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koffice/lib/store/KoXmlWriter.cpp

428 lines
13 KiB

/* This file is part of the KDE project
Copyright (C) 2004 David Faure <faure@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "KoXmlWriter.h"
#include <kglobal.h> // kMin
#include <kdebug.h>
#include <tqiodevice.h>
#include <float.h>
static const int s_indentBufferLength = 100;
KoXmlWriter::KoXmlWriter( TQIODevice* dev, int indentLevel )
: m_dev( dev ), m_baseIndentLevel( indentLevel )
{
init();
}
void KoXmlWriter::init()
{
m_indentBuffer = new char[ s_indentBufferLength ];
memset( m_indentBuffer, ' ', s_indentBufferLength );
*m_indentBuffer = '\n'; // write newline before indentation, in one go
m_escapeBuffer = new char[s_escapeBufferLen];
}
KoXmlWriter::~KoXmlWriter()
{
delete[] m_indentBuffer;
delete[] m_escapeBuffer;
}
void KoXmlWriter::startDocument( const char* rootElemName, const char* publicId, const char* systemId )
{
Q_ASSERT( m_tags.isEmpty() );
writeCString( "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n" );
// There isn't much point in a doctype if there's no DTD to refer to
// (I'm told that files that are validated by a RelaxNG schema cannot refer to the schema)
if ( publicId ) {
writeCString( "<!DOCTYPE " );
writeCString( rootElemName );
writeCString( " PUBLIC \"" );
writeCString( publicId );
writeCString( "\" \"" );
writeCString( systemId );
writeCString( "\"" );
writeCString( ">\n" );
}
}
void KoXmlWriter::endDocument()
{
// just to do exactly like TQDom does (newline at end of file).
writeChar( '\n' );
Q_ASSERT( m_tags.isEmpty() );
}
// returns the value of indentInside of the tqparent
bool KoXmlWriter::prepareForChild()
{
if ( !m_tags.isEmpty() ) {
Tag& tqparent = m_tags.top();
if ( !tqparent.hasChildren ) {
closeStartElement( tqparent );
tqparent.hasChildren = true;
tqparent.lastChildIsText = false;
}
if ( tqparent.indentInside ) {
writeIndent();
}
return tqparent.indentInside;
}
return true;
}
void KoXmlWriter::prepareForTextNode()
{
Tag& tqparent = m_tags.top();
if ( !tqparent.hasChildren ) {
closeStartElement( tqparent );
tqparent.hasChildren = true;
tqparent.lastChildIsText = true;
}
}
void KoXmlWriter::startElement( const char* tagName, bool indentInside )
{
Q_ASSERT( tagName != 0 );
// Tell tqparent that it has tqchildren
bool tqparentIndent = prepareForChild();
m_tags.push( Tag( tagName, tqparentIndent && indentInside ) );
writeChar( '<' );
writeCString( tagName );
//kdDebug() << k_funcinfo << tagName << endl;
}
void KoXmlWriter::addCompleteElement( const char* cstr )
{
prepareForChild();
writeCString( cstr );
}
void KoXmlWriter::addCompleteElement( TQIODevice* indev )
{
prepareForChild();
bool openOk = indev->open( IO_ReadOnly );
Q_ASSERT( openOk );
if ( !openOk )
return;
static const int MAX_CHUNK_SIZE = 8*1024; // 8 KB
TQByteArray buffer(MAX_CHUNK_SIZE);
while ( !indev->atEnd() ) {
TQ_LONG len = indev->readBlock( buffer.data(), buffer.size() );
if ( len <= 0 ) // e.g. on error
break;
m_dev->writeBlock( buffer.data(), len );
}
}
void KoXmlWriter::endElement()
{
if ( m_tags.isEmpty() )
kdWarning() << "Ouch, endElement() was called more times than startElement(). "
"The generated XML will be invalid! "
"Please report this bug (by saving the document to another format...)" << endl;
Tag tag = m_tags.pop();
//kdDebug() << k_funcinfo << " tagName=" << tag.tagName << " hasChildren=" << tag.hasChildren << endl;
if ( !tag.hasChildren ) {
writeCString( "/>" );
}
else {
if ( tag.indentInside && !tag.lastChildIsText ) {
writeIndent();
}
writeCString( "</" );
Q_ASSERT( tag.tagName != 0 );
writeCString( tag.tagName );
writeChar( '>' );
}
}
void KoXmlWriter::addTextNode( const char* cstr )
{
prepareForTextNode();
char* escaped = escapeForXML( cstr, -1 );
writeCString( escaped );
if(escaped != m_escapeBuffer)
delete[] escaped;
}
void KoXmlWriter::addProcessingInstruction( const char* cstr )
{
prepareForTextNode();
writeCString( "<?" );
addTextNode( cstr );
writeCString( "?>");
}
void KoXmlWriter::addAttribute( const char* attrName, const char* value )
{
writeChar( ' ' );
writeCString( attrName );
writeCString("=\"");
char* escaped = escapeForXML( value, -1 );
writeCString( escaped );
if(escaped != m_escapeBuffer)
delete[] escaped;
writeChar( '"' );
}
void KoXmlWriter::addAttribute( const char* attrName, double value )
{
TQCString str;
str.setNum( value, 'g', DBL_DIG );
addAttribute( attrName, str.data() );
}
void KoXmlWriter::addAttributePt( const char* attrName, double value )
{
TQCString str;
str.setNum( value, 'g', DBL_DIG );
str += "pt";
addAttribute( attrName, str.data() );
}
void KoXmlWriter::writeIndent()
{
// +1 because of the leading '\n'
m_dev->writeBlock( m_indentBuffer, kMin( indentLevel() + 1,
s_indentBufferLength ) );
}
void KoXmlWriter::writeString( const TQString& str )
{
// cachegrind says .utf8() is where most of the time is spent
TQCString cstr = str.utf8();
m_dev->writeBlock( cstr.data(), cstr.size() - 1 );
}
// In case of a reallocation (ret value != m_buffer), the caller owns the return value,
// it must delete it (with [])
char* KoXmlWriter::escapeForXML( const char* source, int length = -1 ) const
{
// we're going to be pessimistic on char length; so lets make the outputLength less
// the amount one char can take: 6
char* destBoundary = m_escapeBuffer + s_escapeBufferLen - 6;
char* destination = m_escapeBuffer;
char* output = m_escapeBuffer;
const char* src = source; // src moves, source remains
for ( ;; ) {
if(destination >= destBoundary) {
// When we come to realize that our escaped string is going to
// be bigger than the escape buffer (this shouldn't happen very often...),
// we drop the idea of using it, and we allocate a bigger buffer.
// Note that this if() can only be hit once per call to the method.
if ( length == -1 )
length = tqstrlen( source ); // expensive...
uint newLength = length * 6 + 1; // worst case. 6 is due to &quot; and &apos;
char* buffer = new char[ newLength ];
destBoundary = buffer + newLength;
uint amountOfCharsAlreadyCopied = destination - m_escapeBuffer;
memcpy( buffer, m_escapeBuffer, amountOfCharsAlreadyCopied );
output = buffer;
destination = buffer + amountOfCharsAlreadyCopied;
}
switch( *src ) {
case 60: // <
memcpy( destination, "&lt;", 4 );
destination += 4;
break;
case 62: // >
memcpy( destination, "&gt;", 4 );
destination += 4;
break;
case 34: // "
memcpy( destination, "&quot;", 6 );
destination += 6;
break;
#if 0 // needed?
case 39: // '
memcpy( destination, "&apos;", 6 );
destination += 6;
break;
#endif
case 38: // &
memcpy( destination, "&amp;", 5 );
destination += 5;
break;
case 0:
*destination = '\0';
return output;
default:
*destination++ = *src++;
continue;
}
++src;
}
// NOTREACHED (see case 0)
return output;
}
void KoXmlWriter::addManifestEntry( const TQString& fullPath, const TQString& mediaType )
{
startElement( "manifest:file-entry" );
addAttribute( "manifest:media-type", mediaType );
addAttribute( "manifest:full-path", fullPath );
endElement();
}
void KoXmlWriter::addConfigItem( const TQString & configName, const TQString& value )
{
startElement( "config:config-item" );
addAttribute( "config:name", configName );
addAttribute( "config:type", "string" );
addTextNode( value );
endElement();
}
void KoXmlWriter::addConfigItem( const TQString & configName, bool value )
{
startElement( "config:config-item" );
addAttribute( "config:name", configName );
addAttribute( "config:type", "boolean" );
addTextNode( value ? "true" : "false" );
endElement();
}
void KoXmlWriter::addConfigItem( const TQString & configName, int value )
{
startElement( "config:config-item" );
addAttribute( "config:name", configName );
addAttribute( "config:type", "int");
addTextNode(TQString::number( value ) );
endElement();
}
void KoXmlWriter::addConfigItem( const TQString & configName, double value )
{
startElement( "config:config-item" );
addAttribute( "config:name", configName );
addAttribute( "config:type", "double" );
addTextNode( TQString::number( value ) );
endElement();
}
void KoXmlWriter::addConfigItem( const TQString & configName, long value )
{
startElement( "config:config-item" );
addAttribute( "config:name", configName );
addAttribute( "config:type", "long" );
addTextNode( TQString::number( value ) );
endElement();
}
void KoXmlWriter::addConfigItem( const TQString & configName, short value )
{
startElement( "config:config-item" );
addAttribute( "config:name", configName );
addAttribute( "config:type", "short" );
addTextNode( TQString::number( value ) );
endElement();
}
void KoXmlWriter::addTextSpan( const TQString& text )
{
TQMap<int, int> tabCache;
addTextSpan( text, tabCache );
}
void KoXmlWriter::addTextSpan( const TQString& text, const TQMap<int, int>& tabCache )
{
uint len = text.length();
int nrSpaces = 0; // number of consecutive spaces
bool leadingSpace = false;
TQString str;
str.reserve( len );
// Accumulate chars either in str or in nrSpaces (for spaces).
// Flush str when writing a subelement (for spaces or for another reason)
// Flush nrSpaces when encountering two or more consecutive spaces
for ( uint i = 0; i < len ; ++i ) {
TQChar ch = text[i];
if ( ch != ' ' ) {
if ( nrSpaces > 0 ) {
// For the first space we use ' '.
// "it is good practice to use (text:s) for the second and all following SPACE
// characters in a sequence." (per the ODF spec)
// however, per the HTML spec, "authors should not rely on user agents to render
// white space immediately after a start tag or immediately before an end tag"
// (and both we and OO.o ignore leading spaces in <text:p> or <text:h> elements...)
if (!leadingSpace)
{
str += ' ';
--nrSpaces;
}
if ( nrSpaces > 0 ) { // there are more spaces
if ( !str.isEmpty() )
addTextNode( str );
str = TQString();
startElement( "text:s" );
if ( nrSpaces > 1 ) // it's 1 by default
addAttribute( "text:c", nrSpaces );
endElement();
}
}
nrSpaces = 0;
leadingSpace = false;
}
switch ( ch.tqunicode() ) {
case '\t':
if ( !str.isEmpty() )
addTextNode( str );
str = TQString();
startElement( "text:tab" );
if ( tabCache.tqcontains( i ) )
addAttribute( "text:tab-ref", tabCache[i] + 1 );
endElement();
break;
case '\n':
if ( !str.isEmpty() )
addTextNode( str );
str = TQString();
startElement( "text:line-break" );
endElement();
break;
case ' ':
if ( i == 0 )
leadingSpace = true;
++nrSpaces;
break;
default:
str += text[i];
break;
}
}
// either we still have text in str or we have spaces in nrSpaces
if ( !str.isEmpty() ) {
addTextNode( str );
}
if ( nrSpaces > 0 ) { // there are more spaces
startElement( "text:s" );
if ( nrSpaces > 1 ) // it's 1 by default
addAttribute( "text:c", nrSpaces );
endElement();
}
}