src/dae/daeMetaChoice.cpp - platform/external/collada - Git at Google

 /*
 * Copyright 2006 Sony Computer Entertainment Inc.
 *
 * Licensed under the MIT Open Source License, for details please see license.txt or the website
 * http://www.opensource.org/licenses/mit-license.php
 *
 */

 #include <dae/daeMetaChoice.h>
 #include <dae/daeMetaElement.h>

 daeMetaChoice::daeMetaChoice( daeMetaElement *container, daeMetaCMPolicy *parent, daeUInt choiceNum, daeUInt ordinal,
 												 daeInt minO, daeInt maxO) : daeMetaCMPolicy( container, parent, ordinal, minO, maxO ), _choiceNum(choiceNum)
 {}

 daeMetaChoice::~daeMetaChoice()
 {}

 daeElement *daeMetaChoice::placeElement( daeElement *parent, daeElement *child, daeUInt &ordinal, daeInt offset, daeElement* before, daeElement *after ) {
 	(void)offset;
 	if ( _maxOccurs == -1 ) {
 		//Needed to prevent infinate loops. If unbounded check to see if you have the child before just trying to place
 		if ( findChild( child->getElementName() ) == NULL ) {
 			return NULL;
 		}
 	}

 	daeElement *retVal = NULL;

 	daeTArray< daeCharArray *> *CMData = (daeTArray< daeCharArray *>*)_container->getMetaCMData()->getWritableMemory(parent);
 	daeCharArray *myData = CMData->get( _choiceNum );
 	size_t count = myData->getCount();

 	for ( daeInt i = 0; ( i < _maxOccurs || _maxOccurs == -1 ); i++ )
 	{
 		if ( (daeInt) count > i && myData->get(i) != -1 ) //choice has already been made
 		{
 			if ( _children[ myData->get(i) ]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
 			{
 				retVal = child;
 				ordinal = ordinal  + _ordinalOffset;
 				break;
 			}
 			//else //try to see if everything can be in a different choice
 			//{
 			//	daeElementRefArray childsInChoice;
 			//	_children[ myData->get(i) ]->getChildren( parent, childsInChoice );
 			//	for ( size_t x = myData->get(i) +1; x < cnt; x++ )
 			//	{
 			//		daeElementRefArray childsInNext;
 			//		_children[ x ]->getChildren( parent, childsInNext ); //If you get children in another choice then
 			//		//both choices can have the same type of children.
 			//		if ( childsInNext.getCount() == childsInChoice.getCount() )
 			//		{
 			//			//if there are the same ammount of children then all present children can belong to both
 			//			//choices. Try to place the new child in this next choice.
 			//			if ( _children[x]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
 			//			{
 			//				retVal = child;
 			//				ordinal = ordinal  + _ordinalOffset;

 			//				myData->set( i, (daeChar)x ); //change the choice to this new one
 			//				break;
 			//			}
 			//		}
 			//	}
 			//	if ( retVal != NULL ) break;
 			//}
 		}
 		else //no choice has been made yet
 		{
 			size_t cnt = _children.getCount();
 			for ( size_t x = 0; x < cnt; x++ )
 			{
 				if ( _children[x]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
 				{
 					retVal = child;
 					ordinal = ordinal  + _ordinalOffset;

 					myData->append( (daeChar)x ); //you always place in the next available choice up to maxOccurs
 					count ++;
 					break;
 				}
 			}
 			if ( retVal != NULL ) break;
 		}
 	}
 	if ( retVal == NULL )
 	{
 		if ( findChild( child->getElementName() ) == NULL ) {
 			return NULL;
 		}
 		for ( daeInt i = 0; ( i < _maxOccurs || _maxOccurs == -1 ); i++ )
 		{
 			daeElementRefArray childsInChoice;
 			_children[ myData->get(i) ]->getChildren( parent, childsInChoice );
 			size_t cnt = _children.getCount();
 			for ( size_t x = myData->get(i) +1; x < cnt; x++ )
 			{
 				daeElementRefArray childsInNext;
 				_children[ x ]->getChildren( parent, childsInNext ); //If you get children in another choice then
 				//both choices can have the same type of children.
 				if ( childsInNext.getCount() == childsInChoice.getCount() )
 				{
 					//if there are the same ammount of children then all present children can belong to both
 					//choices. Try to place the new child in this next choice.
 					if ( _children[x]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
 					{
 						retVal = child;
 						ordinal = ordinal  + _ordinalOffset;

 						myData->set( i, (daeChar)x ); //change the choice to this new one
 						break;
 					}
 				}
 			}
 			if ( retVal != NULL ) break;
 		}
 	}
 	return retVal;
 }

 daeBool daeMetaChoice::removeElement( daeElement *parent, daeElement *child ) {
 	size_t cnt = _children.getCount();
 	for ( size_t x = 0; x < cnt; x++ ) {
 		if ( _children[x]->removeElement( parent, child ) ) {
 			return true;
 		}
 	}
 	return false;
 }

 daeMetaElement * daeMetaChoice::findChild( daeString elementName ) {
 	daeMetaElement *me = NULL;
 	size_t cnt = _children.getCount();
 	for ( size_t x = 0; x < cnt; x++ ) {
 		me = _children[x]->findChild( elementName );
 		if ( me != NULL ) {
 			return me;
 		}
 	}
 	return NULL;
 }

 void daeMetaChoice::getChildren( daeElement *parent, daeElementRefArray &array ) {
 	size_t cnt = _children.getCount();
 	for ( size_t x = 0; x < cnt; x++ ) {
 		_children[x]->getChildren( parent, array );
 	}
 }
	/*
	* Copyright 2006 Sony Computer Entertainment Inc.
	*
	* Licensed under the MIT Open Source License, for details please see license.txt or the website
	* http://www.opensource.org/licenses/mit-license.php
	*
	*/

	#include <dae/daeMetaChoice.h>
	#include <dae/daeMetaElement.h>

	daeMetaChoice::daeMetaChoice( daeMetaElement container, daeMetaCMPolicy parent, daeUInt choiceNum, daeUInt ordinal,
	daeInt minO, daeInt maxO) : daeMetaCMPolicy( container, parent, ordinal, minO, maxO ), _choiceNum(choiceNum)
	{}

	daeMetaChoice::~daeMetaChoice()
	{}

	daeElement daeMetaChoice::placeElement( daeElement parent, daeElement child, daeUInt &ordinal, daeInt offset, daeElement before, daeElement *after ) {
	(void)offset;
	if ( _maxOccurs == -1 ) {
	//Needed to prevent infinate loops. If unbounded check to see if you have the child before just trying to place
	if ( findChild( child->getElementName() ) == NULL ) {
	return NULL;
	}
	}

	daeElement *retVal = NULL;

	daeTArray< daeCharArray > CMData = (daeTArray< daeCharArray >)_container->getMetaCMData()->getWritableMemory(parent);
	daeCharArray *myData = CMData->get( _choiceNum );
	size_t count = myData->getCount();

	for ( daeInt i = 0; ( i < _maxOccurs \|\| _maxOccurs == -1 ); i++ )
	{
	if ( (daeInt) count > i && myData->get(i) != -1 ) //choice has already been made
	{
	if ( _children[ myData->get(i) ]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
	{
	retVal = child;
	ordinal = ordinal + _ordinalOffset;
	break;
	}
	//else //try to see if everything can be in a different choice
	//{
	// daeElementRefArray childsInChoice;
	// _children[ myData->get(i) ]->getChildren( parent, childsInChoice );
	// for ( size_t x = myData->get(i) +1; x < cnt; x++ )
	// {
	// daeElementRefArray childsInNext;
	// _children[ x ]->getChildren( parent, childsInNext ); //If you get children in another choice then
	// //both choices can have the same type of children.
	// if ( childsInNext.getCount() == childsInChoice.getCount() )
	// {
	// //if there are the same ammount of children then all present children can belong to both
	// //choices. Try to place the new child in this next choice.
	// if ( _children[x]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
	// {
	// retVal = child;
	// ordinal = ordinal + _ordinalOffset;

	// myData->set( i, (daeChar)x ); //change the choice to this new one
	// break;
	// }
	// }
	// }
	// if ( retVal != NULL ) break;
	//}
	}
	else //no choice has been made yet
	{
	size_t cnt = _children.getCount();
	for ( size_t x = 0; x < cnt; x++ )
	{
	if ( _children[x]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
	{
	retVal = child;
	ordinal = ordinal + _ordinalOffset;

	myData->append( (daeChar)x ); //you always place in the next available choice up to maxOccurs
	count ++;
	break;
	}
	}
	if ( retVal != NULL ) break;
	}
	}
	if ( retVal == NULL )
	{
	if ( findChild( child->getElementName() ) == NULL ) {
	return NULL;
	}
	for ( daeInt i = 0; ( i < _maxOccurs \|\| _maxOccurs == -1 ); i++ )
	{
	daeElementRefArray childsInChoice;
	_children[ myData->get(i) ]->getChildren( parent, childsInChoice );
	size_t cnt = _children.getCount();
	for ( size_t x = myData->get(i) +1; x < cnt; x++ )
	{
	daeElementRefArray childsInNext;
	_children[ x ]->getChildren( parent, childsInNext ); //If you get children in another choice then
	//both choices can have the same type of children.
	if ( childsInNext.getCount() == childsInChoice.getCount() )
	{
	//if there are the same ammount of children then all present children can belong to both
	//choices. Try to place the new child in this next choice.
	if ( _children[x]->placeElement( parent, child, ordinal, i, before, after ) != NULL )
	{
	retVal = child;
	ordinal = ordinal + _ordinalOffset;

	myData->set( i, (daeChar)x ); //change the choice to this new one
	break;
	}
	}
	}
	if ( retVal != NULL ) break;
	}
	}
	return retVal;
	}

	daeBool daeMetaChoice::removeElement( daeElement parent, daeElement child ) {
	size_t cnt = _children.getCount();
	for ( size_t x = 0; x < cnt; x++ ) {
	if ( _children[x]->removeElement( parent, child ) ) {
	return true;
	}
	}
	return false;
	}

	daeMetaElement * daeMetaChoice::findChild( daeString elementName ) {
	daeMetaElement *me = NULL;
	size_t cnt = _children.getCount();
	for ( size_t x = 0; x < cnt; x++ ) {
	me = _children[x]->findChild( elementName );
	if ( me != NULL ) {
	return me;
	}
	}
	return NULL;
	}

	void daeMetaChoice::getChildren( daeElement *parent, daeElementRefArray &array ) {
	size_t cnt = _children.getCount();
	for ( size_t x = 0; x < cnt; x++ ) {
	_children[x]->getChildren( parent, array );
	}
	}