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twain3.0/3rdparty/hgOCR/leptonica/regutils.c

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/*====================================================================*
- Copyright (C) 2001 Leptonica. All rights reserved.
-
- 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.
-
- 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 ANY
- 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.
*====================================================================*/
/*!
* \file regutils.c
* <pre>
*
* Regression test utilities
* l_int32 regTestSetup()
* l_int32 regTestCleanup()
* l_int32 regTestCompareValues()
* l_int32 regTestCompareStrings()
* l_int32 regTestComparePix()
* l_int32 regTestCompareSimilarPix()
* l_int32 regTestCheckFile()
* l_int32 regTestCompareFiles()
* l_int32 regTestWritePixAndCheck()
* l_int32 regTestWriteDataAndCheck()
* char *regTestGenLocalFilename()
*
* Static function
* char *getRootNameFromArgv0()
*
* These functions are for testing and development. They are not intended
* for use with programs that run in a production environment, such as a
* cloud service with unrestricted access.
*
* See regutils.h for how to use this. Here is a minimal setup:
*
* main(int argc, char **argv) {
* ...
* L_REGPARAMS *rp;
*
* if (regTestSetup(argc, argv, &rp))
* return 1;
* ...
* regTestWritePixAndCheck(rp, pix, IFF_PNG); // 0
* ...
* return regTestCleanup(rp);
* }
* </pre>
*/
#include <string.h>
#include "allheaders.h"
extern l_int32 NumImageFileFormatExtensions;
extern const char *ImageFileFormatExtensions[];
static char *getRootNameFromArgv0(const char *argv0);
/*--------------------------------------------------------------------*
* Regression test utilities *
*--------------------------------------------------------------------*/
/*!
* \brief regTestSetup()
*
* \param[in] argc from invocation; can be either 1 or 2
* \param[in] argv to regtest: %argv[1] is one of these:
* "generate", "compare", "display"
* \param[out] prp all regression params
* \return 0 if OK, 1 on error
*
* <pre>
* Notes:
* (1) Call this function with the args to the reg test. The first arg
* is the name of the reg test. There are three cases:
* Case 1:
* There is either only one arg, or the second arg is "compare".
* This is the mode in which you run a regression test
* (or a set of them), looking for failures and logging
* the results to a file. The output, which includes
* logging of all reg test failures plus a SUCCESS or
* FAILURE summary for each test, is appended to the file
* "/tmp/lept/reg_results.txt. For this case, as in Case 2,
* the display field in rp is set to FALSE, preventing
* image display.
* Case 2:
* The second arg is "generate". This will cause
* generation of new golden files for the reg test.
* The results of the reg test are not recorded, and
* the display field in rp is set to FALSE.
* Case 3:
* The second arg is "display". The test will run and
* files will be written. Comparisons with golden files
* will not be carried out, so the only notion of success
* or failure is with tests that do not involve golden files.
* The display field in rp is TRUE, and this is used by
* pixDisplayWithTitle().
* (2) See regutils.h for examples of usage.
* </pre>
*/
l_ok
regTestSetup(l_int32 argc,
char **argv,
L_REGPARAMS **prp)
{
char *testname, *vers;
char errormsg[64];
L_REGPARAMS *rp;
PROCNAME("regTestSetup");
if (argc != 1 && argc != 2) {
snprintf(errormsg, sizeof(errormsg),
"Syntax: %s [ [compare] | generate | display ]", argv[0]);
return ERROR_INT(errormsg, procName, 1);
}
if ((testname = getRootNameFromArgv0(argv[0])) == NULL)
return ERROR_INT("invalid root", procName, 1);
setLeptDebugOK(1); /* required for testing */
rp = (L_REGPARAMS *)LEPT_CALLOC(1, sizeof(L_REGPARAMS));
*prp = rp;
rp->testname = testname;
rp->index = -1; /* increment before each test */
/* Initialize to true. A failure in any test is registered
* as a failure of the regression test. */
rp->success = TRUE;
/* Make sure the lept/regout subdirectory exists */
lept_mkdir("lept/regout");
/* Only open a stream to a temp file for the 'compare' case */
if (argc == 1 || !strcmp(argv[1], "compare")) {
rp->mode = L_REG_COMPARE;
rp->tempfile = stringNew("/tmp/lept/regout/regtest_output.txt");
rp->fp = fopenWriteStream(rp->tempfile, "wb");
if (rp->fp == NULL) {
rp->success = FALSE;
return ERROR_INT("stream not opened for tempfile", procName, 1);
}
} else if (!strcmp(argv[1], "generate")) {
rp->mode = L_REG_GENERATE;
lept_mkdir("lept/golden");
} else if (!strcmp(argv[1], "display")) {
rp->mode = L_REG_DISPLAY;
rp->display = TRUE;
} else {
LEPT_FREE(rp);
snprintf(errormsg, sizeof(errormsg),
"Syntax: %s [ [generate] | compare | display ]", argv[0]);
return ERROR_INT(errormsg, procName, 1);
}
/* Print out test name and both the leptonica and
* image libarary versions */
fprintf(stderr, "\n////////////////////////////////////////////////\n"
"//////////////// %s_reg ///////////////\n"
"////////////////////////////////////////////////\n",
rp->testname);
vers = getLeptonicaVersion();
fprintf(stderr, "%s : ", vers);
LEPT_FREE(vers);
vers = getImagelibVersions();
fprintf(stderr, "%s\n", vers);
LEPT_FREE(vers);
rp->tstart = startTimerNested();
return 0;
}
/*!
* \brief regTestCleanup()
*
* \param[in] rp regression test parameters
* \return 0 if OK, 1 on error
*
* <pre>
* Notes:
* (1) This copies anything written to the temporary file to the
* output file /tmp/lept/reg_results.txt.
* </pre>
*/
l_ok
regTestCleanup(L_REGPARAMS *rp)
{
char result[512];
char *results_file; /* success/failure output in 'compare' mode */
char *text, *message;
l_int32 retval;
size_t nbytes;
PROCNAME("regTestCleanup");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
fprintf(stderr, "Time: %7.3f sec\n", stopTimerNested(rp->tstart));
/* If generating golden files or running in display mode, release rp */
if (!rp->fp) {
LEPT_FREE(rp->testname);
LEPT_FREE(rp->tempfile);
LEPT_FREE(rp);
return 0;
}
/* Compare mode: read back data from temp file */
fclose(rp->fp);
text = (char *)l_binaryRead(rp->tempfile, &nbytes);
LEPT_FREE(rp->tempfile);
if (!text) {
rp->success = FALSE;
LEPT_FREE(rp->testname);
LEPT_FREE(rp);
return ERROR_INT("text not returned", procName, 1);
}
/* Prepare result message */
if (rp->success)
snprintf(result, sizeof(result), "SUCCESS: %s_reg\n", rp->testname);
else
snprintf(result, sizeof(result), "FAILURE: %s_reg\n", rp->testname);
message = stringJoin(text, result);
LEPT_FREE(text);
results_file = stringNew("/tmp/lept/reg_results.txt");
fileAppendString(results_file, message);
retval = (rp->success) ? 0 : 1;
LEPT_FREE(results_file);
LEPT_FREE(message);
LEPT_FREE(rp->testname);
LEPT_FREE(rp);
return retval;
}
/*!
* \brief regTestCompareValues()
*
* \param[in] rp regtest parameters
* \param[in] val1 typ. the golden value
* \param[in] val2 typ. the value computed
* \param[in] delta allowed max absolute difference
* \return 0 if OK, 1 on error a failure in comparison is not an error
*/
l_ok
regTestCompareValues(L_REGPARAMS *rp,
l_float32 val1,
l_float32 val2,
l_float32 delta)
{
l_float32 diff;
PROCNAME("regTestCompareValues");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
rp->index++;
diff = L_ABS(val2 - val1);
/* Record on failure */
if (diff > delta) {
if (rp->fp) {
fprintf(rp->fp,
"Failure in %s_reg: value comparison for index %d\n"
"difference = %f but allowed delta = %f\n",
rp->testname, rp->index, diff, delta);
}
fprintf(stderr,
"Failure in %s_reg: value comparison for index %d\n"
"difference = %f but allowed delta = %f\n",
rp->testname, rp->index, diff, delta);
rp->success = FALSE;
}
return 0;
}
/*!
* \brief regTestCompareStrings()
*
* \param[in] rp regtest parameters
* \param[in] string1 typ. the expected string
* \param[in] bytes1 size of string1
* \param[in] string2 typ. the computed string
* \param[in] bytes2 size of string2
* \return 0 if OK, 1 on error a failure in comparison is not an error
*/
l_ok
regTestCompareStrings(L_REGPARAMS *rp,
l_uint8 *string1,
size_t bytes1,
l_uint8 *string2,
size_t bytes2)
{
l_int32 same;
char buf[256];
PROCNAME("regTestCompareStrings");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
rp->index++;
l_binaryCompare(string1, bytes1, string2, bytes2, &same);
/* Output on failure */
if (!same) {
/* Write the two strings to file */
snprintf(buf, sizeof(buf), "/tmp/lept/regout/string1_%d_%zu",
rp->index, bytes1);
l_binaryWrite(buf, "w", string1, bytes1);
snprintf(buf, sizeof(buf), "/tmp/lept/regout/string2_%d_%zu",
rp->index, bytes2);
l_binaryWrite(buf, "w", string2, bytes2);
/* Report comparison failure */
snprintf(buf, sizeof(buf), "/tmp/lept/regout/string*_%d_*", rp->index);
if (rp->fp) {
fprintf(rp->fp,
"Failure in %s_reg: string comp for index %d; "
"written to %s\n", rp->testname, rp->index, buf);
}
fprintf(stderr,
"Failure in %s_reg: string comp for index %d; "
"written to %s\n", rp->testname, rp->index, buf);
rp->success = FALSE;
}
return 0;
}
/*!
* \brief regTestComparePix()
*
* \param[in] rp regtest parameters
* \param[in] pix1, pix2 to be tested for equality
* \return 0 if OK, 1 on error a failure in comparison is not an error
*
* <pre>
* Notes:
* (1) This function compares two pix for equality. On failure,
* this writes to stderr.
* </pre>
*/
l_ok
regTestComparePix(L_REGPARAMS *rp,
PIX *pix1,
PIX *pix2)
{
l_int32 same;
PROCNAME("regTestComparePix");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
if (!pix1 || !pix2) {
rp->success = FALSE;
return ERROR_INT("pix1 and pix2 not both defined", procName, 1);
}
rp->index++;
pixEqual(pix1, pix2, &same);
/* Record on failure */
if (!same) {
if (rp->fp) {
fprintf(rp->fp, "Failure in %s_reg: pix comparison for index %d\n",
rp->testname, rp->index);
}
fprintf(stderr, "Failure in %s_reg: pix comparison for index %d\n",
rp->testname, rp->index);
rp->success = FALSE;
}
return 0;
}
/*!
* \brief regTestCompareSimilarPix()
*
* \param[in] rp regtest parameters
* \param[in] pix1, pix2 to be tested for near equality
* \param[in] mindiff minimum pixel difference to be counted; > 0
* \param[in] maxfract maximum fraction of pixels allowed to have
* diff greater than or equal to mindiff
* \param[in] printstats use 1 to print normalized histogram to stderr
* \return 0 if OK, 1 on error a failure in similarity comparison
* is not an error
*
* <pre>
* Notes:
* (1) This function compares two pix for near equality. On failure,
* this writes to stderr.
* (2) The pix are similar if the fraction of non-conforming pixels
* does not exceed %maxfract. Pixels are non-conforming if
* the difference in pixel values equals or exceeds %mindiff.
* Typical values might be %mindiff = 15 and %maxfract = 0.01.
* (3) The input images must have the same size and depth. The
* pixels for comparison are typically subsampled from the images.
* (4) Normally, use %printstats = 0. In debugging mode, to see
* the relation between %mindiff and the minimum value of
* %maxfract for success, set this to 1.
* </pre>
*/
l_ok
regTestCompareSimilarPix(L_REGPARAMS *rp,
PIX *pix1,
PIX *pix2,
l_int32 mindiff,
l_float32 maxfract,
l_int32 printstats)
{
l_int32 w, h, factor, similar;
PROCNAME("regTestCompareSimilarPix");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
if (!pix1 || !pix2) {
rp->success = FALSE;
return ERROR_INT("pix1 and pix2 not both defined", procName, 1);
}
rp->index++;
pixGetDimensions(pix1, &w, &h, NULL);
factor = L_MAX(w, h) / 400;
factor = L_MAX(1, L_MIN(factor, 4)); /* between 1 and 4 */
pixTestForSimilarity(pix1, pix2, factor, mindiff, maxfract, 0.0,
&similar, printstats);
/* Record on failure */
if (!similar) {
if (rp->fp) {
fprintf(rp->fp,
"Failure in %s_reg: pix similarity comp for index %d\n",
rp->testname, rp->index);
}
fprintf(stderr, "Failure in %s_reg: pix similarity comp for index %d\n",
rp->testname, rp->index);
rp->success = FALSE;
}
return 0;
}
/*!
* \brief regTestCheckFile()
*
* \param[in] rp regtest parameters
* \param[in] localname name of output file from reg test
* \return 0 if OK, 1 on error a failure in comparison is not an error
*
* <pre>
* Notes:
* (1) This function does one of three things, depending on the mode:
* * "generate": makes a "golden" file as a copy of %localname.
* * "compare": compares %localname contents with the golden file
* * "display": this does nothing
* (2) The canonical format of the golden filenames is:
* /tmp/lept/golden/[root of main name]_golden.[index].
* [ext of localname]
* e.g.,
* /tmp/lept/golden/maze_golden.0.png
* (3) The local file can be made in any subdirectory of /tmp/lept,
* including /tmp/lept/regout/.
* (4) It is important to add an extension to the local name, such as
* /tmp/lept/maze/file1.png (extension ".png")
* because the extension is added to the name of the golden file.
* </pre>
*/
l_ok
regTestCheckFile(L_REGPARAMS *rp,
const char *localname)
{
char *ext;
char namebuf[256];
l_int32 ret, same, format;
PIX *pix1, *pix2;
PROCNAME("regTestCheckFile");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
if (!localname) {
rp->success = FALSE;
return ERROR_INT("local name not defined", procName, 1);
}
if (rp->mode != L_REG_GENERATE && rp->mode != L_REG_COMPARE &&
rp->mode != L_REG_DISPLAY) {
rp->success = FALSE;
return ERROR_INT("invalid mode", procName, 1);
}
rp->index++;
/* If display mode, no generation and no testing */
if (rp->mode == L_REG_DISPLAY) return 0;
/* Generate the golden file name; used in 'generate' and 'compare' */
splitPathAtExtension(localname, NULL, &ext);
snprintf(namebuf, sizeof(namebuf), "/tmp/lept/golden/%s_golden.%02d%s",
rp->testname, rp->index, ext);
LEPT_FREE(ext);
/* Generate mode. No testing. */
if (rp->mode == L_REG_GENERATE) {
/* Save the file as a golden file */
ret = fileCopy(localname, namebuf);
#if 0 /* Enable for details on writing of golden files */
if (!ret) {
char *local = genPathname(localname, NULL);
char *golden = genPathname(namebuf, NULL);
L_INFO("Copy: %s to %s\n", procName, local, golden);
LEPT_FREE(local);
LEPT_FREE(golden);
}
#endif
return ret;
}
/* Compare mode: test and record on failure. This can be used
* for all image formats, as well as for all files of serialized
* data, such as boxa, pta, etc. In all cases except for
* GIF compressed images, we compare the files to see if they
* are identical. GIF doesn't support RGB images; to write
* a 32 bpp RGB image in GIF, we do a lossy quantization to
* 256 colors, so the cycle read-RGB/write-GIF is not idempotent.
* And although the read/write cycle for GIF images with bpp <= 8
* is idempotent in the image pixels, it is not idempotent in the
* actual file bytes; tests comparing file bytes before and after
* a GIF read/write cycle will fail. So for GIF we uncompress
* the two images and compare the actual pixels. PNG is both
* lossless and idempotent in file bytes on read/write, so it is
* not necessary to compare pixels. (Comparing pixels requires
* decompression, and thus would increase the regression test
* time. JPEG is lossy and not idempotent in the image pixels,
* so no tests are constructed that would require it. */
findFileFormat(localname, &format);
if (format == IFF_GIF) {
same = 0;
pix1 = pixRead(localname);
pix2 = pixRead(namebuf);
pixEqual(pix1, pix2, &same);
pixDestroy(&pix1);
pixDestroy(&pix2);
} else {
filesAreIdentical(localname, namebuf, &same);
}
if (!same) {
fprintf(rp->fp, "Failure in %s_reg, index %d: comparing %s with %s\n",
rp->testname, rp->index, localname, namebuf);
fprintf(stderr, "Failure in %s_reg, index %d: comparing %s with %s\n",
rp->testname, rp->index, localname, namebuf);
rp->success = FALSE;
}
return 0;
}
/*!
* \brief regTestCompareFiles()
*
* \param[in] rp regtest parameters
* \param[in] index1 of one output file from reg test
* \param[in] index2 of another output file from reg test
* \return 0 if OK, 1 on error a failure in comparison is not an error
*
* <pre>
* Notes:
* (1) This only does something in "compare" mode.
* (2) The canonical format of the golden filenames is:
* /tmp/lept/golden/[root of main name]_golden.[index].
* [ext of localname]
* e.g.,
* /tmp/lept/golden/maze_golden.0.png
* </pre>
*/
l_ok
regTestCompareFiles(L_REGPARAMS *rp,
l_int32 index1,
l_int32 index2)
{
char *name1, *name2;
char namebuf[256];
l_int32 same;
SARRAY *sa;
PROCNAME("regTestCompareFiles");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
if (index1 < 0 || index2 < 0) {
rp->success = FALSE;
return ERROR_INT("index1 and/or index2 is negative", procName, 1);
}
if (index1 == index2) {
rp->success = FALSE;
return ERROR_INT("index1 must differ from index2", procName, 1);
}
rp->index++;
if (rp->mode != L_REG_COMPARE) return 0;
/* Generate the golden file names */
snprintf(namebuf, sizeof(namebuf), "%s_golden.%02d", rp->testname, index1);
sa = getSortedPathnamesInDirectory("/tmp/lept/golden", namebuf, 0, 0);
if (sarrayGetCount(sa) != 1) {
sarrayDestroy(&sa);
rp->success = FALSE;
L_ERROR("golden file %s not found\n", procName, namebuf);
return 1;
}
name1 = sarrayGetString(sa, 0, L_COPY);
sarrayDestroy(&sa);
snprintf(namebuf, sizeof(namebuf), "%s_golden.%02d", rp->testname, index2);
sa = getSortedPathnamesInDirectory("/tmp/lept/golden", namebuf, 0, 0);
if (sarrayGetCount(sa) != 1) {
sarrayDestroy(&sa);
rp->success = FALSE;
LEPT_FREE(name1);
L_ERROR("golden file %s not found\n", procName, namebuf);
return 1;
}
name2 = sarrayGetString(sa, 0, L_COPY);
sarrayDestroy(&sa);
/* Test and record on failure */
filesAreIdentical(name1, name2, &same);
if (!same) {
fprintf(rp->fp,
"Failure in %s_reg, index %d: comparing %s with %s\n",
rp->testname, rp->index, name1, name2);
fprintf(stderr,
"Failure in %s_reg, index %d: comparing %s with %s\n",
rp->testname, rp->index, name1, name2);
rp->success = FALSE;
}
LEPT_FREE(name1);
LEPT_FREE(name2);
return 0;
}
/*!
* \brief regTestWritePixAndCheck()
*
* \param[in] rp regtest parameters
* \param[in] pix to be written
* \param[in] format of output pix
* \return 0 if OK, 1 on error a failure in comparison is not an error
*
* <pre>
* Notes:
* (1) This function makes it easy to write the pix in a numbered
* sequence of files, and either to:
* (a) write the golden file ("generate" arg to regression test)
* (b) make a local file and "compare" with the golden file
* (c) make a local file and "display" the results
* (2) The canonical format of the local filename is:
* /tmp/lept/regout/[root of main name].[count].[format extension]
* e.g., for scale_reg,
* /tmp/lept/regout/scale.0.png
* The golden file name mirrors this in the usual way.
* (3) The check is done between the written files, which requires
* the files to be identical. The exception is for GIF, which
* only requires that all pixels in the decoded pix are identical.
* </pre>
*/
l_ok
regTestWritePixAndCheck(L_REGPARAMS *rp,
PIX *pix,
l_int32 format)
{
char namebuf[256];
PROCNAME("regTestWritePixAndCheck");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
if (!pix) {
rp->success = FALSE;
return ERROR_INT("pix not defined", procName, 1);
}
if (format < 0 || format >= NumImageFileFormatExtensions) {
rp->success = FALSE;
return ERROR_INT("invalid format", procName, 1);
}
/* Generate the local file name */
snprintf(namebuf, sizeof(namebuf), "/tmp/lept/regout/%s.%02d.%s",
rp->testname, rp->index + 1, ImageFileFormatExtensions[format]);
/* Write the local file */
if (pixGetDepth(pix) < 8)
pixSetPadBits(pix, 0);
pixWrite(namebuf, pix, format);
/* Either write the golden file ("generate") or check the
local file against an existing golden file ("compare") */
regTestCheckFile(rp, namebuf);
return 0;
}
/*!
* \brief regTestWriteDataAndCheck()
*
* \param[in] rp regtest parameters
* \param[in] data to be written
* \param[in] nbytes of data to be written
* \param[in] ext filename extension (e.g.: "ba", "pta")
* \return 0 if OK, 1 on error a failure in comparison is not an error
*
* <pre>
* Notes:
* (1) This function makes it easy to write data in a numbered
* sequence of files, and either to:
* (a) write the golden file ("generate" arg to regression test)
* (b) make a local file and "compare" with the golden file
* (c) make a local file and "display" the results
* (2) The canonical format of the local filename is:
* /tmp/lept/regout/[root of main name].[count].[ext]
* e.g., for the first boxaa in quadtree_reg,
* /tmp/lept/regout/quadtree.0.baa
* The golden file name mirrors this in the usual way.
* (3) The data can be anything. It is most useful for serialized
* output of data, such as boxa, pta, etc.
* (4) The file extension is arbitrary. It is included simply
* to make the content type obvious when examining written files.
* (5) The check is done between the written files, which requires
* the files to be identical.
* </pre>
*/
l_ok
regTestWriteDataAndCheck(L_REGPARAMS *rp,
void *data,
size_t nbytes,
const char *ext)
{
char namebuf[256];
PROCNAME("regTestWriteDataAndCheck");
if (!rp)
return ERROR_INT("rp not defined", procName, 1);
if (!data || nbytes == 0) {
rp->success = FALSE;
return ERROR_INT("data not defined or size == 0", procName, 1);
}
/* Generate the local file name */
snprintf(namebuf, sizeof(namebuf), "/tmp/lept/regout/%s.%02d.%s",
rp->testname, rp->index + 1, ext);
/* Write the local file */
l_binaryWrite(namebuf, "w", data, nbytes);
/* Either write the golden file ("generate") or check the
local file against an existing golden file ("compare") */
regTestCheckFile(rp, namebuf);
return 0;
}
/*!
* \brief regTestGenLocalFilename()
*
* \param[in] rp regtest parameters
* \param[in] index use -1 for current index
* \param[in] format of image; e.g., IFF_PNG
* \return filename if OK, or NULL on error
*
* <pre>
* Notes:
* (1) This is used to get the name of a file in the regout
* subdirectory, that has been made and is used to test against
* the golden file. You can either specify a particular index
* value, or with %index == -1, this returns the most recently
* written file. The latter case lets you read a pix from a
* file that has just been written with regTestWritePixAndCheck(),
* which is useful for testing formatted read/write functions.
*
* </pre>
*/
char *
regTestGenLocalFilename(L_REGPARAMS *rp,
l_int32 index,
l_int32 format)
{
char buf[64];
l_int32 ind;
PROCNAME("regTestGenLocalFilename");
if (!rp)
return (char *)ERROR_PTR("rp not defined", procName, NULL);
ind = (index >= 0) ? index : rp->index;
snprintf(buf, sizeof(buf), "/tmp/lept/regout/%s.%02d.%s",
rp->testname, ind, ImageFileFormatExtensions[format]);
return stringNew(buf);
}
/*!
* \brief getRootNameFromArgv0()
*
* \param[in] argv0
* \return root name without the '_reg', or NULL on error
*
* <pre>
* Notes:
* (1) For example, from psioseg_reg, we want to extract
* just 'psioseg' as the root.
* (2) In unix with autotools, the executable is not X,
* but ./.libs/lt-X. So in addition to stripping out the
* last 4 characters of the tail, we have to check for
* the '-' and strip out the "lt-" prefix if we find it.
* </pre>
*/
static char *
getRootNameFromArgv0(const char *argv0)
{
l_int32 len;
char *root;
PROCNAME("getRootNameFromArgv0");
splitPathAtDirectory(argv0, NULL, &root);
if ((len = strlen(root)) <= 4) {
LEPT_FREE(root);
return (char *)ERROR_PTR("invalid argv0; too small", procName, NULL);
}
#ifndef _WIN32
{
char *newroot;
l_int32 loc;
if (stringFindSubstr(root, "-", &loc)) {
newroot = stringNew(root + loc + 1); /* strip out "lt-" */
LEPT_FREE(root);
root = newroot;
len = strlen(root);
}
len -= 4; /* remove the "_reg" suffix */
}
#else
if (strstr(root, ".exe") != NULL)
len -= 4;
if (strstr(root, "_reg") == root + len - 4)
len -= 4;
#endif /* ! _WIN32 */
root[len] = '\0'; /* terminate */
return root;
}
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