source/test/perf/collationperf/CollPerf.pl - external/github.com/unicode-org/icu - Git at Google

 #!/usr/bin/perl
 #  ********************************************************************
 #  * COPYRIGHT:
 #  * Copyright (c) 2002-2008, International Business Machines Corporation and
 #  * others. All Rights Reserved.
 #  ********************************************************************

 require "../perldriver/Common.pl";

 use lib '../perldriver';

 my $p;
 if ($OnWindows) {
     $p = $ICUPathLatest . "/collationperf/Release/collationperf.exe";
 }
 else {
     $p = $ICUPathLatest . "/collationperf/collperf";
 }

 my @locale = (
     "en_US",
     "da_DK",
     "de_DE",
     "fr_FR",
     "ja_JP",
     "ja_JP",
     "ja_JP",
     "ja_JP",
     "zh_CN",
     "zh_CN",
     "zh_CN",
     "zh_TW",
     "zh_TW",
     "ko_KR",
     "ko_KR",
     "ru_RU",
     "ru_RU",
     "th_TH",
     "th_TH"
 );

 my $filePath   = $CollationDataPath . "/";
 my $filePrefix = "TestNames_";
 my @data       = (
     $filePrefix."Latin.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Japanese_h.txt",
     $filePrefix."Japanese_k.txt",
     $filePrefix."Asian.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Chinese.txt",
     $filePrefix."Simplified_Chinese.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Chinese.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Korean.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Russian.txt",
     $filePrefix."Latin.txt",
     $filePrefix."Thai.txt"
 );

 my @resultPER;
 my @resultFIN;

 for ( $n = 0 ; $n < @data ; $n++ ) {
     my $resultICU;
     my $resultNIX;
     $resultICU = @locale[$n].",".@data[$n].",";
     $resultNIX = @locale[$n].",".@data[$n].",";
     @resultFIN[$n] = @locale[$n].",".@data[$n].",";

     #quicksort
     my @icu = `$p -locale @locale[$n] -loop 1000 -file $filePath@data[$n] -qsort`;
     my @nix = `$p -locale @locale[$n] -unix -loop 1000 -file $filePath@data[$n] -qsort`;

     my @icua = split( ' = ', $icu[2] );
     my @icub = split( ' ',   $icua[1] );
     my @nixa = split( ' = ', $nix[2] );
     my @nixb = split( ' ',   $nixa[1] );

     $resultICU = $resultICU.$icub[0].",";
     $resultNIX = $resultNIX.$nixb[0].",";

     #keygen time
     @icu = `$p -locale @locale[$n] -loop 1000 -file $filePath@data[$n] -keygen`;
     @nix = `$p -locale @locale[$n] -unix -loop 1000 -file $filePath@data[$n] -keygen`;

     @icua = split( ' = ', $icu[2] );
     @icub = split( ' ',   $icua[1] );
     @nixa = split( ' = ', $nix[2] );
     @nixb = split( ' ',   $nixa[1] );

     $resultICU = $resultICU.$icub[0].",";
     $resultNIX = $resultNIX.$nixb[0].",";

     #keygen len
     @icua = split( ' = ', $icu[3] );
     @nixa = split( ' = ', $nix[3] );

     chomp( @icua[1] );
     chomp( @nixa[1] );

     $resultICU = $resultICU.$icua[1].",";
     $resultNIX = $resultNIX.$nixa[1].",";

     my @resultSplitICU;
     my @resultSplitNIX;

     #percent
     for ( $i = 0 ; $i < 3 ; $i++ ) {
         my $percent = 0;
         @resultSplitICU = split( ',', $resultICU );
         @resultSplitNIX = split( ',', $resultNIX );
         if ( @resultSplitICU[ 2 + $i ] > 0 ) {
             $percent = substr((((
                 @resultSplitNIX[ 2 + $i ] - @resultSplitICU[ 2 + $i ]) / @resultSplitICU[ 2 + $i ]) * 100),
                 0, 7);
         }
         @resultPER[$n] = @resultPER[$n].$percent."%,";
     }

     #store ICU result
     for ( $j = 0 ; $j < 3 ; $j++ ) {
         @resultFIN[$n] = @resultFIN[$n].@resultSplitICU[ 2 + $j ].",";
     }

     #store Unix result
     for ( $j = 0 ; $j < 3 ; $j++ ) {
         @resultFIN[$n] = @resultFIN[$n].@resultSplitNIX[ 2 + $j ].",";
     }

     #store Percent result
     @resultFIN[$n] = @resultFIN[$n].@resultPER[$n];
 }

 # Print the results in a HTML page
 printOutput();

 exit(0);

 # This subroutine creates the web page and prints out the results in a table
 sub printOutput {
     my $title = "Collation:  ICU " . $ICULatestVersion . " vs GLIBC";
     my $html  = localtime;
     $html =~ s/://g;         # ':' illegal
     $html =~ s/\s*\d+$//;    # delete year
     $html =~ s/^\w+\s*//;    # delete dow
     $html = "CollationPerformance $html.html";
     $html = "../results/" . $html;
     $html =~ s/ /_/g;
     open( HTML, ">$html" ) or die "Can't write to $html: $!";
     print HTML <<EOF;
 <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
 "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
 <html xmlns="http://www.w3.org/1999/xhtml">
 <head>
 <meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
 <title>Collation: ICU4C vs. glibc</title>
 <link rel="stylesheet" href="../icu.css" type="text/css" />
 </head>
 <body>
 <!--#include virtual="../ssi/header.html" -->
 EOF

     print HTML "<h2>Collation: ICU4C ".$ICULatestVersion." vs. GLIBC</h2>\n";

     print HTML <<EOF;
 <p>The performance test takes a locale and creates a RuleBasedCollator with
 default options. A large list of names is used as data in each test, where the
 names vary according to language. Each Collation operation over the whole list
 is repeated 1000 times. The percentage values in the final column are the most
 useful. They measure differences, where positive is better for ICU4C, and
 negative is better for the compared implementation.</p>
 <h3>Key</h3>
 <table border="1" cellspacing="0" cellpadding="4">
 <tr>
 <th align="left">Operation</th>
 <th align="left">Units</th>
 <th align="left">Description</th>
 </tr>
 <tr>
 <td>strcoll</td>
 <td>nanosecs</td>
 <td>Timing for string collation, an incremental compare of strings.</td>
 </tr>
 <tr>
 <td>keygen</td>
 <td>nanosecs</td>
 <td>Timing for generation of sort keys, used to 'precompile' information so
 that subsequent operations can use binary comparison.</td>
 </tr>
 <tr>
 <td>keylen</td>
 <td>bytes/char</td>
 <td>The average length of the generated sort keys, in bytes per character
 (Unicode/ISO 10646 code point). Generally this is the important field for sort
 key performance, since it directly impacts the time necessary for binary
 comparison, and the overhead of memory usage and retrieval time for sort
 keys.</td>
 </tr>
 </table>
 EOF
     printData();

     print HTML <<EOF;
 <h3><i>Notes</i></h3>
 <ol>
 <li>As with all performance measurements, the results will vary according to
 the hardware and compiler. The strcoll operation is particularly sensitive; we
 have found that even slight changes in code alignment can produce 10%
 differences.</li>
 <li>For more information on incremental vs. sort key comparison, the importance
 of multi-level sorting, and other features of collation, see <a href=
 "http://www.unicode.org/reports/tr10/">Unicode Collation (UCA)</a>.</li>
 <li>For general information on ICU collation see <a href=
 "/userguide/Collate_Intro.html">User Guide</a>.</li>
 <li>For information on APIs, see <a href="/apiref/icu4c/ucol_8h.html">C</a>,
 <a href="/apiref/icu4c/classCollator.html">C++</a>, or <a href=
 "/apiref/icu4j/com/ibm/icu/text/Collator.html">Java</a>.</li>
 </ol>
 <!--#include virtual="../ssi/footer.html" -->
 </body>
 </html>

 EOF

     close(HTML) or die "Can't close $html: $!";
 }

 # This subroutine formats and prints the table.
 sub printData() {
     print HTML <<EOF;
 <h3>Data</h3>
 <table border="1" cellspacing="0" cellpadding="4">
 <tr>
 <td align="left"><b>Locale</b></td>
 <td align="left"><b>Data file</b></td>
 <td align="left"><b>strcoll</b> <i>(ICU)</i></td>
 <td align="left"><b>keygen</b> <i>(ICU)</i></td>
 <td align="left"><b>keylen</b> <i>(ICU)</i></td>
 <td align="left"><b>strcoll</b> <i>(GLIBC)</i></td>
 <td align="left"><b>keygen</b> <i>(GLIBC)</i></td>
 <td align="left"><b>keylen</b> <i>(GLIBC)</i></td>
 <td align="left"><b>strcoll</b> <i>(GLIBC-ICU)/ICU)</i></td>
 <td align="left"><b>keygen</b> <i>(GLIBC-ICU)/ICU)</i></td>
 <td align="left"><b>keylen</b> <i>(GLIBC-ICU)/ICU)</i></td>
 </tr>
 EOF

     for ( $n = 0 ; $n < @resultFIN ; $n++ ) {
         print HTML "<tr>";
         my @parsed = split( ',', @resultFIN[$n] );
         for ( $i = 0 ; $i < @parsed ; $i++ ) {
             my $value = @parsed[$i];
             print HTML "<td align=\"center\">";

             if ( $value =~ m/^[-]/ ) {
                 print HTML "<font color=\"red\">$value</font>";
             }
             else {
                 print HTML "$value";
             }

             print HTML "</td>";

         }
         print HTML "</tr>\n";
     }

     print HTML<<EOF;
 </table>
 EOF
 }
	#!/usr/bin/perl
	# ********************************************************************
	# * COPYRIGHT:
	# * Copyright (c) 2002-2008, International Business Machines Corporation and
	# * others. All Rights Reserved.
	# ********************************************************************

	require "../perldriver/Common.pl";

	use lib '../perldriver';

	my $p;
	if ($OnWindows) {
	$p = $ICUPathLatest . "/collationperf/Release/collationperf.exe";
	}
	else {
	$p = $ICUPathLatest . "/collationperf/collperf";
	}

	my @locale = (
	"en_US",
	"da_DK",
	"de_DE",
	"fr_FR",
	"ja_JP",
	"ja_JP",
	"ja_JP",
	"ja_JP",
	"zh_CN",
	"zh_CN",
	"zh_CN",
	"zh_TW",
	"zh_TW",
	"ko_KR",
	"ko_KR",
	"ru_RU",
	"ru_RU",
	"th_TH",
	"th_TH"
	);

	my $filePath = $CollationDataPath . "/";
	my $filePrefix = "TestNames_";
	my @data = (
	$filePrefix."Latin.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Japanese_h.txt",
	$filePrefix."Japanese_k.txt",
	$filePrefix."Asian.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Chinese.txt",
	$filePrefix."Simplified_Chinese.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Chinese.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Korean.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Russian.txt",
	$filePrefix."Latin.txt",
	$filePrefix."Thai.txt"
	);

	my @resultPER;
	my @resultFIN;

	for ( $n = 0 ; $n < @data ; $n++ ) {
	my $resultICU;
	my $resultNIX;
	$resultICU = @locale[$n].",".@data[$n].",";
	$resultNIX = @locale[$n].",".@data[$n].",";
	@resultFIN[$n] = @locale[$n].",".@data[$n].",";

	#quicksort
	my @icu = `$p -locale @locale[$n] -loop 1000 -file $filePath@data[$n] -qsort`;
	my @nix = `$p -locale @locale[$n] -unix -loop 1000 -file $filePath@data[$n] -qsort`;

	my @icua = split( ' = ', $icu[2] );
	my @icub = split( ' ', $icua[1] );
	my @nixa = split( ' = ', $nix[2] );
	my @nixb = split( ' ', $nixa[1] );

	$resultICU = $resultICU.$icub[0].",";
	$resultNIX = $resultNIX.$nixb[0].",";

	#keygen time
	@icu = `$p -locale @locale[$n] -loop 1000 -file $filePath@data[$n] -keygen`;
	@nix = `$p -locale @locale[$n] -unix -loop 1000 -file $filePath@data[$n] -keygen`;

	@icua = split( ' = ', $icu[2] );
	@icub = split( ' ', $icua[1] );
	@nixa = split( ' = ', $nix[2] );
	@nixb = split( ' ', $nixa[1] );

	$resultICU = $resultICU.$icub[0].",";
	$resultNIX = $resultNIX.$nixb[0].",";

	#keygen len
	@icua = split( ' = ', $icu[3] );
	@nixa = split( ' = ', $nix[3] );

	chomp( @icua[1] );
	chomp( @nixa[1] );

	$resultICU = $resultICU.$icua[1].",";
	$resultNIX = $resultNIX.$nixa[1].",";

	my @resultSplitICU;
	my @resultSplitNIX;

	#percent
	for ( $i = 0 ; $i < 3 ; $i++ ) {
	my $percent = 0;
	@resultSplitICU = split( ',', $resultICU );
	@resultSplitNIX = split( ',', $resultNIX );
	if ( @resultSplitICU[ 2 + $i ] > 0 ) {
	$percent = substr((((
	@resultSplitNIX[ 2 + $i ] - @resultSplitICU[ 2 + $i ]) / @resultSplitICU[ 2 + $i ]) * 100),
	0, 7);
	}
	@resultPER[$n] = @resultPER[$n].$percent."%,";
	}

	#store ICU result
	for ( $j = 0 ; $j < 3 ; $j++ ) {
	@resultFIN[$n] = @resultFIN[$n].@resultSplitICU[ 2 + $j ].",";
	}

	#store Unix result
	for ( $j = 0 ; $j < 3 ; $j++ ) {
	@resultFIN[$n] = @resultFIN[$n].@resultSplitNIX[ 2 + $j ].",";
	}

	#store Percent result
	@resultFIN[$n] = @resultFIN[$n].@resultPER[$n];
	}

	# Print the results in a HTML page
	printOutput();

	exit(0);

	# This subroutine creates the web page and prints out the results in a table
	sub printOutput {
	my $title = "Collation: ICU " . $ICULatestVersion . " vs GLIBC";
	my $html = localtime;
	$html =~ s/://g; # ':' illegal
	$html =~ s/\s*\d+$//; # delete year
	$html =~ s/^\w+\s*//; # delete dow
	$html = "CollationPerformance $html.html";
	$html = "../results/" . $html;
	$html =~ s/ /_/g;
	open( HTML, ">$html" ) or die "Can't write to $html: $!";
	print HTML <<EOF;
	<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
	"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
	<html xmlns="http://www.w3.org/1999/xhtml">
	<head>
	<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
	<title>Collation: ICU4C vs. glibc</title>
	<link rel="stylesheet" href="../icu.css" type="text/css" />
	</head>
	<body>
	<!--#include virtual="../ssi/header.html" -->
	EOF

	print HTML "<h2>Collation: ICU4C ".$ICULatestVersion." vs. GLIBC</h2>\n";

	print HTML <<EOF;
	<p>The performance test takes a locale and creates a RuleBasedCollator with
	default options. A large list of names is used as data in each test, where the
	names vary according to language. Each Collation operation over the whole list
	is repeated 1000 times. The percentage values in the final column are the most
	useful. They measure differences, where positive is better for ICU4C, and
	negative is better for the compared implementation.</p>
	<h3>Key</h3>
	<table border="1" cellspacing="0" cellpadding="4">
	<tr>
	<th align="left">Operation</th>
	<th align="left">Units</th>
	<th align="left">Description</th>
	</tr>
	<tr>
	<td>strcoll</td>
	<td>nanosecs</td>
	<td>Timing for string collation, an incremental compare of strings.</td>
	</tr>
	<tr>
	<td>keygen</td>
	<td>nanosecs</td>
	<td>Timing for generation of sort keys, used to 'precompile' information so
	that subsequent operations can use binary comparison.</td>
	</tr>
	<tr>
	<td>keylen</td>
	<td>bytes/char</td>
	<td>The average length of the generated sort keys, in bytes per character
	(Unicode/ISO 10646 code point). Generally this is the important field for sort
	key performance, since it directly impacts the time necessary for binary
	comparison, and the overhead of memory usage and retrieval time for sort
	keys.</td>
	</tr>
	</table>
	EOF
	printData();

	print HTML <<EOF;
	<h3><i>Notes</i></h3>
	<ol>
	<li>As with all performance measurements, the results will vary according to
	the hardware and compiler. The strcoll operation is particularly sensitive; we
	have found that even slight changes in code alignment can produce 10%
	differences.</li>
	<li>For more information on incremental vs. sort key comparison, the importance
	of multi-level sorting, and other features of collation, see <a href=
	"http://www.unicode.org/reports/tr10/">Unicode Collation (UCA)</a>.</li>
	<li>For general information on ICU collation see <a href=
	"/userguide/Collate_Intro.html">User Guide</a>.</li>
	<li>For information on APIs, see <a href="/apiref/icu4c/ucol_8h.html">C</a>,
	<a href="/apiref/icu4c/classCollator.html">C++</a>, or <a href=
	"/apiref/icu4j/com/ibm/icu/text/Collator.html">Java</a>.</li>
	</ol>
	<!--#include virtual="../ssi/footer.html" -->
	</body>
	</html>

	EOF

	close(HTML) or die "Can't close $html: $!";
	}

	# This subroutine formats and prints the table.
	sub printData() {
	print HTML <<EOF;
	<h3>Data</h3>
	<table border="1" cellspacing="0" cellpadding="4">
	<tr>
	<td align="left"><b>Locale</b></td>
	<td align="left"><b>Data file</b></td>
	<td align="left"><b>strcoll</b> <i>(ICU)</i></td>
	<td align="left"><b>keygen</b> <i>(ICU)</i></td>
	<td align="left"><b>keylen</b> <i>(ICU)</i></td>
	<td align="left"><b>strcoll</b> <i>(GLIBC)</i></td>
	<td align="left"><b>keygen</b> <i>(GLIBC)</i></td>
	<td align="left"><b>keylen</b> <i>(GLIBC)</i></td>
	<td align="left"><b>strcoll</b> <i>(GLIBC-ICU)/ICU)</i></td>
	<td align="left"><b>keygen</b> <i>(GLIBC-ICU)/ICU)</i></td>
	<td align="left"><b>keylen</b> <i>(GLIBC-ICU)/ICU)</i></td>
	</tr>
	EOF

	for ( $n = 0 ; $n < @resultFIN ; $n++ ) {
	print HTML "<tr>";
	my @parsed = split( ',', @resultFIN[$n] );
	for ( $i = 0 ; $i < @parsed ; $i++ ) {
	my $value = @parsed[$i];
	print HTML "<td align=\"center\">";

	if ( $value =~ m/^[-]/ ) {
	print HTML "<font color=\"red\">$value</font>";
	}
	else {
	print HTML "$value";
	}

	print HTML "</td>";

	}
	print HTML "</tr>\n";
	}

	print HTML<<EOF;
	</table>
	EOF
	}