lyx_mirror/src/mathed/MathStream.h

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// -*- C++ -*-
/**
* \file MathStream.h
* 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.
*/
#ifndef MATH_MATHMLSTREAM_H
#define MATH_MATHMLSTREAM_H
#include "support/strfwd.h"
#include "InsetMath.h"
// FIXME: Move to individual insets
#include "MetricsInfo.h"
namespace lyx {
class Encoding;
class InsetMath;
class MathAtom;
class MathData;
//
// LaTeX/LyX
//
class WriteStream {
public:
///
WriteStream(odocstream & os, bool fragile, bool latex, bool dryrun,
Encoding const * encoding = 0);
///
explicit WriteStream(odocstream & os);
///
~WriteStream();
///
int line() const { return line_; }
///
bool fragile() const { return fragile_; }
///
bool latex() const { return latex_; }
///
bool dryrun() const { return dryrun_; }
///
odocstream & os() { return os_; }
///
bool & firstitem() { return firstitem_; }
///
void addlines(unsigned int);
/// writes space if next thing is isalpha()
void pendingSpace(bool how);
/// writes space if next thing is isalpha()
bool pendingSpace() const { return pendingspace_; }
/// tell whether to write the closing brace of \ensuremath
void pendingBrace(bool brace);
/// tell whether to write the closing brace of \ensuremath
bool pendingBrace() const { return pendingbrace_; }
/// tell whether we are in text mode or not when producing latex code
void textMode(bool textmode);
/// tell whether we are in text mode or not when producing latex code
bool textMode() const { return textmode_; }
/// tell whether we are allowed to switch mode when producing latex code
void lockedMode(bool locked);
/// tell whether we are allowed to switch mode when producing latex code
bool lockedMode() const { return locked_; }
/// LaTeX encoding
Encoding const * encoding() const { return encoding_; }
private:
///
odocstream & os_;
/// do we have to write \\protect sometimes
bool fragile_;
/// are we at the beginning of an MathData?
bool firstitem_;
/// are we writing to .tex?
int latex_;
/// is it for preview?
bool dryrun_;
/// do we have a space pending?
bool pendingspace_;
/// do we have a brace pending?
bool pendingbrace_;
/// are we in text mode when producing latex code?
bool textmode_;
/// are we allowed to switch mode when producing latex code?
bool locked_;
///
int line_;
///
Encoding const * encoding_;
};
///
WriteStream & operator<<(WriteStream &, MathAtom const &);
///
WriteStream & operator<<(WriteStream &, MathData const &);
///
WriteStream & operator<<(WriteStream &, docstring const &);
///
WriteStream & operator<<(WriteStream &, char const * const);
///
WriteStream & operator<<(WriteStream &, char);
///
WriteStream & operator<<(WriteStream &, int);
///
WriteStream & operator<<(WriteStream &, unsigned int);
/// ensure math mode, possibly by opening \ensuremath
bool ensureMath(WriteStream & os, bool needs_math_mode = true, bool macro = false);
/// ensure the requested mode, possibly by closing \ensuremath
int ensureMode(WriteStream & os, InsetMath::mode_type mode, bool locked);
/**
* MathEnsurer - utility class for ensuring math mode
*
* A local variable of this type can be used to either ensure math mode
* or delay the writing of a pending brace when outputting LaTeX.
*
* Example 1:
*
* MathEnsurer ensurer(os);
*
* If not already in math mode, inserts an \ensuremath command followed
* by an open brace. This brace will be automatically closed when exiting
* math mode. Math mode is automatically exited when writing something
* that doesn't explicitly require math mode.
*
* Example 2:
*
* MathEnsurer ensurer(os, false);
*
* Simply suspend writing a closing brace until the end of ensurer's scope.
*
* Example 3:
*
* MathEnsurer ensurer(os, needs_math_mode, true);
*
* The third parameter is set to true only for a user defined macro, which
* needs special handling. When it is a MathMacro, the needs_math_mode
* parameter is true and the behavior is as in Example 1. When the
* needs_math_mode parameter is false (not a MathMacro) and the macro
* was entered in a text box and we are in math mode, the mode is reset
* to text. This is because the macro was probably designed for text mode
* (given that it was entered in text mode and we have no way to tell the
* contrary).
*/
class MathEnsurer
{
public:
///
explicit MathEnsurer(WriteStream & os, bool needs_math_mode = true, bool macro = false)
: os_(os), brace_(ensureMath(os, needs_math_mode, macro)) {}
///
~MathEnsurer() { os_.pendingBrace(brace_); }
private:
///
WriteStream & os_;
///
bool brace_;
};
/**
* ModeSpecifier - utility class for specifying a given mode (math or text)
*
* A local variable of this type can be used to specify that a command or
* environment works in a given mode. For example, \mbox works in text
* mode, but \boxed works in math mode. Note that no mode changing commands
* are needed, but we have to track the current mode, hence this class.
* This is only used when exporting to latex and helps determining whether
* the mode needs being temporarily switched when a command would not work
* in the current mode. As there are cases where this switching is to be
* avoided, the optional third parameter can be used to lock the mode.
*
* Example 1:
*
* ModeSpecifier specifier(os, TEXT_MODE);
*
* Sets the current mode to text mode and allows mode switching.
*
* Example 2:
*
* ModeSpecifier specifier(os, TEXT_MODE, true);
*
* Sets the current mode to text mode and disallows mode switching.
*
* At the end of specifier's scope the mode is reset to its previous value.
*/
class ModeSpecifier
{
public:
///
explicit ModeSpecifier(WriteStream & os, InsetMath::mode_type mode,
bool locked = false)
: os_(os), oldmodes_(ensureMode(os, mode, locked)) {}
///
~ModeSpecifier()
{
os_.textMode(oldmodes_ & 1);
os_.lockedMode(oldmodes_ & 2);
}
private:
///
WriteStream & os_;
///
int oldmodes_;
};
//
// MathML
//
class MTag {
public:
///
MTag(char const * const tag) : tag_(tag) {}
///
char const * const tag_;
};
class ETag {
public:
///
ETag(char const * const tag) : tag_(tag) {}
///
char const * const tag_;
};
class MathStream {
public:
///
explicit MathStream(odocstream & os);
///
void cr();
///
odocstream & os() { return os_; }
///
int line() const { return line_; }
///
int & tab() { return tab_; }
///
friend MathStream & operator<<(MathStream &, char const *);
private:
///
odocstream & os_;
///
int tab_;
///
int line_;
///
char lastchar_;
};
///
MathStream & operator<<(MathStream &, MathAtom const &);
///
MathStream & operator<<(MathStream &, MathData const &);
///
MathStream & operator<<(MathStream &, docstring const &);
///
MathStream & operator<<(MathStream &, char const *);
///
MathStream & operator<<(MathStream &, char);
///
MathStream & operator<<(MathStream &, MTag const &);
///
MathStream & operator<<(MathStream &, ETag const &);
//
// Debugging
//
class NormalStream {
public:
///
explicit NormalStream(odocstream & os) : os_(os) {}
///
odocstream & os() { return os_; }
private:
///
odocstream & os_;
};
///
NormalStream & operator<<(NormalStream &, MathAtom const &);
///
NormalStream & operator<<(NormalStream &, MathData const &);
///
NormalStream & operator<<(NormalStream &, docstring const &);
///
NormalStream & operator<<(NormalStream &, char const *);
///
NormalStream & operator<<(NormalStream &, char);
///
NormalStream & operator<<(NormalStream &, int);
//
// Maple
//
class MapleStream {
public:
///
explicit MapleStream(odocstream & os) : os_(os) {}
///
odocstream & os() { return os_; }
private:
///
odocstream & os_;
};
///
MapleStream & operator<<(MapleStream &, MathAtom const &);
///
MapleStream & operator<<(MapleStream &, MathData const &);
///
MapleStream & operator<<(MapleStream &, docstring const &);
///
MapleStream & operator<<(MapleStream &, char_type);
///
MapleStream & operator<<(MapleStream &, char const *);
///
MapleStream & operator<<(MapleStream &, char);
///
MapleStream & operator<<(MapleStream &, int);
//
// Maxima
//
class MaximaStream {
public:
///
explicit MaximaStream(odocstream & os) : os_(os) {}
///
odocstream & os() { return os_; }
private:
///
odocstream & os_;
};
///
MaximaStream & operator<<(MaximaStream &, MathAtom const &);
///
MaximaStream & operator<<(MaximaStream &, MathData const &);
///
MaximaStream & operator<<(MaximaStream &, docstring const &);
///
MaximaStream & operator<<(MaximaStream &, char_type);
///
MaximaStream & operator<<(MaximaStream &, char const *);
///
MaximaStream & operator<<(MaximaStream &, char);
///
MaximaStream & operator<<(MaximaStream &, int);
//
// Mathematica
//
class MathematicaStream {
public:
///
explicit MathematicaStream(odocstream & os) : os_(os) {}
///
odocstream & os() { return os_; }
private:
///
odocstream & os_;
};
///
MathematicaStream & operator<<(MathematicaStream &, MathAtom const &);
///
MathematicaStream & operator<<(MathematicaStream &, MathData const &);
///
MathematicaStream & operator<<(MathematicaStream &, docstring const &);
///
MathematicaStream & operator<<(MathematicaStream &, char const *);
///
MathematicaStream & operator<<(MathematicaStream &, char);
///
MathematicaStream & operator<<(MathematicaStream &, int);
//
// Octave
//
class OctaveStream {
public:
///
explicit OctaveStream(odocstream & os) : os_(os) {}
///
odocstream & os() { return os_; }
private:
///
odocstream & os_;
};
///
OctaveStream & operator<<(OctaveStream &, MathAtom const &);
///
OctaveStream & operator<<(OctaveStream &, MathData const &);
///
OctaveStream & operator<<(OctaveStream &, docstring const &);
///
OctaveStream & operator<<(OctaveStream &, char_type);
///
OctaveStream & operator<<(OctaveStream &, char const *);
///
OctaveStream & operator<<(OctaveStream &, char);
///
OctaveStream & operator<<(OctaveStream &, int);
} // namespace lyx
#endif