f0ee064b7d
Some math functions have distinct performance characteristics in specific domains of inputs, where some inputs return via a fast path while other inputs require multiple precision calculations, that too at different precision levels. The way to implement different domains was to have a separate source file and benchmark definition, resulting in separate programs. This clutters up the benchmark, so this change allows these domains to be consolidated into the same input file. To do this, the input file format is now enhanced to allow comments with a preceding # and directives with two # at the begining of a line. A directive that looks like: tells the benchmark generation script that what follows is a different domain of inputs. The value of the 'name' directive (in this case, foo) is used in the output. The two input domains are then executed sequentially and their results collated separately. with the above directive, there would be two lines in the result that look like: func(): .... func(foo): ...
169 lines
3.9 KiB
Perl
Executable File
169 lines
3.9 KiB
Perl
Executable File
#! /usr/bin/perl -w
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# Copyright (C) 2013 Free Software Foundation, Inc.
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# This file is part of the GNU C Library.
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# The GNU C Library is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2.1 of the License, or (at your option) any later version.
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# The GNU C Library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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# You should have received a copy of the GNU Lesser General Public
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# License along with the GNU C Library; if not, see
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# <http://www.gnu.org/licenses/>.
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use strict;
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use warnings;
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# Generate a benchmark source file for a given input.
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if (@ARGV < 2) {
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die "Usage: bench.pl <function> [parameter types] [return type]"
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}
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my $arg;
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my $func = $ARGV[0];
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my @args;
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my $ret = "void";
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my $getret = "";
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my $retval = "";
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if (@ARGV >= 2) {
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@args = split(':', $ARGV[1]);
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}
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if (@ARGV == 3) {
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$ret = $ARGV[2];
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}
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my $decl = "extern $ret $func (";
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# Function has no arguments.
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if (@args == 0 || $args[0] eq "void") {
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print "$decl void);\n";
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print "#define CALL_BENCH_FUNC(i,j) $func();\n";
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print "#define NUM_VARIANTS (1)\n";
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print "#define NUM_SAMPLES(v) (1)\n";
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print "#define VARIANT(v) FUNCNAME \"()\"\n"
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}
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# The function has arguments, so parse them and populate the inputs.
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else {
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my $num = 0;
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my $bench_func = "#define CALL_BENCH_FUNC(v, i) $func (";
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my $struct =
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"struct _variants
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{
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const char *name;
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int count;
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struct args *in;
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};\n";
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my $arg_struct = "struct args {";
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foreach $arg (@args) {
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if ($num > 0) {
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$bench_func = "$bench_func,";
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$decl = "$decl,";
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}
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$arg_struct = "$arg_struct $arg arg$num;";
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$bench_func = "$bench_func variants[v].in[i].arg$num";
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$decl = "$decl $arg";
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$num = $num + 1;
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}
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$arg_struct = $arg_struct . "};\n";
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$decl = $decl . ");\n";
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$bench_func = $bench_func . ");\n";
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# We create a hash of inputs for each variant of the test.
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my $variant = "";
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my @curvals;
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my %vals;
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open INPUTS, "<$func-inputs" or die $!;
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LINE:while (<INPUTS>) {
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chomp;
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# New variant.
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if (/^## (\w+): (\w+)/) {
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#We only identify Name for now.
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if ($1 ne "name") {
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next LINE;
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}
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# Save values in the last variant.
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my @copy = @curvals;
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$vals{$variant} = \@copy;
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# Prepare for the next.
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$variant=$2;
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undef @curvals;
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next LINE;
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}
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# Skip over comments.
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if (/^#/) {
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next LINE;
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}
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push (@curvals, $_);
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}
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$vals{$variant} = \@curvals;
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# Print the definitions and macros.
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print $decl;
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print $bench_func;
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print $arg_struct;
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print $struct;
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my $c = 0;
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my $key;
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# Print the input arrays.
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foreach $key (keys %vals) {
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my @arr = @{$vals{$key}};
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print "struct args in" . $c . "[" . @arr . "] = {\n";
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foreach (@arr) {
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print "{$_},\n";
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}
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print "};\n\n";
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$c += 1;
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}
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# The variants. Each variant then points to the appropriate input array we
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# defined above.
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print "struct _variants variants[" . (keys %vals) . "] = {\n";
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$c = 0;
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foreach $key (keys %vals) {
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print "{\"$func($key)\", " . @{$vals{$key}} . ", in$c},\n";
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$c += 1;
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}
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print "};\n\n";
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# Finally, print the last set of macros.
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print "#define NUM_VARIANTS $c\n";
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print "#define NUM_SAMPLES(i) (variants[i].count)\n";
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print "#define VARIANT(i) (variants[i].name)\n";
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}
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# In some cases not storing a return value seems to result in the function call
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# being optimized out.
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if ($ret ne "void") {
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print "static volatile $ret ret = 0.0;\n";
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$getret = "ret = ";
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}
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# And we're done.
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print "#define BENCH_FUNC(i, j) ({$getret CALL_BENCH_FUNC (i, j);})\n";
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print "#define FUNCNAME \"$func\"\n";
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print "#include \"bench-skeleton.c\"\n";
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