/*++

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Abstract:

NMR_MeshInformation_NodeColors.cpp implements the Node Color Mesh Information
Class. This class specializes the abstract Mesh Information Class to "colors
defined per node". It implements functions to interpolate and reconstruct colors
while the mesh topology is changing.

--*/

#include "Common/MeshInformation/NMR_MeshInformation_BaseMaterials.h" 
#include "Common/NMR_Exception.h" 
#include <cmath>

namespace NMR {

	CMeshInformation_BaseMaterials::CMeshInformation_BaseMaterials() : CMeshInformation()
	{
		m_pContainer = std::make_shared<CMeshInformationContainer>(0, (nfUint32) sizeof(MESHINFORMATION_BASEMATERIAL));
	}

	CMeshInformation_BaseMaterials::CMeshInformation_BaseMaterials(nfUint32 nCurrentFaceCount)
	{
		nfUint32 nIdx;
		m_pContainer = std::make_shared<CMeshInformationContainer>(nCurrentFaceCount, (nfUint32) sizeof(MESHINFORMATION_BASEMATERIAL));
		for (nIdx = 0; nIdx < nCurrentFaceCount; nIdx++)
			invalidateFace(m_pContainer->getFaceData(nIdx));
	}

	void CMeshInformation_BaseMaterials::invalidateFace(_In_ MESHINFORMATIONFACEDATA * pData)
	{
		MESHINFORMATION_BASEMATERIAL * pNodeData = (MESHINFORMATION_BASEMATERIAL *)pData;
		if (pNodeData) {
			pNodeData->m_nMaterialGroupID = 0;
			pNodeData->m_nMaterialIndex = 0;
		}
	}

	eMeshInformationType CMeshInformation_BaseMaterials::getType()
	{
		return emiBaseMaterials;
	}

	void CMeshInformation_BaseMaterials::cloneFaceInfosFrom(_In_ nfUint32 nFaceIndex, _In_ CMeshInformation * pOtherInformation, _In_ nfUint32 nOtherFaceIndex)
	{
		__NMRASSERT(pOtherInformation);

		MESHINFORMATION_BASEMATERIAL * pTargetFaceData = (MESHINFORMATION_BASEMATERIAL*)getFaceData(nFaceIndex);
		MESHINFORMATION_BASEMATERIAL * pSourceFaceData = (MESHINFORMATION_BASEMATERIAL*)pOtherInformation->getFaceData(nOtherFaceIndex);
		if (pTargetFaceData && pSourceFaceData) {
			pTargetFaceData->m_nMaterialGroupID = pSourceFaceData->m_nMaterialGroupID;
			pTargetFaceData->m_nMaterialIndex = pSourceFaceData->m_nMaterialIndex;
		}
	}

	PMeshInformation CMeshInformation_BaseMaterials::cloneInstance(_In_ nfUint32 nCurrentFaceCount)
	{
		return std::make_shared<CMeshInformation_BaseMaterials>(nCurrentFaceCount);
	}

	void CMeshInformation_BaseMaterials::permuteNodeInformation(_In_ nfUint32 nFaceIndex, _In_ nfUint32 nNodeIndex1, _In_ nfUint32 nNodeIndex2, _In_ nfUint32 nNodeIndex3)
	{
		// Nothing to do
	}

	nfUint32 CMeshInformation_BaseMaterials::getBackupSize()
	{
		return (nfUint32) sizeof (MESHINFORMATION_BASEMATERIAL);
	}

	void CMeshInformation_BaseMaterials::mergeInformationFrom(_In_ CMeshInformation * pInformation)
	{
		// nothing to merge
	}

	nfBool CMeshInformation_BaseMaterials::faceHasData(_In_ nfUint32 nFaceIndex)
	{
		MESHINFORMATION_BASEMATERIAL * pFaceData = (MESHINFORMATION_BASEMATERIAL*)getFaceData(nFaceIndex);
		if (pFaceData)
			return (pFaceData->m_nMaterialGroupID != 0);

		return false;
	}

}