root/standard/html_tables/html_table_gen.php

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DEFINITIONS

This source file includes following definitions.
  1. hashfun

<?php
/*
   +----------------------------------------------------------------------+
   | PHP Version 5                                                        |
   +----------------------------------------------------------------------+
   | Copyright (c) 1997-2010 The PHP Group                                |
   +----------------------------------------------------------------------+
   | This source file is subject to version 3.01 of the PHP license,      |
   | that is bundled with this package in the file LICENSE, and is        |
   | available through the world-wide-web at the following url:           |
   | http://www.php.net/license/3_01.txt                                  |
   | If you did not receive a copy of the PHP license and are unable to   |
   | obtain it through the world-wide-web, please send a note to          |
   | license@php.net so we can mail you a copy immediately.               |
   +----------------------------------------------------------------------+
   | Authors: Gustavo Lopes  <cataphract@php.net>                         |
   +----------------------------------------------------------------------+
*/

/* This file prints to stdout the contents of ext/standard/html_tables.h */
/* put together with glue; have patience */

$t = <<<CODE
/*
   +----------------------------------------------------------------------+
   | PHP Version 5                                                        |
   +----------------------------------------------------------------------+
   | Copyright (c) 1997-%s The PHP Group                                |
   +----------------------------------------------------------------------+
   | This source file is subject to version 3.01 of the PHP license,      |
   | that is bundled with this package in the file LICENSE, and is        |
   | available through the world-wide-web at the following url:           |
   | http://www.php.net/license/3_01.txt                                  |
   | If you did not receive a copy of the PHP license and are unable to   |
   | obtain it through the world-wide-web, please send a note to          |
   | license@php.net so we can mail you a copy immediately.               |
   +----------------------------------------------------------------------+
*/

/* \$Id$ */

#ifndef HTML_TABLES_H
#define HTML_TABLES_H

/**************************************************************************
***************************************************************************
**        THIS FILE IS AUTOMATICALLY GENERATED. DO NOT MODIFY IT.        **
***************************************************************************
** Please change html_tables/html_table_gen.php instead and then         **
** run it in order to generate this file                                 **
***************************************************************************
**************************************************************************/

enum entity_charset { cs_utf_8, cs_8859_1, cs_cp1252, cs_8859_15, cs_cp1251,
                                          cs_8859_5, cs_cp866, cs_macroman, cs_koi8r, cs_big5,
                                          cs_gb2312, cs_big5hkscs, cs_sjis, cs_eucjp,
                                          cs_numelems /* used to count the number of charsets */
                                        };
#define CHARSET_UNICODE_COMPAT(cs)      ((cs) <= cs_8859_1)
#define CHARSET_SINGLE_BYTE(cs)         ((cs) > cs_utf_8 && (cs) < cs_big5)
#define CHARSET_PARTIAL_SUPPORT(cs)     ((cs) >= cs_big5)

static const struct {
        const char *codeset;
        enum entity_charset charset;
} charset_map[] = {
        { "ISO-8859-1",         cs_8859_1 },
        { "ISO8859-1",          cs_8859_1 },
        { "ISO-8859-15",        cs_8859_15 },
        { "ISO8859-15",         cs_8859_15 },
        { "utf-8",                      cs_utf_8 },
        { "cp1252",             cs_cp1252 },
        { "Windows-1252",       cs_cp1252 },
        { "1252",                       cs_cp1252 }, 
        { "BIG5",                       cs_big5 },
        { "950",                        cs_big5 },
        { "GB2312",                     cs_gb2312 },
        { "936",                        cs_gb2312 },
        { "BIG5-HKSCS",         cs_big5hkscs },
        { "Shift_JIS",          cs_sjis },
        { "SJIS",                       cs_sjis },
        { "932",                        cs_sjis },
        { "EUCJP",                      cs_eucjp },
        { "EUC-JP",                     cs_eucjp },
        { "KOI8-R",                     cs_koi8r },
        { "koi8-ru",            cs_koi8r },
        { "koi8r",                      cs_koi8r },
        { "cp1251",                     cs_cp1251 },
        { "Windows-1251",       cs_cp1251 },
        { "win-1251",           cs_cp1251 },
        { "iso8859-5",          cs_8859_5 },
        { "iso-8859-5",         cs_8859_5 },
        { "cp866",                      cs_cp866 },
        { "866",                        cs_cp866 },    
        { "ibm866",                     cs_cp866 },
        { "MacRoman",           cs_macroman },
        { NULL }
};

/* longest entity name length excluding & and ; */
#define LONGEST_ENTITY_LENGTH 31

/* Definitions for mappings *to* Unicode.
 * The origin charset must have at most 256 code points.
 * The multi-byte encodings are not supported */
typedef struct {
    unsigned short uni_cp[64];
} enc_to_uni_stage2;

typedef struct {
    const enc_to_uni_stage2 *inner[4];
} enc_to_uni;

/* bits 7-8 bits (only single bytes encodings supported )*/
#define ENT_ENC_TO_UNI_STAGE1(k) ((k & 0xC0) >> 6)
/* bits 1-6 */
#define ENT_ENC_TO_UNI_STAGE2(k) ((k) & 0x3F)


CODE;

echo sprintf($t, date("Y"));

$encodings = array(
    array(
        "ident" => "iso88591",
        "enumid" => 1,
        "name" => "ISO-8859-1",
        "file" => "mappings/8859-1.TXT",
    ),
    array(
        "ident" => "iso88595",
        "enumid" => 5,
        "name" => "ISO-8859-5",
        "file" => "mappings/8859-5.TXT",
    ),
    array(
        "ident" => "iso885915",
        "enumid" => 3,
        "name" => "ISO-8859-15",
        "file" => "mappings/8859-15.TXT",
    ),
    array(
        "ident" => "win1252",
        "enumid" => 2,
        "enumident" => "cp1252",
        "name" => "Windows-1252",
        "file" => "mappings/CP1252.TXT",
    ),
    array(
        "ident" => "win1251",
        "enumid" => 4,
        "enumident" => "cp1252",
        "name" => "Windows-1251",
        "file" => "mappings/CP1251.TXT",
    ),
    array(
        "ident" => "koi8r",
        "enumid" => 8,
        "name" => "KOI8-R",
        "file" => "mappings/KOI8-R.TXT",
    ),
    array(
        "ident" => "cp866",
        "enumid" => 6,
        "name" => "CP-866",
        "file" => "mappings/CP866.TXT",
    ),
    array(
        "ident" => "macroman",
        "enumid" => 7,
        "name" => "MacRoman",
        "file" => "mappings/ROMAN.TXT",
    ),
);

$prevStage2 = array();

foreach ($encodings as $e) {
    echo
"/* {{{ Mappings *to* Unicode for {$e['name']} */\n\n";

    /* process file */
    $map = array();
    $lines = explode("\n", file_get_contents($e{'file'}));
    foreach ($lines as $l) {
        if (preg_match("/^0x([0-9A-Z]{2})\t0x([0-9A-Z]{2,})/i", $l, $matches))
            $map[] = array($matches[1], $matches[2]);
    }
    
    $mappy = array();
    foreach ($map as $v) { $mappy[hexdec($v[0])] = hexdec($v[1]); }
    
    $mstable = array("ident" => $e['ident']);
    /* calculate two-stage tables */
    for ($i = 0; $i < 4; $i++) {
        for ($j = 0; $j < 64; $j++) {
            $cp = $i << 6 | $j;
            $mstable[$i][$j] = isset($mappy[$cp]) ? $mappy[$cp] : NULL;
        }
    }
    
    echo
"/* {{{ Stage 2 tables for {$e['name']} */\n\n";

    $s2tables_idents = array();
    for ($i = 0; $i < 4; $i++) {
        if (($t = array_keys($prevStage2, $mstable[$i])) !== array()) {
            $s2tables_idents[$i] = $encodings[$t[0]/5]["ident"];
            continue;
        }
        
        $s2tables_idents[$i] = $e["ident"];
        
        echo "static const enc_to_uni_stage2 enc_to_uni_s2_{$e['ident']}_".
            sprintf("%02X", $i << 6)." = { {\n";
        for ($j = 0; $j < 64; $j++) {
            if ($j == 0) echo "\t";
            elseif ($j % 6 == 0) echo "\n\t";
            else echo " ";
            if ($mstable[$i][$j] !== NULL)
                echo sprintf("0x%04X,", $mstable[$i][$j]);
            else
                echo "0xFFFF,"; /* special value; indicates no mapping */
        }
        echo "\n} };\n\n";
        
        $prevStage2[] = $mstable[$i];
    }
    
    echo
"/* end of stage 2 tables for {$e['name']} }}} */\n\n";

    echo
"/* {{{ Stage 1 table for {$e['name']} */\n";

    echo
"static const enc_to_uni enc_to_uni_{$e['ident']} = { {
\t&enc_to_uni_s2_{$s2tables_idents[0]}_00,
\t&enc_to_uni_s2_{$s2tables_idents[1]}_40,
\t&enc_to_uni_s2_{$s2tables_idents[2]}_80,
\t&enc_to_uni_s2_{$s2tables_idents[3]}_C0 }
};
";

    echo
"/* end of stage 1 table for {$e['name']} }}} */\n\n";
}

$maxencnum = max(array_map(function($e) { return $e['enumid']; }, $encodings));
$a = range(0, $maxencnum);
foreach ($encodings as $e) { $a[$e['enumid']] = $e['ident']; }

    echo
"/* {{{ Index of tables for encoding conversion */
static const enc_to_uni *const enc_to_uni_index[cs_numelems] = {\n";

foreach ($a as $k => $v) {
    if (is_numeric($v))
        echo "\tNULL,\n";
    else
        echo "\t&enc_to_uni_$v,\n";
}

    echo
"};
/* }}} */\n";

$t = <<<CODE

/* Definitions for mappings *from* Unicode */

typedef struct {
        unsigned short un_code_point; /* we don't need bigger */
        unsigned char cs_code; /* currently, we only have maps to single-byte encodings */
} uni_to_enc;


CODE;

echo $t;

$encodings = array(
    array(
        "ident" => "iso885915",
        "name" => "ISO-8859-15",
        "file" => "mappings/8859-15.TXT",
        "range" => array(0xA4, 0xBE),
    ),
    array(
        "ident" => "win1252",
        "name" => "Windows-1252",
        "file" => "mappings/CP1252.TXT",
        "range" => array(0x80, 0x9F),
    ),
    array(
        "ident" => "win1251",
        "name" => "Windows-1251",
        "file" => "mappings/CP1251.TXT",
        "range" => array(0x80, 0xFF),
    ),
    array(
        "ident" => "koi8r",
        "name" => "KOI8-R",
        "file" => "mappings/KOI8-R.TXT",
        "range" => array(0x80, 0xFF),
    ),
    array(
        "ident" => "cp866",
        "name" => "CP-866",
        "file" => "mappings/CP866.TXT",
        "range" => array(0x80, 0xFF),
    ),
    array(
        "ident" => "macroman",
        "name" => "MacRoman",
        "file" => "mappings/ROMAN.TXT",
        "range" => array(0x80, 0xFF),
    ),
);

foreach ($encodings as $e) {
    echo
"/* {{{ Mappings *from* Unicode for {$e['name']} */\n";

    /* process file */
    $map = array();
    $lines = explode("\n", file_get_contents($e{'file'}));
    foreach ($lines as $l) {
        if (preg_match("/^0x([0-9A-Z]{2})\t0x([0-9A-Z]{2,})\s+#\s*(.*)$/i", $l, $matches))
            $map[] = array($matches[1], $matches[2], rtrim($matches[3]));
    }
    
    $mappy = array();
    foreach ($map as $v) {
        if (hexdec($v[0]) >= $e['range'][0] && hexdec($v[0]) <= $e['range'][1])
            $mappy[hexdec($v[1])] = array(hexdec($v[0]), strtolower($v[2]));
    }
    ksort($mappy);
    
    echo
"static const uni_to_enc unimap_{$e['ident']}[] = {\n";
    
    foreach ($mappy as $k => $v) {
        echo "\t{ ", sprintf("0x%04X", $k), ", ", sprintf("0x%02X", $v[0]), " },\t/* ",
            $v[1], " */\n";
    }
    echo "};\n";
    
    echo
"/* {{{ end of mappings *from* Unicode for {$e['name']} */\n\n";
}

$data = file_get_contents("ents_html5.txt");
$pass2 = false;
$name = "HTML5";
$ident = "html5";
again:

$t = <<<'CODE'
/* HTML 5 has many more named entities.
 * Some of them map to two unicode code points, not one.
 * We're going to use a three-stage table (with an extra one for the entities
 * with two code points). */

#define ENT_STAGE1_INDEX(k) (((k) & 0xFFF000) >> 12) /* > 1D, we have no mapping */
#define ENT_STAGE2_INDEX(k) (((k) & 0xFC0) >> 6)
#define ENT_STAGE3_INDEX(k) ((k) & 0x3F)
#define ENT_CODE_POINT_FROM_STAGES(i,j,k) (((i) << 12) | ((j) << 6) | (k))

/* Table should be organized with a leading row telling the size of
 * the table and the default entity (maybe NULL) and the rest being
 * normal rows ordered by code point so that we can do a binary search */
typedef union {
        struct {
                unsigned size; /* number of remaining entries in the table */
                const char *default_entity;
                unsigned short default_entity_len;
        } leading_entry;
        struct {
                unsigned second_cp; /* second code point */
                const char *entity;
                unsigned short entity_len;
        } normal_entry;
} entity_multicodepoint_row;

/* blocks of these should start at code points k where k % 0xFC0 == 0 */
typedef struct {
        char ambiguous; /* if 0 look into entity */
        union {
                struct {
                        const char *entity; /* may be NULL */
                        unsigned short entity_len;
                } ent;
                const entity_multicodepoint_row *multicodepoint_table;
        } data;
} entity_stage3_row;

/* Calculate k & 0x3F Use as offset */
typedef const entity_stage3_row *entity_stage2_row; /* 64 elements */

/* Calculate k & 0xFC0 >> 6. Use as offset */
typedef const entity_stage3_row *const *entity_stage1_row; /* 64 elements */

/* For stage 1, Calculate k & 0xFFF000 >> 3*4.
 * If larger than 1D, we have no mapping. Otherwise lookup that index */
 
typedef struct {
        const entity_stage1_row *ms_table;
        /* for tables with only basic entities, this member is to be accessed
         * directly for better performance: */
        const entity_stage3_row *table;
} entity_table_opt;

/* Replaced "GT" > "gt" and "QUOT" > "quot" for consistency's sake. */


CODE;

if (!$pass2)
    echo $t;

$dp = array();

foreach (explode("\n", $data) as $l) {
        if (preg_match('/^(#?[a-z0-9]+)\s+([a-f0-9]+) ([a-f0-9]+)/i', $l, $matches)) {
                //echo sprintf("\t{\"%-21s 1, 0x%05d},\n", $matches[1].",", $matches[2]);
                $dp[] = array($matches[1], $matches[2], $matches[3]);
        } else if (preg_match('/^(#?[a-z0-9]+)\s+([a-f0-9]+)/i', $l, $matches)) {
                $dp[] = array($matches[1], $matches[2]);
        }
}

$origdp = $dp;

usort($dp, function($a, $b) { return hexdec($a[1])-hexdec($b[1]); });

$multicp_rows = array();
foreach ($dp as $el) {
        if (count($el) == 3) {
                $multicp_rows[$el[1]] = array();
        }
}

foreach ($dp as $el) {
        if (key_exists($el[1], $multicp_rows)) {
                if (count($el) == 3)
                        $multicp_rows[$el[1]][$el[2]] = $el[0];
                else
                        $multicp_rows[$el[1]]["default"] = $el[0];
        }
}

if ($pass2 < 2)
    echo "/* {{{ Start of $name multi-stage table for codepoint -> entity */", "\n\n";
else
    echo "/* {{{ Start of $name table for codepoint -> entity */", "\n\n";

if (empty($multicp_rows))
    goto skip_multicp;

ksort($multicp_rows);
foreach ($multicp_rows as &$v) { ksort($v); }

echo
"/* {{{ Start of double code point tables for $name */", "\n\n";

foreach ($multicp_rows as $k => $v) {
        echo "static const entity_multicodepoint_row multi_cp_{$ident}_",
                sprintf("%05s", $k), "[] = {", "\n";
        if (key_exists("default", $v)) {
        if ($v['default'] == 'GT') /* hack to make > translate to &gt; not GT; */
            $v['default'] = "gt";
                echo "\t{ {", sprintf("%02d", count($v) - 1),
                        ",\t\t", sprintf("\"%-21s", $v["default"].'",'), "\t",
            sprintf("% 2d", strlen($v["default"])), '} },', "\n"; 
        } else {
                echo "\t{ {", sprintf("%02d", count($v)),
                        ",\t\t", sprintf("%-22s", 'NULL'), ",\t0} },\n"; 
        }
        unset($v["default"]);
        foreach ($v as $l => $w) {
                echo "\t{ {", sprintf("0x%05s", $l), ",\t", sprintf("\"%-21s", $w.'",'), "\t",
            sprintf("% 2d", strlen($w)), '} },', "\n"; 
        }
        echo "};\n";
}
echo "\n/* End of double code point tables }}} */", "\n\n";

skip_multicp:

if ($pass2 < 2)
    echo "/* {{{ Stage 3 Tables for $name */", "\n\n";

$t = <<<CODE
static const entity_stage3_row empty_stage3_table[] = {
        /* 64 elements */
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
        {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } }, {0, { {NULL, 0} } },
};

CODE;

if (!$pass2)
    echo $t;

$mstable = array();
foreach ($dp as $el) {
        $s1 = (hexdec($el[1]) & 0xFFF000) >> 12;
        $s2 = (hexdec($el[1]) & 0xFC0) >> 6;
        $s3 = hexdec($el[1]) & 0x3F;
        if (key_exists($el[1], $multicp_rows)) {
                $mstable[$s1][$s2][$s3] = "";
        } else {
                $mstable[$s1][$s2][$s3] = $el[0];
        }
}

for ($i = 0; $i < 0x1E; $i++) {
        for ($k = 0; $k < 64; $k++) {
                $any3 = false;
                $col3 = array();
                for ($l = 0; $l < 64; $l++) {
                        if (isset($mstable[$i][$k][$l])) {
                                $any3 = true;
                                $col3[$l] = $mstable[$i][$k][$l];
                        } else {
                                $col3[$l] = null;
                        }
                }
                if ($any3) {
                        echo "static const entity_stage3_row stage3_table_{$ident}_",
                                sprintf("%02X%03X", $i, $k << 6), "[] = {\n";
                        foreach ($col3 as $y => $z) {
                                if ($y == 0) echo "\t";
                                elseif ($y % 4 == 0) echo "\n\t";
                                else echo " ";
                                if ($z === NULL)
                                        echo "{0, { {NULL, 0} } },";
                elseif ($z === "QUOT") /* hack to translate " into &quote;, not &QUOT; */
                    echo "{0, { {\"quot\", 4} } },";
                                elseif ($z !== "")
                                        echo "{0, { {\"$z\", ", strlen($z), "} } },";
                                else
                                        echo "{1, { {(void *)", sprintf("multi_cp_{$ident}_%05X",
                                                ($i << 12) | ($k << 6) | $y ), "} } },";
                                
                        }
                        echo "\n};\n\n";
                }
        }
}

if ($pass2 < 2)
    echo "/* end of stage 3 Tables for $name }}} */", "\n\n";

if ($pass2 > 1)
    goto hashtables;

echo
"/* {{{ Stage 2 Tables for $name */", "\n\n";

$t = <<<CODE
static const entity_stage2_row empty_stage2_table[] = {
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
        empty_stage3_table, empty_stage3_table, empty_stage3_table, empty_stage3_table,
};

CODE;

if (!$pass2)
    echo $t;

for ($i = 0; $i < 0x1E; $i++) {
        $any = false;
        for ($k = 0; $k < 64; $k++) {
                if (isset($mstable[$i][$k]))
                        $any = true;
        }
        if ($any) {
                echo "static const entity_stage2_row stage2_table_{$ident}_",
                        sprintf("%02X000", $i), "[] = {\n";
                for ($k = 0; $k < 64; $k++) {
                        if ($k == 0) echo "\t";
                        elseif ($k % 4 == 0) echo "\n\t";
                        else echo " ";
                        if (isset($mstable[$i][$k])) {
                                echo sprintf("stage3_table_{$ident}_%05X", ($i << 12) | ($k << 6)), ",";
                        } else {
                                echo "empty_stage3_table", ",";
                        }
                }
                echo "\n};\n\n";
        }
}

echo
"/* end of stage 2 tables for $name }}} */", "\n\n";

echo "static const entity_stage1_row entity_ms_table_{$ident}[] = {\n";
for ($i = 0; $i < 0x1E; $i++) {
        if (isset($mstable[$i]))
                echo "\t", sprintf("stage2_table_{$ident}_%02X000", $i), ",\n";
        else
                echo "\tempty_stage2_table,\n";
}
echo "};\n\n";

echo
"/* end of $name multi-stage table for codepoint -> entity }}} */\n\n";

/* commented-out; this enabled binary search, which turned out to be
 * significantly slower than the hash tables for html 5 entities */
//echo
//"/* {{{ HTML 5 tables for entity -> codepoint */", "\n\n";

//$t = <<<CODE
//typedef struct {
//      const char *entity;
//      unsigned short entity_len;
//      unsigned int codepoint1;
//      unsigned int codepoint2;
//} entity_cp_map;
//
//#define ENTITY_CP_MAP_CMP(l, lsize, r, rsize) \
//      ( ((lsize)==(rsize)) ? (memcmp((l), (r), (lsize))) : ((lsize)-(rsize)) )
//
//static const entity_cp_map html5_ent_cp_map[] = {
//
//CODE;
//echo $t;
//
//$dp = $origdp;
//usort($dp, function($a, $b) { $d = strlen($a[0])-strlen($b[0]);
//      return $d==0?strcmp($a[0], $b[0]):$d; });
//
//$k = 0;
//foreach ($dp as $o) {
//      if ($k == 0) echo "\t";
//      elseif ($k % 3 == 0) echo "\n\t";
//      else echo " ";
//      if (isset($o[2]))
//              echo sprintf('{"%s", %d, 0x%X, 0x%X},', $o[0], strlen($o[0]),
//                      hexdec($o[1]), hexdec($o[2]));
//      else
//              echo sprintf('{"%s", %d, 0x%X, 0},', $o[0], strlen($o[0]),
//                      hexdec($o[1]));
//
//      if (isset($o[2])) {
//              $entlen = strlen($o[0]) + 2;
//              $utf8len = strlen(
//                      mb_convert_encoding("&#x{$o[1]};&#x{$o[2]};", "UTF-8", "HTML-ENTITIES"));
//              if ($utf8len > $entlen*1.2) {
//                      die("violated assumption for traverse_for_entities");
//              }
//      }
//      
//      $k++;
//}
//echo "\n};\n\n";
//
//echo "static const size_t html5_ent_cp_map_size = $k;\n\n";
//
//echo
//"/* end of HTML 5 tables for entity -> codepoint }}} */\n\n";

hashtables:

echo
"/* {{{ $name hash table for entity -> codepoint */", "\n\n";

$t = <<<CODE
typedef struct {
        const char *entity;
        unsigned short entity_len;
        unsigned int codepoint1;
        unsigned int codepoint2;
} entity_cp_map;

typedef const entity_cp_map *entity_ht_bucket;

typedef struct {
        unsigned num_elems; /* power of 2 */
        const entity_ht_bucket *buckets; /* .num_elems elements */
} entity_ht;

static const entity_cp_map ht_bucket_empty[] = { {NULL, 0, 0, 0} };

CODE;

if (!$pass2)
    echo $t;

function hashfun($str)
{

        $hash = 5381;
        $nKeyLength = strlen($str);
        $pos = 0;

        for (; $nKeyLength > 0; $nKeyLength--) {
                $hash = (int)(((int)(((int)($hash << 5)) + $hash)) + ord($str[$pos++]))
                                 & 0xFFFFFFFF;
        }
        return $hash;

}

$numelems = max(pow(2, ceil(log(1.5*count($origdp))/log(2))),16);
$mask = $numelems - 1;
$hashes = array();
foreach ($origdp as $e) {
        $hashes[hashfun($e[0]) & $mask][] = $e;
        if (isset($e[2])) {
                $entlen = strlen($e[0]) + 2;
                $utf8len = strlen(
                        mb_convert_encoding("&#x{$e[1]};&#x{$e[2]};", "UTF-8", "HTML-ENTITIES"));
                if ($utf8len > $entlen*1.2) {
                        die("violated assumption for traverse_for_entities");
                }
        }
}

for ($i = 0; $i < $numelems; $i++) {
        if (empty($hashes[$i]))
                continue;
        echo "static const entity_cp_map ht_bucket_{$ident}_", sprintf("%03X", $i) ,"[] = {";
        foreach ($hashes[$i] as $h) {
                if (isset($h[2])) {
                        echo sprintf(' {"%s", %d, 0x%05X, 0x%05X},',
                                $h[0], strlen($h[0]), hexdec($h[1]), hexdec($h[2]));
                } else {
                        echo sprintf(' {"%s", %d, 0x%05X, 0},',
                                $h[0], strlen($h[0]), hexdec($h[1]));
                }
        }
        echo " {NULL, 0, 0, 0} };\n";
}
echo "\n";

echo
"static const entity_cp_map *const ht_buckets_{$ident}[] = {\n";

for ($i = 0; $i < $numelems; $i++) {
        if ($i == 0) echo "\t";
        elseif ($i % 4 == 0) echo "\n\t";
        else echo " ";
        if (empty($hashes[$i]))
                echo "ht_bucket_empty,";
        else
                echo "ht_bucket_{$ident}_", sprintf("%03X", $i), ",";
}
echo "\n};\n\n";

echo
"static const entity_ht ent_ht_{$ident} = {
        ", sprintf("0x%X", $numelems), ",
        ht_buckets_{$ident}
};\n\n";

echo
"/* end of $name hash table for entity -> codepoint }}} */\n\n";

if (!$pass2) {
    $data = file_get_contents("ents_html401.txt");
    $pass2 = 1;
    $name = "HTML 4.01";
    $ident = "html4";
    goto again;
} elseif ($pass2 == 1) {
    $data = file_get_contents("ents_basic.txt");
    $pass2 = 2;
    $name = "Basic entities (no apos)";
    $ident = "be_noapos";
    goto again;
} elseif ($pass2 == 2) {
    $data = file_get_contents("ents_basic_apos.txt");
    $pass2 = 3;
    $name = "Basic entities (with apos)";
    $ident = "be_apos";
    goto again;
}

echo "#endif /* HTML_TABLES_H */\n";

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