lib3mf/Source/Model/Reader/v093/NMR_ModelReaderNode093_Triangles.cpp

/*++

Copyright (C) 2018 3MF Consortium

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are permitted provided that the following conditions are met:

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DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
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(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

Abstract:

NMR_ModelReaderNode093_Triangles.cpp implements the Model Reader Triangles Node
Class. A triangles reader model node is a parser for the triangles node of an
XML Model Stream.

--*/

#include "Model/Reader/v093/NMR_ModelReaderNode093_Triangles.h"
#include "Model/Reader/v093/NMR_ModelReaderNode093_Triangle.h"

#include "Model/Classes/NMR_ModelTexture2D.h"
#include "Model/Classes/NMR_ModelTexture2DGroup.h" 
#include "Model/Classes/NMR_ModelConstants.h"
#include "Common/NMR_StringUtils.h"
#include "Common/NMR_Exception.h"
#include "Common/NMR_Exception_Windows.h"

namespace NMR {

	CModelReaderNode093_Triangles::CModelReaderNode093_Triangles(_In_ CModel * pModel, _In_ CMesh * pMesh, _In_ PModelReader_ColorMapping pColorMapping, _In_ PModelReader_TexCoordMapping pTexCoordMapping, _In_ PModelBaseMaterialResource pMaterialResource, _In_ PModelWarnings pWarnings)
		: CModelReaderNode(pWarnings)
	{
		__NMRASSERT(pMesh);
		__NMRASSERT(pModel);
		__NMRASSERT(pColorMapping.get() != nullptr);
		__NMRASSERT(pTexCoordMapping.get() != nullptr);

		m_pModel = pModel;
		m_pMesh = pMesh;

		m_pColorMapping = pColorMapping;
		m_pTexCoordMapping = pTexCoordMapping;
		m_pDefaultMaterialResource = pMaterialResource;
	}

	void CModelReaderNode093_Triangles::parseXML(_In_ CXmlReader * pXMLReader)
	{
		// Parse Name
		parseName(pXMLReader);

		// Parse attribute
		parseAttributes(pXMLReader);

		// Parse Content
		parseContent(pXMLReader);
	}

	void CModelReaderNode093_Triangles::OnAttribute(_In_z_ const nfChar * pAttributeName, _In_z_ const nfChar * pAttributeValue)
	{
		__NMRASSERT(pAttributeName);
		__NMRASSERT(pAttributeValue);
	}

	void CModelReaderNode093_Triangles::OnNSChildElement(_In_z_ const nfChar * pChildName, _In_z_ const nfChar * pNameSpace, _In_ CXmlReader * pXMLReader)
	{
		__NMRASSERT(pChildName);
		__NMRASSERT(pXMLReader);
		__NMRASSERT(pNameSpace);

		if ((strcmp(pNameSpace, XML_3MF_NAMESPACE_CORESPEC093) == 0) || (strcmp(pNameSpace, "") == 0)) {

			if (strcmp(pChildName, XML_3MF_ELEMENT_TRIANGLE) == 0) {
				// Parse XML
				PModelReaderNode093_Triangle pXMLNode = std::make_shared<CModelReaderNode093_Triangle>(m_pWarnings);
				pXMLNode->parseXML(pXMLReader);

				// Retrieve node indices
				nfInt32 nIndex1, nIndex2, nIndex3;
				pXMLNode->retrieveIndices(nIndex1, nIndex2, nIndex3, m_pMesh->getNodeCount());

				nfInt32 nTextureIndex1, nTextureIndex2, nTextureIndex3;

				// Create face if valid
				if ((nIndex1 != nIndex2) && (nIndex1 != nIndex3) && (nIndex2 != nIndex3)) {
					MESHNODE * pNode1 = m_pMesh->getNode(nIndex1);
					MESHNODE * pNode2 = m_pMesh->getNode(nIndex2);
					MESHNODE * pNode3 = m_pMesh->getNode(nIndex3);
					MESHFACE * pFace = m_pMesh->addFace(pNode1, pNode2, pNode3);

					nfInt32 nColorID1, nColorID2, nColorID3;
					pXMLNode->retrieveColorIDs(nColorID1, nColorID2, nColorID3);
					nfInt32 nMaterialID = pXMLNode->retrieveMaterialID();
					nfInt32 nTextureID = pXMLNode->retrieveTextureID();

					// map colors to textures
					if ((nColorID1 == nColorID2) && (nColorID1 == nColorID3)) {
						if (m_pColorMapping->hasTextureReference(nColorID1)) {
							nTextureID = m_pColorMapping->getTextureReference(nColorID1);
							pXMLNode->retrieveTextureIndices(nTextureIndex1, nTextureIndex2, nTextureIndex3);
						}
					}

					// Create Texture Info
					if (nTextureID > 0) {
						CMeshInformation_Properties * pProperties = createPropertiesInformation();
						MESHINFORMATION_PROPERTIES* pFaceData = (MESHINFORMATION_PROPERTIES*)pProperties->getFaceData(pFace->m_index);
						if (pFaceData) {

							PModelTexture2DResource pTexture2dResource;

							// Convert Texture Coordinates to in memory representation
							PPackageResourceID pID = m_pModel->findPackageResourceID(m_pModel->currentPath(), nTextureID);
							if (pID.get()) {
								pTexture2dResource = std::dynamic_pointer_cast<NMR::CModelTexture2DResource>(m_pModel->findResource(pID->getUniqueID()));
							}
							if (!pTexture2dResource)
								throw CNMRException(NMR_ERROR_RESOURCENOTFOUND);

							// find or create ModelTexture2DGroup that points to this texture
							CModelTexture2DGroupResource* pTextureGroup = nullptr;
							for (nfUint32 iGroup = 0; iGroup < m_pModel->getTexture2DGroupCount(); iGroup++) {
								auto p = m_pModel->getTexture2DGroup(iGroup);
								if (p->getTexture2D() == pTexture2dResource) {
									pTextureGroup = p;
									break;
								}
							}
							if (!pTextureGroup) {
								// Create Resource
								// This is pretty bad way to set a new Model ResourceID, but we do not have read all resources yet...
								ModelResourceID nNewModelResourceID = (ModelResourceID)((long)XML_3MF_MAXRESOURCEINDEX - 1 - (long)m_pModel->getTexture2DGroupCount());
								
								PModelTexture2DGroupResource pSharedTextureGroup = std::make_shared<CModelTexture2DGroupResource>(nNewModelResourceID, m_pModel, pTexture2dResource);
								m_pModel->addResource(pSharedTextureGroup);
								pTextureGroup = pSharedTextureGroup.get();
							}

							pFaceData->m_nUniqueResourceID = pTextureGroup->getPackageResourceID()->getUniqueID();
							ModelResourceIndex nResourceIndex;
							MODELTEXTURE2DCOORDINATE sUV;
							nfFloat fU;
							nfFloat fV;
							m_pTexCoordMapping->findTexCoords(1, nTextureIndex1, nResourceIndex, fU, fV);
							sUV.m_dU = fU;
							sUV.m_dV = fV;
							pFaceData->m_nPropertyIDs[0] = pTextureGroup->addUVCoordinate(sUV);

							m_pTexCoordMapping->findTexCoords(1, nTextureIndex2, nResourceIndex, fU, fV);
							sUV.m_dU = fU;
							sUV.m_dV = fV;
							pFaceData->m_nPropertyIDs[1] = pTextureGroup->addUVCoordinate(sUV);

							m_pTexCoordMapping->findTexCoords(1, nTextureIndex3, nResourceIndex, fU, fV);
							sUV.m_dU = fU;
							sUV.m_dV = fV;
							pFaceData->m_nPropertyIDs[2] = pTextureGroup->addUVCoordinate(sUV);
						}
					}
					else {
						if ((nColorID1 > 0) && (nColorID2 > 0) && (nColorID3 > 0)) {
							throw CNMRException(NMR_ERROR_RESOURCENOTFOUND);
						}
						else {
							if (nMaterialID > 0) {
								// every v93 material becomes its own v100 base material group resource
								PModelBaseMaterialResource pBaseMaterialResource = std::dynamic_pointer_cast<NMR::CModelBaseMaterialResource>(m_pModel->findResource(m_pModel->currentPath(), nMaterialID));
								if (pBaseMaterialResource.get() != nullptr) {
									if (!pBaseMaterialResource->hasResourceIndexMap())
										pBaseMaterialResource->buildResourceIndexMap();

									CMeshInformation_Properties * pProperties = createPropertiesInformation();
									MESHINFORMATION_PROPERTIES* pFaceData = (MESHINFORMATION_PROPERTIES*)pProperties->getFaceData(pFace->m_index);
									if (pFaceData) {
										pFaceData->m_nUniqueResourceID = pBaseMaterialResource->getPackageResourceID()->getUniqueID();
										pFaceData->m_nPropertyIDs[0] = 1;
										pFaceData->m_nPropertyIDs[1] = 1;
										pFaceData->m_nPropertyIDs[2] = 1;
									}

									MESHINFORMATION_PROPERTIES* pDefaultData = (MESHINFORMATION_PROPERTIES*)pProperties->getDefaultData();
									if (m_pDefaultMaterialResource != nullptr) {
										if (!pDefaultData) {
											pDefaultData = new MESHINFORMATION_PROPERTIES;
											pDefaultData->m_nUniqueResourceID = 0;
											pDefaultData->m_nPropertyIDs[0] = 1;
											pDefaultData->m_nPropertyIDs[1] = 1;
											pDefaultData->m_nPropertyIDs[2] = 1;
											pProperties->setDefaultData((MESHINFORMATIONFACEDATA*)pDefaultData);
										}
										if (pDefaultData->m_nUniqueResourceID == 0) {
											pDefaultData->m_nUniqueResourceID = m_pDefaultMaterialResource->getPackageResourceID()->getUniqueID();
										}
									}
								}
							}

						}
					}
				}
			}
		}
	}

	_Ret_notnull_ CMeshInformation_Properties * CModelReaderNode093_Triangles::createPropertiesInformation()
	{
		CMeshInformationHandler * pMeshInformationHandler = m_pMesh->createMeshInformationHandler();

		CMeshInformation * pInformation = pMeshInformationHandler->getInformationByType(0, emiProperties);
		CMeshInformation_Properties * pProperties = nullptr;

		if (pInformation)
			pProperties = dynamic_cast<CMeshInformation_Properties *> (pInformation);

		if (!pProperties) {
			PMeshInformation_Properties pNewMeshInformation = std::make_shared<CMeshInformation_Properties>(m_pMesh->getFaceCount());
			pMeshInformationHandler->addInformation(pNewMeshInformation);

			pProperties = pNewMeshInformation.get();
		}

		return pProperties;
	}
}