lyx_mirror/src/mathed/MathStream.cpp

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/**
* \file MathStream.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author André Pönitz
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "MathStream.h"
#include "MathFactory.h"
#include "MathData.h"
#include "MathExtern.h"
#include "TexRow.h"
#include "support/docstring.h"
#include "support/RefChanger.h"
#include "support/textutils.h"
#include <algorithm>
#include <cstring>
#include <ostream>
using namespace std;
namespace lyx {
//////////////////////////////////////////////////////////////////////
NormalStream & operator<<(NormalStream & ns, MathAtom const & at)
{
at->normalize(ns);
return ns;
}
NormalStream & operator<<(NormalStream & ns, MathData const & ar)
{
normalize(ar, ns);
return ns;
}
NormalStream & operator<<(NormalStream & ns, docstring const & s)
{
ns.os() << s;
return ns;
}
NormalStream & operator<<(NormalStream & ns, const string & s)
{
ns.os() << from_utf8(s);
return ns;
}
NormalStream & operator<<(NormalStream & ns, char const * s)
{
ns.os() << s;
return ns;
}
NormalStream & operator<<(NormalStream & ns, char c)
{
ns.os() << c;
return ns;
}
NormalStream & operator<<(NormalStream & ns, int i)
{
ns.os() << i;
return ns;
}
/////////////////////////////////////////////////////////////////
WriteStream & operator<<(WriteStream & ws, docstring const & s)
{
// Skip leading '\n' if we had already output a newline char
size_t const first =
(s.length() > 0 && (s[0] != '\n' || ws.canBreakLine())) ? 0 : 1;
// Check whether there's something to output
if (s.length() <= first)
return ws;
if (ws.pendingBrace()) {
ws.os() << '}';
ws.pendingBrace(false);
ws.pendingSpace(false);
ws.textMode(true);
} else if (ws.pendingSpace()) {
if (isAlphaASCII(s[first]))
ws.os() << ' ';
else if (s[first] == ' ' && ws.textMode())
ws.os() << '\\';
ws.pendingSpace(false);
}
ws.os() << s.substr(first);
int lf = 0;
char_type lastchar = 0;
docstring::const_iterator dit = s.begin() + first;
docstring::const_iterator end = s.end();
for (; dit != end; ++dit) {
lastchar = *dit;
if (lastchar == '\n')
++lf;
}
ws.addlines(lf);
ws.canBreakLine(lastchar != '\n');
return ws;
}
WriteStream::WriteStream(otexrowstream & os, bool fragile, bool latex,
OutputType output, Encoding const * encoding)
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: os_(os), fragile_(fragile), firstitem_(false), latex_(latex),
output_(output), pendingspace_(false), pendingbrace_(false),
textmode_(false), locked_(0), ascii_(0), canbreakline_(true),
mathsout_(false), ulemcmd_(NONE), line_(0), encoding_(encoding),
row_entry_(TexRow::row_none)
{}
WriteStream::~WriteStream()
{
if (pendingbrace_)
os_ << '}';
else if (pendingspace_)
os_ << ' ';
}
void WriteStream::addlines(unsigned int n)
{
line_ += n;
}
void WriteStream::pendingSpace(bool how)
{
pendingspace_ = how;
}
void WriteStream::pendingBrace(bool brace)
{
pendingbrace_ = brace;
}
void WriteStream::textMode(bool textmode)
{
textmode_ = textmode;
}
void WriteStream::lockedMode(bool locked)
{
locked_ = locked;
}
void WriteStream::asciiOnly(bool ascii)
{
ascii_ = ascii;
}
Changer WriteStream::changeRowEntry(TexRow::RowEntry entry)
{
return make_change(row_entry_, entry);
}
bool WriteStream::startOuterRow()
{
if (TexRow::isNone(row_entry_))
return false;
return texrow().start(row_entry_);
}
WriteStream & operator<<(WriteStream & ws, MathAtom const & at)
{
at->write(ws);
return ws;
}
WriteStream & operator<<(WriteStream & ws, MathData const & ar)
{
write(ar, ws);
return ws;
}
WriteStream & operator<<(WriteStream & ws, char const * s)
{
ws << from_utf8(s);
return ws;
}
WriteStream & operator<<(WriteStream & ws, char c)
{
if (c == '\n' && !ws.canBreakLine())
return ws;
if (ws.pendingBrace()) {
ws.os() << '}';
ws.pendingBrace(false);
ws.pendingSpace(false);
ws.textMode(true);
} else if (ws.pendingSpace()) {
if (isAlphaASCII(c))
ws.os() << ' ';
else if (c == ' ' && ws.textMode())
ws.os() << '\\';
ws.pendingSpace(false);
}
ws.os() << c;
if (c == '\n')
ws.addlines(1);
ws.canBreakLine(c != '\n');
return ws;
}
WriteStream & operator<<(WriteStream & ws, int i)
{
if (ws.pendingBrace()) {
ws.os() << '}';
ws.pendingBrace(false);
ws.textMode(true);
}
ws.os() << i;
ws.canBreakLine(true);
return ws;
}
WriteStream & operator<<(WriteStream & ws, unsigned int i)
{
if (ws.pendingBrace()) {
ws.os() << '}';
ws.pendingBrace(false);
ws.textMode(true);
}
ws.os() << i;
ws.canBreakLine(true);
return ws;
}
//////////////////////////////////////////////////////////////////////
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MathStream::MathStream(odocstream & os, std::string xmlns)
: os_(os), tab_(0), line_(0), in_text_(false), xmlns_(xmlns)
{}
void MathStream::cr()
{
os() << '\n';
for (int i = 0; i < tab(); ++i)
os() << ' ';
}
void MathStream::defer(docstring const & s)
{
deferred_ << s;
}
void MathStream::defer(string const & s)
{
deferred_ << from_utf8(s);
}
docstring MathStream::deferred() const
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{
return deferred_.str();
}
MathStream & operator<<(MathStream & ms, MathAtom const & at)
{
at->mathmlize(ms);
return ms;
}
MathStream & operator<<(MathStream & ms, MathData const & ar)
{
mathmlize(ar, ms);
return ms;
}
MathStream & operator<<(MathStream & ms, char const * s)
{
ms.os() << s;
return ms;
}
MathStream & operator<<(MathStream & ms, char c)
{
ms.os() << c;
return ms;
}
MathStream & operator<<(MathStream & ms, char_type c)
{
ms.os().put(c);
return ms;
}
MathStream & operator<<(MathStream & ms, MTag const & t)
{
++ms.tab();
ms.cr();
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ms.os() << '<' << from_ascii(ms.namespacedTag(t.tag_));
if (!t.attr_.empty())
ms.os() << " " << from_ascii(t.attr_);
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ms << ">";
return ms;
}
MathStream & operator<<(MathStream & ms, ETag const & t)
{
ms.cr();
if (ms.tab() > 0)
--ms.tab();
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ms.os() << "</" << from_ascii(ms.namespacedTag(t.tag_)) << ">";
return ms;
}
MathStream & operator<<(MathStream & ms, CTag const & t)
{
ms.cr();
ms.os() << "<" << from_ascii(ms.namespacedTag(t.tag_));
if (!t.attr_.empty())
ms.os() << " " << from_utf8(t.attr_);
ms.os() << "/>";
return ms;
}
MathStream & operator<<(MathStream & ms, docstring const & s)
{
ms.os() << s;
return ms;
}
//////////////////////////////////////////////////////////////////////
HtmlStream::HtmlStream(odocstream & os)
: os_(os), tab_(0), line_(0), in_text_(false)
{}
void HtmlStream::defer(docstring const & s)
{
deferred_ << s;
}
void HtmlStream::defer(string const & s)
{
deferred_ << from_utf8(s);
}
docstring HtmlStream::deferred() const
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{
return deferred_.str();
}
HtmlStream & operator<<(HtmlStream & ms, MathAtom const & at)
{
at->htmlize(ms);
return ms;
}
HtmlStream & operator<<(HtmlStream & ms, MathData const & ar)
{
htmlize(ar, ms);
return ms;
}
HtmlStream & operator<<(HtmlStream & ms, char const * s)
{
ms.os() << s;
return ms;
}
HtmlStream & operator<<(HtmlStream & ms, char c)
{
ms.os() << c;
return ms;
}
HtmlStream & operator<<(HtmlStream & ms, char_type c)
{
ms.os().put(c);
return ms;
}
HtmlStream & operator<<(HtmlStream & ms, MTag const & t)
{
ms.os() << '<' << from_ascii(t.tag_);
if (!t.attr_.empty())
ms.os() << " " << from_ascii(t.attr_);
ms << '>';
return ms;
}
HtmlStream & operator<<(HtmlStream & ms, ETag const & t)
{
ms.os() << "</" << from_ascii(t.tag_) << '>';
return ms;
}
HtmlStream & operator<<(HtmlStream & ms, docstring const & s)
{
ms.os() << s;
return ms;
}
//////////////////////////////////////////////////////////////////////
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SetMode::SetMode(MathStream & ms, bool text)
: ms_(ms)
{
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was_text_ = ms_.inText();
ms_.setTextMode(text);
}
SetMode::~SetMode()
{
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ms_.setTextMode(was_text_);
}
//////////////////////////////////////////////////////////////////////
SetHTMLMode::SetHTMLMode(HtmlStream & os, bool text)
: os_(os)
{
was_text_ = os_.inText();
os_.setTextMode(text);
}
SetHTMLMode::~SetHTMLMode()
{
os_.setTextMode(was_text_);
}
//////////////////////////////////////////////////////////////////////
MapleStream & operator<<(MapleStream & ms, MathAtom const & at)
{
at->maple(ms);
return ms;
}
MapleStream & operator<<(MapleStream & ms, MathData const & ar)
{
maple(ar, ms);
return ms;
}
MapleStream & operator<<(MapleStream & ms, char const * s)
{
ms.os() << s;
return ms;
}
MapleStream & operator<<(MapleStream & ms, char c)
{
ms.os() << c;
return ms;
}
MapleStream & operator<<(MapleStream & ms, int i)
{
ms.os() << i;
return ms;
}
MapleStream & operator<<(MapleStream & ms, char_type c)
{
ms.os().put(c);
return ms;
}
MapleStream & operator<<(MapleStream & ms, docstring const & s)
{
ms.os() << s;
return ms;
}
//////////////////////////////////////////////////////////////////////
MaximaStream & operator<<(MaximaStream & ms, MathAtom const & at)
{
at->maxima(ms);
return ms;
}
MaximaStream & operator<<(MaximaStream & ms, MathData const & ar)
{
maxima(ar, ms);
return ms;
}
MaximaStream & operator<<(MaximaStream & ms, char const * s)
{
ms.os() << s;
return ms;
}
MaximaStream & operator<<(MaximaStream & ms, char c)
{
ms.os() << c;
return ms;
}
MaximaStream & operator<<(MaximaStream & ms, int i)
{
ms.os() << i;
return ms;
}
MaximaStream & operator<<(MaximaStream & ms, docstring const & s)
{
ms.os() << s;
return ms;
}
MaximaStream & operator<<(MaximaStream & ms, char_type c)
{
ms.os().put(c);
return ms;
}
//////////////////////////////////////////////////////////////////////
MathematicaStream & operator<<(MathematicaStream & ms, MathAtom const & at)
{
at->mathematica(ms);
return ms;
}
MathematicaStream & operator<<(MathematicaStream & ms, MathData const & ar)
{
mathematica(ar, ms);
return ms;
}
MathematicaStream & operator<<(MathematicaStream & ms, char const * s)
{
ms.os() << s;
return ms;
}
MathematicaStream & operator<<(MathematicaStream & ms, char c)
{
ms.os() << c;
return ms;
}
MathematicaStream & operator<<(MathematicaStream & ms, int i)
{
ms.os() << i;
return ms;
}
MathematicaStream & operator<<(MathematicaStream & ms, docstring const & s)
{
ms.os() << s;
return ms;
}
MathematicaStream & operator<<(MathematicaStream & ms, char_type c)
{
ms.os().put(c);
return ms;
}
//////////////////////////////////////////////////////////////////////
OctaveStream & operator<<(OctaveStream & ns, MathAtom const & at)
{
at->octave(ns);
return ns;
}
OctaveStream & operator<<(OctaveStream & ns, MathData const & ar)
{
octave(ar, ns);
return ns;
}
OctaveStream & operator<<(OctaveStream & ns, char const * s)
{
ns.os() << s;
return ns;
}
OctaveStream & operator<<(OctaveStream & ns, char c)
{
ns.os() << c;
return ns;
}
OctaveStream & operator<<(OctaveStream & ns, int i)
{
ns.os() << i;
return ns;
}
OctaveStream & operator<<(OctaveStream & ns, docstring const & s)
{
ns.os() << s;
return ns;
}
OctaveStream & operator<<(OctaveStream & ns, char_type c)
{
ns.os().put(c);
return ns;
}
OctaveStream & operator<<(OctaveStream & os, string const & s)
{
os.os() << from_utf8(s);
return os;
}
docstring convertDelimToXMLEscape(docstring const & name)
{
if (name.size() == 1) {
char_type const c = name[0];
if (c == '<')
return from_ascii("&lt;");
else if (c == '>')
return from_ascii("&gt;");
else
return name;
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} else if (name.size() == 2 && name[0] == '\\') {
char_type const c = name[1];
if (c == '{')
return from_ascii("&#123;");
else if (c == '}')
return from_ascii("&#125;");
}
MathWordList const & words = mathedWordList();
MathWordList::const_iterator it = words.find(name);
if (it != words.end()) {
docstring const escape = it->second.xmlname;
return escape;
}
LYXERR0("Unable to find `" << name <<"' in the mathWordList.");
return name;
}
} // namespace lyx