lyx_mirror/src/BufferEncodings.cpp

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/**
* \file BufferEncodings.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Lars Gullik Bjønnes
* \author Jean-Marc Lasgouttes
* \author Dekel Tsur
* \author Stephan Witt
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "BufferEncodings.h"
#include "Buffer.h"
#include "InsetIterator.h"
#include "LaTeXFeatures.h"
#include "support/lstrings.h"
using namespace std;
using namespace lyx::support;
namespace lyx {
void BufferEncodings::initUnicodeMath(Buffer const & buffer, bool for_master)
{
if (for_master) {
mathcmd.clear();
textcmd.clear();
mathsym.clear();
}
// Check this buffer
Inset & inset = buffer.inset();
InsetIterator it = inset_iterator_begin(inset);
InsetIterator const end = inset_iterator_end(inset);
for (; it != end; ++it)
it->initUnicodeMath();
if (!for_master)
return;
// Check children
ListOfBuffers blist = buffer.getDescendents();
ListOfBuffers::const_iterator bit = blist.begin();
ListOfBuffers::const_iterator const bend = blist.end();
for (; bit != bend; ++bit)
initUnicodeMath(**bit, false);
}
void BufferEncodings::validate(char_type c, LaTeXFeatures & features, bool for_mathed)
{
CharInfo const & ci = Encodings::unicodeCharInfo(c);
if (ci.isUnicodeSymbol()) {
// In mathed, c could be used both in textmode and mathmode
docstring const textcommand = ci.textcommand();
bool const math_mode = for_mathed && isMathCmd(c);
bool const use_math = math_mode ||
(!for_mathed && textcommand.empty());
bool const use_text = (for_mathed && isTextCmd(c)) ||
(!for_mathed && !textcommand.empty());
bool const plain_utf8 = (features.runparams().encoding->name() == "utf8-plain");
bool const unicode_math = (features.isRequired("unicode-math")
&& features.isAvailable("unicode-math"));
// with utf8-plain, we only load packages when in mathed (see #7766)
// and if we do not use unicode-math
if ((math_mode && !unicode_math)
|| (use_math && !plain_utf8)) {
string const mathpreamble = ci.mathpreamble();
if (!mathpreamble.empty()) {
if (ci.mathfeature()) {
string feats = mathpreamble;
while (!feats.empty()) {
string feat;
feats = split(feats, feat, ',');
features.require(feat);
}
} else
features.addPreambleSnippet(mathpreamble);
}
}
// with utf8-plain, we do not load packages (see #7766)
if (use_text && !plain_utf8) {
string const textpreamble = ci.textpreamble();
if (!textpreamble.empty()) {
if (ci.textfeature()) {
string feats = textpreamble;
while (!feats.empty()) {
string feat;
feats = split(feats, feat, ',');
features.require(feat);
}
} else
features.addPreambleSnippet(textpreamble);
}
}
}
if (for_mathed && isMathSym(c)) {
features.require("amstext");
features.require("lyxmathsym");
}
}
} // namespace lyx