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twain3.0/3rdparty/hgOCR/leptonica/stringcode.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 stringcode.c
* <pre>
*
* Generation of code for storing and extracting serializable
* leptonica objects (such as pixa, recog, ...).
*
* The input is a set of files with serialized data.
* The output is two files, that must be compiled and linked:
* ~ autogen.*.c: code for base64 unencoding the strings and
* deserializing the result.
* ~ autogen.*.h: function prototypes and base64 encoded strings
* of the input data
*
* This should work for any data structures in leptonica that have
* *Write() and *Read() serialization functions. An array of 20
* of these, including the Pix, is given below. (The Pix is a special
* case, because it is serialized by standardized compression
* techniques, instead of a file format determined by leptonica.)
*
* Each time the generator function is invoked, three sets of strings are
* produced, which are written into their respective string arrays:
* ~ string of serialized, gzipped and base 64 encoded data
* ~ case string for base64 decoding, gunzipping and deserialization,
* to return the data struct in memory
* ~ description string for selecting which struct to return
* To create the two output files, a finalize function is invoked.
*
* There are two ways to do this, both shown in prog/autogentest1.c.
* ~ Explicitly call strcodeGenerate() for each file with the
* serialized data structure, followed by strcodeFinalize().
* ~ Put the filenames of the serialized data structures in a file,
* and call strcodeCreateFromFile().
*
* The generated code in autogen.X.c and autogen.X.h (where X is an
* integer supplied to strcodeCreate()) is then compiled, and the
* original data can be regenerated using the function l_autodecode_X().
* A test example is found in the two prog files:
* prog/autogentest1.c -- generates autogen.137.c, autogen.137.h
* prog/autogentest2.c -- uses autogen.137.c, autogen.137.h
* In general, the generator (e.g., autogentest1) would be compiled and
* run before compiling and running the application (e.g., autogentest2).
*
* L_STRCODE *strcodeCreate()
* static void strcodeDestroy() (called as part of finalize)
* void strcodeCreateFromFile()
* l_int32 strcodeGenerate()
* void strcodeFinalize()
* l_int32 l_getStructStrFromFile() (useful externally)
*
* Static helpers
* static l_int32 l_getIndexFromType()
* static l_int32 l_getIndexFromStructname()
* static l_int32 l_getIndexFromFile()
* static char *l_genDataString()
* static char *l_genCaseString()
* static char *l_genDescrString()
* </pre>
*/
#include <string.h>
#include "allheaders.h"
#include "stringcode.h"
#define TEMPLATE1 "stringtemplate1.txt" /* for assembling autogen.*.c */
#define TEMPLATE2 "stringtemplate2.txt" /* for assembling autogen.*.h */
/*! Associations between names and functions */
struct L_GenAssoc
{
l_int32 index;
char type[16]; /* e.g., "PIXA" */
char structname[16]; /* e.g., "Pixa" */
char reader[16]; /* e.g., "pixaRead" */
char memreader[20]; /* e.g., "pixaReadMem" */
};
/*! Number of serializable data types */
static const l_int32 l_ntypes = 19;
/*! Serializable data types */
static const struct L_GenAssoc l_assoc[] = {
{0, "INVALID", "invalid", "invalid", "invalid" },
{1, "BOXA", "Boxa", "boxaRead", "boxaReadMem" },
{2, "BOXAA", "Boxaa", "boxaaRead", "boxaaReadMem" },
{3, "L_DEWARP", "Dewarp", "dewarpRead", "dewarpReadMem" },
{4, "L_DEWARPA", "Dewarpa", "dewarpaRead", "dewarpaReadMem" },
{5, "L_DNA", "L_Dna", "l_dnaRead", "l_dnaReadMem" },
{6, "L_DNAA", "L_Dnaa", "l_dnaaRead", "l_dnaaReadMem" },
{7, "DPIX", "DPix", "dpixRead", "dpixReadMem" },
{8, "FPIX", "FPix", "fpixRead", "fpixReadMem" },
{9, "NUMA", "Numa", "numaRead", "numaReadMem" },
{10, "NUMAA", "Numaa", "numaaRead", "numaaReadMem" },
{11, "PIX", "Pix", "pixRead", "pixReadMem" },
{12, "PIXA", "Pixa", "pixaRead", "pixaReadMem" },
{13, "PIXAA", "Pixaa", "pixaaRead", "pixaaReadMem" },
{14, "PIXACOMP", "Pixacomp", "pixacompRead", "pixacompReadMem" },
{15, "PIXCMAP", "Pixcmap", "pixcmapRead", "pixcmapReadMem" },
{16, "PTA", "Pta", "ptaRead", "ptaReadMem" },
{17, "PTAA", "Ptaa", "ptaaRead", "ptaaReadMem" },
{18, "RECOG", "Recog", "recogRead", "recogReadMem" },
{19, "SARRAY", "Sarray", "sarrayRead", "sarrayReadMem" }
};
static l_int32 l_getIndexFromType(const char *type, l_int32 *pindex);
static l_int32 l_getIndexFromStructname(const char *sn, l_int32 *pindex);
static l_int32 l_getIndexFromFile(const char *file, l_int32 *pindex);
static char *l_genDataString(const char *filein, l_int32 ifunc);
static char *l_genCaseString(l_int32 ifunc, l_int32 itype);
static char *l_genDescrString(const char *filein, l_int32 ifunc, l_int32 itype);
/*---------------------------------------------------------------------*/
/* Stringcode functions */
/*---------------------------------------------------------------------*/
/*!
* \brief strcodeCreate()
*
* \param[in] fileno integer that labels the two output files
* \return initialized L_StrCode, or NULL on error
*
* <pre>
* Notes:
* (1) This struct exists to build two files containing code for
* any number of data objects. The two files are named
* autogen.[fileno].c
* autogen.[fileno].h
* </pre>
*/
L_STRCODE *
strcodeCreate(l_int32 fileno)
{
L_STRCODE *strcode;
PROCNAME("strcodeCreate");
lept_mkdir("lept/auto");
if ((strcode = (L_STRCODE *)LEPT_CALLOC(1, sizeof(L_STRCODE))) == NULL)
return (L_STRCODE *)ERROR_PTR("strcode not made", procName, NULL);
strcode->fileno = fileno;
strcode->function = sarrayCreate(0);
strcode->data = sarrayCreate(0);
strcode->descr = sarrayCreate(0);
return strcode;
}
/*!
* \brief strcodeDestroy()
*
* \param[out] pstrcode will be set to null after destroying the sarrays
* \return void
*/
static void
strcodeDestroy(L_STRCODE **pstrcode)
{
L_STRCODE *strcode;
PROCNAME("strcodeDestroy");
if (pstrcode == NULL) {
L_WARNING("ptr address is null!\n", procName);
return;
}
if ((strcode = *pstrcode) == NULL)
return;
sarrayDestroy(&strcode->function);
sarrayDestroy(&strcode->data);
sarrayDestroy(&strcode->descr);
LEPT_FREE(strcode);
*pstrcode = NULL;
return;
}
/*!
* \brief strcodeCreateFromFile()
*
* \param[in] filein containing filenames of serialized data
* \param[in] fileno integer that labels the two output files
* \param[in] outdir [optional] if null, files are made in /tmp/lept/auto
* \return 0 if OK, 1 on error
*
* <pre>
* Notes:
* (1) The %filein has one filename on each line.
* Comment lines begin with "#".
* (2) The output is 2 files:
* autogen.[fileno].c
* autogen.[fileno].h
* </pre>
*/
l_ok
strcodeCreateFromFile(const char *filein,
l_int32 fileno,
const char *outdir)
{
char *fname;
const char *type;
l_uint8 *data;
size_t nbytes;
l_int32 i, n, index;
SARRAY *sa;
L_STRCODE *strcode;
PROCNAME("strcodeCreateFromFile");
if (!filein)
return ERROR_INT("filein not defined", procName, 1);
if ((data = l_binaryRead(filein, &nbytes)) == NULL)
return ERROR_INT("data not read from file", procName, 1);
sa = sarrayCreateLinesFromString((char *)data, 0);
LEPT_FREE(data);
if (!sa)
return ERROR_INT("sa not made", procName, 1);
if ((n = sarrayGetCount(sa)) == 0) {
sarrayDestroy(&sa);
return ERROR_INT("no filenames in the file", procName, 1);
}
strcode = strcodeCreate(fileno);
for (i = 0; i < n; i++) {
fname = sarrayGetString(sa, i, L_NOCOPY);
if (fname[0] == '#') continue;
if (l_getIndexFromFile(fname, &index)) {
L_ERROR("File %s has no recognizable type\n", procName, fname);
} else {
type = l_assoc[index].type;
L_INFO("File %s is type %s\n", procName, fname, type);
strcodeGenerate(strcode, fname, type);
}
}
strcodeFinalize(&strcode, outdir);
sarrayDestroy(&sa);
return 0;
}
/*!
* \brief strcodeGenerate()
*
* \param[in] strcode for accumulating data
* \param[in] filein input file with serialized data
* \param[in] type of data; use the typedef string
* \return 0 if OK, 1 on error.
*
* <pre>
* Notes:
* (1) The generated function name is
* l_autodecode_[fileno]()
* where [fileno] is the index label for the pair of output files.
* (2) To deserialize this data, the function is called with the
* argument 'ifunc', which increments each time strcodeGenerate()
* is called.
* </pre>
*/
l_ok
strcodeGenerate(L_STRCODE *strcode,
const char *filein,
const char *type)
{
char *strdata, *strfunc, *strdescr;
l_int32 itype;
PROCNAME("strcodeGenerate");
if (!strcode)
return ERROR_INT("strcode not defined", procName, 1);
if (!filein)
return ERROR_INT("filein not defined", procName, 1);
if (!type)
return ERROR_INT("type not defined", procName, 1);
/* Get the index corresponding to type and validate */
if (l_getIndexFromType(type, &itype) == 1)
return ERROR_INT("data type unknown", procName, 1);
/* Generate the encoded data string */
if ((strdata = l_genDataString(filein, strcode->ifunc)) == NULL)
return ERROR_INT("strdata not made", procName, 1);
sarrayAddString(strcode->data, strdata, L_INSERT);
/* Generate the case data for the decoding function */
strfunc = l_genCaseString(strcode->ifunc, itype);
sarrayAddString(strcode->function, strfunc, L_INSERT);
/* Generate row of table for function type selection */
strdescr = l_genDescrString(filein, strcode->ifunc, itype);
sarrayAddString(strcode->descr, strdescr, L_INSERT);
strcode->n++;
strcode->ifunc++;
return 0;
}
/*!
* \brief strcodeFinalize()
*
* \param[in,out] pstrcode destroys and sets to null after .c and .h files
* have been generated
* \param[in] outdir [optional] if NULL, make files in /tmp/lept/auto
* \return void
*/
l_int32
strcodeFinalize(L_STRCODE **pstrcode,
const char *outdir)
{
char buf[256];
char *filestr, *casestr, *descr, *datastr, *realoutdir;
l_int32 actstart, end, newstart, fileno, nbytes;
size_t size;
L_STRCODE *strcode;
SARRAY *sa1, *sa2, *sa3;
PROCNAME("strcodeFinalize");
lept_mkdir("lept/auto");
if (!pstrcode || *pstrcode == NULL)
return ERROR_INT("No input data", procName, 1);
strcode = *pstrcode;
if (!outdir) {
L_INFO("no outdir specified; writing to /tmp/lept/auto\n", procName);
realoutdir = stringNew("/tmp/lept/auto");
} else {
realoutdir = stringNew(outdir);
}
/* ------------------------------------------------------- */
/* Make the output autogen.*.c file */
/* ------------------------------------------------------- */
/* Make array of textlines from TEMPLATE1 */
filestr = (char *)l_binaryRead(TEMPLATE1, &size);
sa1 = sarrayCreateLinesFromString(filestr, 1);
LEPT_FREE(filestr);
sa3 = sarrayCreate(0);
/* Copyright notice */
sarrayParseRange(sa1, 0, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
/* File name comment */
fileno = strcode->fileno;
snprintf(buf, sizeof(buf), " * autogen.%d.c", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* More text */
sarrayParseRange(sa1, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
/* Description of function types by index */
descr = sarrayToString(strcode->descr, 1);
descr[strlen(descr) - 1] = '\0';
sarrayAddString(sa3, descr, L_INSERT);
/* Includes */
sarrayParseRange(sa1, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
snprintf(buf, sizeof(buf), "#include \"autogen.%d.h\"", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* Header for auto-generated deserializers */
sarrayParseRange(sa1, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
/* Function name (as comment) */
snprintf(buf, sizeof(buf), " * \\brief l_autodecode_%d()", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* Input and return values */
sarrayParseRange(sa1, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
/* Function name */
snprintf(buf, sizeof(buf), "l_autodecode_%d(l_int32 index)", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* Stack vars */
sarrayParseRange(sa1, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
/* Declaration of nfunc on stack */
snprintf(buf, sizeof(buf), "l_int32 nfunc = %d;\n", strcode->n);
sarrayAddString(sa3, buf, L_COPY);
/* Declaration of PROCNAME */
snprintf(buf, sizeof(buf), " PROCNAME(\"l_autodecode_%d\");", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* Test input variables */
sarrayParseRange(sa1, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
/* Insert case string */
casestr = sarrayToString(strcode->function, 0);
casestr[strlen(casestr) - 1] = '\0';
sarrayAddString(sa3, casestr, L_INSERT);
/* End of function */
sarrayParseRange(sa1, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa1, actstart, end);
/* Flatten to string and output to autogen*.c file */
filestr = sarrayToString(sa3, 1);
nbytes = strlen(filestr);
snprintf(buf, sizeof(buf), "%s/autogen.%d.c", realoutdir, fileno);
l_binaryWrite(buf, "w", filestr, nbytes);
LEPT_FREE(filestr);
sarrayDestroy(&sa1);
sarrayDestroy(&sa3);
/* ------------------------------------------------------- */
/* Make the output autogen.*.h file */
/* ------------------------------------------------------- */
/* Make array of textlines from TEMPLATE2 */
filestr = (char *)l_binaryRead(TEMPLATE2, &size);
sa2 = sarrayCreateLinesFromString(filestr, 1);
LEPT_FREE(filestr);
sa3 = sarrayCreate(0);
/* Copyright notice */
sarrayParseRange(sa2, 0, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa2, actstart, end);
/* File name comment */
snprintf(buf, sizeof(buf), " * autogen.%d.h", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* More text */
sarrayParseRange(sa2, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa2, actstart, end);
/* Beginning header protection */
snprintf(buf, sizeof(buf), "#ifndef LEPTONICA_AUTOGEN_%d_H\n"
"#define LEPTONICA_AUTOGEN_%d_H",
fileno, fileno);
sarrayAddString(sa3, buf, L_COPY);
/* Prototype header text */
sarrayParseRange(sa2, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa2, actstart, end);
/* Prototype declaration */
snprintf(buf, sizeof(buf), "void *l_autodecode_%d(l_int32 index);", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* Prototype trailer text */
sarrayParseRange(sa2, newstart, &actstart, &end, &newstart, "--", 0);
sarrayAppendRange(sa3, sa2, actstart, end);
/* Insert serialized data strings */
datastr = sarrayToString(strcode->data, 1);
datastr[strlen(datastr) - 1] = '\0';
sarrayAddString(sa3, datastr, L_INSERT);
/* End header protection */
snprintf(buf, sizeof(buf), "#endif /* LEPTONICA_AUTOGEN_%d_H */", fileno);
sarrayAddString(sa3, buf, L_COPY);
/* Flatten to string and output to autogen*.h file */
filestr = sarrayToString(sa3, 1);
nbytes = strlen(filestr);
snprintf(buf, sizeof(buf), "%s/autogen.%d.h", realoutdir, fileno);
l_binaryWrite(buf, "w", filestr, nbytes);
LEPT_FREE(filestr);
LEPT_FREE(realoutdir);
sarrayDestroy(&sa2);
sarrayDestroy(&sa3);
/* Cleanup */
strcodeDestroy(pstrcode);
return 0;
}
/*!
* \brief l_getStructStrFromFile()
*
* \param[in] filename
* \param[in] field (L_STR_TYPE, L_STR_NAME, L_STR_READER, L_STR_MEMREADER)
* \param[out] pstr struct string for this file
* \return 0 if found, 1 on error.
*
* <pre>
* Notes:
* (1) For example, if %field == L_STR_NAME, and the file is a serialized
* pixa, this will return "Pixa", the name of the struct.
* (2) Caller must free the returned string.
* </pre>
*/
l_int32
l_getStructStrFromFile(const char *filename,
l_int32 field,
char **pstr)
{
l_int32 index;
PROCNAME("l_getStructStrFromFile");
if (!pstr)
return ERROR_INT("&str not defined", procName, 1);
*pstr = NULL;
if (!filename)
return ERROR_INT("filename not defined", procName, 1);
if (field != L_STR_TYPE && field != L_STR_NAME &&
field != L_STR_READER && field != L_STR_MEMREADER)
return ERROR_INT("invalid field", procName, 1);
if (l_getIndexFromFile(filename, &index))
return ERROR_INT("index not retrieved", procName, 1);
if (field == L_STR_TYPE)
*pstr = stringNew(l_assoc[index].type);
else if (field == L_STR_NAME)
*pstr = stringNew(l_assoc[index].structname);
else if (field == L_STR_READER)
*pstr = stringNew(l_assoc[index].reader);
else /* field == L_STR_MEMREADER */
*pstr = stringNew(l_assoc[index].memreader);
return 0;
}
/*---------------------------------------------------------------------*/
/* Static helpers */
/*---------------------------------------------------------------------*/
/*!
* \brief l_getIndexFromType()
*
* \param[in] type e.g., "PIXA"
* \param[out] pindex found index
* \return 0 if found, 1 if not.
*
* <pre>
* Notes:
* (1) For valid type, %found == true and %index > 0.
* </pre>
*/
static l_int32
l_getIndexFromType(const char *type,
l_int32 *pindex)
{
l_int32 i, found;
PROCNAME("l_getIndexFromType");
if (!pindex)
return ERROR_INT("&index not defined", procName, 1);
*pindex = 0;
if (!type)
return ERROR_INT("type string not defined", procName, 1);
found = 0;
for (i = 1; i <= l_ntypes; i++) {
if (strcmp(type, l_assoc[i].type) == 0) {
found = 1;
*pindex = i;
break;
}
}
return !found;
}
/*!
* \brief l_getIndexFromStructname()
*
* \param[in] sn structname e.g., "Pixa"
* \param[out] pindex found index
* \return 0 if found, 1 if not.
*
* <pre>
* Notes:
* (1) This is used to identify the type of serialized file;
* the first word in the file is the structname.
* (2) For valid structname, %found == true and %index > 0.
* </pre>
*/
static l_int32
l_getIndexFromStructname(const char *sn,
l_int32 *pindex)
{
l_int32 i, found;
PROCNAME("l_getIndexFromStructname");
if (!pindex)
return ERROR_INT("&index not defined", procName, 1);
*pindex = 0;
if (!sn)
return ERROR_INT("sn string not defined", procName, 1);
found = 0;
for (i = 1; i <= l_ntypes; i++) {
if (strcmp(sn, l_assoc[i].structname) == 0) {
found = 1;
*pindex = i;
break;
}
}
return !found;
}
/*!
* \brief l_getIndexFromFile()
*
* \param[in] filename
* \param[out] pindex found index
* \return 0 if found, 1 on error.
*/
static l_int32
l_getIndexFromFile(const char *filename,
l_int32 *pindex)
{
char buf[256];
char *word;
FILE *fp;
l_int32 notfound, format;
SARRAY *sa;
PROCNAME("l_getIndexFromFile");
if (!pindex)
return ERROR_INT("&index not defined", procName, 1);
*pindex = 0;
if (!filename)
return ERROR_INT("filename not defined", procName, 1);
/* Open the stream, read lines until you find one with more
* than a newline, and grab the first word. */
if ((fp = fopenReadStream(filename)) == NULL)
return ERROR_INT("stream not opened", procName, 1);
do {
if ((fgets(buf, sizeof(buf), fp)) == NULL) {
fclose(fp);
return ERROR_INT("fgets read fail", procName, 1);
}
} while (buf[0] == '\n');
fclose(fp);
sa = sarrayCreateWordsFromString(buf);
word = sarrayGetString(sa, 0, L_NOCOPY);
/* Find the index associated with the word. If it is not
* found, test to see if the file is a compressed pix. */
notfound = l_getIndexFromStructname(word, pindex);
sarrayDestroy(&sa);
if (notfound) { /* maybe a Pix */
if (findFileFormat(filename, &format) == 0) {
l_getIndexFromStructname("Pix", pindex);
} else {
return ERROR_INT("no file type identified", procName, 1);
}
}
return 0;
}
/*!
* \brief l_genDataString()
*
* \param[in] filein input file of serialized data
* \param[in] ifunc index into set of functions in output file
* \return encoded ascii data string, or NULL on error reading from file
*/
static char *
l_genDataString(const char *filein,
l_int32 ifunc)
{
char buf[80];
char *cdata1, *cdata2, *cdata3;
l_uint8 *data1, *data2;
l_int32 csize1, csize2;
size_t size1, size2;
SARRAY *sa;
PROCNAME("l_genDataString");
if (!filein)
return (char *)ERROR_PTR("filein not defined", procName, NULL);
/* Read it in, gzip it, encode, and reformat. We gzip because some
* serialized data has a significant amount of ascii content. */
if ((data1 = l_binaryRead(filein, &size1)) == NULL)
return (char *)ERROR_PTR("bindata not returned", procName, NULL);
data2 = zlibCompress(data1, size1, &size2);
cdata1 = encodeBase64(data2, size2, &csize1);
cdata2 = reformatPacked64(cdata1, csize1, 4, 72, 1, &csize2);
LEPT_FREE(data1);
LEPT_FREE(data2);
LEPT_FREE(cdata1);
/* Prepend the string declaration signature and put it together */
sa = sarrayCreate(3);
snprintf(buf, sizeof(buf), "static const char *l_strdata_%d =\n", ifunc);
sarrayAddString(sa, buf, L_COPY);
sarrayAddString(sa, cdata2, L_INSERT);
sarrayAddString(sa, ";\n", L_COPY);
cdata3 = sarrayToString(sa, 0);
sarrayDestroy(&sa);
return cdata3;
}
/*!
* \brief l_genCaseString()
*
* \param[in] ifunc index into set of functions in generated file
* \param[in] itype index into type of function to be used
* \return case string for this decoding function
*
* <pre>
* Notes:
* (1) %ifunc and %itype have been validated, so no error can occur
* </pre>
*/
static char *
l_genCaseString(l_int32 ifunc,
l_int32 itype)
{
char buf[256];
char *code = NULL;
snprintf(buf, sizeof(buf), " case %d:\n", ifunc);
stringJoinIP(&code, buf);
snprintf(buf, sizeof(buf),
" data1 = decodeBase64(l_strdata_%d, strlen(l_strdata_%d), "
"&size1);\n", ifunc, ifunc);
stringJoinIP(&code, buf);
stringJoinIP(&code,
" data2 = zlibUncompress(data1, size1, &size2);\n");
snprintf(buf, sizeof(buf),
" result = (void *)%s(data2, size2);\n",
l_assoc[itype].memreader);
stringJoinIP(&code, buf);
stringJoinIP(&code, " lept_free(data1);\n");
stringJoinIP(&code, " lept_free(data2);\n");
stringJoinIP(&code, " break;\n");
return code;
}
/*!
* \brief l_genDescrString()
*
* \param[in] filein input file of serialized data
* \param[in] ifunc index into set of functions in generated file
* \param[in] itype index into type of function to be used
* \return description string for this decoding function
*/
static char *
l_genDescrString(const char *filein,
l_int32 ifunc,
l_int32 itype)
{
char buf[256];
char *tail;
PROCNAME("l_genDescrString");
if (!filein)
return (char *)ERROR_PTR("filein not defined", procName, NULL);
splitPathAtDirectory(filein, NULL, &tail);
snprintf(buf, sizeof(buf), " * %-2d %-10s %-14s %s",
ifunc, l_assoc[itype].type, l_assoc[itype].reader, tail);
LEPT_FREE(tail);
return stringNew(buf);
}