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campo-sirio/pdf/pdcore/pc_output.c
guy 3bf951f42c Patch level : 10.0 
Files correlati     : pdflib
Ricompilazione Demo : [ ]
Commento            :
Aggiornata pdflib.dll alla versione 7.0.4


git-svn-id: svn://10.65.10.50/trunk@18580 c028cbd2-c16b-5b4b-a496-9718f37d4682
2009-03-23 08:55:58 +00:00

1161 lines
27 KiB
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/*---------------------------------------------------------------------------*
| PDFlib - A library for generating PDF on the fly |
+---------------------------------------------------------------------------+
| Copyright (c) 1997-2006 Thomas Merz and PDFlib GmbH. All rights reserved. |
+---------------------------------------------------------------------------+
| |
| This software is subject to the PDFlib license. It is NOT in the |
| public domain. Extended versions and commercial licenses are |
| available, please check http://www.pdflib.com. |
| |
*---------------------------------------------------------------------------*/
/* $Id: pc_output.c,v 1.4 2009-03-23 08:51:17 guy Exp $
*
* PDFlib output routines
*
*/
#include "pc_util.h"
#include "pc_file.h"
#include "pc_md5.h"
#if (defined(WIN32) || defined(OS2)) && !defined(WINCE)
#include <fcntl.h>
#include <io.h>
#endif
/* for time_t, timer().
*/
#ifndef WINCE
#include <time.h>
#else
#include <winbase.h>
#endif
#if !defined(PDF_MAC_NOCORESERVICES) && (defined(MAC) || defined (MACOSX))
/*
* Setting the file type requires either Carbon or InterfaceLib/Classic.
* If we have neither (i.e. a Mach-O build without Carbon) we suppress
* the code for setting the file type and creator.
*/
#if !defined(MACOSX) || (defined(PDF_TARGET_API_MAC_CARBON) && \
defined(PDF_ALLOW_MAC_DEPR_FUNCS))
#define PDF_FILETYPE_SUPPORTED
#include <Files.h>
#endif
#endif /* !PDF_MAC_NOCORESERVICES && (MAC || MACOSX) */
#ifdef HAVE_LIBZ
#include "zlib.h"
#endif
#ifdef HAVE_LIBZ
#define PDF_DEFAULT_COMPRESSION 6 /* default zlib level */
#else
#define PDF_DEFAULT_COMPRESSION 0 /* no compression */
#endif
#define STREAM_BUFSIZE 65536 /* initial output buffer size */
#define STREAM_MAXINCR 1048576 /* max. output buffer increment */
#define ID_CHUNKSIZE 2048 /* object ids */
struct pdc_output_s {
pdc_core *pdc; /* core context */
pdc_bool open; /* file open */
pdc_byte *basepos; /* start of this chunk */
pdc_byte *curpos; /* next write position */
pdc_byte *maxpos; /* maximum position of chunk */
int buf_incr; /* current buffer increment */
pdc_off_t base_offset; /* base offset of this chunk */
pdc_bool compressing; /* in compression state */
pdc_flush_state flush;
#ifdef HAVE_LIBZ
z_stream z; /* zlib compression stream */
#endif
FILE *fp; /* output file stream */
#if defined(MVS) || defined(MVS_TEST)
const char *fopenparams; /* additional fopen() parameters */
int recordsize; /* file record size */
#endif
/* client-supplied data sink procedure */
size_t (*writeproc)(pdc_output *out, void *data, size_t size);
int compresslevel; /* zlib compression level */
pdc_bool compr_changed; /* compress level has been changed */
pdc_off_t length; /* length of stream */
pdc_off_t *file_offset; /* the objects' file offsets */
int file_offset_capacity;
pdc_id lastobj; /* highest object id */
pdc_off_t start_pos; /* stream start position */
pdc_off_t xref_pos; /* xref table start position */
MD5_CTX md5; /* MD5 digest context for file ID */
unsigned char id[2][MD5_DIGEST_LENGTH];
void *opaque; /* this will be used to store PDF *p */
};
/* ----------- service function to get PDF version string -------------- */
const char *
pdc_get_pdfversion(pdc_core *pdc, int compatibility)
{
return pdc_errprintf(pdc, "%d.%d", compatibility / 10, compatibility % 10);
}
/* --------------------- PDFlib stream handling ----------------------- */
void *
pdc_get_opaque(pdc_output *out)
{
return out->opaque;
}
#ifdef HAVE_LIBZ
/* wrapper for pdc_malloc for use in zlib */
static voidpf
pdc_zlib_alloc(voidpf pdc, uInt items, uInt size)
{
return (voidpf) pdc_malloc((pdc_core *) pdc, items * size, "zlib");
}
#endif /* HAVE_LIBZ */
pdc_bool
pdc_stream_not_empty(pdc_output *out)
{
return (!out->writeproc && out->curpos != out->basepos);
}
char *
pdc_get_stream_contents(pdc_output *out, pdc_off_t *size)
{
pdc_core *pdc = out->pdc;
if (out->writeproc)
pdc_error(pdc, PDC_E_IO_NOBUFFER, 0, 0, 0, 0);
if (size)
*size = (pdc_off_t) (out->curpos - out->basepos);
out->base_offset += (out->curpos - out->basepos);
out->curpos = out->basepos;
return (char *) out->basepos;
}
static size_t
pdc_writeproc_file(pdc_output *out, void *data, size_t size)
{
return pdc__fwrite(data, 1, size, out->fp);
}
#if defined(_MSC_VER) && defined(_MANAGED)
#pragma unmanaged
#endif
static pdc_bool
pdc_init_stream(
pdc_core *pdc,
pdc_output *out,
const char *filename,
FILE *fp,
size_t (*writeproc)(pdc_output *out, void *data, size_t size))
{
static const char fn[] = "pdc_init_stream";
#if (defined(MAC) || defined(MACOSX)) && defined(PDF_FILETYPE_SUPPORTED)
#if !defined(TARGET_API_MAC_CARBON) || defined(__MWERKS__)
FCBPBRec fcbInfo;
Str32 name;
#endif /* TARGET_API_MAC_CARBON */
FInfo fInfo;
FSSpec fSpec;
#endif /* (MAC || MACOSX) && PDF_FILETYPE_SUPPORTED */
/*
* This may be left over from the previous run. We deliberately
* don't reuse the previous buffer in order to avoid potentially
* unwanted growth of the allocated buffer due to a single large
* document in a longer series of documents.
*/
if (out->basepos)
pdc_free(pdc, (void *) out->basepos);
out->basepos = (pdc_byte *) pdc_malloc(pdc, STREAM_BUFSIZE, fn);
out->curpos = out->basepos;
out->maxpos = out->basepos + STREAM_BUFSIZE;
out->buf_incr = STREAM_BUFSIZE;
out->base_offset = 0;
out->compressing = pdc_false;
#ifdef HAVE_LIBZ
/* zlib sometimes reads uninitialized memory where it shouldn't... */
memset(&out->z, 0, sizeof out->z);
out->z.zalloc = (alloc_func) pdc_zlib_alloc;
out->z.zfree = (free_func) pdc_free;
out->z.opaque = (voidpf) pdc;
if (deflateInit(&out->z, pdc_get_compresslevel(out)) != Z_OK)
pdc_error(pdc, PDC_E_IO_COMPRESS, "deflateInit", 0, 0, 0);
out->compr_changed = pdc_false;
#endif
/* Defaults */
out->fp = (FILE *) NULL;
out->writeproc = pdc_writeproc_file;
if (fp)
{
out->fp = fp;
}
else if (writeproc)
{
out->writeproc = writeproc; /* PDF_open_mem */
}
else if (filename == NULL || *filename == '\0')
{
/* PDF_open_file with in-core output */
out->writeproc = NULL;
}
else
{
/* PDF_open_file with file output */
#if !((defined(MAC) || defined (MACOSX)) && defined(__MWERKS__))
if (filename && !strcmp(filename, "-"))
{
out->fp = stdout;
#if !defined(__MWERKS__) && (defined(WIN32) || defined(OS2))
#if !defined(__BORLANDC__) && !defined(OS2)
_setmode(_fileno(stdout), _O_BINARY);
#else
setmode(fileno(stdout), O_BINARY);
#endif /* !__BORLANDC__ && !OS2 */
#endif
}
else
{
#endif /* !MAC */
char fopenparams[200]; /* sufficient */
#if defined(MVS) || defined(MVS_TEST)
if (out->fopenparams != (char *) 0)
{
strcpy(fopenparams, WRITEMODE);
strcat(fopenparams, ",");
strcat(fopenparams, out->fopenparams);
}
else if (out->recordsize <= 1)
{
strcpy(fopenparams, WRITEMODE_V);
}
else
{
strcpy(fopenparams, WRITEMODE);
}
#else
strcpy(fopenparams, WRITEMODE);
#endif
out->fp = pdc_fopen_logg(out->pdc, filename, fopenparams);
if (out->fp == NULL)
return pdc_false;
#if (defined(MAC) || defined(MACOSX)) && defined(PDF_FILETYPE_SUPPORTED)
if (!pdc->ptfrun)
{
/* set the proper type and creator for the output file */
#if TARGET_API_MAC_CARBON && !defined(__MWERKS__)
if (FSPathMakeFSSpec((const UInt8 *) filename, &fSpec) == noErr)
{
FSpGetFInfo(&fSpec, &fInfo);
fInfo.fdType = 'PDF ';
fInfo.fdCreator = 'CARO';
FSpSetFInfo(&fSpec, &fInfo);
}
#else
memset(&fcbInfo, 0, sizeof(FCBPBRec));
fcbInfo.ioRefNum = (short) out->fp->handle;
fcbInfo.ioNamePtr = name;
if (!PBGetFCBInfoSync(&fcbInfo) &&
FSMakeFSSpec(fcbInfo.ioFCBVRefNum, fcbInfo.ioFCBParID,
name, &fSpec) == noErr)
{
FSpGetFInfo(&fSpec, &fInfo);
fInfo.fdType = 'PDF ';
fInfo.fdCreator = 'CARO';
FSpSetFInfo(&fSpec, &fInfo);
}
#endif /* !defined(TARGET_API_MAC_CARBON) || defined(__MWERKS__) */
}
#endif /* (MAC || MACOSX) && PDF_FILETYPE_SUPPORTED */
#if !((defined(MAC) || defined (MACOSX)) && defined(__MWERKS__))
}
#endif /* !MAC */
}
return pdc_true;
}
#if defined(_MSC_VER) && defined(_MANAGED)
#pragma managed
#endif
/* close the output file, if opened with PDF_open_file();
* close the output stream if opened
*/
static void
pdc_close_stream(pdc_output *out)
{
/* this time we MUST flush the stream -
** even if (flush == pdc_flush_none)
*/
out->flush = pdc_flush_heavy;
pdc_flush_stream(out);
#ifdef HAVE_LIBZ
/*
* This is delicate: we must ignore the return value because of the
* following reasoning: We are called in two situations:
* - end of document
* - exception
* In the first case compression is inactive, so deflateEnd() will
* fail only in the second case. However, when an exception occurs
* the document is definitely unusable, so we avoid recursive exceptions
* or an (unallowed) exception in PDF_delete().
*/
(void) deflateEnd(&out->z);
#endif
/* close the output file if writing to file, but do not close the
* in-core output stream since the caller will have to
* fetch the buffer after PDF_close().
*/
if (out->fp)
{
pdc_fclose_logg(out->pdc, out->fp);
/* mark fp as dead in case the error handler jumps in later */
out->fp = NULL;
}
}
static void
pdc_check_stream(pdc_output *out, size_t len)
{
size_t newsize;
size_t cur;
pdc_core *pdc = out->pdc;
if (out->curpos + len <= out->maxpos)
return;
pdc_flush_stream(out);
if (out->curpos + len <= out->maxpos)
return;
do
{
out->maxpos += out->buf_incr;
if (out->buf_incr < STREAM_MAXINCR)
out->buf_incr *= 2;
} while (out->curpos + len > out->maxpos);
cur = (size_t) (out->curpos - out->basepos);
newsize = (size_t) (out->maxpos - out->basepos);
out->basepos = (pdc_byte *)
pdc_realloc(pdc, (void *) out->basepos, newsize, "pdc_check_stream");
out->maxpos = out->basepos + newsize;
out->curpos = out->basepos + cur;
}
void
pdc_flush_stream(pdc_output *out)
{
size_t size;
pdc_core *pdc = out->pdc;
if (!out->writeproc || out->flush == pdc_flush_none)
return;
size = (size_t) (out->curpos - out->basepos);
if (size == 0)
return;
if (out->writeproc(out, (void *) out->basepos, size) != size) {
pdc_free(pdc, out->basepos);
out->basepos = NULL;
out->writeproc = NULL;
pdc_error(pdc, PDC_E_IO_NOWRITE, 0, 0, 0, 0);
}
out->base_offset += (out->curpos - out->basepos);
out->curpos = out->basepos;
}
pdc_off_t
pdc_tell_out(pdc_output *out)
{
return (out->base_offset + (out->curpos - out->basepos));
}
/* --------------------- compression handling ----------------------- */
static void
pdc_begin_compress(pdc_output *out)
{
pdc_core *pdc = out->pdc;
if (!pdc_get_compresslevel(out)) {
out->compressing = pdc_false;
return;
}
#ifdef HAVE_LIBZ
if (out->compr_changed)
{
if (deflateEnd(&out->z) != Z_OK)
pdc_error(pdc, PDC_E_IO_COMPRESS, "deflateEnd", 0, 0, 0);
if (deflateInit(&out->z, pdc_get_compresslevel(out)) != Z_OK)
pdc_error(pdc, PDC_E_IO_COMPRESS, "deflateInit", 0, 0, 0);
out->compr_changed = pdc_false;
}
else
{
if (deflateReset(&out->z) != Z_OK)
pdc_error(pdc, PDC_E_IO_COMPRESS, "deflateReset", 0, 0, 0);
}
out->z.avail_in = 0;
#endif /* HAVE_LIBZ */
out->compressing = pdc_true;
}
static void
pdc_end_compress(pdc_output *out)
{
int status;
pdc_core *pdc = out->pdc;
/* this may happen during cleanup triggered by an exception handler */
if (!out->compressing)
return;
if (!pdc_get_compresslevel(out)) {
out->compressing = pdc_false;
return;
}
#ifdef HAVE_LIBZ
/* Finish the stream */
do {
pdc_check_stream(out, 128);
out->z.next_out = (Bytef *) out->curpos;
out->z.avail_out = (uInt) (out->maxpos - out->curpos);
status = deflate(&(out->z), Z_FINISH);
out->curpos = out->z.next_out;
if (status != Z_STREAM_END && status != Z_OK)
pdc_error(pdc, PDC_E_IO_COMPRESS, "Z_FINISH", 0, 0, 0);
} while (status != Z_STREAM_END);
out->compressing = pdc_false;
#endif /* HAVE_LIBZ */
}
/* ---------------------- Low-level output function ---------------------- */
/*
* Write binary data to the output without any modification,
* and apply compression if we are currently in compression mode.
*/
void
pdc_write(pdc_output *out, const void *data, size_t size)
{
int estimate = 0;
pdc_core *pdc = out->pdc;
#ifdef HAVE_LIBZ
if (out->compressing) {
out->z.avail_in = (uInt) size;
out->z.next_in = (Bytef *) data;
out->z.avail_out = 0;
while (out->z.avail_in > 0) {
if (out->z.avail_out == 0) {
/* estimate output buffer size */
estimate = (int) (out->z.avail_in/4 + 16);
pdc_check_stream(out, (size_t) estimate);
out->z.next_out = (Bytef *) out->curpos;
out->z.avail_out = (uInt) (out->maxpos - out->curpos);
}
if (deflate(&(out->z), Z_NO_FLUSH) != Z_OK)
pdc_error(pdc, PDC_E_IO_COMPRESS, "Z_NO_FLUSH", 0, 0, 0);
out->curpos = out->z.next_out;
}
} else {
#endif /* HAVE_LIBZ */
pdc_check_stream(out, size);
memcpy(out->curpos, data, size);
out->curpos += size;
#ifdef HAVE_LIBZ
}
#endif /* HAVE_LIBZ */
}
/* --------------------------- Setup --------------------------- */
pdc_output *
pdc_boot_output(pdc_core *pdc)
{
static const char *fn = "pdc_boot_output";
pdc_output *out;
out = (pdc_output*)pdc_malloc(pdc, sizeof(pdc_output), fn);
out->pdc = pdc;
out->file_offset = NULL;
/* curpos must be initialized here so that the check for empty
* buffer in PDF_delete() also works in the degenerate case of
* no output produced.
*/
out->basepos = out->curpos = NULL;
out->open = pdc_false;
return out;
}
void
pdc_init_outctl(pdc_outctl *oc)
{
oc->filename = 0;
oc->fp = 0;
oc->writeproc = 0;
oc->flush = pdc_flush_page;
#if defined(MVS) || defined(MVS_TEST)
oc->fopenparams = 0;
oc->recordsize = 0;
#endif
} /* pdc_init_outctl */
/*
* Initialize the PDF output.
* Note that the caller is responsible for supplying sensible arguments.
*/
#if defined(_MSC_VER) && defined(_MANAGED)
#pragma unmanaged
#endif
pdc_bool
pdc_init_output(
void *opaque,
pdc_output *out,
int compatibility,
pdc_outctl *oc)
{
static const char *fn = "pdc_init_output";
pdc_core *pdc = out->pdc;
int i;
pdc_cleanup_output(out, pdc_false);
out->opaque = opaque;
out->lastobj = 0;
#if defined(MVS) || defined(MVS_TEST)
out->fopenparams = oc->fopenparams;
out->recordsize = oc->recordsize;
#endif
if (out->file_offset == NULL) {
out->file_offset_capacity = ID_CHUNKSIZE;
out->file_offset = (pdc_off_t *) pdc_malloc(pdc,
sizeof(pdc_off_t) * out->file_offset_capacity, fn);
}
for (i = 1; i < out->file_offset_capacity; ++i)
out->file_offset[i] = PDC_BAD_ID;
out->compresslevel = PDF_DEFAULT_COMPRESSION;
out->compr_changed = pdc_false;
out->flush = oc->flush;
memcpy(out->id[0], out->id[1], MD5_DIGEST_LENGTH);
if (!pdc_init_stream(pdc, out, oc->filename, oc->fp, oc->writeproc))
return pdc_false;
{
/* Write the document header */
pdc_printf(out, "%%PDF-%s\n", pdc_get_pdfversion(pdc, compatibility));
#define PDC_MAGIC_BINARY "\045\344\343\317\322\012"
pdc_write(out, PDC_MAGIC_BINARY, sizeof(PDC_MAGIC_BINARY) - 1);
}
out->open = pdc_true;
return pdc_true;
}
#if defined(_MSC_VER) && defined(_MANAGED)
#pragma managed
#endif
void
pdc_close_output(pdc_output *out)
{
if (out->open)
{
out->open = pdc_false;
pdc_close_stream(out);
if (out->file_offset)
{
pdc_free(out->pdc, out->file_offset);
out->file_offset = 0;
}
}
}
void
pdc_cleanup_output(pdc_output *out, pdc_bool keep_buf)
{
pdc_core *pdc = out->pdc;
if (out->file_offset)
{
pdc_free(pdc, out->file_offset);
out->file_offset = NULL;
}
if (!keep_buf && out->basepos)
{
pdc_free(pdc, (void *) out->basepos);
out->basepos = NULL;
out->curpos = NULL;
}
}
/* --------------------------- Digest --------------------------- */
void
pdc_init_digest(pdc_output *out)
{
MD5_Init(&out->md5);
}
void
pdc_update_digest(pdc_output *out, unsigned char *input,
unsigned int len)
{
MD5_Update(&out->md5, input, len);
}
void
pdc_finish_digest(pdc_output *out, pdc_bool settime)
{
if (settime)
{
time_t timer;
time(&timer);
MD5_Update(&out->md5, (unsigned char *) &timer, sizeof timer);
}
MD5_Final(out->id[1], &out->md5);
}
unsigned char *
pdc_get_digest(pdc_output *out)
{
return out->id[1];
}
/* --------------------------- Objects and ids --------------------------- */
pdc_id
pdc_begin_obj(pdc_output *out, pdc_id obj_id)
{
if (obj_id == PDC_NEW_ID)
obj_id = pdc_alloc_id(out);
out->file_offset[obj_id] = pdc_tell_out(out);
pdc_printf(out, "%ld 0 obj\n", obj_id);
return obj_id;
}
pdc_id
pdc_alloc_id(pdc_output *out)
{
out->lastobj++;
if (out->lastobj > PDF_MAXINDOBJS)
pdc_error(out->pdc, PDC_E_INT_TOOMUCH_INDOBJS,
pdc_errprintf(out->pdc, "%d", PDF_MAXINDOBJS), 0, 0, 0);
if (out->lastobj >= out->file_offset_capacity) {
out->file_offset_capacity *= 2;
out->file_offset = (pdc_off_t *)
pdc_realloc(out->pdc, out->file_offset,
sizeof(pdc_off_t) * out->file_offset_capacity, "pdc_alloc_id");
}
/* only needed for verifying obj table in PDF_close() */
out->file_offset[out->lastobj] = PDC_BAD_ID;
return out->lastobj;
}
/* --------------------------- Strings --------------------------- */
void
pdc_put_pdfstring(pdc_output *out, const char *text, int len)
{
const unsigned char *goal, *s;
if (!len)
len = (int) strlen(text);
if (out->pdc->compatibility <= PDC_1_5 && len > PDF_MAXSTRINGSIZE)
pdc_error(out->pdc, PDC_E_INT_TOOLONG_TEXTSTR,
pdc_errprintf(out->pdc, "%d", PDF_MAXSTRINGSIZE), 0, 0, 0);
pdc_putc(out, PDF_PARENLEFT);
goal = (const unsigned char *) text + len;
for (s = (const unsigned char *) text; s < goal; s++)
{
switch (*s)
{
case PDF_RETURN:
pdc_putc(out, PDF_BACKSLASH);
pdc_putc(out, PDF_r);
break;
case PDF_NEWLINE:
pdc_putc(out, PDF_BACKSLASH);
pdc_putc(out, PDF_n);
break;
default:
if (*s == PDF_PARENLEFT || *s == PDF_PARENRIGHT ||
*s == PDF_BACKSLASH)
pdc_putc(out, PDF_BACKSLASH);
pdc_putc(out, (char) *s);
}
}
pdc_putc(out, PDF_PARENRIGHT);
}
/* normalized file name according PDF specification */
void
pdc_put_pdffilename(pdc_output *out, const char *text, int len)
{
static const char *fn = "pdc_put_pdffilename";
pdc_byte *btext = (pdc_byte *) text;
pdc_bool isuni = pdc_is_utf16be_unicode(btext);
char *ttext;
pdc_byte c, cp, cpp;
int i, ia = 0, j = 0;
ttext = (char *) pdc_calloc(out->pdc, (size_t) (len + 4), fn);
if (isuni)
{
ttext[0] = PDF_BOM0;
ttext[1] = PDF_BOM1;
ia = 2;
j = 2;
}
/* absolute path name:
* r:\pdfdocs\spec.pdf -> /r/pdfdocs/spec.pdf
* pclib/eng:\pdfdocs\spec.pdf -> /pclib/eng/pdfdocs/spec.pdf
*/
cp = 0x7F;
for (i = ia; i < len; i++)
{
c = btext[i];
if (c == PDF_COLON && (!isuni || cp == 0))
{
if (isuni)
{
ttext[j] = 0;
j++;
}
ttext[j] = PDF_SLASH;
j++;
break;
}
cp = c;
}
cp = 0x7F;
cpp = 0x7F;
for (i = ia; i < len; i++)
{
c = btext[i];
if ((c == PDF_BACKSLASH || c == PDF_SLASH || c == PDF_COLON) &&
(!isuni || cp == 0))
{
/* convert to slash, but avoid multiple slashes */
if (cpp != PDF_SLASH)
{
c = PDF_SLASH;
}
else
{
if (isuni)
j--;
continue;
}
}
ttext[j] = c;
j++;
cp = c;
if (c)
cpp = c;
}
len = j;
pdc_put_pdfstring(out, ttext, len);
pdc_free(out->pdc, ttext);
}
/* --------------------------- Streams --------------------------- */
void
pdc_begin_pdfstream(pdc_output *out)
{
pdc_puts(out, "stream\n");
out->start_pos = pdc_tell_out(out);
if (out->compresslevel)
pdc_begin_compress(out);
}
void
pdc_end_pdfstream(pdc_output *out)
{
if (out->compresslevel)
pdc_end_compress(out);
out->length = pdc_tell_out(out) - out->start_pos;
/* some PDF consumers seem to need the additional "\n" before "endstream",
** the PDF reference allows it, and Acrobat's "repair" feature relies on it.
*/
pdc_puts(out, "\nendstream\n");
}
pdc_off_t
pdc_get_pdfstreamlength(pdc_output *out)
{
return out->length;
}
void
pdc_put_pdfstreamlength(pdc_output *out, pdc_id length_id)
{
pdc_begin_obj(out, length_id); /* Length object */
pdc_printf(out, "%lld\n", out->length);
pdc_end_obj(out);
}
void
pdc_set_compresslevel(pdc_output *out, int compresslevel)
{
out->compresslevel = compresslevel;
out->compr_changed = pdc_true;
}
int
pdc_get_compresslevel(pdc_output *out)
{
return out->compresslevel;
}
/* --------------------------- Names --------------------------- */
/* characters illegal in PDF names: "()<>[]{}/%#" */
#define PDF_ILL_IN_NAMES "\050\051\074\076\133\135\173\175\057\045\043"
#define PDF_NEEDS_QUOTE(c) \
((c) < 33 || (c) > 126 || strchr(PDF_ILL_IN_NAMES, (c)) != (char *) 0)
void
pdc_put_pdfname(pdc_output *out, const char *text, size_t len)
{
const unsigned char *goal, *s;
static const char BinToHex[] = PDF_STRING_0123456789ABCDEF;
if (!len)
len = strlen(text);
goal = (const unsigned char *) text + len;
pdc_putc(out, PDF_SLASH);
for (s = (const unsigned char *) text; s < goal; s++) {
if (PDF_NEEDS_QUOTE(*s)) {
pdc_putc(out, PDF_HASH);
pdc_putc(out, BinToHex[*s >> 4]); /* first nibble */
pdc_putc(out, BinToHex[*s & 0x0F]); /* second nibble */
} else
pdc_putc(out, (char) *s);
}
}
/* --------------------------- Document sections --------------------------- */
void
pdc_mark_free(pdc_output *out, pdc_id obj_id)
{
out->file_offset[obj_id] = PDC_FREE_ID;
}
void
pdc_write_xref(pdc_output *out)
{
pdc_id start = 1;
pdc_id i;
pdc_id free_id;
pdc_core * pdc = out->pdc;
/* Don't write any object after this check! */
for (i = start; i <= out->lastobj; i++) {
if (out->file_offset[i] == PDC_BAD_ID) {
pdc_warning(pdc, PDC_E_INT_UNUSEDOBJ,
pdc_errprintf(pdc, "%ld", i), 0, 0, 0);
/* write a dummy object */
pdc_begin_obj(out, i);
pdc_printf(out, "null %% unused object\n");
pdc_end_obj(out);
}
}
out->xref_pos = pdc_tell_out(out);
pdc_puts(out, "xref\n");
pdc_printf(out, "0 %ld\n", out->lastobj + 1);
/* find the last free entry in the xref table.
*/
out->file_offset[0] = PDC_FREE_ID;
for (free_id = out->lastobj;
out->file_offset[free_id] != PDC_FREE_ID;
--free_id)
;
pdc_printf(out, "%010ld 65535 f \n", free_id);
free_id = 0;
#define PDF_FLUSH_AFTER_MANY_OBJS 3000 /* ca. 60 KB */
for (i = 1; i <= out->lastobj; i++) {
/* Avoid spike in memory usage at the end of the document */
if (i % PDF_FLUSH_AFTER_MANY_OBJS == 0)
pdc_flush_stream(out);
if (out->file_offset[i] == PDC_FREE_ID)
{
pdc_printf(out, "%010ld 00001 f \n", free_id);
free_id = i;
}
else
{
pdc_printf(out, "%010lld 00000 n \n", out->file_offset[i]);
}
}
}
void
pdc_write_digest(pdc_output *out)
{
static const char bin2hex[] = PDF_STRING_0123456789ABCDEF;
int i;
pdc_puts(out, "/ID[<");
for (i = 0; i < MD5_DIGEST_LENGTH; ++i)
{
pdc_putc(out, bin2hex[out->id[0][i] >> 4]);
pdc_putc(out, bin2hex[out->id[0][i] & 0x0F]);
}
pdc_puts(out, "><");
for (i = 0; i < MD5_DIGEST_LENGTH; ++i)
{
pdc_putc(out, bin2hex[out->id[1][i] >> 4]);
pdc_putc(out, bin2hex[out->id[1][i] & 0x0F]);
}
pdc_puts(out, ">]\n");
}
void
pdc_write_eof(pdc_output *out)
{
#if defined(MVS) || defined(MVS_TEST)
int i, k;
if (out->recordsize > 1)
{
if ((i = (pdc_tell_out(out) + 6) % out->recordsize) != 0)
{
for (k = 0; k < out->recordsize - i - 1; ++k)
pdc_putc(out, PDF_SPACE);
pdc_putc(out, PDF_NEWLINE);
}
}
#endif /* MVS */
pdc_puts(out, "%%EOF\n");
}
void
pdc_write_trailer(
pdc_output *out,
pdc_id info_id,
pdc_id root_id,
int root_gen,
long xref_size,
pdc_off_t xref_prev,
pdc_off_t xref_pos)
{
if (xref_size == -1)
{
xref_size = out->lastobj + 1;
}
if (xref_pos == -1)
{
xref_pos = out->xref_pos;
}
/* we've seen PDF consumers that need the linefeed...
*/
pdc_puts(out, "trailer\n");
pdc_begin_dict(out); /* trailer */
pdc_printf(out, "/Size %ld\n", xref_size);
if (xref_prev != -1)
pdc_printf(out, "/Prev %lld\n", xref_prev);
pdc_printf(out, "/Root %ld %d R\n", root_id, root_gen);
if (info_id != PDC_BAD_ID)
pdc_printf(out, "/Info %ld 0 R\n", info_id);
pdc_write_digest(out);
pdc_end_dict(out); /* trailer */
pdc_puts(out, "startxref\n");
pdc_printf(out, "%lld\n", xref_pos);
pdc_write_eof(out);
}
/* ---------------------- High-level output functions ---------------------- */
/*
* Write a native encoded string to the output.
*/
static void
pdc_puts_internal(pdc_output *out, char *s, pdc_bool tocopy)
{
char *scp = s;
(void) tocopy;
pdc_write(out, (void *) scp, strlen(scp));
}
void
pdc_puts(pdc_output *out, const char *s)
{
pdc_puts_internal(out, (char *) s, pdc_true);
}
/*
* Write a ASCII character to the output.
*/
void
pdc_putc(pdc_output *out, const char c)
{
pdc_write(out, (void *) &c, (size_t) 1);
}
/*
* Write a formatted string (native encoded) to the output.
*/
void
pdc_printf(pdc_output *out, const char *fmt, ...)
{
char buf[PDC_GEN_BUFSIZE];
va_list ap;
va_start(ap, fmt);
pdc_vsprintf(out->pdc, pdc_true, buf, fmt, ap);
pdc_puts_internal(out, buf, pdc_false);
va_end(ap);
}
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