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datamatrix.php

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[347]	1	<?php
	2	//============================================================+
	3	// File name : datamatrix.php
	4	// Version : 1.0.008
	5	// Begin : 2010-06-07
	6	// Last Update : 2014-05-06
	7	// Author : Nicola Asuni - Tecnick.com LTD - www.tecnick.com - info@tecnick.com
	8	// License : GNU-LGPL v3 (http://www.gnu.org/copyleft/lesser.html)
	9	// -------------------------------------------------------------------
	10	// Copyright (C) 2010-2014 Nicola Asuni - Tecnick.com LTD
	11	//
	12	// This file is part of TCPDF software library.
	13	//
	14	// TCPDF is free software: you can redistribute it and/or modify it
	15	// under the terms of the GNU Lesser General Public License as
	16	// published by the Free Software Foundation, either version 3 of the
	17	// License, or (at your option) any later version.
	18	//
	19	// TCPDF is distributed in the hope that it will be useful, but
	20	// WITHOUT ANY WARRANTY; without even the implied warranty of
	21	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	22	// See the GNU Lesser General Public License for more details.
	23	//
	24	// You should have received a copy of the GNU Lesser General Public License
	25	// along with TCPDF. If not, see <http://www.gnu.org/licenses/>.
	26	//
	27	// See LICENSE.TXT file for more information.
	28	// -------------------------------------------------------------------
	29	//
	30	// DESCRIPTION :
	31	//
	32	// Class to create DataMatrix ECC 200 barcode arrays for TCPDF class.
	33	// DataMatrix (ISO/IEC 16022:2006) is a 2-dimensional bar code.
	34	//============================================================+
	35
	36	/**
	37	* @file
	38	* Class to create DataMatrix ECC 200 barcode arrays for TCPDF class.
	39	* DataMatrix (ISO/IEC 16022:2006) is a 2-dimensional bar code.
	40	*
	41	* @package com.tecnick.tcpdf
	42	* @author Nicola Asuni
	43	* @version 1.0.008
	44	*/
	45
	46	// custom definitions
	47	if (!defined('DATAMATRIXDEFS')) {
	48
	49	/**
	50	* Indicate that definitions for this class are set
	51	*/
	52	define('DATAMATRIXDEFS', true);
	53
	54	// -----------------------------------------------------
	55
	56	} // end of custom definitions
	57
	58	// #############################
	59
	60
	61	/**
	62	* ASCII encoding: ASCII character 0 to 127 (1 byte per CW)
	63	*/
	64	define('ENC_ASCII', 0);
	65
	66	/**
	67	* C40 encoding: Upper-case alphanumeric (3/2 bytes per CW)
	68	*/
	69	define('ENC_C40', 1);
	70
	71	/**
	72	* TEXT encoding: Lower-case alphanumeric (3/2 bytes per CW)
	73	*/
	74	define('ENC_TXT', 2);
	75
	76	/**
	77	* X12 encoding: ANSI X12 (3/2 byte per CW)
	78	*/
	79	define('ENC_X12', 3);
	80
	81	/**
	82	* EDIFACT encoding: ASCII character 32 to 94 (4/3 bytes per CW)
	83	*/
	84	define('ENC_EDF', 4);
	85
	86	/**
	87	* BASE 256 encoding: ASCII character 0 to 255 (1 byte per CW)
	88	*/
	89	define('ENC_BASE256', 5);
	90
	91	/**
	92	* ASCII extended encoding: ASCII character 128 to 255 (1/2 byte per CW)
	93	*/
	94	define('ENC_ASCII_EXT', 6);
	95
	96	/**
	97	* ASCII number encoding: ASCII digits (2 bytes per CW)
	98	*/
	99	define('ENC_ASCII_NUM', 7);
	100
	101	/**
	102	* @class Datamatrix
	103	* Class to create DataMatrix ECC 200 barcode arrays for TCPDF class.
	104	* DataMatrix (ISO/IEC 16022:2006) is a 2-dimensional bar code.
	105	*
	106	* @package com.tecnick.tcpdf
	107	* @author Nicola Asuni
	108	* @version 1.0.004
	109	*/
	110	class Datamatrix {
	111
	112	/**
	113	* Barcode array to be returned which is readable by TCPDF.
	114	* @protected
	115	*/
	116	protected $barcode_array = array();
	117
	118	/**
	119	* Store last used encoding for data codewords.
	120	* @protected
	121	*/
	122	protected $last_enc = ENC_ASCII;
	123
	124	/**
	125	* Table of Data Matrix ECC 200 Symbol Attributes:<ul>
	126	* <li>total matrix rows (including finder pattern)</li>
	127	* <li>total matrix cols (including finder pattern)</li>
	128	* <li>total matrix rows (without finder pattern)</li>
	129	* <li>total matrix cols (without finder pattern)</li>
	130	* <li>region data rows (with finder pattern)</li>
	131	* <li>region data col (with finder pattern)</li>
	132	* <li>region data rows (without finder pattern)</li>
	133	* <li>region data col (without finder pattern)</li>
	134	* <li>horizontal regions</li>
	135	* <li>vertical regions</li>
	136	* <li>regions</li>
	137	* <li>data codewords</li>
	138	* <li>error codewords</li>
	139	* <li>blocks</li>
	140	* <li>data codewords per block</li>
	141	* <li>error codewords per block</li>
	142	* </ul>
	143	* @protected
	144	*/
	145	protected $symbattr = array(
	146	// square form ---------------------------------------------------------------------------------------
	147	array(0x00a,0x00a,0x008,0x008,0x00a,0x00a,0x008,0x008,0x001,0x001,0x001,0x003,0x005,0x001,0x003,0x005), // 10x10
	148	array(0x00c,0x00c,0x00a,0x00a,0x00c,0x00c,0x00a,0x00a,0x001,0x001,0x001,0x005,0x007,0x001,0x005,0x007), // 12x12
	149	array(0x00e,0x00e,0x00c,0x00c,0x00e,0x00e,0x00c,0x00c,0x001,0x001,0x001,0x008,0x00a,0x001,0x008,0x00a), // 14x14
	150	array(0x010,0x010,0x00e,0x00e,0x010,0x010,0x00e,0x00e,0x001,0x001,0x001,0x00c,0x00c,0x001,0x00c,0x00c), // 16x16
	151	array(0x012,0x012,0x010,0x010,0x012,0x012,0x010,0x010,0x001,0x001,0x001,0x012,0x00e,0x001,0x012,0x00e), // 18x18
	152	array(0x014,0x014,0x012,0x012,0x014,0x014,0x012,0x012,0x001,0x001,0x001,0x016,0x012,0x001,0x016,0x012), // 20x20
	153	array(0x016,0x016,0x014,0x014,0x016,0x016,0x014,0x014,0x001,0x001,0x001,0x01e,0x014,0x001,0x01e,0x014), // 22x22
	154	array(0x018,0x018,0x016,0x016,0x018,0x018,0x016,0x016,0x001,0x001,0x001,0x024,0x018,0x001,0x024,0x018), // 24x24
	155	array(0x01a,0x01a,0x018,0x018,0x01a,0x01a,0x018,0x018,0x001,0x001,0x001,0x02c,0x01c,0x001,0x02c,0x01c), // 26x26
	156	array(0x020,0x020,0x01c,0x01c,0x010,0x010,0x00e,0x00e,0x002,0x002,0x004,0x03e,0x024,0x001,0x03e,0x024), // 32x32
	157	array(0x024,0x024,0x020,0x020,0x012,0x012,0x010,0x010,0x002,0x002,0x004,0x056,0x02a,0x001,0x056,0x02a), // 36x36
	158	array(0x028,0x028,0x024,0x024,0x014,0x014,0x012,0x012,0x002,0x002,0x004,0x072,0x030,0x001,0x072,0x030), // 40x40
	159	array(0x02c,0x02c,0x028,0x028,0x016,0x016,0x014,0x014,0x002,0x002,0x004,0x090,0x038,0x001,0x090,0x038), // 44x44
	160	array(0x030,0x030,0x02c,0x02c,0x018,0x018,0x016,0x016,0x002,0x002,0x004,0x0ae,0x044,0x001,0x0ae,0x044), // 48x48
	161	array(0x034,0x034,0x030,0x030,0x01a,0x01a,0x018,0x018,0x002,0x002,0x004,0x0cc,0x054,0x002,0x066,0x02a), // 52x52
	162	array(0x040,0x040,0x038,0x038,0x010,0x010,0x00e,0x00e,0x004,0x004,0x010,0x118,0x070,0x002,0x08c,0x038), // 64x64
	163	array(0x048,0x048,0x040,0x040,0x012,0x012,0x010,0x010,0x004,0x004,0x010,0x170,0x090,0x004,0x05c,0x024), // 72x72
	164	array(0x050,0x050,0x048,0x048,0x014,0x014,0x012,0x012,0x004,0x004,0x010,0x1c8,0x0c0,0x004,0x072,0x030), // 80x80
	165	array(0x058,0x058,0x050,0x050,0x016,0x016,0x014,0x014,0x004,0x004,0x010,0x240,0x0e0,0x004,0x090,0x038), // 88x88
	166	array(0x060,0x060,0x058,0x058,0x018,0x018,0x016,0x016,0x004,0x004,0x010,0x2b8,0x110,0x004,0x0ae,0x044), // 96x96
	167	array(0x068,0x068,0x060,0x060,0x01a,0x01a,0x018,0x018,0x004,0x004,0x010,0x330,0x150,0x006,0x088,0x038), // 104x104
	168	array(0x078,0x078,0x06c,0x06c,0x014,0x014,0x012,0x012,0x006,0x006,0x024,0x41a,0x198,0x006,0x0af,0x044), // 120x120
	169	array(0x084,0x084,0x078,0x078,0x016,0x016,0x014,0x014,0x006,0x006,0x024,0x518,0x1f0,0x008,0x0a3,0x03e), // 132x132
	170	array(0x090,0x090,0x084,0x084,0x018,0x018,0x016,0x016,0x006,0x006,0x024,0x616,0x26c,0x00a,0x09c,0x03e), // 144x144
	171	// rectangular form (currently unused) ---------------------------------------------------------------------------
	172	array(0x008,0x012,0x006,0x010,0x008,0x012,0x006,0x010,0x001,0x001,0x001,0x005,0x007,0x001,0x005,0x007), // 8x18
	173	array(0x008,0x020,0x006,0x01c,0x008,0x010,0x006,0x00e,0x001,0x002,0x002,0x00a,0x00b,0x001,0x00a,0x00b), // 8x32
	174	array(0x00c,0x01a,0x00a,0x018,0x00c,0x01a,0x00a,0x018,0x001,0x001,0x001,0x010,0x00e,0x001,0x010,0x00e), // 12x26
	175	array(0x00c,0x024,0x00a,0x020,0x00c,0x012,0x00a,0x010,0x001,0x002,0x002,0x00c,0x012,0x001,0x00c,0x012), // 12x36
	176	array(0x010,0x024,0x00e,0x020,0x010,0x012,0x00e,0x010,0x001,0x002,0x002,0x020,0x018,0x001,0x020,0x018), // 16x36
	177	array(0x010,0x030,0x00e,0x02c,0x010,0x018,0x00e,0x016,0x001,0x002,0x002,0x031,0x01c,0x001,0x031,0x01c) // 16x48
	178	);
	179
	180	/**
	181	* Map encodation modes whit character sets.
	182	* @protected
	183	*/
	184	protected $chset_id = array(ENC_C40 => 'C40', ENC_TXT => 'TXT', ENC_X12 =>'X12');
	185
	186	/**
	187	* Basic set of characters for each encodation mode.
	188	* @protected
	189	*/
	190	protected $chset = array(
	191	'C40' => array( // Basic set for C40 ----------------------------------------------------------------------------
	192	'S1'=>0x00,'S2'=>0x01,'S3'=>0x02,0x20=>0x03,0x30=>0x04,0x31=>0x05,0x32=>0x06,0x33=>0x07,0x34=>0x08,0x35=>0x09, //
	193	0x36=>0x0a,0x37=>0x0b,0x38=>0x0c,0x39=>0x0d,0x41=>0x0e,0x42=>0x0f,0x43=>0x10,0x44=>0x11,0x45=>0x12,0x46=>0x13, //
	194	0x47=>0x14,0x48=>0x15,0x49=>0x16,0x4a=>0x17,0x4b=>0x18,0x4c=>0x19,0x4d=>0x1a,0x4e=>0x1b,0x4f=>0x1c,0x50=>0x1d, //
	195	0x51=>0x1e,0x52=>0x1f,0x53=>0x20,0x54=>0x21,0x55=>0x22,0x56=>0x23,0x57=>0x24,0x58=>0x25,0x59=>0x26,0x5a=>0x27),//
	196	'TXT' => array( // Basic set for TEXT ---------------------------------------------------------------------------
	197	'S1'=>0x00,'S2'=>0x01,'S3'=>0x02,0x20=>0x03,0x30=>0x04,0x31=>0x05,0x32=>0x06,0x33=>0x07,0x34=>0x08,0x35=>0x09, //
	198	0x36=>0x0a,0x37=>0x0b,0x38=>0x0c,0x39=>0x0d,0x61=>0x0e,0x62=>0x0f,0x63=>0x10,0x64=>0x11,0x65=>0x12,0x66=>0x13, //
	199	0x67=>0x14,0x68=>0x15,0x69=>0x16,0x6a=>0x17,0x6b=>0x18,0x6c=>0x19,0x6d=>0x1a,0x6e=>0x1b,0x6f=>0x1c,0x70=>0x1d, //
	200	0x71=>0x1e,0x72=>0x1f,0x73=>0x20,0x74=>0x21,0x75=>0x22,0x76=>0x23,0x77=>0x24,0x78=>0x25,0x79=>0x26,0x7a=>0x27),//
	201	'SH1' => array( // Shift 1 set ----------------------------------------------------------------------------------
	202	0x00=>0x00,0x01=>0x01,0x02=>0x02,0x03=>0x03,0x04=>0x04,0x05=>0x05,0x06=>0x06,0x07=>0x07,0x08=>0x08,0x09=>0x09, //
	203	0x0a=>0x0a,0x0b=>0x0b,0x0c=>0x0c,0x0d=>0x0d,0x0e=>0x0e,0x0f=>0x0f,0x10=>0x10,0x11=>0x11,0x12=>0x12,0x13=>0x13, //
	204	0x14=>0x14,0x15=>0x15,0x16=>0x16,0x17=>0x17,0x18=>0x18,0x19=>0x19,0x1a=>0x1a,0x1b=>0x1b,0x1c=>0x1c,0x1d=>0x1d, //
	205	0x1e=>0x1e,0x1f=>0x1f), //
	206	'SH2' => array( // Shift 2 set ----------------------------------------------------------------------------------
	207	0x21=>0x00,0x22=>0x01,0x23=>0x02,0x24=>0x03,0x25=>0x04,0x26=>0x05,0x27=>0x06,0x28=>0x07,0x29=>0x08,0x2a=>0x09, //
	208	0x2b=>0x0a,0x2c=>0x0b,0x2d=>0x0c,0x2e=>0x0d,0x2f=>0x0e,0x3a=>0x0f,0x3b=>0x10,0x3c=>0x11,0x3d=>0x12,0x3e=>0x13, //
	209	0x3f=>0x14,0x40=>0x15,0x5b=>0x16,0x5c=>0x17,0x5d=>0x18,0x5e=>0x19,0x5f=>0x1a,'F1'=>0x1b,'US'=>0x1e), //
	210	'S3C' => array( // Shift 3 set for C40 --------------------------------------------------------------------------
	211	0x60=>0x00,0x61=>0x01,0x62=>0x02,0x63=>0x03,0x64=>0x04,0x65=>0x05,0x66=>0x06,0x67=>0x07,0x68=>0x08,0x69=>0x09, //
	212	0x6a=>0x0a,0x6b=>0x0b,0x6c=>0x0c,0x6d=>0x0d,0x6e=>0x0e,0x6f=>0x0f,0x70=>0x10,0x71=>0x11,0x72=>0x12,0x73=>0x13, //
	213	0x74=>0x14,0x75=>0x15,0x76=>0x16,0x77=>0x17,0x78=>0x18,0x79=>0x19,0x7a=>0x1a,0x7b=>0x1b,0x7c=>0x1c,0x7d=>0x1d, //
	214	0x7e=>0x1e,0x7f=>0x1f),
	215	'S3T' => array( // Shift 3 set for TEXT -------------------------------------------------------------------------
	216	0x60=>0x00,0x41=>0x01,0x42=>0x02,0x43=>0x03,0x44=>0x04,0x45=>0x05,0x46=>0x06,0x47=>0x07,0x48=>0x08,0x49=>0x09, //
	217	0x4a=>0x0a,0x4b=>0x0b,0x4c=>0x0c,0x4d=>0x0d,0x4e=>0x0e,0x4f=>0x0f,0x50=>0x10,0x51=>0x11,0x52=>0x12,0x53=>0x13, //
	218	0x54=>0x14,0x55=>0x15,0x56=>0x16,0x57=>0x17,0x58=>0x18,0x59=>0x19,0x5a=>0x1a,0x7b=>0x1b,0x7c=>0x1c,0x7d=>0x1d, //
	219	0x7e=>0x1e,0x7f=>0x1f), //
	220	'X12' => array( // Set for X12 ----------------------------------------------------------------------------------
	221	0x0d=>0x00,0x2a=>0x01,0x3e=>0x02,0x20=>0x03,0x30=>0x04,0x31=>0x05,0x32=>0x06,0x33=>0x07,0x34=>0x08,0x35=>0x09, //
	222	0x36=>0x0a,0x37=>0x0b,0x38=>0x0c,0x39=>0x0d,0x41=>0x0e,0x42=>0x0f,0x43=>0x10,0x44=>0x11,0x45=>0x12,0x46=>0x13, //
	223	0x47=>0x14,0x48=>0x15,0x49=>0x16,0x4a=>0x17,0x4b=>0x18,0x4c=>0x19,0x4d=>0x1a,0x4e=>0x1b,0x4f=>0x1c,0x50=>0x1d, //
	224	0x51=>0x1e,0x52=>0x1f,0x53=>0x20,0x54=>0x21,0x55=>0x22,0x56=>0x23,0x57=>0x24,0x58=>0x25,0x59=>0x26,0x5a=>0x27) //
	225	);
	226
	227	// -----------------------------------------------------------------------------
	228
	229	/**
	230	* This is the class constructor.
	231	* Creates a datamatrix object
	232	* @param $code (string) Code to represent using Datamatrix.
	233	* @public
	234	*/
	235	public function __construct($code) {
	236	$barcode_array = array();
	237	if ((is_null($code)) OR ($code == '\0') OR ($code == '')) {
	238	return false;
	239	}
	240	// get data codewords
	241	$cw = $this->getHighLevelEncoding($code);
	242	// number of data codewords
	243	$nd = count($cw);
	244	// check size
	245	if ($nd > 1558) {
	246	return false;
	247	}
	248	// get minimum required matrix size.
	249	foreach ($this->symbattr as $params) {
	250	if ($params[11] >= $nd) {
	251	break;
	252	}
	253	}
	254	if ($params[11] < $nd) {
	255	// too much data
	256	return false;
	257	} elseif ($params[11] > $nd) {
	258	// add padding
	259	if ((($params[11] - $nd) > 1) AND ($cw[($nd - 1)] != 254)) {
	260	if ($this->last_enc == ENC_EDF) {
	261	// switch to ASCII encoding
	262	$cw[] = 124;
	263	++$nd;
	264	} elseif (($this->last_enc != ENC_ASCII) AND ($this->last_enc != ENC_BASE256)) {
	265	// switch to ASCII encoding
	266	$cw[] = 254;
	267	++$nd;
	268	}
	269	}
	270	if ($params[11] > $nd) {
	271	// add first pad
	272	$cw[] = 129;
	273	++$nd;
	274	// add remaining pads
	275	for ($i = $nd; $i < $params[11]; ++$i) {
	276	$cw[] = $this->get253StateCodeword(129, $i);
	277	}
	278	}
	279	}
	280	// add error correction codewords
	281	$cw = $this->getErrorCorrection($cw, $params[13], $params[14], $params[15]);
	282	// initialize empty arrays
	283	$grid = array_fill(0, ($params[2] * $params[3]), 0);
	284	// get placement map
	285	$places = $this->getPlacementMap($params[2], $params[3]);
	286	// fill the grid with data
	287	$grid = array();
	288	$i = 0;
	289	// region data row max index
	290	$rdri = ($params[4] - 1);
	291	// region data column max index
	292	$rdci = ($params[5] - 1);
	293	// for each vertical region
	294	for ($vr = 0; $vr < $params[9]; ++$vr) {
	295	// for each row on region
	296	for ($r = 0; $r < $params[4]; ++$r) {
	297	// get row
	298	$row = (($vr * $params[4]) + $r);
	299	// for each horizontal region
	300	for ($hr = 0; $hr < $params[8]; ++$hr) {
	301	// for each column on region
	302	for ($c = 0; $c < $params[5]; ++$c) {
	303	// get column
	304	$col = (($hr * $params[5]) + $c);
	305	// braw bits by case
	306	if ($r == 0) {
	307	// top finder pattern
	308	if ($c % 2) {
	309	$grid[$row][$col] = 0;
	310	} else {
	311	$grid[$row][$col] = 1;
	312	}
	313	} elseif ($r == $rdri) {
	314	// bottom finder pattern
	315	$grid[$row][$col] = 1;
	316	} elseif ($c == 0) {
	317	// left finder pattern
	318	$grid[$row][$col] = 1;
	319	} elseif ($c == $rdci) {
	320	// right finder pattern
	321	if ($r % 2) {
	322	$grid[$row][$col] = 1;
	323	} else {
	324	$grid[$row][$col] = 0;
	325	}
	326	} else { // data bit
	327	if ($places[$i] < 2) {
	328	$grid[$row][$col] = $places[$i];
	329	} else {
	330	// codeword ID
	331	$cw_id = (floor($places[$i] / 10) - 1);
	332	// codeword BIT mask
	333	$cw_bit = pow(2, (8 - ($places[$i] % 10)));
	334	$grid[$row][$col] = (($cw[$cw_id] & $cw_bit) == 0) ? 0 : 1;
	335	}
	336	++$i;
	337	}
	338	}
	339	}
	340	}
	341	}
	342	$this->barcode_array['num_rows'] = $params[0];
	343	$this->barcode_array['num_cols'] = $params[1];
	344	$this->barcode_array['bcode'] = $grid;
	345	}
	346
	347	/**
	348	* Returns a barcode array which is readable by TCPDF
	349	* @return array barcode array readable by TCPDF;
	350	* @public
	351	*/
	352	public function getBarcodeArray() {
	353	return $this->barcode_array;
	354	}
	355
	356	/**
	357	* Product of two numbers in a Power-of-Two Galois Field
	358	* @param $a (int) first number to multiply.
	359	* @param $b (int) second number to multiply.
	360	* @param $log (array) Log table.
	361	* @param $alog (array) Anti-Log table.
	362	* @param $gf (array) Number of Factors of the Reed-Solomon polynomial.
	363	* @return int product
	364	* @protected
	365	*/
	366	protected function getGFProduct($a, $b, $log, $alog, $gf) {
	367	if (($a == 0) OR ($b == 0)) {
	368	return 0;
	369	}
	370	return ($alog[($log[$a] + $log[$b]) % ($gf - 1)]);
	371	}
	372
	373	/**
	374	* Add error correction codewords to data codewords array (ANNEX E).
	375	* @param $wd (array) Array of datacodewords.
	376	* @param $nb (int) Number of blocks.
	377	* @param $nd (int) Number of data codewords per block.
	378	* @param $nc (int) Number of correction codewords per block.
	379	* @param $gf (int) numner of fields on log/antilog table (power of 2).
	380	* @param $pp (int) The value of its prime modulus polynomial (301 for ECC200).
	381	* @return array data codewords + error codewords
	382	* @protected
	383	*/
	384	protected function getErrorCorrection($wd, $nb, $nd, $nc, $gf=256, $pp=301) {
	385	// generate the log ($log) and antilog ($alog) tables
	386	$log[0] = 0;
	387	$alog[0] = 1;
	388	for ($i = 1; $i < $gf; ++$i) {
	389	$alog[$i] = ($alog[($i - 1)] * 2);
	390	if ($alog[$i] >= $gf) {
	391	$alog[$i] ^= $pp;
	392	}
	393	$log[$alog[$i]] = $i;
	394	}
	395	ksort($log);
	396	// generate the polynomial coefficients (c)
	397	$c = array_fill(0, ($nc + 1), 0);
	398	$c[0] = 1;
	399	for ($i = 1; $i <= $nc; ++$i) {
	400	$c[$i] = $c[($i-1)];
	401	for ($j = ($i - 1); $j >= 1; --$j) {
	402	$c[$j] = $c[($j - 1)] ^ $this->getGFProduct($c[$j], $alog[$i], $log, $alog, $gf);
	403	}
	404	$c[0] = $this->getGFProduct($c[0], $alog[$i], $log, $alog, $gf);
	405	}
	406	ksort($c);
	407	// total number of data codewords
	408	$num_wd = ($nb * $nd);
	409	// total number of error codewords
	410	$num_we = ($nb * $nc);
	411	// for each block
	412	for ($b = 0; $b < $nb; ++$b) {
	413	// create interleaved data block
	414	$block = array();
	415	for ($n = $b; $n < $num_wd; $n += $nb) {
	416	$block[] = $wd[$n];
	417	}
	418	// initialize error codewords
	419	$we = array_fill(0, ($nc + 1), 0);
	420	// calculate error correction codewords for this block
	421	for ($i = 0; $i < $nd; ++$i) {
	422	$k = ($we[0] ^ $block[$i]);
	423	for ($j = 0; $j < $nc; ++$j) {
	424	$we[$j] = ($we[($j + 1)] ^ $this->getGFProduct($k, $c[($nc - $j - 1)], $log, $alog, $gf));
	425	}
	426	}
	427	// add error codewords at the end of data codewords
	428	$j = 0;
	429	for ($i = $b; $i < $num_we; $i += $nb) {
	430	$wd[($num_wd + $i)] = $we[$j];
	431	++$j;
	432	}
	433	}
	434	// reorder codewords
	435	ksort($wd);
	436	return $wd;
	437	}
	438
	439	/**
	440	* Return the 253-state codeword
	441	* @param $cwpad (int) Pad codeword.
	442	* @param $cwpos (int) Number of data codewords from the beginning of encoded data.
	443	* @return pad codeword
	444	* @protected
	445	*/
	446	protected function get253StateCodeword($cwpad, $cwpos) {
	447	$pad = ($cwpad + (((149 * $cwpos) % 253) + 1));
	448	if ($pad > 254) {
	449	$pad -= 254;
	450	}
	451	return $pad;
	452	}
	453
	454	/**
	455	* Return the 255-state codeword
	456	* @param $cwpad (int) Pad codeword.
	457	* @param $cwpos (int) Number of data codewords from the beginning of encoded data.
	458	* @return pad codeword
	459	* @protected
	460	*/
	461	protected function get255StateCodeword($cwpad, $cwpos) {
	462	$pad = ($cwpad + (((149 * $cwpos) % 255) + 1));
	463	if ($pad > 255) {
	464	$pad -= 256;
	465	}
	466	return $pad;
	467	}
	468
	469	/**
	470	* Returns true if the char belongs to the selected mode
	471	* @param $chr (int) Character (byte) to check.
	472	* @param $mode (int) Current encoding mode.
	473	* @return boolean true if the char is of the selected mode.
	474	* @protected
	475	*/
	476	protected function isCharMode($chr, $mode) {
	477	$status = false;
	478	switch ($mode) {
	479	case ENC_ASCII: { // ASCII character 0 to 127
	480	$status = (($chr >= 0) AND ($chr <= 127));
	481	break;
	482	}
	483	case ENC_C40: { // Upper-case alphanumeric
	484	$status = (($chr == 32) OR (($chr >= 48) AND ($chr <= 57)) OR (($chr >= 65) AND ($chr <= 90)));
	485	break;
	486	}
	487	case ENC_TXT: { // Lower-case alphanumeric
	488	$status = (($chr == 32) OR (($chr >= 48) AND ($chr <= 57)) OR (($chr >= 97) AND ($chr <= 122)));
	489	break;
	490	}
	491	case ENC_X12: { // ANSI X12
	492	$status = (($chr == 13) OR ($chr == 42) OR ($chr == 62));
	493	break;
	494	}
	495	case ENC_EDF: { // ASCII character 32 to 94
	496	$status = (($chr >= 32) AND ($chr <= 94));
	497	break;
	498	}
	499	case ENC_BASE256: { // Function character (FNC1, Structured Append, Reader Program, or Code Page)
	500	$status = (($chr == 232) OR ($chr == 233) OR ($chr == 234) OR ($chr == 241));
	501	break;
	502	}
	503	case ENC_ASCII_EXT: { // ASCII character 128 to 255
	504	$status = (($chr >= 128) AND ($chr <= 255));
	505	break;
	506	}
	507	case ENC_ASCII_NUM: { // ASCII digits
	508	$status = (($chr >= 48) AND ($chr <= 57));
	509	break;
	510	}
	511	}
	512	return $status;
	513	}
	514
	515	/**
	516	* The look-ahead test scans the data to be encoded to find the best mode (Annex P - steps from J to S).
	517	* @param $data (string) data to encode
	518	* @param $pos (int) current position
	519	* @param $mode (int) current encoding mode
	520	* @return int encoding mode
	521	* @protected
	522	*/
	523	protected function lookAheadTest($data, $pos, $mode) {
	524	$data_length = strlen($data);
	525	if ($pos >= $data_length) {
	526	return $mode;
	527	}
	528	$charscount = 0; // count processed chars
	529	// STEP J
	530	if ($mode == ENC_ASCII) {
	531	$numch = array(0, 1, 1, 1, 1, 1.25);
	532	} else {
	533	$numch = array(1, 2, 2, 2, 2, 2.25);
	534	$numch[$mode] = 0;
	535	}
	536	while (true) {
	537	// STEP K
	538	if (($pos + $charscount) == $data_length) {
	539	if ($numch[ENC_ASCII] <= ceil(min($numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256]))) {
	540	return ENC_ASCII;
	541	}
	542	if ($numch[ENC_BASE256] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF]))) {
	543	return ENC_BASE256;
	544	}
	545	if ($numch[ENC_EDF] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_BASE256]))) {
	546	return ENC_EDF;
	547	}
	548	if ($numch[ENC_TXT] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256]))) {
	549	return ENC_TXT;
	550	}
	551	if ($numch[ENC_X12] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_EDF], $numch[ENC_BASE256]))) {
	552	return ENC_X12;
	553	}
	554	return ENC_C40;
	555	}
	556	// get char
	557	$chr = ord($data[$pos + $charscount]);
	558	$charscount++;
	559	// STEP L
	560	if ($this->isCharMode($chr, ENC_ASCII_NUM)) {
	561	$numch[ENC_ASCII] += (1 / 2);
	562	} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
	563	$numch[ENC_ASCII] = ceil($numch[ENC_ASCII]);
	564	$numch[ENC_ASCII] += 2;
	565	} else {
	566	$numch[ENC_ASCII] = ceil($numch[ENC_ASCII]);
	567	$numch[ENC_ASCII] += 1;
	568	}
	569	// STEP M
	570	if ($this->isCharMode($chr, ENC_C40)) {
	571	$numch[ENC_C40] += (2 / 3);
	572	} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
	573	$numch[ENC_C40] += (8 / 3);
	574	} else {
	575	$numch[ENC_C40] += (4 / 3);
	576	}
	577	// STEP N
	578	if ($this->isCharMode($chr, ENC_TXT)) {
	579	$numch[ENC_TXT] += (2 / 3);
	580	} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
	581	$numch[ENC_TXT] += (8 / 3);
	582	} else {
	583	$numch[ENC_TXT] += (4 / 3);
	584	}
	585	// STEP O
	586	if ($this->isCharMode($chr, ENC_X12) OR $this->isCharMode($chr, ENC_C40)) {
	587	$numch[ENC_X12] += (2 / 3);
	588	} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
	589	$numch[ENC_X12] += (13 / 3);
	590	} else {
	591	$numch[ENC_X12] += (10 / 3);
	592	}
	593	// STEP P
	594	if ($this->isCharMode($chr, ENC_EDF)) {
	595	$numch[ENC_EDF] += (3 / 4);
	596	} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
	597	$numch[ENC_EDF] += (17 / 4);
	598	} else {
	599	$numch[ENC_EDF] += (13 / 4);
	600	}
	601	// STEP Q
	602	if ($this->isCharMode($chr, ENC_BASE256)) {
	603	$numch[ENC_BASE256] += 4;
	604	} else {
	605	$numch[ENC_BASE256] += 1;
	606	}
	607	// STEP R
	608	if ($charscount >= 4) {
	609	if (($numch[ENC_ASCII] + 1) <= min($numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256])) {
	610	return ENC_ASCII;
	611	}
	612	if ((($numch[ENC_BASE256] + 1) <= $numch[ENC_ASCII])
	613	OR (($numch[ENC_BASE256] + 1) < min($numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF]))) {
	614	return ENC_BASE256;
	615	}
	616	if (($numch[ENC_EDF] + 1) < min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_BASE256])) {
	617	return ENC_EDF;
	618	}
	619	if (($numch[ENC_TXT] + 1) < min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256])) {
	620	return ENC_TXT;
	621	}
	622	if (($numch[ENC_X12] + 1) < min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_EDF], $numch[ENC_BASE256])) {
	623	return ENC_X12;
	624	}
	625	if (($numch[ENC_C40] + 1) < min($numch[ENC_ASCII], $numch[ENC_TXT], $numch[ENC_EDF], $numch[ENC_BASE256])) {
	626	if ($numch[ENC_C40] < $numch[ENC_X12]) {
	627	return ENC_C40;
	628	}
	629	if ($numch[ENC_C40] == $numch[ENC_X12]) {
	630	$k = ($pos + $charscount + 1);
	631	while ($k < $data_length) {
	632	$tmpchr = ord($data[$k]);
	633	if ($this->isCharMode($tmpchr, ENC_X12)) {
	634	return ENC_X12;
	635	} elseif (!($this->isCharMode($tmpchr, ENC_X12) OR $this->isCharMode($tmpchr, ENC_C40))) {
	636	break;
	637	}
	638	++$k;
	639	}
	640	return ENC_C40;
	641	}
	642	}
	643	}
	644	} // end of while
	645	}
	646
	647	/**
	648	* Get the switching codeword to a new encoding mode (latch codeword)
	649	* @param $mode (int) New encoding mode.
	650	* @return (int) Switch codeword.
	651	* @protected
	652	*/
	653	protected function getSwitchEncodingCodeword($mode) {
	654	switch ($mode) {
	655	case ENC_ASCII: { // ASCII character 0 to 127
	656	$cw = 254;
	657	if ($this->last_enc == ENC_EDF) {
	658	$cw = 124;
	659	}
	660	break;
	661	}
	662	case ENC_C40: { // Upper-case alphanumeric
	663	$cw = 230;
	664	break;
	665	}
	666	case ENC_TXT: { // Lower-case alphanumeric
	667	$cw = 239;
	668	break;
	669	}
	670	case ENC_X12: { // ANSI X12
	671	$cw = 238;
	672	break;
	673	}
	674	case ENC_EDF: { // ASCII character 32 to 94
	675	$cw = 240;
	676	break;
	677	}
	678	case ENC_BASE256: { // Function character (FNC1, Structured Append, Reader Program, or Code Page)
	679	$cw = 231;
	680	break;
	681	}
	682	}
	683	return $cw;
	684	}
	685
	686	/**
	687	* Choose the minimum matrix size and return the max number of data codewords.
	688	* @param $numcw (int) Number of current codewords.
	689	* @return number of data codewords in matrix
	690	* @protected
	691	*/
	692	protected function getMaxDataCodewords($numcw) {
	693	foreach ($this->symbattr as $key => $matrix) {
	694	if ($matrix[11] >= $numcw) {
	695	return $matrix[11];
	696	}
	697	}
	698	return 0;
	699	}
	700
	701	/**
	702	* Get high level encoding using the minimum symbol data characters for ECC 200
	703	* @param $data (string) data to encode
	704	* @return array of codewords
	705	* @protected
	706	*/
	707	protected function getHighLevelEncoding($data) {
	708	// STEP A. Start in ASCII encodation.
	709	$enc = ENC_ASCII; // current encoding mode
	710	$pos = 0; // current position
	711	$cw = array(); // array of codewords to be returned
	712	$cw_num = 0; // number of data codewords
	713	$data_length = strlen($data); // number of chars
	714	while ($pos < $data_length) {
	715	// set last used encoding
	716	$this->last_enc = $enc;
	717	switch ($enc) {
	718	case ENC_ASCII: { // STEP B. While in ASCII encodation
	719	if (($data_length > 1) AND ($pos < ($data_length - 1)) AND ($this->isCharMode(ord($data[$pos]), ENC_ASCII_NUM) AND $this->isCharMode(ord($data[$pos + 1]), ENC_ASCII_NUM))) {
	720	// 1. If the next data sequence is at least 2 consecutive digits, encode the next two digits as a double digit in ASCII mode.
	721	$cw[] = (intval(substr($data, $pos, 2)) + 130);
	722	++$cw_num;
	723	$pos += 2;
	724	} else {
	725	// 2. If the look-ahead test (starting at step J) indicates another mode, switch to that mode.
	726	$newenc = $this->lookAheadTest($data, $pos, $enc);
	727	if ($newenc != $enc) {
	728	// switch to new encoding
	729	$enc = $newenc;
	730	$cw[] = $this->getSwitchEncodingCodeword($enc);
	731	++$cw_num;
	732	} else {
	733	// get new byte
	734	$chr = ord($data[$pos]);
	735	++$pos;
	736	if ($this->isCharMode($chr, ENC_ASCII_EXT)) {
	737	// 3. If the next data character is extended ASCII (greater than 127) encode it in ASCII mode first using the Upper Shift (value 235) character.
	738	$cw[] = 235;
	739	$cw[] = ($chr - 127);
	740	$cw_num += 2;
	741	} else {
	742	// 4. Otherwise process the next data character in ASCII encodation.
	743	$cw[] = ($chr + 1);
	744	++$cw_num;
	745	}
	746	}
	747	}
	748	break;
	749	}
	750	case ENC_C40 : // Upper-case alphanumeric
	751	case ENC_TXT : // Lower-case alphanumeric
	752	case ENC_X12 : { // ANSI X12
	753	$temp_cw = array();
	754	$p = 0;
	755	$epos = $pos;
	756	// get charset ID
	757	$set_id = $this->chset_id[$enc];
	758	// get basic charset for current encoding
	759	$charset = $this->chset[$set_id];
	760	do {
	761	// 2. process the next character in C40 encodation.
	762	$chr = ord($data[$epos]);
	763	++$epos;
	764	// check for extended character
	765	if ($chr & 0x80) {
	766	if ($enc == ENC_X12) {
	767	return false;
	768	}
	769	$chr = ($chr & 0x7f);
	770	$temp_cw[] = 1; // shift 2
	771	$temp_cw[] = 30; // upper shift
	772	$p += 2;
	773	}
	774	if (isset($charset[$chr])) {
	775	$temp_cw[] = $charset[$chr];
	776	++$p;
	777	} else {
	778	if (isset($this->chset['SH1'][$chr])) {
	779	$temp_cw[] = 0; // shift 1
	780	$shiftset = $this->chset['SH1'];
	781	} elseif (isset($chr, $this->chset['SH2'][$chr])) {
	782	$temp_cw[] = 1; // shift 2
	783	$shiftset = $this->chset['SH2'];
	784	} elseif (($enc == ENC_C40) AND isset($this->chset['S3C'][$chr])) {
	785	$temp_cw[] = 2; // shift 3
	786	$shiftset = $this->chset['S3C'];
	787	} elseif (($enc == ENC_TXT) AND isset($this->chset['S3T'][$chr])) {
	788	$temp_cw[] = 2; // shift 3
	789	$shiftset = $this->chset['S3T'];
	790	} else {
	791	return false;
	792	}
	793	$temp_cw[] = $shiftset[$chr];
	794	$p += 2;
	795	}
	796	if ($p >= 3) {
	797	$c1 = array_shift($temp_cw);
	798	$c2 = array_shift($temp_cw);
	799	$c3 = array_shift($temp_cw);
	800	$p -= 3;
	801	$tmp = ((1600 * $c1) + (40 * $c2) + $c3 + 1);
	802	$cw[] = ($tmp >> 8);
	803	$cw[] = ($tmp % 256);
	804	$cw_num += 2;
	805	$pos = $epos;
	806	// 1. If the C40 encoding is at the point of starting a new double symbol character and if the look-ahead test (starting at step J) indicates another mode, switch to that mode.
	807	$newenc = $this->lookAheadTest($data, $pos, $enc);
	808	if ($newenc != $enc) {
	809	// switch to new encoding
	810	$enc = $newenc;
	811	if ($enc != ENC_ASCII) {
	812	// set unlatch character
	813	$cw[] = $this->getSwitchEncodingCodeword(ENC_ASCII);
	814	++$cw_num;
	815	}
	816	$cw[] = $this->getSwitchEncodingCodeword($enc);
	817	++$cw_num;
	818	$pos -= $p;
	819	$p = 0;
	820	break;
	821	}
	822	}
	823	} while (($p > 0) AND ($epos < $data_length));
	824	// process last data (if any)
	825	if ($p > 0) {
	826	// get remaining number of data symbols
	827	$cwr = ($this->getMaxDataCodewords($cw_num) - $cw_num);
	828	if (($cwr == 1) AND ($p == 1)) {
	829	// d. If one symbol character remains and one C40 value (data character) remains to be encoded
	830	$c1 = array_shift($temp_cw);
	831	--$p;
	832	$cw[] = ($chr + 1);
	833	++$cw_num;
	834	$pos = $epos;
	835	$enc = ENC_ASCII;
	836	$this->last_enc = $enc;
	837	} elseif (($cwr == 2) AND ($p == 1)) {
	838	// c. If two symbol characters remain and only one C40 value (data character) remains to be encoded
	839	$c1 = array_shift($temp_cw);
	840	--$p;
	841	$cw[] = 254;
	842	$cw[] = ($chr + 1);
	843	$cw_num += 2;
	844	$pos = $epos;
	845	$enc = ENC_ASCII;
	846	$this->last_enc = $enc;
	847	} elseif (($cwr == 2) AND ($p == 2)) {
	848	// b. If two symbol characters remain and two C40 values remain to be encoded
	849	$c1 = array_shift($temp_cw);
	850	$c2 = array_shift($temp_cw);
	851	$p -= 2;
	852	$tmp = ((1600 * $c1) + (40 * $c2) + 1);
	853	$cw[] = ($tmp >> 8);
	854	$cw[] = ($tmp % 256);
	855	$cw_num += 2;
	856	$pos = $epos;
	857	$enc = ENC_ASCII;
	858	$this->last_enc = $enc;
	859	} else {
	860	// switch to ASCII encoding
	861	if ($enc != ENC_ASCII) {
	862	$enc = ENC_ASCII;
	863	$this->last_enc = $enc;
	864	$cw[] = $this->getSwitchEncodingCodeword($enc);
	865	++$cw_num;
	866	$pos = ($epos - $p);
	867	}
	868	}
	869	}
	870	break;
	871	}
	872	case ENC_EDF: { // F. While in EDIFACT (EDF) encodation
	873	// initialize temporary array with 0 length
	874	$temp_cw = array();
	875	$epos = $pos;
	876	$field_length = 0;
	877	$newenc = $enc;
	878	do {
	879	// 2. process the next character in EDIFACT encodation.
	880	$chr = ord($data[$epos]);
	881	if ($this->isCharMode($chr, ENC_EDF)) {
	882	++$epos;
	883	$temp_cw[] = $chr;
	884	++$field_length;
	885	}
	886	if (($field_length == 4) OR ($epos == $data_length) OR !$this->isCharMode($chr, ENC_EDF)) {
	887	if (($epos == $data_length) AND ($field_length < 3)) {
	888	$enc = ENC_ASCII;
	889	$cw[] = $this->getSwitchEncodingCodeword($enc);
	890	++$cw_num;
	891	break;
	892	}
	893	if ($field_length < 4) {
	894	// set unlatch character
	895	$temp_cw[] = 0x1f;
	896	++$field_length;
	897	// fill empty characters
	898	for ($i = $field_length; $i < 4; ++$i) {
	899	$temp_cw[] = 0;
	900	}
	901	$enc = ENC_ASCII;
	902	$this->last_enc = $enc;
	903	}
	904	// encodes four data characters in three codewords
	905	$tcw = (($temp_cw[0] & 0x3F) << 2) + (($temp_cw[1] & 0x30) >> 4);
	906	if ($tcw > 0) {
	907	$cw[] = $tcw;
	908	$cw_num++;
	909	}
	910	$tcw= (($temp_cw[1] & 0x0F) << 4) + (($temp_cw[2] & 0x3C) >> 2);
	911	if ($tcw > 0) {
	912	$cw[] = $tcw;
	913	$cw_num++;
	914	}
	915	$tcw = (($temp_cw[2] & 0x03) << 6) + ($temp_cw[3] & 0x3F);
	916	if ($tcw > 0) {
	917	$cw[] = $tcw;
	918	$cw_num++;
	919	}
	920	$temp_cw = array();
	921	$pos = $epos;
	922	$field_length = 0;
	923	if ($enc == ENC_ASCII) {
	924	break; // exit from EDIFACT mode
	925	}
	926	}
	927	} while ($epos < $data_length);
	928	break;
	929	}
	930	case ENC_BASE256: { // G. While in Base 256 (B256) encodation
	931	// initialize temporary array with 0 length
	932	$temp_cw = array();
	933	$field_length = 0;
	934	while (($pos < $data_length) AND ($field_length <= 1555)) {
	935	$newenc = $this->lookAheadTest($data, $pos, $enc);
	936	if ($newenc != $enc) {
	937	// 1. If the look-ahead test (starting at step J) indicates another mode, switch to that mode.
	938	$enc = $newenc;
	939	break; // exit from B256 mode
	940	} else {
	941	// 2. Otherwise, process the next character in Base 256 encodation.
	942	$chr = ord($data[$pos]);
	943	++$pos;
	944	$temp_cw[] = $chr;
	945	++$field_length;
	946	}
	947	}
	948	// set field length
	949	if ($field_length <= 249) {
	950	$cw[] = $this->get255StateCodeword($field_length, ($cw_num + 1));
	951	++$cw_num;
	952	} else {
	953	$cw[] = $this->get255StateCodeword((floor($field_length / 250) + 249), ($cw_num + 1));
	954	$cw[] = $this->get255StateCodeword(($field_length % 250), ($cw_num + 2));
	955	$cw_num += 2;
	956	}
	957	if (!empty($temp_cw)) {
	958	// add B256 field
	959	foreach ($temp_cw as $p => $cht) {
	960	$cw[] = $this->get255StateCodeword($cht, ($cw_num + $p + 1));
	961	}
	962	}
	963	break;
	964	}
	965	} // end of switch enc
	966	} // end of while
	967	return $cw;
	968	}
	969
	970	/**
	971	* Places "chr+bit" with appropriate wrapping within array[].
	972	* (Annex F - ECC 200 symbol character placement)
	973	* @param $marr (array) Array of symbols.
	974	* @param $nrow (int) Number of rows.
	975	* @param $ncol (int) Number of columns.
	976	* @param $row (int) Row number.
	977	* @param $col (int) Column number.
	978	* @param $chr (int) Char byte.
	979	* @param $bit (int) Bit.
	980	* @return array
	981	* @protected
	982	*/
	983	protected function placeModule($marr, $nrow, $ncol, $row, $col, $chr, $bit) {
	984	if ($row < 0) {
	985	$row += $nrow;
	986	$col += (4 - (($nrow + 4) % 8));
	987	}
	988	if ($col < 0) {
	989	$col += $ncol;
	990	$row += (4 - (($ncol + 4) % 8));
	991	}
	992	$marr[(($row * $ncol) + $col)] = ((10 * $chr) + $bit);
	993	return $marr;
	994	}
	995
	996	/**
	997	* Places the 8 bits of a utah-shaped symbol character.
	998	* (Annex F - ECC 200 symbol character placement)
	999	* @param $marr (array) Array of symbols.
	1000	* @param $nrow (int) Number of rows.
	1001	* @param $ncol (int) Number of columns.
	1002	* @param $row (int) Row number.
	1003	* @param $col (int) Column number.
	1004	* @param $chr (int) Char byte.
	1005	* @return array
	1006	* @protected
	1007	*/
	1008	protected function placeUtah($marr, $nrow, $ncol, $row, $col, $chr) {
	1009	$marr = $this->placeModule($marr, $nrow, $ncol, $row-2, $col-2, $chr, 1);
	1010	$marr = $this->placeModule($marr, $nrow, $ncol, $row-2, $col-1, $chr, 2);
	1011	$marr = $this->placeModule($marr, $nrow, $ncol, $row-1, $col-2, $chr, 3);
	1012	$marr = $this->placeModule($marr, $nrow, $ncol, $row-1, $col-1, $chr, 4);
	1013	$marr = $this->placeModule($marr, $nrow, $ncol, $row-1, $col, $chr, 5);
	1014	$marr = $this->placeModule($marr, $nrow, $ncol, $row, $col-2, $chr, 6);
	1015	$marr = $this->placeModule($marr, $nrow, $ncol, $row, $col-1, $chr, 7);
	1016	$marr = $this->placeModule($marr, $nrow, $ncol, $row, $col, $chr, 8);
	1017	return $marr;
	1018	}
	1019
	1020	/**
	1021	* Places the 8 bits of the first special corner case.
	1022	* (Annex F - ECC 200 symbol character placement)
	1023	* @param $marr (array) Array of symbols.
	1024	* @param $nrow (int) Number of rows.
	1025	* @param $ncol (int) Number of columns.
	1026	* @param $chr (int) Char byte.
	1027	* @return array
	1028	* @protected
	1029	*/
	1030	protected function placeCornerA($marr, $nrow, $ncol, $chr) {
	1031	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-1, 0, $chr, 1);
	1032	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-1, 1, $chr, 2);
	1033	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-1, 2, $chr, 3);
	1034	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-2, $chr, 4);
	1035	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-1, $chr, 5);
	1036	$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol-1, $chr, 6);
	1037	$marr = $this->placeModule($marr, $nrow, $ncol, 2, $ncol-1, $chr, 7);
	1038	$marr = $this->placeModule($marr, $nrow, $ncol, 3, $ncol-1, $chr, 8);
	1039	return $marr;
	1040	}
	1041
	1042	/**
	1043	* Places the 8 bits of the second special corner case.
	1044	* (Annex F - ECC 200 symbol character placement)
	1045	* @param $marr (array) Array of symbols.
	1046	* @param $nrow (int) Number of rows.
	1047	* @param $ncol (int) Number of columns.
	1048	* @param $chr (int) Char byte.
	1049	* @return array
	1050	* @protected
	1051	*/
	1052	protected function placeCornerB($marr, $nrow, $ncol, $chr) {
	1053	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-3, 0, $chr, 1);
	1054	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-2, 0, $chr, 2);
	1055	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-1, 0, $chr, 3);
	1056	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-4, $chr, 4);
	1057	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-3, $chr, 5);
	1058	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-2, $chr, 6);
	1059	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-1, $chr, 7);
	1060	$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol-1, $chr, 8);
	1061	return $marr;
	1062	}
	1063
	1064	/**
	1065	* Places the 8 bits of the third special corner case.
	1066	* (Annex F - ECC 200 symbol character placement)
	1067	* @param $marr (array) Array of symbols.
	1068	* @param $nrow (int) Number of rows.
	1069	* @param $ncol (int) Number of columns.
	1070	* @param $chr (int) Char byte.
	1071	* @return array
	1072	* @protected
	1073	*/
	1074	protected function placeCornerC($marr, $nrow, $ncol, $chr) {
	1075	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-3, 0, $chr, 1);
	1076	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-2, 0, $chr, 2);
	1077	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-1, 0, $chr, 3);
	1078	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-2, $chr, 4);
	1079	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-1, $chr, 5);
	1080	$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol-1, $chr, 6);
	1081	$marr = $this->placeModule($marr, $nrow, $ncol, 2, $ncol-1, $chr, 7);
	1082	$marr = $this->placeModule($marr, $nrow, $ncol, 3, $ncol-1, $chr, 8);
	1083	return $marr;
	1084	}
	1085
	1086	/**
	1087	* Places the 8 bits of the fourth special corner case.
	1088	* (Annex F - ECC 200 symbol character placement)
	1089	* @param $marr (array) Array of symbols.
	1090	* @param $nrow (int) Number of rows.
	1091	* @param $ncol (int) Number of columns.
	1092	* @param $chr (int) Char byte.
	1093	* @return array
	1094	* @protected
	1095	*/
	1096	protected function placeCornerD($marr, $nrow, $ncol, $chr) {
	1097	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-1, 0, $chr, 1);
	1098	$marr = $this->placeModule($marr, $nrow, $ncol, $nrow-1, $ncol-1, $chr, 2);
	1099	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-3, $chr, 3);
	1100	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-2, $chr, 4);
	1101	$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol-1, $chr, 5);
	1102	$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol-3, $chr, 6);
	1103	$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol-2, $chr, 7);
	1104	$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol-1, $chr, 8);
	1105	return $marr;
	1106	}
	1107
	1108	/**
	1109	* Build a placement map.
	1110	* (Annex F - ECC 200 symbol character placement)
	1111	* @param $nrow (int) Number of rows.
	1112	* @param $ncol (int) Number of columns.
	1113	* @return array
	1114	* @protected
	1115	*/
	1116	protected function getPlacementMap($nrow, $ncol) {
	1117	// initialize array with zeros
	1118	$marr = array_fill(0, ($nrow * $ncol), 0);
	1119	// set starting values
	1120	$chr = 1;
	1121	$row = 4;
	1122	$col = 0;
	1123	do {
	1124	// repeatedly first check for one of the special corner cases, then
	1125	if (($row == $nrow) AND ($col == 0)) {
	1126	$marr = $this->placeCornerA($marr, $nrow, $ncol, $chr);
	1127	++$chr;
	1128	}
	1129	if (($row == ($nrow - 2)) AND ($col == 0) AND ($ncol % 4)) {
	1130	$marr = $this->placeCornerB($marr, $nrow, $ncol, $chr);
	1131	++$chr;
	1132	}
	1133	if (($row == ($nrow - 2)) AND ($col == 0) AND (($ncol % 8) == 4)) {
	1134	$marr = $this->placeCornerC($marr, $nrow, $ncol, $chr);
	1135	++$chr;
	1136	}
	1137	if (($row == ($nrow + 4)) AND ($col == 2) AND (!($ncol % 8))) {
	1138	$marr = $this->placeCornerD($marr, $nrow, $ncol, $chr);
	1139	++$chr;
	1140	}
	1141	// sweep upward diagonally, inserting successive characters,
	1142	do {
	1143	if (($row < $nrow) AND ($col >= 0) AND (!$marr[(($row * $ncol) + $col)])) {
	1144	$marr = $this->placeUtah($marr, $nrow, $ncol, $row, $col, $chr);
	1145	++$chr;
	1146	}
	1147	$row -= 2;
	1148	$col += 2;
	1149	} while (($row >= 0) AND ($col < $ncol));
	1150	++$row;
	1151	$col += 3;
	1152	// & then sweep downward diagonally, inserting successive characters,...
	1153	do {
	1154	if (($row >= 0) AND ($col < $ncol) AND (!$marr[(($row * $ncol) + $col)])) {
	1155	$marr = $this->placeUtah($marr, $nrow, $ncol, $row, $col, $chr);
	1156	++$chr;
	1157	}
	1158	$row += 2;
	1159	$col -= 2;
	1160	} while (($row < $nrow) AND ($col >= 0));
	1161	$row += 3;
	1162	++$col;
	1163	// ... until the entire array is scanned
	1164	} while (($row < $nrow) OR ($col < $ncol));
	1165	// lastly, if the lower righthand corner is untouched, fill in fixed pattern
	1166	if (!$marr[(($nrow * $ncol) - 1)]) {
	1167	$marr[(($nrow * $ncol) - 1)] = 1;
	1168	$marr[(($nrow * $ncol) - $ncol - 2)] = 1;
	1169	}
	1170	return $marr;
	1171	}
	1172
	1173	} // end DataMatrix class
	1174	//============================================================+
	1175	// END OF FILE
	1176	//============================================================+

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