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/* hanxin.c - Han Xin Code
libzint - the open source barcode library
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Copyright ( C ) 2009 - 2017 Robin Stuart < rstuart114 @ gmail . com >
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Redistribution and use in source and binary forms , with or without
modification , are permitted provided that the following conditions
are met :
1. Redistributions of source code must retain the above copyright
notice , this list of conditions and the following disclaimer .
2. Redistributions in binary form must reproduce the above copyright
notice , this list of conditions and the following disclaimer in the
documentation and / or other materials provided with the distribution .
3. Neither the name of the project nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission .
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS " AS IS " AND
ANY EXPRESS OR IMPLIED WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED . IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT , INDIRECT , INCIDENTAL , SPECIAL , EXEMPLARY , OR CONSEQUENTIAL
DAMAGES ( INCLUDING , BUT NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS
OR SERVICES ; LOSS OF USE , DATA , OR PROFITS ; OR BUSINESS INTERRUPTION )
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY , WHETHER IN CONTRACT , STRICT
LIABILITY , OR TORT ( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY
OUT OF THE USE OF THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF
SUCH DAMAGE .
*/
/* This code attempts to implement Han Xin Code according to AIMD-015:2010 (Rev 0.8) */
# include <stdio.h>
# include <string.h>
# include <stdlib.h>
# ifdef _MSC_VER
# include <malloc.h>
# endif
# include "common.h"
# include "reedsol.h"
# include "hanxin.h"
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# include "gb2312.h"
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# include "gb18030.h"
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# include "assert.h"
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/* Find which submode to use for a text character */
int getsubmode ( char input ) {
int submode = 2 ;
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if ( ( input > = ' 0 ' ) & & ( input < = ' 9 ' ) ) {
submode = 1 ;
}
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if ( ( input > = ' A ' ) & & ( input < = ' Z ' ) ) {
submode = 1 ;
}
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if ( ( input > = ' a ' ) & & ( input < = ' z ' ) ) {
submode = 1 ;
}
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return submode ;
}
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/* Calculate the approximate length of the binary string */
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static int calculate_binlength ( char mode [ ] , int source [ ] , const size_t length , int eci ) {
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size_t i ;
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char lastmode = ' t ' ;
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int est_binlen = 0 ;
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int submode = 1 ;
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if ( eci ! = 3 ) {
est_binlen + = 12 ;
}
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i = 0 ;
do {
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switch ( mode [ i ] ) {
case ' n ' :
if ( lastmode ! = ' n ' ) {
est_binlen + = 14 ;
lastmode = ' n ' ;
}
est_binlen + = 4 ;
break ;
case ' t ' :
if ( lastmode ! = ' t ' ) {
est_binlen + = 10 ;
lastmode = ' t ' ;
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submode = 1 ;
}
if ( getsubmode ( ( char ) source [ i ] ) ! = submode ) {
est_binlen + = 6 ;
submode = getsubmode ( ( char ) source [ i ] ) ;
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}
est_binlen + = 6 ;
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break ;
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case ' b ' :
if ( lastmode ! = ' b ' ) {
est_binlen + = 17 ;
lastmode = ' b ' ;
}
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est_binlen + = 8 ;
break ;
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case ' 1 ' :
if ( lastmode ! = ' 1 ' ) {
est_binlen + = 16 ;
lastmode = ' 1 ' ;
}
est_binlen + = 12 ;
break ;
case ' 2 ' :
if ( lastmode ! = ' 2 ' ) {
est_binlen + = 16 ;
lastmode = ' 2 ' ;
}
est_binlen + = 12 ;
break ;
case ' d ' :
if ( lastmode ! = ' d ' ) {
est_binlen + = 16 ;
lastmode = ' d ' ;
}
est_binlen + = 15 ;
break ;
case ' f ' :
if ( lastmode ! = ' f ' ) {
est_binlen + = 4 ;
lastmode = ' f ' ;
}
est_binlen + = 21 ;
i + + ;
break ;
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}
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i + + ;
} while ( i < length ) ;
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return est_binlen ;
}
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int isRegion1 ( int glyph ) {
int first_byte , second_byte ;
int valid = 0 ;
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first_byte = ( glyph & 0xff00 ) > > 8 ;
second_byte = glyph & 0xff ;
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if ( ( first_byte > = 0xb0 ) & & ( first_byte < = 0xd7 ) ) {
if ( ( second_byte > = 0xa1 ) & & ( second_byte < = 0xfe ) ) {
valid = 1 ;
}
}
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if ( ( first_byte > = 0xa1 ) & & ( first_byte < = 0xa3 ) ) {
if ( ( second_byte > = 0xa1 ) & & ( second_byte < = 0xfe ) ) {
valid = 1 ;
}
}
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if ( ( glyph > = 0xa8a1 ) & & ( glyph < = 0xa8c0 ) ) {
valid = 1 ;
}
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return valid ;
}
int isRegion2 ( int glyph ) {
int first_byte , second_byte ;
int valid = 0 ;
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first_byte = ( glyph & 0xff00 ) > > 8 ;
second_byte = glyph & 0xff ;
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if ( ( first_byte > = 0xd8 ) & & ( first_byte < = 0xf7 ) ) {
if ( ( second_byte > = 0xa1 ) & & ( second_byte < = 0xfe ) ) {
valid = 1 ;
}
}
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return valid ;
}
int isDoubleByte ( int glyph ) {
int first_byte , second_byte ;
int valid = 0 ;
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first_byte = ( glyph & 0xff00 ) > > 8 ;
second_byte = glyph & 0xff ;
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if ( ( first_byte > = 0x81 ) & & ( first_byte < = 0xfe ) ) {
if ( ( second_byte > = 0x40 ) & & ( second_byte < = 0x7e ) ) {
valid = 1 ;
}
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if ( ( second_byte > = 0x80 ) & & ( second_byte < = 0xfe ) ) {
valid = 1 ;
}
}
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return valid ;
}
int isFourByte ( int glyph , int glyph2 ) {
int first_byte , second_byte ;
int third_byte , fourth_byte ;
int valid = 0 ;
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first_byte = ( glyph & 0xff00 ) > > 8 ;
second_byte = glyph & 0xff ;
third_byte = ( glyph2 & 0xff00 ) > > 8 ;
fourth_byte = glyph2 & 0xff ;
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if ( ( first_byte > = 0x81 ) & & ( first_byte < = 0xfe ) ) {
if ( ( second_byte > = 0x30 ) & & ( second_byte < = 0x39 ) ) {
if ( ( third_byte > = 0x81 ) & & ( third_byte < = 0xfe ) ) {
if ( ( fourth_byte > = 0x30 ) & & ( fourth_byte < = 0x39 ) ) {
valid = 1 ;
}
}
}
}
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return valid ;
}
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/* Calculate mode switching */
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static void hx_define_mode ( char mode [ ] , int source [ ] , const size_t length ) {
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size_t i ;
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char lastmode = ' t ' ;
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i = 0 ;
do {
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int done = 0 ;
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if ( isRegion1 ( source [ i ] ) ) {
mode [ i ] = ' 1 ' ;
done = 1 ;
i + + ;
}
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if ( ( done = = 0 ) & & ( isRegion2 ( source [ i ] ) ) ) {
mode [ i ] = ' 2 ' ;
done = 1 ;
i + + ;
}
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if ( ( done = = 0 ) & & ( isDoubleByte ( source [ i ] ) ) ) {
mode [ i ] = ' d ' ;
done = 1 ;
i + + ;
}
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if ( ( done = = 0 ) & & ( i < length - 1 ) ) {
if ( isFourByte ( source [ i ] , source [ i + 1 ] ) ) {
mode [ i ] = ' f ' ;
mode [ i + 1 ] = ' f ' ;
done = 1 ;
i + = 2 ;
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}
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}
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if ( done = = 0 ) {
if ( ( source [ i ] > = ' 0 ' ) & & ( source [ i ] < = ' 9 ' ) ) {
mode [ i ] = ' n ' ;
if ( lastmode ! = ' n ' ) {
lastmode = ' n ' ;
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}
} else {
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if ( ( source [ i ] < = 127 ) & & ( ( source [ i ] < = 27 ) | | ( source [ i ] > = 32 ) ) ) {
mode [ i ] = ' t ' ;
if ( lastmode ! = ' t ' ) {
lastmode = ' t ' ;
}
} else {
mode [ i ] = ' b ' ;
if ( lastmode ! = ' b ' ) {
lastmode = ' b ' ;
}
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}
}
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i + + ;
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}
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} while ( i < length ) ;
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mode [ length ] = ' \0 ' ;
}
/* Convert Text 1 sub-mode character to encoding value, as given in table 3 */
int lookup_text1 ( char input ) {
int encoding_value = 0 ;
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if ( ( input > = ' 0 ' ) & & ( input < = ' 9 ' ) ) {
encoding_value = input - ' 0 ' ;
}
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if ( ( input > = ' A ' ) & & ( input < = ' Z ' ) ) {
encoding_value = input - ' A ' + 10 ;
}
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if ( ( input > = ' a ' ) & & ( input < = ' z ' ) ) {
encoding_value = input - ' a ' + 36 ;
}
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return encoding_value ;
}
/* Convert Text 2 sub-mode character to encoding value, as given in table 4 */
int lookup_text2 ( char input ) {
int encoding_value = 0 ;
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if ( ( input > = 0 ) & & ( input < = 27 ) ) {
encoding_value = input ;
}
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if ( ( input > = ' ' ) & & ( input < = ' / ' ) ) {
encoding_value = input - ' ' + 28 ;
}
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if ( ( input > = ' [ ' ) & & ( input < = 96 ) ) {
encoding_value = input - ' [ ' + 51 ;
}
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if ( ( input > = ' { ' ) & & ( input < = 127 ) ) {
encoding_value = input - ' { ' + 57 ;
}
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return encoding_value ;
}
/* Convert input data to binary stream */
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static void calculate_binary ( char binary [ ] , char mode [ ] , int source [ ] , const size_t length , const int eci , int debug ) {
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int position = 0 ;
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int i , count , encoding_value ;
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int first_byte , second_byte ;
int third_byte , fourth_byte ;
int glyph ;
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int submode ;
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if ( eci ! = 3 ) {
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/* Encoding ECI assignment number, according to Table 5 */
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bin_append ( 8 , 4 , binary ) ; // ECI
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if ( eci < = 127 ) {
bin_append ( eci , 8 , binary ) ;
}
if ( ( eci > = 128 ) & & ( eci < = 16383 ) ) {
strcat ( binary , " 10 " ) ;
bin_append ( eci , 14 , binary ) ;
}
if ( eci > = 16384 ) {
strcat ( binary , " 110 " ) ;
bin_append ( eci , 21 , binary ) ;
}
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}
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do {
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int block_length = 0 ;
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do {
block_length + + ;
} while ( mode [ position + block_length ] = = mode [ position ] ) ;
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switch ( mode [ position ] ) {
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case ' n ' :
/* Numeric mode */
/* Mode indicator */
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bin_append ( 1 , 4 , binary ) ;
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if ( debug ) {
printf ( " Numeric \n " ) ;
}
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i = 0 ;
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while ( i < block_length ) {
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int first = 0 ;
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first = posn ( NEON , ( char ) source [ position + i ] ) ;
count = 1 ;
encoding_value = first ;
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if ( i + 1 < block_length & & mode [ position + i + 1 ] = = ' n ' ) {
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int second = posn ( NEON , ( char ) source [ position + i + 1 ] ) ;
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count = 2 ;
encoding_value = ( encoding_value * 10 ) + second ;
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if ( i + 2 < block_length & & mode [ position + i + 2 ] = = ' n ' ) {
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int third = posn ( NEON , ( char ) source [ position + i + 2 ] ) ;
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count = 3 ;
encoding_value = ( encoding_value * 10 ) + third ;
}
}
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bin_append ( encoding_value , 10 , binary ) ;
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if ( debug ) {
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printf ( " 0x%4x (%d) " , encoding_value , encoding_value ) ;
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}
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i + = count ;
}
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/* Mode terminator depends on number of characters in last group (Table 2) */
switch ( count ) {
case 1 :
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bin_append ( 1021 , 10 , binary ) ;
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break ;
case 2 :
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bin_append ( 1022 , 10 , binary ) ;
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break ;
case 3 :
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bin_append ( 1023 , 10 , binary ) ;
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break ;
}
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if ( debug ) {
printf ( " (TERM %d) \n " , count ) ;
}
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break ;
case ' t ' :
/* Text mode */
if ( position ! = 0 ) {
/* Mode indicator */
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bin_append ( 2 , 4 , binary ) ;
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if ( debug ) {
printf ( " Text \n " ) ;
}
}
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submode = 1 ;
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i = 0 ;
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while ( i < block_length ) {
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if ( getsubmode ( ( char ) source [ i + position ] ) ! = submode ) {
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/* Change submode */
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bin_append ( 62 , 6 , binary ) ;
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submode = getsubmode ( ( char ) source [ i + position ] ) ;
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if ( debug ) {
printf ( " SWITCH " ) ;
}
}
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if ( submode = = 1 ) {
encoding_value = lookup_text1 ( ( char ) source [ i + position ] ) ;
} else {
encoding_value = lookup_text2 ( ( char ) source [ i + position ] ) ;
}
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bin_append ( encoding_value , 6 , binary ) ;
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if ( debug ) {
printf ( " %c (%d) " , ( char ) source [ i ] , encoding_value ) ;
}
i + + ;
}
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/* Terminator */
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bin_append ( 63 , 6 , binary ) ;
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if ( debug ) {
printf ( " \n " ) ;
}
break ;
case ' b ' :
/* Binary Mode */
/* Mode indicator */
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bin_append ( 3 , 4 , binary ) ;
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/* Count indicator */
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bin_append ( block_length , 13 , binary ) ;
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if ( debug ) {
printf ( " Binary (length %d) \n " , block_length ) ;
}
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i = 0 ;
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while ( i < block_length ) {
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/* 8-bit bytes with no conversion */
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bin_append ( source [ i + position ] , 8 , binary ) ;
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if ( debug ) {
printf ( " %d " , source [ i + position ] ) ;
}
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i + + ;
}
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if ( debug ) {
printf ( " \n " ) ;
}
break ;
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case ' 1 ' :
/* Region 1 encoding */
/* Mode indicator */
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bin_append ( 4 , 4 , binary ) ;
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if ( debug ) {
printf ( " Region 1 \n " ) ;
}
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i = 0 ;
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while ( i < block_length ) {
first_byte = ( source [ i + position ] & 0xff00 ) > > 8 ;
second_byte = source [ i + position ] & 0xff ;
/* Subset 1 */
glyph = ( 0x5e * ( first_byte - 0xb0 ) ) + ( second_byte - 0xa1 ) ;
/* Subset 2 */
if ( ( first_byte > = 0xa1 ) & & ( first_byte < = 0xa3 ) ) {
if ( ( second_byte > = 0xa1 ) & & ( second_byte < = 0xfe ) ) {
glyph = ( 0x5e * first_byte - 0xa1 ) + ( second_byte - 0xa1 ) + 0xeb0 ;
}
}
/* Subset 3 */
if ( ( source [ i + position ] > = 0xa8a1 ) & & ( source [ i + position ] < = 0xa8c0 ) ) {
glyph = ( second_byte - 0xa1 ) + 0xfca ;
}
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if ( debug ) {
printf ( " %d " , glyph ) ;
}
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bin_append ( glyph , 12 , binary ) ;
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i + + ;
}
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/* Terminator */
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bin_append ( 4095 , 12 , binary ) ;
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if ( debug ) {
printf ( " \n " ) ;
}
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break ;
case ' 2 ' :
/* Region 2 encoding */
/* Mode indicator */
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bin_append ( 5 , 4 , binary ) ;
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if ( debug ) {
printf ( " Region 2 \n " ) ;
}
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i = 0 ;
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while ( i < block_length ) {
first_byte = ( source [ i + position ] & 0xff00 ) > > 8 ;
second_byte = source [ i + position ] & 0xff ;
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glyph = ( 0x5e * ( first_byte - 0xd8 ) ) + ( second_byte - 0xa1 ) ;
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if ( debug ) {
printf ( " %d " , glyph ) ;
}
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bin_append ( glyph , 12 , binary ) ;
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i + + ;
}
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/* Terminator */
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bin_append ( 4095 , 12 , binary ) ;
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if ( debug ) {
printf ( " \n " ) ;
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}
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break ;
case ' d ' :
/* Double byte encoding */
/* Mode indicator */
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bin_append ( 6 , 4 , binary ) ;
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if ( debug ) {
printf ( " Double byte \n " ) ;
}
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i = 0 ;
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while ( i < block_length ) {
first_byte = ( source [ i + position ] & 0xff00 ) > > 8 ;
second_byte = source [ i + position ] & 0xff ;
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if ( second_byte < = 0x7e ) {
glyph = ( 0xbe * ( first_byte - 0x81 ) ) + ( second_byte - 0x40 ) ;
} else {
glyph = ( 0xbe * ( first_byte - 0x81 ) ) + ( second_byte - 0x41 ) ;
}
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if ( debug ) {
printf ( " %d " , glyph ) ;
}
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bin_append ( glyph , 15 , binary ) ;
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i + + ;
}
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/* Terminator */
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bin_append ( 32767 , 15 , binary ) ;
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/* Terminator sequence of length 12 is a mistake
- confirmed by Wang Yi */
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if ( debug ) {
printf ( " \n " ) ;
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}
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break ;
case ' f ' :
/* Four-byte encoding */
if ( debug ) {
printf ( " Four byte \n " ) ;
}
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i = 0 ;
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while ( i < block_length ) {
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/* Mode indicator */
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bin_append ( 7 , 4 , binary ) ;
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first_byte = ( source [ i + position ] & 0xff00 ) > > 8 ;
second_byte = source [ i + position ] & 0xff ;
third_byte = ( source [ i + position + 1 ] & 0xff00 ) > > 8 ;
fourth_byte = source [ i + position + 1 ] & 0xff ;
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glyph = ( 0x3138 * ( first_byte - 0x81 ) ) + ( 0x04ec * ( second_byte - 0x30 ) ) +
( 0x0a * ( third_byte - 0x81 ) ) + ( fourth_byte - 0x30 ) ;
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if ( debug ) {
printf ( " %d " , glyph ) ;
}
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bin_append ( glyph , 15 , binary ) ;
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i + = 2 ;
}
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/* No terminator */
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if ( debug ) {
printf ( " \n " ) ;
}
break ;
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}
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position + = block_length ;
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} while ( position < length ) ;
}
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/* Finder pattern for top left of symbol */
void hx_place_finder_top_left ( unsigned char * grid , int size ) {
int xp , yp ;
int x = 0 , y = 0 ;
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char finder [ ] = { 0x7F , 0x40 , 0x5F , 0x50 , 0x57 , 0x57 , 0x57 } ;
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for ( xp = 0 ; xp < 7 ; xp + + ) {
for ( yp = 0 ; yp < 7 ; yp + + ) {
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if ( finder [ yp ] & 0x40 > > xp ) {
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grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x11 ;
} else {
grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x10 ;
}
}
}
}
/* Finder pattern for top right and bottom left of symbol */
void hx_place_finder ( unsigned char * grid , int size , int x , int y ) {
int xp , yp ;
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char finder [ ] = { 0x7F , 0x01 , 0x7D , 0x05 , 0x75 , 0x75 , 0x75 } ;
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for ( xp = 0 ; xp < 7 ; xp + + ) {
for ( yp = 0 ; yp < 7 ; yp + + ) {
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if ( finder [ yp ] & 0x40 > > xp ) {
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grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x11 ;
} else {
grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x10 ;
}
}
}
}
/* Finder pattern for bottom right of symbol */
void hx_place_finder_bottom_right ( unsigned char * grid , int size ) {
int xp , yp ;
int x = size - 7 , y = size - 7 ;
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char finder [ ] = { 0x75 , 0x75 , 0x75 , 0x05 , 0x7D , 0x01 , 0x7F } ;
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for ( xp = 0 ; xp < 7 ; xp + + ) {
for ( yp = 0 ; yp < 7 ; yp + + ) {
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if ( finder [ yp ] & 0x40 > > xp ) {
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grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x11 ;
} else {
grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x10 ;
}
}
}
}
/* Avoid plotting outside symbol or over finder patterns */
void hx_safe_plot ( unsigned char * grid , int size , int x , int y , int value ) {
if ( ( x > = 0 ) & & ( x < size ) ) {
if ( ( y > = 0 ) & & ( y < size ) ) {
if ( grid [ ( y * size ) + x ] = = 0 ) {
grid [ ( y * size ) + x ] = value ;
}
}
}
}
/* Plot an alignment pattern around top and right of a module */
void hx_plot_alignment ( unsigned char * grid , int size , int x , int y , int w , int h ) {
int i ;
hx_safe_plot ( grid , size , x , y , 0x11 ) ;
hx_safe_plot ( grid , size , x - 1 , y + 1 , 0x10 ) ;
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for ( i = 1 ; i < = w ; i + + ) {
/* Top */
hx_safe_plot ( grid , size , x - i , y , 0x11 ) ;
hx_safe_plot ( grid , size , x - i - 1 , y + 1 , 0x10 ) ;
}
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for ( i = 1 ; i < h ; i + + ) {
/* Right */
hx_safe_plot ( grid , size , x , y + i , 0x11 ) ;
hx_safe_plot ( grid , size , x - 1 , y + i + 1 , 0x10 ) ;
}
}
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/* Plot assistant alignment patterns */
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void hx_plot_assistant ( unsigned char * grid , int size , int x , int y ) {
hx_safe_plot ( grid , size , x - 1 , y - 1 , 0x10 ) ;
hx_safe_plot ( grid , size , x , y - 1 , 0x10 ) ;
hx_safe_plot ( grid , size , x + 1 , y - 1 , 0x10 ) ;
hx_safe_plot ( grid , size , x - 1 , y , 0x10 ) ;
hx_safe_plot ( grid , size , x , y , 0x11 ) ;
hx_safe_plot ( grid , size , x + 1 , y , 0x10 ) ;
hx_safe_plot ( grid , size , x - 1 , y + 1 , 0x10 ) ;
hx_safe_plot ( grid , size , x , y + 1 , 0x10 ) ;
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hx_safe_plot ( grid , size , x + 1 , y + 1 , 0x10 ) ;
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}
/* Put static elements in the grid */
void hx_setup_grid ( unsigned char * grid , int size , int version ) {
int i , j ;
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for ( i = 0 ; i < size ; i + + ) {
for ( j = 0 ; j < size ; j + + ) {
grid [ ( i * size ) + j ] = 0 ;
}
}
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/* Add finder patterns */
hx_place_finder_top_left ( grid , size ) ;
hx_place_finder ( grid , size , 0 , size - 7 ) ;
hx_place_finder ( grid , size , size - 7 , 0 ) ;
hx_place_finder_bottom_right ( grid , size ) ;
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/* Add finder pattern separator region */
for ( i = 0 ; i < 8 ; i + + ) {
/* Top left */
grid [ ( 7 * size ) + i ] = 0x10 ;
grid [ ( i * size ) + 7 ] = 0x10 ;
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/* Top right */
grid [ ( 7 * size ) + ( size - i - 1 ) ] = 0x10 ;
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grid [ ( ( size - i - 1 ) * size ) + 7 ] = 0x10 ;
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/* Bottom left */
grid [ ( i * size ) + ( size - 8 ) ] = 0x10 ;
grid [ ( ( size - 8 ) * size ) + i ] = 0x10 ;
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/* Bottom right */
grid [ ( ( size - 8 ) * size ) + ( size - i - 1 ) ] = 0x10 ;
grid [ ( ( size - i - 1 ) * size ) + ( size - 8 ) ] = 0x10 ;
}
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/* Reserve function information region */
for ( i = 0 ; i < 9 ; i + + ) {
/* Top left */
grid [ ( 8 * size ) + i ] = 0x10 ;
grid [ ( i * size ) + 8 ] = 0x10 ;
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/* Top right */
grid [ ( 8 * size ) + ( size - i - 1 ) ] = 0x10 ;
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grid [ ( ( size - i - 1 ) * size ) + 8 ] = 0x10 ;
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/* Bottom left */
grid [ ( i * size ) + ( size - 9 ) ] = 0x10 ;
grid [ ( ( size - 9 ) * size ) + i ] = 0x10 ;
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/* Bottom right */
grid [ ( ( size - 9 ) * size ) + ( size - i - 1 ) ] = 0x10 ;
grid [ ( ( size - i - 1 ) * size ) + ( size - 9 ) ] = 0x10 ;
}
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if ( version > 3 ) {
int k = hx_module_k [ version - 1 ] ;
int r = hx_module_r [ version - 1 ] ;
int m = hx_module_m [ version - 1 ] ;
int x , y , row_switch , column_switch ;
int module_height , module_width ;
int mod_x , mod_y ;
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2016-04-09 19:01:21 +03:00
/* Add assistant alignment patterns to left and right */
y = 0 ;
mod_y = 0 ;
do {
if ( mod_y < m ) {
module_height = k ;
} else {
module_height = r - 1 ;
}
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if ( ( mod_y % 2 ) = = 0 ) {
if ( ( m % 2 ) = = 1 ) {
hx_plot_assistant ( grid , size , 0 , y ) ;
}
} else {
if ( ( m % 2 ) = = 0 ) {
hx_plot_assistant ( grid , size , 0 , y ) ;
}
hx_plot_assistant ( grid , size , size - 1 , y ) ;
}
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2016-04-09 19:01:21 +03:00
mod_y + + ;
y + = module_height ;
} while ( y < size ) ;
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/* Add assistant alignment patterns to top and bottom */
x = ( size - 1 ) ;
mod_x = 0 ;
do {
if ( mod_x < m ) {
module_width = k ;
} else {
module_width = r - 1 ;
}
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2016-04-09 19:01:21 +03:00
if ( ( mod_x % 2 ) = = 0 ) {
if ( ( m % 2 ) = = 1 ) {
hx_plot_assistant ( grid , size , x , ( size - 1 ) ) ;
}
} else {
if ( ( m % 2 ) = = 0 ) {
hx_plot_assistant ( grid , size , x , ( size - 1 ) ) ;
}
hx_plot_assistant ( grid , size , x , 0 ) ;
}
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2016-04-09 19:01:21 +03:00
mod_x + + ;
x - = module_width ;
} while ( x > = 0 ) ;
2016-09-06 00:06:50 +03:00
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/* Add alignment pattern */
column_switch = 1 ;
y = 0 ;
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mod_y = 0 ;
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do {
if ( mod_y < m ) {
module_height = k ;
} else {
module_height = r - 1 ;
}
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2016-04-09 19:01:21 +03:00
if ( column_switch = = 1 ) {
row_switch = 1 ;
column_switch = 0 ;
} else {
row_switch = 0 ;
column_switch = 1 ;
}
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2016-04-09 19:01:21 +03:00
x = ( size - 1 ) ;
mod_x = 0 ;
do {
if ( mod_x < m ) {
module_width = k ;
} else {
module_width = r - 1 ;
}
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2016-04-09 19:01:21 +03:00
if ( row_switch = = 1 ) {
if ( ! ( y = = 0 & & x = = ( size - 1 ) ) ) {
hx_plot_alignment ( grid , size , x , y , module_width , module_height ) ;
}
row_switch = 0 ;
} else {
row_switch = 1 ;
}
mod_x + + ;
x - = module_width ;
} while ( x > = 0 ) ;
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2016-04-09 19:01:21 +03:00
mod_y + + ;
y + = module_height ;
} while ( y < size ) ;
}
}
2016-04-16 14:57:45 +03:00
/* Calculate error correction codes */
void hx_add_ecc ( unsigned char fullstream [ ] , unsigned char datastream [ ] , int version , int ecc_level ) {
unsigned char data_block [ 180 ] ;
unsigned char ecc_block [ 36 ] ;
int i , j , block ;
int input_position = - 1 ;
int output_position = - 1 ;
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int table_d1_pos = ( ( version - 1 ) * 36 ) + ( ( ecc_level - 1 ) * 9 ) ;
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for ( i = 0 ; i < 3 ; i + + ) {
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int batch_size = hx_table_d1 [ table_d1_pos + ( 3 * i ) ] ;
int data_length = hx_table_d1 [ table_d1_pos + ( 3 * i ) + 1 ] ;
int ecc_length = hx_table_d1 [ table_d1_pos + ( 3 * i ) + 2 ] ;
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for ( block = 0 ; block < batch_size ; block + + ) {
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for ( j = 0 ; j < data_length ; j + + ) {
input_position + + ;
output_position + + ;
data_block [ j ] = datastream [ input_position ] ;
fullstream [ output_position ] = datastream [ input_position ] ;
}
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2016-04-16 14:57:45 +03:00
rs_init_gf ( 0x163 ) ; // x^8 + x^6 + x^5 + x + 1 = 0
rs_init_code ( ecc_length , 1 ) ;
rs_encode ( data_length , data_block , ecc_block ) ;
rs_free ( ) ;
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for ( j = 0 ; j < ecc_length ; j + + ) {
output_position + + ;
fullstream [ output_position ] = ecc_block [ ecc_length - j - 1 ] ;
}
}
}
}
/* Rearrange data in batches of 13 codewords (section 5.8.2) */
void make_picket_fence ( unsigned char fullstream [ ] , unsigned char picket_fence [ ] , int streamsize ) {
int i , start ;
int output_position = 0 ;
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2016-04-16 14:57:45 +03:00
for ( start = 0 ; start < 13 ; start + + ) {
for ( i = start ; i < streamsize ; i + = 13 ) {
if ( i < streamsize ) {
picket_fence [ output_position ] = fullstream [ i ] ;
output_position + + ;
}
}
}
}
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/* Evaluate a bitmask according to table 9 */
int hx_evaluate ( unsigned char * eval , int size , int pattern ) {
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int x , y , block , weight ;
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int result = 0 ;
char state ;
int p ;
int a , b , afterCount , beforeCount ;
# ifndef _MSC_VER
char local [ size * size ] ;
# else
char * local = ( char * ) _alloca ( ( size * size ) * sizeof ( char ) ) ;
# endif
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/* all four bitmask variants have been encoded in the 4 bits of the bytes
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* that make up the grid array . select them for evaluation according to the
* desired pattern . */
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
if ( ( eval [ ( y * size ) + x ] & ( 0x01 < < pattern ) ) ! = 0 ) {
local [ ( y * size ) + x ] = ' 1 ' ;
} else {
local [ ( y * size ) + x ] = ' 0 ' ;
}
}
}
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/* Test 1: 1:1:1:1:3 or 3:1:1:1:1 ratio pattern in row/column */
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/* Vertical */
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < ( size - 7 ) ; y + + ) {
p = 0 ;
for ( weight = 0 ; weight < 7 ; weight + + ) {
if ( local [ ( ( y + weight ) * size ) + x ] = = ' 1 ' ) {
p + = ( 0x40 > > weight ) ;
}
}
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if ( ( p = = 0x57 ) | | ( p = = 0x75 ) ) {
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/* Pattern found, check before and after */
beforeCount = 0 ;
for ( b = ( y - 3 ) ; b < y ; b + + ) {
if ( b < 0 ) {
beforeCount + + ;
} else {
if ( local [ ( b * size ) + x ] = = ' 0 ' ) {
beforeCount + + ;
} else {
beforeCount = 0 ;
}
}
}
afterCount = 0 ;
for ( a = ( y + 7 ) ; a < = ( y + 9 ) ; a + + ) {
if ( a > = size ) {
afterCount + + ;
} else {
if ( local [ ( a * size ) + x ] = = ' 0 ' ) {
afterCount + + ;
} else {
afterCount = 0 ;
}
}
}
if ( ( beforeCount = = 3 ) | | ( afterCount = = 3 ) ) {
/* Pattern is preceeded or followed by light area
3 modules wide */
result + = 50 ;
}
}
}
}
/* Horizontal */
for ( y = 0 ; y < size ; y + + ) {
for ( x = 0 ; x < ( size - 7 ) ; x + + ) {
p = 0 ;
for ( weight = 0 ; weight < 7 ; weight + + ) {
if ( local [ ( y * size ) + x + weight ] = = ' 1 ' ) {
p + = ( 0x40 > > weight ) ;
}
}
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if ( ( p = = 0x57 ) | | ( p = = 0x75 ) ) {
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/* Pattern found, check before and after */
beforeCount = 0 ;
for ( b = ( x - 3 ) ; b < x ; b + + ) {
if ( b < 0 ) {
beforeCount + + ;
} else {
if ( local [ ( y * size ) + b ] = = ' 0 ' ) {
beforeCount + + ;
} else {
beforeCount = 0 ;
}
}
}
afterCount = 0 ;
for ( a = ( x + 7 ) ; a < = ( x + 9 ) ; a + + ) {
if ( a > = size ) {
afterCount + + ;
} else {
if ( local [ ( y * size ) + a ] = = ' 0 ' ) {
afterCount + + ;
} else {
afterCount = 0 ;
}
}
}
if ( ( beforeCount = = 3 ) | | ( afterCount = = 3 ) ) {
/* Pattern is preceeded or followed by light area
3 modules wide */
result + = 50 ;
}
}
}
}
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/* Test 2: Adjacent modules in row/column in same colour */
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/* In AIMD-15 section 5.8.3.2 it is stated... “In Table 9 below, i refers to the row
* position of the module . ” - however i being the length of the run of the
* same colour ( i . e . " block " below ) in the same fashion as ISO / IEC 18004
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* makes more sense . - - Confirmed by Wang Yi */
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/* Vertical */
for ( x = 0 ; x < size ; x + + ) {
state = local [ x ] ;
block = 0 ;
for ( y = 0 ; y < size ; y + + ) {
if ( local [ ( y * size ) + x ] = = state ) {
block + + ;
} else {
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if ( block > 3 ) {
result + = ( 3 + block ) * 4 ;
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}
block = 0 ;
state = local [ ( y * size ) + x ] ;
}
}
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if ( block > 3 ) {
result + = ( 3 + block ) * 4 ;
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}
}
/* Horizontal */
for ( y = 0 ; y < size ; y + + ) {
state = local [ y * size ] ;
block = 0 ;
for ( x = 0 ; x < size ; x + + ) {
if ( local [ ( y * size ) + x ] = = state ) {
block + + ;
} else {
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if ( block > 3 ) {
result + = ( 3 + block ) * 4 ;
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}
block = 0 ;
state = local [ ( y * size ) + x ] ;
}
}
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if ( block > 3 ) {
result + = ( 3 + block ) * 4 ;
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}
}
return result ;
}
/* Apply the four possible bitmasks for evaluation */
int hx_apply_bitmask ( unsigned char * grid , int size ) {
int x , y ;
int i , j ;
int pattern , penalty [ 4 ] ;
int best_pattern , best_val ;
int bit ;
unsigned char p ;
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# ifndef _MSC_VER
unsigned char mask [ size * size ] ;
unsigned char eval [ size * size ] ;
# else
unsigned char * mask = ( unsigned char * ) _alloca ( ( size * size ) * sizeof ( unsigned char ) ) ;
unsigned char * eval = ( unsigned char * ) _alloca ( ( size * size ) * sizeof ( unsigned char ) ) ;
# endif
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/* Perform data masking */
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
mask [ ( y * size ) + x ] = 0x00 ;
j = x + 1 ;
i = y + 1 ;
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if ( ! ( grid [ ( y * size ) + x ] & 0xf0 ) ) {
if ( ( i + j ) % 2 = = 0 ) {
mask [ ( y * size ) + x ] + = 0x02 ;
}
if ( ( ( ( i + j ) % 3 ) + ( j % 3 ) ) % 2 = = 0 ) {
mask [ ( y * size ) + x ] + = 0x04 ;
}
if ( ( ( i % j ) + ( j % i ) + ( i % 3 ) + ( j % 3 ) ) % 2 = = 0 ) {
mask [ ( y * size ) + x ] + = 0x08 ;
}
}
}
}
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// apply data masks to grid, result in eval
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
if ( grid [ ( y * size ) + x ] & 0x01 ) {
p = 0xff ;
} else {
p = 0x00 ;
}
eval [ ( y * size ) + x ] = mask [ ( y * size ) + x ] ^ p ;
}
}
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/* Evaluate result */
for ( pattern = 0 ; pattern < 4 ; pattern + + ) {
penalty [ pattern ] = hx_evaluate ( eval , size , pattern ) ;
}
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best_pattern = 0 ;
best_val = penalty [ 0 ] ;
for ( pattern = 1 ; pattern < 4 ; pattern + + ) {
if ( penalty [ pattern ] < best_val ) {
best_pattern = pattern ;
best_val = penalty [ pattern ] ;
}
}
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/* Apply mask */
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
bit = 0 ;
switch ( best_pattern ) {
case 0 : if ( mask [ ( y * size ) + x ] & 0x01 ) {
bit = 1 ;
}
break ;
case 1 : if ( mask [ ( y * size ) + x ] & 0x02 ) {
bit = 1 ;
}
break ;
case 2 : if ( mask [ ( y * size ) + x ] & 0x04 ) {
bit = 1 ;
}
break ;
case 3 : if ( mask [ ( y * size ) + x ] & 0x08 ) {
bit = 1 ;
}
break ;
}
if ( bit = = 1 ) {
if ( grid [ ( y * size ) + x ] & 0x01 ) {
grid [ ( y * size ) + x ] = 0x00 ;
} else {
grid [ ( y * size ) + x ] = 0x01 ;
}
}
}
}
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return best_pattern ;
}
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/* Han Xin Code - main */
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int han_xin ( struct zint_symbol * symbol , const unsigned char source [ ] , size_t length ) {
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int est_binlen ;
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int ecc_level = symbol - > option_1 ;
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int i , j , version ;
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int data_codewords = 0 , size ;
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int codewords ;
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int bitmask ;
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int bin_len ;
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char function_information [ 36 ] ;
unsigned char fi_cw [ 3 ] = { 0 , 0 , 0 } ;
unsigned char fi_ecc [ 4 ] ;
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# ifndef _MSC_VER
int utfdata [ length + 1 ] ;
int gbdata [ ( length + 1 ) * 2 ] ;
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char mode [ length + 1 ] ;
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# else
int * utfdata = ( int * ) _alloca ( ( length + 1 ) * sizeof ( int ) ) ;
int * gbdata = ( int * ) _alloca ( ( ( length + 1 ) * 2 ) * sizeof ( int ) ) ;
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char * mode = ( char * ) _alloca ( ( length + 1 ) * sizeof ( char ) ) ;
char * binary ;
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unsigned char * datastream ;
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unsigned char * fullstream ;
unsigned char * picket_fence ;
unsigned char * grid ;
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# endif
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if ( ( symbol - > input_mode = = DATA_MODE ) | | ( symbol - > eci ! = 3 ) ) {
for ( i = 0 ; i < length ; i + + ) {
gbdata [ i ] = ( int ) source [ i ] ;
}
} else {
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int posn ;
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/* Convert Unicode input to GB-18030 */
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int error_number = utf8toutf16 ( symbol , source , utfdata , & length ) ;
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if ( error_number ! = 0 ) {
return error_number ;
}
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posn = 0 ;
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for ( i = 0 ; i < length ; i + + ) {
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int done = 0 ;
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gbdata [ posn ] = 0 ;
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/* Single byte characters in range U+0000 -> U+007F */
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if ( utfdata [ i ] < = 0x7f ) {
gbdata [ posn ] = utfdata [ i ] ;
posn + + ;
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done = 1 ;
}
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/* Two bytes characters in GB-2312 */
if ( done = = 0 ) {
j = 0 ;
do {
if ( gb2312_lookup [ j * 2 ] = = utfdata [ i ] ) {
gbdata [ posn ] = gb2312_lookup [ ( j * 2 ) + 1 ] ;
posn + + ;
done = 1 ;
}
j + + ;
} while ( ( j < 7445 ) & & ( done = = 0 ) ) ;
}
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/* Two byte characters in GB-18030 */
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if ( done = = 0 ) {
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j = 0 ;
do {
if ( gb18030_twobyte_lookup [ j * 2 ] = = utfdata [ i ] ) {
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gbdata [ posn ] = gb18030_twobyte_lookup [ ( j * 2 ) + 1 ] ;
posn + + ;
done = 1 ;
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}
j + + ;
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} while ( ( j < 16495 ) & & ( done = = 0 ) ) ;
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}
/* Four byte characters in range U+0080 -> U+FFFF */
if ( done = = 0 ) {
j = 0 ;
do {
if ( gb18030_fourbyte_lookup [ j * 3 ] = = utfdata [ i ] ) {
gbdata [ posn ] = gb18030_fourbyte_lookup [ ( j * 3 ) + 1 ] ;
gbdata [ posn + 1 ] = gb18030_fourbyte_lookup [ ( j * 3 ) + 2 ] ;
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posn + = 2 ;
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done = 1 ;
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}
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j + + ;
} while ( ( j < 6793 ) & & ( done = = 0 ) ) ;
}
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/* Supplementary planes U+10000 -> U+1FFFF */
if ( done = = 0 ) {
if ( utfdata [ i ] > = 0x10000 & & utfdata [ i ] < 0x110000 ) {
/* algorithm from libiconv-1.15\lib\gb18030.h */
int j , r3 , r2 , r1 , r0 ;
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j = utfdata [ i ] - 0x10000 ;
r3 = ( j % 10 ) + 0x30 ; j = j / 10 ;
r2 = ( j % 126 ) + 0x81 ; j = j / 126 ;
r1 = ( j % 10 ) + 0x30 ; j = j / 10 ;
r0 = j + 0x90 ;
gbdata [ posn ] = ( r0 < < 8 ) + r1 ;
gbdata [ posn + 1 ] = ( r2 < < 8 ) + r3 ;
posn + = 2 ;
done = 1 ;
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}
}
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/* Character not found */
if ( done = = 0 ) {
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strcpy ( symbol - > errtxt , " 540: Unknown character in input data " ) ;
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return ZINT_ERROR_INVALID_DATA ;
}
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}
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length = posn ;
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}
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hx_define_mode ( mode , gbdata , length ) ;
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est_binlen = calculate_binlength ( mode , gbdata , length , symbol - > eci ) ;
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# ifndef _MSC_VER
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char binary [ est_binlen + 10 ] ;
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# else
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binary = ( char * ) _alloca ( ( est_binlen + 10 ) * sizeof ( char ) ) ;
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# endif
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memset ( binary , 0 , ( est_binlen + 1 ) * sizeof ( char ) ) ;
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if ( ( ecc_level < = 0 ) | | ( ecc_level > = 5 ) ) {
ecc_level = 1 ;
}
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2017-04-11 12:05:38 +03:00
calculate_binary ( binary , mode , gbdata , length , symbol - > eci , symbol - > debug ) ;
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bin_len = strlen ( binary ) ;
codewords = bin_len / 8 ;
if ( bin_len % 8 ! = 0 ) {
codewords + + ;
}
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2016-04-09 19:01:21 +03:00
version = 85 ;
for ( i = 84 ; i > 0 ; i - - ) {
switch ( ecc_level ) {
case 1 :
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if ( hx_data_codewords_L1 [ i - 1 ] > codewords ) {
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version = i ;
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data_codewords = hx_data_codewords_L1 [ i - 1 ] ;
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}
break ;
case 2 :
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if ( hx_data_codewords_L2 [ i - 1 ] > codewords ) {
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version = i ;
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data_codewords = hx_data_codewords_L2 [ i - 1 ] ;
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}
break ;
case 3 :
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if ( hx_data_codewords_L3 [ i - 1 ] > codewords ) {
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version = i ;
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data_codewords = hx_data_codewords_L3 [ i - 1 ] ;
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}
break ;
case 4 :
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if ( hx_data_codewords_L4 [ i - 1 ] > codewords ) {
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version = i ;
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data_codewords = hx_data_codewords_L4 [ i - 1 ] ;
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}
break ;
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default :
assert ( 0 ) ;
break ;
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}
}
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if ( version = = 85 ) {
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strcpy ( symbol - > errtxt , " 541: Input too long for selected error correction level " ) ;
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return ZINT_ERROR_TOO_LONG ;
}
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2016-04-30 12:25:16 +03:00
if ( ( symbol - > option_2 < 0 ) | | ( symbol - > option_2 > 84 ) ) {
symbol - > option_2 = 0 ;
}
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if ( symbol - > option_2 > version ) {
version = symbol - > option_2 ;
}
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2017-04-11 11:26:39 +03:00
if ( ( symbol - > option_2 ! = 0 ) & & ( symbol - > option_2 < version ) ) {
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strcpy ( symbol - > errtxt , " 542: Input too long for selected symbol size " ) ;
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return ZINT_ERROR_TOO_LONG ;
}
2016-09-06 00:06:50 +03:00
2016-04-30 12:25:16 +03:00
/* If there is spare capacity, increase the level of ECC */
2016-09-06 00:06:50 +03:00
2017-04-10 10:06:53 +03:00
if ( ( ecc_level = = 1 ) & & ( codewords < hx_data_codewords_L2 [ version - 1 ] ) ) {
2016-08-22 20:07:27 +03:00
ecc_level = 2 ;
data_codewords = hx_data_codewords_L2 [ version - 1 ] ;
}
2017-04-10 10:06:53 +03:00
if ( ( ecc_level = = 2 ) & & ( codewords < hx_data_codewords_L3 [ version - 1 ] ) ) {
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ecc_level = 3 ;
data_codewords = hx_data_codewords_L3 [ version - 1 ] ;
}
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if ( ( ecc_level = = 3 ) & & ( codewords < hx_data_codewords_L4 [ version - 1 ] ) ) {
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ecc_level = 4 ;
data_codewords = hx_data_codewords_L4 [ version - 1 ] ;
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}
2016-09-06 00:06:50 +03:00
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//printf("Version %d, ECC %d\n", version, ecc_level);
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size = ( version * 2 ) + 21 ;
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# ifndef _MSC_VER
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unsigned char datastream [ data_codewords ] ;
unsigned char fullstream [ hx_total_codewords [ version - 1 ] ] ;
unsigned char picket_fence [ hx_total_codewords [ version - 1 ] ] ;
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unsigned char grid [ size * size ] ;
# else
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datastream = ( unsigned char * ) _alloca ( ( data_codewords ) * sizeof ( unsigned char ) ) ;
fullstream = ( unsigned char * ) _alloca ( ( hx_total_codewords [ version - 1 ] ) * sizeof ( unsigned char ) ) ;
picket_fence = ( unsigned char * ) _alloca ( ( hx_total_codewords [ version - 1 ] ) * sizeof ( unsigned char ) ) ;
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grid = ( unsigned char * ) _alloca ( ( size * size ) * sizeof ( unsigned char ) ) ;
# endif
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for ( i = 0 ; i < data_codewords ; i + + ) {
datastream [ i ] = 0 ;
}
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for ( i = 0 ; i < bin_len ; i + + ) {
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if ( binary [ i ] = = ' 1 ' ) {
datastream [ i / 8 ] + = 0x80 > > ( i % 8 ) ;
}
}
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hx_setup_grid ( grid , size , version ) ;
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hx_add_ecc ( fullstream , datastream , version , ecc_level ) ;
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make_picket_fence ( fullstream , picket_fence , hx_total_codewords [ version - 1 ] ) ;
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/* Populate grid */
j = 0 ;
for ( i = 0 ; i < ( size * size ) ; i + + ) {
if ( grid [ i ] = = 0x00 ) {
if ( j < ( hx_total_codewords [ version - 1 ] * 8 ) ) {
if ( picket_fence [ ( j / 8 ) ] & ( 0x80 > > ( j % 8 ) ) ) {
grid [ i ] = 0x01 ;
}
j + + ;
}
}
}
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bitmask = hx_apply_bitmask ( grid , size ) ;
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/* Form function information string */
for ( i = 0 ; i < 34 ; i + + ) {
if ( i % 2 ) {
function_information [ i ] = ' 1 ' ;
} else {
function_information [ i ] = ' 0 ' ;
}
}
function_information [ 34 ] = ' \0 ' ;
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for ( i = 0 ; i < 8 ; i + + ) {
if ( ( version + 20 ) & ( 0x80 > > i ) ) {
function_information [ i ] = ' 1 ' ;
} else {
function_information [ i ] = ' 0 ' ;
}
}
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for ( i = 0 ; i < 2 ; i + + ) {
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if ( ( ecc_level - 1 ) & ( 0x02 > > i ) ) {
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function_information [ i + 8 ] = ' 1 ' ;
} else {
function_information [ i + 8 ] = ' 0 ' ;
}
}
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2016-04-23 17:26:51 +03:00
for ( i = 0 ; i < 2 ; i + + ) {
if ( bitmask & ( 0x02 > > i ) ) {
function_information [ i + 10 ] = ' 1 ' ;
} else {
function_information [ i + 10 ] = ' 0 ' ;
}
}
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for ( i = 0 ; i < 3 ; i + + ) {
for ( j = 0 ; j < 4 ; j + + ) {
if ( function_information [ ( i * 4 ) + j ] = = ' 1 ' ) {
fi_cw [ i ] + = ( 0x08 > > j ) ;
}
}
}
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rs_init_gf ( 0x13 ) ;
rs_init_code ( 4 , 1 ) ;
rs_encode ( 3 , fi_cw , fi_ecc ) ;
rs_free ( ) ;
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for ( i = 0 ; i < 4 ; i + + ) {
for ( j = 0 ; j < 4 ; j + + ) {
if ( fi_ecc [ 3 - i ] & ( 0x08 > > j ) ) {
function_information [ ( i * 4 ) + j + 12 ] = ' 1 ' ;
} else {
function_information [ ( i * 4 ) + j + 12 ] = ' 0 ' ;
}
}
}
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/* Add function information to symbol */
for ( i = 0 ; i < 9 ; i + + ) {
if ( function_information [ i ] = = ' 1 ' ) {
grid [ ( 8 * size ) + i ] = 0x01 ;
grid [ ( ( size - 8 - 1 ) * size ) + ( size - i - 1 ) ] = 0x01 ;
}
if ( function_information [ i + 8 ] = = ' 1 ' ) {
grid [ ( ( 8 - i ) * size ) + 8 ] = 0x01 ;
grid [ ( ( size - 8 - 1 + i ) * size ) + ( size - 8 - 1 ) ] = 0x01 ;
}
if ( function_information [ i + 17 ] = = ' 1 ' ) {
grid [ ( i * size ) + ( size - 1 - 8 ) ] = 0x01 ;
grid [ ( ( size - 1 - i ) * size ) + 8 ] = 0x01 ;
}
if ( function_information [ i + 25 ] = = ' 1 ' ) {
grid [ ( 8 * size ) + ( size - 1 - 8 + i ) ] = 0x01 ;
grid [ ( ( size - 1 - 8 ) * size ) + ( 8 - i ) ] = 0x01 ;
}
}
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symbol - > width = size ;
symbol - > rows = size ;
for ( i = 0 ; i < size ; i + + ) {
for ( j = 0 ; j < size ; j + + ) {
if ( grid [ ( i * size ) + j ] & 0x01 ) {
set_module ( symbol , i , j ) ;
}
}
symbol - > row_height [ i ] = 1 ;
}
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return 0 ;
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}
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