//
// Strings used to write LaTeX files
//
-char const * LaTeXFamilyNames[NUM_FAMILIES + 2] =
+char const * LaTeXFamilyCommandNames[NUM_FAMILIES + 2] =
{ "textrm", "textsf", "texttt", "error1", "error2", "error3", "error4",
"error5", "error6", "error7", "error8", "error9", "error10", "error11",
- "error12", "error13" };
+ "error12", "error13", "error14" };
-char const * LaTeXSeriesNames[NUM_SERIES + 2] =
+char const * LaTeXFamilySwitchNames[NUM_FAMILIES + 2] =
+{ "rmfamily", "sffamily", "ttfamily", "error1", "error2", "error3", "error4",
+ "error5", "error6", "error7", "error8", "error9", "error10", "error11",
+ "error12", "error13", "error14" };
+
+char const * LaTeXSeriesCommandNames[NUM_SERIES + 2] =
{ "textmd", "textbf", "error4", "error5" };
-char const * LaTeXShapeNames[NUM_SHAPE + 2] =
+char const * LaTeXSeriesSwitchNames[NUM_SERIES + 2] =
+{ "mdseries", "bfseries", "error4", "error5" };
+
+char const * LaTeXShapeCommandNames[NUM_SHAPE + 2] =
{ "textup", "textit", "textsl", "textsc", "error6", "error7" };
-char const * LaTeXSizeNames[NUM_SIZE + 4] =
+char const * LaTeXShapeSwitchNames[NUM_SHAPE + 2] =
+{ "upshape", "itshape", "slshape", "scshape", "error6", "error7" };
+
+char const * LaTeXSizeSwitchNames[NUM_SIZE + 4] =
{ "tiny", "scriptsize", "footnotesize", "small", "normalsize", "large",
"Large", "LARGE", "huge", "Huge", "error8", "error9", "error10", "error11" };
// Returns size in latex format
string const Font::latexSize() const
{
- return LaTeXSizeNames[bits_.size()];
+ return LaTeXSizeSwitchNames[bits_.size()];
}
/// Writes the head of the LaTeX needed to impose this font
// Returns number of chars written.
-int Font::latexWriteStartChanges(odocstream & os, BufferParams const & bparams,
+int Font::latexWriteStartChanges(otexstream & os, BufferParams const & bparams,
OutputParams const & runparams,
Font const & base,
- Font const & prev) const
+ Font const & prev,
+ bool const & non_inherit_inset) const
{
- bool env = false;
-
int count = 0;
// polyglossia or babel?
&& language() != prev.language()) {
if (!language()->polyglossia().empty()) {
string tmp = "\\text" + language()->polyglossia();
- if (!language()->polyglossiaOpts().empty())
+ if (!language()->polyglossiaOpts().empty()) {
tmp += "[" + language()->polyglossiaOpts() + "]";
+ if (runparams.use_hyperref && runparams.moving_arg)
+ // We need to strip the command for
+ // the pdf string, see #11813
+ tmp = "\\texorpdfstring{" + tmp + "}{}";
+ }
tmp += "{";
os << from_ascii(tmp);
count += tmp.length();
}
if (language()->encoding()->package() == Encoding::CJK) {
- pair<bool, int> const c = switchEncoding(os, bparams,
+ pair<bool, int> const c = switchEncoding(os.os(), bparams,
runparams, *(language()->encoding()));
if (c.first) {
open_encoding_ = true;
FontInfo p = bits_;
p.reduce(prev.bits_);
- if (f.family() != INHERIT_FAMILY) {
+ if (f.size() != INHERIT_SIZE) {
+ os << '{';
+ ++count;
os << '\\'
- << LaTeXFamilyNames[f.family()]
- << '{';
- count += strlen(LaTeXFamilyNames[f.family()]) + 2;
- env = true; //We have opened a new environment
+ << LaTeXSizeSwitchNames[f.size()] << termcmd;
+ count += strlen(LaTeXSizeSwitchNames[f.size()]) + 1;
+ }
+ if (f.family() != INHERIT_FAMILY) {
+ if (non_inherit_inset) {
+ os << '{';
+ ++count;
+ os << '\\' << LaTeXFamilySwitchNames[f.family()] << termcmd;
+ count += strlen(LaTeXFamilySwitchNames[f.family()]) + 1;
+ } else {
+ os << '\\'
+ << LaTeXFamilyCommandNames[f.family()]
+ << '{';
+ count += strlen(LaTeXFamilyCommandNames[f.family()]) + 2;
+ }
}
if (f.series() != INHERIT_SERIES) {
- os << '\\'
- << LaTeXSeriesNames[f.series()]
- << '{';
- count += strlen(LaTeXSeriesNames[f.series()]) + 2;
- env = true; //We have opened a new environment
+ if (non_inherit_inset) {
+ os << '{';
+ ++count;
+ os << '\\' << LaTeXSeriesSwitchNames[f.series()] << termcmd;
+ count += strlen(LaTeXSeriesSwitchNames[f.series()]) + 1;
+ } else {
+ os << '\\'
+ << LaTeXSeriesCommandNames[f.series()]
+ << '{';
+ count += strlen(LaTeXSeriesCommandNames[f.series()]) + 2;
+ }
}
if (f.shape() != INHERIT_SHAPE) {
- os << '\\'
- << LaTeXShapeNames[f.shape()]
- << '{';
- count += strlen(LaTeXShapeNames[f.shape()]) + 2;
- env = true; //We have opened a new environment
+ if (non_inherit_inset) {
+ os << '{';
+ ++count;
+ os << '\\' << LaTeXShapeSwitchNames[f.shape()] << termcmd;
+ count += strlen(LaTeXShapeSwitchNames[f.shape()]) + 1;
+ } else {
+ os << '\\'
+ << LaTeXShapeCommandNames[f.shape()]
+ << '{';
+ count += strlen(LaTeXShapeCommandNames[f.shape()]) + 2;
+ }
}
if (f.color() != Color_inherit && f.color() != Color_ignore) {
if (f.color() == Color_none && p.color() != Color_none) {
<< "}{";
count += lcolor.getLaTeXName(f.color()).length() + 13;
}
- env = true; //We have opened a new environment
}
// FIXME: uncomment this when we support background.
/*
if (f.emph() == FONT_ON) {
os << "\\emph{";
count += 6;
- env = true; //We have opened a new environment
}
// \noun{} is a LyX special macro
if (f.noun() == FONT_ON) {
os << "\\noun{";
count += 6;
- env = true; //We have opened a new environment
- }
- if (f.size() != INHERIT_SIZE) {
- // If we didn't open an environment above, we open one here
- if (!env) {
- os << '{';
- ++count;
- }
- os << '\\'
- << LaTeXSizeNames[f.size()]
- << "{}";
- count += strlen(LaTeXSizeNames[f.size()]) + 3;
}
// The ulem commands need to be on the deepest nesting level
// because ulem puts every nested group or macro in a box,
Font const & base,
Font const & next,
bool & needPar,
- bool const & closeLanguage) const
+ bool const & closeLanguage,
+ bool const & non_inherit_inset) const
{
int count = 0;
- bool env = false;
// reduce the current font to changes against the base
// font (of the layout). We use a temporary for this to
FontInfo f = bits_;
f.reduce(base.bits_);
- if (f.family() != INHERIT_FAMILY) {
+ if (f.family() != INHERIT_FAMILY && !non_inherit_inset) {
os << '}';
++count;
- env = true; // Size change need not bother about closing env.
}
- if (f.series() != INHERIT_SERIES) {
+ if (f.series() != INHERIT_SERIES && !non_inherit_inset) {
os << '}';
++count;
- env = true; // Size change need not bother about closing env.
}
- if (f.shape() != INHERIT_SHAPE) {
+ if (f.shape() != INHERIT_SHAPE && !non_inherit_inset) {
os << '}';
++count;
- env = true; // Size change need not bother about closing env.
}
if (f.color() != Color_inherit && f.color() != Color_ignore && f.color() != Color_none) {
os << '}';
++count;
- env = true; // Size change need not bother about closing env.
}
if (f.emph() == FONT_ON) {
os << '}';
++count;
- env = true; // Size change need not bother about closing env.
}
if (f.noun() == FONT_ON) {
os << '}';
++count;
- env = true; // Size change need not bother about closing env.
}
if (f.size() != INHERIT_SIZE) {
- // We only have to close if only size changed
- if (!env) {
+ // We do not close size group in front of
+ // insets with InheritFont() false (as opposed
+ // to all other font properties) (#8384)
+ if (!non_inherit_inset) {
if (needPar && !closeLanguage) {
os << "\\par";
count += 4;