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lyx_mirror/src/support/docstream.h
Richard Heck ecef54500d Introduce max_length parameter for plaintext() output routines, 
so we can write a limited amount when using this for TOC and
tooltip output.

This should solve the problem with slowness that Kornel noticed,
which was caused by our trying to write an entire plaintext
bibliography every time we updated the TOC. We did that because
he had a bibliography inside a branch, and we use plaintext for
creating the tooltip that goes with the branch list.

Other related bugs were fixed along the way. E.g., it turns out
that, if someone had an InsetInclude inside a branch, then we would
have been writing a *plaintext file* for that inset every time we
updated the TOC. I wonder if some of the other reports of slowness
we have received might be due to this kind of issue?
2013-03-08 15:12:58 -05:00

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// -*- C++ -*-
/**
* \file docstream.h
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Georg Baum
*
* Full author contact details are available in file CREDITS.
*/
#ifndef LYX_DOCSTREAM_H
#define LYX_DOCSTREAM_H
#include "TexRow.h"
#include "support/docstring.h"
#if defined(_MSC_VER) && (_MSC_VER >= 1600)
// Ugly workaround for MSVC10 STL bug:
// std::numpunct has a hardcoded dllimport in definition, but we wanna it with 32 bit
// so we can't import it and must define it but then the compiler complains.
#include "support/numpunct_lyx_char_type.h"
#endif
#include <fstream>
#include <sstream>
namespace lyx {
class iconv_codecvt_facet_exception : public std::exception {
public:
virtual ~iconv_codecvt_facet_exception() throw() {}
virtual const char * what() const throw();
};
/// Base class for UCS4 input streams
typedef std::basic_istream<char_type> idocstream;
/** Base class for UCS4 output streams.
If you want to output a single UCS4 character, use \code
os.put(c);
\endcode, not \code
os << c;
\endcode . The latter will not output the character, but the code point
as number if USE_WCHAR_T is not defined. This is because we can't overload
operator<< (our character type is not always a real type but sometimes a
typedef). Narrow characters of type char can be output as usual.
*/
typedef std::basic_ostream<char_type> odocstream;
/// File stream for reading UTF8-encoded files with automatic conversion to
/// UCS4.
class ifdocstream : public std::basic_ifstream<char_type> {
typedef std::basic_ifstream<char_type> base;
public:
ifdocstream();
explicit ifdocstream(const char* s,
std::ios_base::openmode mode = std::ios_base::in,
std::string const & encoding = "UTF-8");
~ifdocstream() {}
};
/// File stream for writing files in 8bit encoding \p encoding with automatic
/// conversion from UCS4.
class ofdocstream : public std::basic_ofstream<char_type> {
typedef std::basic_ofstream<char_type> base;
public:
ofdocstream();
explicit ofdocstream(const char* s,
std::ios_base::openmode mode = std::ios_base::out|std::ios_base::trunc,
std::string const & encoding = "UTF-8");
~ofdocstream() {}
///
void reset(std::string const & encoding);
};
/// UCS4 input stringstream
typedef std::basic_istringstream<char_type> idocstringstream;
/// UCS4 output manipulator
typedef odocstream & (*odocstream_manip)(odocstream &);
/** Wrapper class for odocstream.
This class is used to automatically count the lines of the exported latex
code and also to ensure that no blank lines may be inadvertently output.
To this end, use the special variables "breakln" and "safebreakln" as if
they were iomanip's to ensure that the next output will start at the
beginning of a line. Using "breakln", a '\n' char will be output if needed,
while using "safebreakln", "%\n" will be output if needed.
The class also records the last output character.
*/
class otexstream {
public:
///
otexstream(odocstream & os, TexRow & texrow)
: os_(os), texrow_(texrow),
canbreakline_(false), protectspace_(false), lastchar_(0) {}
///
odocstream & os() { return os_; }
///
TexRow & texrow() { return texrow_; }
///
void put(char_type const & c);
///
void canBreakLine(bool breakline) { canbreakline_ = breakline; }
///
bool canBreakLine() const { return canbreakline_; }
///
void protectSpace(bool protectspace) { protectspace_ = protectspace; }
///
bool protectSpace() const { return protectspace_; }
///
void lastChar(char_type const & c) { lastchar_ = c; }
///
char_type lastChar() const { return lastchar_; }
private:
///
odocstream & os_;
///
TexRow & texrow_;
///
bool canbreakline_;
///
bool protectspace_;
///
char_type lastchar_;
};
/// Helper structs for breaking a line
struct BreakLine {
char n;
};
struct SafeBreakLine {
char n;
};
extern BreakLine breakln;
extern SafeBreakLine safebreakln;
///
otexstream & operator<<(otexstream &, BreakLine);
///
otexstream & operator<<(otexstream &, SafeBreakLine);
///
otexstream & operator<<(otexstream &, odocstream_manip);
///
otexstream & operator<<(otexstream &, docstring const &);
///
otexstream & operator<<(otexstream &, std::string const &);
///
otexstream & operator<<(otexstream &, char const *);
///
otexstream & operator<<(otexstream &, char);
///
template <typename Type>
otexstream & operator<<(otexstream & ots, Type value);
/// Helper struct for changing stream encoding
struct SetEnc {
SetEnc(std::string const & e) : encoding(e) {}
std::string encoding;
};
/// Helper function for changing stream encoding
SetEnc setEncoding(std::string const & encoding);
/** Change the encoding of \p os to \p e.encoding.
\p e.encoding must be a valid iconv name of an 8bit encoding.
This does nothing if the stream is not a file stream, since only
file streams do have an associated 8bit encoding.
Usage: \code
os << setEncoding("ISO-8859-1");
\endcode
*/
odocstream & operator<<(odocstream & os, SetEnc e);
idocstream & operator<<(idocstream & os, SetEnc e);
}
#endif
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