def setToArtOfIllusionDictionary(self):
"Set the shape of this carvable object info."
vertexElement = self.elementNode.getFirstChildByLocalName('vertex')
vertexPointElements = vertexElement.getChildNodesByLocalName('bf:Elem')
for vertexPointElement in vertexPointElements:
coordinateElement = vertexPointElement.getFirstChildByLocalName(
'r')
vertex = Vector3(float(coordinateElement.attributes['x']),
float(coordinateElement.attributes['y']),
float(coordinateElement.attributes['z']))
self.vertexes.append(vertex)
edgeElement = self.elementNode.getFirstChildByLocalName('edge')
edgeSubelements = edgeElement.getChildNodesByLocalName('bf:Elem')
for edgeSubelementIndex in xrange(len(edgeSubelements)):
edgeSubelement = edgeSubelements[edgeSubelementIndex]
vertexIndexes = [
int(edgeSubelement.attributes['v1']),
int(edgeSubelement.attributes['v2'])
]
edge = face.Edge().getFromVertexIndexes(edgeSubelementIndex,
vertexIndexes)
self.edges.append(edge)
faceElement = self.elementNode.getFirstChildByLocalName('face')
faceSubelements = faceElement.getChildNodesByLocalName('bf:Elem')
for faceSubelementIndex in xrange(len(faceSubelements)):
faceSubelement = faceSubelements[faceSubelementIndex]
edgeIndexes = [
int(faceSubelement.attributes['e1']),
int(faceSubelement.attributes['e2']),
int(faceSubelement.attributes['e3'])
]
self.faces.append(face.Face().getFromEdgeIndexes(
edgeIndexes, self.edges, faceSubelementIndex))
removeListArtOfIllusionFromDictionary(self.elementNode.attributes,
['closed', 'smoothingMethod'])
def getRemainingLoopAddFace(faces, remainingLoop):
"Get the remaining loop and add face."
for indexedVertexIndex, indexedVertex in enumerate(remainingLoop):
nextIndex = (indexedVertexIndex + 1) % len(remainingLoop)
previousIndex = (indexedVertexIndex + len(remainingLoop) -
1) % len(remainingLoop)
nextVertex = remainingLoop[nextIndex]
previousVertex = remainingLoop[previousIndex]
remainingPath = euclidean.getAroundLoop(
(indexedVertexIndex + 2) % len(remainingLoop), previousIndex,
remainingLoop)
if len(remainingLoop) < 4 or getIsPathEntirelyOutsideTriangle(
previousVertex, indexedVertex, nextVertex, remainingPath):
faceConvex = face.Face()
faceConvex.index = len(faces)
faceConvex.vertexIndexes.append(indexedVertex.index)
faceConvex.vertexIndexes.append(nextVertex.index)
faceConvex.vertexIndexes.append(previousVertex.index)
faces.append(faceConvex)
return euclidean.getAroundLoop(nextIndex, indexedVertexIndex,
remainingLoop)
print(
'Warning, could not decompose polygon in getRemainingLoopAddFace in trianglemesh for:'
)
print(remainingLoop)
return []
def addFacesGivenLine(faces, line):
"Add face given line index and lines."
parts = map(lambda p: p.split('/')[0], line.split())
for idx in xrange(1, len(parts) - 2):
addface = face.Face()
addface.index = len(faces)
addface.vertexIndexes.append(int(parts[1]) - 1)
addface.vertexIndexes.append(int(parts[idx + 1]) - 1)
addface.vertexIndexes.append(int(parts[idx + 2]) - 1)
faces.append(addface)
def getFaceGivenLine(line, triangleMesh):
"Add face given line index and lines."
faceGivenLine = face.Face()
faceGivenLine.index = len(triangleMesh.faces)
splitLine = line.split()
for vertexStringIndex in xrange(1, 4):
vertexString = splitLine[vertexStringIndex]
vertexStringWithSpaces = vertexString.replace('/', ' ')
vertexStringSplit = vertexStringWithSpaces.split()
vertexIndex = int(vertexStringSplit[0]) - 1
faceGivenLine.vertexIndexes.append(vertexIndex)
return faceGivenLine
def addFacesFromConvex(faces, indexedLoop): "Add faces from a convex polygon." if len(indexedLoop) < 1: return zeroIndex = indexedLoop[0].index for indexedPointIndex in xrange(1, len(indexedLoop) - 1): faceFromConvex = face.Face() faceFromConvex.index = len(faces) faceFromConvex.vertexIndexes.append(zeroIndex) faceFromConvex.vertexIndexes.append(indexedLoop[indexedPointIndex].index) faceFromConvex.vertexIndexes.append(indexedLoop[(indexedPointIndex + 1) % len(indexedLoop) ].index) faces.append(faceFromConvex)
def load(self, filename):
try:
zfile = zipfile.ZipFile(filename)
xml = zfile.read(zfile.namelist()[0])
zfile.close()
except zipfile.BadZipfile:
f = open(filename, "r")
xml = f.read()
f.close()
amf = ElementTree.fromstring(xml)
if 'unit' in amf.attrib:
unit = amf.attrib['unit'].lower()
else:
unit = 'millimeter'
if unit == 'millimeter':
scale = 1.0
elif unit == 'meter':
scale = 1000.0
elif unit == 'inch':
scale = 25.4
elif unit == 'feet':
scale = 304.8
elif unit == 'micron':
scale = 0.001
else:
print "Unknown unit in amf: %s" % (unit)
scale = 1.0
for obj in amf.iter('object'):
for mesh in obj.iter('mesh'):
startIndex = len(self.vertexes)
for vertices in mesh.iter('vertices'):
for vertex in vertices.iter('vertex'):
for coordinates in vertex.iter('coordinates'):
v = [0.0, 0.0, 0.0]
for t in coordinates:
if t.tag == 'x':
v[0] = float(t.text)
elif t.tag == 'y':
v[1] = float(t.text)
elif t.tag == 'z':
v[2] = float(t.text)
self.vertexes.append(Vector3(v[0], v[1], v[2]))
for volume in mesh.iter('volume'):
for triangle in volume.iter('triangle'):
f = face.Face()
f.index = len(self.faces)
for t in triangle:
if t.tag == 'v1' or t.tag == 'v2' or t.tag == 'v3':
f.vertexIndexes.append(startIndex +
int(t.text))
self.faces.append(f)
return self
def getFaceGivenLines( triangleMesh, vertexStartIndex, vertexIndexTable, vertexes ): "Add face given line index and lines." faceGivenLines = face.Face() faceGivenLines.index = len( triangleMesh.faces ) for vertexIndex in xrange( vertexStartIndex, vertexStartIndex + 3 ): vertex = vertexes[vertexIndex] vertexUniqueIndex = len( vertexIndexTable ) if str(vertex) in vertexIndexTable: vertexUniqueIndex = vertexIndexTable[ str(vertex) ] else: vertexIndexTable[ str(vertex) ] = vertexUniqueIndex triangleMesh.vertexes.append(vertex) faceGivenLines.vertexIndexes.append( vertexUniqueIndex ) return faceGivenLines
def addFacesByConvex(faces, indexedLoop): 'Add faces from a convex polygon.' if len(indexedLoop) < 3: return indexBegin = indexedLoop[0].index for indexedPointIndex in xrange(1, len(indexedLoop) - 1): indexCenter = indexedLoop[indexedPointIndex].index indexEnd = indexedLoop[(indexedPointIndex + 1) % len(indexedLoop) ].index if indexBegin != indexCenter and indexCenter != indexEnd and indexEnd != indexBegin: faceFromConvex = face.Face() faceFromConvex.index = len(faces) faceFromConvex.vertexIndexes.append(indexBegin) faceFromConvex.vertexIndexes.append(indexCenter) faceFromConvex.vertexIndexes.append(indexEnd) faces.append(faceFromConvex)
def addFacesGivenVertexes( triangleMesh, vertexIndexTable, vertexes ):
"Add faces given stl text."
for vertexIndex in xrange( 0, len(vertexes), 3 ):
faceGivenLines = face.Face()
faceGivenLines.index = len( triangleMesh.faces )
for i in xrange( vertexIndex, vertexIndex + 3 ):
vertex = vertexes[i]
vertexUniqueIndex = len( vertexIndexTable )
if str(vertex) in vertexIndexTable:
vertexUniqueIndex = vertexIndexTable[ str(vertex) ]
else:
vertexIndexTable[ str(vertex) ] = vertexUniqueIndex
triangleMesh.vertexes.append(vertex)
faceGivenLines.vertexIndexes.append( vertexUniqueIndex )
triangleMesh.faces.append( faceGivenLines )
def getFromGNUTriangulatedSurfaceText(gnuTriangulatedSurfaceText,
triangleMesh):
"Initialize from a GNU Triangulated Surface Text."
if gnuTriangulatedSurfaceText == '':
return None
lines = archive.getTextLines(gnuTriangulatedSurfaceText)
linesWithoutComments = []
for line in lines:
if len(line) > 0:
firstCharacter = line[0]
if firstCharacter != '#' and firstCharacter != '!':
linesWithoutComments.append(line)
splitLine = linesWithoutComments[0].split()
numberOfVertexes = int(splitLine[0])
numberOfEdges = int(splitLine[1])
numberOfFaces = int(splitLine[2])
faceTriples = []
for vertexIndex in xrange(numberOfVertexes):
line = linesWithoutComments[vertexIndex + 1]
splitLine = line.split()
vertex = Vector3(float(splitLine[0]), float(splitLine[1]),
float(splitLine[2]))
triangleMesh.vertexes.append(vertex)
edgeStart = numberOfVertexes + 1
for edgeIndex in xrange(numberOfEdges):
line = linesWithoutComments[edgeIndex + edgeStart]
splitLine = line.split()
vertexIndexes = []
for word in splitLine[:2]:
vertexIndexes.append(int(word) - 1)
edge = face.Edge().getFromVertexIndexes(edgeIndex, vertexIndexes)
triangleMesh.edges.append(edge)
faceStart = edgeStart + numberOfEdges
for faceIndex in xrange(numberOfFaces):
line = linesWithoutComments[faceIndex + faceStart]
splitLine = line.split()
edgeIndexes = []
for word in splitLine[:3]:
edgeIndexes.append(int(word) - 1)
triangleMesh.faces.append(face.Face().getFromEdgeIndexes(
edgeIndexes, triangleMesh.edges, faceIndex))
return triangleMesh
def _ProcessNode2(self, node, matrix=None):
if 'matrix' in node:
oldMatrix = matrix
matrix = map(float, node['matrix'][0]['__data'].split())
if oldMatrix != None:
newMatrix = [0] * 16
newMatrix[0] = oldMatrix[0] * matrix[0] + oldMatrix[1] * matrix[
4] + oldMatrix[2] * matrix[8] + oldMatrix[3] * matrix[12]
newMatrix[1] = oldMatrix[0] * matrix[1] + oldMatrix[1] * matrix[
5] + oldMatrix[2] * matrix[9] + oldMatrix[3] * matrix[13]
newMatrix[2] = oldMatrix[0] * matrix[2] + oldMatrix[1] * matrix[
6] + oldMatrix[2] * matrix[10] + oldMatrix[3] * matrix[14]
newMatrix[3] = oldMatrix[0] * matrix[3] + oldMatrix[1] * matrix[
7] + oldMatrix[2] * matrix[11] + oldMatrix[3] * matrix[15]
newMatrix[4] = oldMatrix[4] * matrix[0] + oldMatrix[5] * matrix[
4] + oldMatrix[6] * matrix[8] + oldMatrix[7] * matrix[12]
newMatrix[5] = oldMatrix[4] * matrix[1] + oldMatrix[5] * matrix[
5] + oldMatrix[6] * matrix[9] + oldMatrix[7] * matrix[13]
newMatrix[6] = oldMatrix[4] * matrix[2] + oldMatrix[5] * matrix[
6] + oldMatrix[6] * matrix[10] + oldMatrix[7] * matrix[14]
newMatrix[7] = oldMatrix[4] * matrix[3] + oldMatrix[5] * matrix[
7] + oldMatrix[6] * matrix[11] + oldMatrix[7] * matrix[15]
newMatrix[8] = oldMatrix[8] * matrix[0] + oldMatrix[9] * matrix[
4] + oldMatrix[10] * matrix[8] + oldMatrix[11] * matrix[12]
newMatrix[9] = oldMatrix[8] * matrix[1] + oldMatrix[9] * matrix[
5] + oldMatrix[10] * matrix[9] + oldMatrix[11] * matrix[13]
newMatrix[10] = oldMatrix[8] * matrix[2] + oldMatrix[
9] * matrix[6] + oldMatrix[10] * matrix[10] + oldMatrix[
11] * matrix[14]
newMatrix[11] = oldMatrix[8] * matrix[3] + oldMatrix[
9] * matrix[7] + oldMatrix[10] * matrix[11] + oldMatrix[
11] * matrix[15]
newMatrix[12] = oldMatrix[12] * matrix[0] + oldMatrix[
13] * matrix[4] + oldMatrix[14] * matrix[8] + oldMatrix[
15] * matrix[12]
newMatrix[13] = oldMatrix[12] * matrix[1] + oldMatrix[
13] * matrix[5] + oldMatrix[14] * matrix[9] + oldMatrix[
15] * matrix[13]
newMatrix[14] = oldMatrix[12] * matrix[2] + oldMatrix[
13] * matrix[6] + oldMatrix[14] * matrix[10] + oldMatrix[
15] * matrix[14]
newMatrix[15] = oldMatrix[12] * matrix[3] + oldMatrix[
13] * matrix[7] + oldMatrix[14] * matrix[11] + oldMatrix[
15] * matrix[15]
matrix = newMatrix
if 'node' in node:
for n in node['node']:
self._ProcessNode2(n, matrix)
if 'instance_geometry' in node:
for instance_geometry in node['instance_geometry']:
mesh = self._idMap[instance_geometry['_url']]['mesh'][0]
if 'triangles' in mesh:
for triangles in mesh['triangles']:
for input in triangles['input']:
if input['_semantic'] == 'VERTEX':
vertices = self._idMap[input['_source']]
for input in vertices['input']:
if input['_semantic'] == 'POSITION':
vertices = self._idMap[input['_source']]
indexList = map(int,
triangles['p'][0]['__data'].split())
positionList = map(
float,
vertices['float_array'][0]['__data'].split())
startIndex = len(self.vertexes)
for idx in xrange(0, len(positionList) / 3):
x = positionList[idx * 3] * self._scale
y = positionList[idx * 3 + 1] * self._scale
z = positionList[idx * 3 + 2] * self._scale
if matrix != None:
self.vertexes.append(
Vector3(
x * matrix[0] + y * matrix[1] +
z * matrix[2] + matrix[3],
x * matrix[4] + y * matrix[5] +
z * matrix[6] + matrix[7],
x * matrix[8] + y * matrix[9] +
z * matrix[10] + matrix[11]))
else:
self.vertexes.append(Vector3(x, y, z))
stepSize = len(indexList) / (int(triangles['_count']) *
3)
for i in xrange(0, int(triangles['_count'])):
idx = i * stepSize * 3
f = face.Face()
f.index = len(self.faces)
f.vertexIndexes.append(startIndex + indexList[idx])
f.vertexIndexes.append(startIndex +
indexList[idx + stepSize])
f.vertexIndexes.append(startIndex +
indexList[idx +
stepSize * 2])
self.faces.append(f)
if 'instance_node' in node:
for instance_node in node['instance_node']:
self._ProcessNode2(self._idMap[instance_node['_url']], matrix)