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90045c5df5
I moved the library implementation of IEEE_VALUE in libgfortran from Fortran to C code, which gives us access to GCC's built-ins for NaN generation (both quiet and signalling). It will be perform better than the current Fortran implementation. libgfortran/ChangeLog: PR fortran/82207 * mk-kinds-h.sh: Add values for TINY. * ieee/ieee_arithmetic.F90: Call C helper functions for IEEE_VALUE. * ieee/ieee_helper.c: New functions ieee_value_helper_N for each floating-point type. gcc/testsuite/ChangeLog: PR fortran/82207 * gfortran.dg/ieee/ieee_10.f90: Do not create signaling NaNs. * gfortran.dg/ieee/signaling_2.f90: New test. * gfortran.dg/ieee/signaling_2_c.c: New file.
134 lines
3.9 KiB
Bash
Executable File
134 lines
3.9 KiB
Bash
Executable File
#!/bin/sh
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LC_ALL=C
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export LC_ALL
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if test "$#" -ne 3; then
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echo "Usage $0 int_kinds real_kinds compile"
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exit 1
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fi
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# Possible kinds must be listed in ascending order
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possible_integer_kinds="$1"
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possible_real_kinds="$2"
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compile="$3"
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largest=""
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smallest=""
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for k in $possible_integer_kinds; do
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echo " integer (kind=$k) :: i" > tmp$$.f90
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echo " i = 1_$k" >> tmp$$.f90
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echo " end" >> tmp$$.f90
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if $compile -S tmp$$.f90 > /dev/null 2>&1; then
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s=`expr 8 \* $k`
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largest="$k"
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if [ $s -eq 128 ]; then
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prefix="__"
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else
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prefix=""
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fi
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if [ "$smallest" = "" ]; then
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smallest="$k"
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fi
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echo "typedef ${prefix}int${s}_t GFC_INTEGER_${k};"
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echo "typedef ${prefix}uint${s}_t GFC_UINTEGER_${k};"
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echo "typedef GFC_INTEGER_${k} GFC_LOGICAL_${k};"
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echo "#define HAVE_GFC_LOGICAL_${k}"
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echo "#define HAVE_GFC_INTEGER_${k}"
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echo ""
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fi
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rm -f tmp$$.*
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done
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echo "#define GFC_INTEGER_LARGEST GFC_INTEGER_${largest}"
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echo "#define GFC_UINTEGER_LARGEST GFC_UINTEGER_${largest}"
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echo "#define GFC_DEFAULT_CHAR ${smallest}"
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echo ""
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# Get the kind value for long double, so we may disambiguate it
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# from __float128.
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echo "use iso_c_binding; print *, c_long_double ; end" > tmq$$.f90
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long_double_kind=`$compile -S -fdump-parse-tree tmq$$.f90 | grep TRANSFER \
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| sed 's/ *TRANSFER *//'`
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rm -f tmq$$.*
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for k in $possible_real_kinds; do
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echo " real (kind=$k) :: x" > tmp$$.f90
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echo " x = 1.0_$k" >> tmp$$.f90
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echo " end" >> tmp$$.f90
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if $compile -S tmp$$.f90 > /dev/null 2>&1; then
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case $k in
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4) ctype="float" ; cplxtype="complex float" ; suffix="f" ;;
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8) ctype="double" ; cplxtype="complex double" ; suffix="" ;;
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# If we have a REAL(KIND=10), it is always long double
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10) ctype="long double" ; cplxtype="complex long double" ; suffix="l" ;;
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# If we have a REAL(KIND=16), it is either long double or __float128
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16) if [ $long_double_kind -ne 16 ]; then
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ctype="__float128"
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cplxtype="_Complex float __attribute__((mode(TC)))"
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suffix="q"
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echo "#define GFC_REAL_16_IS_FLOAT128"
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else
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ctype="long double"
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cplxtype="complex long double"
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suffix="l"
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echo "#define GFC_REAL_16_IS_LONG_DOUBLE"
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fi ;;
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*) echo "$0: Unknown type" >&2 ; exit 1 ;;
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esac
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# Check for the value of HUGE
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echo "print *, huge(0._$k) ; end" > tmq$$.f90
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huge=`$compile -S -fdump-parse-tree tmq$$.f90 | grep TRANSFER \
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| sed 's/ *TRANSFER *//' | sed 's/_.*//'`
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rm -f tmq$$.*
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# Check for the value of TINY
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echo "print *, tiny(0._$k) ; end" > tmq$$.f90
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tiny=`$compile -S -fdump-parse-tree tmq$$.f90 | grep TRANSFER \
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| sed 's/ *TRANSFER *//' | sed 's/_.*//'`
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rm -f tmq$$.*
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# Check for the value of DIGITS
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echo "print *, digits(0._$k) ; end" > tmq$$.f90
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digits=`$compile -S -fdump-parse-tree tmq$$.f90 | grep TRANSFER \
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| sed 's/ *TRANSFER *//'`
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rm -f tmq$$.*
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# Check for the value of RADIX
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echo "print *, radix(0._$k) ; end" > tmq$$.f90
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radix=`$compile -S -fdump-parse-tree tmq$$.f90 | grep TRANSFER \
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| sed 's/ *TRANSFER *//'`
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rm -f tmq$$.*
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# Output the information we've gathered
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echo "typedef ${ctype} GFC_REAL_${k};"
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echo "typedef ${cplxtype} GFC_COMPLEX_${k};"
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echo "#define HAVE_GFC_REAL_${k}"
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echo "#define HAVE_GFC_COMPLEX_${k}"
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echo "#define GFC_REAL_${k}_HUGE ${huge}${suffix}"
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echo "#define GFC_REAL_${k}_TINY ${tiny}${suffix}"
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echo "#define GFC_REAL_${k}_LITERAL_SUFFIX ${suffix}"
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if [ "x$suffix" = "x" ]; then
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echo "#define GFC_REAL_${k}_LITERAL(X) (X)"
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else
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echo "#define GFC_REAL_${k}_LITERAL(X) (X ## ${suffix})"
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fi
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echo "#define GFC_REAL_${k}_DIGITS ${digits}"
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echo "#define GFC_REAL_${k}_RADIX ${radix}"
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echo ""
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fi
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rm -f tmp$$.*
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done
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# After this, we include a header that can override some of the
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# autodetected settings.
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echo '#include "kinds-override.h"'
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exit 0
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