void test_newframe_invalid(void)
{
unsigned char *frame;
testStart("Checking MQRspec_newFrame with invalid version.");
frame = MQRspec_newFrame(0);
assert_null(frame, "MQRspec_newFrame(0) returns non-NULL.");
frame = MQRspec_newFrame(MQRSPEC_VERSION_MAX+1);
assert_null(frame, "MQRspec_newFrame(0) returns non-NULL.");
testFinish();
}
extern unsigned char *FrameFiller_testMQR(int version)
{
int width;
unsigned char *frame, *p;
FrameFiller *filler;
int i, length;
width = MQRspec_getWidth(version);
frame = MQRspec_newFrame(version);
if(frame == NULL) return NULL;
filler = FrameFiller_new(width, frame, 1);
if(filler == NULL) {
free(frame);
return NULL;
}
length = MQRspec_getDataLengthBit(version, QR_ECLEVEL_L)
+ MQRspec_getECCLength(version, QR_ECLEVEL_L) * 8;
for(i=0; i<length; i++) {
p = FrameFiller_next(filler);
if(p == NULL) {
fprintf(stderr, "Frame filler run over the frame!\n");
free(filler);
return frame;
}
*p = (unsigned char)(i & 0x7f) | 0x80;
}
free(filler);
return frame;
}
__STATIC QRcode *QRcode_encodeMaskMQR(QRinput *input, int mask)
{
int width, version;
MQRRawCode *raw;
unsigned char *frame, *masked, *p, code, bit;
FrameFiller *filler;
int i, j;
QRcode *qrcode = NULL;
if(!input->mqr) {
errno = EINVAL;
return NULL;
}
if(input->version <= 0 || input->version > MQRSPEC_VERSION_MAX) {
errno = EINVAL;
return NULL;
}
if(input->level > QR_ECLEVEL_Q) {
errno = EINVAL;
return NULL;
}
raw = MQRraw_new(input);
if(raw == NULL) return NULL;
version = raw->version;
width = MQRspec_getWidth(version);
frame = MQRspec_newFrame(version);
if(frame == NULL) {
MQRraw_free(raw);
return NULL;
}
filler = FrameFiller_new(width, frame, 1);
if(filler == NULL) {
MQRraw_free(raw);
free(frame);
return NULL;
}
/* inteleaved data and ecc codes */
for(i=0; i<raw->dataLength + raw->eccLength; i++) {
code = MQRraw_getCode(raw);
if(raw->oddbits && i == raw->dataLength - 1) {
bit = 1 << (raw->oddbits - 1);
for(j=0; j<raw->oddbits; j++) {
p = FrameFiller_next(filler);
if(p == NULL) goto EXIT;
*p = 0x02 | ((bit & code) != 0);
bit = bit >> 1;
}
} else {
void test_newFrame(void)
{
int width, i, y;
unsigned char *frame;
testStart("Test empty frames");
for(i=1; i<MQRSPEC_VERSION_MAX; i++) {
frame = MQRspec_newFrame(i);
width = MQRspec_getWidth(i);
for(y=0; y<width; y++) {
assert_zero(memcmp(&frame[y * width], &v4frame[y * MQRSPEC_WIDTH_MAX], width), "Mismatch found in version %d, line %d.\n", i, y);
}
free(frame);
}
testFinish();
}
void test_mqrencode(void)
{
char *str = "MICROQR";
char pattern[] = {
"#######_#_#_#_#"
"#_____#_#__####"
"#_###_#_#_####_"
"#_###_#_#__##_#"
"#_###_#___#__##"
"#_____#____#_#_"
"#######__##_#_#"
"_________#__#__"
"#___#__####_#_#"
"_#######_#_##_#"
"##___#_#____#__"
"_##_#_####____#"
"#__###___#__##_"
"_###_#_###_#_#_"
"##____####_###_"
};
QRcode qrcode;
QRdata *qrdata;
unsigned char *frame;
int i;
testStart("Encoding test (MQR).");
qrcode.width = 15;
qrcode.version = 3;
frame = MQRspec_newFrame(qrcode.version);
for(i=0; i<225; i++) {
frame[i] ^= (pattern[i] == '#')?1:0;
}
qrcode.data = frame;
qrdata = QRcode_decodeMQR(&qrcode);
assert_equal(qrdata->version, 3, "Format info decoder returns wrong version number: %d (%d expected)\n", qrdata->version, 3);
assert_equal(qrdata->level, 1, "Format info decoder returns wrong level: %d (%d expected)\n", qrdata->level, 1);
assert_zero(strcmp((char *)qrdata->data, str), "Decoded data (%s) mismatched (%s)\n", (char *)qrdata->data, str);
QRdata_free(qrdata);
free(frame);
testFinish();
}
STATIC_IN_RELEASE QRcode *QRcode_encodeMaskMQR(QRinput *input, int mask)
{
int width, version;
MQRRawCode *raw;
unsigned char *frame, *masked, *p, code, bit;
int i, j, length;
QRcode *qrcode = NULL;
FrameFiller filler;
if(!input->mqr) {
errno = EINVAL;
return NULL;
}
if(input->version <= 0 || input->version > MQRSPEC_VERSION_MAX) {
errno = EINVAL;
return NULL;
}
if(input->level > QR_ECLEVEL_Q) {
errno = EINVAL;
return NULL;
}
raw = MQRraw_new(input);
if(raw == NULL) return NULL;
version = raw->version;
width = MQRspec_getWidth(version);
frame = MQRspec_newFrame(version);
if(frame == NULL) {
MQRraw_free(raw);
return NULL;
}
FrameFiller_set(&filler, width, frame, 1);
/* interleaved data and ecc codes */
for(i = 0; i < raw->dataLength; i++) {
code = MQRraw_getCode(raw);
bit = 0x80;
if(raw->oddbits && i == raw->dataLength - 1) {
length = raw->oddbits;
} else {
length = 8;
}
for(j = 0; j < length; j++) {
p = FrameFiller_next(&filler);
if(p == NULL) goto EXIT;
*p = ((bit & code) != 0);
bit = bit >> 1;
}
}
for(i = 0; i < raw->eccLength; i++) {
code = MQRraw_getCode(raw);
bit = 0x80;
length = 8;
for(j = 0; j < length; j++) {
p = FrameFiller_next(&filler);
if(p == NULL) goto EXIT;
*p = 0x02 | ((bit & code) != 0);
bit = bit >> 1;
}
}
MQRraw_free(raw);
raw = NULL;
/* masking */
if(mask == -2) { // just for debug purpose
masked = (unsigned char *)malloc(width * width);
memcpy(masked, frame, width * width);
} else if(mask < 0) {
masked = MMask_mask(version, frame, input->level);
} else {
masked = MMask_makeMask(version, frame, mask, input->level);
}
if(masked == NULL) {
goto EXIT;
}
qrcode = QRcode_new(version, width, masked);
if(qrcode == NULL) {
free(masked);
}
EXIT:
MQRraw_free(raw);
free(frame);
return qrcode;
}
