math/gen-libm-test.pl - nest-cam/v366/glibc - Git at Google

 #!/usr/bin/perl -w
 # Copyright (C) 1999, 2006 Free Software Foundation, Inc.
 # This file is part of the GNU C Library.
 # Contributed by Andreas Jaeger <aj@suse.de>, 1999.

 # 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.

 # This file needs to be tidied up
 # Note that functions and tests share the same namespace.

 # Information about tests are stored in: %results
 # $results{$test}{"kind"} is either "fct" or "test" and flags whether this
 # is a maximal error of a function or a single test.
 # $results{$test}{"type"} is the result type, e.g. normal or complex.
 # $results{$test}{"has_ulps"} is set if deltas exist.
 # $results{$test}{"has_fails"} is set if exptected failures exist.
 # In the following description $type and $float are:
 # - $type is either "normal", "real" (for the real part of a complex number)
 #   or "imag" (for the imaginary part # of a complex number).
 # - $float is either of float, ifloat, double, idouble, ldouble, ildouble;
 #   It represents the underlying floating point type (float, double or long
 #   double) and if inline functions (the leading i stands for inline)
 #   are used.
 # $results{$test}{$type}{"fail"}{$float} is defined and has a 1 if
 # the test is expected to fail
 # $results{$test}{$type}{"ulp"}{$float} is defined and has a delta as value


 use Getopt::Std;

 use strict;

 use vars qw ($input $output);
 use vars qw (%results);
 use vars qw (@tests @functions);
 use vars qw ($count);
 use vars qw (%beautify @all_floats);
 use vars qw ($output_dir $ulps_file);

 # all_floats is sorted and contains all recognised float types
 @all_floats = ('double', 'float', 'idouble',
 	       'ifloat', 'ildouble', 'ldouble');

 %beautify =
   ( "minus_zero" => "-0",
     "plus_zero" => "+0",
     "minus_infty" => "-inf",
     "plus_infty" => "inf",
     "nan_value" => "NaN",
     "M_El" => "e",
     "M_E2l" => "e^2",
     "M_E3l" => "e^3",
     "M_LOG10El", "log10(e)",
     "M_PIl" => "pi",
     "M_PI_34l" => "3/4 pi",
     "M_PI_2l" => "pi/2",
     "M_PI_4l" => "pi/4",
     "M_PI_6l" => "pi/6",
     "M_PI_34_LOG10El" => "3/4 pi*log10(e)",
     "M_PI_LOG10El" => "pi*log10(e)",
     "M_PI2_LOG10El" => "pi/2*log10(e)",
     "M_PI4_LOG10El" => "pi/4*log10(e)",
     "M_LOG_SQRT_PIl" => "log(sqrt(pi))",
     "M_LOG_2_SQRT_PIl" => "log(2*sqrt(pi))",
     "M_2_SQRT_PIl" => "2 sqrt (pi)",
     "M_SQRT_PIl" => "sqrt (pi)",
     "INVALID_EXCEPTION" => "invalid exception",
     "DIVIDE_BY_ZERO_EXCEPTION" => "division by zero exception",
     "INVALID_EXCEPTION_OK" => "invalid exception allowed",
     "DIVIDE_BY_ZERO_EXCEPTION_OK" => "division by zero exception allowed",
     "EXCEPTIONS_OK" => "exceptions allowed",
     "IGNORE_ZERO_INF_SIGN" => "sign of zero/inf not specified",
 "INVALID_EXCEPTION|IGNORE_ZERO_INF_SIGN" => "invalid exception and sign of zero/inf not specified"
   );


 # get Options
 # Options:
 # u: ulps-file
 # h: help
 # o: output-directory
 # n: generate new ulps file
 use vars qw($opt_u $opt_h $opt_o $opt_n);
 getopts('u:o:nh');

 $ulps_file = 'libm-test-ulps';
 $output_dir = '';

 if ($opt_h) {
   print "Usage: gen-libm-test.pl [OPTIONS]\n";
   print " -h         print this help, then exit\n";
   print " -o DIR     directory where generated files will be placed\n";
   print " -n         only generate sorted file NewUlps from libm-test-ulps\n";
   print " -u FILE    input file with ulps\n";
   exit 0;
 }

 $ulps_file = $opt_u if ($opt_u);
 $output_dir = $opt_o if ($opt_o);

 $input = "libm-test.inc";
 $output = "${output_dir}libm-test.c";

 $count = 0;

 &parse_ulps ($ulps_file);
 &generate_testfile ($input, $output) unless ($opt_n);
 &output_ulps ("${output_dir}libm-test-ulps.h", $ulps_file) unless ($opt_n);
 &print_ulps_file ("${output_dir}NewUlps") if ($opt_n);

 # Return a nicer representation
 sub beautify {
   my ($arg) = @_;
   my ($tmp);

   if (exists $beautify{$arg}) {
     return $beautify{$arg};
   }
   if ($arg =~ /^-/) {
     $tmp = $arg;
     $tmp =~ s/^-//;
     if (exists $beautify{$tmp}) {
       return '-' . $beautify{$tmp};
     }
   }
   if ($arg =~ /[0-9]L$/) {
     $arg =~ s/L$//;
   }
   return $arg;
 }

 # Return a nicer representation of a complex number
 sub build_complex_beautify {
   my ($r, $i) = @_;
   my ($str1, $str2);

   $str1 = &beautify ($r);
   $str2 = &beautify ($i);
   if ($str2 =~ /^-/) {
     $str2 =~ s/^-//;
     $str1 .= ' - ' . $str2;
   } else {
     $str1 .= ' + ' . $str2;
   }
   $str1 .= ' i';
   return $str1;
 }

 # Return name of a variable
 sub get_variable {
   my ($number) = @_;

   return "x" if ($number == 1);
   return "y" if ($number == 2);
   return "z" if ($number == 3);
   # return x1,x2,...
   $number =-3;
   return "x$number";
 }

 # Add a new test to internal data structures and fill in the
 # ulps, failures and exception information for the C line.
 sub new_test {
   my ($test, $exception) = @_;
   my $rest;

   # Add ulp, xfail
   if (exists $results{$test}{'has_ulps'}) {
     $rest = ", DELTA$count";
   } else {
     $rest = ', 0';
   }
   if (exists $results{$test}{'has_fails'}) {
     $rest .= ", FAIL$count";
   } else {
     $rest .= ', 0';
   }
   if (defined $exception) {
     $rest .= ", $exception";
   } else {
     $rest .= ', 0';
   }
   $rest .= ");\n";
   # We must increment here to keep @tests and count in sync
   push @tests, $test;
   ++$count;
   return $rest;
 }

 # Treat some functions especially.
 # Currently only sincos needs extra treatment.
 sub special_functions {
   my ($file, $args) = @_;
   my (@args, $str, $test, $cline);

   @args = split /,\s*/, $args;

   unless ($args[0] =~ /sincos/) {
     die ("Don't know how to handle $args[0] extra.");
   }
   print $file "  FUNC (sincos) ($args[1], &sin_res, &cos_res);\n";

   $str = 'sincos (' . &beautify ($args[1]) . ', &sin_res, &cos_res)';
   # handle sin
   $test = $str . ' puts ' . &beautify ($args[2]) . ' in sin_res';
   if ($#args == 4) {
     $test .= " plus " . &beautify ($args[4]);
   }

   $cline = "  check_float (\"$test\", sin_res, $args[2]";
   $cline .= &new_test ($test, $args[4]);
   print $file $cline;

   # handle cos
   $test = $str . ' puts ' . &beautify ($args[3]) . ' in cos_res';
   $cline = "  check_float (\"$test\", cos_res, $args[3]";
   # only tests once for exception
   $cline .= &new_test ($test, undef);
   print $file $cline;
 }

 # Parse the arguments to TEST_x_y
 sub parse_args {
   my ($file, $descr, $fct, $args) = @_;
   my (@args, $str, $descr_args, $descr_res, @descr);
   my ($current_arg, $cline, $i);
   my ($pre, $post, @special);
   my ($extra_var, $call, $c_call);

   if ($descr eq 'extra') {
     &special_functions ($file, $args);
     return;
   }
   ($descr_args, $descr_res) = split /_/,$descr, 2;

   @args = split /,\s*/, $args;

   $call = "$fct (";

   # Generate first the string that's shown to the user
   $current_arg = 1;
   $extra_var = 0;
   @descr = split //,$descr_args;
   for ($i = 0; $i <= $#descr; $i++) {
     if ($i >= 1) {
       $call .= ', ';
     }
     # FLOAT, int, long int, long long int
     if ($descr[$i] =~ /f|i|l|L/) {
       $call .= &beautify ($args[$current_arg]);
       ++$current_arg;
       next;
     }
     # &FLOAT, &int - argument is added here
     if ($descr[$i] =~ /F|I/) {
       ++$extra_var;
       $call .= '&' . &get_variable ($extra_var);
       next;
     }
     # complex
     if ($descr[$i] eq 'c') {
       $call .= &build_complex_beautify ($args[$current_arg], $args[$current_arg+1]);
       $current_arg += 2;
       next;
     }

     die ("$descr[$i] is unknown");
   }
   $call .= ')';
   $str = "$call == ";

   # Result
   @descr = split //,$descr_res;
   foreach (@descr) {
     if ($_ =~ /f|i|l|L/) {
       $str .= &beautify ($args[$current_arg]);
       ++$current_arg;
     } elsif ($_ eq 'c') {
       $str .= &build_complex_beautify ($args[$current_arg], $args[$current_arg+1]);
       $current_arg += 2;
     } elsif ($_ eq 'b') {
       # boolean
       $str .= ($args[$current_arg] == 0) ? "false" : "true";
       ++$current_arg;
     } elsif ($_ eq '1') {
       ++$current_arg;
     } else {
       die ("$_ is unknown");
     }
   }
   # consistency check
   if ($current_arg == $#args) {
     die ("wrong number of arguments")
       unless ($args[$current_arg] =~ /EXCEPTION|IGNORE_ZERO_INF_SIGN/);
   } elsif ($current_arg < $#args) {
     die ("wrong number of arguments");
   } elsif ($current_arg > ($#args+1)) {
     die ("wrong number of arguments");
   }


   # check for exceptions
   if ($current_arg <= $#args) {
     $str .= " plus " . &beautify ($args[$current_arg]);
   }

   # Put the C program line together
   # Reset some variables to start again
   $current_arg = 1;
   $extra_var = 0;
   if (substr($descr_res,0,1) eq 'f') {
     $cline = 'check_float'
   } elsif (substr($descr_res,0,1) eq 'b') {
     $cline = 'check_bool';
   } elsif (substr($descr_res,0,1) eq 'c') {
     $cline = 'check_complex';
   } elsif (substr($descr_res,0,1) eq 'i') {
     $cline = 'check_int';
   } elsif (substr($descr_res,0,1) eq 'l') {
     $cline = 'check_long';
   } elsif (substr($descr_res,0,1) eq 'L') {
     $cline = 'check_longlong';
   }
   # Special handling for some macros:
   $cline .= " (\"$str\", ";
   if ($args[0] =~ /fpclassify|isnormal|isfinite|signbit/) {
     $c_call = "$args[0] (";
   } else {
     $c_call = " FUNC($args[0]) (";
   }
   @descr = split //,$descr_args;
   for ($i=0; $i <= $#descr; $i++) {
     if ($i >= 1) {
       $c_call .= ', ';
     }
     # FLOAT, int, long int, long long int
     if ($descr[$i] =~ /f|i|l|L/) {
       $c_call .= $args[$current_arg];
       $current_arg++;
       next;
     }
     # &FLOAT, &int
     if ($descr[$i] =~ /F|I/) {
       ++$extra_var;
       $c_call .= '&' . &get_variable ($extra_var);
       next;
     }
     # complex
     if ($descr[$i] eq 'c') {
       $c_call .= "BUILD_COMPLEX ($args[$current_arg], $args[$current_arg+1])";
       $current_arg += 2;
       next;
     }
   }
   $c_call .= ')';
   $cline .= "$c_call, ";

   @descr = split //,$descr_res;
   foreach (@descr) {
     if ($_ =~ /b|f|i|l|L/ ) {
       $cline .= $args[$current_arg];
       $current_arg++;
     } elsif ($_ eq 'c') {
       $cline .= "BUILD_COMPLEX ($args[$current_arg], $args[$current_arg+1])";
       $current_arg += 2;
     } elsif ($_ eq '1') {
       push @special, $args[$current_arg];
       ++$current_arg;
     }
   }
   # Add ulp, xfail
   $cline .= &new_test ($str, ($current_arg <= $#args) ? $args[$current_arg] : undef);

   # special treatment for some functions
   if ($args[0] eq 'frexp') {
     if (defined $special[0] && $special[0] ne "IGNORE") {
       my ($str) = "$call sets x to $special[0]";
       $post = "  check_int (\"$str\", x, $special[0]";
       $post .= &new_test ($str, undef);
     }
   } elsif ($args[0] eq 'gamma' || $args[0] eq 'lgamma') {
     $pre = "  signgam = 0;\n";
     if (defined $special[0] && $special[0] ne "IGNORE") {
       my ($str) = "$call sets signgam to $special[0]";
       $post = "  check_int (\"$str\", signgam, $special[0]";
       $post .= &new_test ($str, undef);
     }
   } elsif ($args[0] eq 'modf') {
     if (defined $special[0] && $special[0] ne "IGNORE") {
       my ($str) = "$call sets x to $special[0]";
       $post = "  check_float (\"$str\", x, $special[0]";
       $post .= &new_test ($str, undef);
     }
   } elsif ($args[0] eq 'remquo') {
     if (defined $special[0] && $special[0] ne "IGNORE") {
       my ($str) = "$call sets x to $special[0]";
       $post = "  check_int (\"$str\", x, $special[0]";
       $post .= &new_test ($str, undef);
     }
   }

   print $file $pre if (defined $pre);

   print $file "  $cline";

   print $file $post if (defined $post);
 }

 # Generate libm-test.c
 sub generate_testfile {
   my ($input, $output) = @_;
   my ($lasttext);
   my (@args, $i, $str, $thisfct);

   open INPUT, $input or die ("Can't open $input: $!");
   open OUTPUT, ">$output" or die ("Can't open $output: $!");

   # Replace the special macros
   while (<INPUT>) {

     # TEST_...
     if (/^\s*TEST_/) {
       my ($descr, $args);
       chop;
       ($descr, $args) = ($_ =~ /TEST_(\w+)\s*\((.*)\)/);
       &parse_args (\*OUTPUT, $descr, $thisfct, $args);
       next;
     }
     # START (function)
     if (/START/) {
       ($thisfct) = ($_ =~ /START\s*\((.*)\)/);
       print OUTPUT "  init_max_error ();\n";
       next;
     }
     # END (function)
     if (/END/) {
       my ($fct, $line, $type);
       if (/complex/) {
 	s/,\s*complex\s*//;
 	$type = 'complex';
       } else {
 	$type = 'normal';
       }
       ($fct) = ($_ =~ /END\s*\((.*)\)/);
       if ($type eq 'complex') {
 	$line = "  print_complex_max_error (\"$fct\", ";
       } else {
 	$line = "  print_max_error (\"$fct\", ";
       }
       if (exists $results{$fct}{'has_ulps'}) {
 	$line .= "DELTA$fct";
       } else {
 	$line .= '0';
       }
       if (exists $results{$fct}{'has_fails'}) {
 	$line .= ", FAIL$fct";
       } else {
 	$line .= ', 0';
       }
       $line .= ");\n";
       print OUTPUT $line;
       push @functions, $fct;
       next;
     }
     print OUTPUT;
   }
   close INPUT;
   close OUTPUT;
 }


 # Parse ulps file
 sub parse_ulps {
   my ($file) = @_;
   my ($test, $type, $float, $eps, $kind);

   # $type has the following values:
   # "normal": No complex variable
   # "real": Real part of complex result
   # "imag": Imaginary part of complex result
   open ULP, $file  or die ("Can't open $file: $!");
   while (<ULP>) {
     chop;
     # ignore comments and empty lines
     next if /^#/;
     next if /^\s*$/;
     if (/^Test/) {
       if (/Real part of:/) {
 	s/Real part of: //;
 	$type = 'real';
       } elsif (/Imaginary part of:/) {
 	s/Imaginary part of: //;
 	$type = 'imag';
       } else {
 	$type = 'normal';
       }
       s/^.+\"(.*)\".*$/$1/;
       $test = $_;
       $kind = 'test';
       next;
     }
     if (/^Function: /) {
       if (/Real part of/) {
 	s/Real part of //;
 	$type = 'real';
       } elsif (/Imaginary part of/) {
 	s/Imaginary part of //;
 	$type = 'imag';
       } else {
 	$type = 'normal';
       }
       ($test) = ($_ =~ /^Function:\s*\"([a-zA-Z0-9_]+)\"/);
       $kind = 'fct';
       next;
     }
     if (/^i?(float|double|ldouble):/) {
       ($float, $eps) = split /\s*:\s*/,$_,2;

       if ($eps eq 'fail') {
 	$results{$test}{$type}{'fail'}{$float} = 1;
 	$results{$test}{'has_fails'} = 1;
       } elsif ($eps eq "0") {
 	# ignore
 	next;
       } else {
 	$results{$test}{$type}{'ulp'}{$float} = $eps;
 	$results{$test}{'has_ulps'} = 1;
       }
       if ($type =~ /^real|imag$/) {
 	$results{$test}{'type'} = 'complex';
       } elsif ($type eq 'normal') {
 	$results{$test}{'type'} = 'normal';
       }
       $results{$test}{'kind'} = $kind;
       next;
     }
     print "Skipping unknown entry: `$_'\n";
   }
   close ULP;
 }


 # Clean up a floating point number
 sub clean_up_number {
   my ($number) = @_;

   # Remove trailing zeros after the decimal point
   if ($number =~ /\./) {
     $number =~ s/0+$//;
     $number =~ s/\.$//;
   }
   return $number;
 }

 # Output a file which can be read in as ulps file.
 sub print_ulps_file {
   my ($file) = @_;
   my ($test, $type, $float, $eps, $fct, $last_fct);

   $last_fct = '';
   open NEWULP, ">$file" or die ("Can't open $file: $!");
   print NEWULP "# Begin of automatic generation\n";
   # first the function calls
   foreach $test (sort keys %results) {
     next if ($results{$test}{'kind'} ne 'test');
     foreach $type ('real', 'imag', 'normal') {
       if (exists $results{$test}{$type}) {
 	if (defined $results{$test}) {
 	  ($fct) = ($test =~ /^(\w+)\s/);
 	  if ($fct ne $last_fct) {
 	    $last_fct = $fct;
 	    print NEWULP "\n# $fct\n";
 	  }
 	}
 	if ($type eq 'normal') {
 	  print NEWULP "Test \"$test\":\n";
 	} elsif ($type eq 'real') {
 	  print NEWULP "Test \"Real part of: $test\":\n";
 	} elsif ($type eq 'imag') {
 	  print NEWULP "Test \"Imaginary part of: $test\":\n";
 	}
 	foreach $float (@all_floats) {
 	  if (exists $results{$test}{$type}{'ulp'}{$float}) {
 	    print NEWULP "$float: ",
 	    &clean_up_number ($results{$test}{$type}{'ulp'}{$float}),
 	    "\n";
 	  }
 	  if (exists $results{$test}{$type}{'fail'}{$float}) {
 	    print NEWULP "$float: fail\n";
 	  }
 	}
       }
     }
   }
   print NEWULP "\n# Maximal error of functions:\n";

   foreach $fct (sort keys %results) {
     next if ($results{$fct}{'kind'} ne 'fct');
     foreach $type ('real', 'imag', 'normal') {
       if (exists $results{$fct}{$type}) {
 	if ($type eq 'normal') {
 	  print NEWULP "Function: \"$fct\":\n";
 	} elsif ($type eq 'real') {
 	  print NEWULP "Function: Real part of \"$fct\":\n";
 	} elsif ($type eq 'imag') {
 	  print NEWULP "Function: Imaginary part of \"$fct\":\n";
 	}
 	foreach $float (@all_floats) {
 	  if (exists $results{$fct}{$type}{'ulp'}{$float}) {
 	    print NEWULP "$float: ",
 	    &clean_up_number ($results{$fct}{$type}{'ulp'}{$float}),
 	    "\n";
 	  }
 	  if (exists $results{$fct}{$type}{'fail'}{$float}) {
 	    print NEWULP "$float: fail\n";
 	  }
 	}
 	print NEWULP "\n";
       }
     }
   }
   print NEWULP "# end of automatic generation\n";
   close NEWULP;
 }

 sub get_ulps {
   my ($test, $type, $float) = @_;

   if ($type eq 'complex') {
     my ($res);
     # Return 0 instead of BUILD_COMPLEX (0,0)
     if (!exists $results{$test}{'real'}{'ulp'}{$float} &&
 	!exists $results{$test}{'imag'}{'ulp'}{$float}) {
       return "0";
     }
     $res = 'BUILD_COMPLEX (';
     $res .= (exists $results{$test}{'real'}{'ulp'}{$float}
 	     ? $results{$test}{'real'}{'ulp'}{$float} : "0");
     $res .= ', ';
     $res .= (exists $results{$test}{'imag'}{'ulp'}{$float}
 	     ? $results{$test}{'imag'}{'ulp'}{$float} : "0");
     $res .= ')';
     return $res;
   }
   return (exists $results{$test}{'normal'}{'ulp'}{$float}
 	  ? $results{$test}{'normal'}{'ulp'}{$float} : "0");
 }

 sub get_failure {
   my ($test, $type, $float) = @_;
   if ($type eq 'complex') {
     # return x,y
     my ($res);
     # Return 0 instead of BUILD_COMPLEX_INT (0,0)
     if (!exists $results{$test}{'real'}{'ulp'}{$float} &&
 	!exists $results{$test}{'imag'}{'ulp'}{$float}) {
       return "0";
     }
     $res = 'BUILD_COMPLEX_INT (';
     $res .= (exists $results{$test}{'real'}{'fail'}{$float}
 	     ? $results{$test}{'real'}{'fail'}{$float} : "0");
     $res .= ', ';
     $res .= (exists $results{$test}{'imag'}{'fail'}{$float}
 	     ? $results{$test}{'imag'}{'fail'}{$float} : "0");
     $res .= ')';
     return $res;
   }
   return (exists $results{$test}{'normal'}{'fail'}{$float}
 	  ? $results{$test}{'normal'}{'fail'}{$float} : "0");

 }

 # Output the defines for a single test
 sub output_test {
   my ($file, $test, $name) = @_;
   my ($ldouble, $double, $float, $ildouble, $idouble, $ifloat);
   my ($type);

   # Do we have ulps/failures?
   if (!exists $results{$test}{'type'}) {
     return;
   }
   $type = $results{$test}{'type'};
   if (exists $results{$test}{'has_ulps'}) {
     # XXX use all_floats (change order!)
     $ldouble = &get_ulps ($test, $type, "ldouble");
     $double = &get_ulps ($test, $type, "double");
     $float = &get_ulps ($test, $type, "float");
     $ildouble = &get_ulps ($test, $type, "ildouble");
     $idouble = &get_ulps ($test, $type, "idouble");
     $ifloat = &get_ulps ($test, $type, "ifloat");
     print $file "#define DELTA$name CHOOSE($ldouble, $double, $float, $ildouble, $idouble, $ifloat)\t/* $test  */\n";
   }

   if (exists $results{$test}{'has_fails'}) {
     $ldouble = &get_failure ($test, "ldouble");
     $double = &get_failure ($test, "double");
     $float = &get_failure ($test, "float");
     $ildouble = &get_failure ($test, "ildouble");
     $idouble = &get_failure ($test, "idouble");
     $ifloat = &get_failure ($test, "ifloat");
     print $file "#define FAIL$name CHOOSE($ldouble, $double, $float $ildouble, $idouble, $ifloat)\t/* $test  */\n";
   }
 }

 # Print include file
 sub output_ulps {
   my ($file, $ulps_filename) = @_;
   my ($i, $fct);

   open ULP, ">$file" or die ("Can't open $file: $!");

   print ULP "/* This file is automatically generated\n";
   print ULP "   from $ulps_filename with gen-libm-test.pl.\n";
   print ULP "   Don't change it - change instead the master files.  */\n\n";

   print ULP "\n/* Maximal error of functions.  */\n";
   foreach $fct (@functions) {
     output_test (\*ULP, $fct, $fct);
   }

   print ULP "\n/* Error of single function calls.  */\n";
   for ($i = 0; $i < $count; $i++) {
     output_test (\*ULP, $tests[$i], $i);
   }
   close ULP;
 }
	#!/usr/bin/perl -w
	# Copyright (C) 1999, 2006 Free Software Foundation, Inc.
	# This file is part of the GNU C Library.
	# Contributed by Andreas Jaeger <aj@suse.de>, 1999.

	# 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.

	# This file needs to be tidied up
	# Note that functions and tests share the same namespace.

	# Information about tests are stored in: %results
	# $results{$test}{"kind"} is either "fct" or "test" and flags whether this
	# is a maximal error of a function or a single test.
	# $results{$test}{"type"} is the result type, e.g. normal or complex.
	# $results{$test}{"has_ulps"} is set if deltas exist.
	# $results{$test}{"has_fails"} is set if exptected failures exist.
	# In the following description $type and $float are:
	# - $type is either "normal", "real" (for the real part of a complex number)
	# or "imag" (for the imaginary part # of a complex number).
	# - $float is either of float, ifloat, double, idouble, ldouble, ildouble;
	# It represents the underlying floating point type (float, double or long
	# double) and if inline functions (the leading i stands for inline)
	# are used.
	# $results{$test}{$type}{"fail"}{$float} is defined and has a 1 if
	# the test is expected to fail
	# $results{$test}{$type}{"ulp"}{$float} is defined and has a delta as value


	use Getopt::Std;

	use strict;

	use vars qw ($input $output);
	use vars qw (%results);
	use vars qw (@tests @functions);
	use vars qw ($count);
	use vars qw (%beautify @all_floats);
	use vars qw ($output_dir $ulps_file);

	# all_floats is sorted and contains all recognised float types
	@all_floats = ('double', 'float', 'idouble',
	'ifloat', 'ildouble', 'ldouble');

	%beautify =
	( "minus_zero" => "-0",
	"plus_zero" => "+0",
	"minus_infty" => "-inf",
	"plus_infty" => "inf",
	"nan_value" => "NaN",
	"M_El" => "e",
	"M_E2l" => "e^2",
	"M_E3l" => "e^3",
	"M_LOG10El", "log10(e)",
	"M_PIl" => "pi",
	"M_PI_34l" => "3/4 pi",
	"M_PI_2l" => "pi/2",
	"M_PI_4l" => "pi/4",
	"M_PI_6l" => "pi/6",
	"M_PI_34_LOG10El" => "3/4 pi*log10(e)",
	"M_PI_LOG10El" => "pi*log10(e)",
	"M_PI2_LOG10El" => "pi/2*log10(e)",
	"M_PI4_LOG10El" => "pi/4*log10(e)",
	"M_LOG_SQRT_PIl" => "log(sqrt(pi))",
	"M_LOG_2_SQRT_PIl" => "log(2*sqrt(pi))",
	"M_2_SQRT_PIl" => "2 sqrt (pi)",
	"M_SQRT_PIl" => "sqrt (pi)",
	"INVALID_EXCEPTION" => "invalid exception",
	"DIVIDE_BY_ZERO_EXCEPTION" => "division by zero exception",
	"INVALID_EXCEPTION_OK" => "invalid exception allowed",
	"DIVIDE_BY_ZERO_EXCEPTION_OK" => "division by zero exception allowed",
	"EXCEPTIONS_OK" => "exceptions allowed",
	"IGNORE_ZERO_INF_SIGN" => "sign of zero/inf not specified",
	"INVALID_EXCEPTION\|IGNORE_ZERO_INF_SIGN" => "invalid exception and sign of zero/inf not specified"
	);


	# get Options
	# Options:
	# u: ulps-file
	# h: help
	# o: output-directory
	# n: generate new ulps file
	use vars qw($opt_u $opt_h $opt_o $opt_n);
	getopts('u:o:nh');

	$ulps_file = 'libm-test-ulps';
	$output_dir = '';

	if ($opt_h) {
	print "Usage: gen-libm-test.pl [OPTIONS]\n";
	print " -h print this help, then exit\n";
	print " -o DIR directory where generated files will be placed\n";
	print " -n only generate sorted file NewUlps from libm-test-ulps\n";
	print " -u FILE input file with ulps\n";
	exit 0;
	}

	$ulps_file = $opt_u if ($opt_u);
	$output_dir = $opt_o if ($opt_o);

	$input = "libm-test.inc";
	$output = "${output_dir}libm-test.c";

	$count = 0;

	&parse_ulps ($ulps_file);
	&generate_testfile ($input, $output) unless ($opt_n);
	&output_ulps ("${output_dir}libm-test-ulps.h", $ulps_file) unless ($opt_n);
	&print_ulps_file ("${output_dir}NewUlps") if ($opt_n);

	# Return a nicer representation
	sub beautify {
	my ($arg) = @_;
	my ($tmp);

	if (exists $beautify{$arg}) {
	return $beautify{$arg};
	}
	if ($arg =~ /^-/) {
	$tmp = $arg;
	$tmp =~ s/^-//;
	if (exists $beautify{$tmp}) {
	return '-' . $beautify{$tmp};
	}
	}
	if ($arg =~ /[0-9]L$/) {
	$arg =~ s/L$//;
	}
	return $arg;
	}

	# Return a nicer representation of a complex number
	sub build_complex_beautify {
	my ($r, $i) = @_;
	my ($str1, $str2);

	$str1 = &beautify ($r);
	$str2 = &beautify ($i);
	if ($str2 =~ /^-/) {
	$str2 =~ s/^-//;
	$str1 .= ' - ' . $str2;
	} else {
	$str1 .= ' + ' . $str2;
	}
	$str1 .= ' i';
	return $str1;
	}

	# Return name of a variable
	sub get_variable {
	my ($number) = @_;

	return "x" if ($number == 1);
	return "y" if ($number == 2);
	return "z" if ($number == 3);
	# return x1,x2,...
	$number =-3;
	return "x$number";
	}

	# Add a new test to internal data structures and fill in the
	# ulps, failures and exception information for the C line.
	sub new_test {
	my ($test, $exception) = @_;
	my $rest;

	# Add ulp, xfail
	if (exists $results{$test}{'has_ulps'}) {
	$rest = ", DELTA$count";
	} else {
	$rest = ', 0';
	}
	if (exists $results{$test}{'has_fails'}) {
	$rest .= ", FAIL$count";
	} else {
	$rest .= ', 0';
	}
	if (defined $exception) {
	$rest .= ", $exception";
	} else {
	$rest .= ', 0';
	}
	$rest .= ");\n";
	# We must increment here to keep @tests and count in sync
	push @tests, $test;
	++$count;
	return $rest;
	}

	# Treat some functions especially.
	# Currently only sincos needs extra treatment.
	sub special_functions {
	my ($file, $args) = @_;
	my (@args, $str, $test, $cline);

	@args = split /,\s*/, $args;

	unless ($args[0] =~ /sincos/) {
	die ("Don't know how to handle $args[0] extra.");
	}
	print $file " FUNC (sincos) ($args[1], &sin_res, &cos_res);\n";

	$str = 'sincos (' . &beautify ($args[1]) . ', &sin_res, &cos_res)';
	# handle sin
	$test = $str . ' puts ' . &beautify ($args[2]) . ' in sin_res';
	if ($#args == 4) {
	$test .= " plus " . &beautify ($args[4]);
	}

	$cline = " check_float (\"$test\", sin_res, $args[2]";
	$cline .= &new_test ($test, $args[4]);
	print $file $cline;

	# handle cos
	$test = $str . ' puts ' . &beautify ($args[3]) . ' in cos_res';
	$cline = " check_float (\"$test\", cos_res, $args[3]";
	# only tests once for exception
	$cline .= &new_test ($test, undef);
	print $file $cline;
	}

	# Parse the arguments to TEST_x_y
	sub parse_args {
	my ($file, $descr, $fct, $args) = @_;
	my (@args, $str, $descr_args, $descr_res, @descr);
	my ($current_arg, $cline, $i);
	my ($pre, $post, @special);
	my ($extra_var, $call, $c_call);

	if ($descr eq 'extra') {
	&special_functions ($file, $args);
	return;
	}
	($descr_args, $descr_res) = split /_/,$descr, 2;

	@args = split /,\s*/, $args;

	$call = "$fct (";

	# Generate first the string that's shown to the user
	$current_arg = 1;
	$extra_var = 0;
	@descr = split //,$descr_args;
	for ($i = 0; $i <= $#descr; $i++) {
	if ($i >= 1) {
	$call .= ', ';
	}
	# FLOAT, int, long int, long long int
	if ($descr[$i] =~ /f\|i\|l\|L/) {
	$call .= &beautify ($args[$current_arg]);
	++$current_arg;
	next;
	}
	# &FLOAT, &int - argument is added here
	if ($descr[$i] =~ /F\|I/) {
	++$extra_var;
	$call .= '&' . &get_variable ($extra_var);
	next;
	}
	# complex
	if ($descr[$i] eq 'c') {
	$call .= &build_complex_beautify ($args[$current_arg], $args[$current_arg+1]);
	$current_arg += 2;
	next;
	}

	die ("$descr[$i] is unknown");
	}
	$call .= ')';
	$str = "$call == ";

	# Result
	@descr = split //,$descr_res;
	foreach (@descr) {
	if ($_ =~ /f\|i\|l\|L/) {
	$str .= &beautify ($args[$current_arg]);
	++$current_arg;
	} elsif ($_ eq 'c') {
	$str .= &build_complex_beautify ($args[$current_arg], $args[$current_arg+1]);
	$current_arg += 2;
	} elsif ($_ eq 'b') {
	# boolean
	$str .= ($args[$current_arg] == 0) ? "false" : "true";
	++$current_arg;
	} elsif ($_ eq '1') {
	++$current_arg;
	} else {
	die ("$_ is unknown");
	}
	}
	# consistency check
	if ($current_arg == $#args) {
	die ("wrong number of arguments")
	unless ($args[$current_arg] =~ /EXCEPTION\|IGNORE_ZERO_INF_SIGN/);
	} elsif ($current_arg < $#args) {
	die ("wrong number of arguments");
	} elsif ($current_arg > ($#args+1)) {
	die ("wrong number of arguments");
	}


	# check for exceptions
	if ($current_arg <= $#args) {
	$str .= " plus " . &beautify ($args[$current_arg]);
	}

	# Put the C program line together
	# Reset some variables to start again
	$current_arg = 1;
	$extra_var = 0;
	if (substr($descr_res,0,1) eq 'f') {
	$cline = 'check_float'
	} elsif (substr($descr_res,0,1) eq 'b') {
	$cline = 'check_bool';
	} elsif (substr($descr_res,0,1) eq 'c') {
	$cline = 'check_complex';
	} elsif (substr($descr_res,0,1) eq 'i') {
	$cline = 'check_int';
	} elsif (substr($descr_res,0,1) eq 'l') {
	$cline = 'check_long';
	} elsif (substr($descr_res,0,1) eq 'L') {
	$cline = 'check_longlong';
	}
	# Special handling for some macros:
	$cline .= " (\"$str\", ";
	if ($args[0] =~ /fpclassify\|isnormal\|isfinite\|signbit/) {
	$c_call = "$args[0] (";
	} else {
	$c_call = " FUNC($args[0]) (";
	}
	@descr = split //,$descr_args;
	for ($i=0; $i <= $#descr; $i++) {
	if ($i >= 1) {
	$c_call .= ', ';
	}
	# FLOAT, int, long int, long long int
	if ($descr[$i] =~ /f\|i\|l\|L/) {
	$c_call .= $args[$current_arg];
	$current_arg++;
	next;
	}
	# &FLOAT, &int
	if ($descr[$i] =~ /F\|I/) {
	++$extra_var;
	$c_call .= '&' . &get_variable ($extra_var);
	next;
	}
	# complex
	if ($descr[$i] eq 'c') {
	$c_call .= "BUILD_COMPLEX ($args[$current_arg], $args[$current_arg+1])";
	$current_arg += 2;
	next;
	}
	}
	$c_call .= ')';
	$cline .= "$c_call, ";

	@descr = split //,$descr_res;
	foreach (@descr) {
	if ($_ =~ /b\|f\|i\|l\|L/ ) {
	$cline .= $args[$current_arg];
	$current_arg++;
	} elsif ($_ eq 'c') {
	$cline .= "BUILD_COMPLEX ($args[$current_arg], $args[$current_arg+1])";
	$current_arg += 2;
	} elsif ($_ eq '1') {
	push @special, $args[$current_arg];
	++$current_arg;
	}
	}
	# Add ulp, xfail
	$cline .= &new_test ($str, ($current_arg <= $#args) ? $args[$current_arg] : undef);

	# special treatment for some functions
	if ($args[0] eq 'frexp') {
	if (defined $special[0] && $special[0] ne "IGNORE") {
	my ($str) = "$call sets x to $special[0]";
	$post = " check_int (\"$str\", x, $special[0]";
	$post .= &new_test ($str, undef);
	}
	} elsif ($args[0] eq 'gamma' \|\| $args[0] eq 'lgamma') {
	$pre = " signgam = 0;\n";
	if (defined $special[0] && $special[0] ne "IGNORE") {
	my ($str) = "$call sets signgam to $special[0]";
	$post = " check_int (\"$str\", signgam, $special[0]";
	$post .= &new_test ($str, undef);
	}
	} elsif ($args[0] eq 'modf') {
	if (defined $special[0] && $special[0] ne "IGNORE") {
	my ($str) = "$call sets x to $special[0]";
	$post = " check_float (\"$str\", x, $special[0]";
	$post .= &new_test ($str, undef);
	}
	} elsif ($args[0] eq 'remquo') {
	if (defined $special[0] && $special[0] ne "IGNORE") {
	my ($str) = "$call sets x to $special[0]";
	$post = " check_int (\"$str\", x, $special[0]";
	$post .= &new_test ($str, undef);
	}
	}

	print $file $pre if (defined $pre);

	print $file " $cline";

	print $file $post if (defined $post);
	}

	# Generate libm-test.c
	sub generate_testfile {
	my ($input, $output) = @_;
	my ($lasttext);
	my (@args, $i, $str, $thisfct);

	open INPUT, $input or die ("Can't open $input: $!");
	open OUTPUT, ">$output" or die ("Can't open $output: $!");

	# Replace the special macros
	while (<INPUT>) {

	# TEST_...
	if (/^\s*TEST_/) {
	my ($descr, $args);
	chop;
	($descr, $args) = ($_ =~ /TEST_(\w+)\s\((.)\)/);
	&parse_args (\*OUTPUT, $descr, $thisfct, $args);
	next;
	}
	# START (function)
	if (/START/) {
	($thisfct) = ($_ =~ /START\s\((.)\)/);
	print OUTPUT " init_max_error ();\n";
	next;
	}
	# END (function)
	if (/END/) {
	my ($fct, $line, $type);
	if (/complex/) {
	s/,\scomplex\s//;
	$type = 'complex';
	} else {
	$type = 'normal';
	}
	($fct) = ($_ =~ /END\s\((.)\)/);
	if ($type eq 'complex') {
	$line = " print_complex_max_error (\"$fct\", ";
	} else {
	$line = " print_max_error (\"$fct\", ";
	}
	if (exists $results{$fct}{'has_ulps'}) {
	$line .= "DELTA$fct";
	} else {
	$line .= '0';
	}
	if (exists $results{$fct}{'has_fails'}) {
	$line .= ", FAIL$fct";
	} else {
	$line .= ', 0';
	}
	$line .= ");\n";
	print OUTPUT $line;
	push @functions, $fct;
	next;
	}
	print OUTPUT;
	}
	close INPUT;
	close OUTPUT;
	}



	# Parse ulps file
	sub parse_ulps {
	my ($file) = @_;
	my ($test, $type, $float, $eps, $kind);

	# $type has the following values:
	# "normal": No complex variable
	# "real": Real part of complex result
	# "imag": Imaginary part of complex result
	open ULP, $file or die ("Can't open $file: $!");
	while (<ULP>) {
	chop;
	# ignore comments and empty lines
	next if /^#/;
	next if /^\s*$/;
	if (/^Test/) {
	if (/Real part of:/) {
	s/Real part of: //;
	$type = 'real';
	} elsif (/Imaginary part of:/) {
	s/Imaginary part of: //;
	$type = 'imag';
	} else {
	$type = 'normal';
	}
	s/^.+\"(.)\".$/$1/;
	$test = $_;
	$kind = 'test';
	next;
	}
	if (/^Function: /) {
	if (/Real part of/) {
	s/Real part of //;
	$type = 'real';
	} elsif (/Imaginary part of/) {
	s/Imaginary part of //;
	$type = 'imag';
	} else {
	$type = 'normal';
	}
	($test) = ($_ =~ /^Function:\s*\"([a-zA-Z0-9_]+)\"/);
	$kind = 'fct';
	next;
	}
	if (/^i?(float\|double\|ldouble):/) {
	($float, $eps) = split /\s:\s/,$_,2;

	if ($eps eq 'fail') {
	$results{$test}{$type}{'fail'}{$float} = 1;
	$results{$test}{'has_fails'} = 1;
	} elsif ($eps eq "0") {
	# ignore
	next;
	} else {
	$results{$test}{$type}{'ulp'}{$float} = $eps;
	$results{$test}{'has_ulps'} = 1;
	}
	if ($type =~ /^real\|imag$/) {
	$results{$test}{'type'} = 'complex';
	} elsif ($type eq 'normal') {
	$results{$test}{'type'} = 'normal';
	}
	$results{$test}{'kind'} = $kind;
	next;
	}
	print "Skipping unknown entry: `$_'\n";
	}
	close ULP;
	}


	# Clean up a floating point number
	sub clean_up_number {
	my ($number) = @_;

	# Remove trailing zeros after the decimal point
	if ($number =~ /\./) {
	$number =~ s/0+$//;
	$number =~ s/\.$//;
	}
	return $number;
	}

	# Output a file which can be read in as ulps file.
	sub print_ulps_file {
	my ($file) = @_;
	my ($test, $type, $float, $eps, $fct, $last_fct);

	$last_fct = '';
	open NEWULP, ">$file" or die ("Can't open $file: $!");
	print NEWULP "# Begin of automatic generation\n";
	# first the function calls
	foreach $test (sort keys %results) {
	next if ($results{$test}{'kind'} ne 'test');
	foreach $type ('real', 'imag', 'normal') {
	if (exists $results{$test}{$type}) {
	if (defined $results{$test}) {
	($fct) = ($test =~ /^(\w+)\s/);
	if ($fct ne $last_fct) {
	$last_fct = $fct;
	print NEWULP "\n# $fct\n";
	}
	}
	if ($type eq 'normal') {
	print NEWULP "Test \"$test\":\n";
	} elsif ($type eq 'real') {
	print NEWULP "Test \"Real part of: $test\":\n";
	} elsif ($type eq 'imag') {
	print NEWULP "Test \"Imaginary part of: $test\":\n";
	}
	foreach $float (@all_floats) {
	if (exists $results{$test}{$type}{'ulp'}{$float}) {
	print NEWULP "$float: ",
	&clean_up_number ($results{$test}{$type}{'ulp'}{$float}),
	"\n";
	}
	if (exists $results{$test}{$type}{'fail'}{$float}) {
	print NEWULP "$float: fail\n";
	}
	}
	}
	}
	}
	print NEWULP "\n# Maximal error of functions:\n";

	foreach $fct (sort keys %results) {
	next if ($results{$fct}{'kind'} ne 'fct');
	foreach $type ('real', 'imag', 'normal') {
	if (exists $results{$fct}{$type}) {
	if ($type eq 'normal') {
	print NEWULP "Function: \"$fct\":\n";
	} elsif ($type eq 'real') {
	print NEWULP "Function: Real part of \"$fct\":\n";
	} elsif ($type eq 'imag') {
	print NEWULP "Function: Imaginary part of \"$fct\":\n";
	}
	foreach $float (@all_floats) {
	if (exists $results{$fct}{$type}{'ulp'}{$float}) {
	print NEWULP "$float: ",
	&clean_up_number ($results{$fct}{$type}{'ulp'}{$float}),
	"\n";
	}
	if (exists $results{$fct}{$type}{'fail'}{$float}) {
	print NEWULP "$float: fail\n";
	}
	}
	print NEWULP "\n";
	}
	}
	}
	print NEWULP "# end of automatic generation\n";
	close NEWULP;
	}

	sub get_ulps {
	my ($test, $type, $float) = @_;

	if ($type eq 'complex') {
	my ($res);
	# Return 0 instead of BUILD_COMPLEX (0,0)
	if (!exists $results{$test}{'real'}{'ulp'}{$float} &&
	!exists $results{$test}{'imag'}{'ulp'}{$float}) {
	return "0";
	}
	$res = 'BUILD_COMPLEX (';
	$res .= (exists $results{$test}{'real'}{'ulp'}{$float}
	? $results{$test}{'real'}{'ulp'}{$float} : "0");
	$res .= ', ';
	$res .= (exists $results{$test}{'imag'}{'ulp'}{$float}
	? $results{$test}{'imag'}{'ulp'}{$float} : "0");
	$res .= ')';
	return $res;
	}
	return (exists $results{$test}{'normal'}{'ulp'}{$float}
	? $results{$test}{'normal'}{'ulp'}{$float} : "0");
	}

	sub get_failure {
	my ($test, $type, $float) = @_;
	if ($type eq 'complex') {
	# return x,y
	my ($res);
	# Return 0 instead of BUILD_COMPLEX_INT (0,0)
	if (!exists $results{$test}{'real'}{'ulp'}{$float} &&
	!exists $results{$test}{'imag'}{'ulp'}{$float}) {
	return "0";
	}
	$res = 'BUILD_COMPLEX_INT (';
	$res .= (exists $results{$test}{'real'}{'fail'}{$float}
	? $results{$test}{'real'}{'fail'}{$float} : "0");
	$res .= ', ';
	$res .= (exists $results{$test}{'imag'}{'fail'}{$float}
	? $results{$test}{'imag'}{'fail'}{$float} : "0");
	$res .= ')';
	return $res;
	}
	return (exists $results{$test}{'normal'}{'fail'}{$float}
	? $results{$test}{'normal'}{'fail'}{$float} : "0");

	}

	# Output the defines for a single test
	sub output_test {
	my ($file, $test, $name) = @_;
	my ($ldouble, $double, $float, $ildouble, $idouble, $ifloat);
	my ($type);

	# Do we have ulps/failures?
	if (!exists $results{$test}{'type'}) {
	return;
	}
	$type = $results{$test}{'type'};
	if (exists $results{$test}{'has_ulps'}) {
	# XXX use all_floats (change order!)
	$ldouble = &get_ulps ($test, $type, "ldouble");
	$double = &get_ulps ($test, $type, "double");
	$float = &get_ulps ($test, $type, "float");
	$ildouble = &get_ulps ($test, $type, "ildouble");
	$idouble = &get_ulps ($test, $type, "idouble");
	$ifloat = &get_ulps ($test, $type, "ifloat");
	print $file "#define DELTA$name CHOOSE($ldouble, $double, $float, $ildouble, $idouble, $ifloat)\t/* $test */\n";
	}

	if (exists $results{$test}{'has_fails'}) {
	$ldouble = &get_failure ($test, "ldouble");
	$double = &get_failure ($test, "double");
	$float = &get_failure ($test, "float");
	$ildouble = &get_failure ($test, "ildouble");
	$idouble = &get_failure ($test, "idouble");
	$ifloat = &get_failure ($test, "ifloat");
	print $file "#define FAIL$name CHOOSE($ldouble, $double, $float $ildouble, $idouble, $ifloat)\t/* $test */\n";
	}
	}

	# Print include file
	sub output_ulps {
	my ($file, $ulps_filename) = @_;
	my ($i, $fct);

	open ULP, ">$file" or die ("Can't open $file: $!");

	print ULP "/* This file is automatically generated\n";
	print ULP " from $ulps_filename with gen-libm-test.pl.\n";
	print ULP " Don't change it - change instead the master files. */\n\n";

	print ULP "\n/* Maximal error of functions. */\n";
	foreach $fct (@functions) {
	output_test (\*ULP, $fct, $fct);
	}

	print ULP "\n/* Error of single function calls. */\n";
	for ($i = 0; $i < $count; $i++) {
	output_test (\*ULP, $tests[$i], $i);
	}
	close ULP;
	}