zint/backend/tests/test_dotcode.c

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/*
libzint - the open source barcode library
Copyright (C) 2019-2024 Robin Stuart <rstuart114@gmail.com>
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of the project nor the names of its contributors
may be used to endorse or promote products derived from this software
without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
SUCH DAMAGE.
*/
/* SPDX-License-Identifier: BSD-3-Clause */
#include "testcommon.h"
static void test_large(const testCtx *const p_ctx) {
int debug = p_ctx->debug;
struct item {
int option_2;
char datum;
int length;
int ret;
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
char *expected_errtxt;
};
/* s/\/\*[ 0-9]*\*\//\=printf("\/\*%3d*\/", line(".") - line("'<")): */
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
static const struct item data[] = {
/* 0*/ { 200, '0', 2940, 0, "" }, /* 2940 largest Code Set C data that fits in 200x199 HxW */
/* 1*/ { 200, '0', 2941, ZINT_ERROR_INVALID_OPTION, "Error 528: Symbol height '201' is too large" },
/* 2*/ { 200, '9', 200, 0, "" }, /* Changes a number of mask scores re pre-Rev. 4 version, but best score still the same (7) */
/* 3*/ { 201, '0', 2940, ZINT_ERROR_INVALID_OPTION, "Error 528: Symbol width '201' is too large" },
/* 4*/ { 201, '0', 2974, ZINT_ERROR_INVALID_OPTION, "Error 526: Symbol size '201x202' (WxH) is too large" }, /* Height > 200 also */
/* 5*/ { 30, '\001', 71, 0, "" }, /* Codeword length 72, ECC length 39, for ND + 1 == 112 */
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
const int data_size = ARRAY_SIZE(data);
int i, length, ret;
struct zint_symbol *symbol = NULL;
char data_buf[4096];
testStartSymbol("test_large", &symbol);
for (i = 0; i < data_size; i++) {
if (testContinue(p_ctx, i)) continue;
symbol = ZBarcode_Create();
assert_nonnull(symbol, "Symbol not created\n");
memset(data_buf, data[i].datum, data[i].length);
length = testUtilSetSymbol(symbol, BARCODE_DOTCODE, -1 /*input_mode*/, -1 /*eci*/, -1 /*option_1*/, data[i].option_2, -1, -1 /*output_options*/, data_buf, data[i].length, debug);
ret = ZBarcode_Encode(symbol, (unsigned char *) data_buf, length);
assert_equal(ret, data[i].ret, "i:%d ZBarcode_Encode ret %d != %d (%s)\n", i, ret, data[i].ret, symbol->errtxt);
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
assert_zero(strcmp(symbol->errtxt, data[i].expected_errtxt), "i:%d strcmp(%s, %s) != 0\n", i, symbol->errtxt, data[i].expected_errtxt);
ZBarcode_Delete(symbol);
}
testFinish();
}
static void test_options(const testCtx *const p_ctx) {
int debug = p_ctx->debug;
struct item {
int input_mode;
int eci;
int output_options;
int option_2;
int option_3;
struct zint_structapp structapp;
char *data;
int ret;
int expected_rows;
int expected_width;
const char *expected_errtxt;
};
/* s/\/\*[ 0-9]*\*\//\=printf("\/\*%3d*\/", line(".") - line("'<")): */
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
static const struct item data[] = {
/* 0*/ { -1, -1, -1, -1, -1, { 0, 0, "" }, "1", 0, 9, 14, "" },
/* 1*/ { -1, -1, -1, -1, -1, { 0, 0, "" }, "1234567890", 0, 12, 19, "" },
/* 2*/ { -1, -1, -1, 19, -1, { 0, 0, "" }, "1234567890", 0, 12, 19, "" },
/* 3*/ { -1, -1, -1, 12, -1, { 0, 0, "" }, "1234567890", 0, 19, 12, "" },
/* 4*/ { -1, -1, -1, 5, -1, { 0, 0, "" }, "1234567890", 0, 44, 5, "" },
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
/* 5*/ { -1, -1, -1, 4, -1, { 0, 0, "" }, "1234567890", ZINT_ERROR_INVALID_OPTION, -1, -1, "Error 529: Symbol width '4' is too small" }, /* Cols < 5 */
/* 6*/ { -1, -1, -1, 200, -1, { 0, 0, "" }, "1234567890", ZINT_ERROR_INVALID_OPTION, -1, -1, "Error 529: Symbol height '3' is too small" }, /* Not enough data - height 3 too small */
/* 7*/ { -1, -1, -1, 200, -1, { 0, 0, "" }, "1234567890123456789012345678901234567890", 0, 5, 200, "" }, /* Cols 200 max */
/* 8*/ { -1, -1, -1, 200, -1, { 0, 0, "" }, "12345678901234567890123456789012345678901234567890123456789012345678901234567890", 0, 7, 200, "" },
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
/* 9*/ { -1, -1, -1, 201, -1, { 0, 0, "" }, "12345678901234567890123456789012345678901234567890123456789012345678901234567890", ZINT_ERROR_INVALID_OPTION, -1, -1, "Error 528: Symbol width '201' is too large" },
/* 10*/ { -1, -1, -1, -1, 10 << 8, { 0, 0, "" }, "1", 0, 9, 14, "" }, /* Mask > 8 + 1 ignored */
/* 11*/ { -1, -1, -1, 19, -1, { 0, 0, "" }, "ABCDE", 0, 12, 19, "" },
/* 12*/ { -1, -1, -1, 19, -1, { 35, 35, "" }, "ABCDE", 0, 16, 19, "" },
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
/* 13*/ { -1, -1, -1, 19, -1, { 1, 1, "" }, "ABCDE", ZINT_ERROR_INVALID_OPTION, -1, -1, "Error 730: Structured Append count '1' out of range (2 to 35)" },
/* 14*/ { -1, -1, -1, 19, -1, { 1, 36, "" }, "ABCDE", ZINT_ERROR_INVALID_OPTION, -1, -1, "Error 730: Structured Append count '36' out of range (2 to 35)" },
/* 15*/ { -1, -1, -1, 19, -1, { 3, 2, "" }, "ABCDE", ZINT_ERROR_INVALID_OPTION, -1, -1, "Error 731: Structured Append index '3' out of range (1 to count 2)" },
/* 16*/ { -1, -1, -1, 19, -1, { 1, 2, "1" }, "ABCDE", ZINT_ERROR_INVALID_OPTION, -1, -1, "Error 732: Structured Append ID not available for DotCode" },
/* 17*/ { GS1_MODE, 3, -1, -1, -1, { 0, 0, "" }, "[20]01", ZINT_WARN_NONCOMPLIANT, 11, 16, "Warning 733: Using ECI in GS1 mode not supported by GS1 standards" },
/* 18*/ { GS1_MODE, -1, -1, -1, -1, { 1, 2, "" }, "[20]01", ZINT_WARN_NONCOMPLIANT, 12, 19, "Warning 734: Using Structured Append in GS1 mode not supported by GS1 standards" },
/* 19*/ { GS1_MODE, 3, -1, -1, -1, { 1, 2, "" }, "[20]01", ZINT_WARN_NONCOMPLIANT, 14, 21, "Warning 733: Using ECI in GS1 mode not supported by GS1 standards" }, /* ECI trumps Structured Append */
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
const int data_size = ARRAY_SIZE(data);
int i, length, ret;
struct zint_symbol *symbol = NULL;
testStartSymbol("test_options", &symbol);
for (i = 0; i < data_size; i++) {
if (testContinue(p_ctx, i)) continue;
symbol = ZBarcode_Create();
assert_nonnull(symbol, "Symbol not created\n");
length = testUtilSetSymbol(symbol, BARCODE_DOTCODE, data[i].input_mode, data[i].eci, -1 /*option_1*/, data[i].option_2, data[i].option_3, data[i].output_options, data[i].data, -1, debug);
if (data[i].structapp.count) {
symbol->structapp = data[i].structapp;
}
ret = ZBarcode_Encode(symbol, (unsigned char *) data[i].data, length);
assert_equal(ret, data[i].ret, "i:%d ZBarcode_Encode ret %d != %d (%s)\n", i, ret, data[i].ret, symbol->errtxt);
if (ret < ZINT_ERROR) {
assert_equal(symbol->rows, data[i].expected_rows, "i:%d symbol->rows %d != %d (%s)\n", i, symbol->rows, data[i].expected_rows, symbol->errtxt);
assert_equal(symbol->width, data[i].expected_width, "i:%d symbol->width %d != %d (%s)\n", i, symbol->width, data[i].expected_width, symbol->errtxt);
}
assert_zero(strcmp(symbol->errtxt, data[i].expected_errtxt), "i:%d strcmp(%s, %s) != 0\n", i, symbol->errtxt, data[i].expected_errtxt);
ZBarcode_Delete(symbol);
}
testFinish();
}
static void test_input(const testCtx *const p_ctx) {
int debug = p_ctx->debug;
struct item {
int input_mode;
int eci;
int option_2;
int option_3;
struct zint_structapp structapp;
char *data;
int length;
int ret;
char *expected;
int bwipp_cmp;
char *comment;
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
static const struct item data[] = {
/* 0*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "A", -1, 0, "66 21 6A", 1, "" },
/* 1*/ { UNICODE_MODE, 3, -1, -1, { 0, 0, "" }, "A", -1, 0, "6C 03 66 21", 1, "" },
/* 2*/ { UNICODE_MODE, 40, 18, -1, { 0, 0, "" }, "A", -1, 0, "6C 28 00 00 66 21", 1, "" },
/* 3*/ { UNICODE_MODE, 113, 18, -1, { 0, 0, "" }, "A", -1, 0, "6C 28 00 49 66 21", 1, "" },
/* 4*/ { UNICODE_MODE, 899, 18, -1, { 0, 0, "" }, "A", -1, 0, "6C 28 07 44 66 21", 1, "" },
/* 5*/ { UNICODE_MODE, 12769, 18, 8 << 8, { 0, 0, "" }, "A", -1, 0, "6C 28 70 49 66 21", 1, "" },
/* 6*/ { UNICODE_MODE, 811799, 18, -1, { 0, 0, "" }, "A", -1, 0, "6C 67 40 50 66 21", 1, "" },
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
/* 7*/ { UNICODE_MODE, 811800, -1, -1, { 0, 0, "" }, "A", -1, ZINT_ERROR_INVALID_OPTION, "Error 525: ECI code '811800' out of range (0 to 811799)", 1, "" },
/* 8*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\000", 1, 0, "65 40 6A", 1, "LatchA (0x65) NUL PAD" },
/* 9*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\010", -1, 0, "65 48 6A", 1, "LatchA (0x65) BS PAD" },
/* 10*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\011", -1, 0, "65 49 6A", 1, "Lead special; LatchA (0x65) HT PAD" },
/* 11*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\034", -1, 0, "65 5C 6A", 1, "Lead special; LatchA (0x65) FS PAD" },
/* 12*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\035", -1, 0, "65 5D 6A", 1, "Lead special; LatchA (0x65) GS PAD" },
/* 13*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\036", -1, 0, "65 5E 6A", 1, "Lead special; LatchA (0x65) RS PAD" },
/* 14*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\037", -1, 0, "65 5F 6A", 1, "LatchA (0x65) US PAD" },
/* 15*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "\177", -1, 0, "66 5F 6A", 1, "ShiftB (0x66) DEL PAD" },
/* 16*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "[)>\03605\035A\036\004", -1, 0, "6A 61 21", 1, "[)>RS 05 GS A RS EOT; LatchB (0x6A) Macro97 (0x61) A" },
/* 17*/ { UNICODE_MODE, -1, 17, -1, { 0, 0, "" }, "[)>\03606\035\011\034\035\036\036\004", -1, 0, "6A 62 61 62 63 64 6A", 1, "[)>RS 06 GS HT FS GS RS RS EOT; LatchB (0x6A) Macro98 (0x62) HT FS GS RS PAD" },
/* 18*/ { UNICODE_MODE, -1, 17, -1, { 0, 0, "" }, "[)>\03612\03512345\036\004", -1, 0, "6A 63 11 67 17 2D 6A", 1, "[)>RS 12 GS A RS EOT; LatchB (0x6A) Macro99 (0x63) 1 2xShiftC (0x67) 23 45 PAD" },
/* 19*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "[)>\03601Blah\004", -1, 0, "6A 64 10 11 22 4C 41 48 6A", 1, "[)>RS 01 Blah EOT; LatchB (0x6A) Macro100 (0x64) 0 1 B l a h PAD" },
/* 20*/ { UNICODE_MODE, -1, 22, -1, { 0, 0, "" }, "[)>\03605\035A\004", -1, 0, "65 3B 09 1E 5E 10 15 5D 21 44", 1, "NOTE: no longer using Macro for malformed 05/06/12" },
/* 21*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "[)>\03606A\004", -1, 0, "65 3B 09 1E 5E 10 16 21 44", 1, "NOTE: no longer using Macro for malformed 05/06/12" },
/* 22*/ { UNICODE_MODE, -1, 13, -1, { 0, 0, "" }, "[)>\036991\036\004", -1, 0, "6A 64 19 19 11 64", 1, "[)>RS 99 1 RS EOT; LatchB (0x6A) Macro100 (0x64) 9 9 1 RS" },
/* 23*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "1712345610", -1, 0, "6B 64 0C 22 38", 1, "FNC1 (0x6B) 17..10 12 34 56" },
/* 24*/ { GS1_MODE, -1, -1, -1, { 0, 0, "" }, "[17]123456[10]123", -1, ZINT_WARN_NONCOMPLIANT, "64 0C 22 38 0C 66 13", 0, "17..10 12 34 56 12 ShiftB (0x66) 3; BWIPP does not allow bad month" },
/* 25*/ { GS1_MODE, -1, -1, -1, { 0, 0, "" }, "[90]ABC[90]abc[90]123", -1, 0, "5A 6A 21 22 23 6B 19 10 41 42 43 6B 19 67 01 17 6A", 1, "90 LatchB (0x6A) A B C FNC1 (0x6B) 9 0 a b c FNC1 (0x6B) 9 2xShitfC (0x67) 01 23 PAD" },
/* 26*/ { GS1_MODE | GS1PARENS_MODE, -1, -1, -1, { 0, 0, "" }, "(90)ABC(90)abc(90)123", -1, 0, "5A 6A 21 22 23 6B 19 10 41 42 43 6B 19 67 01 17 6A", 1, "90 LatchB (0x6A) A B C FNC1 (0x6B) 9 0 a b c FNC1 (0x6B) 9 2xShitfC (0x67) 01 23 PAD" },
/* 27*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "99aA[{00\000", 9, 0, "6B 63 6A 41 21 3B 5B 10 10 65 40", 1, "FNC1 (0x6B) 99 LatchB (0x6A) a A [ { 0 0 ShiftA (0x65) NUL" },
/* 28*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "\015\012", -1, 0, "66 60", 0, "ShiftB (0x66) CR/LF; BWIPP different encodation" },
/* 29*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "A\015\012", -1, 0, "67 21 60", 0, "2xShiftB (0x67) A CR/LF; BWIPP different encodation" },
/* 30*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "\015\015\012", -1, 0, "65 4D 4D 4A", 1, "LatchA (0x65) CR CR LF" },
/* 31*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "ABCDE12345678", -1, 0, "6A 21 22 23 24 25 69 0C 22 38 4E", 1, "LatchB (0x6A) A B C D 4xShiftC 12 34 56 78" },
/* 32*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "\000ABCD1234567890", 15, 0, "65 40 21 22 23 24 6A 0C 22 38 4E 5A 6A", 1, "LatchA (0x65) NULL A B C D LatchC (0x6A) 12 34 56 78 90 PAD" },
/* 33*/ { DATA_MODE, -1, -1, 2 << 8, { 0, 0, "" }, "\141\142\143\144\145\200\201\202\203\204\377", -1, 0, "6A 41 42 43 44 45 70 31 5A 35 21 5A 5F 02 31", 1, "LatchB (0x6A) a b c d e BinaryLatch (0x70) 0x80 0x81 0x82 0x83 0x84 0xFF" },
/* 34*/ { DATA_MODE, -1, -1, -1, { 0, 0, "" }, "\200\061\062\240\063\064\201\202\065\066", -1, 0, "6E 40 0C 6F 00 22 70 03 10 42 6E 15 16", 1, "UpperShiftA (0x6E) NUL 12 UpperShiftB (0x6F) SP 34 BinaryLatch (0x70) 0x81 0x82 TermB (0x6E) 5 6" },
/* 35*/ { DATA_MODE, -1, -1, -1, { 0, 0, "" }, "\200\201\202\203\061\062\063\064", -1, 0, "70 13 56 0A 59 2C 67 0C 22", 1, "BinaryLatch (0x70) 0x80 0x81 0x82 0x83 Intr2xShiftC (0x67) 12 3" },
/* 36*/ { DATA_MODE, -1, -1, -1, { 0, 0, "" }, "\001\200\201\202\203\204\200\201\202\203\204", -1, 0, "65 41 70 31 5A 35 21 5A 5F 31 5A 35 21 5A 5F", 1, "LatchA (0x65) SOH BinaryLatch (0x70) 0x80 0x81 0x82 0x83 0x80 0x81 0x82 0x83" },
/* 37*/ { UNICODE_MODE, -1, -1, -1, { 0, 0, "" }, "\001abc\011\015\012\036", -1, 0, "65 41 65 41 42 43 61 60 64", 1, "LatchA (0x65) SOH 6xShiftB (0x65) a b c HT CR/LF RS" },
/* 38*/ { UNICODE_MODE, -1, -1, -1, { 35, 35, "" }, "ABCDE", -1, 0, "6A 21 22 23 24 25 3A 3A 6C", 1, "LatchB (0x6A) A B C D E Z Z FNC2" },
/* 39*/ { UNICODE_MODE, -1, -1, -1, { 9, 10, "" }, "1234567890", -1, 0, "6B 0C 22 38 4E 5A 65 19 21 6C", 1, "FNC1 (0x6B) 12 34 56 78 90 LatchA (0x65) 9 A FNC2" },
/* 40*/ { UNICODE_MODE, -1, -1, -1, { 2, 3, "" }, "\001\002\003\004", -1, 0, "65 41 42 43 44 6A 12 13 6C", 1, "LatchA (0x65) <SOH> <STX> <ETX> <EOT> PAD 2 3 FNC2" },
/* 41*/ { DATA_MODE, -1, -1, -1, { 1, 34, "" }, "\200\201\202\203", -1, 0, "70 13 56 0A 59 2C 6D 11 39 6C", 1, "BinaryLatch (0x70) (...) TermA (0x6D) 1 Y FNC2" },
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
const int data_size = ARRAY_SIZE(data);
int i, length, ret;
struct zint_symbol *symbol = NULL;
char escaped[1024];
char cmp_buf[32768];
char cmp_msg[1024];
int do_bwipp = (debug & ZINT_DEBUG_TEST_BWIPP) && testUtilHaveGhostscript(); /* Only do BWIPP test if asked, too slow otherwise */
int do_zxingcpp = (debug & ZINT_DEBUG_TEST_ZXINGCPP) && testUtilHaveZXingCPPDecoder(); /* Only do ZXing-C++ test if asked, too slow otherwise */
testStartSymbol("test_input", &symbol);
for (i = 0; i < data_size; i++) {
if (testContinue(p_ctx, i)) continue;
symbol = ZBarcode_Create();
assert_nonnull(symbol, "Symbol not created\n");
debug |= ZINT_DEBUG_TEST; /* Needed to get codeword dump in errtxt */
length = testUtilSetSymbol(symbol, BARCODE_DOTCODE, data[i].input_mode, data[i].eci,
-1 /*option_1*/, data[i].option_2, data[i].option_3, -1 /*output_options*/,
data[i].data, data[i].length, debug);
if (data[i].structapp.count) {
symbol->structapp = data[i].structapp;
}
ret = ZBarcode_Encode(symbol, (unsigned char *) data[i].data, length);
assert_equal(ret, data[i].ret, "i:%d ZBarcode_Encode ret %d != %d (%s)\n", i, ret, data[i].ret, symbol->errtxt);
if (p_ctx->generate) {
printf(" /*%3d*/ { %s, %d, %d, %d, { %d, %d, \"%s\" }, \"%s\", %d, %s, \"%s\", %d, \"%s\" },\n",
i, testUtilInputModeName(data[i].input_mode), data[i].eci, data[i].option_2, data[i].option_3,
data[i].structapp.index, data[i].structapp.count, data[i].structapp.id,
testUtilEscape(data[i].data, length, escaped, sizeof(escaped)),
data[i].length, testUtilErrorName(data[i].ret), symbol->errtxt, data[i].bwipp_cmp, data[i].comment);
} else {
assert_zero(strcmp((char *) symbol->errtxt, data[i].expected), "i:%d strcmp(%s, %s) != 0\n", i, symbol->errtxt, data[i].expected);
if (ret < ZINT_ERROR) {
if (do_bwipp && testUtilCanBwipp(i, symbol, -1, data[i].option_2, data[i].option_3, debug)) {
if (!data[i].bwipp_cmp) {
if (debug & ZINT_DEBUG_TEST_PRINT) printf("i:%d %s not BWIPP compatible (%s)\n", i, testUtilBarcodeName(symbol->symbology), data[i].comment);
} else {
char modules_dump[200 * 200 + 1];
assert_notequal(testUtilModulesDump(symbol, modules_dump, sizeof(modules_dump)), -1, "i:%d testUtilModulesDump == -1\n", i);
ret = testUtilBwipp(i, symbol, -1, data[i].option_2, data[i].option_3, data[i].data, length, NULL, cmp_buf, sizeof(cmp_buf), NULL);
assert_zero(ret, "i:%d %s testUtilBwipp ret %d != 0\n", i, testUtilBarcodeName(symbol->symbology), ret);
ret = testUtilBwippCmp(symbol, cmp_msg, cmp_buf, modules_dump);
assert_zero(ret, "i:%d %s testUtilBwippCmp %d != 0 %s\n actual: %s\nexpected: %s\n",
i, testUtilBarcodeName(symbol->symbology), ret, cmp_msg, cmp_buf, modules_dump);
}
}
if (do_zxingcpp && testUtilCanZXingCPP(i, symbol, data[i].data, length, debug)) {
int cmp_len, ret_len;
char modules_dump[200 * 200 + 1];
assert_notequal(testUtilModulesDump(symbol, modules_dump, sizeof(modules_dump)), -1, "i:%d testUtilModulesDump == -1\n", i);
ret = testUtilZXingCPP(i, symbol, data[i].data, length, modules_dump, cmp_buf, sizeof(cmp_buf), &cmp_len);
assert_zero(ret, "i:%d %s testUtilZXingCPP ret %d != 0\n", i, testUtilBarcodeName(symbol->symbology), ret);
ret = testUtilZXingCPPCmp(symbol, cmp_msg, cmp_buf, cmp_len, data[i].data, length, NULL /*primary*/, escaped, &ret_len);
assert_zero(ret, "i:%d %s testUtilZXingCPPCmp %d != 0 %s\n actual: %.*s\nexpected: %.*s\n",
i, testUtilBarcodeName(symbol->symbology), ret, cmp_msg, cmp_len, cmp_buf, ret_len, escaped);
}
}
}
ZBarcode_Delete(symbol);
}
testFinish();
}
static void test_encode(const testCtx *const p_ctx) {
int debug = p_ctx->debug;
struct item {
int input_mode;
int option_2;
int option_3;
struct zint_structapp structapp;
char *data;
int length;
int ret;
int expected_rows;
int expected_width;
int bwipp_cmp;
int zxingcpp_cmp;
char *comment;
char *expected;
};
/* ISS DotCode, Rev 4.0, DRAFT 0.15, TSC Pre-PR #5, MAY 28, 2019 */
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
static const struct item data[] = {
/* 0*/ { GS1_MODE, 64, -1, { 0, 0, "" }, "[01]00012345678905[17]201231[10]ABC123456", -1, 0, 9, 64, 1, 1, "ISS DotCode Rev 4.0 Figure 1 (left), same",
"1010000000101000101010000010000010001010100010101000101000001010"
"0100010001010001010001000001010100010100010001000100010101000001"
"1010001010000000101010100010001010000010101000000010100010100000"
"0000000101000101010001010100000001000100010001000100010100000001"
"1000001000000010100010101000001010100000101010100000100010001010"
"0101000101000001000001010001010100000001000100010101000101010001"
"1000000010100010001000001000100010101000100010000010101000100000"
"0001010100010001010100010001010000010001010000000101010001010101"
"1000100010001000100010100010001010001000101000101000100010000010"
},
/* 1*/ { GS1_MODE, -1, -1, { 0, 0, "" }, "[01]00012345678905[17]201231[10]ABC123456", -1, 0, 20, 29, 1, 1, "ISS DotCode Rev 4.0 Figure 1 (right) (and Figure 10), same",
"10101000101010100010101000101"
"00010100010100010100000001010"
"00001010100010000000101010000"
"01000001010101010101010101000"
"10101010100000000010100010101"
"01000100000000000101010101010"
"00100010001010101000100000101"
"00000101010000000001010000010"
"10001010100010101010001010100"
"01010000000000010000000100010"
"00100000000010100000100000000"
"00010000000101000001000001000"
"10101000101000001010001010001"
"01010001010001010101000000010"
"00001000001010001010100000101"
"01000100010100000000010100010"
"10100010000010101000101010001"
"00010101000001010100010100010"
"10000010101000100000001000001"
"01000100010101010000000101010"
},
/* 2*/ { GS1_MODE, -1, 1 << 8, { 0, 0, "" }, "[17]070620[10]ABC123456", -1, 0, 16, 23, 1, 1, "ISS DotCode Rev 4.0 Figure 5 (and Figure 6 top-left) when Mask = 0, same",
"10101000100010000000001"
"01000101010001010000000"
"00100010001000101000100"
"01010001010000000101010"
"00001000100010100010101"
"00000101010101010000010"
"00100010101000000010001"
"00010100000101000100010"
"00001000001000001010101"
"01010101010001000001010"
"10100000100010001000101"
"01000100000100010101000"
"10000010000010100010001"
"00010000010100010101010"
"10101000001000101010001"
"01000001010101010000010"
},
/* 3*/ { GS1_MODE, -1, 2 << 8, { 0, 0, "" }, "[17]070620[10]ABC123456", -1, 0, 16, 23, 1, 1, "ISS DotCode Rev 4.0 Figure 6 top-right Mask = 1, same",
"10000000001010001000101"
"01010101000100000101000"
"00100010000000100000001"
"01010001000001000001000"
"10101010100000001010101"
"00000100010100000100010"
"00000000001010101010001"
"00010001010001000001000"
"00101010101000001010001"
"01000100000001010000000"
"10101000101000101000001"
"00010101000100010101010"
"10001000001010100000101"
"01010001010001000001010"
"10000010101010100010101"
"01000101000101010101010"
},
/* 4*/ { GS1_MODE, -1, 3 << 8, { 0, 0, "" }, "[17]070620[10]ABC123456", -1, 0, 16, 23, 1, 1, "ISS DotCode Rev 4.0 Figure 6 bottom-left Mask = 2, same",
"10100000101010100010001"
"01000101000100000000010"
"10101010001010000010000"
"01010100010000010101010"
"00001000101000001000101"
"00000000000001010000010"
"00100010101010101000001"
"00010101010100010000000"
"00001000100010101010001"
"01000000010101010101000"
"10100010100000101000101"
"00000000000101000001010"
"10000010000010100010101"
"01010100010100010001010"
"10101010000000001010001"
"01010101000001000101010"
},
/* 5*/ { GS1_MODE, -1, 4 << 8, { 0, 0, "" }, "[17]070620[10]ABC123456", -1, 0, 16, 23, 1, 1, "ISS DotCode Rev 4.0 Figure 6 bottom-right Mask = 3, same",
"10000000100000001010101"
"01010001010100010001000"
"10001000001010101010100"
"01010101000101010000010"
"10101010001000000010101"
"00000100000100010101000"
"00001000101010101000101"
"00000001010000000101010"
"00100010000000000000001"
"01010100010101010101010"
"10000000101010100010001"
"01010101000001010000010"
"10101010100000001000001"
"01000001010001000001010"
"10001000001010001000001"
"01010100000101000100010"
},
/* 6*/ { GS1_MODE, -1, -1, { 0, 0, "" }, "[17]070620[10]ABC123456", -1, 0, 16, 23, 1, 1, "ISS DotCode Rev 4.0 Figure 6 top-right, auto Mask = 1, same",
"10000000001010001000101"
"01010101000100000101000"
"00100010000000100000001"
"01010001000001000001000"
"10101010100000001010101"
"00000100010100000100010"
"00000000001010101010001"
"00010001010001000001000"
"00101010101000001010001"
"01000100000001010000000"
"10101000101000101000001"
"00010101000100010101010"
"10001000001010100000101"
"01010001010001000001010"
"10000010101010100010101"
"01000101000101010101010"
},
/* 7*/ { UNICODE_MODE, -1, 1 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 0, 0, "ISS DotCode Rev 4.0 Figure 7A top-left Mask = 0, same; BWIPP automatically primes mask; ZXing-C++ can't handle zero row",
"1010101010100"
"0000010001010"
"0000101000101"
"0101000000000"
"0000101010100"
"0100010101000"
"1000001000001"
"0101000101010"
"1000100010001"
"0000000000000"
},
/* 8*/ { UNICODE_MODE, -1, 2 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 0, 1, "ISS DotCode Rev 4.0 Figure 7A top-right Mask = 1, same; BWIPP automatically primes mask",
"1010001000101"
"0000000100010"
"0000100000001"
"0101010001000"
"1000101000000"
"0101010101010"
"1000101000101"
"0100010101010"
"0000000010001"
"0001000001000"
},
/* 9*/ { UNICODE_MODE, -1, 3 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 0, 1, "ISS DotCode Rev 4.0 Figure 7A bottom-left Mask = 2, same; BWIPP automatically primes mask",
"1010001010100"
"0001000000000"
"1000100010101"
"0100000101000"
"0000101000100"
"0100010000010"
"1000101010001"
"0101010001000"
"1000100010101"
"0001000100000"
},
/* 10*/ { UNICODE_MODE, -1, 4 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 0, 1, "ISS DotCode Rev 4.0 Figure 7A bottom-right Mask = 3, same; BWIPP automatically primes mask",
"1010001000100"
"0001000001010"
"1000001000000"
"0101000100010"
"1000101010100"
"0101010000010"
"1000100000000"
"0100000101000"
"1000001010001"
"0101010101010"
},
/* 11*/ { UNICODE_MODE, -1, 5 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Figure 7B top-left Mask = 0' (4), same",
"1010101010101"
"0000010001010"
"0000101000101"
"0101000000000"
"0000101010100"
"0100010101000"
"1000001000001"
"0101000101010"
"1000100010001"
"0100000000010"
},
/* 12*/ { UNICODE_MODE, -1, 6 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Figure 7B top-right Mask = 1' (5), same",
"1010001000101"
"0000000100010"
"0000100000001"
"0101010001000"
"1000101000000"
"0101010101010"
"1000101000101"
"0100010101010"
"1000000010001"
"0101000001010"
},
/* 13*/ { UNICODE_MODE, -1, 7 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Figure 7B bottom-left Mask = 2' (6), same",
"1010001010101"
"0001000000000"
"1000100010101"
"0100000101000"
"0000101000100"
"0100010000010"
"1000101010001"
"0101010001000"
"1000100010101"
"0101000100010"
},
/* 14*/ { UNICODE_MODE, -1, 8 << 8, { 0, 0, "" }, "2741", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Figure 7B bottom-right Mask = 3' (7), same",
"1010001000101"
"0001000001010"
"1000001000000"
"0101000100010"
"1000101010100"
"0101010000010"
"1000100000000"
"0100000101000"
"1000001010001"
"0101010101010"
},
/* 15*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "2741", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Figure 7B bottom-left auto Mask = 2' (6), same",
"1010001010101"
"0001000000000"
"1000100010101"
"0100000101000"
"0000101000100"
"0100010000010"
"1000101010001"
"0101010001000"
"1000100010101"
"0101000100010"
},
/* 16*/ { GS1_MODE, 40, -1, { 0, 0, "" }, "[01]00012345678905", -1, 0, 7, 40, 1, 1, "ISS DotCode Rev 4.0 Figure 8 top-left 7x40, Mask = 1, same",
"1010101010001000100010100010101000001000"
"0000010101000100010100010000010001000001"
"1010001000001000001000101010001000101000"
"0001010101000000010100010001000001010001"
"1010100010001010000010001010000000101010"
"0001010001010001000100000001010100010001"
"1000100010001000100010100010001010001000"
},
/* 17*/ { GS1_MODE, 18, -1, { 0, 0, "" }, "[01]00012345678905", -1, 0, 17, 18, 1, 1, "ISS DotCode Rev 4.0 Figure 8 top-right 17x18 **NOT SAME** no matter what mask; but same as BWIPP and verified manually against tec-it",
"101000001000101010"
"010100000101010001"
"000000101000001010"
"000100010101000101"
"001010000000100010"
"010100000100010101"
"100010001000001010"
"010001000100010100"
"001000001010000010"
"010100000001010001"
"000000101010001010"
"000101000001000101"
"100010001010100010"
"000100010000000101"
"100010001010001010"
"010001010001000101"
"100010001000100010"
},
/* 18*/ { GS1_MODE, 35, -1, { 0, 0, "" }, "[01]00012345678905", -1, 0, 8, 35, 1, 1, "ISS DotCode Rev 4.0 Figure 8 bottom-left 8x35, Mask = 3, same",
"10100010000000000010100000100010101"
"00010101010001000000010100010100000"
"10001000101010101010001010000010101"
"01010001000100000101000100010101010"
"10101000100000101000100010001000001"
"00010100010000010001010001010000000"
"10000010101010101010000010000010001"
"01000001000101000100010100010001000"
},
/* 19*/ { GS1_MODE, 17, -1, { 0, 0, "" }, "[01]00012345678905", -1, 0, 18, 17, 1, 1, "ISS DotCode Rev 4.0 Figure 8 bottom-right 18x17 **NOT SAME** no matter what mask; same as BWIPP; verified manually against tec-it",
"10101000001000001"
"01000001010100010"
"00000000100010001"
"00010101000101010"
"10101000001010000"
"01000100010000000"
"00000010000000100"
"01010000000001000"
"10101010101000101"
"00000000010101010"
"00101010100000000"
"01000101000001010"
"10001000000010001"
"00000001010100010"
"00100010001000101"
"01010100010101000"
"10101010101010101"
"01010101000101010"
},
/* 20*/ { UNICODE_MODE, 35, -1, { 0, 0, "" }, "Dots can be Square!", -1, 0, 18, 35, 1, 1, "ISS DotCode Rev 4.0 Figure 11 **NOT SAME**; same as BWIPP; verified manually against tec-it",
"10000010101000000000000000101010101"
"01010101000101000100010100000001000"
"00001000000010101000101010101010000"
"01000001000100000001010001000000000"
"00100010101010101000000010100000101"
"00000001010001010101010100010101000"
"10101000100010000010101010001010001"
"00010001010100010101000101000101010"
"00101010001000001010101000100000101"
"00010100010001010000000001010001010"
"00101000100010100000100000000000101"
"01010100010001010100010100000100000"
"10000010000000000010001000101010100"
"00010000000100010001000000010001010"
"10001000001010101010001010101000001"
"01000101010101000100000100010101000"
"10101000101000001000100010101000101"
"01000001000001000101010001000000010"
},
/* 21*/ { GS1_MODE, -1, 1 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 0, 0, "ISS DotCode Rev 4.0 Table G.1 Mask 0, same; BWIPP automatically primes mask; ZXing-C++ can't handle zero col",
"0000001010000"
"0001010000010"
"0000000010001"
"0100010101000"
"0010101000101"
"0100010101010"
"0010000010000"
"0101010000010"
"0010000000101"
"0101000101010"
},
/* 22*/ { GS1_MODE, -1, 2 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 0, 1, "ISS DotCode Rev 4.0 Table G.1 Mask 1, same; BWIPP automatically primes mask",
"0000100000001"
"0001010000000"
"0000000000001"
"0101010000010"
"1010101010101"
"0100000101010"
"0010000010100"
"0100010101000"
"0010101000101"
"0100010101000"
},
/* 23*/ { GS1_MODE, -1, 3 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 0, 1, "ISS DotCode Rev 4.0 Table G.1 Mask 2, same; BWIPP automatically primes mask",
"0000100010100"
"0000000000000"
"1000101010101"
"0100010101010"
"0010101000101"
"0101010101010"
"0010100000000"
"0101010100000"
"0000000010001"
"0100000001010"
},
/* 24*/ { GS1_MODE, -1, 4 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 0, 0, "ISS DotCode Rev 4.0 Table G.1 Mask 3, same; BWIPP automatically primes mask; ZXing-C++ can't handle zero col",
"0000000000000"
"0001010001000"
"1000001010000"
"0101010100010"
"1010101000101"
"0101010101010"
"0010001000101"
"0101010101010"
"1000000010000"
"0100000000010"
},
/* 25*/ { GS1_MODE, -1, 5 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Table G.1 Mask 0' (4), same",
"1000001010001"
"0001010000010"
"0000000010001"
"0100010101000"
"0010101000101"
"0100010101010"
"0010000010000"
"0101010000010"
"1010000000101"
"0101000101010"
},
/* 26*/ { GS1_MODE, -1, 6 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Table G.1 Mask 1' (5), same",
"1000100000001"
"0001010000000"
"0000000000001"
"0101010000010"
"1010101010101"
"0100000101010"
"0010000010100"
"0100010101000"
"1010101000101"
"0100010101010"
},
/* 27*/ { GS1_MODE, -1, 7 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Table G.1 Mask 2' (6), same",
"1000100010101"
"0000000000000"
"1000101010101"
"0100010101010"
"0010101000101"
"0101010101010"
"0010100000000"
"0101010100000"
"1000000010001"
"0100000001010"
},
/* 28*/ { GS1_MODE, -1, 8 << 8, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Table G.1 Mask 3' (7), same",
"1000000000001"
"0001010001000"
"1000001010000"
"0101010100010"
"1010101000101"
"0101010101010"
"0010001000101"
"0101010101010"
"1000000010001"
"0100000000010"
},
/* 29*/ { GS1_MODE, -1, -1, { 0, 0, "" }, "[99]8766", -1, 0, 10, 13, 1, 1, "ISS DotCode Rev 4.0 Table G.1 auto Mask 0' (4); all mask scores match Table G.1",
"1000001010001"
"0001010000010"
"0000000010001"
"0100010101000"
"0010101000101"
"0100010101010"
"0010000010000"
"0101010000010"
"1010000000101"
"0101000101010"
},
/* 30*/ { UNICODE_MODE, 6, -1, { 0, 0, "" }, "A", -1, 0, 19, 6, 1, 1, "ISS DotCode Rev 4.0 5.2.1.4 2) Table 4, 1 padding dot available; verified manually against tec-it",
"101000"
"000101"
"101010"
"000001"
"100010"
"000100"
"001010"
"000101"
"101000"
"010000"
"100010"
"010000"
"000010"
"000101"
"101010"
"000001"
"101000"
"010000"
"101000"
},
/* 31*/ { UNICODE_MODE, 94, -1, { 0, 0, "" }, "abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRS", -1, 0, 37, 94, 1, 1, "Interleaved R-S; verified manually against tec-it",
"1000001010000000100010000010101010101000001000100000001010101000001000001000101010001000101010"
"0101010000000101000001010001010001010100010001000001000000010101010000000101010100010001010100"
"0010101000100010000010101010000000101010000010101000001000100010100000100010100010001000101000"
"0000000100010101000001010000010000010101010100010100000100000101000100010001000001010001010001"
"0010100000100010101000001000101010000010001000001010100000101000101010000010001000101010100010"
"0100000101010001010001000101000001000100000101010001000101000100010100000100010100010001010100"
"1010000000100010100000101010000010101000001000001010001010000010001010100000101010100000100000"
"0001010100000101000001000000010001010100000101000100010101000001000101000100010000010101010001"
"1010001010001010000000100000101010100000100010101000000010100010001010100010000010100010001010"
"0001000100010100010001010000000101010100010000010100000100000101010100010000010100010001000001"
"1000001010001010100010000010001000100010100010100010000010001000101010100000101000001000101010"
"0101000001000101000100000001010001010101010001000001000000010001010100010101010000010100000001"
"0000100000001010100010101000000010001010001010000000101010001000101010001000101000100000100010"
"0000000100000100000101010101000000010101010001000100010001000101010001000100010000010100010101"
"0010101000001010001000101000000000101010001010000010101010000010001000100000001010101010001010"
"0100010001010100010000010100010001010100010000010001000100000100010101000101000100000101010001"
"1000001000100010101010101000000010001000001010000010101010000010101010000000100010001000101000"
"0000010000010101010000010101000000010101000001000101000100010001000101010001000100010000010100"
"1000001000101010000010001000001000101010100000100000001010001010101000000010001010101010001000"
"0100010001010001000100010000010100000100010100010100010001000001010100010101000100000101000101"
"1010000000101000100000001000101010100010000000101010101010000010101000000010100010001000100010"
"0100000101010000010100010001010100010000010101000100000100000101000001010100010000000101010001"
"1000001000001010001010001000101000001000101010000010101000100010100000101000100000001000101010"
"0101010100010001010101000000010101010000010100000100010100010001000100000100010001010100010100"
"1000100000101000000010100010101000001010100010100000100000101010000010101000100000001010000000"
"0001000001000101000101010000010001000100000101010001000100010100000101000101000100000101010001"
"0000000010001000101000100000100000101010101000000010101010001000100010001000101010001000100010"
"0101010100010000000100010101010001010100000001010101000001000001000001010100000101010001010101"
"1000100010101000100000101010001000101010000010001010001010001010000010100010100010000000100000"
"0000010101010000010101000000010101000001000101000100010001000101010001000100010000010100010000"
"1000101010000010001000001000101010100000100000001010001010101000000010001010101010001000000010"
"0100000101000001010001010000000100010100010100010001000001010100010101000100000101000101010000"
"0000001010001000100010100010000010101000100010001000101000001000100000101000100010100010001010"
"0101010000010100010000010100000101010100000101000001000000010101000101000101010000000101010101"
"1000001010001010001000101000001000101010000010101000100010100000101000100000001000101010100000"
"0001000101010100000001010101000001010000010001010001000100010000010001000101010001010001000001"
"0010001000001010101000000010101000101000001000001010100000101010001000000010100000001010101000"
},
/* 32*/ { GS1_MODE, 50, -1, { 0, 0, "" }, "[17]070620[10]ABC123456", -1, 0, 7, 50, 1, 1, "GS1 Gen Spec Figure 5.1-8.",
"10000010101000100010101010001000000010100000100000"
"01000101000101010100000100010000010001000001010101"
"00001010001000101000101000100010001010100000000010"
"01000001000100000101010101010001000001000101000001"
"10001000001010100010001010100000100010100010000010"
"00010001010000000100010101000100010001010001000101"
"10001000001010101000001000100010100010100000101010"
},
/* 33*/ { UNICODE_MODE, 200, -1, { 0, 0, "" }, "123456789012345678901234567890123456789012345678901234567890", -1, 0, 5, 200, 1, 1, "Max cols",
"10101000100010101010000010101000000010001000100000101010100010100000101000100010000000101000101010001010100000100000101010100000001000101000001010100010001010000010001010001010100000100010101000000010"
"00010101010000000101000100010001000101000101000100010001000001010001000001010100000001000101010000000101010100010101010000010001000101010001000001000001010000010100010001010101000001000001010100000001"
"10100010000000100010101000101010100000001010001000100000101000101000001000101010001000000010101010100010101000000010100010001000001010100000101000100000101010100010000000001000001010101000101010100000"
"00010001010001010000000101000100010001010000010000010100010100000100010101010001000101000000010100010001010100010000010100000101000100010100000101010000000101000001010100010100010001000101000001010001"
"10100010001010101000000010001000001010001010001000001010100010000000101010001010000010101010000000101000100010100010100000100010100010001010100000001010101000001010000000001000101000101010000010101010"
},
/* 34*/ { UNICODE_MODE, 19, -1, { 0, 0, "" }, "4", -1, 0, 6, 19, 1, 1, "Mask 1 selected",
"1010100000101000101"
"0100000000010001010"
"0010101010000000000"
"0000010100000100000"
"1000100010001010001"
"0001010101010101010"
},
/* 35*/ { UNICODE_MODE, 19, 3 << 8, { 0, 0, "" }, "4", -1, 0, 6, 19, 0, 1, "Mask 2 specified, unlit right edge mask; BWIPP automatically primes mask",
"1010101010000000100"
"0000000101000100010"
"1010100000001010100"
"0000010101010000000"
"1000001010100010100"
"0101000100010001010"
},
/* 36*/ { UNICODE_MODE, 19, 7 << 8, { 0, 0, "" }, "4", -1, 0, 6, 19, 1, 1, "Mask 2' specified",
"1010101010000000101"
"0000000101000100010"
"1010100000001010100"
"0000010101010000000"
"1000001010100010101"
"0101000100010001010"
},
/* 37*/ { GS1_MODE, -1, -1, { 0, 0, "" }, "[10]12[20]12", -1, 0, 12, 17, 1, 1, "Code Set C with FNC1",
"10100000001000001"
"00010100010101010"
"10001000100000001"
"01010100000101000"
"10000010000010001"
"01010001010100010"
"00001010100000001"
"00000101010001010"
"10101000001010001"
"01010101000101010"
"10000010100000101"
"01000100010101010"
},
/* 38*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "1234\011\034\035\036", -1, 0, 14, 21, 1, 1, "Code Set B HT FS GS RS",
"100010001000001010101"
"010001000001000001000"
"100010100010101010001"
"010100000000010100010"
"101000100010001000000"
"010000010000000001000"
"100000101010100000000"
"000101010101010000000"
"001000001010101010101"
"000000000100010001010"
"101010000000000000101"
"000101010101000101010"
"001010101000101010001"
"010101010001000101000"
},
/* 39*/ { UNICODE_MODE, 17, -1, { 0, 0, "" }, "abcd\015\012", -1, 0, 14, 17, 1, 1, "Code Set B CRLF",
"00001000001000101"
"01000101010001000"
"10100000100010101"
"01000001010000010"
"00100010101000101"
"01010000010101000"
"10101010000010001"
"01000001000100010"
"00001010101010101"
"00000100010100010"
"00101010000000000"
"00010100010000000"
"10100000001010000"
"01010001000101000"
},
/* 40*/ { DATA_MODE, -1, -1, { 0, 0, "" }, "\101\102\103\104\105\106\107\200\101\102\240\101", -1, 0, 18, 27, 1, 1, "Code Set B Upper Shift A Upper Shift B",
"101010100000101000101000001"
"010100010101000100010101000"
"000010001010100000101010101"
"010100010100000001010101000"
"001010000010001010101000101"
"000001000001010101000000010"
"101000101010100000001000001"
"000101000001010101010100010"
"001010101000101010100010101"
"000101010001000100010001010"
"000000001000100000000000001"
"010000000000010100000100010"
"101010101010101010101010101"
"000101010001000100010101010"
"100000000000100000000010101"
"000000010100010000000100010"
"100010101000000010001000001"
"010001000100000101000001010"
},
/* 41*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "ABCDEF\001G1234H", -1, 0, 16, 25, 1, 1, "Code Set A 4x Shift C",
"0010101010100000100000101"
"0000000100010101000001000"
"1000100000101000100000101"
"0101000001010100000101010"
"0000000000101010001010000"
"0100000000010101010100000"
"0010101010000000101010101"
"0100010101000000010100000"
"1010001000100010001000101"
"0101010001010000000001010"
"0000001010100010001010101"
"0001000000000001010001000"
"0010100000101010100000000"
"0101010100000100010100010"
"1010101010001000101000000"
"0000010100010101000101010"
},
/* 42*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "ABCDEF\001ab\011\034\035\036\001A", -1, 0, 19, 28, 1, 1, "Code Set A 6x Shift B HT FS GS RS",
"1000001010100010101010101010"
"0101000000010100010101010001"
"0010001010100000101000001010"
"0001000101000001010001010000"
"1000001010100000101010001000"
"0100010101010001000000010001"
"0000001010100010100010000010"
"0000010100000001010100010101"
"0000001010001010101000001010"
"0100010101010101000001010000"
"0010000000101000101000000010"
"0101000101000101000101000001"
"1000100000001010101000001000"
"0101000001010000010001010100"
"1010000000100010001010100010"
"0101010100000001000100010001"
"1010000010100000100000101000"
"0001010000010100000100010101"
"1010100010000000101010101010"
},
/* 43*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "ABCDEF\001abcdefgA", -1, 0, 19, 28, 1, 1, "Code Set A Latch B",
"1010001010100010101010101010"
"0100010101010000000100010001"
"1010000010100000100010101000"
"0001010001000001010100000001"
"0010001010100000000010101010"
"0101000000010100010101000001"
"0000101010100000001000001010"
"0000010101010000000100010101"
"0000101010100000101000001010"
"0001010100010001010000000101"
"1010000010100010100000001010"
"0101000101000000010001010001"
"1000100000001010101000001000"
"0101000001010000010100010001"
"1010000000100010001010100010"
"0101010100000001000100010001"
"1010000010100000100000101000"
"0001010000010100000100010101"
"1010100010000000101010101010"
},
/* 44*/ { DATA_MODE, -1, -1, { 0, 0, "" }, "\200\200\200\200\061\062\063\064\065\066\067\070\071\060\061\062\063\064\065\066\200", -1, 0, 20, 29, 1, 1, "Binary Latch C",
"10101010000010100010101010001"
"01010001000101010001000000010"
"00001010101000101010001000001"
"00010100000001000101010100000"
"00100000101000100000000000101"
"00000001010101010100000101000"
"10101000001010000010101000100"
"01010100010000000101000000010"
"10101000101000001010100010100"
"00010101000101010001000101010"
"10000010101000100010101010001"
"01000001010100000001010001010"
"00001010101010101000000010001"
"00010100000000010000010101010"
"00101000100010001000101000001"
"00000100000101010101000000000"
"10000000000000001000000010101"
"01010001010001010000010101000"
"10000010100010000010001000101"
"01000100000100010001010101010"
},
/* 45*/ { UNICODE_MODE, -1, -1, { 11, 24, "" }, "ABCDEFG", -1, 0, 16, 23, 1, 1, "Structured Append",
"10101000001000101000001"
"01010101000001010001010"
"10101010100010000000001"
"01000001010000010100010"
"10000000101010100010101"
"01010100010101010101000"
"10000010101010101000101"
"00010100010100000000010"
"00101000100000001010001"
"00010100000001000100000"
"00100010000000001010101"
"01010101010001010101000"
"10000000001010000000001"
"00000000010100010001010"
"10001010101000100010001"
"01000001000100010101010"
},
/* 46*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "1234", -1, 0, 10, 13, 1, 1, "",
"0010100000001"
"0000000001010"
"1000000010101"
"0101010101000"
"1000101000000"
"0100010100010"
"1000000010100"
"0101010000010"
"1000101000001"
"0101010101000"
},
/* 47*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "[)>\03605\035101\036\004", -1, 0, 12, 17, 1, 1, "Macro 05",
"10000010001000101"
"00000001000000010"
"10001010100010001"
"01010000010000000"
"10001010000010001"
"01000000010000010"
"10100010101000001"
"01010100000001010"
"00001000101010101"
"01010001000101000"
"10101010101010101"
"01010001010101010"
},
/* 48*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "[)>\03607Text\036\004", -1, 0, 14, 21, 1, 1, "Macro 07 (free form text)",
"100010001000001000101"
"010001000000010101010"
"000010101000100000101"
"010100000000010000000"
"001000100000000000100"
"010101010001010101010"
"101010101010100010100"
"010000010101000000000"
"001010001000001010001"
"000000000101010101010"
"001000000010001000001"
"000101000101000100000"
"100010101010100010101"
"000001010100010100000"
},
/* 49*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "[)>\03605\035Študentska št.\0352198390\036\004", -1, ZINT_WARN_USES_ECI, 23, 34, 1, 1, "Macro 05 with ECI",
"1010101000100000101000001010000010"
"0101000001000101010100000101000001"
"1000101000101000100010100010001000"
"0000010001010001000100010001010000"
"0000101000100010000010001010101000"
"0001010001000100010000010101010100"
"0000100010100000101010001000001010"
"0100010100010100010000010101000001"
"1010101000100010000010000010001010"
"0101000100000100010001010000010001"
"0010101000100010001000001010101000"
"0100010100010001000101010000010000"
"0000101010100010000010100010100010"
"0101000000000001010001010001000001"
"0010100010000000101010100010100010"
"0101000100010101000100000100010100"
"0010100010000010101000101000001000"
"0001000100000101000100010000010101"
"1000100010100000100010001010100010"
"0101010001000001000101000101000100"
"0010000010001010100010001000001000"
"0100000001000100010001010100010101"
"1010001000001010101000000010101000"
},
/* 50*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, "[)>\03607Τεχτ\036\004", -1, ZINT_WARN_USES_ECI, 17, 26, 1, 1, "Macro 07 with ECI",
"10001010001000100000101000"
"00010101000101000000010101"
"00100010100000100010001000"
"00010101000101010101000100"
"10101000100010001010000000"
"00000100010100010100000001"
"00001010101000100000001010"
"01010000010001010100010100"
"00000010100010101010000010"
"00010101000101000101000001"
"00101000101000100010001000"
"00010101000100000001010100"
"10100010000010001010001000"
"00010100010100010000010001"
"10001000101000101010001000"
"01000101010100000000000101"
"10100010000010101010000010"
},
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
const int data_size = ARRAY_SIZE(data);
int i, length, ret;
struct zint_symbol *symbol = NULL;
char escaped[1024];
char cmp_buf[8192];
char cmp_msg[1024];
int do_bwipp = (debug & ZINT_DEBUG_TEST_BWIPP) && testUtilHaveGhostscript(); /* Only do BWIPP test if asked, too slow otherwise */
int do_zxingcpp = (debug & ZINT_DEBUG_TEST_ZXINGCPP) && testUtilHaveZXingCPPDecoder(); /* Only do ZXing-C++ test if asked, too slow otherwise */
testStartSymbol("test_encode", &symbol);
for (i = 0; i < data_size; i++) {
if (testContinue(p_ctx, i)) continue;
symbol = ZBarcode_Create();
assert_nonnull(symbol, "Symbol not created\n");
length = testUtilSetSymbol(symbol, BARCODE_DOTCODE, data[i].input_mode, -1 /*eci*/, -1, data[i].option_2, data[i].option_3, -1 /*output_options*/, data[i].data, data[i].length, debug);
if (data[i].structapp.count) {
symbol->structapp = data[i].structapp;
}
ret = ZBarcode_Encode(symbol, (unsigned char *) data[i].data, length);
assert_equal(ret, data[i].ret, "i:%d ZBarcode_Encode ret %d != %d (%s)\n", i, ret, data[i].ret, symbol->errtxt);
if (p_ctx->generate) {
printf(" /*%3d*/ { %s, %d, %s, { %d, %d, \"%s\" }, \"%s\", %d, %s, %d, %d, %d, %d, \"%s\",\n",
i, testUtilInputModeName(data[i].input_mode), data[i].option_2,
testUtilOption3Name(BARCODE_DOTCODE, data[i].option_3),
data[i].structapp.index, data[i].structapp.count, data[i].structapp.id,
testUtilEscape(data[i].data, length, escaped, sizeof(escaped)), data[i].length,
testUtilErrorName(data[i].ret), symbol->rows, symbol->width, data[i].bwipp_cmp, data[i].zxingcpp_cmp, data[i].comment);
testUtilModulesPrint(symbol, " ", "\n");
printf(" },\n");
} else {
if (ret < ZINT_ERROR) {
int width, row;
assert_equal(symbol->rows, data[i].expected_rows, "i:%d symbol->rows %d != %d (%s)\n", i, symbol->rows, data[i].expected_rows, data[i].data);
assert_equal(symbol->width, data[i].expected_width, "i:%d symbol->width %d != %d (%s)\n", i, symbol->width, data[i].expected_width, data[i].data);
ret = testUtilModulesCmp(symbol, data[i].expected, &width, &row);
assert_zero(ret, "i:%d testUtilModulesCmp ret %d != 0 width %d row %d (%s)\n", i, ret, width, row, data[i].data);
if (do_bwipp && testUtilCanBwipp(i, symbol, -1, data[i].option_2, data[i].option_3, debug)) {
if (!data[i].bwipp_cmp) {
if (debug & ZINT_DEBUG_TEST_PRINT) printf("i:%d %s not BWIPP compatible (%s)\n", i, testUtilBarcodeName(symbol->symbology), data[i].comment);
} else {
ret = testUtilBwipp(i, symbol, -1, data[i].option_2, data[i].option_3, data[i].data, length, NULL, cmp_buf, sizeof(cmp_buf), NULL);
assert_zero(ret, "i:%d %s testUtilBwipp ret %d != 0\n", i, testUtilBarcodeName(symbol->symbology), ret);
ret = testUtilBwippCmp(symbol, cmp_msg, cmp_buf, data[i].expected);
assert_zero(ret, "i:%d %s testUtilBwippCmp %d != 0 %s\n actual: %s\nexpected: %s\n",
i, testUtilBarcodeName(symbol->symbology), ret, cmp_msg, cmp_buf, data[i].expected);
}
}
if (do_zxingcpp && testUtilCanZXingCPP(i, symbol, data[i].data, length, debug)) {
if (!data[i].zxingcpp_cmp) {
if (debug & ZINT_DEBUG_TEST_PRINT) printf("i:%d %s not ZXing-C++ compatible (%s)\n", i, testUtilBarcodeName(symbol->symbology), data[i].comment);
} else {
int cmp_len, ret_len;
char modules_dump[16384];
assert_notequal(testUtilModulesDump(symbol, modules_dump, sizeof(modules_dump)), -1, "i:%d testUtilModulesDump == -1\n", i);
ret = testUtilZXingCPP(i, symbol, data[i].data, length, modules_dump, cmp_buf, sizeof(cmp_buf), &cmp_len);
assert_zero(ret, "i:%d %s testUtilZXingCPP ret %d != 0\n", i, testUtilBarcodeName(symbol->symbology), ret);
ret = testUtilZXingCPPCmp(symbol, cmp_msg, cmp_buf, cmp_len, data[i].data, length, NULL /*primary*/, escaped, &ret_len);
assert_zero(ret, "i:%d %s testUtilZXingCPPCmp %d != 0 %s\n actual: %.*s\nexpected: %.*s\n",
i, testUtilBarcodeName(symbol->symbology), ret, cmp_msg, cmp_len, cmp_buf, ret_len, escaped);
}
}
}
}
ZBarcode_Delete(symbol);
}
testFinish();
}
static void test_encode_segs(const testCtx *const p_ctx) {
int debug = p_ctx->debug;
struct item {
int input_mode;
int option_2;
int option_3;
struct zint_structapp structapp;
struct zint_seg segs[3];
int ret;
int expected_rows;
int expected_width;
int bwipp_cmp;
int zxingcpp_cmp;
char *comment;
char *expected;
};
/* ISS DotCode, Rev 4.0, DRAFT 0.15, TSC Pre-PR #5, MAY 28, 2019 */
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
static const struct item data[] = {
/* 0*/ { UNICODE_MODE, 18, -1, { 0, 0, "" }, { { TU(""), -1, 0 }, { TU("Ж"), -1, 7 }, { TU(""), 0, 0 } }, 0, 13, 18, 1, 1, "ISS DotCode Rev 4.0 13.5 example **NOT SAME** different encodation",
"100000001010101010"
"000100000100010101"
"001010000010101000"
"010101010001010001"
"100010100010000000"
"010100010100000101"
"001000101000000010"
"000001010101000100"
"100010100010000010"
"000001000101000001"
"101000101010100010"
"010100000000010001"
"100000101010000010"
},
/* 1*/ { UNICODE_MODE, 18, -1, { 0, 0, "" }, { { TU(""), -1, 0 }, { TU("Ж"), -1, 0 }, { TU(""), 0, 0 } }, ZINT_WARN_USES_ECI, 13, 18, 1, 1, "ISS DotCode Rev 4.0 13.5 example auto-ECI",
"100000001010101010"
"000100000100010101"
"001010000010101000"
"010101010001010001"
"100010100010000000"
"010100010100000101"
"001000101000000010"
"000001010101000100"
"100010100010000010"
"000001000101000001"
"101000101010100010"
"010100000000010001"
"100000101010000010"
},
/* 2*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, { { TU("Ж"), -1, 7 }, { TU(""), -1, 0 }, { TU(""), 0, 0 } }, 0, 14, 21, 1, 1, "ISS DotCode Rev 4.0 13.5 example inverted",
"100010001010101010000"
"000100000101000001010"
"101000101000001000101"
"000001010100000101000"
"001010101010100010001"
"010001000001010101000"
"101000101000101010100"
"010101010001010001000"
"100010001000000000100"
"010100000001000100010"
"001000100010000000101"
"000000000100010100010"
"100010001000100000001"
"010101000100010001000"
},
/* 3*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, { { TU("Ж"), -1, 0 }, { TU(""), -1, 0 }, { TU(""), 0, 0 } }, ZINT_WARN_USES_ECI, 14, 21, 1, 1, "ISS DotCode Rev 4.0 13.5 example inverted auto-ECI",
"100010001010101010000"
"000100000101000001010"
"101000101000001000101"
"000001010100000101000"
"001010101010100010001"
"010001000001010101000"
"101000101000101010100"
"010101010001010001000"
"100010001000000000100"
"010100000001000100010"
"001000100010000000101"
"000000000100010100010"
"100010001000100000001"
"010101000100010001000"
},
/* 4*/ { UNICODE_MODE, 95, -1, { 0, 0, "" }, { { TU("product:Google Pixel 4a - 128 GB of Storage - Black;price:$439.97"), -1, 3 }, { TU("品名:Google 谷歌 Pixel 4a -128 GB的存储空间-黑色;零售价:¥3149.79"), -1, 29 }, { TU("Produkt:Google Pixel 4a - 128 GB Speicher - Schwarz;Preis:444,90 €"), -1, 17 } }, 0, 64, 95, 0, 1, "AIM ITS/04-023:2022 Annex A example; BWIPP different encodation",
"10101000100000001010000000101000101010100010001010000010001000101000101000001000001000100010101"
"00000101010001010000010101000000010100000001010101000101010100010101000101000100000100000100000"
"10100010100010001000100000001010100000001000101000101010001010001010000000101000001000101000101"
"01010001000100000000000001010000010100010101010100010001010001010000010000010000010100010000010"
"10000010101000100000001010000010000000000000000000100010100010100000101010001000000010001000000"
"00010100000101000001010100000101010101010000010001010100000100010101010001010101000101000000010"
"10001010001010101010000010001010000010101000001000101000001000101000100010101010001000000010100"
"00010100010100010101000000010001010101000101000101010001010101000000000101010001010100000101000"
"10100000000000000000101000100010101010001000101010001010101010000000000010000000100010101010001"
"01000100010001010001000000000000000001000100000100000001010100010100010001010001010101010100010"
"00101000101010101000000010101000001010001010100010101000000000101010101000101010101010100000101"
"00000101010101010100010001010101000101010000010001010001000001010101000100000100000001010001010"
"00101010000010101000101000100000101000100010001000101000101010000010100010100000001000001010101"
"01000000010001000101010100000100000000010101000100000100010000010000010100000101000100000001010"
"00001010101000101000100000001000001010100010000010101010100000101010100010000000100010001000001"
"01010101010101010100000000010100010000010101000101010100000101010000000000010000010100010101000"
"10000000001010000010101000100010000010100000100000100010100010000000101010101010100010000000100"
"00010000000000010001010101000101010101000000010100000100010001000101010101010001000001010101010"
"10100000100000101010101010100000100010101010100010000010001010100010100010000010100000001010001"
"01000001010000000101010001010001000001010100010000000100000000000001000100000100000101000101010"
"10000010101010100010001010101010000000000010101000101010000000101000001000101010101010100000100"
"00010101000100000100000101010000010100010001000001010100000100010101010001010101010001010001010"
"00001010101000000010000010001010001000101000100000000000001010000000001000001010000000100010100"
"01000001000101000101010000000101010101010101000001000001010101000101010100010001010000010000000"
"10101010000010001000000000000000101010001010001010001000100000100010101010101000101010101010000"
"01010100000101010000010101010001000101000100010101000100010001010001010101000000010101010101000"
"00100010101000100010100010101000101000001000001010001010001010001010100000100010000010100010001"
"00000000010100010001000000000100010000010000010101000001000001000101000101010100010100010100000"
"10100000101010001000001000101010100000100000101000100010100000101000001000100000101000001010000"
"00010101000101000101010101000101000001000001000000010001010100000100000100000101010000000101010"
"00100000000010100010101010101010101000100010100010100010001010100010001000101010101000100010000"
"01000100010000010000000101000101010100000100010100010101000101010001010001000100010100000000010"
"10001000001000001010101010000000001010101000101010000000100010001010000010001000101010100000101"
"01010101000001000100000001010000010100010100000101000000010100000000000000010101000001010001000"
"00001010100000000000001000100010100010101010000000001000100000001010100010000010000000001010001"
"01010101000101000001010100010000000001010100000100010101000101010101010001010000010101000100000"
"00001010001000101000000000001010101010000010001000101010001000101000101010001000000010100010101"
"00010001010000010100000000000101000001010001000101010101010001010101010101000101010100000101010"
"10101000100010000000101010100010000000001010100010101010001010000010101000101010001010100010101"
"01000100010000010101000101010000010101000101010001010001000001000000000000010101010101010001010"
"10000010001000100010100010101000001010100010001010000000101000101010000010000010100010001000100"
"01010000010101010101010100000001010100010000010000000000010100010100000100000000000001010000010"
"00100000000010101010001000001010001010001000101010101010101010001000100010101000001000001000100"
"00000100000101010001010101010100000001010101010000000100010100010001010001010101000001000101000"
"00001010001010001010000000100000100000101000101000101000100010101010101000000010101000101000101"
"01010101010001010100000000010001000001010001010101010101010100000001000000010101000101010100000"
"10100010101000101010101010100010100000000010100000000010001000100010001010001000101010001010001"
"01010001010000000001010101010101010100000101010001000100000001010000010100000000000101000001010"
"00001010100010101000101010001000101000101010001010101010001000100000001010100000100000101010100"
"00000001000101000101010001010001000001000001010101010101000000000101010101010000010000010000010"
"10100000000010101000001000000000000010001010100010001000001010000000000000001000000010101000000"
"00000100000100000100000000000100010100000100010000000000010000000101010001000001010101010101000"
"00101000101000000010000000001000101010100000000010100010100010001010101010101010001010000000100"
"01000101010000010000010100000001010100010001000001010101000101010100000101000101010100010100000"
"10101010101010000010100010101010000000000010001000100000001000100000100000100010100010101000101"
"01010000010001010001010100000101010001010001000101010001000101010000000101010001000000000101010"
"10000000000010101000100010100010101010100000001000101000100010000000100000101010000010100010001"
"00010101010100000001010101010000000101000100000100010001010001000100010000000101010100000001010"
"10101010001010101010001000101010000010101010100010001000100000001000101000000000101000001000001"
"01010100000101010100000000000100010101000101010100000000010101010001010000000100000001000100010"
"10000010100000100000101010001000100000000000100000000010100010001010001010100010100010000010100"
"00010000010101000101010101010101010000010100010000010001010000010100000101000100010000010000000"
"10100000100000001010101010101010001010001010000010100010001010101010000010001010000000100010001"
"01000001000100000101000101010100000000010001000100000101000100000100010101010101000101010100010"
},
/* 5*/ { DATA_MODE, -1, -1, { 0, 0, "" }, { { TU("\266"), 1, 0 }, { TU("\266"), 1, 7 }, { TU("\266"), 1, 0 } }, 0, 15, 22, 1, 1, "Standard example + extra seg, data mode",
"1000101010000000001000"
"0100000101000101000001"
"1000001000100010101000"
"0000010001000001010101"
"1000100000100010101010"
"0001010000010000010001"
"0010101000101010100010"
"0000010101000101000000"
"1000100010001010100000"
"0101000101000100010100"
"0010100000100000001010"
"0001000101000001010100"
"1010000010100010001010"
"0000010000010000010101"
"1010001010100000101010"
},
/* 6*/ { UNICODE_MODE, 38, -1, { 0, 0, "" }, { { TU("1234567890β"), -1, 9 }, { TU("1234567890点"), -1, 20 }, { TU("1234567890"), -1, 0 } }, 0, 23, 38, 0, 1, "FNC2 ECI & BIN_LATCH ECI; BWIPP different encodation",
"10000000001010100000101010100000100010"
"00000001010001000001010001010101000100"
"10001010100000101000001010001010101000"
"01000101010001010001000100000000010101"
"00001000100010001010100000101000100000"
"01000101010000010101010001000000010101"
"10001000101000101010000000100010000010"
"01000100010001010001010000010100010001"
"10101000000010001010000010101010000000"
"01010100010000010100010000010000010101"
"00000010100010001010000010000010100010"
"01010000010001010001000101000001010101"
"10000000000010001010101000101000000010"
"00010001010001010100010000010101000101"
"10000010101010101000000010001000100010"
"00000101000101010100010000010100010000"
"00001010101000000010100010001010000010"
"01010001000100000100010001010000010101"
"00001010001010001000000000101010100010"
"01010101010000000100010101010000010100"
"00101010100010000010100010000010000010"
"01010000010100010001010000010000010101"
"10000010100000001010100000100010001010"
},
/* 7*/ { UNICODE_MODE, 29, -1, { 0, 0, "" }, { { TU("çèéêëì"), -1, 0 }, { TU("òóô"), -1, 899 }, { TU(""), 0, 0 } }, 0, 20, 29, 1, 0, "BIN_LATCH ECI > 0xFF; ZXing-C++ test can't handle binary",
"10001010001010101000000010001"
"01000001000100010100010101010"
"10000000100000100000000010101"
"00010100010001000101010000000"
"10001000000000001010101010101"
"00000100010100010000010101000"
"10001000101000001000100000000"
"01010101000101010101000101010"
"10101010101010000010001010000"
"00000001000001010101010001010"
"10001000000010100000101010101"
"01000001010100010101010100000"
"00000010101000101000000000101"
"01000101000001000100000000000"
"00100010000010100010100000101"
"01010000010101000101010100010"
"10100000100010000010001000001"
"01010101000000000100000001010"
"10101000101010000010001010001"
"01010101010100010001010001010"
},
/* 8*/ { UNICODE_MODE, 29, -1, { 0, 0, "" }, { { TU("çèéêëì"), -1, 0 }, { TU("òóô"), -1, 65536 }, { TU(""), 0, 0 } }, 0, 22, 29, 1, 0, "BIN_LATCH ECI > 0xFFFF; ZXing-C++ test can't handle binary",
"10101000100000101000001010001"
"00010101000000000100010100000"
"10100010001010000010101010100"
"00010100010101000100010001010"
"00001000001010101010101010101"
"00010000000001000100010100010"
"10001000001010000010000010001"
"00000001010101010000000101010"
"10101010101000001010100010101"
"01000100000100010001010001000"
"10000000000000101010100000001"
"00010101000101000001000001000"
"00101010101000100000001000101"
"00010001010001000101000100010"
"00000000100010100010000000001"
"01000001000100000000010101010"
"10100010100010001010001010101"
"01000100010001010100010100000"
"10101010001000100010100000101"
"01000001000000010001000001000"
"10001010101000101010000010001"
"01010101010101010001010000010"
},
/* 9*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, { { TU("[)>\03605\035"), -1, 0 }, { TU("A\036\004"), -1, 0 }, { TU(""), 0, 0 } }, 0, 10, 13, 1, 1, "Macro 05",
"1010001010101"
"0001000001010"
"1010100010001"
"0000000001000"
"1000101000100"
"0101010101000"
"1000001000001"
"0100010000010"
"0000100000100"
"0001010101010"
},
/* 10*/ { UNICODE_MODE, -1, -1, { 0, 0, "" }, { { TU("[)>\03605\035"), -1, 0 }, { TU("Študentska št."), -1, 4 }, { TU("\0352198390\036\004"), -1, 0 } }, 0, 24, 35, 1, 1, "Macro 05 with ECI",
"10101000000010101000000000101010001"
"00010100000001000000000101010001010"
"00000010001000000010100010001000101"
"00000000010100010101000001010001010"
"00000010101010000000101010100010000"
"00010000000101000101010001000100000"
"10001000000000001010100000001000101"
"01000001010101010100000101010101010"
"00100010000010100010001010101000000"
"00010101010000000001010100010101000"
"00101000100010001000001000100010101"
"00010000010101010000010001010100000"
"10100010101010101010000010000000001"
"01010100000100010100000100000000010"
"10001000100010100010101000001010101"
"01010101010000000101000001000100010"
"10001010101000001010101000001000100"
"01000101010101000101010101010101000"
"10101010101000100010100000000000000"
"01000101010000000000010000000001000"
"00100010001000101000100010101000100"
"01000000000101010101010100000101010"
"10001010000010100000001010000010001"
"01010001000001010001010001010101010"
},
/* 11*/ { UNICODE_MODE, -1, -1, { 35, 35, "" }, { { TU("Τεχτ"), -1, 9 }, { TU("กขฯ"), -1, 0 }, { TU(""), 0, 0 } }, ZINT_WARN_USES_ECI, 20, 29, 0, 1, "Structured Append with Terminate Latch A replaced",
"10101000001010000000001000101"
"01010101010101000000000100000"
"00101010001010100010101010001"
"01000100010000000101010100010"
"10000010100010001000100000000"
"00010000010101010100000101010"
"10100010101010101010001000001"
"00010101000000010101010001000"
"10000000100000101000101000101"
"01010000010001010001000100010"
"00101000000000100010001010101"
"01000001000101010001000001010"
"00001010000000000000100010101"
"00000101010101000100010001000"
"00101000001010001000001010101"
"01010101010100000100010001000"
"10000000101000100010100010001"
"00000000000000010001010101000"
"10101010001010101010100000001"
"01000101000001010100000100010"
},
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
const int data_size = ARRAY_SIZE(data);
int i, j, seg_count, ret;
struct zint_symbol *symbol = NULL;
char escaped[1024];
char cmp_buf[8192];
char cmp_msg[1024];
int do_bwipp = (debug & ZINT_DEBUG_TEST_BWIPP) && testUtilHaveGhostscript(); /* Only do BWIPP test if asked, too slow otherwise */
int do_zxingcpp = (debug & ZINT_DEBUG_TEST_ZXINGCPP) && testUtilHaveZXingCPPDecoder(); /* Only do ZXing-C++ test if asked, too slow otherwise */
testStartSymbol("test_encode_segs", &symbol);
for (i = 0; i < data_size; i++) {
if (testContinue(p_ctx, i)) continue;
symbol = ZBarcode_Create();
assert_nonnull(symbol, "Symbol not created\n");
testUtilSetSymbol(symbol, BARCODE_DOTCODE, data[i].input_mode, -1 /*eci*/,
-1 /* option_1*/, data[i].option_2, data[i].option_3, -1 /*output_options*/, NULL, 0, debug);
if (data[i].structapp.count) {
symbol->structapp = data[i].structapp;
}
for (j = 0, seg_count = 0; j < 3 && data[i].segs[j].length; j++, seg_count++);
ret = ZBarcode_Encode_Segs(symbol, data[i].segs, seg_count);
assert_equal(ret, data[i].ret, "i:%d ZBarcode_Encode_Segs ret %d != %d (%s)\n", i, ret, data[i].ret, symbol->errtxt);
if (p_ctx->generate) {
char escaped1[4096];
char escaped2[4096];
int length = data[i].segs[0].length == -1 ? (int) ustrlen(data[i].segs[0].source) : data[i].segs[0].length;
int length1 = data[i].segs[1].length == -1 ? (int) ustrlen(data[i].segs[1].source) : data[i].segs[1].length;
int length2 = data[i].segs[2].length == -1 ? (int) ustrlen(data[i].segs[2].source) : data[i].segs[2].length;
printf(" /*%3d*/ { %s, %d, %s, { %d, %d, \"%s\" }, { { TU(\"%s\"), %d, %d }, { TU(\"%s\"), %d, %d }, { TU(\"%s\"), %d, %d } }, %s, %d, %d, %d, %d, \"%s\",\n",
i, testUtilInputModeName(data[i].input_mode), data[i].option_2,
testUtilOption3Name(BARCODE_DOTCODE, data[i].option_3),
data[i].structapp.index, data[i].structapp.count, data[i].structapp.id,
testUtilEscape((const char *) data[i].segs[0].source, length, escaped, sizeof(escaped)), data[i].segs[0].length, data[i].segs[0].eci,
testUtilEscape((const char *) data[i].segs[1].source, length1, escaped1, sizeof(escaped1)), data[i].segs[1].length, data[i].segs[1].eci,
testUtilEscape((const char *) data[i].segs[2].source, length2, escaped2, sizeof(escaped2)), data[i].segs[2].length, data[i].segs[2].eci,
testUtilErrorName(data[i].ret), symbol->rows, symbol->width, data[i].bwipp_cmp, data[i].zxingcpp_cmp, data[i].comment);
testUtilModulesPrint(symbol, " ", "\n");
printf(" },\n");
} else {
if (ret < ZINT_ERROR) {
int width, row;
assert_equal(symbol->rows, data[i].expected_rows, "i:%d symbol->rows %d != %d\n", i, symbol->rows, data[i].expected_rows);
assert_equal(symbol->width, data[i].expected_width, "i:%d symbol->width %d != %d\n", i, symbol->width, data[i].expected_width);
ret = testUtilModulesCmp(symbol, data[i].expected, &width, &row);
assert_zero(ret, "i:%d testUtilModulesCmp ret %d != 0 width %d row %d\n", i, ret, width, row);
if (do_bwipp && testUtilCanBwipp(i, symbol, -1, data[i].option_2, data[i].option_3, debug)) {
if (!data[i].bwipp_cmp) {
if (debug & ZINT_DEBUG_TEST_PRINT) printf("i:%d %s not BWIPP compatible (%s)\n", i, testUtilBarcodeName(symbol->symbology), data[i].comment);
} else {
ret = testUtilBwippSegs(i, symbol, -1, data[i].option_2, data[i].option_3, data[i].segs, seg_count, NULL, cmp_buf, sizeof(cmp_buf));
assert_zero(ret, "i:%d %s testUtilBwippSegs ret %d != 0\n", i, testUtilBarcodeName(symbol->symbology), ret);
ret = testUtilBwippCmp(symbol, cmp_msg, cmp_buf, data[i].expected);
assert_zero(ret, "i:%d %s testUtilBwippCmp %d != 0 %s\n actual: %s\nexpected: %s\n",
i, testUtilBarcodeName(symbol->symbology), ret, cmp_msg, cmp_buf, data[i].expected);
}
}
if (do_zxingcpp && testUtilCanZXingCPP(i, symbol, (const char *) data[i].segs[0].source, data[i].segs[0].length, debug)) {
if (!data[i].zxingcpp_cmp) {
if (debug & ZINT_DEBUG_TEST_PRINT) printf("i:%d %s not ZXing-C++ compatible (%s)\n", i, testUtilBarcodeName(symbol->symbology), data[i].comment);
} else if (data[i].input_mode == DATA_MODE) {
if (debug & ZINT_DEBUG_TEST_PRINT) {
printf("i:%d multiple segments in DATA_MODE not currently supported for ZXing-C++ testing (%s)\n",
i, testUtilBarcodeName(symbol->symbology));
}
} else {
int cmp_len, ret_len;
char modules_dump[16384];
assert_notequal(testUtilModulesDump(symbol, modules_dump, sizeof(modules_dump)), -1, "i:%d testUtilModulesDump == -1\n", i);
ret = testUtilZXingCPP(i, symbol, (const char *) data[i].segs[0].source, data[i].segs[0].length,
modules_dump, cmp_buf, sizeof(cmp_buf), &cmp_len);
assert_zero(ret, "i:%d %s testUtilZXingCPP ret %d != 0\n", i, testUtilBarcodeName(symbol->symbology), ret);
ret = testUtilZXingCPPCmpSegs(symbol, cmp_msg, cmp_buf, cmp_len, data[i].segs, seg_count,
NULL /*primary*/, escaped, &ret_len);
assert_zero(ret, "i:%d %s testUtilZXingCPPCmpSegs %d != 0 %s\n actual: %.*s\nexpected: %.*s\n",
i, testUtilBarcodeName(symbol->symbology), ret, cmp_msg, cmp_len, cmp_buf, ret_len, escaped);
}
}
}
}
ZBarcode_Delete(symbol);
}
testFinish();
}
/* #181 Christian Hartlage / Nico Gunkel OSS-Fuzz */
static void test_fuzz(const testCtx *const p_ctx) {
int debug = p_ctx->debug;
struct item {
int input_mode;
char *data;
int length;
int ret;
};
/* s/\/\*[ 0-9]*\*\//\=printf("\/\*%3d*\/", line(".") - line("'<")): */
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
static const struct item data[] = {
/* 0*/ { DATA_MODE, "(\207'", -1, 0 }, /* 0x28,0x87,0x27 Note: should but doesn't trigger sanitize error if no length check, for some reason; UPDATE: use up-to-date gcc (9)! */
/* 1*/ { DATA_MODE,
"\133\061\106\133\061\106\070\161\116\133\116\116\067\040\116\016\000\116\125\111\125\125\316\125\125\116\116\116\116\117\116\125"
"\111\125\103\316\125\125\116\116\116\116\117\000\000\116\136\116\116\001\116\316\076\116\116\057\136\116\116\134\000\000\116\116"
"\116\230\116\116\116\116\125\125\125\257\257\257\000\001\116\130\212\212\212\212\212\212\212\377\377\210\212\212\177\000\212\212"
"\212\212\212\212\175\212\212\212\212\212\212\116\117\001\116\116\112\116\116\116\116\176\136\000\000\000\000\000\000\000\000\000"
"\000\000\000\000\000\000\000\000\005\377\377\005\125\125\125\325\001\116\116\116\266\116\020\000\200\000\116\116\177\000\000\377"
"\377\257\257\257\125\112\117\116\001\000\000\044\241\001\116\116\116\136\116\116\116\056\116\125\111\125\125\316\125\125\116\116"
"\116\116\057\000\000\116\136\116\116\001\116\116\076\342\116\057\136\116\116\134\000\000\116\116\116\241\116\116\116\116\125\125"
"\125\257\257\257\000\001\116\130\212\212\212\212\212\212\212\212\172\212\071\071\071\071\071\071\071\071\071\071\071\071\071\071"
"\071\071\071\071\071\110\071\071\051\071\065\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071"
"\071\071\071\071\071\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330\330"
"\330\330\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\071\065\071\071\071\071\071\071\071\071\071\071\071\071\071"
"\071\071\071\071\071\072\071\071\277\071\071\077\071\071\071\071\071\071\071\071\154\071\071\071\071\071\071\071\071\071\071\071"
"\071\071\071\011\071\071\071\071\071\071\071\071\071\071\071\071\071\071\105\105\105\105\105\105\105\105\105\105\105\105\105\071"
"\071\071\071\071\071", /* Original OSS-Fuzz triggering data for index out of bounds (encoding of HT/FS/GS/RS when shifting to code set B) */
421, 0 },
/* 2*/ { DATA_MODE, "\233:", -1, 0 }, /* Original OSS-Fuzz triggering data for codeword_array buffer overflow, L777 */
/* 3*/ { DATA_MODE, "\241\034", -1, 0 }, /* As above L793 */
/* 4*/ { DATA_MODE, "\270\036", -1, 0 }, /* As above L799 */
/* 5*/ { DATA_MODE, "\237\032", -1, 0 }, /* As above L904 */
/* 6*/ { DATA_MODE, "\237", -1, 0 }, /* As above L1090 */
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
const int data_size = ARRAY_SIZE(data);
int i, length, ret;
struct zint_symbol *symbol = NULL;
testStartSymbol("test_fuzz", &symbol);
for (i = 0; i < data_size; i++) {
if (testContinue(p_ctx, i)) continue;
symbol = ZBarcode_Create();
assert_nonnull(symbol, "Symbol not created\n");
length = testUtilSetSymbol(symbol, BARCODE_DOTCODE, data[i].input_mode, -1 /*eci*/, -1 /*option_1*/, -1, -1, -1 /*output_options*/, data[i].data, data[i].length, debug);
ret = ZBarcode_Encode(symbol, (unsigned char *) data[i].data, length);
assert_equal(ret, data[i].ret, "i:%d ZBarcode_Encode ret %d != %d (%s)\n", i, ret, data[i].ret, symbol->errtxt);
ZBarcode_Delete(symbol);
}
testFinish();
}
#define GF 113
/* Dummy to generate pre-calculated coefficients for GF(113) of generator polys of degree 3 to 39 */
static void test_generate(const testCtx *const p_ctx) {
/* roots (antilogs): root[0] = 1; for (i = 1; i < GF - 1; i++) root[i] = (PM * root[i - 1]) % GF; */
static const int root[GF - 1] = {
1, 3, 9, 27, 81, 17, 51, 40, 7, 21,
63, 76, 2, 6, 18, 54, 49, 34, 102, 80,
14, 42, 13, 39, 4, 12, 36, 108, 98, 68,
91, 47, 28, 84, 26, 78, 8, 24, 72, 103,
83, 23, 69, 94, 56, 55, 52, 43, 16, 48,
31, 93, 53, 46, 25, 75, 112, 110, 104, 86,
32, 96, 62, 73, 106, 92, 50, 37, 111, 107,
95, 59, 64, 79, 11, 33, 99, 71, 100, 74,
109, 101, 77, 5, 15, 45, 22, 66, 85, 29,
87, 35, 105, 89, 41, 10, 30, 90, 44, 19,
57, 58, 61, 70, 97, 65, 82, 20, 60, 67,
88, 38
};
int i, j, nc, cind, ci;
/* Degree nc has nc + 1 terms */
char coefs[820 - 5] = {0}; /* 40*(41 + 1)/2 == 820 less 2 + 3 (degrees 1 and 2) */
int cinds[39 - 2] = {0};
if (!p_ctx->generate) {
return;
}
printf(" static const char coefs[820 - 5] = { /* 40*(41 + 1)/2 == 820 less 2 + 3 (degrees 1 and 2) */\n");
for (nc = 3, cind = 0, ci = 0; nc <= 39; cind += nc + 1, ci++, nc++) {
cinds[ci] = cind;
coefs[cind] = 1;
for (i = 1; i <= nc; i++) {
for (j = nc; j >= 1; j--) {
coefs[cind + j] = (GF + coefs[cind + j] - (root[i] * coefs[cind + j - 1]) % GF) % GF;
}
}
printf(" ");
for (i = 0; i <= nc; i++) {
if (i == 22) printf("\n ");
printf(" %3d,", coefs[cinds[ci] + i]);
}
printf("\n");
}
printf(" };\n");
printf(" static const short cinds[39 - 2] = { /* Indexes into above coefs[] array */\n ");
for (i = 0; i < ARRAY_SIZE(cinds); i++) {
if (i == 22) printf("\n ");
printf(" %3d,", cinds[i]);
}
printf("\n };\n");
}
#include <time.h>
#define TEST_PERF_ITERATIONS 1000
/* Not a real test, just performance indicator */
static void test_perf(const testCtx *const p_ctx) {
int debug = p_ctx->debug;
struct item {
int symbology;
int input_mode;
int option_1;
int option_2;
char *data;
int ret;
int expected_rows;
int expected_width;
char *comment;
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
static const struct item data[] = {
/* 0*/ { BARCODE_DOTCODE, -1, -1, -1,
"ABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890abcdefghijklmnopqrstuvwxyz&,:#-.$/+%*=^ABCDEFGHIJKLMNOPQRSTUVWXYZ12345678901234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLM"
"NOPQRSTUVWXYZ;<>@[]_`~!||()?{}'123456789012345678901234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJK"
"LMNOPQRSTUVWXYZ12345678912345678912345678912345678900001234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890abcdefghijklmnopqrstuvwxyzABCDEFG"
"HIJKLMNOPQRSTUVWXYZ1234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ12345678901234567"
"890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890abcde"
"fghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNO",
0, 124, 185, "960 chars, text/numeric" },
};
CODE128: reduce extended latch cut-off from 5 to 4 for better encodation in certain cases (and no pessimizations found so far), props lyngklip (BWIPP); fix extended char latching when exactly 3 extended chars at end; count code set C (not digits) in loop deciding when to shift/latch to extended for better estimate AZTEC: return warning if ECC < 5% (due to bit-stuffing when version given); return error if > 22 layers (Zint 26) for Reader Initialisation symbol requested for better error message AZTEC/HANXIN/QRCODE: consolidate different ECC data size tables into one indexed by ECC DBAR_EXP: check for reduced length <= 77 up front for better error message HANXIN: use `malloc()` rather than `z_alloca()` for large binary array QRCODE: `ecc_level` now 0-based (not 1-based) MICROQR: consolidate different version end routines into one `microqr_end()` and use new `microqr_data` table to simplify code MICROPDF417: use table for max codewords per column library: centralize all error messages using new `errtxt()`, `errtxtf()`, `errtxt_adj()` funcs that protect `symbol->errtxt` from overflow, & try to make error messages more consistent thru-out, adding more feedback info to many, & use positional args "%n$" in prep for l10n (maybe); `is_sane/is_sane_lookup()` -> `not_sane/not_sane_lookup()`, returning 1-based position (zero on failure) instead of bool; `long` ints -> plain `int` (except those dealing with `ftell()`, `fread()` etc) as depend on int being 32-bits already GUI: in "grpDATF.ui" use "PlainText" rather than "RichText" for tracker ratio examples as height of text messing up sometimes manual: clarify Codablock-F length maximum & add examples docs: README: pandoc 3.5, Ubuntu 24.04 CMake: use "-Wpedantic" for Clang only as GNU complains about `errtxtf()` positional args "%n$"
2024-10-28 10:33:33 +13:00
const int data_size = ARRAY_SIZE(data);
int i, length, ret;
clock_t start, total_encode = 0, total_buffer = 0, diff_encode, diff_buffer;
if (!(debug & ZINT_DEBUG_TEST_PERFORMANCE)) { /* -d 256 */
return;
}
for (i = 0; i < data_size; i++) {
int j;
if (testContinue(p_ctx, i)) continue;
diff_encode = diff_buffer = 0;
for (j = 0; j < TEST_PERF_ITERATIONS; j++) {
struct zint_symbol *symbol = ZBarcode_Create();
assert_nonnull(symbol, "Symbol not created\n");
length = testUtilSetSymbol(symbol, data[i].symbology, data[i].input_mode, -1 /*eci*/, data[i].option_1, data[i].option_2, -1, -1 /*output_options*/, data[i].data, -1, debug);
start = clock();
ret = ZBarcode_Encode(symbol, (unsigned char *) data[i].data, length);
diff_encode += clock() - start;
assert_equal(ret, data[i].ret, "i:%d ZBarcode_Encode ret %d != %d (%s)\n", i, ret, data[i].ret, symbol->errtxt);
assert_equal(symbol->rows, data[i].expected_rows, "i:%d symbol->rows %d != %d (%s)\n", i, symbol->rows, data[i].expected_rows, data[i].data);
assert_equal(symbol->width, data[i].expected_width, "i:%d symbol->width %d != %d (%s)\n", i, symbol->width, data[i].expected_width, data[i].data);
start = clock();
ret = ZBarcode_Buffer(symbol, 0 /*rotate_angle*/);
diff_buffer += clock() - start;
assert_zero(ret, "i:%d ZBarcode_Buffer ret %d != 0 (%s)\n", i, ret, symbol->errtxt);
ZBarcode_Delete(symbol);
}
printf("%s: diff_encode %gms, diff_buffer %gms\n", data[i].comment, diff_encode * 1000.0 / CLOCKS_PER_SEC, diff_buffer * 1000.0 / CLOCKS_PER_SEC);
total_encode += diff_encode;
total_buffer += diff_buffer;
}
if (p_ctx->index != -1) {
printf("totals: encode %gms, buffer %gms\n", total_encode * 1000.0 / CLOCKS_PER_SEC, total_buffer * 1000.0 / CLOCKS_PER_SEC);
}
}
int main(int argc, char *argv[]) {
testFunction funcs[] = { /* name, func */
{ "test_large", test_large },
{ "test_options", test_options },
{ "test_input", test_input },
{ "test_encode", test_encode },
{ "test_encode_segs", test_encode_segs },
{ "test_fuzz", test_fuzz },
{ "test_generate", test_generate },
{ "test_perf", test_perf },
};
testRun(argc, argv, funcs, ARRAY_SIZE(funcs));
testReport();
return 0;
}
/* vim: set ts=4 sw=4 et : */