void DOMBuilder::comment(const String &text) {
ASSERT_OR_THROW("No parent!", !proxyStack.empty());
XMLStream *stream = proxyStack.top()->getStream();
if (stream) stream->comment(text);
else proxyStack.top()->appendChild(factory.createComment(text));
}
void DOMBuilder::pi(const String &target, const String &data) {
ASSERT_OR_THROW("No parent!", !proxyStack.empty());
XMLStream *stream = proxyStack.top()->getStream();
if (stream) stream->pi(target, data);
else proxyStack.top()->appendChild(factory.createPI(target, data));
}
void DOMBuilder::attribute(const QName *name, const String &text) {
ASSERT_OR_THROW("No parent element!", !proxyStack.empty());
XMLStream *stream = proxyStack.top()->getStream();
if (stream) stream->attribute(name, text);
else proxyStack.top()->appendAttr(factory.createAttribute(name, text));
}
void DOMBuilder::endElement() {
ASSERT_OR_THROW("No element!", !proxyStack.empty());
if (streamDepth) {
XMLStream *stream = proxyStack.top()->getStream();
ASSERT_OR_THROW("Stream depth > 0 but no stream!", stream);
stream->endElement();
streamDepth--;
} else proxyStack.pop();
}
/*
* Function: InsertModification
*
*/
void
InsertModification::toXML(XMLStream& xs, STFLAGS grfRecordDetail) const
{
ENTER(GENOME,toXML);
xs.openStart(xmlTag(XT_INSERTED));
xs.writeAttribute(xmlTag(XT_TARGETINDEX), (_iTarget+1));
xs.writeAttribute(xmlTag(XT_COUNTBASES), _strBases.length());
xs.writeAttribute(xmlTag(XT_BASES), _strBases);
xs.closeStart(false);
}
/*
* Function: TransposeModification
*
*/
void
TransposeModification::toXML(XMLStream& xs, STFLAGS grfRecordDetail) const
{
ENTER(GENOME,toXML);
xs.openStart(xmlTag(XT_TRANSPOSED));
xs.writeAttribute(xmlTag(XT_SOURCEINDEX), (_iSource+1));
xs.writeAttribute(xmlTag(XT_TARGETINDEX), (_iTarget+1));
xs.writeAttribute(xmlTag(XT_COUNTBASES), _strBases.length());
xs.writeAttribute(xmlTag(XT_BASES), _strBases);
xs.closeStart(false);
}
void DOMBuilder::startElement(const QName *name) {
ASSERT_OR_THROW("No parent!", !proxyStack.empty());
XMLStream *stream = proxyStack.top()->getStream();
if (stream) {
stream->startElement(name);
streamDepth++;
} else {
Element *elem = factory.createElement(name);
proxyStack.top()->appendChild(elem);
proxyStack.push(*this, elem);
}
}
/*
* Function: toXML
*
*/
void
Rectangle::toXML(XMLStream& xs, STFLAGS grfRecordDetail) const
{
xs.openStart(xmlTag(XT_BOUNDS));
xs.writeAttribute(xmlTag(XT_TOP), _ptTopLeft.y());
xs.writeAttribute(xmlTag(XT_LEFT), _ptTopLeft.x());
xs.writeAttribute(xmlTag(XT_BOTTOM), _ptBottomRight.y());
xs.writeAttribute(xmlTag(XT_RIGHT), _ptBottomRight.x());
xs.writeAttribute(xmlTag(XT_WIDTH), _dxWidth);
xs.writeAttribute(xmlTag(XT_HEIGHT), _dyHeight);
xs.writeAttribute(xmlTag(XT_XMIDPOINT), _ptCenter.x());
xs.writeAttribute(xmlTag(XT_YMIDPOINT), _ptCenter.y());
xs.closeStart(false);
}
/*
* Function: toXML
*
*/
void
Globals::toXML(XMLStream& xs)
{
ENTER(GLOBAL,toXML);
xs.openStart(xmlTag(XT_GLOBALS));
xs.writeAttribute(xmlTag(XT_XMLNS), XMLDocument::s_szStylusNamespace);
xs.closeStart();
xs.writeStart(xmlTag(XT_WEIGHTS));
xs.openStart(xmlTag(XT_GENOME));
xs.writeAttribute(xmlTag(XT_FIXEDCOST), static_cast<UNIT>(_aryGenomeWeights[SC_FIXEDCOST]));
xs.writeAttribute(xmlTag(XT_COSTPERBASE), static_cast<UNIT>(_aryGenomeWeights[SC_COSTPERBASE]));
xs.writeAttribute(xmlTag(XT_COSTPERUNIT), static_cast<UNIT>(_aryGenomeWeights[SC_COSTPERUNIT]));
xs.closeStart(false);
xs.openStart(xmlTag(XT_GENE));
xs.writeAttribute(xmlTag(XT_SCALE), static_cast<UNIT>(_aryGeneWeights[SC_SCALE]));
xs.writeAttribute(xmlTag(XT_PLACEMENT), static_cast<UNIT>(_aryGeneWeights[SC_PLACEMENT]));
xs.writeAttribute(xmlTag(XT_ILLEGALOVERLAPS), static_cast<UNIT>(_aryGeneWeights[SC_ILLEGALOVERLAPS]));
xs.writeAttribute(xmlTag(XT_MISSINGOVERLAPS), static_cast<UNIT>(_aryGeneWeights[SC_MISSINGOVERLAPS]));
xs.writeAttribute(xmlTag(XT_MARKS), static_cast<UNIT>(_aryGeneWeights[SC_MARKS]));
xs.writeAttribute(xmlTag(XT_SPSCALE), static_cast<UNIT>(_aryGeneSetpoints[SC_SCALE]));
xs.writeAttribute(xmlTag(XT_SPPLACEMENT), static_cast<UNIT>(_aryGeneSetpoints[SC_PLACEMENT]));
xs.writeAttribute(xmlTag(XT_SPILLEGALOVERLAPS), static_cast<UNIT>(_aryGeneSetpoints[SC_ILLEGALOVERLAPS]));
xs.writeAttribute(xmlTag(XT_SPMISSINGOVERLAPS), static_cast<UNIT>(_aryGeneSetpoints[SC_MISSINGOVERLAPS]));
xs.writeAttribute(xmlTag(XT_SPMARKS), static_cast<UNIT>(_aryGeneSetpoints[SC_MARKS]));
xs.closeStart(false);
xs.openStart(xmlTag(XT_GROUP));
xs.writeAttribute(xmlTag(XT_SCALE), static_cast<UNIT>(_aryGroupWeights[SC_SCALE]));
xs.writeAttribute(xmlTag(XT_PLACEMENT), static_cast<UNIT>(_aryGroupWeights[SC_PLACEMENT]));
xs.writeAttribute(xmlTag(XT_ILLEGALOVERLAPS), static_cast<UNIT>(_aryGroupWeights[SC_ILLEGALOVERLAPS]));
xs.writeAttribute(xmlTag(XT_DEVIATION), static_cast<UNIT>(_aryGroupWeights[SC_DEVIATION]));
xs.writeAttribute(xmlTag(XT_EXTRALENGTH), static_cast<UNIT>(_aryGroupWeights[SC_EXTRALENGTH]));
xs.writeAttribute(xmlTag(XT_MISSINGOVERLAPS), static_cast<UNIT>(_aryGroupWeights[SC_MISSINGOVERLAPS]));
xs.writeAttribute(xmlTag(XT_DROPOUTS), static_cast<UNIT>(_aryGroupWeights[SC_DROPOUTS]));
xs.writeAttribute(xmlTag(XT_SPSCALE), static_cast<UNIT>(_aryGroupSetpoints[SC_SCALE]));
xs.writeAttribute(xmlTag(XT_SPPLACEMENT), static_cast<UNIT>(_aryGroupSetpoints[SC_PLACEMENT]));
xs.writeAttribute(xmlTag(XT_SPILLEGALOVERLAPS), static_cast<UNIT>(_aryGroupSetpoints[SC_ILLEGALOVERLAPS]));
xs.writeAttribute(xmlTag(XT_SPDEVIATION), static_cast<UNIT>(_aryGroupSetpoints[SC_DEVIATION]));
xs.writeAttribute(xmlTag(XT_SPEXTRALENGTH), static_cast<UNIT>(_aryGroupSetpoints[SC_EXTRALENGTH]));
xs.writeAttribute(xmlTag(XT_SPMISSINGOVERLAPS), static_cast<UNIT>(_aryGroupSetpoints[SC_MISSINGOVERLAPS]));
xs.writeAttribute(xmlTag(XT_SPDROPOUTS), static_cast<UNIT>(_aryGroupSetpoints[SC_DROPOUTS]));
xs.closeStart(false);
xs.writeEnd(xmlTag(XT_WEIGHTS));
xs.writeEnd(xmlTag(XT_GLOBALS));
}
