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QR-Code-generator/c/qrcodegen.c

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4.2 KiB

/*
* QR Code generator library (C)
*
* Copyright (c) Project Nayuki
* https://www.nayuki.io/page/qr-code-generator-library
*
* (MIT License)
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
* - The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
* - The Software is provided "as is", without warranty of any kind, express or
* implied, including but not limited to the warranties of merchantability,
* fitness for a particular purpose and noninfringement. In no event shall the
* authors or copyright holders be liable for any claim, damages or other
* liability, whether in an action of contract, tort or otherwise, arising from,
* out of or in connection with the Software or the use or other dealings in the
* Software.
*/
#include <assert.h>
#include <stdint.h>
#include <string.h>
#include "qrcodegen.h"
/*---- Forward declarations for private functions ----*/
static void calcReedSolomonGenerator(int degree, uint8_t result[]);
static void calcReedSolomonRemainder(const uint8_t data[], int dataLen, const uint8_t generator[], int degree, uint8_t result[]);
static uint8_t finiteFieldMultiply(uint8_t x, uint8_t y);
/*---- Function implementations ----*/
bool qrcodegen_isAlphanumeric(const char *text) {
for (; *text != '\0'; text++) {
char c = *text;
if (('0' <= c && c <= '9') || ('A' <= c && c <= 'Z'))
continue;
else switch (c) {
case ' ':
case '$':
case '%':
case '*':
case '+':
case '-':
case '.':
case '/':
case ':':
continue;
default:
return false;
}
return false;
}
return true;
}
bool qrcodegen_isNumeric(const char *text) {
for (; *text != '\0'; text++) {
char c = *text;
if (c < '0' || c > '9')
return false;
}
return true;
}
// Calculates the Reed-Solomon generator polynomial of the given degree, storing in result[0 : degree].
static void calcReedSolomonGenerator(int degree, uint8_t result[]) {
// Start with the monomial x^0
assert(1 <= degree && degree <= 30);
memset(result, 0, degree * sizeof(result[0]));
result[degree - 1] = 1;
// Compute the product polynomial (x - r^0) * (x - r^1) * (x - r^2) * ... * (x - r^{degree-1}),
// drop the highest term, and store the rest of the coefficients in order of descending powers.
// Note that r = 0x02, which is a generator element of this field GF(2^8/0x11D).
int root = 1;
for (int i = 0; i < degree; i++) {
// Multiply the current product by (x - r^i)
for (int j = 0; j < degree; j++) {
result[j] = finiteFieldMultiply(result[j], (uint8_t)root);
if (j + 1 < degree)
result[j] ^= result[j + 1];
}
root = (root << 1) ^ ((root >> 7) * 0x11D); // Multiply by 0x02 mod GF(2^8/0x11D)
}
}
// Calculates the remainder of the polynomial data[0 : dataLen] when divided by the generator[0 : degree], where all
// polynomials are in big endian and the generator has an implicit leading 1 term, storing the result in result[0 : degree].
static void calcReedSolomonRemainder(const uint8_t data[], int dataLen, const uint8_t generator[], int degree, uint8_t result[]) {
// Perform polynomial division
assert(1 <= degree && degree <= 30);
memset(result, 0, degree * sizeof(result[0]));
for (int i = 0; i < dataLen; i++) {
uint8_t factor = data[i] ^ result[0];
memmove(&result[0], &result[1], (degree - 1) * sizeof(result[0]));
result[degree - 1] = 0;
for (int j = 0; j < degree; j++)
result[j] ^= finiteFieldMultiply(generator[j], factor);
}
}
// Returns the product of the two given field elements modulo GF(2^8/0x11D). All argument values are valid.
static uint8_t finiteFieldMultiply(uint8_t x, uint8_t y) {
// Russian peasant multiplication
uint8_t z = 0;
for (int i = 7; i >= 0; i--) {
z = (z << 1) ^ ((z >> 7) * 0x11D);
z ^= ((y >> i) & 1) * x;
}
return z;
}