zint/backend/gridmtx.c

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/* gridmtx.c - Grid Matrix
libzint - the open source barcode library
Copyright (C) 2009 Robin Stuart <robin@zint.org.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
/* This file impliments Grid Matrix as specified in
AIM Global Document Number AIMD014 Rev. 1.63 Revised 9 Dec 2008 */
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#ifdef _MSC_VER
#include <malloc.h>
#endif
#include "common.h"
#include "reedsol.h"
#include "gridmtx.h"
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#include "gb2312.h"
int number_lat(int gbdata[], int length, int position)
{
/* Attempt to calculate the 'cost' of using numeric mode from a given position in number of bits */
/* Also ensures that numeric mode is not selected when it cannot be used: for example in
a string which has "2.2.0" (cannot have more than one non-numeric character for each
block of three numeric characters) */
int sp;
int numb = 0, nonum = 0, done;
int tally = 0;
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sp = position;
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do {
done = 0;
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if((gbdata[sp] >= '0') && (gbdata[sp] <= '9')) { numb++; done = 1; }
switch(gbdata[sp]) {
case ' ':
case '+':
case '-':
case '.':
case ',':
nonum++;
done = 1;
}
if((sp + 1) < length) {
if((gbdata[sp] == 0x13) && (gbdata[sp + 1] == 0x10)) {
nonum++;
done = 1;
sp++;
}
}
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if(done == 0) {
tally += 80;
} else {
if(numb == 3) {
if(nonum == 0) {
tally += 10;
}
if(nonum == 1) {
tally += 20;
}
if(nonum > 1) {
tally += 80;
}
numb = 0;
nonum = 0;
}
}
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sp++;
} while ((sp < length) && (sp <= (position + 8)));
if(numb == 0) {
tally += 80;
}
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if(numb > 1) {
if(nonum == 0) {
tally += 10;
}
if(nonum == 1) {
tally += 20;
}
if(nonum > 1) {
tally += 80;
}
}
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return tally;
}
int seek_forward(int gbdata[], int length, int position, int current_mode)
{
/* In complete contrast to the method recommended in Annex D of the ANSI standard this
code uses a look-ahead test in the same manner as Data Matrix. This decision was made
because the "official" algorithm does not provide clear methods for dealing with all
possible combinations of input data */
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int number_count, byte_count, mixed_count, upper_count, lower_count, chinese_count;
int sp, best_mode, done;
int best_count, last = -1;
int debug = 0;
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if(gbdata[position] > 0xff) { return GM_CHINESE; }
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switch(current_mode) {
case GM_CHINESE:
number_count = 13;
byte_count = 13;
mixed_count = 13;
upper_count = 13;
lower_count = 13;
chinese_count = 0;
break;
case GM_NUMBER:
number_count = 0;
byte_count = 10;
mixed_count = 10;
upper_count = 10;
lower_count = 10;
chinese_count = 10;
break;
case GM_LOWER:
number_count = 5;
byte_count = 7;
mixed_count = 7;
upper_count = 5;
lower_count = 0;
chinese_count = 5;
break;
case GM_UPPER:
number_count = 5;
byte_count = 7;
mixed_count = 7;
upper_count = 0;
lower_count = 5;
chinese_count = 5;
break;
case GM_MIXED:
number_count = 10;
byte_count = 10;
mixed_count = 0;
upper_count = 10;
lower_count = 10;
chinese_count = 10;
break;
case GM_BYTE:
number_count = 4;
byte_count = 0;
mixed_count = 4;
upper_count = 4;
lower_count = 4;
chinese_count = 4;
break;
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default: /* Start of symbol */
number_count = 4;
byte_count = 4;
mixed_count = 4;
upper_count = 4;
lower_count = 4;
chinese_count = 4;
}
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for(sp = position; (sp < length) && (sp <= (position + 8)); sp++) {
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done = 0;
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if(gbdata[sp] >= 0xff) {
byte_count += 17;
mixed_count += 23;
upper_count += 18;
lower_count += 18;
chinese_count += 13;
done = 1;
}
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if((gbdata[sp] >= 'a') && (gbdata[sp] <= 'z')) {
byte_count += 8;
mixed_count += 6;
upper_count += 10;
lower_count += 5;
chinese_count += 13;
done = 1;
}
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if((gbdata[sp] >= 'A') && (gbdata[sp] <= 'Z')) {
byte_count += 8;
mixed_count += 6;
upper_count += 5;
lower_count += 10;
chinese_count += 13;
done = 1;
}
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if((gbdata[sp] >= '0') && (gbdata[sp] <= '9')) {
byte_count += 8;
mixed_count += 6;
upper_count += 8;
lower_count += 8;
chinese_count += 13;
done = 1;
}
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if(gbdata[sp] == ' ') {
byte_count += 8;
mixed_count += 6;
upper_count += 5;
lower_count += 5;
chinese_count += 13;
done = 1;
}
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if(done == 0) {
/* Control character */
byte_count += 8;
mixed_count += 16;
upper_count += 13;
lower_count += 13;
chinese_count += 13;
}
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if(gbdata[sp] >= 0x7f) {
mixed_count += 20;
upper_count += 20;
lower_count += 20;
}
}
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/* Adjust for <end of line> */
for(sp = position; (sp < (length - 1)) && (sp <= (position + 7)); sp++) {
if((gbdata[sp] == 0x13) && (gbdata[sp] == 0x10)) {
chinese_count -= 13;
}
}
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/* Adjust for double digits */
for(sp = position; (sp < (length - 1)) && (sp <= (position + 7)); sp++) {
if(sp != last) {
if(((gbdata[sp] >= '0') && (gbdata[sp] <= '9')) && ((gbdata[sp + 1] >= '0') && (gbdata[sp + 1] <= '9'))) {
chinese_count -= 13;
last = sp + 1;
}
}
}
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/* Numeric mode is more complex */
number_count += number_lat(gbdata, length, position);
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if(debug) { printf("C %d / B %d / M %d / U %d / L %d / N %d\n", chinese_count, byte_count, mixed_count, upper_count, lower_count, number_count); }
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best_count = chinese_count;
best_mode = GM_CHINESE;
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if(byte_count <= best_count) {
best_count = byte_count;
best_mode = GM_BYTE;
}
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if(mixed_count <= best_count) {
best_count = mixed_count;
best_mode = GM_MIXED;
}
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if(upper_count <= best_count) {
best_count = upper_count;
best_mode = GM_UPPER;
}
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if(lower_count <= best_count) {
best_count = lower_count;
best_mode = GM_LOWER;
}
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if(number_count <= best_count) {
best_count = number_count;
best_mode = GM_NUMBER;
}
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return best_mode;
}
void add_byte_count(char binary[], int byte_count_posn, int byte_count)
{
/* Add the length indicator for byte encoded blocks */
if(byte_count & 0x100) { binary[byte_count_posn] = '0'; } else { binary[byte_count_posn] = '1'; }
if(byte_count & 0x80) { binary[byte_count_posn + 1] = '0'; } else { binary[byte_count_posn + 1] = '1'; }
if(byte_count & 0x40) { binary[byte_count_posn + 2] = '0'; } else { binary[byte_count_posn + 2] = '1'; }
if(byte_count & 0x20) { binary[byte_count_posn + 3] = '0'; } else { binary[byte_count_posn + 3] = '1'; }
if(byte_count & 0x10) { binary[byte_count_posn + 4] = '0'; } else { binary[byte_count_posn + 4] = '1'; }
if(byte_count & 0x08) { binary[byte_count_posn + 5] = '0'; } else { binary[byte_count_posn + 5] = '1'; }
if(byte_count & 0x04) { binary[byte_count_posn + 6] = '0'; } else { binary[byte_count_posn + 6] = '1'; }
if(byte_count & 0x02) { binary[byte_count_posn + 7] = '0'; } else { binary[byte_count_posn + 7] = '1'; }
if(byte_count & 0x01) { binary[byte_count_posn + 8] = '0'; } else { binary[byte_count_posn + 8] = '1'; }
}
void add_shift_char(char binary[], int shifty)
{
/* Add a control character to the data stream */
int i, debug = 0;
int glyph = 0;
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for(i = 0; i < 64; i++) {
if(shift_set[i] == shifty) {
glyph = i;
}
}
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if(debug) { printf("SHIFT [%d] ", glyph); }
if(glyph & 0x20) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
}
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int gm_encode(int gbdata[], int length, char binary[], int reader)
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{
/* Create a binary stream representation of the input data.
7 sets are defined - Chinese characters, Numerals, Lower case letters, Upper case letters,
Mixed numerals and latters, Control characters and 8-bit binary data */
int sp, current_mode, next_mode, last_mode, glyph = 0;
int c1, c2, done;
int p = 0, ppos;
int numbuf[3], punt = 0;
int number_pad_posn, debug = 0;
int byte_count_posn = 0, byte_count = 0;
int shift, i;
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strcpy(binary, "");
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sp = 0;
current_mode = 0;
last_mode = 0;
number_pad_posn = 0;
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if(reader) {
concat(binary, "1010"); /* FNC3 - Reader Initialisation */
}
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do {
next_mode = seek_forward(gbdata, length, sp, current_mode);
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if(next_mode != current_mode) {
switch(current_mode) {
case 0:
switch(next_mode) {
case GM_CHINESE: concat(binary, "0001"); break;
case GM_NUMBER: concat(binary, "0010"); break;
case GM_LOWER: concat(binary, "0011"); break;
case GM_UPPER: concat(binary, "0100"); break;
case GM_MIXED: concat(binary, "0101"); break;
case GM_BYTE: concat(binary, "0111"); break;
}
break;
case GM_CHINESE:
switch(next_mode) {
case GM_NUMBER: concat(binary, "1111111100001"); break; // 8161
case GM_LOWER: concat(binary, "1111111100010"); break; // 8162
case GM_UPPER: concat(binary, "1111111100011"); break; // 8163
case GM_MIXED: concat(binary, "1111111100100"); break; // 8164
case GM_BYTE: concat(binary, "1111111100101"); break; // 8165
}
break;
case GM_NUMBER:
/* add numeric block padding value */
switch(p) {
case 1: binary[number_pad_posn] = '1'; binary[number_pad_posn + 1] = '0'; break; // 2 pad digits
case 2: binary[number_pad_posn] = '0'; binary[number_pad_posn + 1] = '1'; break; // 1 pad digit
case 3: binary[number_pad_posn] = '0'; binary[number_pad_posn + 1] = '0'; break; // 0 pad digits
}
switch(next_mode) {
case GM_CHINESE: concat(binary, "1111111011"); break; // 1019
case GM_LOWER: concat(binary, "1111111100"); break; // 1020
case GM_UPPER: concat(binary, "1111111101"); break; // 1021
case GM_MIXED: concat(binary, "1111111110"); break; // 1022
case GM_BYTE: concat(binary, "1111111111"); break; // 1023
}
break;
case GM_LOWER:
case GM_UPPER:
switch(next_mode) {
case GM_CHINESE: concat(binary, "11100"); break; // 28
case GM_NUMBER: concat(binary, "11101"); break; // 29
case GM_LOWER:
case GM_UPPER: concat(binary, "11110"); break; // 30
case GM_MIXED: concat(binary, "1111100"); break; // 124
case GM_BYTE: concat(binary, "1111110"); break; // 126
}
break;
case GM_MIXED:
switch(next_mode) {
case GM_CHINESE: concat(binary, "1111110001"); break; // 1009
case GM_NUMBER: concat(binary, "1111110010"); break; // 1010
case GM_LOWER: concat(binary, "1111110011"); break; // 1011
case GM_UPPER: concat(binary, "1111110100"); break; // 1012
case GM_BYTE: concat(binary, "1111110111"); break; // 1015
}
break;
case GM_BYTE:
/* add byte block length indicator */
add_byte_count(binary, byte_count_posn, byte_count);
byte_count = 0;
switch(next_mode) {
case GM_CHINESE: concat(binary, "0001"); break; // 1
case GM_NUMBER: concat(binary, "0010"); break; // 2
case GM_LOWER: concat(binary, "0011"); break; // 3
case GM_UPPER: concat(binary, "0100"); break; // 4
case GM_MIXED: concat(binary, "0101"); break; // 5
}
break;
}
if(debug) {
switch(next_mode) {
case GM_CHINESE: printf("CHIN "); break;
case GM_NUMBER: printf("NUMB "); break;
case GM_LOWER: printf("LOWR "); break;
case GM_UPPER: printf("UPPR "); break;
case GM_MIXED: printf("MIXD "); break;
case GM_BYTE: printf("BYTE "); break;
}
}
}
last_mode = current_mode;
current_mode = next_mode;
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switch(current_mode) {
case GM_CHINESE:
done = 0;
if(gbdata[sp] > 0xff) {
/* GB2312 character */
c1 = (gbdata[sp] & 0xff00) >> 8;
c2 = gbdata[sp] & 0xff;
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if((c1 >= 0xa0) && (c1 <= 0xa9)) {
glyph = (0x60 * (c1 - 0xa1)) + (c2 - 0xa0);
}
if((c1 >= 0xb0) && (c1 <= 0xf7)) {
glyph = (0x60 * (c1 - 0xb0 + 9)) + (c2 - 0xa0);
}
done = 1;
}
if(!(done)) {
if(sp != (length - 1)) {
if((gbdata[sp] == 0x13) && (gbdata[sp + 1] == 0x10)) {
/* End of Line */
glyph = 7776;
sp++;
}
done = 1;
}
}
if(!(done)) {
if(sp != (length - 1)) {
if(((gbdata[sp] >= '0') && (gbdata[sp] <= '9')) &&
((gbdata[sp + 1] >= '0') && (gbdata[sp + 1] <= '9'))) {
/* Two digits */
glyph = 8033 + (10 * (gbdata[sp] - '0')) + (gbdata[sp + 1] - '0');
sp++;
}
}
}
if(!(done)) {
/* Byte value */
glyph = 7777 + gbdata[sp];
}
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if(debug) { printf("[%d] ", glyph); }
if(glyph & 0x1000) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x800) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x400) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x200) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x100) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x80) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x40) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x20) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
sp++;
break;
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case GM_NUMBER:
if(last_mode != current_mode) {
/* Reserve a space for numeric digit padding value (2 bits) */
number_pad_posn = strlen(binary);
concat(binary, "XX");
}
p = 0;
ppos = -1;
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/* Numeric compression can also include certain combinations of
non-numeric character */
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numbuf[0] = '0';
numbuf[1] = '0';
numbuf[2] = '0';
do {
if((gbdata[sp] >= '0') && (gbdata[sp] <= '9')) {
numbuf[p] = gbdata[sp];
sp++;
p++;
}
switch(gbdata[sp]) {
case ' ':
case '+':
case '-':
case '.':
case ',':
punt = gbdata[sp];
sp++;
ppos = p;
break;
}
if(sp < (length - 1)) {
if((gbdata[sp] == 0x13) && (gbdata[sp + 1] == 0x10)) {
/* <end of line> */
punt = gbdata[sp];
sp += 2;
ppos = p;
}
}
} while ((p < 3) && (sp < length));
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if(ppos != -1) {
switch(punt) {
case ' ': glyph = 0; break;
case '+': glyph = 3; break;
case '-': glyph = 6; break;
case '.': glyph = 9; break;
case ',': glyph = 12; break;
case 0x13: glyph = 15; break;
}
glyph += ppos;
glyph += 1000;
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if(debug) { printf("[%d] ", glyph); }
if(glyph & 0x200) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x100) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x80) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x40) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x20) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
}
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glyph = (100 * (numbuf[0] - '0')) + (10 * (numbuf[1] - '0')) + (numbuf[2] - '0');
if(debug) { printf("[%d] ", glyph); }
if(glyph & 0x200) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x100) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x80) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x40) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x20) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
break;
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case GM_BYTE:
if(last_mode != current_mode) {
/* Reserve space for byte block length indicator (9 bits) */
byte_count_posn = strlen(binary);
concat(binary, "LLLLLLLLL");
}
if(byte_count == 512) {
/* Maximum byte block size is 512 bytes. If longer is needed then start a new block */
add_byte_count(binary, byte_count_posn, byte_count);
concat(binary, "0111");
byte_count_posn = strlen(binary);
concat(binary, "LLLLLLLLL");
byte_count = 0;
}
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glyph = gbdata[sp];
if(debug) { printf("[%d] ", glyph); }
if(glyph & 0x80) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x40) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x20) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
sp++;
byte_count++;
break;
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case GM_MIXED:
shift = 1;
if((gbdata[sp] >= '0') && (gbdata[sp] <= '9')) { shift = 0; }
if((gbdata[sp] >= 'A') && (gbdata[sp] <= 'Z')) { shift = 0; }
if((gbdata[sp] >= 'a') && (gbdata[sp] <= 'z')) { shift = 0; }
if(gbdata[sp] == ' ') { shift = 0; }
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if(shift == 0) {
/* Mixed Mode character */
glyph = posn(EUROPIUM, gbdata[sp]);
if(debug) { printf("[%d] ", glyph); }
if(glyph & 0x20) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
} else {
/* Shift Mode character */
concat(binary, "1111110110"); /* 1014 - shift indicator */
add_shift_char(binary, gbdata[sp]);
}
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sp++;
break;
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case GM_UPPER:
shift = 1;
if((gbdata[sp] >= 'A') && (gbdata[sp] <= 'Z')) { shift = 0; }
if(gbdata[sp] == ' ') { shift = 0; }
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if(shift == 0) {
/* Upper Case character */
glyph = posn("ABCDEFGHIJKLMNOPQRSTUVWXYZ ", gbdata[sp]);
if(debug) { printf("[%d] ", glyph); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
} else {
/* Shift Mode character */
concat(binary, "1111101"); /* 127 - shift indicator */
add_shift_char(binary, gbdata[sp]);
}
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sp++;
break;
case GM_LOWER:
shift = 1;
if((gbdata[sp] >= 'a') && (gbdata[sp] <= 'z')) { shift = 0; }
if(gbdata[sp] == ' ') { shift = 0; }
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if(shift == 0) {
/* Lower Case character */
glyph = posn("abcdefghijklmnopqrstuvwxyz ", gbdata[sp]);
if(debug) { printf("[%d] ", glyph); }
if(glyph & 0x10) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x08) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x04) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x02) { concat(binary, "1"); } else { concat(binary, "0"); }
if(glyph & 0x01) { concat(binary, "1"); } else { concat(binary, "0"); }
} else {
/* Shift Mode character */
concat(binary, "1111101"); /* 127 - shift indicator */
add_shift_char(binary, gbdata[sp]);
}
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sp++;
break;
}
if(strlen(binary) > 9191) {
return ERROR_TOO_LONG;
}
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} while(sp < length);
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if(current_mode == GM_NUMBER) {
/* add numeric block padding value */
switch(p) {
case 1: binary[number_pad_posn] = '1'; binary[number_pad_posn + 1] = '0'; break; // 2 pad digits
case 2: binary[number_pad_posn] = '0'; binary[number_pad_posn + 1] = '1'; break; // 1 pad digit
case 3: binary[number_pad_posn] = '0'; binary[number_pad_posn + 1] = '0'; break; // 0 pad digits
}
}
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if(current_mode == GM_BYTE) {
/* Add byte block length indicator */
add_byte_count(binary, byte_count_posn, byte_count);
}
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/* Add "end of data" character */
switch(current_mode) {
case GM_CHINESE: concat(binary, "1111111100000"); break; // 8160
case GM_NUMBER: concat(binary, "1111111010"); break; // 1018
case GM_LOWER:
case GM_UPPER: concat(binary, "11011"); break; // 27
case GM_MIXED: concat(binary, "1111110000"); break; // 1008
case GM_BYTE: concat(binary, "0000"); break; // 0
}
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/* Add padding bits if required */
p = 7 - (strlen(binary) % 7);
if(p == 7) { p = 0; }
for(i = 0; i < p; i++) {
concat(binary, "0");
}
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if(strlen(binary) > 9191) {
return ERROR_TOO_LONG;
}
return 0;
}
void gm_add_ecc(char binary[], int data_posn, int layers, int ecc_level, int word[])
{
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int data_cw, i, j, wp;
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int n1, b1, n2, b2, e1, b3, e2;
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int block_size, data_size, ecc_size;
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int data[1320], block[130];
unsigned char data_block[115], ecc_block[70];
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data_cw = gm_data_codewords[((layers - 1) * 5) + (ecc_level - 1)];
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for(i = 0; i < 1320; i++) {
data[i] = 0;
}
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/* Convert from binary sream to 7-bit codewords */
for(i = 0; i < data_posn; i++) {
if(binary[i * 7] == '1') { data[i] += 0x40; }
if(binary[(i * 7) + 1] == '1') { data[i] += 0x20; }
if(binary[(i * 7) + 2] == '1') { data[i] += 0x10; }
if(binary[(i * 7) + 3] == '1') { data[i] += 0x08; }
if(binary[(i * 7) + 4] == '1') { data[i] += 0x04; }
if(binary[(i * 7) + 5] == '1') { data[i] += 0x02; }
if(binary[(i * 7) + 6] == '1') { data[i] += 0x01; }
}
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/* Add padding codewords */
data[data_posn] = 0x00;
for(i = (data_posn + 1); i < data_cw; i++) {
if(i & 1) {
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data[i] = 0x7e;
} else {
data[i] = 0x00;
}
}
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/* Get block sizes */
n1 = gm_n1[(layers - 1)];
b1 = gm_b1[(layers - 1)];
n2 = n1 - 1;
b2 = gm_b2[(layers - 1)];
e1 = gm_ebeb[((layers - 1) * 20) + ((ecc_level - 1) * 4)];
b3 = gm_ebeb[((layers - 1) * 20) + ((ecc_level - 1) * 4) + 1];
e2 = gm_ebeb[((layers - 1) * 20) + ((ecc_level - 1) * 4) + 2];
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/* Split the data into blocks */
wp = 0;
for(i = 0; i < (b1 + b2); i++) {
if(i < b1) { block_size = n1; } else { block_size = n2; }
if(i < b3) { ecc_size = e1; } else { ecc_size = e2; }
data_size = block_size - ecc_size;
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/* printf("block %d/%d: data %d / ecc %d\n", i + 1, (b1 + b2), data_size, ecc_size);*/
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for(j = 0; j < data_size; j++) {
data_block[j] = data[wp];
wp++;
}
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/* Calculate ECC data for this block */
rs_init_gf(0x89);
rs_init_code(ecc_size, 1);
rs_encode(data_size, data_block, ecc_block);
rs_free();
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/* Correct error correction data but in reverse order */
for(j = 0; j < data_size; j++) {
block[j] = data_block[j];
}
for(j = 0; j < ecc_size; j++) {
block[(j + data_size)] = ecc_block[ecc_size - j - 1];
}
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for(j = 0; j < n2; j++) {
word[((b1 + b2) * j) + i] = block[j];
}
if(block_size == n1) {
word[((b1 + b2) * (n1 - 1)) + i] = block[(n1 - 1)];
}
}
}
void place_macromodule(char grid[], int x, int y, int word1, int word2, int size)
{
int i, j;
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i = (x * 6) + 1;
j = (y * 6) + 1;
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if(word2 & 0x40) { grid[(j * size) + i + 2] = '1'; }
if(word2 & 0x20) { grid[(j * size) + i + 3] = '1'; }
if(word2 & 0x10) { grid[((j + 1) * size) + i] = '1'; }
if(word2 & 0x08) { grid[((j + 1) * size) + i + 1] = '1'; }
if(word2 & 0x04) { grid[((j + 1) * size) + i + 2] = '1'; }
if(word2 & 0x02) { grid[((j + 1) * size) + i + 3] = '1'; }
if(word2 & 0x01) { grid[((j + 2) * size) + i] = '1'; }
if(word1 & 0x40) { grid[((j + 2) * size) + i + 1] = '1'; }
if(word1 & 0x20) { grid[((j + 2) * size) + i + 2] = '1'; }
if(word1 & 0x10) { grid[((j + 2) * size) + i + 3] = '1'; }
if(word1 & 0x08) { grid[((j + 3) * size) + i] = '1'; }
if(word1 & 0x04) { grid[((j + 3) * size) + i + 1] = '1'; }
if(word1 & 0x02) { grid[((j + 3) * size) + i + 2] = '1'; }
if(word1 & 0x01) { grid[((j + 3) * size) + i + 3] = '1'; }
}
void place_data_in_grid(int word[], char grid[], int modules, int size)
{
int x, y, macromodule, offset;
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offset = 13 - ((modules - 1) / 2);
for(y = 0; y < modules; y++) {
for(x = 0; x < modules; x++) {
macromodule = gm_macro_matrix[((y + offset) * 27) + (x + offset)];
place_macromodule(grid, x, y, word[macromodule * 2], word[(macromodule * 2) + 1], size);
}
}
}
void place_layer_id(char* grid, int size, int layers, int modules, int ecc_level)
{
/* Place the layer ID into each macromodule */
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int i, j, layer, start, stop;
#ifndef _MSC_VER
int layerid[layers + 1];
int id[modules * modules];
#else
int* layerid = (int *)_alloca((layers + 1) * sizeof(int));
int* id = (int *)_alloca((modules * modules) * sizeof(int));
#endif
/* Calculate Layer IDs */
for(i = 0; i <= layers; i++) {
if(ecc_level == 1) {
layerid[i] = 3 - (i % 4);
} else {
layerid[i] = (i + 5 - ecc_level) % 4;
}
}
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for(i = 0; i < modules; i++) {
for(j = 0; j < modules; j++) {
id[(i * modules) + j] = 0;
}
}
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/* Calculate which value goes in each macromodule */
start = modules / 2;
stop = modules / 2;
for(layer = 0; layer <= layers; layer++) {
for(i = start; i <= stop; i++) {
id[(start * modules) + i] = layerid[layer];
id[(i * modules) + start] = layerid[layer];
id[((modules - start - 1) * modules) + i] = layerid[layer];
id[(i * modules) + (modules - start - 1)] = layerid[layer];
}
start--;
stop++;
}
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/* Place the data in the grid */
for(i = 0; i < modules; i++) {
for(j = 0; j < modules; j++) {
if(id[(i * modules) + j] & 0x02) {
grid[(((i * 6) + 1) * size) + (j * 6) + 1] = '1';
}
if(id[(i * modules) + j] & 0x01) {
grid[(((i * 6) + 1) * size) + (j * 6) + 2] = '1';
}
}
}
}
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int grid_matrix(struct zint_symbol *symbol, unsigned char source[], int length)
{
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int size, modules, dark, error_number;
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int auto_layers, min_layers, layers, auto_ecc_level, min_ecc_level, ecc_level;
int x, y, i, j, glyph;
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char binary[9300];
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int data_cw, input_latch = 0;
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int word[1460], data_max, reader = 0;
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#ifndef _MSC_VER
int utfdata[length + 1];
int gbdata[length + 1];
#else
int* utfdata = (int *)_alloca((length + 1) * sizeof(int));
int* gbdata = (int *)_alloca((length + 1) * sizeof(int));
#endif
for(i = 0; i < 1460; i++) {
word[i] = 0;
}
switch(symbol->input_mode) {
case DATA_MODE:
for(i = 0; i < length; i++) {
gbdata[i] = (int)source[i];
}
break;
default:
/* Convert Unicode input to GB-2312 */
error_number = utf8toutf16(symbol, source, utfdata, &length);
if(error_number != 0) { return error_number; }
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for(i = 0; i < length; i++) {
if(utfdata[i] <= 0xff) {
gbdata[i] = utfdata[i];
} else {
j = 0;
glyph = 0;
do {
if(gb2312_lookup[j * 2] == utfdata[i]) {
glyph = gb2312_lookup[(j * 2) + 1];
}
j++;
} while ((j < 7445) && (glyph == 0));
if(glyph == 0) {
strcpy(symbol->errtxt, "Invalid character in input data");
return ERROR_INVALID_DATA;
}
gbdata[i] = glyph;
}
}
break;
}
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if(symbol->output_options & READER_INIT) reader = 1;
error_number = gm_encode(gbdata, length, binary, reader);
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if(error_number != 0) {
strcpy(symbol->errtxt, "Input data too long");
return error_number;
}
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/* Determine the size of the symbol */
data_cw = strlen(binary) / 7;
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auto_layers = 13;
for(i = 12; i > 0; i--) {
if(gm_recommend_cw[(i - 1)] >= data_cw) { auto_layers = i; }
}
min_layers = 13;
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for(i = 12; i > 0; i--) {
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if(gm_max_cw[(i - 1)] >= data_cw) { min_layers = i; }
}
layers = auto_layers;
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auto_ecc_level = 3;
if(layers == 1) { auto_ecc_level = 5; }
if((layers == 2) || (layers == 3)) { auto_ecc_level = 4; }
min_ecc_level = 1;
if(layers == 1) { min_ecc_level = 4; }
if((layers == 2) || (layers == 3)) { min_ecc_level = 2; }
ecc_level = auto_ecc_level;
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if((symbol->option_2 >= 1) && (symbol->option_2 <= 13)) {
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input_latch = 1;
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if(symbol->option_2 > min_layers) {
layers = symbol->option_2;
} else {
layers = min_layers;
}
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}
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if(input_latch == 1) {
auto_ecc_level = 3;
if(layers == 1) { auto_ecc_level = 5; }
if((layers == 2) || (layers == 3)) { auto_ecc_level = 4; }
ecc_level = auto_ecc_level;
if(data_cw > gm_data_codewords[(5 * (layers - 1)) + (ecc_level - 1)]) {
layers++;
}
}
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if(input_latch == 0) {
if((symbol->option_1 >= 1) && (symbol->option_1 <= 5)) {
if(symbol->option_1 > min_ecc_level) {
ecc_level = symbol->option_1;
} else {
ecc_level = min_ecc_level;
}
}
if(data_cw > gm_data_codewords[(5 * (layers - 1)) + (ecc_level - 1)]) {
do {
layers++;
} while ((data_cw > gm_data_codewords[(5 * (layers - 1)) + (ecc_level - 1)]) && (layers <= 13));
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}
}
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data_max = 1313;
switch(ecc_level) {
case 2: data_max = 1167; break;
case 3: data_max = 1021; break;
case 4: data_max = 875; break;
case 5: data_max = 729; break;
}
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if(data_cw > data_max) {
strcpy(symbol->errtxt, "Input data too long");
return ERROR_TOO_LONG;
}
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gm_add_ecc(binary, data_cw, layers, ecc_level, word);
size = 6 + (layers * 12);
modules = 1 + (layers * 2);
#ifndef _MSC_VER
char grid[size * size];
#else
char* grid = (char *)_alloca((size * size) * sizeof(char));
#endif
for(x = 0; x < size; x++) {
for(y = 0; y < size; y++) {
grid[(y * size) + x] = '0';
}
}
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place_data_in_grid(word, grid, modules, size);
place_layer_id(grid, size, layers, modules, ecc_level);
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/* Add macromodule frames */
for(x = 0; x < modules; x++) {
dark = 1 - (x & 1);
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for(y = 0; y < modules; y++) {
if(dark == 1) {
for(i = 0; i < 5; i++) {
grid[((y * 6) * size) + (x * 6) + i] = '1';
grid[(((y * 6) + 5) * size) + (x * 6) + i] = '1';
grid[(((y * 6) + i) * size) + (x * 6)] = '1';
grid[(((y * 6) + i) * size) + (x * 6) + 5] = '1';
}
grid[(((y * 6) + 5) * size) + (x * 6) + 5] = '1';
dark = 0;
} else {
dark = 1;
}
}
}
/* Copy values to symbol */
symbol->width = size;
symbol->rows = size;
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for(x = 0; x < size; x++) {
for(y = 0; y < size; y++) {
if(grid[(y * size) + x] == '1') {
set_module(symbol, y, x);
}
}
symbol->row_height[x] = 1;
}
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return 0;
}