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1110 | /* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include "pdfioutdev_gpl.hxx"
#include "pnghelper.hxx"
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include <math.h>
#include <memory>
#include <vector>
// sigh, UTF8.h was removed in poppler-0.21.0 and put back in 0.21.1, then renamed to UnicodeMapFuncs.h in 0.62.0
// FIXME: we can't use #if POPPLER_CHECK_VERSION(0, 21, 0) && !POPPLER_CHECK_VERSION(0, 21, 1)
// because the internal poppler does not provide poppler-version.h and the macro always returns 0
#if POPPLER_CHECK_VERSION(0, 62, 0)
#include <UnicodeMapFuncs.h>
#elif POPPLER_CHECK_VERSION(0, 21, 1)
#include <UTF8.h>
#elif POPPLER_CHECK_VERSION(0, 21, 0)
#include "UTF.h"
#else
#include "UTF8.h"
#endif
#ifdef _WIN32
# define snprintf _snprintf
#if defined __GNUC__
#pragma GCC diagnostic warning "-Wformat"
#pragma GCC diagnostic warning "-Wformat-extra-args"
#endif
#endif
/* SYNC STREAMS
============
We stream human-readable tokens to stdout, and binary data (fonts,
bitmaps) to g_binary_out. Another process reads from those pipes, and
there lies the rub: things can deadlock, if the two involved
processes access the pipes in different order. At any point in
time, both processes must access the same pipe. To ensure this,
data must be flushed to the OS before writing to a different pipe,
otherwise not-yet-written data will leave the reading process
waiting on the wrong pipe.
*/
namespace pdfi
{
/// cut off very small numbers & clamp value to zero
static double normalize( double val )
{
return fabs(val) < 0.0000001 ? 0.0 : val;
}
namespace
{
/** Escapes line-ending characters (\n and \r) in input string.
*/
std::vector<char> lcl_escapeLineFeeds(const char* const i_pStr)
{
size_t nLength(strlen(i_pStr));
std::vector<char> aBuffer;
aBuffer.reserve(2*nLength+1);
const char* pRead = i_pStr;
while( nLength-- )
{
if( *pRead == '\r' )
{
aBuffer.push_back('\\');
aBuffer.push_back('r');
}
else if( *pRead == '\n' )
{
aBuffer.push_back('\\');
aBuffer.push_back('n');
}
else if( *pRead == '\\' )
{
aBuffer.push_back('\\');
aBuffer.push_back('\\');
}
else
aBuffer.push_back(*pRead);
pRead++;
}
aBuffer.push_back(0);
return aBuffer;
}
}
/// for the temp char buffer the header gets snprintfed in
#define WRITE_BUFFER_SIZE 1024
/// for the initial std::vector capacity when copying stream from xpdf
#define WRITE_BUFFER_INITIAL_CAPACITY (1024*100)
static void initBuf(OutputBuffer& io_rBuffer)
{
io_rBuffer.reserve(WRITE_BUFFER_INITIAL_CAPACITY);
}
static void writeBinaryBuffer( const OutputBuffer& rBuffer )
{
// ---sync point--- see SYNC STREAMS above
fflush(stdout);
// put buffer to stderr
if( !rBuffer.empty() )
if( fwrite(rBuffer.data(), sizeof(char),
rBuffer.size(), g_binary_out) != static_cast<size_t>(rBuffer.size()) )
exit(1); // error
// ---sync point--- see SYNC STREAMS above
fflush(g_binary_out);
}
static bool ExtractJpegData(Stream* str, OutputBuffer& outBuf)
{
int bytesToMarker = 0;
int bytesToLen = -1;
bool collectBytes = false;
int startOfScan = 0;
int b1 = -1;
for (; ; )
{
const int b2 = b1;
b1 = str->getChar();
if (b1 == -1)
return false;
if (collectBytes)
{
outBuf.push_back(static_cast<Output_t>(b1));
bytesToMarker--;
bytesToLen--;
}
if (bytesToMarker == 0)
{
if (startOfScan == 1)
{
bytesToMarker = -1;
startOfScan = 2;
}
else if (b2 == 0xFF)
{
if (b1 == 0xD8)
{
collectBytes = true;
bytesToMarker = 2;
outBuf.push_back(Output_t(0xFF));
outBuf.push_back(Output_t(0xD8));
}
else
{
bytesToLen = 2;
}
if (b1 == 0xDA)
{
startOfScan = 1;
}
}
else if (collectBytes)
{
return false;
}
}
if (bytesToLen == 0)
{
bytesToMarker = b2 * 256 + b1;
}
if (startOfScan == 2)
if ((b2 == 0xFF) && (b1 == 0xD9))
return true;
}
}
static void writeJpeg_( OutputBuffer& o_rOutputBuf, Stream* str )
{
// dump JPEG file as-is
#if POPPLER_CHECK_VERSION(0, 17, 3)
str = str->getNextStream();
#else
str = ((DCTStream *)str)->getRawStream();
#endif
str->reset();
o_rOutputBuf.clear();
ExtractJpegData(str, o_rOutputBuf);
printf( " JPEG %d", static_cast<int>(o_rOutputBuf.size()) );
printf("\n");
str->close();
}
static void writePbm_(OutputBuffer& o_rOutputBuf, Stream* str, int width, int height, bool bInvert )
{
// write as PBM (char by char, to avoid stdlib lineend messing)
o_rOutputBuf.clear();
o_rOutputBuf.resize(WRITE_BUFFER_SIZE);
o_rOutputBuf[0] = 'P';
o_rOutputBuf[1] = '4';
o_rOutputBuf[2] = 0x0A;
char *pAsCharPtr = reinterpret_cast<char *>(&o_rOutputBuf[3]);
int nOutLen = snprintf(pAsCharPtr, WRITE_BUFFER_SIZE-10, "%d %d", width, height);
if( nOutLen < 0 )
nOutLen = WRITE_BUFFER_SIZE-10;
o_rOutputBuf[3+nOutLen] =0x0A;
o_rOutputBuf[3+nOutLen+1]=0;
const int header_size = 3+nOutLen+1;
const int size = height * ((width + 7) / 8);
printf( " PBM %d", size + header_size );
printf("\n");
// trim buffer to exact header length
o_rOutputBuf.resize(header_size);
// initialize stream
str->reset();
// copy the raw stream
if( bInvert )
{
for( int i=0; i<size; ++i)
o_rOutputBuf.push_back(static_cast<char>(str->getChar() ^ 0xff));
}
else
{
for( int i=0; i<size; ++i)
o_rOutputBuf.push_back(static_cast<char>(str->getChar()));
}
str->close();
}
static void writePpm_( OutputBuffer& o_rOutputBuf,
Stream* str,
int width,
int height,
GfxImageColorMap* colorMap )
{
// write as PPM (char by char, to avoid stdlib lineend messing)
o_rOutputBuf.clear();
o_rOutputBuf.resize(WRITE_BUFFER_SIZE);
o_rOutputBuf[0] = 'P';
o_rOutputBuf[1] = '6';
o_rOutputBuf[2] = '\n';
char *pAsCharPtr = reinterpret_cast<char *>(&o_rOutputBuf[3]);
int nOutLen = snprintf(pAsCharPtr, WRITE_BUFFER_SIZE-10, "%d %d", width, height);
if( nOutLen < 0 )
nOutLen = WRITE_BUFFER_SIZE-10;
o_rOutputBuf[3+nOutLen] ='\n';
o_rOutputBuf[3+nOutLen+1]='2';
o_rOutputBuf[3+nOutLen+2]='5';
o_rOutputBuf[3+nOutLen+3]='5';
o_rOutputBuf[3+nOutLen+4]='\n';
o_rOutputBuf[3+nOutLen+5]=0;
const int header_size = 3+nOutLen+5;
const int size = width*height*3 + header_size;
printf( " PPM %d", size );
printf("\n");
// trim buffer to exact header size
o_rOutputBuf.resize(header_size);
// initialize stream
unsigned char *p;<--- The scope of the variable 'p' can be reduced. [+]The scope of the variable 'p' can be reduced. Warning: Be careful when fixing this message, especially when there are inner loops. Here is an example where cppcheck will write that the scope for 'i' can be reduced:
void f(int x)
{
int i = 0;
if (x) {
// it's safe to move 'int i = 0;' here
for (int n = 0; n < 10; ++n) {
// it is possible but not safe to move 'int i = 0;' here
do_something(&i);
}
}
}
When you see this message it is always safe to reduce the variable scope 1 level.
GfxRGB rgb;
std::unique_ptr<ImageStream> imgStr(
new ImageStream(str,
width,
colorMap->getNumPixelComps(),
colorMap->getBits()));
imgStr->reset();
for( int y=0; y<height; ++y)
{
p = imgStr->getLine();
for( int x=0; x<width; ++x)
{
colorMap->getRGB(p, &rgb);
o_rOutputBuf.push_back(colToByte(rgb.r));
o_rOutputBuf.push_back(colToByte(rgb.g));
o_rOutputBuf.push_back(colToByte(rgb.b));
p +=colorMap->getNumPixelComps();
}
}
}
// call this only for 1 bit image streams !
static void writePng_( OutputBuffer& o_rOutputBuf,
Stream* str,
int width,
int height,
GfxRGB const & zeroColor,
GfxRGB const & oneColor,
bool bIsMask )
{
o_rOutputBuf.clear();
// get png image
PngHelper::createPng( o_rOutputBuf, str, width, height, zeroColor, oneColor, bIsMask );
printf( " PNG %d", static_cast<int>(o_rOutputBuf.size()) );
printf("\n");
}
static void writePng_( OutputBuffer& o_rOutputBuf,
Stream* str,
int width, int height, GfxImageColorMap* colorMap,
Stream* maskStr,
int maskWidth, int maskHeight, GfxImageColorMap* maskColorMap )
{
o_rOutputBuf.clear();
// get png image
PngHelper::createPng( o_rOutputBuf, str, width, height, colorMap, maskStr, maskWidth, maskHeight, maskColorMap );
printf( " PNG %d", static_cast<int>(o_rOutputBuf.size()) );
printf("\n");
}
static void writePng_( OutputBuffer& o_rOutputBuf,
Stream* str,
int width, int height, GfxImageColorMap* colorMap,
Stream* maskStr,
int maskWidth, int maskHeight, bool maskInvert )
{
o_rOutputBuf.clear();
// get png image
PngHelper::createPng( o_rOutputBuf, str, width, height, colorMap, maskStr, maskWidth, maskHeight, maskInvert );
printf( " PNG %d", static_cast<int>(o_rOutputBuf.size()) );
printf("\n");
}
// stolen from ImageOutputDev.cc
static void writeMask_( OutputBuffer& o_rOutputBuf, Stream* str, int width, int height, bool bInvert )
{
if( str->getKind() == strDCT )
writeJpeg_(o_rOutputBuf, str);
else
writePbm_(o_rOutputBuf, str, width, height, bInvert );
}
static void writeImage_( OutputBuffer& o_rOutputBuf,
Stream* str,
int width,
int height,
GfxImageColorMap* colorMap )
{
// dump JPEG file
if( str->getKind() == strDCT &&
(colorMap->getNumPixelComps() == 1 ||
colorMap->getNumPixelComps() == 3) )
{
writeJpeg_(o_rOutputBuf, str);
}
else if (colorMap->getNumPixelComps() == 1 &&
colorMap->getBits() == 1)
{
// this is a two color bitmap, write a png
// provide default colors
GfxRGB zeroColor = { 0, 0, 0 },
oneColor = { byteToCol( 0xff ), byteToCol( 0xff ), byteToCol( 0xff ) };
if( colorMap->getColorSpace()->getMode() == csIndexed || colorMap->getColorSpace()->getMode() == csDeviceGray )
{
unsigned char nIndex = 0;
colorMap->getRGB( &nIndex, &zeroColor );
nIndex = 1;
colorMap->getRGB( &nIndex, &oneColor );
}
writePng_( o_rOutputBuf, str, width, height, zeroColor, oneColor, false);
}
else
writePpm_( o_rOutputBuf, str, width, height, colorMap );
}
// forwarders
static void writeImageLF( OutputBuffer& o_rOutputBuf,
Stream* str,
int width,
int height,
GfxImageColorMap* colorMap ) { writeImage_(o_rOutputBuf,str,width,height,colorMap); }
static void writeMaskLF( OutputBuffer& o_rOutputBuf,
Stream* str,
int width,
int height,
bool bInvert ) { writeMask_(o_rOutputBuf,str,width,height,bInvert); }
int PDFOutDev::parseFont( long long nNewId, GfxFont* gfxFont, GfxState* state ) const
{
FontAttributes aNewFont;
int nSize = 0;
#if POPPLER_CHECK_VERSION(0, 64, 0)
const
#endif
GooString* pFamily = gfxFont->getName();
if( pFamily )
{
aNewFont.familyName.clear();
aNewFont.familyName.append( gfxFont->getName() );
}
else
{
aNewFont.familyName.clear();
aNewFont.familyName.append( "Arial" );
}
aNewFont.isBold = gfxFont->isBold();
aNewFont.isItalic = gfxFont->isItalic();
aNewFont.size = state->getTransformedFontSize();
aNewFont.isUnderline = false;
if( gfxFont->getType() == fontTrueType || gfxFont->getType() == fontType1 )
{
// TODO(P3): Unfortunately, need to read stream twice, since
// we must write byte count to stdout before
char* pBuf = gfxFont->readEmbFontFile( m_pDoc->getXRef(), &nSize );
if( pBuf )
{
aNewFont.isEmbedded = true;
gfree(pBuf);
}
}
m_aFontMap[ nNewId ] = aNewFont;
return nSize;
}
void PDFOutDev::writeFontFile( GfxFont* gfxFont ) const
{
if( gfxFont->getType() != fontTrueType && gfxFont->getType() != fontType1 )
return;
int nSize = 0;
char* pBuf = gfxFont->readEmbFontFile( m_pDoc->getXRef(), &nSize );
if( !pBuf )
return;
// ---sync point--- see SYNC STREAMS above
fflush(stdout);
if( fwrite(pBuf, sizeof(char), nSize, g_binary_out) != static_cast<size_t>(nSize) )
{
gfree(pBuf);
exit(1); // error
}
// ---sync point--- see SYNC STREAMS above
fflush(g_binary_out);
gfree(pBuf);
}
#if POPPLER_CHECK_VERSION(0, 83, 0)
void PDFOutDev::printPath( const GfxPath* pPath )
#else
void PDFOutDev::printPath( GfxPath* pPath )
#endif
{
int nSubPaths = pPath ? pPath->getNumSubpaths() : 0;
for( int i=0; i<nSubPaths; i++ )
{
#if POPPLER_CHECK_VERSION(0, 83, 0)
const
#endif
GfxSubpath* pSub = pPath->getSubpath( i );
const int nPoints = pSub->getNumPoints();
printf( " subpath %d", pSub->isClosed() );
for( int n=0; n<nPoints; ++n )
{
printf( " %f %f %d",
normalize(pSub->getX(n)),
normalize(pSub->getY(n)),
pSub->getCurve(n) );
}
}
}
PDFOutDev::PDFOutDev( PDFDoc* pDoc ) :
m_pDoc( pDoc ),
m_aFontMap(),
m_pUtf8Map( new UnicodeMap("UTF-8", true, &mapUTF8) ),
m_bSkipImages(false)
{
}
PDFOutDev::~PDFOutDev()
{
}
void PDFOutDev::startPage(int /*pageNum*/, GfxState* state
#if POPPLER_CHECK_VERSION(0, 23, 0) || POPPLER_CHECK_VERSION(0, 24, 0)
, XRef* /*xref*/
#endif
)
{
assert(state);
printf("startPage %f %f\n",
normalize(state->getPageWidth()),
normalize(state->getPageHeight()));
}
void PDFOutDev::endPage()
{
printf("endPage\n");
}
#if POPPLER_CHECK_VERSION(0, 19, 0)
void PDFOutDev::processLink(AnnotLink *link)
#elif POPPLER_CHECK_VERSION(0, 17, 0)
void PDFOutDev::processLink(AnnotLink *link, Catalog *)
#else
void PDFOutDev::processLink(Link* link, Catalog*)<--- The function 'processLink' is never used.
#endif
{
assert(link);
double x1,x2,y1,y2;
link->getRect( &x1, &y1, &x2, &y2 );
LinkAction* pAction = link->getAction();
if (!(pAction && pAction->getKind() == actionURI))
return;
#if POPPLER_CHECK_VERSION(0, 72, 0)
const char* pURI = static_cast<LinkURI*>(pAction)->getURI()->c_str();
#else
const char* pURI = static_cast<LinkURI*>(pAction)->getURI()->getCString();
#endif
std::vector<char> aEsc( lcl_escapeLineFeeds(pURI) );
printf( "drawLink %f %f %f %f %s\n",
normalize(x1),
normalize(y1),
normalize(x2),
normalize(y2),
aEsc.data() );
}
void PDFOutDev::saveState(GfxState*)
{
printf( "saveState\n" );
}
void PDFOutDev::restoreState(GfxState*)
{
printf( "restoreState\n" );
}
#if POPPLER_CHECK_VERSION(0, 71, 0)
void PDFOutDev::setDefaultCTM(const double *pMat)
#else
void PDFOutDev::setDefaultCTM(double *pMat)
#endif
{
assert(pMat);
OutputDev::setDefaultCTM(pMat);
printf( "updateCtm %f %f %f %f %f %f\n",
normalize(pMat[0]),
normalize(pMat[1]),
normalize(pMat[2]),
normalize(pMat[3]),
normalize(pMat[4]),
normalize(pMat[5]) );
}
void PDFOutDev::updateCTM(GfxState* state,<--- The function 'updateCTM' is never used.
double, double,
double, double,
double, double)
{
assert(state);
const double* const pMat = state->getCTM();
assert(pMat);
printf( "updateCtm %f %f %f %f %f %f\n",
normalize(pMat[0]),
normalize(pMat[1]),
normalize(pMat[2]),
normalize(pMat[3]),
normalize(pMat[4]),
normalize(pMat[5]) );
}
void PDFOutDev::updateLineDash(GfxState *state)<--- The function 'updateLineDash' is never used.
{
if (m_bSkipImages)
return;
assert(state);
double* dashArray; int arrayLen; double startOffset;
state->getLineDash(&dashArray, &arrayLen, &startOffset);
printf( "updateLineDash" );
if( arrayLen && dashArray )
{
printf( " %f %d", normalize(startOffset), arrayLen );
for( int i=0; i<arrayLen; ++i )
printf( " %f", normalize(*dashArray++) );
}
printf( "\n" );
}
void PDFOutDev::updateFlatness(GfxState *state)<--- The function 'updateFlatness' is never used.
{
if (m_bSkipImages)
return;
assert(state);
printf( "updateFlatness %d\n", state->getFlatness() );
}
void PDFOutDev::updateLineJoin(GfxState *state)<--- The function 'updateLineJoin' is never used.
{
if (m_bSkipImages)
return;
assert(state);
printf( "updateLineJoin %d\n", state->getLineJoin() );
}
void PDFOutDev::updateLineCap(GfxState *state)
{
if (m_bSkipImages)
return;
assert(state);
printf( "updateLineCap %d\n", state->getLineCap() );
}
void PDFOutDev::updateMiterLimit(GfxState *state)<--- The function 'updateMiterLimit' is never used.
{
if (m_bSkipImages)
return;
assert(state);
printf( "updateMiterLimit %f\n", normalize(state->getMiterLimit()) );
}
void PDFOutDev::updateLineWidth(GfxState *state)
{
if (m_bSkipImages)
return;
assert(state);
printf( "updateLineWidth %f\n", normalize(state->getLineWidth()) );
}
void PDFOutDev::updateFillColor(GfxState *state)
{
if (m_bSkipImages)
return;
assert(state);
GfxRGB aRGB;
state->getFillRGB( &aRGB );
printf( "updateFillColor %f %f %f %f\n",
normalize(colToDbl(aRGB.r)),
normalize(colToDbl(aRGB.g)),
normalize(colToDbl(aRGB.b)),
normalize(state->getFillOpacity()) );
}
void PDFOutDev::updateStrokeColor(GfxState *state)
{
if (m_bSkipImages)
return;
assert(state);
GfxRGB aRGB;
state->getStrokeRGB( &aRGB );
printf( "updateStrokeColor %f %f %f %f\n",
normalize(colToDbl(aRGB.r)),
normalize(colToDbl(aRGB.g)),
normalize(colToDbl(aRGB.b)),
normalize(state->getFillOpacity()) );
}
void PDFOutDev::updateFillOpacity(GfxState *state)<--- The function 'updateFillOpacity' is never used.
{
if (m_bSkipImages)
return;
updateFillColor(state);
}
void PDFOutDev::updateStrokeOpacity(GfxState *state)<--- The function 'updateStrokeOpacity' is never used.
{
if (m_bSkipImages)
return;
updateStrokeColor(state);
}
void PDFOutDev::updateBlendMode(GfxState*)<--- The function 'updateBlendMode' is never used.
{
}
void PDFOutDev::updateFont(GfxState *state)<--- The function 'updateFont' is never used.
{
assert(state);
GfxFont *gfxFont = state->getFont();
if( !gfxFont )
return;
FontAttributes aFont;
int nEmbedSize=0;
#if POPPLER_CHECK_VERSION(0, 64, 0)
const
#endif
Ref* pID = gfxFont->getID();
// TODO(Q3): Portability problem
long long fontID = static_cast<long long>(pID->gen) << 32 | static_cast<long long>(pID->num);
std::unordered_map< long long, FontAttributes >::const_iterator it =
m_aFontMap.find( fontID );
if( it == m_aFontMap.end() )
{
nEmbedSize = parseFont( fontID, gfxFont, state );
it = m_aFontMap.find( fontID );
}
printf( "updateFont" );
if( it != m_aFontMap.end() )
{
// conflating this with printf below crashes under Windoze
printf( " %lld", fontID );
aFont = it->second;
#if POPPLER_CHECK_VERSION(0, 72, 0)
std::vector<char> aEsc( lcl_escapeLineFeeds(aFont.familyName.c_str()) );
#else
std::vector<char> aEsc( lcl_escapeLineFeeds(aFont.familyName.getCString()) );
#endif
printf( " %d %d %d %d %f %d %s",
aFont.isEmbedded,
aFont.isBold,
aFont.isItalic,
aFont.isUnderline,
normalize(state->getTransformedFontSize()),
nEmbedSize,
aEsc.data() );
}
printf( "\n" );
if( nEmbedSize )
writeFontFile(gfxFont);
}
void PDFOutDev::updateRender(GfxState *state)<--- The function 'updateRender' is never used.
{
assert(state);
printf( "setTextRenderMode %d\n", state->getRender() );
}
void PDFOutDev::stroke(GfxState *state)
{
if (m_bSkipImages)
return;
assert(state);
printf( "strokePath" );
printPath( state->getPath() );
printf( "\n" );
}
void PDFOutDev::fill(GfxState *state)
{
if (m_bSkipImages)
return;
assert(state);
printf( "fillPath" );
printPath( state->getPath() );
printf( "\n" );
}
void PDFOutDev::eoFill(GfxState *state)<--- The function 'eoFill' is never used.
{
if (m_bSkipImages)
return;
assert(state);
printf( "eoFillPath" );
printPath( state->getPath() );
printf( "\n" );
}
void PDFOutDev::clip(GfxState *state)
{
if (m_bSkipImages)
return;
assert(state);
printf( "clipPath" );
printPath( state->getPath() );
printf( "\n" );
}
void PDFOutDev::eoClip(GfxState *state)<--- The function 'eoClip' is never used.
{
if (m_bSkipImages)
return;
assert(state);
printf( "eoClipPath" );
printPath( state->getPath() );
printf( "\n" );
}
/** Output one glyph
@param dx
horizontal skip for character (already scaled with font size) +
inter-char space: cursor is shifted by this amount for next char
@param dy
vertical skip for character (zero for horizontal writing mode):
cursor is shifted by this amount for next char
@param originX
local offset of character (zero for horizontal writing mode). not
taken into account for output pos updates. Used for vertical writing.
@param originY
local offset of character (zero for horizontal writing mode). not
taken into account for output pos updates. Used for vertical writing.
*/
#if POPPLER_CHECK_VERSION(0, 82, 0)
void PDFOutDev::drawChar(GfxState *state, double x, double y,
double dx, double dy,
double originX, double originY,
CharCode, int /*nBytes*/, const Unicode *u, int uLen)
{
#else
void PDFOutDev::drawChar(GfxState *state, double x, double y,<--- The function 'drawChar' is never used.
double dx, double dy,
double originX, double originY,
CharCode, int /*nBytes*/, Unicode *u, int uLen)
{
#endif
assert(state);
if( u == nullptr )
return;
// Fix for tdf#96080
if (uLen == 4 && u[0] == '\t' && u[1] == '\r' && u[2] == ' ' && u[3] == 0xA0)
{
u += 2;
uLen = 1;
}
double csdx = 0.0;
double csdy = 0.0;
if (state->getFont()->getWMode())
{
csdy = state->getCharSpace();
if (*u == ' ')
csdy += state->getWordSpace();
}
else
{
csdx = state->getCharSpace();
if (*u == ' ')
csdx += state->getWordSpace();
csdx *= state->getHorizScaling();
}
double cstdx = 0.0;
double cstdy = 0.0;
state->textTransformDelta(csdx, csdy, &cstdx, &cstdy);
const double fontSize = state->getFontSize();
const double aPositionX(x-originX);
const double aPositionY(y-originY);
const double* pTextMat=state->getTextMat();
printf( "drawChar %f %f %f %f %f %f %f %f %f ",
normalize(aPositionX),
normalize(aPositionY),
normalize(aPositionX + dx - cstdx),
normalize(aPositionY + dy - cstdy),
normalize(pTextMat[0]),
normalize(pTextMat[2]),
normalize(pTextMat[1]),
normalize(pTextMat[3]),
normalize(fontSize)
);
// silence spurious warning
#if POPPLER_CHECK_VERSION(0, 62, 0)
(void)&mapUTF16;
#else
(void)&mapUCS2;
#endif
char buf[9];
for( int i=0; i<uLen; ++i )
{
buf[ m_pUtf8Map->mapUnicode(u[i], buf, sizeof(buf)-1) ] = 0;
std::vector<char> aEsc( lcl_escapeLineFeeds(buf) );
printf( "%s", aEsc.data() );
}
printf( "\n" );
}
#if POPPLER_CHECK_VERSION(0, 64, 0)
void PDFOutDev::drawString(GfxState*, const GooString* /*s*/)
#else
void PDFOutDev::drawString(GfxState*, GooString* /*s*/)<--- The function 'drawString' is never used.
#endif
{
// TODO(F3): NYI
}
void PDFOutDev::endTextObject(GfxState*)
{
printf( "endTextObject\n" );
}
void PDFOutDev::drawImageMask(GfxState* pState, Object*, Stream* str,<--- The function 'drawImageMask' is never used.
int width, int height, poppler_bool invert,
poppler_bool /*interpolate*/,
poppler_bool /*inlineImg*/ )
{
if (m_bSkipImages)
return;
OutputBuffer aBuf; initBuf(aBuf);
printf( "drawMask %d %d %d", width, height, invert );
int bitsPerComponent = 1;
StreamColorSpaceMode csMode = streamCSNone;
str->getImageParams( &bitsPerComponent, &csMode );
if( bitsPerComponent == 1 && (csMode == streamCSNone || csMode == streamCSDeviceGray) )
{
GfxRGB oneColor = { dblToCol( 1.0 ), dblToCol( 1.0 ), dblToCol( 1.0 ) };
GfxRGB zeroColor = { dblToCol( 0.0 ), dblToCol( 0.0 ), dblToCol( 0.0 ) };
pState->getFillColorSpace()->getRGB( pState->getFillColor(), &zeroColor );
if( invert )
writePng_( aBuf, str, width, height, oneColor, zeroColor, true );
else
writePng_( aBuf, str, width, height, zeroColor, oneColor, true );
}
else
writeMaskLF(aBuf, str, width, height, invert);
writeBinaryBuffer(aBuf);
}
#if POPPLER_CHECK_VERSION(0, 82, 0)
void PDFOutDev::drawImage(GfxState*, Object*, Stream* str,
int width, int height, GfxImageColorMap* colorMap,
poppler_bool /*interpolate*/,
const int* maskColors, poppler_bool /*inlineImg*/ )
{
#else
void PDFOutDev::drawImage(GfxState*, Object*, Stream* str,
int width, int height, GfxImageColorMap* colorMap,
poppler_bool /*interpolate*/,
int* maskColors, poppler_bool /*inlineImg*/ )
{
#endif
if (m_bSkipImages)
return;
OutputBuffer aBuf; initBuf(aBuf);
OutputBuffer aMaskBuf;
printf( "drawImage %d %d", width, height );
if( maskColors )
{
// write mask colors. nBytes must be even - first half is
// lower bound values, second half upper bound values
if( colorMap->getColorSpace()->getMode() == csIndexed )
{
aMaskBuf.push_back( static_cast<char>(maskColors[0]) );
aMaskBuf.push_back( static_cast<char>(maskColors[gfxColorMaxComps]) );
}
else
{
GfxRGB aMinRGB;
colorMap->getColorSpace()->getRGB(
#if POPPLER_CHECK_VERSION(0, 82, 0)
reinterpret_cast<const GfxColor*>(maskColors),
#else
reinterpret_cast<GfxColor*>(maskColors),
#endif
&aMinRGB );
GfxRGB aMaxRGB;
colorMap->getColorSpace()->getRGB(
#if POPPLER_CHECK_VERSION(0, 82, 0)
reinterpret_cast<const GfxColor*>(maskColors)+gfxColorMaxComps,
#else
reinterpret_cast<GfxColor*>(maskColors)+gfxColorMaxComps,
#endif
&aMaxRGB );
aMaskBuf.push_back( colToByte(aMinRGB.r) );
aMaskBuf.push_back( colToByte(aMinRGB.g) );
aMaskBuf.push_back( colToByte(aMinRGB.b) );
aMaskBuf.push_back( colToByte(aMaxRGB.r) );
aMaskBuf.push_back( colToByte(aMaxRGB.g) );
aMaskBuf.push_back( colToByte(aMaxRGB.b) );
}
}
printf( " %d", static_cast<int>(aMaskBuf.size()) );
writeImageLF( aBuf, str, width, height, colorMap );
writeBinaryBuffer(aBuf);
writeBinaryBuffer(aMaskBuf);
}
void PDFOutDev::drawMaskedImage(GfxState*, Object*, Stream* str,
int width, int height,
GfxImageColorMap* colorMap,
poppler_bool /*interpolate*/,
Stream* maskStr,
int maskWidth, int maskHeight,
poppler_bool maskInvert, poppler_bool /*maskInterpolate*/
)
{
if (m_bSkipImages)
return;
OutputBuffer aBuf; initBuf(aBuf);
printf( "drawImage %d %d 0", width, height );
writePng_( aBuf, str, width, height, colorMap, maskStr, maskWidth, maskHeight, maskInvert );
writeBinaryBuffer( aBuf );
}
void PDFOutDev::drawSoftMaskedImage(GfxState*, Object*, Stream* str,<--- The function 'drawSoftMaskedImage' is never used.
int width, int height,
GfxImageColorMap* colorMap,
poppler_bool /*interpolate*/,
Stream* maskStr,
int maskWidth, int maskHeight,
GfxImageColorMap* maskColorMap
, poppler_bool /*maskInterpolate*/
)
{
if (m_bSkipImages)
return;
OutputBuffer aBuf; initBuf(aBuf);
printf( "drawImage %d %d 0", width, height );
writePng_( aBuf, str, width, height, colorMap, maskStr, maskWidth, maskHeight, maskColorMap );
writeBinaryBuffer( aBuf );
}
void PDFOutDev::setPageNum( int nNumPages )
{
// TODO(F3): printf might format int locale-dependent!
printf("setPageNum %d\n", nNumPages);
}
void PDFOutDev::setSkipImages( bool bSkipImages )
{
m_bSkipImages = bSkipImages;
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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