/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qplatformdefs.h" #include #include #include #include #include #ifndef QT_NO_PRINTER #include "qprinter.h" #include "qpainter.h" #include "qapplication.h" #include "qpixmap.h" #include "qimage.h" #include "qdatetime.h" #include "qstring.h" #include "qbytearray.h" #include "qhash.h" #include "qbuffer.h" #include "qsettings.h" #include "qmap.h" #include "qbitmap.h" #include "qregion.h" #include "qimagewriter.h" #include #include #include #include #ifndef Q_OS_WIN #include #endif #include #include QT_BEGIN_NAMESPACE static bool qt_gen_epsf = false; void qt_generate_epsf(bool b) { qt_gen_epsf = b; } static const char *const ps_header = "/BD{bind def}bind def/d2{dup dup}BD/ED{exch def}BD/D0{0 ED}BD/F{setfont}BD\n" "/RL{rlineto}BD/CM{currentmatrix}BD/SM{setmatrix}BD/TR{translate}BD/SD\n" "{setdash}BD/SC{aload pop setrgbcolor}BD/CR{currentfile read pop}BD/i{index}\n" "BD/scs{setcolorspace}BD/DB{dict dup begin}BD/DE{end def}BD/ie{ifelse}BD/gs\n" "{gsave}BD/gr{grestore}BD/w{setlinewidth}BD/d{setdash}BD/J{setlinecap}BD/j\n" "{setlinejoin}BD/scn{3 array astore/BCol exch def}BD/SCN{3 array astore/PCol\n" "exch def}BD/cm{6 array astore concat}BD/m{moveto}BD/l{lineto}BD/c{curveto}BD\n" "/h{closepath}BD/W{clip}BD/W*{eoclip}BD/n{newpath}BD/q{gsave 10 dict begin}BD\n" "/Q{end grestore}BD/re{4 2 roll m dup 0 exch RL exch 0 RL 0 exch neg RL h}BD\n" "/S{gs PCol SC stroke gr n}BD/BT{gsave 10 dict begin/_m matrix CM def BCol\n" "SC}BD/ET{end grestore}BD/Tf{/_fs ED findfont[_fs 0 0 _fs 0 0]makefont F}BD\n" "/Tm{6 array astore concat}BD/Td{translate}BD/Tj{0 0 m show}BD/BDC{pop pop}BD\n" "/EMC{}BD/BSt 0 def/WFi false def/BCol[1 1 1]def/PCol[0 0 0]def/BDArr[0.94\n" "0.88 0.63 0.50 0.37 0.12 0.06]def/level3{/languagelevel where{pop\n" "languagelevel 3 ge}{false}ie}BD/QCIgray D0/QCIcolor D0/QCIindex D0/QCI{\n" "/colorimage where{pop false 3 colorimage}{exec/QCIcolor ED/QCIgray QCIcolor\n" "length 3 idiv string def 0 1 QCIcolor length 3 idiv 1 sub{/QCIindex ED/_x\n" "QCIindex 3 mul def QCIgray QCIindex QCIcolor _x get 0.30 mul QCIcolor _x 1\n" "add get 0.59 mul QCIcolor _x 2 add get 0.11 mul add add cvi put}for QCIgray\n" "image}ie}BD/di{gs TR 1 i 1 eq{pop pop false 3 1 roll BCol SC imagemask}{dup\n" "false ne{level3}{false}ie{/_ma ED 8 eq{/_dc[0 1]def/DeviceGray}{/_dc[0 1 0 1\n" "0 1]def/DeviceRGB}ie scs/_im ED/_mt ED/_h ED/_w ED <>/MaskDict <>\n" "/InterleaveType 3 >> image}{pop 8 4 1 roll 8 eq{image}{QCI}ie}ie}ie gr}BD/BF\n" "{gs BSt 1 eq{BCol SC WFi{fill}{eofill}ie}if BSt 2 ge BSt 8 le and{BDArr BSt\n" "2 sub get/_sc ED BCol{1. exch sub _sc mul 1. exch sub}forall 3 array astore\n" "SC WFi{fill}{eofill}ie}if BSt 9 ge BSt 14 le and{WFi{W}{W*}ie pathbbox 3 i 3\n" "i TR 4 2 roll 3 2 roll exch sub/_h ED sub/_w ED BCol SC 0.3 w n BSt 9 eq BSt\n" "11 eq or{0 4 _h{dup 0 exch m _w exch l}for}if BSt 10 eq BSt 11 eq or{0 4 _w{\n" "dup 0 m _h l}for}if BSt 12 eq BSt 14 eq or{_w _h gt{0 6 _w _h add{dup 0 m _h\n" "sub _h l}for}{0 6 _w _h add{dup 0 exch m _w sub _w exch l}for}ie}if BSt 13\n" "eq BSt 14 eq or{_w _h gt{0 6 _w _h add{dup _h m _h sub 0 l}for}{0 6 _w _h\n" "add{dup _w exch m _w sub 0 exch l}for}ie}if stroke}if BSt 15 eq{}if BSt 24\n" "eq{}if gr}BD/f{/WFi true def BF n}BD/f*{/WFi false def BF n}BD/B{/WFi true\n" "def BF S n}BD/B*{/WFi false def BF S n}BD/QI{/C save def pageinit q n}BD/QP{\n" "Q C restore showpage}BD/SPD{/setpagedevice where{<< 3 1 roll >>\n" "setpagedevice}{pop pop}ie}BD/T1AddMapping{10 dict begin/glyphs ED/fnt ED\n" "/current fnt/NumGlyphs get def/CMap fnt/CMap get def 0 1 glyphs length 1 sub\n" "{glyphs exch get/gn ED current dup 256 mod/min ED 256 idiv/maj ED CMap dup\n" "maj get dup null eq{pop 256 array 0 1 255{1 i exch/.notdef put}for}if dup\n" "min gn put maj exch put/current current 1 add def}for fnt/CMap CMap put fnt\n" "/NumGlyphs current put end}def/T1AddGlyphs{10 dict begin/glyphs ED/fnt ED\n" "/current fnt/NumGlyphs get def/CMap fnt/CMap get def/CharStrings fnt\n" "/CharStrings get def 0 1 glyphs length 2 idiv 1 sub{2 mul dup glyphs exch\n" "get/gn ED 1 add glyphs exch get/cs ED current dup 256 mod/min ED 256 idiv\n" "/maj ED CMap dup maj get dup null eq{pop 256 array 0 1 255{1 i exch/.notdef\n" "put}for}if dup min gn put maj exch put CharStrings gn cs put/current current\n" "1 add def}for fnt/CharStrings CharStrings put fnt/CMap CMap put fnt\n" "/NumGlyphs current put end}def/StringAdd{1 i length 1 i length add string 3\n" "1 roll 2 i 0 3 i putinterval 2 i 2 i length 2 i putinterval pop pop}def\n" "/T1Setup{10 dict begin dup/FontName ED (-Base) StringAdd cvx cvn/Font ED\n" "/MaxPage Font/NumGlyphs get 1 sub 256 idiv def/FDepVector MaxPage 1 add\n" "array def/Encoding MaxPage 1 add array def 0 1 MaxPage{dup Encoding exch dup\n" "put dup/Page ED FontName (-) StringAdd exch 20 string cvs StringAdd cvn Font\n" "0 dict copy d2/CMap get Page get/Encoding exch put definefont FDepVector\n" "exch Page exch put}for FontName cvn <> definefont pop end}def\n"; // ------------------------------End of static data ---------------------------------- // make sure DSC comments are not longer than 255 chars per line. static QByteArray wrapDSC(const QByteArray &str) { QByteArray dsc = str.simplified(); const int wrapAt = 254; QByteArray wrapped; if (dsc.length() < wrapAt) wrapped = dsc; else { wrapped = dsc.left(wrapAt); QByteArray tmp = dsc.mid(wrapAt); while (tmp.length() > wrapAt-3) { wrapped += "\n%%+" + tmp.left(wrapAt-3); tmp = tmp.mid(wrapAt-3); } wrapped += "\n%%+" + tmp; } return wrapped + '\n'; } // ----------------------------- Internal class declarations ----------------------------- QPSPrintEnginePrivate::QPSPrintEnginePrivate(QPrinter::PrinterMode m) : QPdfBaseEnginePrivate(m), printerState(QPrinter::Idle), hugeDocument(false), headerDone(false) { useAlphaEngine = true; postscript = true; firstPage = true; #ifndef QT_NO_SETTINGS QSettings settings(QSettings::UserScope, QLatin1String("Trolltech")); settings.beginGroup(QLatin1String("Qt")); embedFonts = settings.value(QLatin1String("embedFonts"), true).toBool(); #else embedFonts = true; #endif } QPSPrintEnginePrivate::~QPSPrintEnginePrivate() { } QT_BEGIN_INCLUDE_NAMESPACE #include QT_END_INCLUDE_NAMESPACE static void ps_r7(QPdf::ByteStream& stream, const char * s, int l) { int i = 0; uchar line[84]; int col = 0; while(i < l) { line[col++] = s[i++]; if (i < l - 1 && col >= 76) { line[col++] = '\n'; line[col++] = '\0'; stream << (const char *)line; col = 0; } } if (col > 0) { while((col&3) != 0) line[col++] = '%'; // use a comment as padding line[col++] = '\n'; line[col++] = '\0'; stream << (const char *)line; } } static QByteArray runlengthEncode(const QByteArray &input) { if (!input.length()) return input; const char *data = input.constData(); QByteArray out; int start = 0; char last = *data; enum State { Undef, Equal, Diff }; State state = Undef; int i = 1; int written = 0; while (1) { bool flush = (i == input.size()); if (!flush) { switch(state) { case Undef: state = (last == data[i]) ? Equal : Diff; break; case Equal: if (data[i] != last) flush = true; break; case Diff: if (data[i] == last) { --i; flush = true; } } } if (flush || i - start == 128) { int size = i - start; if (state == Equal) { out.append((char)(uchar)(257-size)); out.append(last); written += size; } else { out.append((char)(uchar)size-1); while (start < i) out.append(data[start++]); written += size; } state = Undef; start = i; if (i == input.size()) break; } last = data[i]; ++i; }; out.append((char)(uchar)128); return out; } enum format { Raw, Runlength, DCT }; static const char *const filters[3] = { " ", "/RunLengthDecode filter ", "/DCTDecode filter " }; static QByteArray compressHelper(const QImage &image, bool gray, int *format) { // we can't use premultiplied here QByteArray pixelData; int depth = image.depth(); Q_ASSERT(image.format() != QImage::Format_ARGB32_Premultiplied); if (depth != 1 && !gray && QImageWriter::supportedImageFormats().contains("jpeg")) { QBuffer buffer(&pixelData); QImageWriter writer(&buffer, "jpeg"); writer.setQuality(94); writer.write(image); *format = DCT; } else { int width = image.width(); int height = image.height(); int size = width*height; if (depth == 1) size = (width+7)/8*height; else if (!gray) size = size*3; pixelData.resize(size); uchar *pixel = (uchar *)pixelData.data(); int i = 0; if (depth == 1) { QImage::Format format = image.format(); memset(pixel, 0xff, size); for(int y=0; y < height; y++) { const uchar * s = image.scanLine(y); for(int x=0; x < width; x++) { // need to copy bit for bit... bool b = (format == QImage::Format_MonoLSB) ? (*(s + (x >> 3)) >> (x & 7)) & 1 : (*(s + (x >> 3)) << (x & 7)) & 0x80 ; if (b) pixel[i >> 3] ^= (0x80 >> (i & 7)); i++; } // we need to align to 8 bit here i = (i+7) & 0xffffff8; } } else if (depth == 8) { for(int y=0; y < height; y++) { const uchar * s = image.scanLine(y); for(int x=0; x < width; x++) { QRgb rgb = image.color(s[x]); if (gray) { pixel[i] = (unsigned char) qGray(rgb); i++; } else { pixel[i] = (unsigned char) qRed(rgb); pixel[i+1] = (unsigned char) qGreen(rgb); pixel[i+2] = (unsigned char) qBlue(rgb); i += 3; } } } } else { for(int y=0; y < height; y++) { QRgb * s = (QRgb*)(image.scanLine(y)); for(int x=0; x < width; x++) { QRgb rgb = (*s++); if (gray) { pixel[i] = (unsigned char) qGray(rgb); i++; } else { pixel[i] = (unsigned char) qRed(rgb); pixel[i+1] = (unsigned char) qGreen(rgb); pixel[i+2] = (unsigned char) qBlue(rgb); i += 3; } } } } *format = Raw; if (depth == 1) { pixelData = runlengthEncode(pixelData); *format = Runlength; } } QByteArray outarr = QPdf::ascii85Encode(pixelData); return outarr; } void QPSPrintEnginePrivate::drawImageHelper(qreal x, qreal y, qreal w, qreal h, const QImage &img, const QImage &mask, bool gray, qreal scaleX, qreal scaleY) { Q_UNUSED(h); Q_UNUSED(w); int width = img.width(); int height = img.height(); QByteArray out; int size = 0; const char *bits; if (!mask.isNull()) { int format; out = compressHelper(mask, true, &format); size = (width+7)/8*height; *currentPage << "/mask currentfile/ASCII85Decode filter" << filters[format] << size << " string readstring\n"; ps_r7(*currentPage, out, out.size()); *currentPage << " pop def\n"; } if (img.depth() == 1) { size = (width+7)/8*height; bits = "1 "; } else if (gray) { size = width*height; bits = "8 "; } else { size = width*height*3; bits = "24 "; } int format; out = compressHelper(img, gray, &format); *currentPage << "/sl currentfile/ASCII85Decode filter" << filters[format] << size << " string readstring\n"; ps_r7(*currentPage, out, out.size()); *currentPage << " pop def\n"; *currentPage << width << ' ' << height << '[' << scaleX << " 0 0 " << scaleY << " 0 0]sl " << bits << (!mask.isNull() ? "mask " : "false ") << x << ' ' << y << " di\n"; } void QPSPrintEnginePrivate::drawImage(qreal x, qreal y, qreal w, qreal h, const QImage &image, const QImage &msk) { if (!w || !h || image.isNull()) return; QImage img(image); QImage mask(msk); if (image.format() == QImage::Format_ARGB32_Premultiplied) img = image.convertToFormat(QImage::Format_ARGB32); if (!msk.isNull() && msk.format() == QImage::Format_ARGB32_Premultiplied) mask = msk.convertToFormat(QImage::Format_ARGB32); int width = img.width(); int height = img.height(); qreal scaleX = width/w; qreal scaleY = height/h; bool gray = (colorMode == QPrinter::GrayScale) || img.allGray(); int splitSize = 21830 * (gray ? 3 : 1); if (width * height > splitSize) { // 65535/3, tolerance for broken printers int images, subheight; images = (width * height + splitSize - 1) / splitSize; subheight = (height + images-1) / images; while (subheight * width > splitSize) { images++; subheight = (height + images-1) / images; } int suby = 0; const QImage constImg(img); const QImage constMask(mask); while(suby < height) { qreal subImageHeight = qMin(subheight, height-suby); const QImage subImage(constImg.scanLine(suby), width, subImageHeight, constImg.bytesPerLine(), constImg.format()); const QImage subMask = mask.isNull() ? mask : QImage(constMask.scanLine(suby), width, subImageHeight, constMask.bytesPerLine(), constMask.format()); drawImageHelper(x, y + suby/scaleY, w, subImageHeight/scaleY, subImage, subMask, gray, scaleX, scaleY); suby += subheight; } } else { drawImageHelper(x, y, width, height, img, mask, gray, scaleX, scaleY); } } void QPSPrintEnginePrivate::emitHeader(bool finished) { QPSPrintEngine *q = static_cast(q_ptr); QPrinter *printer = static_cast(pdev); if (creator.isEmpty()) creator = QLatin1String("Qt " QT_VERSION_STR); QByteArray header; QPdf::ByteStream s(&header); qreal scale = 72. / ((qreal) q->metric(QPaintDevice::PdmDpiY)); QRect pageRect = this->pageRect(); QRect paperRect = this->paperRect(); int mtop = pageRect.top() - paperRect.top(); int mleft = pageRect.left() - paperRect.left(); int mbottom = paperRect.bottom() - pageRect.bottom(); int mright = paperRect.right() - pageRect.right(); int width = pageRect.width(); int height = pageRect.height(); if (finished && pageCount == 1 && copies == 1 && ((fullPage && qt_gen_epsf) || (outputFileName.endsWith(QLatin1String(".eps"))))) { // According to the EPSF 3.0 spec it is required that the PS // version is PS-Adobe-3.0 s << "%!PS-Adobe-3.0"; if (!boundingBox.isValid()) boundingBox.setRect(0, 0, width, height); if (orientation == QPrinter::Landscape) { if (!fullPage) boundingBox.translate(-mleft, -mtop); s << " EPSF-3.0\n%%BoundingBox: " << int((printer->height() - boundingBox.bottom())*scale) // llx << int((printer->width() - boundingBox.right())*scale - 1) // lly << int((printer->height() - boundingBox.top())*scale + 1) // urx << int((printer->width() - boundingBox.left())*scale); // ury } else { if (!fullPage) boundingBox.translate(mleft, -mtop); s << " EPSF-3.0\n%%BoundingBox: " << int((boundingBox.left())*scale) << int((printer->height() - boundingBox.bottom())*scale - 1) << int((boundingBox.right())*scale + 1) << int((printer->height() - boundingBox.top())*scale); } } else { s << "%!PS-Adobe-1.0"; int w = width + (fullPage ? 0 : mleft + mright); int h = height + (fullPage ? 0 : mtop + mbottom); w = (int)(w*scale); h = (int)(h*scale); // set a bounding box according to the DSC if (orientation == QPrinter::Landscape) s << "\n%%BoundingBox: 0 0 " << h << w; else s << "\n%%BoundingBox: 0 0 " << w << h; } s << '\n' << wrapDSC("%%Creator: " + creator.toUtf8()); if (!title.isEmpty()) s << wrapDSC("%%Title: " + title.toUtf8()); #ifndef QT_NO_DATESTRING s << "%%CreationDate: " << QDateTime::currentDateTime().toString().toUtf8(); #endif s << "\n%%Orientation: "; if (orientation == QPrinter::Landscape) s << "Landscape"; else s << "Portrait"; s << "\n%%Pages: (atend)" "\n%%DocumentFonts: (atend)" "\n%%EndComments\n" "%%BeginProlog\n" "% Prolog copyright (C) 2008 Nokia Corporation and/or its subsidiary(-ies).\n" "% You may copy this prolog in any way that is directly related to this document.\n" "% For other use of this prolog, see your licensing agreement for Qt.\n" << ps_header << '\n'; s << "/pageinit {\n"; if (!fullPage) { if (orientation == QPrinter::Portrait) s << mleft*scale << mbottom*scale << "translate\n"; else s << mtop*scale << mleft*scale << "translate\n"; } if (orientation == QPrinter::Portrait) { s << "% " << printer->widthMM() << '*' << printer->heightMM() << "mm (portrait)\n0 " << height*scale << "translate " << scale << '-' << scale << "scale } def\n"; } else { s << "% " << printer->heightMM() << '*' << printer->widthMM() << " mm (landscape)\n 90 rotate " << scale << '-' << scale << "scale } def\n"; } s << "%%EndProlog\n"; outDevice->write(header); headerDone = true; } void QPSPrintEnginePrivate::emitPages() { if (!hugeDocument) { for (QHash::const_iterator it = fonts.constBegin(); it != fonts.constEnd(); ++it) outDevice->write((*it)->toType1()); } QIODevice *content = buffer.stream(); // Write the page contents in chunks. while (!content->atEnd()) { QByteArray buf = content->read(currentPage->chunkSize()); if (!buf.isEmpty()) outDevice->write(buf); } content = currentPage->stream(); // Write the page contents in chunks. while (!content->atEnd()) { QByteArray buf = content->read(currentPage->chunkSize()); if (!buf.isEmpty()) outDevice->write(buf); } outDevice->write(trailer); buffer.clear(); currentPage->clear(); trailer = QByteArray(); hugeDocument = true; } #ifdef Q_WS_QWS static const int max_in_memory_size = 2000000; #else static const int max_in_memory_size = 32000000; #endif void QPSPrintEnginePrivate::flushPage(bool last) { if (!last && currentPage->stream()->size() == 0) return; QPdf::ByteStream e(&trailer); buffer << "%%Page: " << pageCount << pageCount << "\n" "%%BeginPageSetup\n" "QI\n"; if (hugeDocument) { for (QHash::const_iterator it = fonts.constBegin(); it != fonts.constEnd(); ++it) { if (currentPage->fonts.contains((*it)->object_id)) { if ((*it)->downloaded_glyphs == 0) { buffer << (*it)->toType1(); (*it)->downloaded_glyphs = 0; } else { buffer << (*it)->type1AddedGlyphs(); } } } } for (int i = 0; i < currentPage->fonts.size(); ++i) buffer << "(F" << QByteArray::number(currentPage->fonts.at(i)) << ") T1Setup\n"; buffer << "%%EndPageSetup\nq\n"; e << "\nQ QP\n"; if (last || hugeDocument || buffer.stream()->size() + currentPage->stream()->size() > max_in_memory_size) { // qDebug("emiting header at page %d", pageCount); if (!headerDone) emitHeader(last); emitPages(); } else { buffer << *currentPage << e; currentPage->clear(); trailer.clear(); } pageCount++; } // ================ PSPrinter class ======================== QPSPrintEngine::QPSPrintEngine(QPrinter::PrinterMode m) : QPdfBaseEngine(*(new QPSPrintEnginePrivate(m)), PrimitiveTransform | PatternTransform | PixmapTransform | PainterPaths | PatternBrush ) { } static void ignoreSigPipe(bool b) { #ifndef QT_NO_LPR static struct sigaction *users_sigpipe_handler = 0; static int lockCount = 0; #ifndef QT_NO_THREAD QMutexLocker locker(QMutexPool::globalInstanceGet(&users_sigpipe_handler)); #endif if (b) { if (lockCount++ > 0) return; if (users_sigpipe_handler != 0) return; // already ignoring sigpipe users_sigpipe_handler = new struct sigaction; struct sigaction tmp_sigpipe_handler; tmp_sigpipe_handler.sa_handler = SIG_IGN; sigemptyset(&tmp_sigpipe_handler.sa_mask); tmp_sigpipe_handler.sa_flags = 0; if (sigaction(SIGPIPE, &tmp_sigpipe_handler, users_sigpipe_handler) == -1) { delete users_sigpipe_handler; users_sigpipe_handler = 0; } } else { if (--lockCount > 0) return; if (users_sigpipe_handler == 0) return; // not ignoring sigpipe if (sigaction(SIGPIPE, users_sigpipe_handler, 0) == -1) qWarning("QPSPrintEngine: Could not restore SIGPIPE handler"); delete users_sigpipe_handler; users_sigpipe_handler = 0; } #else Q_UNUSED(b); #endif } QPSPrintEngine::~QPSPrintEngine() { Q_D(QPSPrintEngine); if (d->fd >= 0) #if defined(Q_OS_WIN) && defined(_MSC_VER) && _MSC_VER >= 1400 ::_close(d->fd); #else ::close(d->fd); #endif } bool QPSPrintEngine::begin(QPaintDevice *pdev) { Q_D(QPSPrintEngine); if (d->fd >= 0) return true; if (d->useAlphaEngine) { QAlphaPaintEngine::begin(pdev); if (!continueCall()) return true; } if(!QPdfBaseEngine::begin(pdev)) { d->printerState = QPrinter::Error; return false; } d->pageCount = 1; // initialize state d->pen = QPen(Qt::black); d->brush = Qt::NoBrush; d->hasPen = true; d->hasBrush = false; d->clipEnabled = false; d->allClipped = false; d->boundingBox = QRect(); d->fontsUsed = ""; d->hugeDocument = false; d->simplePen = false; setActive(true); d->printerState = QPrinter::Active; newPage(); return true; } bool QPSPrintEngine::end() { Q_D(QPSPrintEngine); if (d->useAlphaEngine) { QAlphaPaintEngine::end(); if (!continueCall()) return true; } // we're writing to lp/lpr through a pipe, we don't want to crash with SIGPIPE // if lp/lpr dies ignoreSigPipe(true); d->flushPage(true); QByteArray trailer; QPdf::ByteStream s(&trailer); s << "%%Trailer\n" "%%Pages: " << d->pageCount - 1 << '\n' << wrapDSC("%%DocumentFonts: " + d->fontsUsed); s << "%%EOF\n"; d->outDevice->write(trailer); QPdfBaseEngine::end(); ignoreSigPipe(false); d->firstPage = true; d->headerDone = false; setActive(false); d->printerState = QPrinter::Idle; d->pdev = 0; return true; } void QPSPrintEngine::setBrush() { Q_D(QPSPrintEngine); #if 0 bool specifyColor; int gStateObject = 0; int patternObject = d->addBrushPattern(brush, d->stroker.matrix, brushOrigin, &specifyColor, &gStateObject); *d->currentPage << (patternObject ? "/PCSp cs " : "/CSp cs "); if (specifyColor) { QColor rgba = brush.color(); *d->currentPage << rgba.redF() << rgba.greenF() << rgba.blueF(); } if (patternObject) *d->currentPage << "/Pat" << patternObject; *d->currentPage << "scn\n"; #endif QColor rgba = d->brush.color(); if (d->colorMode == QPrinter::GrayScale) { qreal gray = qGray(rgba.rgba())/255.; *d->currentPage << gray << gray << gray; } else { *d->currentPage << rgba.redF() << rgba.greenF() << rgba.blueF(); } *d->currentPage << "scn\n" << "/BSt " << d->brush.style() << "def\n"; } void QPSPrintEngine::drawImageInternal(const QRectF &r, QImage image, bool bitmap) { Q_D(QPSPrintEngine); if (d->clipEnabled && d->allClipped) return; if (bitmap && image.depth() != 1) bitmap = false; QImage mask; // the below is not necessary since it's handled by the alpha // engine if (!d->useAlphaEngine && !bitmap) { if (image.format() == QImage::Format_Mono || image.format() == QImage::Format_MonoLSB) image = image.convertToFormat(QImage::Format_Indexed8); if (image.hasAlphaChannel()) { // get better alpha dithering int xscale = image.width(); xscale *= xscale <= 800 ? 4 : (xscale <= 1600 ? 2 : 1); int yscale = image.height(); yscale *= yscale <= 800 ? 4 : (yscale <= 1600 ? 2 : 1); image = image.scaled(xscale, yscale); mask = image.createAlphaMask(Qt::OrderedAlphaDither); } } *d->currentPage << "q\n"; if(!d->simplePen) *d->currentPage << QPdf::generateMatrix(d->stroker.matrix); QBrush b = d->brush; if (image.depth() == 1) { // set current pen as brush d->brush = d->pen.brush(); setBrush(); } d->drawImage(r.x(), r.y(), r.width(), r.height(), image, mask); *d->currentPage << "Q\n"; d->brush = b; } void QPSPrintEngine::drawImage(const QRectF &r, const QImage &img, const QRectF &sr, Qt::ImageConversionFlags) { Q_D(QPSPrintEngine); if (d->useAlphaEngine) { QAlphaPaintEngine::drawImage(r, img, sr); if (!continueCall()) return; } QImage image = img.copy(sr.toRect()); drawImageInternal(r, image, false); } void QPSPrintEngine::drawPixmap(const QRectF &r, const QPixmap &pm, const QRectF &sr) { Q_D(QPSPrintEngine); if (d->useAlphaEngine) { QAlphaPaintEngine::drawPixmap(r, pm, sr); if (!continueCall()) return; } QImage img = pm.copy(sr.toRect()).toImage(); drawImageInternal(r, img, true); } void QPSPrintEngine::drawTiledPixmap(const QRectF &r, const QPixmap &pixmap, const QPointF &p) { Q_D(QPSPrintEngine); if (d->useAlphaEngine) { QAlphaPaintEngine::drawTiledPixmap(r, pixmap, p); if (!continueCall()) return; } if (d->clipEnabled && d->allClipped) return; // ### Optimize implementation! qreal yPos = r.y(); qreal yOff = p.y(); while(yPos < r.y() + r.height()) { qreal drawH = pixmap.height() - yOff; // Cropping first row if (yPos + drawH > r.y() + r.height()) // Cropping last row drawH = r.y() + r.height() - yPos; qreal xPos = r.x(); qreal xOff = p.x(); while(xPos < r.x() + r.width()) { qreal drawW = pixmap.width() - xOff; // Cropping first column if (xPos + drawW > r.x() + r.width()) // Cropping last column drawW = r.x() + r.width() - xPos; // ######## painter()->drawPixmap(QPointF(xPos, yPos).toPoint(), pixmap, QRectF(xOff, yOff, drawW, drawH).toRect()); xPos += drawW; xOff = 0; } yPos += drawH; yOff = 0; } } bool QPSPrintEngine::newPage() { Q_D(QPSPrintEngine); if (!d->firstPage && d->useAlphaEngine) flushAndInit(); // we're writing to lp/lpr through a pipe, we don't want to crash with SIGPIPE // if lp/lpr dies ignoreSigPipe(true); if (!d->firstPage) d->flushPage(); d->firstPage = false; ignoreSigPipe(false); delete d->currentPage; d->currentPage = new QPdfPage; d->stroker.stream = d->currentPage; return QPdfBaseEngine::newPage(); } bool QPSPrintEngine::abort() { // ### abort!?! return false; } QPrinter::PrinterState QPSPrintEngine::printerState() const { Q_D(const QPSPrintEngine); return d->printerState; } QT_END_NAMESPACE #endif // QT_NO_PRINTER