#include "FuncRequest.h"
#include "FuncStatus.h"
#include "InsetIterator.h"
+#include "LaTeX.h"
#include "LaTeXFeatures.h"
-#include "Length.h"
#include "Lexer.h"
#include "MetricsInfo.h"
#include "Mover.h"
-#include "OutputParams.h"
#include "output_docbook.h"
#include "output_xhtml.h"
#include "xml.h"
#include "support/ExceptionMessage.h"
#include "support/filetools.h"
#include "support/gettext.h"
+#include "support/Length.h"
#include "support/lyxlib.h"
#include "support/lstrings.h"
#include "support/os.h"
#include "support/Systemcall.h"
#include <QProcess>
+#include <QtGui/QImage>
#include <algorithm>
#include <sstream>
string findTargetFormat(string const & format, OutputParams const & runparams)
{
// Are we latexing to DVI or PDF?
- if (runparams.flavor == OutputParams::PDFLATEX
- || runparams.flavor == OutputParams::XETEX
- || runparams.flavor == OutputParams::LUATEX) {
+ if (runparams.flavor == Flavor::PdfLaTeX
+ || runparams.flavor == Flavor::XeTeX
+ || runparams.flavor == Flavor::LuaTeX) {
LYXERR(Debug::GRAPHICS, "findTargetFormat: PDF mode");
Format const * const f = theFormats().getFormat(format);
// Convert vector graphics to pdf
return "png";
}
- // for HTML and DocBook, we leave the known formats and otherwise convert to png
- if (runparams.flavor == OutputParams::HTML || runparams.flavor == OutputParams::DOCBOOK5) {
+ // for HTML and DocBook, we leave the known formats and otherwise convert to png
+ if (runparams.flavor == Flavor::Html || runparams.flavor == Flavor::DocBook5) {
Format const * const f = theFormats().getFormat(format);
// Convert vector graphics to svg
if (f && f->vectorFormat() && theConverters().isReachable(format, "svg"))
void InsetGraphics::draw(PainterInfo & pi, int x, int y) const
{
- graphic_->draw(pi, x, y);
+ graphic_->draw(pi, x, y, params_.darkModeSensitive);
}
FileName const file(params().filename.absFileName());
- // No correction is necessary for a postscript image
+ // No correction is necessary for a vector image
bool const zipped = theFormats().isZippedFile(file);
FileName const unzipped_file = zipped ? unzipFile(file) : file;
string const format = theFormats().getFormatFromFile(unzipped_file);
if (zipped)
unzipped_file.removeFile();
- if (Formats::isPostScriptFileFormat(format))
+ if (theFormats().getFormat(format)->vectorFormat())
return;
// Get the actual image dimensions in pixels
height = image->height();
}
}
+ // Even if cached, the image is not loaded without GUI
+ if (width == 0 && height == 0) {
+ QImage image(toqstr(file.absFileName()));
+ width = image.width();
+ height = image.height();
+ }
if (width == 0 || height == 0)
return;
{
odocstringstream result;
switch (len.unit()) {
- case Length::SP: // Scaled point (65536sp = 1pt) TeX's smallest unit.
- result << len.value() * 65536.0 * 72 / 72.27 << "pt";
- break;
- case Length::PT: // Point = 1/72.27in = 0.351mm
- result << len.value() * 72 / 72.27 << "pt";
- break;
- case Length::BP: // Big point (72bp = 1in), also PostScript point
- result << len.value() << "pt";
- break;
- case Length::DD: // Didot point = 1/72 of a French inch, = 0.376mm
- result << len.value() * 0.376 << "mm";
- break;
- case Length::MM: // Millimeter = 2.845pt
- result << len.value() << "mm";
- break;
- case Length::PC: // Pica = 12pt = 4.218mm
- result << len.value() << "pc";
- break;
- case Length::CC: // Cicero = 12dd = 4.531mm
- result << len.value() * 4.531 << "mm";
- break;
- case Length::CM: // Centimeter = 10mm = 2.371pc
- result << len.value() << "cm";
- break;
- case Length::IN: // Inch = 25.4mm = 72.27pt = 6.022pc
- result << len.value() << "in";
- break;
- case Length::EX: // Height of a small "x" for the current font.
- // Obviously we have to compromise here. Any better ratio than 1.5 ?
- result << len.value() / 1.5 << "em";
- break;
- case Length::EM: // Width of capital "M" in current font.
- result << len.value() << "em";
- break;
- case Length::MU: // Math unit (18mu = 1em) for positioning in math mode
- result << len.value() * 18 << "em";
- break;
- case Length::PTW: // Percent of TextWidth
- case Length::PCW: // Percent of ColumnWidth
- case Length::PPW: // Percent of PageWidth
- case Length::PLW: // Percent of LineWidth
- case Length::PTH: // Percent of TextHeight
- case Length::PPH: // Percent of PaperHeight
- case Length::BLS: // Percent of BaselineSkip
- // Sigh, this will go wrong.
- result << len.value() << "%";
- break;
- default:
- result << len.asDocstring();
- break;
+ case Length::SP: // Scaled point (65536sp = 1pt) TeX's smallest unit.
+ result << len.value() * 65536.0 * 72 / 72.27 << "pt";
+ break;
+ case Length::PT: // Point = 1/72.27in = 0.351mm
+ result << len.value() * 72 / 72.27 << "pt";
+ break;
+ case Length::BP: // Big point (72bp = 1in), also PostScript point
+ result << len.value() << "pt";
+ break;
+ case Length::DD: // Didot point = 1/72 of a French inch, = 0.376mm
+ result << len.value() * 0.376 << "mm";
+ break;
+ case Length::MM: // Millimeter = 2.845pt
+ result << len.value() << "mm";
+ break;
+ case Length::PC: // Pica = 12pt = 4.218mm
+ result << len.value() << "pc";
+ break;
+ case Length::CC: // Cicero = 12dd = 4.531mm
+ result << len.value() * 4.531 << "mm";
+ break;
+ case Length::CM: // Centimeter = 10mm = 2.371pc
+ result << len.value() << "cm";
+ break;
+ case Length::IN: // Inch = 25.4mm = 72.27pt = 6.022pc
+ result << len.value() << "in";
+ break;
+ case Length::EX: // Height of a small "x" for the current font.
+ // Obviously we have to compromise here. Any better ratio than 1.5 ?
+ result << len.value() / 1.5 << "em";
+ break;
+ case Length::EM: // Width of capital "M" in current font.
+ result << len.value() << "em";
+ break;
+ case Length::MU: // Math unit (18mu = 1em) for positioning in math mode
+ result << len.value() * 18 << "em";
+ break;
+ case Length::PTW: // Percent of TextWidth
+ case Length::PCW: // Percent of ColumnWidth
+ case Length::PPW: // Percent of PageWidth
+ case Length::PLW: // Percent of LineWidth
+ case Length::PTH: // Percent of TextHeight
+ case Length::PPH: // Percent of PaperHeight
+ case Length::BLS: // Percent of BaselineSkip
+ // Sigh, this will go wrong.
+ result << len.value() << "%";
+ break;
+ default:
+ result << len.asDocstring();
+ break;
}
return result.str();
}
// stream since we copied the code from createLatexParams() ;-)
odocstringstream options;
- double const scl = convert<double>(params().scale);
+ auto const scl = convert<double>(params().scale);
if (!params().scale.empty() && !float_equal(scl, 0.0, 0.05)) {
if (!float_equal(scl, 100.0, 0.05))
options << " scale=\""
- << support::iround(scl)
- << "\" ";
+ << support::iround(scl)
+ << "\" ";
} else {
- if (!params().width.zero()) {
+ if (!params().width.zero())
options << " width=\"" << toDocbookLength(params().width) << "\" ";
- }
- if (!params().height.zero()) {
+ if (!params().height.zero())
options << " depth=\"" << toDocbookLength(params().height) << "\" ";
- }
- if (params().keepAspectRatio) {
+ if (params().keepAspectRatio)
// This will be irrelevant unless both width and height are set
options << "scalefit=\"1\" ";
- }
}
- if (!params().special.empty())
- options << from_ascii(params().special) << " ";
+ // TODO: parse params().special?
// trailing blanks are ok ...
return options.str();
if (rtrim(only_path, "/") == rtrim(dir, "/"))
return make_pair(IDENTICAL_PATHS, FileName(file_in));
- string mangled = file.mangledFileName();
+ string mangled = file.mangledFileName(empty_string(), false, true);
if (theFormats().isZippedFile(file)) {
// We need to change _eps.gz to .eps.gz. The mangled name is
// still unique because of the counter in mangledFileName().
}
// only show DVI-specific warning when export format is plain latex
if (!isValidDVIFileName(output_file)
- && runparams.flavor == OutputParams::LATEX) {
+ && runparams.flavor == Flavor::LaTeX) {
frontend::Alert::warning(_("Problematic filename for DVI"),
_("The following filename can cause troubles "
"when running the exported file through LaTeX "
if (from == to) {
// source and destination formats are the same
- if (!runparams.nice && !FileName(temp_file).hasExtension(ext)) {
+ if (!runparams.nice && !temp_file.hasExtension(ext)) {
// The LaTeX compiler will not be able to determine
// the file format from the extension, so we must
// change it.
bool const file_exists = !params().filename.empty()
&& params().filename.isReadableFile();
string message;
- if (!file_exists) {
+ // PDFLaTeX and Xe/LuaTeX fall back to draft themselves
+ // and error about it. For DVI/PS, we do something similar here.
+ // We also don't do such tricks when simply exporting a LaTeX file.
+ if (!file_exists && !runparams.nice && runparams.flavor == Flavor::LaTeX) {
+ TeXErrors terr;
+ ErrorList & errorList = buffer().errorList("Export");
+ docstring const s = params().filename.empty() ?
+ _("Graphic not specified. Falling back to `draft' mode.")
+ : bformat(_("Graphic `%1$s' was not found. Falling back to `draft' mode."),
+ params().filename.absoluteFilePath());
+ Paragraph const & par = buffer().paragraphs().front();
+ errorList.push_back(ErrorItem(_("Graphic not found!"), s,
+ {par.id(), 0}, {par.id(), -1}));
+ buffer().bufferErrors(terr, errorList);
if (params().bbox.empty())
message = "bb = 0 0 200 100";
if (!params().draft) {
if (!message.empty())
message += ", ";
message += "type=eps";
+ // If no existing file "filename" was found LaTeX
+ // draws only a rectangle with the above bb and the
+ // not found filename in it.
+ LYXERR(Debug::GRAPHICS, "\tMessage = \"" << message << '\"');
}
- // If no existing file "filename" was found LaTeX
- // draws only a rectangle with the above bb and the
- // not found filename in it.
- LYXERR(Debug::GRAPHICS, "\tMessage = \"" << message << '\"');
// These variables collect all the latex code that should be before and
// after the actual includegraphics command.
string after;
// Write the options if there are any.
- bool const ps = runparams.flavor == OutputParams::LATEX
- || runparams.flavor == OutputParams::DVILUATEX;
+ bool const ps = runparams.flavor == Flavor::LaTeX
+ || runparams.flavor == Flavor::DviLuaTeX;
string const opts = createLatexOptions(ps);
LYXERR(Debug::GRAPHICS, "\tOpts = " << opts);
// encoding!
docstring uncodable;
docstring encodable_file_path;
- for (size_type i = 0 ; i < file_path.size() ; ++i) {
- char_type c = file_path[i];
+ for (char_type c : file_path) {
try {
if (runparams.encoding->encodable(c))
encodable_file_path += c;
}
+CtObject InsetGraphics::getCtObject(OutputParams const &) const
+{
+ return CtObject::Object;
+}
+
+
docstring InsetGraphics::xhtml(XMLStream & xs, OutputParams const & op) const
{
string const output_file = op.dryrun ? string() : prepareHTMLFile(op);
void getGraphicsGroups(Buffer const & b, set<string> & ids)
{
- Inset & inset = b.inset();
- InsetIterator it = inset_iterator_begin(inset);
- InsetIterator const end = inset_iterator_end(inset);
- for (; it != end; ++it) {
- InsetGraphics const * ins = it->asInsetGraphics();
+ for (Inset const & it : b.inset()) {
+ InsetGraphics const * ins = it.asInsetGraphics();
if (!ins)
continue;
InsetGraphicsParams const & inspar = ins->getParams();
int n = 0;
if (groupId.empty())
return n;
- Inset & inset = b.inset();
- InsetIterator it = inset_iterator_begin(inset);
- InsetIterator const end = inset_iterator_end(inset);
- for (; it != end; ++it) {
- InsetGraphics const * ins = it->asInsetGraphics();
+ for (Inset const & it : b.inset()) {
+ InsetGraphics const * ins = it.asInsetGraphics();
if (!ins)
continue;
if (ins->getParams().groupId == groupId)
{
if (groupId.empty())
return string();
- Inset & inset = b.inset();
- InsetIterator it = inset_iterator_begin(inset);
- InsetIterator const end = inset_iterator_end(inset);
- for (; it != end; ++it) {
- InsetGraphics const * ins = it->asInsetGraphics();
+ for (Inset const & it : b.inset()) {
+ InsetGraphics const * ins = it.asInsetGraphics();
if (!ins)
continue;
InsetGraphicsParams const & inspar = ins->getParams();
// This handles undo groups automagically
UndoGroupHelper ugh(&b);
Inset & inset = b.inset();
- InsetIterator it = inset_iterator_begin(inset);
- InsetIterator const end = inset_iterator_end(inset);
- for (; it != end; ++it) {
+ InsetIterator it = begin(inset);
+ InsetIterator const itend = end(inset);
+ for (; it != itend; ++it) {
InsetGraphics * ins = it->asInsetGraphics();
if (!ins)
continue;