#include "convertworker.h" #include #include "papersizes.h" #include "convertchecker.h" #include "mimer.h" #include #include #include void ppm2PwgEnv(QStringList& env, bool urf, quint32 Quality, QString PaperSize, quint32 HwResX, quint32 HwResY, bool TwoSided, bool Tumble, bool ForcePortrait, quint32 pages) { env.append("HWRES_X="+QString::number(HwResX)); env.append("HWRES_Y="+QString::number(HwResY)); if(urf) { env.append("URF=true"); } if(Quality >= 3 && Quality <= 5) { env.append("QUALITY="+QString::number(Quality)); } if(PaperSize != "") { env.append("PAGE_SIZE_NAME="+PaperSize); } env.append("DUPLEX="+QString::number(TwoSided)); env.append("TUMBLE="+QString::number(Tumble)); if(ForcePortrait) { env.append("FORCE_PORTRAIT=true"); } if(pages != 0) { env.append("PAGES="+QString::number(pages)); } } void ConvertWorker::convertPdf(QNetworkRequest request, QString filename, QTemporaryFile* tempfile, QString targetFormat, quint32 Colors, quint32 Quality, QString PaperSize, quint32 HwResX, quint32 HwResY, bool TwoSided, bool Tumble, quint32 PageRangeLow, quint32 PageRangeHigh) { quint32 pages = ConvertChecker::instance()->pdfPages(filename); if (!pages) { qDebug() << "pdfinfo returned 0 pages"; tempfile->deleteLater(); emit failed(tr("Failed to get info about PDF file")); } if(PageRangeLow==0) { PageRangeLow=1; } if(PageRangeHigh==0) { PageRangeHigh=pages; } // Actual number of pages to print pages = PageRangeHigh-PageRangeLow+1; qDebug() << "PageRangeLow" << PageRangeLow << "PageRangeHigh" << PageRangeHigh << "pages" << pages; bool urf = false; bool ps = false; bool pdf = false; if(targetFormat == Mimer::URF) { urf = true; } else if(targetFormat == Mimer::PWG) { //ok } else if(targetFormat == Mimer::Postscript) { ps = true; } else if (targetFormat == Mimer::PDF) { pdf = true; } else { tempfile->deleteLater(); emit failed(tr("Unsupported target format")); return; } if(urf && (HwResX != HwResY)) { // URF only supports symmetric resolutions qDebug() << "Unsupported URF resolution" << PaperSize; tempfile->deleteLater(); emit failed(tr("Unsupported resolution (dpi)")); return; } QString ShortPaperSize; if(PaperSize == "iso_a4_210x297mm") { ShortPaperSize = "A4"; } else if (PaperSize == "iso_a3_297x420mm") { ShortPaperSize = "A3"; } else if (PaperSize == "na_letter_8.5x11in") { ShortPaperSize = "letter"; } else if (PaperSize == "na_legal_8.5x14in") { ShortPaperSize = "legal"; } else { qDebug() << "Unsupported PDF paper size" << PaperSize; tempfile->deleteLater(); emit failed(tr("Unsupported PDF paper size")); return; } if(ps) { QProcess* pdftops = new QProcess(this); pdftops->setProgram("pdftops"); QStringList PdfToPsArgs; if(TwoSided) { PdfToPsArgs.append("-duplex"); } PdfToPsArgs << QStringList {"-f", QString::number(PageRangeLow), "-l", QString::number(PageRangeHigh)}; PdfToPsArgs << QStringList {"-paper", ShortPaperSize, filename, "-"}; qDebug() << "pdftops args is " << PdfToPsArgs; pdftops->setArguments(PdfToPsArgs); pdftops->setStandardOutputFile(tempfile->fileName(), QIODevice::Append); connect(pdftops, SIGNAL(finished(int, QProcess::ExitStatus)), pdftops, SLOT(deleteLater())); pdftops->start(); qDebug() << "Starting"; if(!pdftops->waitForStarted()) { qDebug() << "pdftops died"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } qDebug() << "Started"; if(!pdftops->waitForFinished(-1)) { qDebug() << "pdftops failed"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } } else if(pdf) { QProcess* pdftocairo = new QProcess(this); pdftocairo->setProgram("pdftocairo"); QStringList PdfToCairoArgs = {"-pdf"}; PdfToCairoArgs << QStringList {"-f", QString::number(PageRangeLow), "-l", QString::number(PageRangeHigh)}; PdfToCairoArgs << QStringList {"-paper", ShortPaperSize, filename, "-"}; qDebug() << "pdftocairo args is " << PdfToCairoArgs; pdftocairo->setArguments(PdfToCairoArgs); pdftocairo->setStandardOutputFile(tempfile->fileName(), QIODevice::Append); connect(pdftocairo, SIGNAL(finished(int, QProcess::ExitStatus)), pdftocairo, SLOT(deleteLater())); pdftocairo->start(); qDebug() << "Starting"; if(!pdftocairo->waitForStarted()) { qDebug() << "pdftocairo died"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } qDebug() << "Started"; if(!pdftocairo->waitForFinished(-1)) { qDebug() << "pdftocairo failed"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } } else { QProcess* pdftocairo = new QProcess(this); pdftocairo->setProgram("pdftocairo"); QStringList PdfToCairoArgs; PdfToCairoArgs << QStringList {"-f", QString::number(PageRangeLow), "-l", QString::number(PageRangeHigh)}; PdfToCairoArgs << QStringList {"-pdf", "-paper", ShortPaperSize, filename, "-"}; pdftocairo->setArguments(PdfToCairoArgs); QProcess* pdftoppm = new QProcess(this); pdftoppm->setProgram("pdftoppm"); QStringList Pdf2PpmArgs = {"-rx", QString::number(HwResX), "-ry", QString::number(HwResY)}; if(Colors == 1) { Pdf2PpmArgs.append("-gray"); } qDebug() << "pdf2ppm args is " << Pdf2PpmArgs; pdftoppm->setArguments(Pdf2PpmArgs); QProcess* ppm2pwg = new QProcess(this); // Yo dawg, I heard you like programs... ppm2pwg->setProgram("harbour-seaprint"); ppm2pwg->setArguments({"ppm2pwg"}); QStringList env; ppm2PwgEnv(env, urf, Quality, PaperSize, HwResX, HwResY, TwoSided, Tumble, true, pages); qDebug() << "ppm2pwg env is " << env; ppm2pwg->setEnvironment(env); pdftocairo->setStandardOutputProcess(pdftoppm); pdftoppm->setStandardOutputProcess(ppm2pwg); ppm2pwg->setStandardOutputFile(tempfile->fileName(), QIODevice::Append); connect(pdftocairo, SIGNAL(finished(int, QProcess::ExitStatus)), pdftocairo, SLOT(deleteLater())); connect(pdftoppm, SIGNAL(finished(int, QProcess::ExitStatus)), pdftoppm, SLOT(deleteLater())); connect(ppm2pwg, SIGNAL(finished(int, QProcess::ExitStatus)), ppm2pwg, SLOT(deleteLater())); qDebug() << "All connected"; pdftocairo->start(); pdftoppm->start(); ppm2pwg->start(); qDebug() << "Starting"; if(!pdftocairo->waitForStarted()) { qDebug() << "pdftocairo died"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } if(!pdftoppm->waitForStarted()) { qDebug() << "pdftoppm died"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } if(!ppm2pwg->waitForStarted()) { qDebug() << "ppm2pwg died"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } qDebug() << "All started"; bool ppm2pwgSuccess = false; for(;;) { if(ppm2pwg->waitForFinished(1000)) { ppm2pwgSuccess = true; break; } else { QList ppm2pwgOutput = ppm2pwg->readAllStandardError().split('\n'); for(QList::iterator it = ppm2pwgOutput.begin(); it != ppm2pwgOutput.end(); it++) { if(it->startsWith("Page")) { QList ppm2pwgTokens = it->split(' '); emit progress(ppm2pwgTokens.last().toInt()-1, pages); } } } } if(!ppm2pwgSuccess) { qDebug() << "ppm2pwg failed"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } } qDebug() << "Finished"; emit done(request, tempfile); qDebug() << "posted"; } void ConvertWorker::convertImage(QNetworkRequest request, QString filename, QTemporaryFile* tempfile, QString targetFormat, quint32 Colors, quint32 Quality, QString PaperSize, quint32 HwResX, quint32 HwResY) { bool urf = false; QString imageFormat = ""; QStringList supportedImageFormats = {Mimer::JPEG, Mimer::PNG}; if(targetFormat == Mimer::URF) { urf = true; } else if(targetFormat == Mimer::PWG) { //ok } else if(supportedImageFormats.contains(targetFormat)) { imageFormat = targetFormat.split("/")[1]; } else { tempfile->deleteLater(); emit failed(tr("Unsupported target format")); return; } if(urf && (HwResX != HwResY)) { // URF only supports symmetric resolutions qDebug() << "Unsupported URF resolution" << PaperSize; tempfile->deleteLater(); emit failed(tr("Unsupported resolution (dpi)")); return; } if(!PaperSizes.contains(PaperSize)) { qDebug() << "Unsupported paper size" << PaperSize; tempfile->deleteLater(); emit failed(tr("Unsupported paper size")); return; } QPair wh = PaperSizes[PaperSize]; quint32 Width = qRound(wh.first/25.4*HwResX); quint32 Height = qRound(wh.second/25.4*HwResY); qDebug() << "Size is" << Width << "x" << Height; QImage inImage; if(!inImage.load(filename)) { qDebug() << "failed to load"; tempfile->deleteLater(); emit failed(tr("Failed to load image")); return; } if(inImage.width() > inImage.height()) { inImage = inImage.transformed(QMatrix().rotate(90.0)); } inImage = inImage.scaled(Width, Height, Qt::KeepAspectRatio, Qt::SmoothTransformation); QImage outImage = QImage(Width, Height, inImage.format()); outImage.fill(Qt::white); QPainter painter(&outImage); int xOffset = (outImage.width()-inImage.width())/2; int yOffset = (outImage.height()-inImage.height())/2; painter.drawImage(xOffset, yOffset, inImage); painter.end(); if(imageFormat != "") { // We are converting to a supported image format QFile tempfileAsFile(tempfile->fileName()); tempfileAsFile.open(QIODevice::Append); outImage.save(&tempfileAsFile, imageFormat.toStdString().c_str()); tempfileAsFile.close(); } else { // We are converting to a raster format QProcess* ppm2pwg = new QProcess(this); // Yo dawg, I heard you like programs... ppm2pwg->setProgram("harbour-seaprint"); ppm2pwg->setArguments({"ppm2pwg"}); QStringList env; ppm2PwgEnv(env, urf, Quality, PaperSize, HwResX, HwResY, false, false, false, 0); qDebug() << "ppm2pwg env is " << env; ppm2pwg->setEnvironment(env); ppm2pwg->setStandardOutputFile(tempfile->fileName(), QIODevice::Append); connect(ppm2pwg, SIGNAL(finished(int, QProcess::ExitStatus)), ppm2pwg, SLOT(deleteLater())); qDebug() << "All connected"; ppm2pwg->start(); bool gray = Colors == 0 ? inImage.allGray() : Colors == 1; outImage.save(ppm2pwg, gray ? "pgm" : "ppm"); qDebug() << "Starting"; if(!ppm2pwg->waitForStarted()) { qDebug() << "ppm2pwg died"; tempfile->deleteLater(); emit failed(tr("Conversion error")); return; } qDebug() << "All started"; ppm2pwg->waitForFinished(); qDebug() << "Finished"; } emit done(request, tempfile); qDebug() << "posted"; }