//添加元素
void FilterParameter::addQDomElement(FilterParameterSet &par, QDomElement &np)
{
		QString name=np.attribute("name");
		QString type=np.attribute("type");

		qDebug("    Reading Param with name %s : %s",qPrintable(name),qPrintable(type));

		if(type=="Bool")    { par.addBool(name,np.attribute("value")!=QString("false")); return; }
		if(type=="Int")     { par.addInt(name,np.attribute("value").toInt()); return; }
		if(type=="Float")   { par.addFloat(name,np.attribute("value").toDouble()); return; }
		if(type=="String")  { par.addString(name,np.attribute("value")); return; }
		if(type=="AbsPerc") { par.addAbsPerc(name,np.attribute("value").toFloat(),np.attribute("min").toFloat(),np.attribute("max").toFloat()); return; }
		if(type=="Color")		{ par.addColor(name,QColor::QColor(np.attribute("rgb").toUInt())); return; }
		if(type=="Matrix44")
		{
		  Matrix44f mm;
			for(int i=0;i<16;++i)
					mm.V()[i]=np.attribute(QString("val")+QString::number(i)).toDouble();
			par.addMatrix44(name,mm);    
			return;                    
		}
		if(type=="Enum")
		{
			QStringList list = QStringList::QStringList();
			for(QDomElement ns = np.firstChildElement("EnumString"); !ns.isNull(); ns = ns.nextSiblingElement("EnumString")){
				list<<ns.attribute("value");
			}
			par.addEnum(name,np.attribute("value").toInt(),list);
			return;
		}
		
		if(type == MeshPointerName())  { par.addMesh(name, np.attribute(ValueName()).toInt()); return; }
		if(type == FloatListName())
		{
			QList<float> values;
			for(QDomElement listItem = np.firstChildElement(ItemName());
					!listItem.isNull();
					listItem = listItem.nextSiblingElement(ItemName()))
			{
					values.append(listItem.attribute(ValueName()).toFloat()); 
				}
			par.addFloatList(name,values);
			return;
		}
			
		if(type == DynamicFloatName())  { par.addDynamicFloat(name, np.attribute(ValueName()).toFloat(), np.attribute(MinName()).toFloat(), np.attribute(MaxName()).toFloat(), np.attribute(MaskName()).toInt()); return; }
		if(type == OpenFileNameName())  { par.addOpenFileName(name, np.attribute(ValueName())); return; }
		if(type == SaveFileNameName())  { par.addSaveFileName(name, np.attribute(ValueName())); return; }
		if(type=="Point3f") 
		{
			Point3f val;
			val[0]=np.attribute("x").toFloat();
			val[1]=np.attribute("y").toFloat();
			val[2]=np.attribute("z").toFloat();
			par.addPoint3f(name, val);  
			return; 
		}

		assert(0); // we are trying to parse an unknown xml element
}
void FilterParameterSet::addMatrix44 (QString name, Matrix44f defaultVal, QString desc, QString tooltip)
{
	assert(!hasParameter(desc));
	FilterParameter p(name,desc,tooltip);
 
	QList<QVariant> matrixVals;
    for(int i=0;i<16;++i)
        matrixVals.append(defaultVal.V()[i]);
	p.fieldVal=matrixVals;
	p.fieldType=FilterParameter::PARMATRIX;
	paramList.push_back(p);		
}
//对matrix类型参数的操作
Matrix44f		FilterParameterSet::getMatrix44(QString name) const
{
	const FilterParameter *p=findParameter(name);

	assert(p);
	assert(p->fieldType==FilterParameter::PARMATRIX);
	assert(p->fieldVal.type()==QVariant::List);

	Matrix44f matrix;
	QList<QVariant> matrixVals = p->fieldVal.toList();
	assert(matrixVals.size()==16);
	for(int i=0;i<16;++i)
		matrix.V()[i]=matrixVals[i].toDouble();
			return matrix;
}
Ejemplo n.º 4
0
bool RichParameterFactory::create( const QDomElement& np,RichParameter** par )
{
	QString name=np.attribute("name");
	QString type=np.attribute("type");
	QString desc=np.attribute("description");
	QString tooltip=np.attribute("tooltip");


	qDebug("    Reading Param with name %s : %s",qPrintable(name),qPrintable(type));

	bool corrconv = false;
	if(type=="RichBool")    
	{ 
		QString val = np.attribute("value").toLower();
        if ((val != QString("true")) && (val != QString("false")))
			return false;
		*par = new RichBool(name,np.attribute("value")!=QString("false"),desc,tooltip); 
		return true; 
	}

	if(type=="RichInt")     
	{ 
		int val = np.attribute("value").toInt(&corrconv);
		if (!corrconv)
			return false;
		*par = new RichInt(name,val,desc,tooltip); 
		return true;
	}

	if(type=="RichFloat")   
	{ 
		float val = np.attribute("value").toFloat(&corrconv);
		if (!corrconv)
			return false;	
		*par = new RichFloat(name,val,desc,tooltip);
		return true;
	}

	if(type=="RichString")  
	{ 
		*par = new RichString(name,np.attribute("value"),desc,tooltip); 
		return true; 
	}
	
	if(type=="RichAbsPerc") 
	{ 
		float val = np.attribute("value").toFloat(&corrconv);
		if ((!corrconv) && (val >= 0.0f) && (val <= 100.0f))
			return false;
		float min = np.attribute("min").toFloat(&corrconv);
		if (!corrconv) 
			return false;
		float max = np.attribute("max").toFloat(&corrconv);
		if (!corrconv) 
			return false;
		*par = new RichAbsPerc(name,val,min,max,desc,tooltip); 
		return true; 
	}

	if(type=="RichColor")		
	{ 
		unsigned int r = np.attribute("r").toUInt(&corrconv);
    if ((!corrconv) && (r <= 255))
			return false;
		unsigned int g = np.attribute("g").toUInt(&corrconv); 
    if ((!corrconv) && (g <= 255))
			return false;
		unsigned int b = np.attribute("b").toUInt(&corrconv); 
    if ((!corrconv) && (b <= 255))
			return false;
		unsigned int a = np.attribute("a").toUInt(&corrconv);
    if ((!corrconv) && (a <= 255))
			return false;
		QColor col(r,g,b,a);
		*par= new RichColor(name,col,desc,tooltip); 
		return true; 
	}

	if(type=="RichMatrix44f")
	{
		Matrix44f mm;
		for(int i=0;i<16;++i)
		{
			float val = np.attribute(QString("val")+QString::number(i)).toFloat(&corrconv);
			if (!corrconv)
				return false;
			mm.V()[i]=val;
		}
		*par = new RichMatrix44f(name,mm,desc,tooltip);    
		return true;                    
	}

	if(type=="RichEnum")
	{
    QStringList list;
		int enum_card = np.attribute(QString("enum_cardinality")).toUInt(&corrconv);
		if (!corrconv) 
			return false;

		for(int i=0;i<enum_card;++i)
			list<<np.attribute(QString("enum_val")+QString::number(i));

		int val = np.attribute("value").toInt(&corrconv);
		if ((!corrconv) && (val >=0) && (val < enum_card)) 
			return false;
		*par = new RichEnum(name,val,list,desc,tooltip);
		return true;
	}

	if(type == "RichMesh")  
	{ 
		int val = np.attribute("value").toInt(&corrconv);
		
		if (!corrconv) 
			return false;

		*par = new RichMesh(name, val,desc,tooltip); 
		return true; 
	}

	if(type == "RichFloatList")
	{
		//to be implemented
		assert(0);
	}

	if(type == "RichDynamicFloat")
	{
		float min = np.attribute("min").toFloat(&corrconv);
		if (!corrconv) 
			return false;
		float max = np.attribute("max").toFloat(&corrconv);
		if (!corrconv) 
			return false;

		float val = np.attribute("value").toFloat(&corrconv);
		if ((!corrconv) && (val >= min) && (val <= max))
			return false;

		*par = new RichDynamicFloat(name, val, min, max, desc, tooltip);
		return true;
	}

	if(type == "RichOpenFile")
	{ 
    QStringList list;
		int exts_card = np.attribute(QString("exts_cardinality")).toUInt(&corrconv);
		if (!corrconv) 
			return false;

		for(int i=0;i<exts_card;++i)
			list<<np.attribute(QString("exts_val")+QString::number(i));

		QString defdir = np.attribute("value");

		*par = new RichOpenFile(name,defdir,list,desc,tooltip);
		return true;
	}

	if(type == "RichSaveFile")  
	{ 
		QString deffile = np.attribute("value");
		QString ext = np.attribute("ext");
		*par = new RichSaveFile(name,deffile,ext,desc,tooltip);
		return true;
	}

	if(type=="RichPoint3f")
	{
		Point3f val;
		val[0]=np.attribute("x").toFloat(&corrconv);
		if (!corrconv) 
			return false;
		val[1]=np.attribute("y").toFloat(&corrconv);
		if (!corrconv) 
			return false;
		val[2]=np.attribute("z").toFloat(&corrconv);
		if (!corrconv) 
			return false;

		*par = new RichPoint3f(name, val,desc,tooltip);  
		return true; 
	}
  if(type=="RichShotf")
  {
    Shotf val;
    assert(0); //TODO!!!!
    *par = new RichShotf(name, val,desc,tooltip);
    return true;
  }

	return false;
}