/** \example jkqtmathtext_render.cpp * A very basic example for the usage of JKQTMathText * * \ref JKQTMathTextRenderCmdLineTool */ #include #include #include #include #include #include #include #include #include #include #if (QT_VERSION>=QT_VERSION_CHECK(6, 0, 0)) #include #include #else #include #endif #include "jkqtmathtext/jkqtmathtextlabel.h" #include "jkqtcommon/jkqtpstringtools.h" #include "jkqtmathtext/nodes/jkqtmathtextsymbolnode.h" #include void processFont(const QString font, QStringList& fonts, QString& mathFont) { fonts.clear(); mathFont=""; QString current=""; bool isExtra=false; for (int i=0; i0) { fonts.append(current); } } int main(int argc, char* argv[]) { // 1. create Qt Appcilation object and a QCommandLineParser to go with it QApplication app(argc, argv); QCommandLineParser parser; parser.setApplicationDescription("JKQTMathText command line tool that renders LaTeX markup into an image"); parser.addHelpOption(); parser.addVersionOption(); parser.addPositionalArgument("latex", "LaTeX markup to be rendered"); parser.addPositionalArgument("output", "output image file (extensions determines file type)"); QCommandLineOption inputfileOption("inputfile", "read from a file instead of from command line.", "inputfile", ""); parser.addOption(inputfileOption); QCommandLineOption outputDirectoryOption("outputdir", "write results into this directory.", "outputdir", app.applicationDirPath()); parser.addOption(outputDirectoryOption); QCommandLineOption listsymbolsOption("listsymbols", "list all symbols in the given output file and generate images.", "listsymbols", ""); parser.addOption(listsymbolsOption); QCommandLineOption drawBoxesOption(QStringList()<<"drawboxes"<<"showboxes", "draw boxes."); parser.addOption(drawBoxesOption); QCommandLineOption verboseOption("verbose", "verbose output."); parser.addOption(verboseOption); QCommandLineOption fontOption("font", "font( size)s) to use.", "font", "XITS"); parser.addOption(fontOption); QCommandLineOption fontsizeOption("fontsize", "font size.", "fontsize", "12"); parser.addOption(fontsizeOption); QCommandLineOption fontRomanOption("fontroman", "set the text-mode roman font to use.", "fontroman", ""); parser.addOption(fontRomanOption); QCommandLineOption fontSansOption("fontsans", "set the text-mode sans font to use.", "fontsans", ""); parser.addOption(fontSansOption); QCommandLineOption fontMathRomanOption("fontmathroman", "set the math-mode roman font to use.", "fontmathroman", ""); parser.addOption(fontMathRomanOption); QCommandLineOption fontMathSansOption("fontmathsans", "set the math-mode sans font to use.", "fontmathsans", ""); parser.addOption(fontMathSansOption); QCommandLineOption fontFallbackSymbolOption("fontfallbacksymbol", "set the fallback symbol font to use.", "fontfallbacksymbol", ""); parser.addOption(fontFallbackSymbolOption); QCommandLineOption fontFallbackSymbol_symbolencodingOption("fontfallbacksymbol_symbolencoding", "set the fallback symbol font to use and use the encoding of the MS Symbol font for it.", "fontfallbacksymbol_symbolencoding", ""); parser.addOption(fontFallbackSymbol_symbolencodingOption); QCommandLineOption fontTypewriterOption("fonttypewriter", "set the typewriter font to use.", "fonttypewriter", ""); parser.addOption(fontTypewriterOption); QCommandLineOption fontScriptOption("fontscript", "set the Script font to use.", "fontscript", ""); parser.addOption(fontScriptOption); QCommandLineOption fontFrakturOption("fontfraktur", "set the Fraktur font to use.", "fontfraktur", ""); parser.addOption(fontFrakturOption); QCommandLineOption fontcaligraphicOption("fontcaligraphic", "set the caligraphic font to use.", "fontcaligraphic", ""); parser.addOption(fontcaligraphicOption); QCommandLineOption fontblackboardOption("fontblackboard", "set the blackboard font to use.", "fontblackboard", ""); parser.addOption(fontblackboardOption); QCommandLineOption fontblackboardmodeOption("fontblackboardmode", "set the usage mode for the blackboard font.", "fontblackboardmode", "default"); parser.addOption(fontblackboardmodeOption); QCommandLineOption textcolorOption("textcolor", "set the color of the text.", "textcolor", "black"); parser.addOption(textcolorOption); QCommandLineOption sizeincreaseOption("sizeincrease", "additional pixels around output.", "sizeincrease", "2"); parser.addOption(sizeincreaseOption); QCommandLineOption resolutionOption("resolution", "set output image resolution in DPI.", "resolution", "96"); parser.addOption(resolutionOption); QCommandLineOption backgroundOption("background", "background color.", "background", "white"); parser.addOption(backgroundOption); parser.process(app); const QStringList args = parser.positionalArguments(); const QString latex_cmdline=args.value(0, "$x_{1/2}=\\frac{-b\\pm\\sqrt{b^2-4ac}}{2a}$"); const QDir outputDir(parser.value(outputDirectoryOption)); const QString outputFilename_cmdline=outputDir.absoluteFilePath(args.value(1, "output.png")); const QString inputfile=parser.value(inputfileOption); const QString listsymbols=parser.value(listsymbolsOption); const bool verbose = parser.isSet(verboseOption); QStringList latex, outputFilename; QList> cmdoptions; if (listsymbols.size()>0) { //std::cout<<"LISTSYMBOLS: "< symbolsRemaining; for (const QString& s: symbolsAll) symbolsRemaining.insert(s); std::sort(symbolsAll.begin(), symbolsAll.end(), [](const QString& a, const QString& b) { const QString al=a.toLower(); const QString bl=b.toLower(); if (al==bl) { return a\n"; fileList<<" \n"; for (const QString& gletter: greekLetterNames) { QString code=""; for (const QString& symbol: symbolsAll) { if (symbol.size()>0 && (symbol.toLower()==gletter || symbol.toLower()=="var"+gletter) && symbol[0].isLetter()) { code+="\\"+symbol+"\\;"; symbolsRemaining.remove(symbol); } } for (const QString& symbol: symbolsAll) { if (symbol.size()>0 && (symbol.toLower()=="up"+gletter || symbol.toLower()=="upvar"+gletter) && symbol[0].isLetter()) { code+="\\"+symbol+"\\;"; symbolsRemaining.remove(symbol); } } for (const QString& symbol: symbolsAll) { if (symbol.size()>0 && (symbol.toLower()=="text"+gletter || symbol.toLower()=="textvar"+gletter) && symbol[0].isLetter()) { code+="\\"+symbol+"\\;"; symbolsRemaining.remove(symbol); } } QString symbol_lower; for (const QChar& ch: gletter) { if (ch.isUpper()) symbol_lower+=QString(2, ch).toLower(); else symbol_lower+=ch; } latex.append(code+"\\vphantom{Iq}"); outputFilename.append("jkqtmathtext_greek_"+symbol_lower+".png"); cmdoptions.append(QMap()); //std::cout<<" - "<"<:\n \\image html jkqtmathtext/symbols/"<\n \n"; //} i++; } fileList<<" "; fileList<<" \n\n\n"; fileList<<" \\section jkqtmathtext_supportedlatexsymbols_arrows Arrows\n"; fileList<<" The following table lists all arrow-typed symbols available in JKQTMathParser. They are defined in the node-class JKQTMathTextSymbolNode:\n"; fileList<<" \n"; fileList<<" \n"; i=1; std::sort(symbolsAll.begin(), symbolsAll.end(), [](const QString& a, const QString& b) { if (a.contains("harpoon") && !b.contains("harpoon")) return false; else if (a.isLower() && b.isUpper()) return true; else if (a.isUpper() && b.isLower()) return false; else return a0 && symbol.toLower().contains(arrow) && symbol[0].isLetter()) { symbolsRemaining.remove(symbol); QString symbol_lower; for (const QChar& ch: symbol) { if (ch.isUpper()) symbol_lower+=QString(2, ch).toLower(); else symbol_lower+=ch; } latex.append("\\"+symbol+"\\vphantom{Iq}"); outputFilename.append("jkqtmathtext_symbols_"+symbol_lower+".png"); cmdoptions.append(QMap()); fileList<<" \n"; } i++; } } } fileList<<" "; fileList<<"
\\\\"<:\n \\image html jkqtmathtext/symbols/"<\n
\n\n\n"; std::sort(symbolsAll.begin(), symbolsAll.end(), [](const QString& a, const QString& b) { const QString al=a.toLower(); const QString bl=b.toLower(); if (al==bl) { return a\n"; fileList<<" \n"; i=1; { for (const QString& symbol: symbolsAll) { if (symbol.size()>0 && JKQTMathTextSymbolNode::isSubSuperscriptBelowAboveSymbol(symbol) && symbol[0].isLetter()) { symbolsRemaining.remove(symbol); QString symbol_lower; for (const QChar& ch: symbol) { if (ch.isUpper()) symbol_lower+=QString(2, ch).toLower(); else symbol_lower+=ch; } static QSet specialSymbols=QSet()<<"lim"<<"liminf"<<"limsup"<<"arg"<<"argmin"<<"argmax"; if (JKQTMathTextSymbolNode::getSymbolLength(symbol)>1 && !specialSymbols.contains(symbol)) { latex.append("$\\"+symbol+"(\\cdot)$\\vphantom{Iq}"); } else { if (JKQTMathTextSymbolNode::getSymbolLength(symbol)>1) { latex.append("$\\"+symbol+"\\limits_{x\\rightarrow\\infty}f(x)$\\vphantom{Iq}"); } else { latex.append("$\\"+symbol+"\\limits_{x=0}^\\infty$\\vphantom{Iq}f(x)"); } } outputFilename.append("jkqtmathtext_symbols_"+symbol_lower+".png"); cmdoptions.append(QMap()); fileList<<" \\\\"<:\n \\image html jkqtmathtext/symbols/"<\n \n"; } i++; } } } fileList<<" "; fileList<<" \n\n\n"; fileList<<" \\section jkqtmathtext_supportedlatexsymbols_mathspecialfunctions Math Special Functions\n"; fileList<<" The following table lists all remaining math-operator symbols like available in JKQTMathParser. They are defined in the node-class JKQTMathTextSymbolNode:\n"; fileList<<" \n"; fileList<<" \n"; i=1; { for (const QString& symbol: symbolsAll) { if (symbol.size()>0 && symbolsRemaining.contains(symbol) && JKQTMathTextSymbolNode::isExtendedWidthSymbol(symbol) && JKQTMathTextSymbolNode::getSymbolLength(symbol)>1 && symbol[0].isLetter()) { symbolsRemaining.remove(symbol); QString symbol_lower; for (const QChar& ch: symbol) { if (ch.isUpper()) symbol_lower+=QString(2, ch).toLower(); else symbol_lower+=ch; } latex.append("$\\"+symbol+"(\\cdot)$\\vphantom{Iq}"); outputFilename.append("jkqtmathtext_symbols_"+symbol_lower+".png"); cmdoptions.append(QMap()); fileList<<" \n"; } i++; } } } fileList<<" "; fileList<<"
\\\\"<:\n \\image html jkqtmathtext/symbols/"<\n
\n\n\n"; fileList<<" \\section jkqtmathtext_supportedlatexsymbols_other Other Symbols\n"; fileList<<" The following table lists all other symbols that are available in JKQTMathParser. They are defined in the node-class JKQTMathTextSymbolNode:\n"; fileList<<" \n"; fileList<<" \n"; i=1; QStringList symbolsRemainingL; for (const QString& s: symbolsRemaining) symbolsRemainingL.append(s); std::sort(symbolsRemainingL.begin(), symbolsRemainingL.end(), [](const QString& a, const QString& b) { const QString al=a.toLower(); const QString bl=b.toLower(); if (al==bl) { return a0 && symbol[0].isLetter()) { QString symbol_lower; for (const QChar& ch: symbol) { if (ch.isUpper()) symbol_lower+=QString(2, ch).toLower(); else symbol_lower+=ch; } const QString code="\\"+symbol+"\\vphantom{Iq}"; const QString filename="jkqtmathtext_symbols_"+symbol_lower+".png"; if (!latex.contains(code) || !outputFilename.contains(filename)) { latex.append(code); outputFilename.append(filename); cmdoptions.append(QMap()); } fileList<<" \n"; } i++; } } fileList<<" "; fileList<<"
\\\\"<:\n \\image html jkqtmathtext/symbols/"<\n
\n"; fileList<<"*/\n"; } } else if (inputfile.size()>0){ QFile f(inputfile); if (f.open(QFile::ReadOnly|QFile::Text)) { QString currentOutFile=""; QString currentLatex=""; QMap currentOptions; bool isFile=true; bool beforeLatex=true; while (!f.atEnd()) { const QString line=f.readLine().trimmed(); const QString line_simple=line.simplified(); if (line_simple=="---" || line_simple=="###") { if (currentOutFile.size()>0) { outputFilename.append(currentOutFile); latex.append(currentLatex); cmdoptions.append(currentOptions); isFile=true; beforeLatex=true; currentLatex=""; currentOutFile=""; currentOptions.clear(); } } else if (isFile) { currentOutFile=line; isFile=false; } else if (beforeLatex) { if (line.startsWith("--")) { QStringList commands=line.right(line.size()-2).split("--"); for (QString cmd: commands) { cmd=cmd.trimmed(); QString cmdn="", param=""; bool iscmd=true; for (const QChar& ch: cmd) { if (iscmd) { if (ch=='=') { iscmd=false; } else { cmdn+=ch; } } else { param+=ch; } } currentOptions[cmdn.trimmed()]=param.trimmed(); } } else { if (currentLatex.size()>0) currentLatex+="\n"; currentLatex+=line; } beforeLatex=false; } else { if (currentLatex.size()>0) currentLatex+="\n"; currentLatex+=line; } } f.close(); if (currentOutFile.size()>0) { outputFilename.append(currentOutFile); latex.append(currentLatex); cmdoptions.append(currentOptions); } } } else { latex.append(latex_cmdline); outputFilename.append(outputFilename_cmdline); cmdoptions.append(QMap()); } if (verbose) { std::cout <<"===========================================================\n" <<"= jkqtmathtext_render: "; if (inputfile.size()>0) std::cout<<"FILE-MODE (read from "<0) std::cout<<"LIST-SYMBOLS-MODE (store to "<0 && verbose) { std::cout<<"\n+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++\n" <<"+ processing entry "<<(i+1)<<"/"<0) { std::cout<<"+ additional command-line options: "; for (const QString& key: cmdoptions[i].keys()) { std::cout<<" --"<0) { for (const QString& key: cmdoptions[i].keys()) { if (key=="drawboxes" || key=="showboxes") drawBoxes=true; else if (key=="fontsize") fontsize=cmdoptions[i].value(key).toDouble(); else if (key=="sizeincrease") sizeincrease=cmdoptions[i].value(key).toInt(); else if (key=="background") backgroundColor=jkqtp_String2QColor(cmdoptions[i].value(key)); else if (key=="textcolor") textColor=jkqtp_String2QColor(cmdoptions[i].value(key)); else if (key=="fontblackboard") fontBlackboard=cmdoptions[i].value(key); else if (key=="font") processFont(cmdoptions[i].value(key), fonts, mathFont); else if (key=="fontroman") fontRoman=cmdoptions[i].value(key); else if (key=="fontsans") fontSans=cmdoptions[i].value(key); else if (key=="fontmathroman") fontMathRoman=cmdoptions[i].value(key); else if (key=="fontmathsans") fontMathSans=cmdoptions[i].value(key); else if (key=="fonttypewriter") fontTypewriter=cmdoptions[i].value(key); else if (key=="fontfallbacksymbol") fontFallbackSymbol=cmdoptions[i].value(key); else if (key=="fontfallbacksymbol_symbolencoding") fontFallbackSymbol_symbolencoding=cmdoptions[i].value(key); else if (key=="fontscript") fontScript=cmdoptions[i].value(key); else if (key=="fontcaligraphic") fontCaligraphic=cmdoptions[i].value(key); else if (key=="fontfraktur") fontFraktur=cmdoptions[i].value(key); else if (key=="fontblackboardmode") fontBlackboardMode=String2JKQTMathTextBlackboradDrawingMode(cmdoptions[i].value(key)); else { std::cerr<<"unknown command-line option --"<0) mathText.setFontRoman(fontRoman, MTFEUnicode); if (fontSans.size()>0) mathText.setFontSans(fontSans, MTFEUnicode); if (fontMathRoman.size()>0) { if (fontMathRoman.toUpper()=="XITS") mathText.useXITS(true); else if (fontMathRoman.toUpper()=="STIX") mathText.useSTIX(true); else if (fontMathRoman.toUpper()=="ASANA") mathText.useASANA(true); else mathText.setFontMathRoman(fontMathRoman, MTFEUnicode); } if (fontMathSans.size()>0) mathText.setFontMathSans(fontMathSans, MTFEUnicode); if (fontTypewriter.size()>0) mathText.setFontTypewriter(fontTypewriter, MTFEUnicode); if (fontScript.size()>0) mathText.setFontScript(fontScript, MTFEUnicode); if (fontCaligraphic.size()>0) mathText.setFontCaligraphic(fontCaligraphic, MTFEUnicode); if (fontFraktur.size()>0) mathText.setFontFraktur(fontFraktur, MTFEUnicode); if (fontFallbackSymbol.size()>0) mathText.setFallbackFontSymbols(fontFallbackSymbol, MTFEUnicode); if (fontFallbackSymbol_symbolencoding.size()>0) mathText.setFallbackFontSymbols(fontFallbackSymbol_symbolencoding, MTFEWinSymbol); if (fontBlackboard.size()>0) { mathText.setFontBlackboard(fontBlackboard, MTFEUnicode); } mathText.setFontBlackboradMode(fontBlackboardMode); mathText.setFontSize(fontsize); mathText.setFontColor(textColor); // 3. now we parse some LaTeX code QElapsedTimer timer; timer.start(); mathText.parse(latex[i]); const double durParseMS=static_cast(timer.nsecsElapsed())/1.0e6; if (mathText.hadErrors()) { std::cerr<<"ERRORS while parsing LaTeX:\n" <<"-----------------------------------------------------------\n" <(timer.nsecsElapsed())/1.0e6; if (verbose) std::cout<<"rendering into QImage "<(QFileInfo(outname).size())/1024.0<<"kBytes\n"; } } return EXIT_SUCCESS; }