def ExportMesh(scene, sceneNode, blenderScene, blenderObjectMesh):
    '''convert a blender mesh to an alchemedia node'''

    # get the blender mesh from teh object
    blenderMesh = blenderObjectMesh.data

    # create the mesh node
    meshNode = scene.CreateMeshNode(sceneNode)
    meshInfo = pyScene.pyMesh(scene, meshNode)
    meshInfo.SetName(blenderObjectMesh.getName())

    # add the mesh materials
    hasMaterial = False
    materialMap = [
        -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1
    ]
    materials = blenderMesh.getMaterials(1)
    for i, material in enumerate(materials):
        if material != None:
            hasMaterial = True
            materialMap[i] = i
            materialNode = scene.CreateMaterialNode(meshNode, i)
            materialInfo = pyScene.pyMaterial(scene, materialNode)

            # export any texture
            for texture in material.getTextures():
                if texture and texture.tex.type == Blender.Texture.Types.IMAGE:
                    image = texture.tex.image
                    if image != None:
                        # create a texture and attache to the material
                        name = image.getName()
                        textureNode = scene.CreateTextureNode(name)
                        scene.AddReference(materialNode, textureNode)

                        # link the texture ID to and the materail
                        textureInfo = pyScene.pyTexture(scene, textureNode)
                        materialInfo.SetAmbientTextId(textureInfo.GetId())
                        materialInfo.SetDiffuseTextId(textureInfo.GetId())

    # if the mesh do not have material add a default material
    if hasMaterial == False:
        materialMap[0] = 0
        materialNode = scene.CreateMaterialNode(meshNode, 0)

    # create the vertex List and face arrays
    faceCount = len(blenderMesh.faces)
    vertexCount = len(blenderMesh.verts)

    faceIndexCountArray = pyScene.intArray(faceCount)
    vertexArray = pyScene.doubleArray(vertexCount * 3)
    faceMaterialIndexArray = pyScene.intArray(faceCount)
    vertexIndexArray = pyScene.intArray(faceCount * 4)
    normalArray = pyScene.doubleArray(faceCount * 4 * 3)
    uvArray = pyScene.doubleArray(faceCount * 4 * 2)

    # copy vertex points from the vertex list
    for i, v in enumerate(blenderMesh.verts):
        vertexArray[i * 3 + 0] = v.co.x
        vertexArray[i * 3 + 1] = v.co.y
        vertexArray[i * 3 + 2] = v.co.z

    # copy face data from the face list
    index = 0
    if blenderMesh.hasFaceUV() == True:
        # mesh with uv mapping
        for i, face in enumerate(blenderMesh.faces):
            pointCount = len(face.v)
            faceMaterialIndexArray[i] = face.mat
            faceIndexCountArray[i] = pointCount

            for j, point in enumerate(face):
                vertexIndexArray[index + j] = point.index

                normalIndex = (index + j) * 3
                normalArray[normalIndex + 0] = point.no.x
                normalArray[normalIndex + 1] = point.no.y
                normalArray[normalIndex + 2] = point.no.z

                uvIndex = (index + j) * 2

                uvArray[uvIndex + 0] = face.uv[j][0]
                uvArray[uvIndex + 1] = face.uv[j][1]
            index = index + pointCount
    else:
        # mesh have no uv mapping
        for i, face in enumerate(blenderMesh.faces):
            pointCount = len(face.v)
            faceMaterialIndexArray[i] = face.mat
            faceIndexCountArray[i] = pointCount

            for j, point in enumerate(face):
                vertexIndexArray[index + j] = point.index

                normalIndex = (index + j) * 3
                normalArray[normalIndex + 0] = point.no.x
                normalArray[normalIndex + 1] = point.no.y
                normalArray[normalIndex + 2] = point.no.z

                uvIndex = (index + j) * 2
                uvArray[uvIndex + 0] = 0
                uvArray[uvIndex + 1] = 0
            index = index + pointCount

    # create the alchemedia mesh
    meshInfo.BuildFromVertexListIndexList(faceCount, faceIndexCountArray,
                                          faceMaterialIndexArray, vertexArray,
                                          vertexIndexArray, normalArray,
                                          uvArray)

    # normal are completly bogus in blender, just recalculate proper normals
    #meshInfo.SmoothNormals (blenderMesh.degr)
    meshInfo.SmoothNormals(30)
def CreateBlenderMeshObjectFromNode (scene, meshNode, blenderScene): 
	# Get a alchemedia mesh for the node and buidl a blender mesh
	mesh = pyScene.pyMesh (scene, meshNode)	
	
	# create a blender mesh
	newMesh = bpy.data.meshes.new(scene.GetNodeName(meshNode)) 		
	
	# Create all verte and face data
	vertexList = []		
	vertexCount = mesh.GetVertexCount()
	for i in range(0, vertexCount):
		vertex = mesh.GetVertex (i)
		vertexList.append([vertex.x, vertex.y, vertex.z]) 
		
	faceList = []
	faceNode = mesh.GetFirstTriangle()
	while faceNode != None:
		face = mesh.GetTriangle (faceNode);
		faceList.append([face.p0.vertex, face.p1.vertex, face.p2.vertex]) 
		faceNode = mesh.GetNextTriangle(faceNode)

	newMesh.verts.extend(vertexList)         # add vertices to mesh
	newMesh.faces.extend(faceList)           # add faces to the mesh (also adds edges)

	# create all materials from this mesh
	materialIndex = 0
	materialMap = {}
	meshMaterials = newMesh.materials
	childLink = scene.GetFirstChildLink (meshNode)
	while childLink != None: 
		childNode = scene.GetNodeFromLink(childLink)
		if scene.IsMaterialNode(childNode) == True:
			# make a blender material and a alchemdia material
			material = CreateBlenderMaterialFromNode (scene, childNode, blenderScene) 	
			meshMaterials.append(material)
			
			# add a map key for asigning faces
			sourceMaterial = pyScene.pyMaterial(scene, childNode)
			materialMap[sourceMaterial.GetId()] = materialIndex
			
			materialIndex = materialIndex + 1
		childLink = scene.GetNextChildLink (meshNode, childLink)
	newMesh.materials = meshMaterials

	
	# In a secund pass asign material and uv mapping to faces
	faceIndex = 0
	newMesh.faceUV= True
	faceNode = mesh.GetFirstTriangle()
	while faceNode != None:
		face = mesh.GetTriangle (faceNode);
		newMesh.faces[faceIndex].mat = materialMap[face.materialIndex]

		uv0 = mesh.GetUV0(face.p0.uv0)
		uv1 = mesh.GetUV0(face.p1.uv0)
		uv2 = mesh.GetUV0(face.p2.uv0)
		newMesh.faces[faceIndex].uv = [Vector(uv0.x, uv0.y), Vector(uv1.x, uv1.y), Vector(uv2.x, uv2.y)]
		
		faceIndex = faceIndex + 1
		faceNode = mesh.GetNextTriangle(faceNode)
	
	# link mesh to blend objects	
	object = blenderScene.objects.new(newMesh, scene.GetNodeName(meshNode))	
	

	# calculate normal after mesh is parented	
	#newMesh.mode |= Blender.Mesh.Modes.AUTOSMOOTH
	#newMesh.degr = 30
	#for face in newMesh.faces:
	#	face.smooth = 1
	#newMesh.calcNormals()

	return object 
def ExportMesh(scene, sceneNode, blenderScene, blenderObjectMesh):
	'''convert a blender mesh to an alchemedia node'''
	
	# get the blender mesh from teh object
	blenderMesh = blenderObjectMesh.data

	# create the mesh node	
	meshNode = scene.CreateMeshNode(sceneNode)
	meshInfo = pyScene.pyMesh(scene, meshNode)
	meshInfo.SetName (blenderObjectMesh.getName())
	
	# add the mesh materials
	hasMaterial = False
	materialMap = [-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1];
	materials = blenderMesh.getMaterials (1)
	for i, material in enumerate (materials):
		if material != None:
			hasMaterial = True
			materialMap[i] = i;
			materialNode = scene.CreateMaterialNode(meshNode, i)
			materialInfo = pyScene.pyMaterial(scene, materialNode)
			
			# export any texture
			for texture in material.getTextures():
				if texture and texture.tex.type == Blender.Texture.Types.IMAGE:
					image = texture.tex.image
					if image != None:
						# create a texture and attache to the material
						name = image.getName()
						textureNode = scene.CreateTextureNode(name)
						scene.AddReference (materialNode, textureNode)
						
						# link the texture ID to and the materail
						textureInfo = pyScene.pyTexture(scene, textureNode)
						materialInfo.SetAmbientTextId (textureInfo.GetId())
						materialInfo.SetDiffuseTextId (textureInfo.GetId())
					
					
					
			
	
	# if the mesh do not have material add a default material			
	if hasMaterial == False:
		materialMap[0] = 0;
		materialNode = scene.CreateMaterialNode(meshNode, 0)
	
	# create the vertex List and face arrays
	faceCount = len(blenderMesh.faces)	
	vertexCount = len(blenderMesh.verts)
	
	faceIndexCountArray = pyScene.intArray(faceCount)
	vertexArray = pyScene.doubleArray(vertexCount * 3)
	faceMaterialIndexArray = pyScene.intArray(faceCount)	
	vertexIndexArray = pyScene.intArray(faceCount * 4)
	normalArray = pyScene.doubleArray(faceCount * 4 * 3)
	uvArray = pyScene.doubleArray(faceCount * 4 * 2)
	
	# copy vertex points from the vertex list
	for i, v in enumerate(blenderMesh.verts):
		vertexArray[i * 3 + 0] = v.co.x 
		vertexArray[i * 3 + 1] = v.co.y 
		vertexArray[i * 3 + 2] = v.co.z 
	

	# copy face data from the face list
	index = 0	
	if blenderMesh.hasFaceUV() == True:
		# mesh with uv mapping 
		for i, face in enumerate(blenderMesh.faces):
			pointCount = len(face.v)
			faceMaterialIndexArray[i] = face.mat
			faceIndexCountArray[i] = pointCount
			
			for j, point in enumerate(face):
				vertexIndexArray[index + j] = point.index
				
				normalIndex = (index + j) * 3
				normalArray[normalIndex + 0] = point.no.x
				normalArray[normalIndex + 1] = point.no.y
				normalArray[normalIndex + 2] = point.no.z
				
				uvIndex = (index + j) * 2
				
				uvArray[uvIndex + 0] = face.uv[j][0]
				uvArray[uvIndex + 1] = face.uv[j][1]
			index = index + pointCount
	else:
		# mesh have no uv mapping
		for i, face in enumerate(blenderMesh.faces):
			pointCount = len(face.v)
			faceMaterialIndexArray[i] = face.mat
			faceIndexCountArray[i] = pointCount
			
			for j, point in enumerate(face):
				vertexIndexArray[index + j] = point.index
				
				normalIndex = (index + j) * 3
				normalArray[normalIndex + 0] = point.no.x
				normalArray[normalIndex + 1] = point.no.y
				normalArray[normalIndex + 2] = point.no.z
				
				uvIndex = (index + j) * 2
				uvArray[uvIndex + 0] = 0
				uvArray[uvIndex + 1] = 0
			index = index + pointCount
				
	# create the alchemedia mesh
	meshInfo.BuildFromVertexListIndexList(faceCount, faceIndexCountArray, faceMaterialIndexArray, vertexArray, vertexIndexArray, normalArray, uvArray);
	
	# normal are completly bogus in blender, just recalculate proper normals 
	#meshInfo.SmoothNormals (blenderMesh.degr)
	meshInfo.SmoothNormals (30)
示例#4
0
def CreateBlenderMeshObjectFromNode(scene, meshNode, blenderScene):
    # Get a alchemedia mesh for the node and buidl a blender mesh
    mesh = pyScene.pyMesh(scene, meshNode)

    # create a blender mesh
    newMesh = bpy.data.meshes.new(scene.GetNodeName(meshNode))

    # Create all verte and face data
    vertexList = []
    vertexCount = mesh.GetVertexCount()
    for i in range(0, vertexCount):
        vertex = mesh.GetVertex(i)
        vertexList.append([vertex.x, vertex.y, vertex.z])

    faceList = []
    faceNode = mesh.GetFirstTriangle()
    while faceNode != None:
        face = mesh.GetTriangle(faceNode)
        faceList.append([face.p0.vertex, face.p1.vertex, face.p2.vertex])
        faceNode = mesh.GetNextTriangle(faceNode)

    newMesh.verts.extend(vertexList)  # add vertices to mesh
    newMesh.faces.extend(faceList)  # add faces to the mesh (also adds edges)

    # create all materials from this mesh
    materialIndex = 0
    materialMap = {}
    meshMaterials = newMesh.materials
    childLink = scene.GetFirstChildLink(meshNode)
    while childLink != None:
        childNode = scene.GetNodeFromLink(childLink)
        if scene.IsMaterialNode(childNode) == True:
            # make a blender material and a alchemdia material
            material = CreateBlenderMaterialFromNode(scene, childNode,
                                                     blenderScene)
            meshMaterials.append(material)

            # add a map key for asigning faces
            sourceMaterial = pyScene.pyMaterial(scene, childNode)
            materialMap[sourceMaterial.GetId()] = materialIndex

            materialIndex = materialIndex + 1
        childLink = scene.GetNextChildLink(meshNode, childLink)
    newMesh.materials = meshMaterials

    # In a secund pass asign material and uv mapping to faces
    faceIndex = 0
    newMesh.faceUV = True
    faceNode = mesh.GetFirstTriangle()
    while faceNode != None:
        face = mesh.GetTriangle(faceNode)
        newMesh.faces[faceIndex].mat = materialMap[face.materialIndex]

        uv0 = mesh.GetUV0(face.p0.uv0)
        uv1 = mesh.GetUV0(face.p1.uv0)
        uv2 = mesh.GetUV0(face.p2.uv0)
        newMesh.faces[faceIndex].uv = [
            Vector(uv0.x, uv0.y),
            Vector(uv1.x, uv1.y),
            Vector(uv2.x, uv2.y)
        ]

        faceIndex = faceIndex + 1
        faceNode = mesh.GetNextTriangle(faceNode)

    # link mesh to blend objects
    object = blenderScene.objects.new(newMesh, scene.GetNodeName(meshNode))

    # calculate normal after mesh is parented
    #newMesh.mode |= Blender.Mesh.Modes.AUTOSMOOTH
    #newMesh.degr = 30
    #for face in newMesh.faces:
    #	face.smooth = 1
    #newMesh.calcNormals()

    return object