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/* qr.c Handles QR Code */
/*
libzint - the open source barcode library
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Copyright ( C ) 2009 - 2016 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 :
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1. Redistributions of source code must retain the above copyright
notice , this list of conditions and the following disclaimer .
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2. Redistributions in binary form must reproduce the above copyright
notice , this list of conditions and the following disclaimer in the
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documentation and / or other materials provided with the distribution .
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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
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without specific prior written permission .
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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
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OUT OF THE USE OF THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF
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SUCH DAMAGE .
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*/
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# include <string.h>
# ifdef _MSC_VER
# include <malloc.h>
# endif
# include "common.h"
# include <stdio.h>
# include "sjis.h"
# include "qr.h"
# include "reedsol.h"
# include <stdlib.h> /* abs */
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# include <assert.h>
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/* Returns true if input glyph is in the Alphanumeric set */
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int in_alpha ( int glyph ) {
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int retval = 0 ;
char cglyph = ( char ) glyph ;
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if ( ( cglyph > = ' 0 ' ) & & ( cglyph < = ' 9 ' ) ) {
retval = 1 ;
}
if ( ( cglyph > = ' A ' ) & & ( cglyph < = ' Z ' ) ) {
retval = 1 ;
}
switch ( cglyph ) {
case ' ' :
case ' $ ' :
case ' % ' :
case ' * ' :
case ' + ' :
case ' - ' :
case ' . ' :
case ' / ' :
case ' : ' :
retval = 1 ;
break ;
}
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return retval ;
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}
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void define_mode ( char mode [ ] , int jisdata [ ] , int length , int gs1 ) {
/* Values placed into mode[] are: K = Kanji, B = Binary, A = Alphanumeric, N = Numeric */
int i , mlen , j ;
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for ( i = 0 ; i < length ; i + + ) {
if ( jisdata [ i ] > 0xff ) {
mode [ i ] = ' K ' ;
} else {
mode [ i ] = ' B ' ;
if ( in_alpha ( jisdata [ i ] ) ) {
mode [ i ] = ' A ' ;
}
if ( gs1 & & ( jisdata [ i ] = = ' [ ' ) ) {
mode [ i ] = ' A ' ;
}
if ( ( jisdata [ i ] > = ' 0 ' ) & & ( jisdata [ i ] < = ' 9 ' ) ) {
mode [ i ] = ' N ' ;
}
}
}
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/* If less than 6 numeric digits together then don't use numeric mode */
for ( i = 0 ; i < length ; i + + ) {
if ( mode [ i ] = = ' N ' ) {
if ( ( ( i ! = 0 ) & & ( mode [ i - 1 ] ! = ' N ' ) ) | | ( i = = 0 ) ) {
mlen = 0 ;
while ( ( ( mlen + i ) < length ) & & ( mode [ mlen + i ] = = ' N ' ) ) {
mlen + + ;
} ;
if ( mlen < 6 ) {
for ( j = 0 ; j < mlen ; j + + ) {
mode [ i + j ] = ' A ' ;
}
}
}
}
}
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/* If less than 4 alphanumeric characters together then don't use alphanumeric mode */
for ( i = 0 ; i < length ; i + + ) {
if ( mode [ i ] = = ' A ' ) {
if ( ( ( i ! = 0 ) & & ( mode [ i - 1 ] ! = ' A ' ) ) | | ( i = = 0 ) ) {
mlen = 0 ;
while ( ( ( mlen + i ) < length ) & & ( mode [ mlen + i ] = = ' A ' ) ) {
mlen + + ;
} ;
if ( mlen < 6 ) {
for ( j = 0 ; j < mlen ; j + + ) {
mode [ i + j ] = ' B ' ;
}
}
}
}
}
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}
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/* Make an estimate (worst case scenario) of how long the binary string will be */
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int estimate_binary_length ( char mode [ ] , int length , int gs1 , int eci ) {
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int i , count = 0 ;
char current = 0 ;
int a_count = 0 ;
int n_count = 0 ;
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if ( gs1 ) {
count + = 4 ;
}
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if ( eci ! = 3 ) {
count + = 12 ;
}
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for ( i = 0 ; i < length ; i + + ) {
if ( mode [ i ] ! = current ) {
switch ( mode [ i ] ) {
case ' K ' : count + = 12 + 4 ;
current = ' K ' ;
break ;
case ' B ' : count + = 16 + 4 ;
current = ' B ' ;
break ;
case ' A ' : count + = 13 + 4 ;
current = ' A ' ;
a_count = 0 ;
break ;
case ' N ' : count + = 14 + 4 ;
current = ' N ' ;
n_count = 0 ;
break ;
}
}
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switch ( mode [ i ] ) {
case ' K ' : count + = 13 ;
break ;
case ' B ' : count + = 8 ;
break ;
case ' A ' :
a_count + + ;
if ( ( a_count & 1 ) = = 0 ) {
count + = 5 ; // 11 in total
a_count = 0 ;
} else
count + = 6 ;
break ;
case ' N ' :
n_count + + ;
if ( ( n_count % 3 ) = = 0 ) {
count + = 3 ; // 10 in total
n_count = 0 ;
} else if ( ( n_count & 1 ) = = 0 )
count + = 3 ; // 7 in total
else
count + = 4 ;
break ;
}
}
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return count ;
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}
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static void qr_bscan ( char * binary , int data , int h ) {
for ( ; h ; h > > = 1 ) {
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strcat ( binary , data & h ? " 1 " : " 0 " ) ;
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}
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}
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/* Convert input data to a binary stream and add padding */
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void qr_binary ( int datastream [ ] , int version , int target_binlen , char mode [ ] , int jisdata [ ] , int length , int gs1 , int eci , int est_binlen ) {
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int position = 0 , debug = 0 ;
int short_data_block_length , i , scheme = 1 ;
char data_block , padbits ;
int current_binlen , current_bytes ;
int toggle , percent ;
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# ifndef _MSC_VER
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char binary [ est_binlen + 12 ] ;
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# else
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char * binary = ( char * ) _alloca ( est_binlen + 12 ) ;
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# endif
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strcpy ( binary , " " ) ;
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if ( gs1 ) {
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strcat ( binary , " 0101 " ) ; /* FNC1 */
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}
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if ( eci ! = 3 ) {
strcat ( binary , " 0111 " ) ; /* ECI */
qr_bscan ( binary , eci , 0x80 ) ;
}
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if ( version < = 9 ) {
scheme = 1 ;
} else if ( ( version > = 10 ) & & ( version < = 26 ) ) {
scheme = 2 ;
} else if ( version > = 27 ) {
scheme = 3 ;
}
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if ( debug ) {
for ( i = 0 ; i < length ; i + + ) {
printf ( " %c " , mode [ i ] ) ;
}
printf ( " \n " ) ;
}
percent = 0 ;
do {
data_block = mode [ position ] ;
short_data_block_length = 0 ;
do {
short_data_block_length + + ;
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} while ( ( ( short_data_block_length + position ) < length )
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& & ( mode [ position + short_data_block_length ] = = data_block ) ) ;
switch ( data_block ) {
case ' K ' :
/* Kanji mode */
/* Mode indicator */
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strcat ( binary , " 1000 " ) ;
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/* Character count indicator */
qr_bscan ( binary , short_data_block_length , 0x20 < < ( scheme * 2 ) ) ; /* scheme = 1..3 */
if ( debug ) {
printf ( " Kanji block (length %d) \n \t " , short_data_block_length ) ;
}
/* Character representation */
for ( i = 0 ; i < short_data_block_length ; i + + ) {
int jis = jisdata [ position + i ] ;
int msb , lsb , prod ;
if ( jis > 0x9fff ) {
jis - = 0xc140 ;
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}
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msb = ( jis & 0xff00 ) > > 4 ;
lsb = ( jis & 0xff ) ;
prod = ( msb * 0xc0 ) + lsb ;
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qr_bscan ( binary , prod , 0x1000 ) ;
if ( debug ) {
printf ( " 0x%4X " , prod ) ;
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}
}
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if ( debug ) {
printf ( " \n " ) ;
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}
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break ;
case ' B ' :
/* Byte mode */
/* Mode indicator */
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strcat ( binary , " 0100 " ) ;
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/* Character count indicator */
qr_bscan ( binary , short_data_block_length , scheme > 1 ? 0x8000 : 0x80 ) ; /* scheme = 1..3 */
if ( debug ) {
printf ( " Byte block (length %d) \n \t " , short_data_block_length ) ;
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}
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/* Character representation */
for ( i = 0 ; i < short_data_block_length ; i + + ) {
int byte = jisdata [ position + i ] ;
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if ( gs1 & & ( byte = = ' [ ' ) ) {
byte = 0x1d ; /* FNC1 */
}
qr_bscan ( binary , byte , 0x80 ) ;
if ( debug ) {
printf ( " 0x%2X(%d) " , byte , byte ) ;
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}
}
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if ( debug ) {
printf ( " \n " ) ;
}
break ;
case ' A ' :
/* Alphanumeric mode */
/* Mode indicator */
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strcat ( binary , " 0010 " ) ;
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/* Character count indicator */
qr_bscan ( binary , short_data_block_length , 0x40 < < ( 2 * scheme ) ) ; /* scheme = 1..3 */
if ( debug ) {
printf ( " Alpha block (length %d) \n \t " , short_data_block_length ) ;
}
/* Character representation */
i = 0 ;
while ( i < short_data_block_length ) {
int count ;
int first = 0 , second = 0 , prod ;
if ( percent = = 0 ) {
if ( gs1 & & ( jisdata [ position + i ] = = ' % ' ) ) {
first = posn ( RHODIUM , ' % ' ) ;
second = posn ( RHODIUM , ' % ' ) ;
count = 2 ;
prod = ( first * 45 ) + second ;
i + + ;
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} else {
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if ( gs1 & & ( jisdata [ position + i ] = = ' [ ' ) ) {
first = posn ( RHODIUM , ' % ' ) ; /* FNC1 */
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} else {
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first = posn ( RHODIUM , ( char ) jisdata [ position + i ] ) ;
}
count = 1 ;
i + + ;
prod = first ;
if ( i < short_data_block_length & & mode [ position + i ] = = ' A ' ) {
if ( gs1 & & ( jisdata [ position + i ] = = ' % ' ) ) {
second = posn ( RHODIUM , ' % ' ) ;
count = 2 ;
prod = ( first * 45 ) + second ;
percent = 1 ;
} else {
if ( gs1 & & ( jisdata [ position + i ] = = ' [ ' ) ) {
second = posn ( RHODIUM , ' % ' ) ; /* FNC1 */
} else {
second = posn ( RHODIUM , ( char ) jisdata [ position + i ] ) ;
}
count = 2 ;
i + + ;
prod = ( first * 45 ) + second ;
}
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}
}
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} else {
first = posn ( RHODIUM , ' % ' ) ;
count = 1 ;
i + + ;
prod = first ;
percent = 0 ;
if ( i < short_data_block_length & & mode [ position + i ] = = ' A ' ) {
if ( gs1 & & ( jisdata [ position + i ] = = ' % ' ) ) {
second = posn ( RHODIUM , ' % ' ) ;
count = 2 ;
prod = ( first * 45 ) + second ;
percent = 1 ;
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} else {
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if ( gs1 & & ( jisdata [ position + i ] = = ' [ ' ) ) {
second = posn ( RHODIUM , ' % ' ) ; /* FNC1 */
} else {
second = posn ( RHODIUM , ( char ) jisdata [ position + i ] ) ;
}
count = 2 ;
i + + ;
prod = ( first * 45 ) + second ;
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}
}
}
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qr_bscan ( binary , prod , count = = 2 ? 0x400 : 0x20 ) ; /* count = 1..2 */
if ( debug ) {
printf ( " 0x%4X " , prod ) ;
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}
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} ;
if ( debug ) {
printf ( " \n " ) ;
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}
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break ;
case ' N ' :
/* Numeric mode */
/* Mode indicator */
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strcat ( binary , " 0001 " ) ;
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/* Character count indicator */
qr_bscan ( binary , short_data_block_length , 0x80 < < ( 2 * scheme ) ) ; /* scheme = 1..3 */
if ( debug ) {
printf ( " Number block (length %d) \n \t " , short_data_block_length ) ;
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}
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/* Character representation */
i = 0 ;
while ( i < short_data_block_length ) {
int count ;
int first = 0 , second = 0 , third = 0 , prod ;
first = posn ( NEON , ( char ) jisdata [ position + i ] ) ;
count = 1 ;
prod = first ;
if ( i + 1 < short_data_block_length & & mode [ position + i + 1 ] = = ' N ' ) {
second = posn ( NEON , ( char ) jisdata [ position + i + 1 ] ) ;
count = 2 ;
prod = ( prod * 10 ) + second ;
if ( i + 2 < short_data_block_length & & mode [ position + i + 2 ] = = ' N ' ) {
third = posn ( NEON , ( char ) jisdata [ position + i + 2 ] ) ;
count = 3 ;
prod = ( prod * 10 ) + third ;
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}
}
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qr_bscan ( binary , prod , 1 < < ( 3 * count ) ) ; /* count = 1..3 */
if ( debug ) {
printf ( " 0x%4X (%d) " , prod , prod ) ;
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}
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i + = count ;
} ;
if ( debug ) {
printf ( " \n " ) ;
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}
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break ;
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}
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position + = short_data_block_length ;
} while ( position < length ) ;
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/* Terminator */
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strcat ( binary , " 0000 " ) ;
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current_binlen = strlen ( binary ) ;
padbits = 8 - ( current_binlen % 8 ) ;
if ( padbits = = 8 ) {
padbits = 0 ;
}
current_bytes = ( current_binlen + padbits ) / 8 ;
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/* Padding bits */
for ( i = 0 ; i < padbits ; i + + ) {
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strcat ( binary , " 0 " ) ;
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}
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/* Put data into 8-bit codewords */
for ( i = 0 ; i < current_bytes ; i + + ) {
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int p ;
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datastream [ i ] = 0x00 ;
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for ( p = 0 ; p < 8 ; p + + ) {
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if ( binary [ i * 8 + p ] = = ' 1 ' ) {
datastream [ i ] + = ( 0x80 > > p ) ;
}
}
}
/* Add pad codewords */
toggle = 0 ;
for ( i = current_bytes ; i < target_binlen ; i + + ) {
if ( toggle = = 0 ) {
datastream [ i ] = 0xec ;
toggle = 1 ;
} else {
datastream [ i ] = 0x11 ;
toggle = 0 ;
}
}
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if ( debug ) {
printf ( " Resulting codewords: \n \t " ) ;
for ( i = 0 ; i < target_binlen ; i + + ) {
printf ( " 0x%2X " , datastream [ i ] ) ;
}
printf ( " \n " ) ;
}
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}
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/* Split data into blocks, add error correction and then interleave the blocks and error correction data */
void add_ecc ( int fullstream [ ] , int datastream [ ] , int version , int data_cw , int blocks ) {
int ecc_cw = qr_total_codewords [ version - 1 ] - data_cw ;
int short_data_block_length = data_cw / blocks ;
int qty_long_blocks = data_cw % blocks ;
int qty_short_blocks = blocks - qty_long_blocks ;
int ecc_block_length = ecc_cw / blocks ;
int i , j , length_this_block , posn , debug = 0 ;
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# ifndef _MSC_VER
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unsigned char data_block [ short_data_block_length + 2 ] ;
unsigned char ecc_block [ ecc_block_length + 2 ] ;
int interleaved_data [ data_cw + 2 ] ;
int interleaved_ecc [ ecc_cw + 2 ] ;
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# else
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unsigned char * data_block = ( unsigned char * ) _alloca ( short_data_block_length + 2 ) ;
unsigned char * ecc_block = ( unsigned char * ) _alloca ( ecc_block_length + 2 ) ;
int * interleaved_data = ( int * ) _alloca ( ( data_cw + 2 ) * sizeof ( int ) ) ;
int * interleaved_ecc = ( int * ) _alloca ( ( ecc_cw + 2 ) * sizeof ( int ) ) ;
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# endif
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posn = 0 ;
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for ( i = 0 ; i < blocks ; i + + ) {
if ( i < qty_short_blocks ) {
length_this_block = short_data_block_length ;
} else {
length_this_block = short_data_block_length + 1 ;
}
for ( j = 0 ; j < ecc_block_length ; j + + ) {
ecc_block [ j ] = 0 ;
}
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for ( j = 0 ; j < length_this_block ; j + + ) {
data_block [ j ] = ( unsigned char ) datastream [ posn + j ] ;
}
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rs_init_gf ( 0x11d ) ;
rs_init_code ( ecc_block_length , 0 ) ;
rs_encode ( length_this_block , data_block , ecc_block ) ;
rs_free ( ) ;
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if ( debug ) {
printf ( " Block %d: " , i + 1 ) ;
for ( j = 0 ; j < length_this_block ; j + + ) {
printf ( " %2X " , data_block [ j ] ) ;
}
if ( i < qty_short_blocks ) {
printf ( " " ) ;
}
printf ( " // " ) ;
for ( j = 0 ; j < ecc_block_length ; j + + ) {
printf ( " %2X " , ecc_block [ ecc_block_length - j - 1 ] ) ;
}
printf ( " \n " ) ;
}
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for ( j = 0 ; j < short_data_block_length ; j + + ) {
interleaved_data [ ( j * blocks ) + i ] = ( int ) data_block [ j ] ;
}
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if ( i > = qty_short_blocks ) {
interleaved_data [ ( short_data_block_length * blocks ) + ( i - qty_short_blocks ) ] = ( int ) data_block [ short_data_block_length ] ;
}
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for ( j = 0 ; j < ecc_block_length ; j + + ) {
interleaved_ecc [ ( j * blocks ) + i ] = ( int ) ecc_block [ ecc_block_length - j - 1 ] ;
}
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posn + = length_this_block ;
}
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for ( j = 0 ; j < data_cw ; j + + ) {
fullstream [ j ] = interleaved_data [ j ] ;
}
for ( j = 0 ; j < ecc_cw ; j + + ) {
fullstream [ j + data_cw ] = interleaved_ecc [ j ] ;
}
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if ( debug ) {
printf ( " \n Data Stream: \n " ) ;
for ( j = 0 ; j < ( data_cw + ecc_cw ) ; j + + ) {
printf ( " %2X " , fullstream [ j ] ) ;
}
printf ( " \n " ) ;
}
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}
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void place_finder ( unsigned char grid [ ] , int size , int x , int y ) {
int xp , yp ;
int finder [ ] = {
1 , 1 , 1 , 1 , 1 , 1 , 1 ,
1 , 0 , 0 , 0 , 0 , 0 , 1 ,
1 , 0 , 1 , 1 , 1 , 0 , 1 ,
1 , 0 , 1 , 1 , 1 , 0 , 1 ,
1 , 0 , 1 , 1 , 1 , 0 , 1 ,
1 , 0 , 0 , 0 , 0 , 0 , 1 ,
1 , 1 , 1 , 1 , 1 , 1 , 1
} ;
for ( xp = 0 ; xp < 7 ; xp + + ) {
for ( yp = 0 ; yp < 7 ; yp + + ) {
if ( finder [ xp + ( 7 * yp ) ] = = 1 ) {
grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x11 ;
} else {
grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x10 ;
}
}
}
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}
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void place_align ( unsigned char grid [ ] , int size , int x , int y ) {
int xp , yp ;
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int alignment [ ] = {
1 , 1 , 1 , 1 , 1 ,
1 , 0 , 0 , 0 , 1 ,
1 , 0 , 1 , 0 , 1 ,
1 , 0 , 0 , 0 , 1 ,
1 , 1 , 1 , 1 , 1
} ;
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x - = 2 ;
y - = 2 ; /* Input values represent centre of pattern */
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for ( xp = 0 ; xp < 5 ; xp + + ) {
for ( yp = 0 ; yp < 5 ; yp + + ) {
if ( alignment [ xp + ( 5 * yp ) ] = = 1 ) {
grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x11 ;
} else {
grid [ ( ( yp + y ) * size ) + ( xp + x ) ] = 0x10 ;
}
}
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}
}
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void setup_grid ( unsigned char * grid , int size , int version ) {
int i , toggle = 1 ;
int loopsize , x , y , xcoord , ycoord ;
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/* Add timing patterns */
for ( i = 0 ; i < size ; i + + ) {
if ( toggle = = 1 ) {
grid [ ( 6 * size ) + i ] = 0x21 ;
grid [ ( i * size ) + 6 ] = 0x21 ;
toggle = 0 ;
} else {
grid [ ( 6 * size ) + i ] = 0x20 ;
grid [ ( i * size ) + 6 ] = 0x20 ;
toggle = 1 ;
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}
}
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/* Add finder patterns */
place_finder ( grid , size , 0 , 0 ) ;
place_finder ( grid , size , 0 , size - 7 ) ;
place_finder ( grid , size , size - 7 , 0 ) ;
/* Add separators */
for ( i = 0 ; i < 7 ; i + + ) {
grid [ ( 7 * size ) + i ] = 0x10 ;
grid [ ( i * size ) + 7 ] = 0x10 ;
grid [ ( 7 * size ) + ( size - 1 - i ) ] = 0x10 ;
grid [ ( i * size ) + ( size - 8 ) ] = 0x10 ;
grid [ ( ( size - 8 ) * size ) + i ] = 0x10 ;
grid [ ( ( size - 1 - i ) * size ) + 7 ] = 0x10 ;
}
grid [ ( 7 * size ) + 7 ] = 0x10 ;
grid [ ( 7 * size ) + ( size - 8 ) ] = 0x10 ;
grid [ ( ( size - 8 ) * size ) + 7 ] = 0x10 ;
/* Add alignment patterns */
if ( version ! = 1 ) {
/* Version 1 does not have alignment patterns */
loopsize = qr_align_loopsize [ version - 1 ] ;
for ( x = 0 ; x < loopsize ; x + + ) {
for ( y = 0 ; y < loopsize ; y + + ) {
xcoord = qr_table_e1 [ ( ( version - 2 ) * 7 ) + x ] ;
ycoord = qr_table_e1 [ ( ( version - 2 ) * 7 ) + y ] ;
if ( ! ( grid [ ( ycoord * size ) + xcoord ] & 0x10 ) ) {
place_align ( grid , size , xcoord , ycoord ) ;
}
}
}
}
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/* Reserve space for format information */
for ( i = 0 ; i < 8 ; i + + ) {
grid [ ( 8 * size ) + i ] + = 0x20 ;
grid [ ( i * size ) + 8 ] + = 0x20 ;
grid [ ( 8 * size ) + ( size - 1 - i ) ] = 0x20 ;
grid [ ( ( size - 1 - i ) * size ) + 8 ] = 0x20 ;
}
grid [ ( 8 * size ) + 8 ] + = 20 ;
grid [ ( ( size - 1 - 7 ) * size ) + 8 ] = 0x21 ; /* Dark Module from Figure 25 */
/* Reserve space for version information */
if ( version > = 7 ) {
for ( i = 0 ; i < 6 ; i + + ) {
grid [ ( ( size - 9 ) * size ) + i ] = 0x20 ;
grid [ ( ( size - 10 ) * size ) + i ] = 0x20 ;
grid [ ( ( size - 11 ) * size ) + i ] = 0x20 ;
grid [ ( i * size ) + ( size - 9 ) ] = 0x20 ;
grid [ ( i * size ) + ( size - 10 ) ] = 0x20 ;
grid [ ( i * size ) + ( size - 11 ) ] = 0x20 ;
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}
}
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}
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int cwbit ( int * datastream , int i ) {
int resultant = 0 ;
if ( datastream [ ( i / 8 ) ] & ( 0x80 > > ( i % 8 ) ) ) {
resultant = 1 ;
}
return resultant ;
}
void populate_grid ( unsigned char * grid , int size , int * datastream , int cw ) {
int direction = 1 ; /* up */
int row = 0 ; /* right hand side */
int i , n , x , y ;
n = cw * 8 ;
y = size - 1 ;
i = 0 ;
do {
x = ( size - 2 ) - ( row * 2 ) ;
if ( x < 6 )
x - - ; /* skip over vertical timing pattern */
if ( ! ( grid [ ( y * size ) + ( x + 1 ) ] & 0xf0 ) ) {
if ( cwbit ( datastream , i ) ) {
grid [ ( y * size ) + ( x + 1 ) ] = 0x01 ;
} else {
grid [ ( y * size ) + ( x + 1 ) ] = 0x00 ;
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}
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i + + ;
}
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if ( i < n ) {
if ( ! ( grid [ ( y * size ) + x ] & 0xf0 ) ) {
if ( cwbit ( datastream , i ) ) {
grid [ ( y * size ) + x ] = 0x01 ;
} else {
grid [ ( y * size ) + x ] = 0x00 ;
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}
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i + + ;
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}
}
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if ( direction ) {
y - - ;
} else {
y + + ;
}
if ( y = = - 1 ) {
/* reached the top */
row + + ;
y = 0 ;
direction = 0 ;
}
if ( y = = size ) {
/* reached the bottom */
row + + ;
y = size - 1 ;
direction = 1 ;
}
} while ( i < n ) ;
}
# ifdef ZINTLOG
int append_log ( char log ) {
FILE * file ;
file = fopen ( " zintlog.txt " , " a+ " ) ;
fprintf ( file , " %c " , log ) ;
fclose ( file ) ;
return 0 ;
}
int write_log ( char log [ ] ) {
FILE * file ;
file = fopen ( " zintlog.txt " , " a+ " ) ;
fprintf ( file , log ) ; /*writes*/
fprintf ( file , " \r \n " ) ; /*writes*/
fclose ( file ) ;
return 0 ;
}
# endif
int evaluate ( unsigned char * eval , int size , int pattern ) {
int x , y , block , weight ;
int result = 0 ;
char state ;
int p ;
int dark_mods ;
int percentage , k ;
int a , b , afterCount , beforeCount ;
# ifdef ZINTLOG
int result_b = 0 ;
char str [ 15 ] ;
# endif
# ifndef _MSC_VER
char local [ size * size ] ;
# else
char * local = ( char * ) _alloca ( ( size * size ) * sizeof ( char ) ) ;
# endif
# ifdef ZINTLOG
write_log ( " " ) ;
sprintf ( str , " %d " , pattern ) ;
write_log ( str ) ;
# endif
/* all eight bitmask variants have been encoded in the 8 bits of the bytes
* 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 ' ;
}
}
}
# ifdef ZINTLOG
//bitmask output
for ( y = 0 ; y < size ; y + + ) {
strcpy ( str , " " ) ;
for ( x = 0 ; x < size ; x + + ) {
state = local [ ( y * size ) + x ] ;
append_log ( state ) ;
}
write_log ( " " ) ;
}
write_log ( " " ) ;
# endif
/* Test 1: Adjacent modules in row/column in same colour */
/* 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 {
if ( block > 5 ) {
result + = ( 3 + ( block - 5 ) ) ;
}
block = 0 ;
state = local [ ( y * size ) + x ] ;
}
}
if ( block > 5 ) {
result + = ( 3 + ( block - 5 ) ) ;
}
}
/* 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 {
if ( block > 5 ) {
result + = ( 3 + ( block - 5 ) ) ;
}
block = 0 ;
state = local [ ( y * size ) + x ] ;
}
}
if ( block > 5 ) {
result + = ( 3 + ( block - 5 ) ) ;
}
}
# ifdef ZINTLOG
/* output Test 1 */
sprintf ( str , " %d " , result ) ;
result_b = result ;
write_log ( str ) ;
# endif
/* Test 2: Block of modules in same color */
for ( x = 0 ; x < size - 1 ; x + + ) {
for ( y = 0 ; y < size - 1 ; y + + ) {
if ( ( ( local [ ( y * size ) + x ] = = local [ ( ( y + 1 ) * size ) + x ] ) & &
( local [ ( y * size ) + x ] = = local [ ( y * size ) + ( x + 1 ) ] ) ) & &
( local [ ( y * size ) + x ] = = local [ ( ( y + 1 ) * size ) + ( x + 1 ) ] ) ) {
result + = 3 ;
}
}
}
# ifdef ZINTLOG
/* output Test 2 */
sprintf ( str , " %d " , result - result_b ) ;
result_b = result ;
write_log ( str ) ;
# endif
/* Test 3: 1:1:3:1:1 ratio pattern in row/column */
/* 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 ) ;
}
}
if ( p = = 0x5d ) {
/* Pattern found, check before and after */
beforeCount = 0 ;
for ( b = ( y - 4 ) ; 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 + 10 ) ; a + + ) {
if ( a > = size ) {
afterCount + + ;
} else {
if ( local [ ( a * size ) + x ] = = ' 0 ' ) {
afterCount + + ;
} else {
afterCount = 0 ;
}
}
}
if ( ( beforeCount = = 4 ) | | ( afterCount = = 4 ) ) {
/* Pattern is preceeded or followed by light area
4 modules wide */
result + = 40 ;
}
}
}
}
/* 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 ) ;
}
}
if ( p = = 0x5d ) {
/* Pattern found, check before and after */
beforeCount = 0 ;
for ( b = ( x - 4 ) ; 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 + 10 ) ; a + + ) {
if ( a > = size ) {
afterCount + + ;
} else {
if ( local [ ( y * size ) + a ] = = ' 0 ' ) {
afterCount + + ;
} else {
afterCount = 0 ;
}
}
}
if ( ( beforeCount = = 4 ) | | ( afterCount = = 4 ) ) {
/* Pattern is preceeded or followed by light area
4 modules wide */
result + = 40 ;
}
}
}
}
# ifdef ZINTLOG
/* output Test 3 */
sprintf ( str , " %d " , result - result_b ) ;
result_b = result ;
write_log ( str ) ;
# endif
/* Test 4: Proportion of dark modules in entire symbol */
dark_mods = 0 ;
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
if ( local [ ( y * size ) + x ] = = ' 1 ' ) {
dark_mods + + ;
}
}
}
percentage = 100 * ( dark_mods / ( size * size ) ) ;
if ( percentage < = 50 ) {
k = ( ( 100 - percentage ) - 50 ) / 5 ;
} else {
k = ( percentage - 50 ) / 5 ;
}
result + = 10 * k ;
# ifdef ZINTLOG
/* output Test 4+summary */
sprintf ( str , " %d " , result - result_b ) ;
write_log ( str ) ;
write_log ( " ========== " ) ;
sprintf ( str , " %d " , result ) ;
write_log ( str ) ;
# endif
return result ;
}
void add_format_info_eval ( unsigned char * eval , int size , int ecc_level , int pattern ) {
/* Add format information to grid */
int format = pattern ;
unsigned int seq ;
int i ;
switch ( ecc_level ) {
case LEVEL_L : format + = 0x08 ;
break ;
case LEVEL_Q : format + = 0x18 ;
break ;
case LEVEL_H : format + = 0x10 ;
break ;
}
seq = qr_annex_c [ format ] ;
for ( i = 0 ; i < 6 ; i + + ) {
eval [ ( i * size ) + 8 ] = ( seq > > i ) & 0x01 ? ( 0x01 > > pattern ) : 0x00 ;
}
for ( i = 0 ; i < 8 ; i + + ) {
eval [ ( 8 * size ) + ( size - i - 1 ) ] = ( seq > > i ) & 0x01 ? ( 0x01 > > pattern ) : 0x00 ;
}
for ( i = 0 ; i < 6 ; i + + ) {
eval [ ( 8 * size ) + ( 5 - i ) ] = ( seq > > ( i + 9 ) ) & 0x01 ? ( 0x01 > > pattern ) : 0x00 ;
}
for ( i = 0 ; i < 7 ; i + + ) {
eval [ ( ( ( size - 7 ) + i ) * size ) + 8 ] = ( seq > > ( i + 8 ) ) & 0x01 ? ( 0x01 > > pattern ) : 0x00 ;
}
eval [ ( 7 * size ) + 8 ] = ( seq > > 6 ) & 0x01 ? ( 0x01 > > pattern ) : 0x00 ;
eval [ ( 8 * size ) + 8 ] = ( seq > > 7 ) & 0x01 ? ( 0x01 > > pattern ) : 0x00 ;
eval [ ( 8 * size ) + 7 ] = ( seq > > 8 ) & 0x01 ? ( 0x01 > > pattern ) : 0x00 ;
}
int apply_bitmask ( unsigned char * grid , int size , int ecc_level ) {
int x , y ;
unsigned char p ;
int pattern , penalty [ 8 ] ;
int best_val , best_pattern ;
# 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
/* Perform data masking */
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
mask [ ( y * size ) + x ] = 0x00 ;
// all eight bitmask variants are encoded in the 8 bits of the bytes that make up the mask array.
if ( ! ( grid [ ( y * size ) + x ] & 0xf0 ) ) { // exclude areas not to be masked.
if ( ( ( y + x ) & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x01 ;
}
if ( ( y & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x02 ;
}
if ( ( x % 3 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x04 ;
}
if ( ( ( y + x ) % 3 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x08 ;
}
if ( ( ( ( y / 2 ) + ( x / 3 ) ) & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x10 ;
}
if ( ( ( ( y * x ) & 1 ) + ( ( y * x ) % 3 ) ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x20 ;
}
if ( ( ( ( ( y * x ) & 1 ) + ( ( y * x ) % 3 ) ) & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x40 ;
}
if ( ( ( ( ( y + x ) & 1 ) + ( ( y * x ) % 3 ) ) & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x80 ;
}
}
}
}
// 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 ;
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} else {
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p = 0x00 ;
}
eval [ ( y * size ) + x ] = mask [ ( y * size ) + x ] ^ p ;
}
}
/* Evaluate result */
for ( pattern = 0 ; pattern < 8 ; pattern + + ) {
add_format_info_eval ( eval , size , ecc_level , pattern ) ;
penalty [ pattern ] = evaluate ( eval , size , pattern ) ;
}
best_pattern = 0 ;
best_val = penalty [ 0 ] ;
for ( pattern = 1 ; pattern < 8 ; pattern + + ) {
if ( penalty [ pattern ] < best_val ) {
best_pattern = pattern ;
best_val = penalty [ pattern ] ;
}
}
# ifdef ZINTLOG
char str [ 15 ] ;
sprintf ( str , " %d " , best_val ) ;
write_log ( " choosed pattern: " ) ;
write_log ( str ) ;
# endif
/* Apply mask */
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
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if ( mask [ ( y * size ) + x ] & ( 0x01 < < best_pattern ) ) {
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if ( grid [ ( y * size ) + x ] & 0x01 ) {
grid [ ( y * size ) + x ] = 0x00 ;
} else {
grid [ ( y * size ) + x ] = 0x01 ;
}
}
}
}
return best_pattern ;
}
/* Add format information to grid */
void add_format_info ( unsigned char * grid , int size , int ecc_level , int pattern ) {
int format = pattern ;
unsigned int seq ;
int i ;
switch ( ecc_level ) {
case LEVEL_L : format + = 0x08 ;
break ;
case LEVEL_Q : format + = 0x18 ;
break ;
case LEVEL_H : format + = 0x10 ;
break ;
}
seq = qr_annex_c [ format ] ;
for ( i = 0 ; i < 6 ; i + + ) {
grid [ ( i * size ) + 8 ] + = ( seq > > i ) & 0x01 ;
}
for ( i = 0 ; i < 8 ; i + + ) {
grid [ ( 8 * size ) + ( size - i - 1 ) ] + = ( seq > > i ) & 0x01 ;
}
for ( i = 0 ; i < 6 ; i + + ) {
grid [ ( 8 * size ) + ( 5 - i ) ] + = ( seq > > ( i + 9 ) ) & 0x01 ;
}
for ( i = 0 ; i < 7 ; i + + ) {
grid [ ( ( ( size - 7 ) + i ) * size ) + 8 ] + = ( seq > > ( i + 8 ) ) & 0x01 ;
}
grid [ ( 7 * size ) + 8 ] + = ( seq > > 6 ) & 0x01 ;
grid [ ( 8 * size ) + 8 ] + = ( seq > > 7 ) & 0x01 ;
grid [ ( 8 * size ) + 7 ] + = ( seq > > 8 ) & 0x01 ;
}
/* Add version information */
void add_version_info ( unsigned char * grid , int size , int version ) {
int i ;
long int version_data = qr_annex_d [ version - 7 ] ;
for ( i = 0 ; i < 6 ; i + + ) {
grid [ ( ( size - 11 ) * size ) + i ] + = ( version_data > > ( i * 3 ) ) & 0x41 ;
grid [ ( ( size - 10 ) * size ) + i ] + = ( version_data > > ( ( i * 3 ) + 1 ) ) & 0x41 ;
grid [ ( ( size - 9 ) * size ) + i ] + = ( version_data > > ( ( i * 3 ) + 2 ) ) & 0x41 ;
grid [ ( i * size ) + ( size - 11 ) ] + = ( version_data > > ( i * 3 ) ) & 0x41 ;
grid [ ( i * size ) + ( size - 10 ) ] + = ( version_data > > ( ( i * 3 ) + 1 ) ) & 0x41 ;
grid [ ( i * size ) + ( size - 9 ) ] + = ( version_data > > ( ( i * 3 ) + 2 ) ) & 0x41 ;
}
}
/* Choose from three numbers based on version */
int tribus ( int version , int a , int b , int c ) {
int RetVal ;
RetVal = c ;
if ( version < 10 ) {
RetVal = a ;
}
if ( ( version > = 10 ) & & ( version < = 26 ) ) {
RetVal = b ;
}
return RetVal ;
}
/* Implements a custom optimisation algorithm, more efficient than that
given in Annex J . */
void applyOptimisation ( int version , char inputMode [ ] , int inputLength ) {
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int blockCount = 0 , block ;
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int i , j ;
char currentMode = ' ' ; // Null
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int * blockLength ;
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char * blockMode ;
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for ( i = 0 ; i < inputLength ; i + + ) {
if ( inputMode [ i ] ! = currentMode ) {
currentMode = inputMode [ i ] ;
blockCount + + ;
}
}
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blockLength = ( int * ) malloc ( sizeof ( int ) * blockCount ) ;
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assert ( blockLength ) ;
if ( ! blockLength ) return ;
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blockMode = ( char * ) malloc ( sizeof ( char ) * blockCount ) ;
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assert ( blockMode ) ;
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if ( ! blockMode ) {
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free ( blockLength ) ;
return ;
}
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j = - 1 ;
currentMode = ' ' ; // Null
for ( i = 0 ; i < inputLength ; i + + ) {
if ( inputMode [ i ] ! = currentMode ) {
j + + ;
blockLength [ j ] = 1 ;
blockMode [ j ] = inputMode [ i ] ;
currentMode = inputMode [ i ] ;
} else {
blockLength [ j ] + + ;
}
}
if ( blockCount > 1 ) {
// Search forward
for ( i = 0 ; i < = ( blockCount - 2 ) ; i + + ) {
if ( blockMode [ i ] = = ' B ' ) {
switch ( blockMode [ i + 1 ] ) {
case ' K ' :
if ( blockLength [ i + 1 ] < tribus ( version , 4 , 5 , 6 ) ) {
blockMode [ i + 1 ] = ' B ' ;
}
break ;
case ' A ' :
if ( blockLength [ i + 1 ] < tribus ( version , 7 , 8 , 9 ) ) {
blockMode [ i + 1 ] = ' B ' ;
}
break ;
case ' N ' :
if ( blockLength [ i + 1 ] < tribus ( version , 3 , 4 , 5 ) ) {
blockMode [ i + 1 ] = ' B ' ;
}
break ;
}
}
if ( ( blockMode [ i ] = = ' A ' )
& & ( blockMode [ i + 1 ] = = ' N ' ) ) {
if ( blockLength [ i + 1 ] < tribus ( version , 6 , 8 , 10 ) ) {
blockMode [ i + 1 ] = ' A ' ;
}
}
}
// Search backward
for ( i = blockCount - 1 ; i > 0 ; i - - ) {
if ( blockMode [ i ] = = ' B ' ) {
switch ( blockMode [ i - 1 ] ) {
case ' K ' :
if ( blockLength [ i - 1 ] < tribus ( version , 4 , 5 , 6 ) ) {
blockMode [ i - 1 ] = ' B ' ;
}
break ;
case ' A ' :
if ( blockLength [ i - 1 ] < tribus ( version , 7 , 8 , 9 ) ) {
blockMode [ i - 1 ] = ' B ' ;
}
break ;
case ' N ' :
if ( blockLength [ i - 1 ] < tribus ( version , 3 , 4 , 5 ) ) {
blockMode [ i - 1 ] = ' B ' ;
}
break ;
}
}
if ( ( blockMode [ i ] = = ' A ' )
& & ( blockMode [ i - 1 ] = = ' N ' ) ) {
if ( blockLength [ i - 1 ] < tribus ( version , 6 , 8 , 10 ) ) {
blockMode [ i - 1 ] = ' A ' ;
}
}
}
}
j = 0 ;
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for ( block = 0 ; block < blockCount ; block + + ) {
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currentMode = blockMode [ block ] ;
for ( i = 0 ; i < blockLength [ block ] ; i + + ) {
inputMode [ j ] = currentMode ;
j + + ;
}
}
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free ( blockLength ) ;
free ( blockMode ) ;
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}
int blockLength ( int start , char inputMode [ ] , int inputLength ) {
/* Find the length of the block starting from 'start' */
int i , count ;
char mode = inputMode [ start ] ;
count = 0 ;
i = start ;
do {
count + + ;
} while ( ( ( i + count ) < inputLength ) & & ( inputMode [ i + count ] = = mode ) ) ;
return count ;
}
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int getBinaryLength ( int version , char inputMode [ ] , int inputData [ ] , int inputLength , int gs1 , int eci ) {
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/* Calculate the actual bitlength of the proposed binary string */
char currentMode ;
int i , j ;
int count = 0 ;
applyOptimisation ( version , inputMode , inputLength ) ;
currentMode = ' ' ; // Null
if ( gs1 = = 1 ) {
count + = 4 ;
}
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if ( eci ! = 3 ) {
count + = 12 ;
}
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for ( i = 0 ; i < inputLength ; i + + ) {
if ( inputMode [ i ] ! = currentMode ) {
count + = 4 ;
switch ( inputMode [ i ] ) {
case ' K ' :
count + = tribus ( version , 8 , 10 , 12 ) ;
count + = ( blockLength ( i , inputMode , inputLength ) * 13 ) ;
break ;
case ' B ' :
count + = tribus ( version , 8 , 16 , 16 ) ;
for ( j = i ; j < ( i + blockLength ( i , inputMode , inputLength ) ) ; j + + ) {
if ( inputData [ j ] > 0xff ) {
count + = 16 ;
} else {
count + = 8 ;
}
}
break ;
case ' A ' :
count + = tribus ( version , 9 , 11 , 13 ) ;
switch ( blockLength ( i , inputMode , inputLength ) % 2 ) {
case 0 :
count + = ( blockLength ( i , inputMode , inputLength ) / 2 ) * 11 ;
break ;
case 1 :
count + = ( ( blockLength ( i , inputMode , inputLength ) - 1 ) / 2 ) * 11 ;
count + = 6 ;
break ;
}
break ;
case ' N ' :
count + = tribus ( version , 10 , 12 , 14 ) ;
switch ( blockLength ( i , inputMode , inputLength ) % 3 ) {
case 0 :
count + = ( blockLength ( i , inputMode , inputLength ) / 3 ) * 10 ;
break ;
case 1 :
count + = ( ( blockLength ( i , inputMode , inputLength ) - 1 ) / 3 ) * 10 ;
count + = 4 ;
break ;
case 2 :
count + = ( ( blockLength ( i , inputMode , inputLength ) - 2 ) / 3 ) * 10 ;
count + = 7 ;
break ;
}
break ;
}
currentMode = inputMode [ i ] ;
}
}
return count ;
}
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int qr_code ( struct zint_symbol * symbol , const unsigned char source [ ] , int length ) {
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int error_number , i , j , glyph , est_binlen ;
int ecc_level , autosize , version , max_cw , target_binlen , blocks , size ;
int bitmask , gs1 ;
int canShrink ;
# ifndef _MSC_VER
int utfdata [ length + 1 ] ;
int jisdata [ length + 1 ] ;
char mode [ length + 1 ] ;
# else
int * datastream ;
int * fullstream ;
unsigned char * grid ;
int * utfdata = ( int * ) _alloca ( ( length + 1 ) * sizeof ( int ) ) ;
int * jisdata = ( int * ) _alloca ( ( length + 1 ) * sizeof ( int ) ) ;
char * mode = ( char * ) _alloca ( length + 1 ) ;
# endif
gs1 = ( symbol - > input_mode = = GS1_MODE ) ;
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if ( ( symbol - > input_mode = = DATA_MODE ) | | ( symbol - > eci ! = 3 ) ) {
for ( i = 0 ; i < length ; i + + ) {
jisdata [ i ] = ( int ) source [ i ] ;
}
} else {
/* Convert Unicode input to Shift-JIS */
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 ) {
jisdata [ i ] = utfdata [ i ] ;
} else {
j = 0 ;
glyph = 0 ;
do {
if ( sjis_lookup [ j * 2 ] = = utfdata [ i ] ) {
glyph = sjis_lookup [ ( j * 2 ) + 1 ] ;
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}
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j + + ;
} while ( ( j < 6843 ) & & ( glyph = = 0 ) ) ;
if ( glyph = = 0 ) {
strcpy ( symbol - > errtxt , " Invalid character in input data " ) ;
return ZINT_ERROR_INVALID_DATA ;
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}
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jisdata [ i ] = glyph ;
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}
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}
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}
define_mode ( mode , jisdata , length , gs1 ) ;
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est_binlen = estimate_binary_length ( mode , length , gs1 , symbol - > eci ) ;
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ecc_level = LEVEL_L ;
max_cw = 2956 ;
if ( ( symbol - > option_1 > = 1 ) & & ( symbol - > option_1 < = 4 ) ) {
switch ( symbol - > option_1 ) {
case 1 : ecc_level = LEVEL_L ;
max_cw = 2956 ;
break ;
case 2 : ecc_level = LEVEL_M ;
max_cw = 2334 ;
break ;
case 3 : ecc_level = LEVEL_Q ;
max_cw = 1666 ;
break ;
case 4 : ecc_level = LEVEL_H ;
max_cw = 1276 ;
break ;
}
}
if ( est_binlen > ( 8 * max_cw ) ) {
strcpy ( symbol - > errtxt , " Input too long for selected error correction level " ) ;
return ZINT_ERROR_TOO_LONG ;
}
autosize = 40 ;
for ( i = 39 ; i > = 0 ; i - - ) {
switch ( ecc_level ) {
case LEVEL_L :
if ( ( 8 * qr_data_codewords_L [ i ] ) > = est_binlen ) {
autosize = i + 1 ;
}
break ;
case LEVEL_M :
if ( ( 8 * qr_data_codewords_M [ i ] ) > = est_binlen ) {
autosize = i + 1 ;
}
break ;
case LEVEL_Q :
if ( ( 8 * qr_data_codewords_Q [ i ] ) > = est_binlen ) {
autosize = i + 1 ;
}
break ;
case LEVEL_H :
if ( ( 8 * qr_data_codewords_H [ i ] ) > = est_binlen ) {
autosize = i + 1 ;
}
break ;
}
}
// Now see if the optimised binary will fit in a smaller symbol.
canShrink = 1 ;
do {
if ( autosize = = 1 ) {
canShrink = 0 ;
} else {
if ( tribus ( autosize - 1 , 1 , 2 , 3 ) ! = tribus ( autosize , 1 , 2 , 3 ) ) {
// Length of binary needed to encode the data in the smaller symbol is different, recalculate
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est_binlen = getBinaryLength ( autosize - 1 , mode , jisdata , length , gs1 , symbol - > eci ) ;
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}
switch ( ecc_level ) {
case LEVEL_L :
if ( ( 8 * qr_data_codewords_L [ autosize - 2 ] ) < est_binlen ) {
canShrink = 0 ;
}
break ;
case LEVEL_M :
if ( ( 8 * qr_data_codewords_M [ autosize - 2 ] ) < est_binlen ) {
canShrink = 0 ;
}
break ;
case LEVEL_Q :
if ( ( 8 * qr_data_codewords_Q [ autosize - 2 ] ) < est_binlen ) {
canShrink = 0 ;
}
break ;
case LEVEL_H :
if ( ( 8 * qr_data_codewords_H [ autosize - 2 ] ) < est_binlen ) {
canShrink = 0 ;
}
break ;
}
if ( canShrink = = 1 ) {
// Optimisation worked - data will fit in a smaller symbol
autosize - - ;
} else {
// Data did not fit in the smaller symbol, revert to original size
if ( tribus ( autosize - 1 , 1 , 2 , 3 ) ! = tribus ( autosize , 1 , 2 , 3 ) ) {
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est_binlen = getBinaryLength ( autosize , mode , jisdata , length , gs1 , symbol - > eci ) ;
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}
}
}
} while ( canShrink = = 1 ) ;
version = autosize ;
if ( ( symbol - > option_2 > = 1 ) & & ( symbol - > option_2 < = 40 ) ) {
/* If the user has selected a larger symbol than the smallest available,
then use the size the user has selected , and re - optimise for this
symbol size .
*/
if ( symbol - > option_2 > version ) {
version = symbol - > option_2 ;
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est_binlen = getBinaryLength ( symbol - > option_2 , mode , jisdata , length , gs1 , symbol - > eci ) ;
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}
}
/* Ensure maxium error correction capacity */
if ( est_binlen < = qr_data_codewords_M [ version - 1 ] ) {
ecc_level = LEVEL_M ;
}
if ( est_binlen < = qr_data_codewords_Q [ version - 1 ] ) {
ecc_level = LEVEL_Q ;
}
if ( est_binlen < = qr_data_codewords_H [ version - 1 ] ) {
ecc_level = LEVEL_H ;
}
target_binlen = qr_data_codewords_L [ version - 1 ] ;
blocks = qr_blocks_L [ version - 1 ] ;
switch ( ecc_level ) {
case LEVEL_M : target_binlen = qr_data_codewords_M [ version - 1 ] ;
blocks = qr_blocks_M [ version - 1 ] ;
break ;
case LEVEL_Q : target_binlen = qr_data_codewords_Q [ version - 1 ] ;
blocks = qr_blocks_Q [ version - 1 ] ;
break ;
case LEVEL_H : target_binlen = qr_data_codewords_H [ version - 1 ] ;
blocks = qr_blocks_H [ version - 1 ] ;
break ;
}
# ifndef _MSC_VER
int datastream [ target_binlen + 1 ] ;
int fullstream [ qr_total_codewords [ version - 1 ] + 1 ] ;
# else
datastream = ( int * ) _alloca ( ( target_binlen + 1 ) * sizeof ( int ) ) ;
fullstream = ( int * ) _alloca ( ( qr_total_codewords [ version - 1 ] + 1 ) * sizeof ( int ) ) ;
# endif
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qr_binary ( datastream , version , target_binlen , mode , jisdata , length , gs1 , symbol - > eci , est_binlen ) ;
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add_ecc ( fullstream , datastream , version , target_binlen , blocks ) ;
size = qr_sizes [ version - 1 ] ;
# ifndef _MSC_VER
unsigned char grid [ size * size ] ;
# else
grid = ( unsigned char * ) _alloca ( ( size * size ) * sizeof ( unsigned char ) ) ;
# endif
for ( i = 0 ; i < size ; i + + ) {
for ( j = 0 ; j < size ; j + + ) {
grid [ ( i * size ) + j ] = 0 ;
}
}
setup_grid ( grid , size , version ) ;
populate_grid ( grid , size , fullstream , qr_total_codewords [ version - 1 ] ) ;
if ( version > = 7 ) {
add_version_info ( grid , size , version ) ;
}
bitmask = apply_bitmask ( grid , size , ecc_level ) ;
add_format_info ( grid , size , ecc_level , bitmask ) ;
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 ;
}
return 0 ;
}
/* NOTE: From this point forward concerns Micro QR Code only */
int micro_qr_intermediate ( char binary [ ] , int jisdata [ ] , char mode [ ] , int length , int * kanji_used , int * alphanum_used , int * byte_used ) {
/* Convert input data to an "intermediate stage" where data is binary encoded but
control information is not */
int position = 0 , debug = 0 ;
int short_data_block_length , i ;
char data_block ;
char buffer [ 2 ] ;
strcpy ( binary , " " ) ;
if ( debug ) {
for ( i = 0 ; i < length ; i + + ) {
printf ( " %c " , mode [ i ] ) ;
}
printf ( " \n " ) ;
}
do {
if ( strlen ( binary ) > 128 ) {
return ZINT_ERROR_TOO_LONG ;
}
data_block = mode [ position ] ;
short_data_block_length = 0 ;
do {
short_data_block_length + + ;
} while ( ( ( short_data_block_length + position ) < length ) & & ( mode [ position + short_data_block_length ] = = data_block ) ) ;
switch ( data_block ) {
case ' K ' :
/* Kanji mode */
/* Mode indicator */
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strcat ( binary , " K " ) ;
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* kanji_used = 1 ;
/* Character count indicator */
buffer [ 0 ] = short_data_block_length ;
buffer [ 1 ] = ' \0 ' ;
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strcat ( binary , buffer ) ;
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if ( debug ) {
printf ( " Kanji block (length %d) \n \t " , short_data_block_length ) ;
}
/* Character representation */
for ( i = 0 ; i < short_data_block_length ; i + + ) {
int jis = jisdata [ position + i ] ;
int msb , lsb , prod ;
if ( jis > 0x9fff ) {
jis - = 0xc140 ;
}
msb = ( jis & 0xff00 ) > > 4 ;
lsb = ( jis & 0xff ) ;
prod = ( msb * 0xc0 ) + lsb ;
qr_bscan ( binary , prod , 0x1000 ) ;
if ( debug ) {
printf ( " 0x%4X " , prod ) ;
}
if ( strlen ( binary ) > 128 ) {
return ZINT_ERROR_TOO_LONG ;
}
}
if ( debug ) {
printf ( " \n " ) ;
}
break ;
case ' B ' :
/* Byte mode */
/* Mode indicator */
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strcat ( binary , " B " ) ;
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* byte_used = 1 ;
/* Character count indicator */
buffer [ 0 ] = short_data_block_length ;
buffer [ 1 ] = ' \0 ' ;
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strcat ( binary , buffer ) ;
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if ( debug ) {
printf ( " Byte block (length %d) \n \t " , short_data_block_length ) ;
}
/* Character representation */
for ( i = 0 ; i < short_data_block_length ; i + + ) {
int byte = jisdata [ position + i ] ;
qr_bscan ( binary , byte , 0x80 ) ;
if ( debug ) {
printf ( " 0x%4X " , byte ) ;
}
if ( strlen ( binary ) > 128 ) {
return ZINT_ERROR_TOO_LONG ;
}
}
if ( debug ) {
printf ( " \n " ) ;
}
break ;
case ' A ' :
/* Alphanumeric mode */
/* Mode indicator */
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strcat ( binary , " A " ) ;
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* alphanum_used = 1 ;
/* Character count indicator */
buffer [ 0 ] = short_data_block_length ;
buffer [ 1 ] = ' \0 ' ;
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strcat ( binary , buffer ) ;
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if ( debug ) {
printf ( " Alpha block (length %d) \n \t " , short_data_block_length ) ;
}
/* Character representation */
i = 0 ;
while ( i < short_data_block_length ) {
int count ;
int first = 0 , second = 0 , prod ;
first = posn ( RHODIUM , ( char ) jisdata [ position + i ] ) ;
count = 1 ;
prod = first ;
if ( i + 1 < short_data_block_length & & mode [ position + i + 1 ] = = ' A ' ) {
second = posn ( RHODIUM , ( char ) jisdata [ position + i + 1 ] ) ;
count = 2 ;
prod = ( first * 45 ) + second ;
}
qr_bscan ( binary , prod , 1 < < ( 5 * count ) ) ; /* count = 1..2 */
if ( debug ) {
printf ( " 0x%4X " , prod ) ;
}
if ( strlen ( binary ) > 128 ) {
return ZINT_ERROR_TOO_LONG ;
}
i + = 2 ;
} ;
if ( debug ) {
printf ( " \n " ) ;
}
break ;
case ' N ' :
/* Numeric mode */
/* Mode indicator */
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strcat ( binary , " N " ) ;
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/* Character count indicator */
buffer [ 0 ] = short_data_block_length ;
buffer [ 1 ] = ' \0 ' ;
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strcat ( binary , buffer ) ;
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if ( debug ) {
printf ( " Number block (length %d) \n \t " , short_data_block_length ) ;
}
/* Character representation */
i = 0 ;
while ( i < short_data_block_length ) {
int count ;
int first = 0 , second = 0 , third = 0 , prod ;
first = posn ( NEON , ( char ) jisdata [ position + i ] ) ;
count = 1 ;
prod = first ;
if ( i + 1 < short_data_block_length & & mode [ position + i + 1 ] = = ' N ' ) {
second = posn ( NEON , ( char ) jisdata [ position + i + 1 ] ) ;
count = 2 ;
prod = ( prod * 10 ) + second ;
}
if ( i + 2 < short_data_block_length & & mode [ position + i + 2 ] = = ' N ' ) {
third = posn ( NEON , ( char ) jisdata [ position + i + 2 ] ) ;
count = 3 ;
prod = ( prod * 10 ) + third ;
}
qr_bscan ( binary , prod , 1 < < ( 3 * count ) ) ; /* count = 1..3 */
if ( debug ) {
printf ( " 0x%4X (%d) " , prod , prod ) ;
}
if ( strlen ( binary ) > 128 ) {
return ZINT_ERROR_TOO_LONG ;
}
i + = 3 ;
} ;
if ( debug ) {
printf ( " \n " ) ;
}
break ;
}
position + = short_data_block_length ;
} while ( position < length - 1 ) ;
return 0 ;
}
void get_bitlength ( int count [ ] , char stream [ ] ) {
int length , i ;
length = strlen ( stream ) ;
for ( i = 0 ; i < 4 ; i + + ) {
count [ i ] = 0 ;
}
i = 0 ;
do {
if ( ( stream [ i ] = = ' 0 ' ) | | ( stream [ i ] = = ' 1 ' ) ) {
count [ 0 ] + + ;
count [ 1 ] + + ;
count [ 2 ] + + ;
count [ 3 ] + + ;
i + + ;
} else {
switch ( stream [ i ] ) {
case ' K ' :
count [ 2 ] + = 5 ;
count [ 3 ] + = 7 ;
i + = 2 ;
break ;
case ' B ' :
count [ 2 ] + = 6 ;
count [ 3 ] + = 8 ;
i + = 2 ;
break ;
case ' A ' :
count [ 1 ] + = 4 ;
count [ 2 ] + = 6 ;
count [ 3 ] + = 8 ;
i + = 2 ;
break ;
case ' N ' :
count [ 0 ] + = 3 ;
count [ 1 ] + = 5 ;
count [ 2 ] + = 7 ;
count [ 3 ] + = 9 ;
i + = 2 ;
break ;
}
}
} while ( i < length ) ;
}
void microqr_expand_binary ( char binary_stream [ ] , char full_stream [ ] , int version ) {
int i , length ;
length = strlen ( binary_stream ) ;
i = 0 ;
do {
switch ( binary_stream [ i ] ) {
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case ' 1 ' : strcat ( full_stream , " 1 " ) ;
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i + + ;
break ;
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case ' 0 ' : strcat ( full_stream , " 0 " ) ;
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i + + ;
break ;
case ' N ' :
/* Numeric Mode */
/* Mode indicator */
switch ( version ) {
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case 1 : strcat ( full_stream , " 0 " ) ;
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break ;
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case 2 : strcat ( full_stream , " 00 " ) ;
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break ;
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case 3 : strcat ( full_stream , " 000 " ) ;
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break ;
}
/* Character count indicator */
qr_bscan ( full_stream , binary_stream [ i + 1 ] , 4 < < version ) ; /* version = 0..3 */
i + = 2 ;
break ;
case ' A ' :
/* Alphanumeric Mode */
/* Mode indicator */
switch ( version ) {
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case 1 : strcat ( full_stream , " 1 " ) ;
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break ;
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case 2 : strcat ( full_stream , " 01 " ) ;
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break ;
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case 3 : strcat ( full_stream , " 001 " ) ;
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break ;
}
/* Character count indicator */
qr_bscan ( full_stream , binary_stream [ i + 1 ] , 2 < < version ) ; /* version = 1..3 */
i + = 2 ;
break ;
case ' B ' :
/* Byte Mode */
/* Mode indicator */
switch ( version ) {
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case 2 : strcat ( full_stream , " 10 " ) ;
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break ;
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case 3 : strcat ( full_stream , " 010 " ) ;
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break ;
}
/* Character count indicator */
qr_bscan ( full_stream , binary_stream [ i + 1 ] , 2 < < version ) ; /* version = 2..3 */
i + = 2 ;
break ;
case ' K ' :
/* Kanji Mode */
/* Mode indicator */
switch ( version ) {
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case 2 : strcat ( full_stream , " 11 " ) ;
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break ;
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case 3 : strcat ( full_stream , " 011 " ) ;
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break ;
}
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/* Character count indicator */
qr_bscan ( full_stream , binary_stream [ i + 1 ] , 1 < < version ) ; /* version = 2..3 */
i + = 2 ;
break ;
}
} while ( i < length ) ;
}
void micro_qr_m1 ( char binary_data [ ] ) {
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int i , j , latch ;
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int bits_total , bits_left , remainder ;
int data_codewords , ecc_codewords ;
unsigned char data_blocks [ 4 ] , ecc_blocks [ 3 ] ;
bits_total = 20 ;
latch = 0 ;
/* Add terminator */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left < = 3 ) {
for ( i = 0 ; i < bits_left ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
latch = 1 ;
} else {
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strcat ( binary_data , " 000 " ) ;
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}
if ( latch = = 0 ) {
/* Manage last (4-bit) block */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left < = 4 ) {
for ( i = 0 ; i < bits_left ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
latch = 1 ;
}
}
if ( latch = = 0 ) {
/* Complete current byte */
remainder = 8 - ( strlen ( binary_data ) % 8 ) ;
if ( remainder = = 8 ) {
remainder = 0 ;
}
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
/* Add padding */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left > 4 ) {
remainder = ( bits_left - 4 ) / 8 ;
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , i & 1 ? " 00010001 " : " 11101100 " ) ;
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}
}
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strcat ( binary_data , " 0000 " ) ;
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}
data_codewords = 3 ;
ecc_codewords = 2 ;
/* Copy data into codewords */
for ( i = 0 ; i < ( data_codewords - 1 ) ; i + + ) {
data_blocks [ i ] = 0 ;
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for ( j = 0 ; j < 8 ; j + + ) {
if ( binary_data [ ( i * 8 ) + j ] = = ' 1 ' ) {
data_blocks [ i ] + = 0x80 > > j ;
}
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}
}
data_blocks [ 2 ] = 0 ;
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for ( j = 0 ; j < 4 ; j + + ) {
if ( binary_data [ 16 + j ] = = ' 1 ' ) {
data_blocks [ 2 ] + = 0x08 > > j ;
}
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}
/* Calculate Reed-Solomon error codewords */
rs_init_gf ( 0x11d ) ;
rs_init_code ( ecc_codewords , 0 ) ;
rs_encode ( data_codewords , data_blocks , ecc_blocks ) ;
rs_free ( ) ;
/* Add Reed-Solomon codewords to binary data */
for ( i = 0 ; i < ecc_codewords ; i + + ) {
qr_bscan ( binary_data , ecc_blocks [ ecc_codewords - i - 1 ] , 0x80 ) ;
}
}
void micro_qr_m2 ( char binary_data [ ] , int ecc_mode ) {
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int i , j , latch ;
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int bits_total , bits_left , remainder ;
int data_codewords , ecc_codewords ;
unsigned char data_blocks [ 6 ] , ecc_blocks [ 7 ] ;
latch = 0 ;
if ( ecc_mode = = LEVEL_L ) {
bits_total = 40 ;
}
if ( ecc_mode = = LEVEL_M ) {
bits_total = 32 ;
}
/* Add terminator */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left < = 5 ) {
for ( i = 0 ; i < bits_left ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
latch = 1 ;
} else {
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strcat ( binary_data , " 00000 " ) ;
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}
if ( latch = = 0 ) {
/* Complete current byte */
remainder = 8 - ( strlen ( binary_data ) % 8 ) ;
if ( remainder = = 8 ) {
remainder = 0 ;
}
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
/* Add padding */
bits_left = bits_total - strlen ( binary_data ) ;
remainder = bits_left / 8 ;
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , i & 1 ? " 00010001 " : " 11101100 " ) ;
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}
}
if ( ecc_mode = = LEVEL_L ) {
data_codewords = 5 ;
ecc_codewords = 5 ;
}
if ( ecc_mode = = LEVEL_M ) {
data_codewords = 4 ;
ecc_codewords = 6 ;
}
/* Copy data into codewords */
for ( i = 0 ; i < data_codewords ; i + + ) {
data_blocks [ i ] = 0 ;
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for ( j = 0 ; j < 8 ; j + + ) {
if ( binary_data [ ( i * 8 ) + j ] = = ' 1 ' ) {
data_blocks [ i ] + = 0x80 > > j ;
}
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}
}
/* Calculate Reed-Solomon error codewords */
rs_init_gf ( 0x11d ) ;
rs_init_code ( ecc_codewords , 0 ) ;
rs_encode ( data_codewords , data_blocks , ecc_blocks ) ;
rs_free ( ) ;
/* Add Reed-Solomon codewords to binary data */
for ( i = 0 ; i < ecc_codewords ; i + + ) {
qr_bscan ( binary_data , ecc_blocks [ ecc_codewords - i - 1 ] , 0x80 ) ;
}
return ;
}
void micro_qr_m3 ( char binary_data [ ] , int ecc_mode ) {
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int i , j , latch ;
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int bits_total , bits_left , remainder ;
int data_codewords , ecc_codewords ;
unsigned char data_blocks [ 12 ] , ecc_blocks [ 9 ] ;
latch = 0 ;
if ( ecc_mode = = LEVEL_L ) {
bits_total = 84 ;
}
if ( ecc_mode = = LEVEL_M ) {
bits_total = 68 ;
}
/* Add terminator */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left < = 7 ) {
for ( i = 0 ; i < bits_left ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
latch = 1 ;
} else {
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strcat ( binary_data , " 0000000 " ) ;
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}
if ( latch = = 0 ) {
/* Manage last (4-bit) block */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left < = 4 ) {
for ( i = 0 ; i < bits_left ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
latch = 1 ;
}
}
if ( latch = = 0 ) {
/* Complete current byte */
remainder = 8 - ( strlen ( binary_data ) % 8 ) ;
if ( remainder = = 8 ) {
remainder = 0 ;
}
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
/* Add padding */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left > 4 ) {
remainder = ( bits_left - 4 ) / 8 ;
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , i & 1 ? " 00010001 " : " 11101100 " ) ;
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}
}
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strcat ( binary_data , " 0000 " ) ;
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}
if ( ecc_mode = = LEVEL_L ) {
data_codewords = 11 ;
ecc_codewords = 6 ;
}
if ( ecc_mode = = LEVEL_M ) {
data_codewords = 9 ;
ecc_codewords = 8 ;
}
/* Copy data into codewords */
for ( i = 0 ; i < ( data_codewords - 1 ) ; i + + ) {
data_blocks [ i ] = 0 ;
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for ( j = 0 ; j < 8 ; j + + ) {
if ( binary_data [ ( i * 8 ) + j ] = = ' 1 ' ) {
data_blocks [ i ] + = 0x80 > > j ;
}
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}
}
if ( ecc_mode = = LEVEL_L ) {
data_blocks [ 10 ] = 0 ;
if ( binary_data [ 80 ] = = ' 1 ' ) {
data_blocks [ 10 ] + = 0x08 ;
}
if ( binary_data [ 81 ] = = ' 1 ' ) {
data_blocks [ 10 ] + = 0x04 ;
}
if ( binary_data [ 82 ] = = ' 1 ' ) {
data_blocks [ 10 ] + = 0x02 ;
}
if ( binary_data [ 83 ] = = ' 1 ' ) {
data_blocks [ 10 ] + = 0x01 ;
}
}
if ( ecc_mode = = LEVEL_M ) {
data_blocks [ 8 ] = 0 ;
if ( binary_data [ 64 ] = = ' 1 ' ) {
data_blocks [ 8 ] + = 0x08 ;
}
if ( binary_data [ 65 ] = = ' 1 ' ) {
data_blocks [ 8 ] + = 0x04 ;
}
if ( binary_data [ 66 ] = = ' 1 ' ) {
data_blocks [ 8 ] + = 0x02 ;
}
if ( binary_data [ 67 ] = = ' 1 ' ) {
data_blocks [ 8 ] + = 0x01 ;
}
}
/* Calculate Reed-Solomon error codewords */
rs_init_gf ( 0x11d ) ;
rs_init_code ( ecc_codewords , 0 ) ;
rs_encode ( data_codewords , data_blocks , ecc_blocks ) ;
rs_free ( ) ;
/* Add Reed-Solomon codewords to binary data */
for ( i = 0 ; i < ecc_codewords ; i + + ) {
qr_bscan ( binary_data , ecc_blocks [ ecc_codewords - i - 1 ] , 0x80 ) ;
}
return ;
}
void micro_qr_m4 ( char binary_data [ ] , int ecc_mode ) {
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int i , j , latch ;
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int bits_total , bits_left , remainder ;
int data_codewords , ecc_codewords ;
unsigned char data_blocks [ 17 ] , ecc_blocks [ 15 ] ;
latch = 0 ;
if ( ecc_mode = = LEVEL_L ) {
bits_total = 128 ;
}
if ( ecc_mode = = LEVEL_M ) {
bits_total = 112 ;
}
if ( ecc_mode = = LEVEL_Q ) {
bits_total = 80 ;
}
/* Add terminator */
bits_left = bits_total - strlen ( binary_data ) ;
if ( bits_left < = 9 ) {
for ( i = 0 ; i < bits_left ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
latch = 1 ;
} else {
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strcat ( binary_data , " 000000000 " ) ;
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}
if ( latch = = 0 ) {
/* Complete current byte */
remainder = 8 - ( strlen ( binary_data ) % 8 ) ;
if ( remainder = = 8 ) {
remainder = 0 ;
}
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , " 0 " ) ;
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}
/* Add padding */
bits_left = bits_total - strlen ( binary_data ) ;
remainder = bits_left / 8 ;
for ( i = 0 ; i < remainder ; i + + ) {
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strcat ( binary_data , i & 1 ? " 00010001 " : " 11101100 " ) ;
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}
}
if ( ecc_mode = = LEVEL_L ) {
data_codewords = 16 ;
ecc_codewords = 8 ;
}
if ( ecc_mode = = LEVEL_M ) {
data_codewords = 14 ;
ecc_codewords = 10 ;
}
if ( ecc_mode = = LEVEL_Q ) {
data_codewords = 10 ;
ecc_codewords = 14 ;
}
/* Copy data into codewords */
for ( i = 0 ; i < data_codewords ; i + + ) {
data_blocks [ i ] = 0 ;
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for ( j = 0 ; j < 8 ; j + + ) {
if ( binary_data [ ( i * 8 ) + j ] = = ' 1 ' ) {
data_blocks [ i ] + = 0x80 > > j ;
}
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}
}
/* Calculate Reed-Solomon error codewords */
rs_init_gf ( 0x11d ) ;
rs_init_code ( ecc_codewords , 0 ) ;
rs_encode ( data_codewords , data_blocks , ecc_blocks ) ;
rs_free ( ) ;
/* Add Reed-Solomon codewords to binary data */
for ( i = 0 ; i < ecc_codewords ; i + + ) {
qr_bscan ( binary_data , ecc_blocks [ ecc_codewords - i - 1 ] , 0x80 ) ;
}
}
void micro_setup_grid ( unsigned char * grid , int size ) {
int i , toggle = 1 ;
/* Add timing patterns */
for ( i = 0 ; i < size ; i + + ) {
if ( toggle = = 1 ) {
grid [ i ] = 0x21 ;
grid [ ( i * size ) ] = 0x21 ;
toggle = 0 ;
} else {
grid [ i ] = 0x20 ;
grid [ ( i * size ) ] = 0x20 ;
toggle = 1 ;
}
}
/* Add finder patterns */
place_finder ( grid , size , 0 , 0 ) ;
/* Add separators */
for ( i = 0 ; i < 7 ; i + + ) {
grid [ ( 7 * size ) + i ] = 0x10 ;
grid [ ( i * size ) + 7 ] = 0x10 ;
}
grid [ ( 7 * size ) + 7 ] = 0x10 ;
/* Reserve space for format information */
for ( i = 0 ; i < 8 ; i + + ) {
grid [ ( 8 * size ) + i ] + = 0x20 ;
grid [ ( i * size ) + 8 ] + = 0x20 ;
}
grid [ ( 8 * size ) + 8 ] + = 20 ;
}
void micro_populate_grid ( unsigned char * grid , int size , char full_stream [ ] ) {
int direction = 1 ; /* up */
int row = 0 ; /* right hand side */
int i , n , x , y ;
n = strlen ( full_stream ) ;
y = size - 1 ;
i = 0 ;
do {
x = ( size - 2 ) - ( row * 2 ) ;
if ( ! ( grid [ ( y * size ) + ( x + 1 ) ] & 0xf0 ) ) {
if ( full_stream [ i ] = = ' 1 ' ) {
grid [ ( y * size ) + ( x + 1 ) ] = 0x01 ;
} else {
grid [ ( y * size ) + ( x + 1 ) ] = 0x00 ;
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}
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i + + ;
}
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if ( i < n ) {
if ( ! ( grid [ ( y * size ) + x ] & 0xf0 ) ) {
if ( full_stream [ i ] = = ' 1 ' ) {
grid [ ( y * size ) + x ] = 0x01 ;
} else {
grid [ ( y * size ) + x ] = 0x00 ;
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}
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i + + ;
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}
}
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if ( direction ) {
y - - ;
} else {
y + + ;
}
if ( y = = 0 ) {
/* reached the top */
row + + ;
y = 1 ;
direction = 0 ;
}
if ( y = = size ) {
/* reached the bottom */
row + + ;
y = size - 1 ;
direction = 1 ;
}
} while ( i < n ) ;
}
int micro_evaluate ( unsigned char * grid , int size , int pattern ) {
int sum1 , sum2 , i , filter = 0 , retval ;
switch ( pattern ) {
case 0 : filter = 0x01 ;
break ;
case 1 : filter = 0x02 ;
break ;
case 2 : filter = 0x04 ;
break ;
case 3 : filter = 0x08 ;
break ;
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}
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sum1 = 0 ;
sum2 = 0 ;
for ( i = 1 ; i < size ; i + + ) {
if ( grid [ ( i * size ) + size - 1 ] & filter ) {
sum1 + + ;
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}
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if ( grid [ ( ( size - 1 ) * size ) + i ] & filter ) {
sum2 + + ;
}
}
if ( sum1 < = sum2 ) {
retval = ( sum1 * 16 ) + sum2 ;
} else {
retval = ( sum2 * 16 ) + sum1 ;
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}
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return retval ;
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}
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int micro_apply_bitmask ( unsigned char * grid , int size ) {
int x , y ;
unsigned char p ;
int pattern , value [ 8 ] ;
int best_val , best_pattern ;
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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 ;
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if ( ! ( grid [ ( y * size ) + x ] & 0xf0 ) ) {
if ( ( y & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x01 ;
}
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if ( ( ( ( y / 2 ) + ( x / 3 ) ) & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x02 ;
}
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if ( ( ( ( ( y * x ) & 1 ) + ( ( y * x ) % 3 ) ) & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x04 ;
}
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if ( ( ( ( ( y + x ) & 1 ) + ( ( y * x ) % 3 ) ) & 1 ) = = 0 ) {
mask [ ( y * size ) + x ] + = 0x08 ;
}
}
}
}
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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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}
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/* Evaluate result */
for ( pattern = 0 ; pattern < 8 ; pattern + + ) {
value [ pattern ] = micro_evaluate ( eval , size , pattern ) ;
}
best_pattern = 0 ;
best_val = value [ 0 ] ;
for ( pattern = 1 ; pattern < 4 ; pattern + + ) {
if ( value [ pattern ] > best_val ) {
best_pattern = pattern ;
best_val = value [ pattern ] ;
}
}
/* Apply mask */
for ( x = 0 ; x < size ; x + + ) {
for ( y = 0 ; y < size ; y + + ) {
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if ( mask [ ( y * size ) + x ] & ( 0x01 < < best_pattern ) ) {
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if ( grid [ ( y * size ) + x ] & 0x01 ) {
grid [ ( y * size ) + x ] = 0x00 ;
} else {
grid [ ( y * size ) + x ] = 0x01 ;
}
}
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}
}
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return best_pattern ;
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}
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int microqr ( struct zint_symbol * symbol , const unsigned char source [ ] , int length ) {
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int i , j , glyph , size ;
char binary_stream [ 200 ] ;
char full_stream [ 200 ] ;
int utfdata [ 40 ] ;
int jisdata [ 40 ] ;
char mode [ 40 ] ;
int error_number , kanji_used = 0 , alphanum_used = 0 , byte_used = 0 ;
int version_valid [ 4 ] ;
int binary_count [ 4 ] ;
int ecc_level , autoversion , version ;
int n_count , a_count , bitmask , format , format_full ;
# ifdef _MSC_VER
unsigned char * grid ;
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# endif
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if ( length > 35 ) {
strcpy ( symbol - > errtxt , " Input data too long " ) ;
return ZINT_ERROR_TOO_LONG ;
}
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for ( i = 0 ; i < 4 ; i + + ) {
version_valid [ i ] = 1 ;
}
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if ( symbol - > input_mode = = DATA_MODE ) {
for ( i = 0 ; i < length ; i + + ) {
jisdata [ i ] = ( int ) source [ i ] ;
}
} else {
/* Convert Unicode input to Shift-JIS */
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 ) {
jisdata [ i ] = utfdata [ i ] ;
} else {
j = 0 ;
glyph = 0 ;
do {
if ( sjis_lookup [ j * 2 ] = = utfdata [ i ] ) {
glyph = sjis_lookup [ ( j * 2 ) + 1 ] ;
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}
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j + + ;
} while ( ( j < 6843 ) & & ( glyph = = 0 ) ) ;
if ( glyph = = 0 ) {
strcpy ( symbol - > errtxt , " Invalid character in input data " ) ;
return ZINT_ERROR_INVALID_DATA ;
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}
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jisdata [ i ] = glyph ;
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}
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}
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}
define_mode ( mode , jisdata , length , 0 ) ;
n_count = 0 ;
a_count = 0 ;
for ( i = 0 ; i < length ; i + + ) {
if ( ( jisdata [ i ] > = ' 0 ' ) & & ( jisdata [ i ] < = ' 9 ' ) ) {
n_count + + ;
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}
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if ( in_alpha ( jisdata [ i ] ) ) {
a_count + + ;
}
}
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if ( a_count = = length ) {
/* All data can be encoded in Alphanumeric mode */
for ( i = 0 ; i < length ; i + + ) {
mode [ i ] = ' A ' ;
}
}
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if ( n_count = = length ) {
/* All data can be encoded in Numeric mode */
for ( i = 0 ; i < length ; i + + ) {
mode [ i ] = ' N ' ;
}
}
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error_number = micro_qr_intermediate ( binary_stream , jisdata , mode , length , & kanji_used , & alphanum_used , & byte_used ) ;
if ( error_number ! = 0 ) {
strcpy ( symbol - > errtxt , " Input data too long " ) ;
return error_number ;
}
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get_bitlength ( binary_count , binary_stream ) ;
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/* Eliminate possivle versions depending on type of content */
if ( byte_used ) {
version_valid [ 0 ] = 0 ;
version_valid [ 1 ] = 0 ;
}
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if ( alphanum_used ) {
version_valid [ 0 ] = 0 ;
}
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if ( kanji_used ) {
version_valid [ 0 ] = 0 ;
version_valid [ 1 ] = 0 ;
}
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/* Eliminate possible versions depending on length of binary data */
if ( binary_count [ 0 ] > 20 ) {
version_valid [ 0 ] = 0 ;
}
if ( binary_count [ 1 ] > 40 ) {
version_valid [ 1 ] = 0 ;
}
if ( binary_count [ 2 ] > 84 ) {
version_valid [ 2 ] = 0 ;
}
if ( binary_count [ 3 ] > 128 ) {
strcpy ( symbol - > errtxt , " Input data too long " ) ;
return ZINT_ERROR_TOO_LONG ;
}
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/* Eliminate possible versions depending on error correction level specified */
ecc_level = LEVEL_L ;
if ( ( symbol - > option_1 > = 1 ) & & ( symbol - > option_2 < = 4 ) ) {
ecc_level = symbol - > option_1 ;
}
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if ( ecc_level = = LEVEL_H ) {
strcpy ( symbol - > errtxt , " Error correction level H not available " ) ;
return ZINT_ERROR_INVALID_OPTION ;
}
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if ( ecc_level = = LEVEL_Q ) {
version_valid [ 0 ] = 0 ;
version_valid [ 1 ] = 0 ;
version_valid [ 2 ] = 0 ;
if ( binary_count [ 3 ] > 80 ) {
strcpy ( symbol - > errtxt , " Input data too long " ) ;
return ZINT_ERROR_TOO_LONG ;
}
}
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if ( ecc_level = = LEVEL_M ) {
version_valid [ 0 ] = 0 ;
if ( binary_count [ 1 ] > 32 ) {
version_valid [ 1 ] = 0 ;
}
if ( binary_count [ 2 ] > 68 ) {
version_valid [ 2 ] = 0 ;
}
if ( binary_count [ 3 ] > 112 ) {
strcpy ( symbol - > errtxt , " Input data too long " ) ;
return ZINT_ERROR_TOO_LONG ;
}
}
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autoversion = 3 ;
if ( version_valid [ 2 ] ) {
autoversion = 2 ;
}
if ( version_valid [ 1 ] ) {
autoversion = 1 ;
}
if ( version_valid [ 0 ] ) {
autoversion = 0 ;
}
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version = autoversion ;
/* Get version from user */
if ( ( symbol - > option_2 > = 1 ) & & ( symbol - > option_2 < = 4 ) ) {
if ( symbol - > option_2 > = autoversion ) {
version = symbol - > option_2 ;
}
}
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/* If there is enough unused space then increase the error correction level */
if ( version = = 3 ) {
if ( binary_count [ 3 ] < = 112 ) {
ecc_level = LEVEL_M ;
}
if ( binary_count [ 3 ] < = 80 ) {
ecc_level = LEVEL_Q ;
}
}
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if ( version = = 2 ) {
if ( binary_count [ 2 ] < = 68 ) {
ecc_level = LEVEL_M ;
}
}
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if ( version = = 1 ) {
if ( binary_count [ 1 ] < = 32 ) {
ecc_level = LEVEL_M ;
}
}
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strcpy ( full_stream , " " ) ;
microqr_expand_binary ( binary_stream , full_stream , version ) ;
switch ( version ) {
case 0 : micro_qr_m1 ( full_stream ) ;
break ;
case 1 : micro_qr_m2 ( full_stream , ecc_level ) ;
break ;
case 2 : micro_qr_m3 ( full_stream , ecc_level ) ;
break ;
case 3 : micro_qr_m4 ( full_stream , ecc_level ) ;
break ;
}
size = micro_qr_sizes [ version ] ;
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# ifndef _MSC_VER
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unsigned char grid [ size * size ] ;
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# else
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grid = ( unsigned char * ) _alloca ( ( size * size ) * sizeof ( unsigned char ) ) ;
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# endif
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for ( i = 0 ; i < size ; i + + ) {
for ( j = 0 ; j < size ; j + + ) {
grid [ ( i * size ) + j ] = 0 ;
}
}
micro_setup_grid ( grid , size ) ;
micro_populate_grid ( grid , size , full_stream ) ;
bitmask = micro_apply_bitmask ( grid , size ) ;
/* Add format data */
format = 0 ;
switch ( version ) {
case 1 : switch ( ecc_level ) {
case 1 : format = 1 ;
break ;
case 2 : format = 2 ;
break ;
}
break ;
case 2 : switch ( ecc_level ) {
case 1 : format = 3 ;
break ;
case 2 : format = 4 ;
break ;
}
break ;
case 3 : switch ( ecc_level ) {
case 1 : format = 5 ;
break ;
case 2 : format = 6 ;
break ;
case 3 : format = 7 ;
break ;
}
break ;
}
format_full = qr_annex_c1 [ ( format < < 2 ) + bitmask ] ;
if ( format_full & 0x4000 ) {
grid [ ( 8 * size ) + 1 ] + = 0x01 ;
}
if ( format_full & 0x2000 ) {
grid [ ( 8 * size ) + 2 ] + = 0x01 ;
}
if ( format_full & 0x1000 ) {
grid [ ( 8 * size ) + 3 ] + = 0x01 ;
}
if ( format_full & 0x800 ) {
grid [ ( 8 * size ) + 4 ] + = 0x01 ;
}
if ( format_full & 0x400 ) {
grid [ ( 8 * size ) + 5 ] + = 0x01 ;
}
if ( format_full & 0x200 ) {
grid [ ( 8 * size ) + 6 ] + = 0x01 ;
}
if ( format_full & 0x100 ) {
grid [ ( 8 * size ) + 7 ] + = 0x01 ;
}
if ( format_full & 0x80 ) {
grid [ ( 8 * size ) + 8 ] + = 0x01 ;
}
if ( format_full & 0x40 ) {
grid [ ( 7 * size ) + 8 ] + = 0x01 ;
}
if ( format_full & 0x20 ) {
grid [ ( 6 * size ) + 8 ] + = 0x01 ;
}
if ( format_full & 0x10 ) {
grid [ ( 5 * size ) + 8 ] + = 0x01 ;
}
if ( format_full & 0x08 ) {
grid [ ( 4 * size ) + 8 ] + = 0x01 ;
}
if ( format_full & 0x04 ) {
grid [ ( 3 * size ) + 8 ] + = 0x01 ;
}
if ( format_full & 0x02 ) {
grid [ ( 2 * size ) + 8 ] + = 0x01 ;
}
if ( format_full & 0x01 ) {
grid [ ( 1 * size ) + 8 ] + = 0x01 ;
}
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 ;
}
return 0 ;
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}