IMMREX7
<?php
namespace Milon\Barcode;
//============================================================+
// File name : datamatrix.php
// Version : 1.0.008
// Begin : 2010-06-07
// Last Update : 2014-05-06
// Author : Nicola Asuni - Tecnick.com LTD - www.tecnick.com - info@tecnick.com
// License : GNU-LGPL v3 (http://www.gnu.org/copyleft/lesser.html)
// -------------------------------------------------------------------
// Copyright (C) 2010-2014 Nicola Asuni - Tecnick.com LTD
//
// This file is part of TCPDF software library.
//
// TCPDF is free software: you can redistribute it and/or modify it
// under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// TCPDF is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with TCPDF. If not, see <http://www.gnu.org/licenses/>.
//
// See LICENSE.TXT file for more information.
// -------------------------------------------------------------------
//
// DESCRIPTION :
//
// Class to create DataMatrix ECC 200 barcode arrays for TCPDF class.
// DataMatrix (ISO/IEC 16022:2006) is a 2-dimensional bar code.
//============================================================+
/**
* @file
* Class to create DataMatrix ECC 200 barcode arrays for TCPDF class.
* DataMatrix (ISO/IEC 16022:2006) is a 2-dimensional bar code.
*
* @package com.tecnick.tcpdf
* @author Nicola Asuni
* @version 1.0.008
*/
// custom definitions
if (!defined('DATAMATRIXDEFS')) {
/**
* Indicate that definitions for this class are set
*/
define('DATAMATRIXDEFS', true);
// -----------------------------------------------------
} // end of custom definitions
// #*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#*#
/**
* ASCII encoding: ASCII character 0 to 127 (1 byte per CW)
*/
define('ENC_ASCII', 0);
/**
* C40 encoding: Upper-case alphanumeric (3/2 bytes per CW)
*/
define('ENC_C40', 1);
/**
* TEXT encoding: Lower-case alphanumeric (3/2 bytes per CW)
*/
define('ENC_TXT', 2);
/**
* X12 encoding: ANSI X12 (3/2 byte per CW)
*/
define('ENC_X12', 3);
/**
* EDIFACT encoding: ASCII character 32 to 94 (4/3 bytes per CW)
*/
define('ENC_EDF', 4);
/**
* BASE 256 encoding: ASCII character 0 to 255 (1 byte per CW)
*/
define('ENC_BASE256', 5);
/**
* ASCII extended encoding: ASCII character 128 to 255 (1/2 byte per CW)
*/
define('ENC_ASCII_EXT', 6);
/**
* ASCII number encoding: ASCII digits (2 bytes per CW)
*/
define('ENC_ASCII_NUM', 7);
class Datamatrix {
/**
* Barcode array to be returned which is readable by Dinesh Rabara
* @protected
*/
protected $barcode_array = array();
/**
* Store last used encoding for data codewords.
* @protected
*/
protected $last_enc = ENC_ASCII;
/**
* Table of Data Matrix ECC 200 Symbol Attributes:<ul>
* <li>total matrix rows (including finder pattern)</li>
* <li>total matrix cols (including finder pattern)</li>
* <li>total matrix rows (without finder pattern)</li>
* <li>total matrix cols (without finder pattern)</li>
* <li>region data rows (with finder pattern)</li>
* <li>region data col (with finder pattern)</li>
* <li>region data rows (without finder pattern)</li>
* <li>region data col (without finder pattern)</li>
* <li>horizontal regions</li>
* <li>vertical regions</li>
* <li>regions</li>
* <li>data codewords</li>
* <li>error codewords</li>
* <li>blocks</li>
* <li>data codewords per block</li>
* <li>error codewords per block</li>
* </ul>
* @protected
*/
protected $symbattr = array(
// square form ---------------------------------------------------------------------------------------
array(0x00a, 0x00a, 0x008, 0x008, 0x00a, 0x00a, 0x008, 0x008, 0x001, 0x001, 0x001, 0x003, 0x005, 0x001, 0x003, 0x005), // 10x10
array(0x00c, 0x00c, 0x00a, 0x00a, 0x00c, 0x00c, 0x00a, 0x00a, 0x001, 0x001, 0x001, 0x005, 0x007, 0x001, 0x005, 0x007), // 12x12
array(0x00e, 0x00e, 0x00c, 0x00c, 0x00e, 0x00e, 0x00c, 0x00c, 0x001, 0x001, 0x001, 0x008, 0x00a, 0x001, 0x008, 0x00a), // 14x14
array(0x010, 0x010, 0x00e, 0x00e, 0x010, 0x010, 0x00e, 0x00e, 0x001, 0x001, 0x001, 0x00c, 0x00c, 0x001, 0x00c, 0x00c), // 16x16
array(0x012, 0x012, 0x010, 0x010, 0x012, 0x012, 0x010, 0x010, 0x001, 0x001, 0x001, 0x012, 0x00e, 0x001, 0x012, 0x00e), // 18x18
array(0x014, 0x014, 0x012, 0x012, 0x014, 0x014, 0x012, 0x012, 0x001, 0x001, 0x001, 0x016, 0x012, 0x001, 0x016, 0x012), // 20x20
array(0x016, 0x016, 0x014, 0x014, 0x016, 0x016, 0x014, 0x014, 0x001, 0x001, 0x001, 0x01e, 0x014, 0x001, 0x01e, 0x014), // 22x22
array(0x018, 0x018, 0x016, 0x016, 0x018, 0x018, 0x016, 0x016, 0x001, 0x001, 0x001, 0x024, 0x018, 0x001, 0x024, 0x018), // 24x24
array(0x01a, 0x01a, 0x018, 0x018, 0x01a, 0x01a, 0x018, 0x018, 0x001, 0x001, 0x001, 0x02c, 0x01c, 0x001, 0x02c, 0x01c), // 26x26
array(0x020, 0x020, 0x01c, 0x01c, 0x010, 0x010, 0x00e, 0x00e, 0x002, 0x002, 0x004, 0x03e, 0x024, 0x001, 0x03e, 0x024), // 32x32
array(0x024, 0x024, 0x020, 0x020, 0x012, 0x012, 0x010, 0x010, 0x002, 0x002, 0x004, 0x056, 0x02a, 0x001, 0x056, 0x02a), // 36x36
array(0x028, 0x028, 0x024, 0x024, 0x014, 0x014, 0x012, 0x012, 0x002, 0x002, 0x004, 0x072, 0x030, 0x001, 0x072, 0x030), // 40x40
array(0x02c, 0x02c, 0x028, 0x028, 0x016, 0x016, 0x014, 0x014, 0x002, 0x002, 0x004, 0x090, 0x038, 0x001, 0x090, 0x038), // 44x44
array(0x030, 0x030, 0x02c, 0x02c, 0x018, 0x018, 0x016, 0x016, 0x002, 0x002, 0x004, 0x0ae, 0x044, 0x001, 0x0ae, 0x044), // 48x48
array(0x034, 0x034, 0x030, 0x030, 0x01a, 0x01a, 0x018, 0x018, 0x002, 0x002, 0x004, 0x0cc, 0x054, 0x002, 0x066, 0x02a), // 52x52
array(0x040, 0x040, 0x038, 0x038, 0x010, 0x010, 0x00e, 0x00e, 0x004, 0x004, 0x010, 0x118, 0x070, 0x002, 0x08c, 0x038), // 64x64
array(0x048, 0x048, 0x040, 0x040, 0x012, 0x012, 0x010, 0x010, 0x004, 0x004, 0x010, 0x170, 0x090, 0x004, 0x05c, 0x024), // 72x72
array(0x050, 0x050, 0x048, 0x048, 0x014, 0x014, 0x012, 0x012, 0x004, 0x004, 0x010, 0x1c8, 0x0c0, 0x004, 0x072, 0x030), // 80x80
array(0x058, 0x058, 0x050, 0x050, 0x016, 0x016, 0x014, 0x014, 0x004, 0x004, 0x010, 0x240, 0x0e0, 0x004, 0x090, 0x038), // 88x88
array(0x060, 0x060, 0x058, 0x058, 0x018, 0x018, 0x016, 0x016, 0x004, 0x004, 0x010, 0x2b8, 0x110, 0x004, 0x0ae, 0x044), // 96x96
array(0x068, 0x068, 0x060, 0x060, 0x01a, 0x01a, 0x018, 0x018, 0x004, 0x004, 0x010, 0x330, 0x150, 0x006, 0x088, 0x038), // 104x104
array(0x078, 0x078, 0x06c, 0x06c, 0x014, 0x014, 0x012, 0x012, 0x006, 0x006, 0x024, 0x41a, 0x198, 0x006, 0x0af, 0x044), // 120x120
array(0x084, 0x084, 0x078, 0x078, 0x016, 0x016, 0x014, 0x014, 0x006, 0x006, 0x024, 0x518, 0x1f0, 0x008, 0x0a3, 0x03e), // 132x132
array(0x090, 0x090, 0x084, 0x084, 0x018, 0x018, 0x016, 0x016, 0x006, 0x006, 0x024, 0x616, 0x26c, 0x00a, 0x09c, 0x03e), // 144x144
// rectangular form (currently unused) ---------------------------------------------------------------------------
array(0x008, 0x012, 0x006, 0x010, 0x008, 0x012, 0x006, 0x010, 0x001, 0x001, 0x001, 0x005, 0x007, 0x001, 0x005, 0x007), // 8x18
array(0x008, 0x020, 0x006, 0x01c, 0x008, 0x010, 0x006, 0x00e, 0x001, 0x002, 0x002, 0x00a, 0x00b, 0x001, 0x00a, 0x00b), // 8x32
array(0x00c, 0x01a, 0x00a, 0x018, 0x00c, 0x01a, 0x00a, 0x018, 0x001, 0x001, 0x001, 0x010, 0x00e, 0x001, 0x010, 0x00e), // 12x26
array(0x00c, 0x024, 0x00a, 0x020, 0x00c, 0x012, 0x00a, 0x010, 0x001, 0x002, 0x002, 0x00c, 0x012, 0x001, 0x00c, 0x012), // 12x36
array(0x010, 0x024, 0x00e, 0x020, 0x010, 0x012, 0x00e, 0x010, 0x001, 0x002, 0x002, 0x020, 0x018, 0x001, 0x020, 0x018), // 16x36
array(0x010, 0x030, 0x00e, 0x02c, 0x010, 0x018, 0x00e, 0x016, 0x001, 0x002, 0x002, 0x031, 0x01c, 0x001, 0x031, 0x01c) // 16x48
);
/**
* Map encodation modes whit character sets.
* @protected
*/
protected $chset_id = array(ENC_C40 => 'C40', ENC_TXT => 'TXT', ENC_X12 => 'X12');
/**
* Basic set of charactes for each encodation mode.
* @protected
*/
protected $chset = array(
'C40' => array(// Basic set for C40 ----------------------------------------------------------------------------
'S1' => 0x00, 'S2' => 0x01, 'S3' => 0x02, 0x20 => 0x03, 0x30 => 0x04, 0x31 => 0x05, 0x32 => 0x06, 0x33 => 0x07, 0x34 => 0x08, 0x35 => 0x09, //
0x36 => 0x0a, 0x37 => 0x0b, 0x38 => 0x0c, 0x39 => 0x0d, 0x41 => 0x0e, 0x42 => 0x0f, 0x43 => 0x10, 0x44 => 0x11, 0x45 => 0x12, 0x46 => 0x13, //
0x47 => 0x14, 0x48 => 0x15, 0x49 => 0x16, 0x4a => 0x17, 0x4b => 0x18, 0x4c => 0x19, 0x4d => 0x1a, 0x4e => 0x1b, 0x4f => 0x1c, 0x50 => 0x1d, //
0x51 => 0x1e, 0x52 => 0x1f, 0x53 => 0x20, 0x54 => 0x21, 0x55 => 0x22, 0x56 => 0x23, 0x57 => 0x24, 0x58 => 0x25, 0x59 => 0x26, 0x5a => 0x27), //
'TXT' => array(// Basic set for TEXT ---------------------------------------------------------------------------
'S1' => 0x00, 'S2' => 0x01, 'S3' => 0x02, 0x20 => 0x03, 0x30 => 0x04, 0x31 => 0x05, 0x32 => 0x06, 0x33 => 0x07, 0x34 => 0x08, 0x35 => 0x09, //
0x36 => 0x0a, 0x37 => 0x0b, 0x38 => 0x0c, 0x39 => 0x0d, 0x61 => 0x0e, 0x62 => 0x0f, 0x63 => 0x10, 0x64 => 0x11, 0x65 => 0x12, 0x66 => 0x13, //
0x67 => 0x14, 0x68 => 0x15, 0x69 => 0x16, 0x6a => 0x17, 0x6b => 0x18, 0x6c => 0x19, 0x6d => 0x1a, 0x6e => 0x1b, 0x6f => 0x1c, 0x70 => 0x1d, //
0x71 => 0x1e, 0x72 => 0x1f, 0x73 => 0x20, 0x74 => 0x21, 0x75 => 0x22, 0x76 => 0x23, 0x77 => 0x24, 0x78 => 0x25, 0x79 => 0x26, 0x7a => 0x27), //
'SH1' => array(// Shift 1 set ----------------------------------------------------------------------------------
0x00 => 0x00, 0x01 => 0x01, 0x02 => 0x02, 0x03 => 0x03, 0x04 => 0x04, 0x05 => 0x05, 0x06 => 0x06, 0x07 => 0x07, 0x08 => 0x08, 0x09 => 0x09, //
0x0a => 0x0a, 0x0b => 0x0b, 0x0c => 0x0c, 0x0d => 0x0d, 0x0e => 0x0e, 0x0f => 0x0f, 0x10 => 0x10, 0x11 => 0x11, 0x12 => 0x12, 0x13 => 0x13, //
0x14 => 0x14, 0x15 => 0x15, 0x16 => 0x16, 0x17 => 0x17, 0x18 => 0x18, 0x19 => 0x19, 0x1a => 0x1a, 0x1b => 0x1b, 0x1c => 0x1c, 0x1d => 0x1d, //
0x1e => 0x1e, 0x1f => 0x1f), //
'SH2' => array(// Shift 2 set ----------------------------------------------------------------------------------
0x21 => 0x00, 0x22 => 0x01, 0x23 => 0x02, 0x24 => 0x03, 0x25 => 0x04, 0x26 => 0x05, 0x27 => 0x06, 0x28 => 0x07, 0x29 => 0x08, 0x2a => 0x09, //
0x2b => 0x0a, 0x2c => 0x0b, 0x2d => 0x0c, 0x2e => 0x0d, 0x2f => 0x0e, 0x3a => 0x0f, 0x3b => 0x10, 0x3c => 0x11, 0x3d => 0x12, 0x3e => 0x13, //
0x3f => 0x14, 0x40 => 0x15, 0x5b => 0x16, 0x5c => 0x17, 0x5d => 0x18, 0x5e => 0x19, 0x5f => 0x1a, 'F1' => 0x1b, 'US' => 0x1e), //
'S3C' => array(// Shift 3 set for C40 --------------------------------------------------------------------------
0x60 => 0x00, 0x61 => 0x01, 0x62 => 0x02, 0x63 => 0x03, 0x64 => 0x04, 0x65 => 0x05, 0x66 => 0x06, 0x67 => 0x07, 0x68 => 0x08, 0x69 => 0x09, //
0x6a => 0x0a, 0x6b => 0x0b, 0x6c => 0x0c, 0x6d => 0x0d, 0x6e => 0x0e, 0x6f => 0x0f, 0x70 => 0x10, 0x71 => 0x11, 0x72 => 0x12, 0x73 => 0x13, //
0x74 => 0x14, 0x75 => 0x15, 0x76 => 0x16, 0x77 => 0x17, 0x78 => 0x18, 0x79 => 0x19, 0x7a => 0x1a, 0x7b => 0x1b, 0x7c => 0x1c, 0x7d => 0x1d, //
0x7e => 0x1e, 0x7f => 0x1f),
'S3T' => array(// Shift 3 set for TEXT -------------------------------------------------------------------------
0x60 => 0x00, 0x41 => 0x01, 0x42 => 0x02, 0x43 => 0x03, 0x44 => 0x04, 0x45 => 0x05, 0x46 => 0x06, 0x47 => 0x07, 0x48 => 0x08, 0x49 => 0x09, //
0x4a => 0x0a, 0x4b => 0x0b, 0x4c => 0x0c, 0x4d => 0x0d, 0x4e => 0x0e, 0x4f => 0x0f, 0x50 => 0x10, 0x51 => 0x11, 0x52 => 0x12, 0x53 => 0x13, //
0x54 => 0x14, 0x55 => 0x15, 0x56 => 0x16, 0x57 => 0x17, 0x58 => 0x18, 0x59 => 0x19, 0x5a => 0x1a, 0x7b => 0x1b, 0x7c => 0x1c, 0x7d => 0x1d, //
0x7e => 0x1e, 0x7f => 0x1f), //
'X12' => array(// Set for X12 ----------------------------------------------------------------------------------
0x0d => 0x00, 0x2a => 0x01, 0x3e => 0x02, 0x20 => 0x03, 0x30 => 0x04, 0x31 => 0x05, 0x32 => 0x06, 0x33 => 0x07, 0x34 => 0x08, 0x35 => 0x09, //
0x36 => 0x0a, 0x37 => 0x0b, 0x38 => 0x0c, 0x39 => 0x0d, 0x41 => 0x0e, 0x42 => 0x0f, 0x43 => 0x10, 0x44 => 0x11, 0x45 => 0x12, 0x46 => 0x13, //
0x47 => 0x14, 0x48 => 0x15, 0x49 => 0x16, 0x4a => 0x17, 0x4b => 0x18, 0x4c => 0x19, 0x4d => 0x1a, 0x4e => 0x1b, 0x4f => 0x1c, 0x50 => 0x1d, //
0x51 => 0x1e, 0x52 => 0x1f, 0x53 => 0x20, 0x54 => 0x21, 0x55 => 0x22, 0x56 => 0x23, 0x57 => 0x24, 0x58 => 0x25, 0x59 => 0x26, 0x5a => 0x27) //
);
// -----------------------------------------------------------------------------
/**
* This is the class constructor.
* Creates a datamatrix object
* @param $code (string) Code to represent using Datamatrix.
* @public
*/
public function __construct($code) {
$barcode_array = array();
if ((is_null($code)) OR ($code == '\0') OR ($code == '')) {
return false;
}
// get data codewords
$cw = $this->getHighLevelEncoding($code);
// number of data codewords
$nd = count($cw);
// check size
if ($nd > 1558) {
return false;
}
// get minimum required matrix size.
foreach ($this->symbattr as $params) {
if ($params[11] >= $nd) {
break;
}
}
if ($params[11] < $nd) {
// too much data
return false;
} elseif ($params[11] > $nd) {
// add padding
if ($this->last_enc == ENC_EDF) {
// switch to ASCII encoding
$cw[] = 124;
++$nd;
} elseif (($this->last_enc != ENC_ASCII) AND ($this->last_enc != ENC_BASE256)) {
// switch to ASCII encoding
$cw[] = 254;
++$nd;
}
if ($params[11] > $nd) {
// add first pad
$cw[] = 129;
++$nd;
// add remaining pads
for ($i = $nd; $i <= $params[11]; ++$i) {
$cw[] = $this->get253StateCodeword(129, $i);
}
}
}
// add error correction codewords
$cw = $this->getErrorCorrection($cw, $params[13], $params[14], $params[15]);
// initialize empty arrays
$grid = array_fill(0, ($params[2] * $params[3]), 0);
// get placement map
$places = $this->getPlacemetMap($params[2], $params[3]);
// fill the grid with data
$grid = array();
$i = 0;
// region data row max index
$rdri = ($params[4] - 1);
// region data column max index
$rdci = ($params[5] - 1);
// for each vertical region
for ($vr = 0; $vr < $params[9]; ++$vr) {
// for each row on region
for ($r = 0; $r < $params[4]; ++$r) {
// get row
$row = (($vr * $params[4]) + $r);
// for each horizontal region
for ($hr = 0; $hr < $params[8]; ++$hr) {
// for each column on region
for ($c = 0; $c < $params[5]; ++$c) {
// get column
$col = (($hr * $params[5]) + $c);
// braw bits by case
if ($r == 0) {
// top finder pattern
if ($c % 2) {
$grid[$row][$col] = 0;
} else {
$grid[$row][$col] = 1;
}
} elseif ($r == $rdri) {
// bottom finder pattern
$grid[$row][$col] = 1;
} elseif ($c == 0) {
// left finder pattern
$grid[$row][$col] = 1;
} elseif ($c == $rdci) {
// right finder pattern
if ($r % 2) {
$grid[$row][$col] = 1;
} else {
$grid[$row][$col] = 0;
}
} else { // data bit
if ($places[$i] < 2) {
$grid[$row][$col] = $places[$i];
} else {
// codeword ID
$cw_id = (floor($places[$i] / 10) - 1);
// codeword BIT mask
$cw_bit = pow(2, (8 - ($places[$i] % 10)));
$grid[$row][$col] = (($cw[$cw_id] & $cw_bit) == 0) ? 0 : 1;
}
++$i;
}
}
}
}
}
$this->barcode_array['num_rows'] = $params[0];
$this->barcode_array['num_cols'] = $params[1];
$this->barcode_array['bcode'] = $grid;
}
/**
* Returns a barcode array which is readable by Dinesh Rabara
* @return array barcode array readable by Dinesh Rabara;
* @public
*/
public function getBarcodeArray() {
return $this->barcode_array;
}
/**
* Product of two numbers in a Power-of-Two Galois Field
* @param $a (int) first number to multiply.
* @param $b (int) second number to multiply.
* @param $log (array) Log table.
* @param $alog (array) Anti-Log table.
* @param $gf (array) Number of Factors of the Reed-Solomon polynomial.
* @return int product
* @protected
*/
protected function getGFProduct($a, $b, $log, $alog, $gf) {
if (($a == 0) OR ($b == 0)) {
return 0;
}
return $alog[($log[$a] + $log[$b]) % ($gf - 1)];
}
/**
* Add error correction codewords to data codewords array (ANNEX E).
* @param $wd (array) Array of datacodewords.
* @param $nb (int) Number of blocks.
* @param $nd (int) Number of data codewords per block.
* @param $nc (int) Number of correction codewords per block.
* @param $gf (int) numner of fields on log/antilog table (power of 2).
* @param $pp (int) The value of its prime modulus polynomial (301 for ECC200).
* @return array data codewords + error codewords
* @protected
*/
protected function getErrorCorrection($wd, $nb, $nd, $nc, $gf = 256, $pp = 301) {
// generate the log ($log) and antilog ($alog) tables
$log[0] = 0;
$alog[0] = 1;
for ($i = 1; $i < $gf; ++$i) {
$alog[$i] = ($alog[($i - 1)] * 2);
if ($alog[$i] >= $gf) {
$alog[$i] ^= $pp;
}
$log[$alog[$i]] = $i;
}
ksort($log);
// generate the polynomial coefficients (c)
$c = array_fill(0, ($nc + 1), 0);
$c[0] = 1;
for ($i = 1; $i <= $nc; ++$i) {
$c[$i] = $c[($i - 1)];
for ($j = ($i - 1); $j >= 1; --$j) {
$c[$j] = $c[($j - 1)] ^ $this->getGFProduct($c[$j], $alog[$i], $log, $alog, $gf);
}
$c[0] = $this->getGFProduct($c[0], $alog[$i], $log, $alog, $gf);
}
ksort($c);
// total number of data codewords
$num_wd = ($nb * $nd);
// total number of error codewords
$num_we = ($nb * $nc);
// for each block
for ($b = 0; $b < $nb; ++$b) {
// create interleaved data block
$block = array();
for ($n = $b; $n < $num_wd; $n += $nb) {
$block[] = $wd[$n];
}
// initialize error codewords
$we = array_fill(0, ($nc + 1), 0);
// calculate error correction codewords for this block
for ($i = 0; $i < $nd; ++$i) {
$k = ($we[0] ^ $block[$i]);
for ($j = 0; $j < $nc; ++$j) {
$we[$j] = ($we[($j + 1)] ^ $this->getGFProduct($k, $c[($nc - $j - 1)], $log, $alog, $gf));
}
}
// add error codewords at the end of data codewords
$j = 0;
for ($i = $b; $i < $num_we; $i += $nb) {
$wd[($num_wd + $i)] = $we[$j];
++$j;
}
}
// reorder codewords
ksort($wd);
return $wd;
}
/**
* Return the 253-state codeword
* @param $cwpad (int) Pad codeword.
* @param $cwpos (int) Number of data codewords from the beginning of encoded data.
* @return pad codeword
* @protected
*/
protected function get253StateCodeword($cwpad, $cwpos) {
$pad = ($cwpad + (((149 * $cwpos) % 253) + 1));
if ($pad > 254) {
$pad -= 254;
}
return $pad;
}
/**
* Return the 255-state codeword
* @param $cwpad (int) Pad codeword.
* @param $cwpos (int) Number of data codewords from the beginning of encoded data.
* @return pad codeword
* @protected
*/
protected function get255StateCodeword($cwpad, $cwpos) {
$pad = ($cwpad + (((149 * $cwpos) % 255) + 1));
if ($pad > 255) {
$pad -= 256;
}
return $pad;
}
/**
* Returns true if the char belongs to the selected mode
* @param $chr (int) Character (byte) to check.
* @param $mode (int) Current encoding mode.
* @return boolean true if the char is of the selected mode.
* @protected
*/
protected function isCharMode($chr, $mode) {
$status = false;
switch ($mode) {
case ENC_ASCII: { // ASCII character 0 to 127
$status = (($chr >= 0) AND ($chr <= 127));
break;
}
case ENC_C40: { // Upper-case alphanumeric
$status = (($chr == 32) OR (($chr >= 48) AND ($chr <= 57)) OR (($chr >= 65) AND ($chr <= 90)));
break;
}
case ENC_TXT: { // Lower-case alphanumeric
$status = (($chr == 32) OR (($chr >= 48) AND ($chr <= 57)) OR (($chr >= 97) AND ($chr <= 122)));
break;
}
case ENC_X12: { // ANSI X12
$status = (($chr == 13) OR ($chr == 42) OR ($chr == 62));
break;
}
case ENC_EDF: { // ASCII character 32 to 94
$status = (($chr >= 32) AND ($chr <= 94));
break;
}
case ENC_BASE256: { // Function character (FNC1, Structured Append, Reader Program, or Code Page)
$status = (($chr == 232) OR ($chr == 233) OR ($chr == 234) OR ($chr == 241));
break;
}
case ENC_ASCII_EXT: { // ASCII character 128 to 255
$status = (($chr >= 128) AND ($chr <= 255));
break;
}
case ENC_ASCII_NUM: { // ASCII digits
$status = (($chr >= 48) AND ($chr <= 57));
break;
}
}
return $status;
}
/**
* The look-ahead test scans the data to be encoded to find the best mode (Annex P - steps from J to S).
* @param $data (string) data to encode
* @param $pos (int) current position
* @param $mode (int) current encoding mode
* @return int encoding mode
* @protected
*/
protected function lookAheadTest($data, $pos, $mode) {
$data_length = strlen($data);
if ($pos >= $data_length) {
return $mode;
}
$charscount = 0; // count processed chars
// STEP J
if ($mode == ENC_ASCII) {
$numch = array(0, 1, 1, 1, 1, 1.25);
} else {
$numch = array(1, 2, 2, 2, 2, 2.25);
$numch[$mode] = 0;
}
while (true) {
// STEP K
if (($pos + $charscount) == $data_length) {
if ($numch[ENC_ASCII] <= ceil(min($numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256]))) {
return ENC_ASCII;
}
if ($numch[ENC_BASE256] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF]))) {
return ENC_BASE256;
}
if ($numch[ENC_EDF] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_BASE256]))) {
return ENC_EDF;
}
if ($numch[ENC_TXT] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256]))) {
return ENC_TXT;
}
if ($numch[ENC_X12] < ceil(min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_EDF], $numch[ENC_BASE256]))) {
return ENC_X12;
}
return ENC_C40;
}
// get char
$chr = ord($data{($pos + $charscount)});
$charscount++;
// STEP L
if ($this->isCharMode($chr, ENC_ASCII_NUM)) {
$numch[ENC_ASCII] += (1 / 2);
} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
$numch[ENC_ASCII] = ceil($numch[ENC_ASCII]);
$numch[ENC_ASCII] += 2;
} else {
$numch[ENC_ASCII] = ceil($numch[ENC_ASCII]);
$numch[ENC_ASCII] += 1;
}
// STEP M
if ($this->isCharMode($chr, ENC_C40)) {
$numch[ENC_C40] += (2 / 3);
} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
$numch[ENC_C40] += (8 / 3);
} else {
$numch[ENC_C40] += (4 / 3);
}
// STEP N
if ($this->isCharMode($chr, ENC_TXT)) {
$numch[ENC_TXT] += (2 / 3);
} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
$numch[ENC_TXT] += (8 / 3);
} else {
$numch[ENC_TXT] += (4 / 3);
}
// STEP O
if ($this->isCharMode($chr, ENC_X12) OR $this->isCharMode($chr, ENC_C40)) {
$numch[ENC_X12] += (2 / 3);
} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
$numch[ENC_X12] += (13 / 3);
} else {
$numch[ENC_X12] += (10 / 3);
}
// STEP P
if ($this->isCharMode($chr, ENC_EDF)) {
$numch[ENC_EDF] += (3 / 4);
} elseif ($this->isCharMode($chr, ENC_ASCII_EXT)) {
$numch[ENC_EDF] += (17 / 4);
} else {
$numch[ENC_EDF] += (13 / 4);
}
// STEP Q
if ($this->isCharMode($chr, ENC_BASE256)) {
$numch[ENC_BASE256] += 4;
} else {
$numch[ENC_BASE256] += 1;
}
// STEP R
if ($charscount >= 4) {
if (($numch[ENC_ASCII] + 1) <= min($numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256])) {
return ENC_ASCII;
}
if ((($numch[ENC_BASE256] + 1) <= $numch[ENC_ASCII])
OR (($numch[ENC_BASE256] + 1) < min($numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_EDF]))) {
return ENC_BASE256;
}
if (($numch[ENC_EDF] + 1) < min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_X12], $numch[ENC_BASE256])) {
return ENC_EDF;
}
if (($numch[ENC_TXT] + 1) < min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_X12], $numch[ENC_EDF], $numch[ENC_BASE256])) {
return ENC_TXT;
}
if (($numch[ENC_X12] + 1) < min($numch[ENC_ASCII], $numch[ENC_C40], $numch[ENC_TXT], $numch[ENC_EDF], $numch[ENC_BASE256])) {
return ENC_X12;
}
if (($numch[ENC_C40] + 1) < min($numch[ENC_ASCII], $numch[ENC_TXT], $numch[ENC_EDF], $numch[ENC_BASE256])) {
if ($numch[ENC_C40] < $numch[ENC_X12]) {
return ENC_C40;
}
if ($numch[ENC_C40] == $numch[ENC_X12]) {
$k = ($pos + $charscount + 1);
while ($k < $data_length) {
$tmpchr = ord($data{$k});
if ($this->isCharMode($tmpchr, ENC_X12)) {
return ENC_X12;
} elseif (!($this->isCharMode($tmpchr, ENC_X12) OR $this->isCharMode($tmpchr, ENC_C40))) {
break;
}
++$k;
}
return ENC_C40;
}
}
}
} // end of while
}
/**
* Get the switching codeword to a new encoding mode (latch codeword)
* @param $mode (int) New encoding mode.
* @return (int) Switch codeword.
* @protected
*/
protected function getSwitchEncodingCodeword($mode) {
switch ($mode) {
case ENC_ASCII: { // ASCII character 0 to 127
$cw = 254;
break;
}
case ENC_C40: { // Upper-case alphanumeric
$cw = 230;
break;
}
case ENC_TXT: { // Lower-case alphanumeric
$cw = 239;
break;
}
case ENC_X12: { // ANSI X12
$cw = 238;
break;
}
case ENC_EDF: { // ASCII character 32 to 94
$cw = 240;
break;
}
case ENC_BASE256: { // Function character (FNC1, Structured Append, Reader Program, or Code Page)
$cw = 231;
break;
}
}
return $cw;
}
/**
* Choose the minimum matrix size and return the max number of data codewords.
* @param $numcw (int) Number of current codewords.
* @return number of data codewords in matrix
* @protected
*/
protected function getMaxDataCodewords($numcw) {
foreach ($this->symbattr as $key => $matrix) {
if ($matrix[11] >= $numcw) {
return $matrix[11];
}
}
return 0;
}
/**
* Get high level encoding using the minimum symbol data characters for ECC 200
* @param $data (string) data to encode
* @return array of codewords
* @protected
*/
protected function getHighLevelEncoding($data) {
// STEP A. Start in ASCII encodation.
$enc = ENC_ASCII; // current encoding mode
$pos = 0; // current position
$cw = array(); // array of codewords to be returned
$cw_num = 0; // number of data codewords
$data_lenght = strlen($data); // number of chars
while ($pos < $data_lenght) {
switch ($enc) {
case ENC_ASCII: { // STEP B. While in ASCII encodation
if (($data_lenght > 1) AND ($pos < ($data_lenght - 1)) AND ($this->isCharMode(ord($data{($pos)}), ENC_ASCII_NUM) AND $this->isCharMode(ord($data{($pos + 1)}), ENC_ASCII_NUM))) {
// 1. If the next data sequence is at least 2 consecutive digits, encode the next two digits as a double digit in ASCII mode.
$cw[] = (intval(substr($data, $pos, 2)) + 130);
++$cw_num;
$pos += 2;
} else {
// 2. If the look-ahead test (starting at step J) indicates another mode, switch to that mode.
$newenc = $this->lookAheadTest($data, $pos, $enc);
if ($newenc != $enc) {
// switch to new encoding
$enc = $newenc;
$cw[] = $this->getSwitchEncodingCodeword($enc);
++$cw_num;
} else {
// get new byte
$chr = ord($data{($pos)});
++$pos;
if ($this->isCharMode($chr, ENC_ASCII_EXT)) {
// 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.
$cw[] = 235;
$cw[] = ($chr - 127);
$cw_num += 2;
} else {
// 4. Otherwise process the next data character in ASCII encodation.
$cw[] = ($chr + 1);
++$cw_num;
}
}
}
break;
}
case ENC_C40 : // Upper-case alphanumeric
case ENC_TXT : // Lower-case alphanumeric
case ENC_X12 : { // ANSI X12
$temp_cw = array();
$p = 0;
$epos = $pos;
// get charset ID
$set_id = $this->chset_id[$enc];
// get basic charset for current encoding
$charset = $this->chset[$set_id];
do {
// 2. process the next character in C40 encodation.
$chr = ord($data{($epos)});
++$epos;
// check for extended character
if ($chr & 0x80) {
if ($enc == ENC_X12) {
return false;
}
$chr = ($chr & 0x7f);
$temp_cw[] = 1; // shift 2
$temp_cw[] = 30; // upper shift
$p += 2;
}
if (isset($charset[$chr])) {
$temp_cw[] = $charset[$chr];
++$p;
} else {
if (isset($this->chset['SH1'][$chr])) {
$temp_cw[] = 0; // shift 1
$shiftset = $this->chset['SH1'];
} elseif (isset($chr, $this->chset['SH2'][$chr])) {
$temp_cw[] = 1; // shift 2
$shiftset = $this->chset['SH2'];
} elseif (($enc == ENC_C40) AND isset($this->chset['S3C'][$chr])) {
$temp_cw[] = 2; // shift 3
$shiftset = $this->chset['S3C'];
} elseif (($enc == ENC_TXT) AND isset($this->chset['S3T'][$chr])) {
$temp_cw[] = 2; // shift 3
$shiftset = $this->chset['S3T'];
} else {
return false;
}
$temp_cw[] = $shiftset[$chr];
$p += 2;
}
if ($p >= 3) {
$c1 = array_shift($temp_cw);
$c2 = array_shift($temp_cw);
$c3 = array_shift($temp_cw);
$p -= 3;
$tmp = ((1600 * $c1) + (40 * $c2) + $c3 + 1);
$cw[] = ($tmp >> 8);
$cw[] = ($tmp % 256);
$cw_num += 2;
$pos = $epos;
// 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.
$newenc = $this->lookAheadTest($data, $pos, $enc);
if ($newenc != $enc) {
$enc = $newenc;
$cw[] = $this->getSwitchEncodingCodeword($enc);
++$cw_num;
break;
}
}
} while (($p > 0) AND ($epos < $data_lenght));
// process last data (if any)
if ($p > 0) {
// get remaining number of data symbols
$cwr = ($this->getMaxDataCodewords($cw_num + 2) - $cw_num);
if (($cwr == 1) AND ($p == 1)) {
// d. If one symbol character remains and one C40 value (data character) remains to be encoded
$c1 = array_shift($temp_cw);
--$p;
$cw[] = ($c1 + 1);
++$cw_num;
} elseif (($cwr == 2) AND ($p == 1)) {
// c. If two symbol characters remain and only one C40 value (data character) remains to be encoded
$c1 = array_shift($temp_cw);
--$p;
$cw[] = 254;
$cw[] = ($c1 + 1);
$cw_num += 2;
} elseif (($cwr == 2) AND ($p == 2)) {
// b. If two symbol characters remain and two C40 values remain to be encoded
$c1 = array_shift($temp_cw);
$c2 = array_shift($temp_cw);
$p -= 2;
$tmp = ((1600 * $c1) + (40 * $c2) + 1);
$cw[] = ($tmp >> 8);
$cw[] = ($tmp % 256);
$cw_num += 2;
} else {
// switch to ASCII encoding
$enc = ENC_ASCII;
$cw[] = $this->getSwitchEncodingCodeword($enc);
++$cw_num;
}
}
break;
}
case ENC_EDF: { // F. While in EDIFACT (EDF) encodation
// initialize temporary array with 0 lenght
$temp_cw = array();
$epos = $pos;
$field_lenght = 0;
while ($epos < $data_lenght) {
// 2. process the next character in EDIFACT encodation.
$chr = ord($data{($epos)});
++$epos;
$temp_cw[] = $chr;
++$field_lenght;
if (($field_lenght == 4) OR ($epos == $data_lenght)) {
if ($field_lenght < 4) {
// set unlatch character
$temp_cw[] = 0x1f;
++$field_lenght;
$enc = ENC_ASCII;
// fill empty characters
for ($i = $field_lenght; $i < 4; ++$i) {
$temp_cw[] = 0;
}
}
// encodes four data characters in three codewords
$cw[] = (($temp_cw[0] & 0x3F) << 2) + (($temp_cw[1] & 0x30) >> 4);
$cw[] = (($temp_cw[1] & 0x0F) << 4) + (($temp_cw[2] & 0x3C) >> 2);
$cw[] = (($temp_cw[2] & 0x03) << 6) + ($temp_cw[3] & 0x3F);
$cw_num += 3;
$temp_cw = array();
$pos = $epos;
$field_lenght = 0;
}
// 1. If the EDIFACT encoding is at the point of starting a new triple symbol character and if the look-ahead test (starting at step J) indicates another mode, switch to that mode.
if ($field_lenght == 0) {
// get remaining number of data symbols
$cwr = ($this->getMaxDataCodewords($cw_num + 2) - $cw_num);
if ($cwr < 3) {
// return to ascii without unlatch
$enc = ENC_ASCII;
break; // exit from EDIFACT mode
} else {
$newenc = $this->lookAheadTest($data, $pos, $enc);
if ($newenc != $enc) {
// 1. If the look-ahead test (starting at step J) indicates another mode, switch to that mode.
$enc = $newenc;
$cw[] = $this->getSwitchEncodingCodeword($enc);
++$cw_num;
break; // exit from EDIFACT mode
}
}
}
}
break;
}
case ENC_BASE256: { // G. While in Base 256 (B256) encodation
// initialize temporary array with 0 lenght
$temp_cw = array();
$field_lenght = 0;
while (($pos < $data_lenght) AND ($field_lenght <= 1555)) {
$newenc = $this->lookAheadTest($data, $pos, $enc);
if ($newenc != $enc) {
// 1. If the look-ahead test (starting at step J) indicates another mode, switch to that mode.
$enc = $newenc;
$cw[] = $this->getSwitchEncodingCodeword($enc);
++$cw_num;
break; // exit from B256 mode
} else {
// 2. Otherwise, process the next character in Base 256 encodation.
$chr = ord($data{($pos)});
++$pos;
$temp_cw[] = $chr;
++$field_lenght;
}
}
// set field lenght
if ($field_lenght <= 249) {
$cw[] = $field_lenght;
++$cw_num;
} else {
$cw[] = (floor($field_lenght / 250) + 249);
$cw[] = ($field_lenght % 250);
$cw_num += 2;
}
if (!empty($temp_cw)) {
// add B256 field
foreach ($temp_cw as $p => $cht) {
$cw[] = $this->get255StateCodeword($chr, ($cw_num + $p));
}
}
break;
}
} // end of switch enc
} // end of while
// set last used encoding
$this->last_enc = $enc;
return $cw;
}
/**
* Places "chr+bit" with appropriate wrapping within array[].
* (Annex F - ECC 200 symbol character placement)
* @param $marr (array) Array of symbols.
* @param $nrow (int) Number of rows.
* @param $ncol (int) Number of columns.
* @param $row (int) Row number.
* @param $col (int) Column number.
* @param $chr (int) Char byte.
* @param $bit (int) Bit.
* @return array
* @protected
*/
protected function placeModule($marr, $nrow, $ncol, $row, $col, $chr, $bit) {
if ($row < 0) {
$row += $nrow;
$col += (4 - (($nrow + 4) % 8));
}
if ($col < 0) {
$col += $ncol;
$row += (4 - (($ncol + 4) % 8));
}
$marr[(($row * $ncol) + $col)] = ((10 * $chr) + $bit);
return $marr;
}
/**
* Places the 8 bits of a utah-shaped symbol character.
* (Annex F - ECC 200 symbol character placement)
* @param $marr (array) Array of symbols.
* @param $nrow (int) Number of rows.
* @param $ncol (int) Number of columns.
* @param $row (int) Row number.
* @param $col (int) Column number.
* @param $chr (int) Char byte.
* @return array
* @protected
*/
protected function placeUtah($marr, $nrow, $ncol, $row, $col, $chr) {
$marr = $this->placeModule($marr, $nrow, $ncol, $row - 2, $col - 2, $chr, 1);
$marr = $this->placeModule($marr, $nrow, $ncol, $row - 2, $col - 1, $chr, 2);
$marr = $this->placeModule($marr, $nrow, $ncol, $row - 1, $col - 2, $chr, 3);
$marr = $this->placeModule($marr, $nrow, $ncol, $row - 1, $col - 1, $chr, 4);
$marr = $this->placeModule($marr, $nrow, $ncol, $row - 1, $col, $chr, 5);
$marr = $this->placeModule($marr, $nrow, $ncol, $row, $col - 2, $chr, 6);
$marr = $this->placeModule($marr, $nrow, $ncol, $row, $col - 1, $chr, 7);
$marr = $this->placeModule($marr, $nrow, $ncol, $row, $col, $chr, 8);
return $marr;
}
/**
* Places the 8 bits of the first special corner case.
* (Annex F - ECC 200 symbol character placement)
* @param $marr (array) Array of symbols.
* @param $nrow (int) Number of rows.
* @param $ncol (int) Number of columns.
* @param $chr (int) Char byte.
* @return array
* @protected
*/
protected function placeCornerA($marr, $nrow, $ncol, $chr) {
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 1, 0, $chr, 1);
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 1, 1, $chr, 2);
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 1, 2, $chr, 3);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 2, $chr, 4);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 1, $chr, 5);
$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol - 1, $chr, 6);
$marr = $this->placeModule($marr, $nrow, $ncol, 2, $ncol - 1, $chr, 7);
$marr = $this->placeModule($marr, $nrow, $ncol, 3, $ncol - 1, $chr, 8);
return $marr;
}
/**
* Places the 8 bits of the second special corner case.
* (Annex F - ECC 200 symbol character placement)
* @param $marr (array) Array of symbols.
* @param $nrow (int) Number of rows.
* @param $ncol (int) Number of columns.
* @param $chr (int) Char byte.
* @return array
* @protected
*/
protected function placeCornerB($marr, $nrow, $ncol, $chr) {
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 3, 0, $chr, 1);
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 2, 0, $chr, 2);
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 1, 0, $chr, 3);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 4, $chr, 4);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 3, $chr, 5);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 2, $chr, 6);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 1, $chr, 7);
$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol - 1, $chr, 8);
return $marr;
}
/**
* Places the 8 bits of the third special corner case.
* (Annex F - ECC 200 symbol character placement)
* @param $marr (array) Array of symbols.
* @param $nrow (int) Number of rows.
* @param $ncol (int) Number of columns.
* @param $chr (int) Char byte.
* @return array
* @protected
*/
protected function placeCornerC($marr, $nrow, $ncol, $chr) {
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 3, 0, $chr, 1);
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 2, 0, $chr, 2);
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 1, 0, $chr, 3);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 2, $chr, 4);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 1, $chr, 5);
$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol - 1, $chr, 6);
$marr = $this->placeModule($marr, $nrow, $ncol, 2, $ncol - 1, $chr, 7);
$marr = $this->placeModule($marr, $nrow, $ncol, 3, $ncol - 1, $chr, 8);
return $marr;
}
/**
* Places the 8 bits of the fourth special corner case.
* (Annex F - ECC 200 symbol character placement)
* @param $marr (array) Array of symbols.
* @param $nrow (int) Number of rows.
* @param $ncol (int) Number of columns.
* @param $chr (int) Char byte.
* @return array
* @protected
*/
protected function placeCornerD($marr, $nrow, $ncol, $chr) {
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 1, 0, $chr, 1);
$marr = $this->placeModule($marr, $nrow, $ncol, $nrow - 1, $ncol - 1, $chr, 2);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 3, $chr, 3);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 2, $chr, 4);
$marr = $this->placeModule($marr, $nrow, $ncol, 0, $ncol - 1, $chr, 5);
$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol - 3, $chr, 6);
$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol - 2, $chr, 7);
$marr = $this->placeModule($marr, $nrow, $ncol, 1, $ncol - 1, $chr, 8);
return $marr;
}
/**
* Build a placement map.
* (Annex F - ECC 200 symbol character placement)
* @param $nrow (int) Number of rows.
* @param $ncol (int) Number of columns.
* @return array
* @protected
*/
protected function getPlacemetMap($nrow, $ncol) {
// initialize array with zeros
$marr = array_fill(0, ($nrow * $ncol), 0);
// set starting values
$chr = 1;
$row = 4;
$col = 0;
do {
// repeatedly first check for one of the special corner cases, then
if (($row == $nrow) AND ($col == 0)) {
$marr = $this->placeCornerA($marr, $nrow, $ncol, $chr);
++$chr;
}
if (($row == ($nrow - 2)) AND ($col == 0) AND ($ncol % 4)) {
$marr = $this->placeCornerB($marr, $nrow, $ncol, $chr);
++$chr;
}
if (($row == ($nrow - 2)) AND ($col == 0) AND (($ncol % 8) == 4)) {
$marr = $this->placeCornerC($marr, $nrow, $ncol, $chr);
++$chr;
}
if (($row == ($nrow + 4)) AND ($col == 2) AND (!($ncol % 8))) {
$marr = $this->placeCornerD($marr, $nrow, $ncol, $chr);
++$chr;
}
// sweep upward diagonally, inserting successive characters,
do {
if (($row < $nrow) AND ($col >= 0) AND (!$marr[(($row * $ncol) + $col)])) {
$marr = $this->placeUtah($marr, $nrow, $ncol, $row, $col, $chr);
++$chr;
}
$row -= 2;
$col += 2;
} while (($row >= 0) AND ($col < $ncol));
++$row;
$col += 3;
// & then sweep downward diagonally, inserting successive characters,...
do {
if (($row >= 0) AND ($col < $ncol) AND (!$marr[(($row * $ncol) + $col)])) {
$marr = $this->placeUtah($marr, $nrow, $ncol, $row, $col, $chr);
++$chr;
}
$row += 2;
$col -= 2;
} while (($row < $nrow) AND ($col >= 0));
$row += 3;
++$col;
// ... until the entire array is scanned
} while (($row < $nrow) OR ($col < $ncol));
// lastly, if the lower righthand corner is untouched, fill in fixed pattern
if (!$marr[(($nrow * $ncol) - 1)]) {
$marr[(($nrow * $ncol) - 1)] = 1;
$marr[(($nrow * $ncol) - $ncol - 2)] = 1;
}
return $marr;
}
}
// end DataMatrix class
//============================================================+
// END OF FILE
//============================================================+
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