void test_appendBytes(void) { BitStream *bstream; unsigned char data[8]; char correct[] = "10001010111111111111111100010010001101000101011001111000"; testStart("Append Bytes"); bstream = BitStream_new(); data[0] = 0x8a; BitStream_appendBytes(bstream, 1, data); assert_zero(ncmpBin(correct, bstream, 8), "Internal data is incorrect."); data[0] = 0xff; data[1] = 0xff; BitStream_appendBytes(bstream, 2, data); assert_zero(ncmpBin(correct, bstream, 24), "Internal data is incorrect.\n"); data[0] = 0x12; data[1] = 0x34; data[2] = 0x56; data[3] = 0x78; BitStream_appendBytes(bstream, 4, data); assert_zero(cmpBin(correct, bstream), "Internal data is incorrect.\n"); testFinish(); BitStream_free(bstream); }
void test_padding2(void) { QRinput *input; BitStream *bstream; int i, size, ret; char data[] = "0123456789ABCDeF"; char correct[153]; unsigned char c; testStart("Padding bit check. (1 or 2 padding bytes)"); /* 16 byte data (4 bit terminator and 1 byte padding) */ memset(correct, 0, 153); memcpy(correct, "010000010000", 12); for(size=0; size<16; size++) { c = 0x80; for(i=0; i<8; i++) { correct[size * 8 + i + 12] = (data[size]&c)?'1':'0'; c = c >> 1; } } memcpy(correct + 140, "000011101100", 12); input = QRinput_new2(1, QR_ECLEVEL_L); QRinput_append(input, QR_MODE_8, 16, (unsigned char *)data); bstream = BitStream_new(); QRinput_getBitStream(input, bstream); size = BitStream_size(bstream); assert_equal(size, 152, "16byte: # of bit is incorrect (%d != 152).\n", size); ret = ncmpBin(correct, bstream, 152); assert_zero(ret, "Padding bits incorrect.\n"); printBstream(bstream); QRinput_free(input); BitStream_free(bstream); /* 15 byte data (4 bit terminator and 2 byte paddings) */ memcpy(correct, "010000001111", 12); memcpy(correct + 132, "00001110110000010001", 20); input = QRinput_new2(1, QR_ECLEVEL_L); QRinput_append(input, QR_MODE_8, 15, (unsigned char *)data); bstream = BitStream_new(); QRinput_getBitStream(input, bstream); size = BitStream_size(bstream); assert_equal(size, 152, "15byte: # of bit is incorrect (%d != 152).\n", size); ret = ncmpBin(correct, bstream, 152); assert_zero(ret, "Padding bits incorrect.\n"); printBstream(bstream); testFinish(); QRinput_free(input); BitStream_free(bstream); }
void test_encodeECI(void) { QRinput *input; BitStream *bstream; unsigned char str[] = {0xa1, 0xa2, 0xa3, 0xa4, 0xa5}; char *correct = "0111 00001001 0100 00000101 10100001 10100010 10100011 10100100 10100101"; int ret; testStart("Encoding characters with ECI header."); input = QRinput_new(); ret = QRinput_appendECIheader(input, 9); assert_zero(ret, "Valid ECI header rejected.\n"); ret = QRinput_append(input, QR_MODE_8, 5, str); assert_zero(ret, "Failed to append characters.\n"); bstream = BitStream_new(); QRinput_mergeBitStream(input, bstream); assert_nonnull(bstream, "Failed to merge.\n"); if(bstream != NULL) { ret = ncmpBin(correct, bstream, 64); assert_zero(ret, "Encodation of ECI header was invalid.\n"); BitStream_free(bstream); } QRinput_free(input); testFinish(); }
void test_appendNum(void) { BitStream *bstream; char correct[] = "10001010 11111111 11111111 00010010001101000101011001111000"; testStart("Append Num"); bstream = BitStream_new(); BitStream_appendNum(bstream, 8, 0x0000008a); assert_zero(ncmpBin(correct, bstream, 8), "Internal data is incorrect.\n"); BitStream_appendNum(bstream, 16, 0x0000ffff); assert_zero(ncmpBin(correct, bstream, 24), "Internal data is incorrect.\n"); BitStream_appendNum(bstream, 32, 0x12345678); assert_zero(cmpBin(correct, bstream), "Internal data is incorrect.\n"); testFinish(); BitStream_free(bstream); }