeof(x) _tmp = x; x = y; y = _tmp; }) + +#define NDIG (MAX_10_EXP - MIN_10_EXP + 2 * MANT_DIG) +#define HEXNDIG ((MAX_EXP - MIN_EXP + 7) / 8 + 2 * MANT_DIG) +#define RETURN_LIMB_SIZE howmany (MANT_DIG, BITS_PER_MP_LIMB) + +#define RETURN(val,end) \ + do { if (endptr != NULL) *endptr = (STRING_TYPE *) (end); \ + return val; } while (0) + +/* Maximum size necessary for mpn integers to hold floating point numbers. */ +#define MPNSIZE (howmany (MAX_EXP + 2 * MANT_DIG, BITS_PER_MP_LIMB) \ + + 2) +/* Declare an mpn integer variable that big. */ +#define MPN_VAR(name) mp_limb_t name[MPNSIZE]; mp_size_t name##size +/* Copy an mpn integer value. */ +#define MPN_ASSIGN(dst, src) \ + memcpy (dst, src, (dst##size = src##size) * sizeof (mp_limb_t)) + + +/* Return a floating point number of the needed type according to the given + multi-precision number after possible rounding. */ +static FLOAT +round_and_return (mp_limb_t *retval, int exponent, int negative, + mp_limb_t round_limb, mp_size_t round_bit, int more_bits) +{ + if (exponent < MIN_EXP - 1) + { + mp_size_t shift = MIN_EXP - 1 - exponent; + + if (shift > MANT_DIG) + { +#if defined HAVE_ERRNO_H && defined EDOM + errno = EDOM; +#endif + return 0.0; + } + + more_bits |= (round_limb & ((((mp_limb_t) 1) << round_bit) - 1)) != 0; + if (shift == MANT_DIG) + /* This is a special case to handle the very seldom case where + the mantissa will be empty after the shift. */ + { + int i; + + round_limb = retval[RETURN_LIMB_SIZE - 1]; + round_bit = (MANT_DIG - 1) % BITS_PER_MP_LIMB; + for (i = 0; i < RETURN_LIMB_SIZE; ++i) + more_bits |= retval[i] != 0; + MPN_ZERO (retval, RETURN_LIMB_SIZE); + } + else if (shift >= BITS_PER_MP_LIMB) + { + int i; + + round_limb = retval[(shift - 1) / BITS_PER_MP_LIMB]; + round_bit = (shift - 1) % BITS_PER_MP_LIMB; + for (i = 0; i < (shift - 1) / BITS_PER_MP_LIMB; ++i) + more_bits |= retval[i] != 0; + more_bits |= ((round_limb & ((((mp_limb_t) 1) << round_bit) - 1)) + != 0); + + (void) mpn_rshift (retval, &retval[shift / BITS_PER_MP_LIMB], + RETURN_LIMB_SIZE - (shift / BITS_PER_MP_LIMB), + shift % BITS_PER_MP_LIMB); + MPN_ZERO (&retval[RETURN_LIMB_SIZE - (shift / BITS_PER_MP_LIMB)], + shift / BITS_PER_MP_LIMB); + } + else if (shift > 0) + { + round_limb = retval[0]; + round_bit = shift - 1; + (void) mpn_rshift (retval, retval, RETURN_LIMB_SIZE, shift); + } + /* This is a hook for the m68k long double format, where the + exponent bias is the same for normalized and denormalized + numbers. */ +#ifndef DENORM_EXP +# define DENORM_EXP (MIN_EXP - 2) +#endif + exponent = DENORM_EXP; +#if defined HAVE_ERRNO_H && defined ERANGE + errno = ERANGE; +#endif + } + + if ((round_limb & (((mp_limb_t) 1) << round_bit)) != 0 + && (more_bits || (retval[0] & 1) != 0 + || (round_limb & ((((mp_limb_t) 1) << round_bit) - 1)) != 0)) + { + mp_limb_t cy = mpn_add_1 (retval, retval, RETURN_LIMB_SIZE, 1); + + if (((MANT_DIG % BITS_PER_MP_LIMB) == 0 && cy) || + ((MANT_DIG % BITS_PER_MP_LIMB) != 0 && + (retval[RETURN_LIMB_SIZE - 1] + & (((mp_limb_t) 1) << (MANT_DIG % BITS_PER_MP_LIMB))) != 0)) + { + ++exponent; + (void) mpn_rshift (retval, retval, RETURN_LIMB_SIZE, 1); + retval[RETURN_LIMB_SIZE - 1] + |= ((mp_limb_t) 1) << ((MANT_DIG - 1) % BITS_PER_MP_LIMB); + } + else if (exponent == DENORM_EXP + && (retval[RETURN_LIMB_SIZE - 1] + & (((mp_limb_t) 1) << ((MANT_DIG - 1) % BITS_PER_MP_LIMB))) + != 0) + /* The number was denormalized but now normalized. */ + exponent = MIN_EXP - 1; + } + + if (exponent > MAX_EXP) + return negative ? -FLOAT_HUGE_VAL : FLOAT_HUGE_VAL; + + return MPN2FLOAT (retval, exponent, negative); +} + + +/* Read a multi-precision integer starting at STR with exactly DIGCNT digits + into N. Return the size of the number limbs in NSIZE at the first + character od the string that is not part of the integer as the function + value. If the EXPONENT is small enough to be taken as an additional + factor for the resulting number (see code) multiply by it. */ +static const STRING_TYPE * +str_to_mpn (const STRING_TYPE *str, int digcnt, mp_limb_t *n, mp_size_t *nsize, + int *exponent +#ifndef USE_WIDE_CHAR + , const char *decimal, size_t decimal_len, const char *thousands +#endif + + ) +{ + /* Number of digits for actual limb. */ + int cnt = 0; + mp_limb_t low = 0; + mp_limb_t start; + + *nsize = 0; + assert (digcnt > 0); + do + { + if (cnt == MAX_DIG_PER_LIMB) + { + if (*nsize == 0) + { + n[0] = low; + *nsize = 1; + } + else + { + mp_limb_t cy; + cy = mpn_mul_1 (n, n, *nsize, MAX_FAC_PER_LIMB); + cy += mpn_add_1 (n, n, *nsize, low); + if (cy != 0) + { + n[*nsize] = cy; + ++(*nsize); + } + } + cnt = 0; + low = 0; + } + + /* There might be thousands separators or radix characters in + the string. But these all can be ignored because we know the + format of the number is correct and we have an exact number + of characters to read. */ +#ifdef USE_WIDE_CHAR + if (*str < L'0' || *str > L'9') + ++str; +#else + if (*str < '0' || *str > '9') + { + int inner = 0; + if (thousands != NULL && *str == *thousands + && ({ for (inner = 1; thousands[inner] != '\0'; ++inner) + if (thousands[inner] != str[inner]) + break; + thousands[inner] == '\0'; })) + str += inner; + else + str += decimal_len; + } +#endif + low = low * 10 + *str++ - L_('0'); + ++cnt; + } + while (--digcnt > 0); + + if (*exponent > 0 && cnt + *exponent <= MAX_DIG_PER_LIMB) + { + low *= _tens_in_limb[*exponent]; + start = _tens_in_limb[cnt + *exponent]; + *exponent = 0; + } + else + start = _tens_in_limb[cnt]; + + if (*nsize == 0) + { + n[0] = low; + *nsize = 1; + } + else + { + mp_limb_t cy; + cy = mpn_mul_1 (n, n, *nsize, start); + cy += mpn_add_1 (n, n, *nsize, low); + if (cy != 0) + n[(*nsize)++] = cy; + } + + return str; +} + + +/* Shift {PTR, SIZE} COUNT bits to the left, and fill the vacated bits + with the COUNT most significant bits of LIMB. + + Tege doesn't like this function so I have to write it here myself. :) + --drepper */ +static inline void +__attribute ((always_inline)) +mpn_lshift_1 (mp_limb_t *ptr, mp_size_t size, unsigned int count, + mp_limb_t limb) +{ + if (__builtin_constant_p (count) && count == BITS_PER_MP_LIMB) + { + /* Optimize the case of shifting by exactly a word: + just copy words, with no actual bit-shifting. */ + mp_size_t i; + for (i = size - 1; i > 0; --i) + ptr[i] = ptr[i - 1]; + ptr[0] = limb; + } + else + { + (void) mpn_lshift (ptr, ptr, size, count); + ptr[0] |= limb >> (BITS_PER_MP_LIMB - count); + } +} + + +#define INTERNAL(x) INTERNAL1(x) +#define INTERNAL1(x) __##x##_internal +#ifndef ____STRTOF_INTERNAL +# define ____STRTOF_INTERNAL INTERNAL (__STRTOF) +#endif + +/* This file defines a function to check for correct grouping. */ +#include "grouping.h" + + +/* Return a floating point number with the value of the given string NPTR. + Set *ENDPTR to the character after the last used one. If the number is + smaller than the smallest representable number, set `errno' to ERANGE and + return 0.0. If the number is too big to be represented, set `errno' to + ERANGE and return HUGE_VAL with the appropriate sign. */ +FLOAT +____STRTOF_INTERNAL (nptr, endptr, group) + const STRING_TYPE *nptr; + STRING_TYPE **endptr; + int group; +{ + int negative; /* The sign of the number. */ + MPN_VAR (num); /* MP representation of the number. */ + int exponent; /* Exponent of the number. */ + + /* Numbers starting `0X' or `0x' have to be processed with base 16. */ + int base = 10; + + /* When we have to compute fractional digits we form a fraction with a + second multi-precision number (and we sometimes need a second for + temporary results). */ + MPN_VAR (den); + + /* Representation for the return value. */ + mp_limb_t retval[RETURN_LIMB_SIZE]; + /* Number of bits currently in result value. */ + int bits; + + /* Running pointer after the last character processed in the string. */ + const STRING_TYPE *cp, *tp; + /* Start of significant part of the number. */ + const STRING_TYPE *startp, *start_of_digits; + /* Points at the character following the integer and fractional digits. */ + const STRING_TYPE *expp; + /* Total number of digit and number of digits in integer part. */ + int dig_no, int_no, lead_zero; + /* Contains the last character read. */ + CHAR_TYPE c; + + /* The radix character of the current locale. */ +#ifdef USE_WIDE_CHAR + wchar_t decimal; +#else + const char *decimal; + size_t decimal_len; +#endif + /* The thousands character of the current locale. */ +#ifdef USE_WIDE_CHAR + wchar_t thousands = L'\0'; +#else + const char *thousands = NULL; +#endif + /* The numeric grouping specification of the current locale, + in the format described in <locale.h>. */ + const char *grouping; + /* Used in several places. */ + int cnt; + +#if defined USE_LOCALECONV && !defined USE_NL_LANGINFO + const struct lconv *lc = localeconv (); +#endif + + if (__builtin_expect (group, 0)) + { +#ifdef USE_NL_LANGINFO + grouping = nl_langinfo (GROUPING); + if (*grouping <= 0 || *grouping == CHAR_MAX) + grouping = NULL; + else + { + /* Figure out the thousands separator character. */ +#ifdef USE_WIDE_CHAR + thousands = nl_langinfo_wc (_NL_NUMERIC_THOUSANDS_SEP_WC); + if (thousands == L'\0') + grouping = NULL; +#else + thousands = nl_langinfo (THOUSANDS_SEP); + if (*thousands == '\0') + { + thousands = NULL; + grouping = NULL; + } +#endif + } +#elif defined USE_LOCALECONV + grouping = lc->grouping; + if (grouping == NULL || *grouping <= 0 || *grouping == CHAR_MAX) + grouping = NULL; + else + { + /* Figure out the thousands separator character. */ + thousands = lc->thousands_sep; + if (thousands == NULL || *thousands == '\0') + { + thousands = NULL; + grouping = NULL; + } + } +#else + grouping = NULL; +#endif + } + else + grouping = NULL; + + /* Find the locale's decimal point character. */ +#ifdef USE_WIDE_CHAR + decimal = nl_langinfo_wc (_NL_NUMERIC_DECIMAL_POINT_WC); + assert (decimal != L'\0'); +# define decimal_len 1 +#else +#ifdef USE_NL_LANGINFO + decimal = nl_langinfo (DECIMAL_POINT); + decimal_len = strlen (decimal); + assert (decimal_len > 0); +#elif defined USE_LOCALECONV + decimal = lc->decimal_point; + if (decimal == NULL || *decimal == '\0') + decimal = "."; + decimal_len = strlen (decimal); +#else + decimal = "."; + decimal_len = 1; +#endif +#endif + + /* Prepare number representation. */ + exponent = 0; + negative = 0; + bits = 0; + + /* Parse string to get maximal legal prefix. We need the number of + characters of the integer part, the fractional part and the exponent. */ + cp = nptr - 1; + /* Ignore leading white space. */ + do + c = *++cp; + while (ISSPACE (c)); + + /* Get sign of the result. */ + if (c == L_('-')) + { + negative = 1; + c = *++cp; + } + else if (c == L_('+')) + c = *++cp; + + /* Return 0.0 if no legal string is found. + No character is used even if a sign was found. */ +#ifdef USE_WIDE_CHAR + if (c == (wint_t) decimal + && (wint_t) cp[1] >= L'0' && (wint_t) cp[1] <= L'9') + { + /* We accept it. This funny construct is here only to indent + the code correctly. */ + } +#else + for (cnt = 0; decimal[cnt] != '\0'; ++cnt) + if (cp[cnt] != decimal[cnt]) + break; + if (decimal[cnt] == '\0' && cp[cnt] >= '0' && cp[cnt] <= '9') + { + /* We accept it. This funny construct is here only to indent + the code correctly. */ + } +#endif + else if (c < L_('0') || c > L_('9')) + { + /* Check for `INF' or `INFINITY'. */ + CHAR_TYPE lowc = TOLOWER_C (c); + + if (lowc == L_('i') && STRNCASECMP (cp, L_("inf"), 3) == 0) + { + /* Return +/- infinity. */ + if (endptr != NULL) + *endptr = (STRING_TYPE *) + (cp + (STRNCASECMP (cp + 3, L_("inity"), 5) == 0 + ? 8 : 3)); + + return negative ? -FLOAT_HUGE_VAL : FLOAT_HUGE_VAL; + } + + if (lowc == L_('n') && STRNCASECMP (cp, L_("nan"), 3) == 0) + { + /* Return NaN. */ + FLOAT retval = NAN; + + cp += 3; + + /* Match `(n-char-sequence-digit)'. */ + if (*cp == L_('(')) + { + const STRING_TYPE *startp = cp; + do + ++cp; + while ((*cp >= L_('0') && *cp <= L_('9')) + || ({ CHAR_TYPE lo = TOLOWER (*cp); + lo >= L_('a') && lo <= L_('z'); }) + || *cp == L_('_')); + + if (*cp != L_(')')) + /* The closing brace is missing. Only match the NAN + part. */ + cp = startp; + else + { + /* This is a system-dependent way to specify the + bitmask used for the NaN. We expect it to be + a number which is put in the mantissa of the + number. */ + STRING_TYPE *endp; + unsigned long long int mant; + + mant = STRTOULL (startp + 1, &endp, 0); + if (endp == cp) + SET_MANTISSA (retval, mant); + + /* Consume the closing brace. */ + ++cp; + } + } + + if (endptr != NULL) + *endptr = (STRING_TYPE *) cp; + + return retval; + } + + /* It is really a text we do not recognize. */ + RETURN (0.0, nptr); + } + + /* First look whether we are faced with a hexadecimal number. */ + if (c == L_('0') && TOLOWER (cp[1]) == L_('x')) + { + /* Okay, it is a hexa-decimal number. Remember this and skip + the characters. BTW: hexadecimal numbers must not be + grouped. */ + base = 16; + cp += 2; + c = *cp; + grouping = NULL; + } + + /* Record the start of the digits, in case we will check their grouping. */ + start_of_digits = startp = cp; + + /* Ignore leading zeroes. This helps us to avoid useless computations. */ +#ifdef USE_WIDE_CHAR + while (c == L'0' || ((wint_t) thousands != L'\0' && c == (wint_t) thousands)) + c = *++cp; +#else + if (__builtin_expect (thousands == NULL, 1)) + while (c == '0') + c = *++cp; + else + { + /* We also have the multibyte thousands string. */ + while (1) + { + if (c != '0') + { + for (cnt = 0; thousands[cnt] != '\0'; ++cnt) + if (thousands[cnt] != cp[cnt]) + break; + if (thousands[cnt] != '\0') + break; + cp += cnt - 1; + } + c = *++cp; + } + } +#endif + + /* If no other digit but a '0' is found the result is 0.0. + Return current read pointer. */ + CHAR_TYPE lowc = TOLOWER (c); + if (!((c >= L_('0') && c <= L_('9')) + || (base == 16 && lowc >= L_('a') && lowc <= L_('f')) + || ( +#ifdef USE_WIDE_CHAR + c == (wint_t) decimal +#else + ({ for (cnt = 0; decimal[cnt] != '\0'; ++cnt) + if (decimal[cnt] != cp[cnt]) + break; + decimal[cnt] == '\0'; }) +#endif + /* '0x.' alone is not a valid hexadecimal number. + '.' alone is not valid either, but that has been checked + already earlier. */ + && (base != 16 + || cp != start_of_digits + || (cp[decimal_len] >= L_('0') && cp[decimal_len] <= L_('9')) + || ({ CHAR_TYPE lo = TOLOWER (cp[decimal_len]); + lo >= L_('a') && lo <= L_('f'); }))) + || (base == 16 && (cp != start_of_digits + && lowc == L_('p'))) + || (base != 16 && lowc == L_('e')))) + { +#ifdef USE_WIDE_CHAR + tp = __correctly_grouped_prefixwc (start_of_digits, cp, thousands, + grouping); +#else + tp = __correctly_grouped_prefixmb (start_of_digits, cp, thousands, + grouping); +#endif + /* If TP is at the start of the digits, there was no correctly + grouped prefix of the string; so no number found. */ + RETURN (negative ? -0.0 : 0.0, + tp == start_of_digits ? (base == 16 ? cp - 1 : nptr) : tp); + } + + /* Remember first significant digit and read following characters until the + decimal point, exponent character or any non-FP number character. */ + startp = cp; + dig_no = 0; + while (1) + { + if ((c >= L_('0') && c <= L_('9')) + || (base == 16 + && ({ CHAR_TYPE lo = TOLOWER (c); + lo >= L_('a') && lo <= L_('f'); }))) + ++dig_no; + else + { +#ifdef USE_WIDE_CHAR + if (__builtin_expect ((wint_t) thousands == L'\0', 1) + || c != (wint_t) thousands) + /* Not a digit or separator: end of the integer part. */ + break; +#else + if (__builtin_expect (thousands == NULL, 1)) + break; + else + { + for (cnt = 0; thousands[cnt] != '\0'; ++cnt) + if (thousands[cnt] != cp[cnt]) + break; + if (thousands[cnt] != '\0') + break; + cp += cnt - 1; + } +#endif + } + c = *++cp; + } + + if (__builtin_expect (grouping != NULL, 0) && cp > start_of_digits) + { + /* Check the grouping of the digits. */ +#ifdef USE_WIDE_CHAR + tp = __correctly_grouped_prefixwc (start_of_digits, cp, thousands, + grouping); +#else + tp = __correctly_grouped_prefixmb (start_of_digits, cp, thousands, + grouping); +#endif + if (cp != tp) + { + /* Less than the entire string was correctly grouped. */ + + if (tp == start_of_digits) + /* No valid group of numbers at all: no valid number. */ + RETURN (0.0, nptr); + + if (tp < startp) + /* The number is validly grouped, but consists + only of zeroes. The whole value is zero. */ + RETURN (negative ? -0.0 : 0.0, tp); + + /* Recompute DIG_NO so we won't read more digits than + are properly grouped. */ + cp = tp; + dig_no = 0; + for (tp = startp; tp < cp; ++tp) + if (*tp >= L_('0') && *tp <= L_('9')) + ++dig_no; + + int_no = dig_no; + lead_zero = 0; + + goto number_parsed; + } + } + + /* We have the number of digits in the integer part. Whether these + are all or any is really a fractional digit will be decided + later. */ + int_no = dig_no; + lead_zero = int_no == 0 ? -1 : 0; + + /* Read the fractional digits. A special case are the 'american + style' numbers like `16.' i.e. with decimal point but without + trailing digits. */ + if ( +#ifdef USE_WIDE_CHAR + c == (wint_t) decimal +#else + ({ for (cnt = 0; decimal[cnt] != '\0'; ++cnt) + if (decimal[cnt] != cp[cnt]) + break; + decimal[cnt] == '\0'; }) +#endif + ) + { + cp += decimal_len; + c = *cp; + while ((c >= L_('0') && c <= L_('9')) || + (base == 16 && ({ CHAR_TYPE lo = TOLOWER (c); + lo >= L_('a') && lo <= L_('f'); }))) + { + if (c != L_('0') && lead_zero == -1) + lead_zero = dig_no - int_no; + ++dig_no; + c = *++cp; + } + } + + /* Remember start of exponent (if any). */ + expp = cp; + + /* Read exponent. */ + lowc = TOLOWER (c); + if ((base == 16 && lowc == L_('p')) + || (base != 16 && lowc == L_('e'))) + { + int exp_negative = 0; + + c = *++cp; + if (c == L_('-')) + { + exp_negative = 1; + c = *++cp; + } + else if (c == L_('+')) + c = *++cp; + + if (c >= L_('0') && c <= L_('9')) + { + int exp_limit; + + /* Get the exponent limit. */ + if (base == 16) + exp_limit = (exp_negative ? + -MIN_EXP + MANT_DIG + 4 * int_no : + MAX_EXP - 4 * int_no + 4 * lead_zero + 3); + else + exp_limit = (exp_negative ? + -MIN_10_EXP + MANT_DIG + int_no : + MAX_10_EXP - int_no + lead_zero + 1); + + do + { + exponent *= 10; + exponent += c - L_('0'); + + if (__builtin_expect (exponent > exp_limit, 0)) + /* The exponent is too large/small to represent a valid + number. */ + { + FLOAT result; + + /* We have to take care for special situation: a joker + might have written "0.0e100000" which is in fact + zero. */ + if (lead_zero == -1) + result = negative ? -0.0 : 0.0; + else + { + /* Overflow or underflow. */ +#if defined HAVE_ERRNO_H && defined ERANGE + errno = ERANGE; +#endif + result = (exp_negative ? (negative ? -0.0 : 0.0) : + negative ? -FLOAT_HUGE_VAL : FLOAT_HUGE_VAL); + } + + /* Accept all following digits as part of the exponent. */ + do + ++cp; + while (*cp >= L_('0') && *cp <= L_('9')); + + RETURN (result, cp); + /* NOTREACHED */ + } + + c = *++cp; + } + while (c >= L_('0') && c <= L_('9')); + + if (exp_negative) + exponent = -exponent; + } + else + cp = expp; + } + + /* We don't want to have to work with trailing zeroes after the radix. */ + if (dig_no > int_no) + { + while (expp[-1] == L_('0')) + { + --expp; + --dig_no; + } + assert (dig_no >= int_no); + } + + if (dig_no == int_no && dig_no > 0 && exponent < 0) + do + { + while (! (base == 16 ? ISXDIGIT (expp[-1]) : ISDIGIT (expp[-1]))) + --expp; + + if (expp[-1] != L_('0')) + break; + + --expp; + --dig_no; + --int_no; + exponent += base == 16 ? 4 : 1; + } + while (dig_no > 0 && exponent < 0); + + number_parsed: + + /* The whole string is parsed. Store the address of the next character. */ + if (endptr) + *endptr = (STRING_TYPE *) cp; + + if (dig_no == 0) + return negative ? -0.0 : 0.0; + + if (lead_zero) + { + /* Find the decimal point */ +#ifdef USE_WIDE_CHAR + while (*startp != decimal) + ++startp; +#else + while (1) + { + if (*startp == decimal[0]) + { + for (cnt = 1; decimal[cnt] != '\0'; ++cnt) + if (decimal[cnt] != startp[cnt]) + break; + if (decimal[cnt] == '\0') + break; + } + ++startp; + } +#endif + startp += lead_zero + decimal_len; + exponent -= base == 16 ? 4 * lead_zero : lead_zero; + dig_no -= lead_zero; + } + + /* If the BASE is 16 we can use a simpler algorithm. */ + if (base == 16) + { + static const int nbits[16] = { 0, 1, 2, 2, 3, 3, 3, 3, + 4, 4, 4, 4, 4, 4, 4, 4 }; + int idx = (MANT_DIG - 1) / BITS_PER_MP_LIMB; + int pos = (MANT_DIG - 1) % BITS_PER_MP_LIMB; + mp_limb_t val; + + while (!ISXDIGIT (*startp)) + ++startp; + while (*startp == L_('0')) + ++startp; + if (ISDIGIT (*startp)) + val = *startp++ - L_('0'); + else + val = 10 + TOLOWER (*startp++) - L_('a'); + bits = nbits[val]; + /* We cannot have a leading zero. */ + assert (bits != 0); + + if (pos + 1 >= 4 || pos + 1 >= bits) + { + /* We don't have to care for wrapping. This is the normal + case so we add the first clause in the `if' expression as + an optimization. It is a compile-time constant and so does + not cost anything. */ + retval[idx] = val << (pos - bits + 1); + pos -= bits; + } + else + { + retval[idx--] = val >> (bits - pos - 1); + retval[idx] = val << (BITS_PER_MP_LIMB - (bits - pos - 1)); + pos = BITS_PER_MP_LIMB - 1 - (bits - pos - 1); + } + + /* Adjust the exponent for the bits we are shifting in. */ + exponent += bits - 1 + (int_no - 1) * 4; + + while (--dig_no > 0 && idx >= 0) + { + if (!ISXDIGIT (*startp)) + startp += decimal_len; + if (ISDIGIT (*startp)) + val = *startp++ - L_('0'); + else + val = 10 + TOLOWER (*startp++) - L_('a'); + + if (pos + 1 >= 4) + { + retval[idx] |= val << (pos - 4 + 1); + pos -= 4; + } + else + { + retval[idx--] |= val >> (4 - pos - 1); + val <<= BITS_PER_MP_LIMB - (4 - pos - 1); + if (idx < 0) + return round_and_return (retval, exponent, negative, val, + BITS_PER_MP_LIMB - 1, dig_no > 0); + + retval[idx] = val; + pos = BITS_PER_MP_LIMB - 1 - (4 - pos - 1); + } + } + + /* We ran out of digits. */ + MPN_ZERO (retval, idx); + + return round_and_return (retval, exponent, negative, 0, 0, 0); + } + + /* Now we have the number of digits in total and the integer digits as well + as the exponent and its sign. We can decide whether the read digits are + really integer digits or belong to the fractional part; i.e. we normalize + 123e-2 to 1.23. */ + { + register int incr = (exponent < 0 ? MAX (-int_no, exponent) + : MIN (dig_no - int_no, exponent)); + int_no += incr; + exponent -= incr; + } + + if (__builtin_expect (int_no + exponent > MAX_10_EXP + 1, 0)) + { +#if defined HAVE_ERRNO_H && defined ERANGE + errno = ERANGE; +#endif + return negative ? -FLOAT_HUGE_VAL : FLOAT_HUGE_VAL; + } + + if (__builtin_expect (exponent < MIN_10_EXP - (DIG + 1), 0)) + { +#if defined HAVE_ERRNO_H && defined ERANGE + errno = ERANGE; +#endif + return negative ? -0.0 : 0.0; + } + + if (int_no > 0) + { + /* Read the integer part as a multi-precision number to NUM. */ + startp = str_to_mpn (startp, int_no, num, &numsize, &exponent +#ifndef USE_WIDE_CHAR + , decimal, decimal_len, thousands +#endif + ); + + if (exponent > 0) + { + /* We now multiply the gained number by the given power of ten. */ + mp_limb_t *psrc = num; + mp_limb_t *pdest = den; + int expbit = 1; + const struct mp_power *ttab = &_fpioconst_pow10[0]; + + do + { + if ((exponent & expbit) != 0) + { + size_t size = ttab->arraysize - _FPIO_CONST_OFFSET; + mp_limb_t cy; + exponent ^= expbit; + + /* FIXME: not the whole multiplication has to be + done. If we have the needed number of bits we + only need the information whether more non-zero + bits follow. */ + if (numsize >= ttab->arraysize - _FPIO_CONST_OFFSET) + cy = mpn_mul (pdest, psrc, numsize, + &__tens[ttab->arrayoff + + _FPIO_CONST_OFFSET], + size); + else + cy = mpn_mul (pdest, &__tens[ttab->arrayoff + + _FPIO_CONST_OFFSET], + size, psrc, numsize); + numsize += size; + if (cy == 0) + --numsize; + (void) SWAP (psrc, pdest); + } + expbit <<= 1; + ++ttab; + } + while (exponent != 0); + + if (psrc == den) + memcpy (num, den, numsize * sizeof (mp_limb_t)); + } + + /* Determine how many bits of the result we already have. */ + count_leading_zeros (bits, num[numsize - 1]); + bits = numsize * BITS_PER_MP_LIMB - bits; + + /* Now we know the exponent of the number in base two. + Check it against the maximum possible exponent. */ + if (__builtin_expect (bits > MAX_EXP, 0)) + { +#if defined HAVE_ERRNO_H && defined ERANGE + errno = ERANGE; +#endif + return negative ? -FLOAT_HUGE_VAL : FLOAT_HUGE_VAL; + } + + /* We have already the first BITS bits of the result. Together with + the information whether more non-zero bits follow this is enough + to determine the result. */ + if (bits > MANT_DIG) + { + int i; + const mp_size_t least_idx = (bits - MANT_DIG) / BITS_PER_MP_LIMB; + const mp_size_t least_bit = (bits - MANT_DIG) % BITS_PER_MP_LIMB; + const mp_size_t round_idx = least_bit == 0 ? least_idx - 1 + : least_idx; + const mp_size_t round_bit = least_bit == 0 ? BITS_PER_MP_LIMB - 1 + : least_bit - 1; + + if (least_bit == 0) + memcpy (retval, &num[least_idx], + RETURN_LIMB_SIZE * sizeof (mp_limb_t)); + else + { + for (i = least_idx; i < numsize - 1; ++i) + retval[i - least_idx] = (num[i] >> least_bit) + | (num[i + 1] + << (BITS_PER_MP_LIMB - least_bit)); + if (i - least_idx < RETURN_LIMB_SIZE) + retval[RETURN_LIMB_SIZE - 1] = num[i] >> least_bit; + } + + /* Check whether any limb beside the ones in RETVAL are non-zero. */ + for (i = 0; num[i] == 0; ++i) + ; + + return round_and_return (retval, bits - 1, negative, + num[round_idx], round_bit, + int_no < dig_no || i < round_idx); + /* NOTREACHED */ + } + else if (dig_no == int_no) + { + const mp_size_t target_bit = (MANT_DIG - 1) % BITS_PER_MP_LIMB; + const mp_size_t is_bit = (bits - 1) % BITS_PER_MP_LIMB; + + if (target_bit == is_bit) + { + memcpy (&retval[RETURN_LIMB_SIZE - numsize], num, + numsize * sizeof (mp_limb_t)); + /* FIXME: the following loop can be avoided if we assume a + maximal MANT_DIG value. */ + MPN_ZERO (retval, RETURN_LIMB_SIZE - numsize); + } + else if (target_bit > is_bit) + { + (void) mpn_lshift (&retval[RETURN_LIMB_SIZE - numsize], + num, numsize, target_bit - is_bit); + /* FIXME: the following loop can be avoided if we assume a + maximal MANT_DIG value. */ + MPN_ZERO (retval, RETURN_LIMB_SIZE - numsize); + } + else + { + mp_limb_t cy; + assert (numsize < RETURN_LIMB_SIZE); + + cy = mpn_rshift (&retval[RETURN_LIMB_SIZE - numsize], + num, numsize, is_bit - target_bit); + retval[RETURN_LIMB_SIZE - numsize - 1] = cy; + /* FIXME: the following loop can be avoided if we assume a + maximal MANT_DIG value. */ + MPN_ZERO (retval, RETURN_LIMB_SIZE - numsize - 1); + } + + return round_and_return (retval, bits - 1, negative, 0, 0, 0); + /* NOTREACHED */ + } + + /* Store the bits we already have. */ + memcpy (retval, num, numsize * sizeof (mp_limb_t)); +#if RETURN_LIMB_SIZE > 1 + if (numsize < RETURN_LIMB_SIZE) +# if RETURN_LIMB_SIZE == 2 + retval[numsize] = 0; +# else + MPN_ZERO (retval + numsize, RETURN_LIMB_SIZE - numsize); +# endif +#endif + } + + /* We have to compute at least some of the fractional digits. */ + { + /* We construct a fraction and the result of the division gives us + the needed digits. The denominator is 1.0 multiplied by the + exponent of the lowest digit; i.e. 0.123 gives 123 / 1000 and + 123e-6 gives 123 / 1000000. */ + + int expbit; + int neg_exp; + int more_bits; + mp_limb_t cy; + mp_limb_t *psrc = den; + mp_limb_t *pdest = num; + const struct mp_power *ttab = &_fpioconst_pow10[0]; + + assert (dig_no > int_no && exponent <= 0); + + + /* For the fractional part we need not process too many digits. One + decimal digits gives us log_2(10) ~ 3.32 bits. If we now compute + ceil(BITS / 3) =: N + digits we should have enough bits for the result. The remaining + decimal digits give us the information that more bits are following. + This can be used while rounding. (Two added as a safety margin.) */ + if (dig_no - int_no > (MANT_DIG - bits + 2) / 3 + 2) + { + dig_no = int_no + (MANT_DIG - bits + 2) / 3 + 2; + more_bits = 1; + } + else + more_bits = 0; + + neg_exp = dig_no - int_no - exponent; + + /* Construct the denominator. */ + densize = 0; + expbit = 1; + do + { + if ((neg_exp & expbit) != 0) + { + mp_limb_t cy; + neg_exp ^= expbit; + + if (densize == 0) + { + densize = ttab->arraysize - _FPIO_CONST_OFFSET; + memcpy (psrc, &__tens[ttab->arrayoff + _FPIO_CONST_OFFSET], + densize * sizeof (mp_limb_t)); + } + else + { + cy = mpn_mul (pdest, &__tens[ttab->arrayoff + + _FPIO_CONST_OFFSET], + ttab->arraysize - _FPIO_CONST_OFFSET, + psrc, densize); + densize += ttab->arraysize - _FPIO_CONST_OFFSET; + if (cy == 0) + --densize; + (void) SWAP (psrc, pdest); + } + } + expbit <<= 1; + ++ttab; + } + while (neg_exp != 0); + + if (psrc == num) + memcpy (den, num, densize * sizeof (mp_limb_t)); + + /* Read the fractional digits from the string. */ + (void) str_to_mpn (startp, dig_no - int_no, num, &numsize, &exponent +#ifndef USE_WIDE_CHAR + , decimal, decimal_len, thousands +#endif + ); + + /* We now have to shift both numbers so that the highest bit in the + denominator is set. In the same process we copy the numerator to + a high place in the array so that the division constructs the wanted + digits. This is done by a "quasi fix point" number representation. + + num: ddddddddddd . 0000000000000000000000 + |--- m ---| + den: ddddddddddd n >= m + |--- n ---| + */ + + count_leading_zeros (cnt, den[densize - 1]); + + if (cnt > 0) + { + /* Don't call `mpn_shift' with a count of zero since the specification + does not allow this. */ + (void) mpn_lshift (den, den, densize, cnt); + cy = mpn_lshift (num, num, numsize, cnt); + if (cy != 0) + num[numsize++] = cy; + } + + /* Now we are ready for the division. But it is not necessary to + do a full multi-precision division because we only need a small + number of bits for the result. So we do not use mpn_divmod + here but instead do the division here by hand and stop whenever + the needed number of bits is reached. The code itself comes + from the GNU MP Library by Torbj\"orn Granlund. */ + + exponent = bits; + + switch (densize) + { + case 1: + { + mp_limb_t d, n, quot; + int used = 0; + + n = num[0]; + d = den[0]; + assert (numsize == 1 && n < d); + + do + { + udiv_qrnnd (quot, n, n, 0, d); + +#define got_limb \ + if (bits == 0) \ + { \ + register int cnt; \ + if (quot == 0) \ + cnt = BITS_PER_MP_LIMB; \ + else \ + count_leading_zeros (cnt, quot); \ + exponent -= cnt; \ + if (BITS_PER_MP_LIMB - cnt > MANT_DIG) \ + { \ + used = MANT_DIG + cnt; \ + retval[0] = quot >> (BITS_PER_MP_LIMB - used); \ + bits = MANT_DIG + 1; \ + } \ + else \ + { \ + /* Note that we only clear the second element. */ \ + /* The conditional is determined at compile time. */ \ + if (RETURN_LIMB_SIZE > 1) \ + retval[1] = 0; \ + retval[0] = quot; \ + bits = -cnt; \ + } \ + } \ + else if (bits + BITS_PER_MP_LIMB <= MANT_DIG) \ + mpn_lshift_1 (retval, RETURN_LIMB_SIZE, BITS_PER_MP_LIMB, \ + quot); \ + else \ + { \ + used = MANT_DIG - bits; \ + if (used > 0) \ + mpn_lshift_1 (retval, RETURN_LIMB_SIZE, used, quot); \ + } \ + bits += BITS_PER_MP_LIMB + + got_limb; + } + while (bits <= MANT_DIG); + + return round_and_return (retval, exponent - 1, negative, + quot, BITS_PER_MP_LIMB - 1 - used, + more_bits || n != 0); + } + case 2: + { + mp_limb_t d0, d1, n0, n1; + mp_limb_t quot = 0; + int used = 0; + + d0 = den[0]; + d1 = den[1]; + + if (numsize < densize) + { + if (num[0] >= d1) + { + /* The numerator of the number occupies fewer bits than + the denominator but the one limb is bigger than the + high limb of the numerator. */ + n1 = 0; + n0 = num[0]; + } + else + { + if (bits <= 0) + exponent -= BITS_PER_MP_LIMB; + else + { + if (bits + BITS_PER_MP_LIMB <= MANT_DIG) + mpn_lshift_1 (retval, RETURN_LIMB_SIZE, + BITS_PER_MP_LIMB, 0); + else + { + used = MANT_DIG - bits; + if (used > 0) + mpn_lshift_1 (retval, RETURN_LIMB_SIZE, used, 0); + } + bits += BITS_PER_MP_LIMB; + } + n1 = num[0]; + n0 = 0; + } + } + else + { + n1 = num[1]; + n0 = num[0]; + } + + while (bits <= MANT_DIG) + { + mp_limb_t r; + + if (n1 == d1) + { + /* QUOT should be either 111..111 or 111..110. We need + special treatment of this rare case as normal division + would give overflow. */ + quot = ~(mp_limb_t) 0; + + r = n0 + d1; + if (r < d1) /* Carry in the addition? */ + { + add_ssaaaa (n1, n0, r - d0, 0, 0, d0); + goto have_quot; + } + n1 = d0 - (d0 != 0); + n0 = -d0; + } + else + { + udiv_qrnnd (quot, r, n1, n0, d1); + umul_ppmm (n1, n0, d0, quot); + } + + q_test: + if (n1 > r || (n1 == r && n0 > 0)) + { + /* The estimated QUOT was too large. */ + --quot; + + sub_ddmmss (n1, n0, n1, n0, 0, d0); + r += d1; + if (r >= d1) /* If not carry, test QUOT again. */ + goto q_test; + } + sub_ddmmss (n1, n0, r, 0, n1, n0); + + have_quot: + got_limb; + } + + return round_and_return (retval, exponent - 1, negative, + quot, BITS_PER_MP_LIMB - 1 - used, + more_bits || n1 != 0 || n0 != 0); + } + default: + { + int i; + mp_limb_t cy, dX, d1, n0, n1; + mp_limb_t quot = 0; + int used = 0; + + dX = den[densize - 1]; + d1 = den[densize - 2]; + + /* The division does not work if the upper limb of the two-limb + numerator is greater than the denominator. */ + if (mpn_cmp (num, &den[densize - numsize], numsize) > 0) + num[numsize++] = 0; + + if (numsize < densize) + { + mp_size_t empty = densize - numsize; + register int i; + + if (bits <= 0) + exponent -= empty * BITS_PER_MP_LIMB; + else + { + if (bits + empty * BITS_PER_MP_LIMB <= MANT_DIG) + { + /* We make a difference here because the compiler + cannot optimize the `else' case that good and + this reflects all currently used FLOAT types + and GMP implementations. */ +#if RETURN_LIMB_SIZE <= 2 + assert (empty == 1); + mpn_lshift_1 (retval, RETURN_LIMB_SIZE, + BITS_PER_MP_LIMB, 0); +#else + for (i = RETURN_LIMB_SIZE - 1; i >= empty; --i) + retval[i] = retval[i - empty]; + while (i >= 0) + retval[i--] = 0; +#endif + } + else + { + used = MANT_DIG - bits; + if (used >= BITS_PER_MP_LIMB) + { + register int i; + (void) mpn_lshift (&retval[used + / BITS_PER_MP_LIMB], + retval, + (RETURN_LIMB_SIZE + - used / BITS_PER_MP_LIMB), + used % BITS_PER_MP_LIMB); + for (i = used / BITS_PER_MP_LIMB - 1; i >= 0; --i) + retval[i] = 0; + } + else if (used > 0) + mpn_lshift_1 (retval, RETURN_LIMB_SIZE, used, 0); + } + bits += empty * BITS_PER_MP_LIMB; + } + for (i = numsize; i > 0; --i) + num[i + empty] = num[i - 1]; + MPN_ZERO (num, empty + 1); + } + else + { + int i; + assert (numsize == densize); + for (i = numsize; i > 0; --i) + num[i] = num[i - 1]; + } + + den[densize] = 0; + n0 = num[densize]; + + while (bits <= MANT_DIG) + { + if (n0 == dX) + /* This might over-estimate QUOT, but it's probably not + worth the extra code here to find out. */ + quot = ~(mp_limb_t) 0; + else + { + mp_limb_t r; + + udiv_qrnnd (quot, r, n0, num[densize - 1], dX); + umul_ppmm (n1, n0, d1, quot); + + while (n1 > r || (n1 == r && n0 > num[densize - 2])) + { + --quot; + r += dX; + if (r < dX) /* I.e. "carry in previous addition?" */ + break; + n1 -= n0 < d1; + n0 -= d1; + } + } + + /* Possible optimization: We already have (q * n0) and (1 * n1) + after the calculation of QUOT. Taking advantage of this, we + could make this loop make two iterations less. */ + + cy = mpn_submul_1 (num, den, densize + 1, quot); + + if (num[densize] != cy) + { + cy = mpn_add_n (num, num, den, densize); + assert (cy != 0); + --quot; + } + n0 = num[densize] = num[densize - 1]; + for (i = densize - 1; i > 0; --i) + num[i] = num[i - 1]; + + got_limb; + } + + for (i = densize; num[i] == 0 && i >= 0; --i) + ; + return round_and_return (retval, exponent - 1, negative, + quot, BITS_PER_MP_LIMB - 1 - used, + more_bits || i >= 0); + } + } + } + + /* NOTREACHED */ +} diff --git a/libquadmath/strtod/strtoflt128.c b/libquadmath/strtod/strtoflt128.c new file mode 100644 index 00000000000..acdf36e9e8a --- /dev/null +++ b/libquadmath/strtod/strtoflt128.c @@ -0,0 +1,50 @@ +/* Copyright (C) 1999, 2004 Free Software Foundation, Inc. + This file is part of the GNU C Library. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +/* The actual implementation for all floating point sizes is in strtod.c. + These macros tell it to produce the `__float128' version, `strtold'. */ + +#define FLOAT __float128 +#define FLT FLT128 +#ifdef USE_WIDE_CHAR +# define STRTOF wcstoflt128 +# define __STRTOF __wcstoflt128 +#else +# define STRTOF strtoflt128 +# define __STRTOF __strtoflt128 +#endif +#define MPN2FLOAT mpn_construct_float128 +#define FLOAT_HUGE_VAL HUGE_VALQ +#define SET_MANTISSA(flt, mant) \ + do { ieee854_float128 u; \ + u.value = (flt); \ + u.ieee.mant_high = 0x800000000000ULL; \ + u.ieee.mant_low = mant; \ + (flt) = u.value; \ + } while (0) + +static inline __attribute__((__always_inline__)) +__float128 ____strtoflt128_internal (const char *, char **, int); + +#include "strtod_l.c" + +__float128 +strtoflt128 (const char *nptr, char **endptr) +{ + return ____STRTOF_INTERNAL (nptr, endptr, 0); +} diff --git a/libquadmath/strtod/tens_in_limb.c b/libquadmath/strtod/tens_in_limb.c new file mode 100644 index 00000000000..b78a73e01d6 --- /dev/null +++ b/libquadmath/strtod/tens_in_limb.c @@ -0,0 +1,33 @@ +#include <config.h> +#include "../printf/gmp-impl.h" + + +/* Definitions according to limb size used. */ +#if BITS_PER_MP_LIMB == 32 +# define MAX_DIG_PER_LIMB 9 +# define MAX_FAC_PER_LIMB 1000000000UL +#elif BITS_PER_MP_LIMB == 64 +# define MAX_DIG_PER_LIMB 19 +# define MAX_FAC_PER_LIMB 10000000000000000000ULL +#else +# error "mp_limb_t size " BITS_PER_MP_LIMB "not accounted for" +#endif + + +/* Local data structure. */ +const mp_limb_t __quadmath_tens_in_limb[MAX_DIG_PER_LIMB + 1] attribute_hidden += +{ 0, 10, 100, + 1000, 10000, 100000L, + 1000000L, 10000000L, 100000000L, + 1000000000L +#if BITS_PER_MP_LIMB > 32 + , 10000000000ULL, 100000000000ULL, + 1000000000000ULL, 10000000000000ULL, 100000000000000ULL, + 1000000000000000ULL, 10000000000000000ULL, 100000000000000000ULL, + 1000000000000000000ULL, 10000000000000000000ULL +#endif +#if BITS_PER_MP_LIMB > 64 + #error "Need to expand tens_in_limb table to" MAX_DIG_PER_LIMB +#endif +}; |