def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix): 'Get inset geometryOutput.' derivation = InsetDerivation(elementNode, prefix) if derivation.radius == 0.0: return geometryOutput halfLayerHeight = 0.5 * derivation.radius importRadius = 0.5 * derivation.radius * setting.getImportCoarseness(elementNode) loopLayers = solid.getLoopLayersSetCopy(elementNode, geometryOutput, importRadius, derivation.radius) triangleAltitude = math.sqrt(0.75) * derivation.radius loops = [] vertexes = [] for loopLayerIndex in xrange(1, len(loopLayers), 2): loopLayer = loopLayers[loopLayerIndex] loopLayer.loops[0] = intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0], triangleAltitude) for loopLayerIndex in xrange(0, len(loopLayers), 2): loopLayer = loopLayers[loopLayerIndex] loopLists = [[solid.getLoopOrEmpty(loopLayerIndex - 2, loopLayers)]] loopLists.append([solid.getLoopOrEmpty(loopLayerIndex - 1, loopLayers)]) loopLists.append([intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0], derivation.radius)]) if evaluate.getEvaluatedBoolean(True, elementNode, prefix + 'insetTop'): loopLists.append([solid.getLoopOrEmpty(loopLayerIndex + 1, loopLayers)]) loopLists.append([solid.getLoopOrEmpty(loopLayerIndex + 2, loopLayers)]) largestLoop = euclidean.getLargestLoop(boolean_solid.getLoopsIntersection(importRadius, loopLists)) triangle_mesh.addVector3Loop(largestLoop, loops, vertexes, loopLayer.z) if evaluate.getEvaluatedBoolean(False, elementNode, prefix + 'addExtraTopLayer') and len(loops) > 0: topLoop = loops[-1] vector3Loop = [] loops.append(vector3Loop) z = topLoop[0].z + derivation.radius for point in topLoop: vector3Index = Vector3Index(len(vertexes), point.x, point.y, z) vector3Loop.append(vector3Index) vertexes.append(vector3Index) return triangle_mesh.getMeldedPillarOutput(loops)
def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix):
'Get outset geometryOutput.'
derivation = OutsetDerivation(elementNode, prefix)
if derivation.radius == 0.0:
return geometryOutput
halfLayerHeight = 0.5 * derivation.radius
importRadius = 0.5 * derivation.radius * setting.getImportCoarseness(
elementNode)
loopLayers = solid.getLoopLayersSetCopy(elementNode, geometryOutput,
importRadius, derivation.radius)
if len(loopLayers) == 0:
return triangle_mesh.getMeldedPillarOutput([])
triangleAltitude = math.sqrt(0.75) * derivation.radius
loops = []
vertexes = []
for loopLayerIndex in xrange(1, len(loopLayers), 2):
loopLayer = loopLayers[loopLayerIndex]
loopLayer.loops[0] = intercircle.getLargestInsetLoopFromLoop(
loopLayer.loops[0], triangleAltitude)
z = loopLayers[0].z - derivation.radius
for loopIndex in xrange(-2, len(loopLayers) + 2, 2):
loopLists = [[solid.getLoopOrEmpty(loopIndex - 2, loopLayers)]]
loopLists.append([solid.getLoopOrEmpty(loopIndex - 1, loopLayers)])
loopLists.append([
intercircle.getLargestInsetLoopFromLoop(
solid.getLoopOrEmpty(loopIndex, loopLayers),
-derivation.radius)
])
loopLists.append([solid.getLoopOrEmpty(loopIndex + 1, loopLayers)])
loopLists.append([solid.getLoopOrEmpty(loopIndex + 2, loopLayers)])
largestLoop = euclidean.getLargestLoop(
boolean_solid.getLoopsUnion(importRadius, loopLists))
triangle_mesh.addVector3Loop(largestLoop, loops, vertexes, z)
z += derivation.radius
return triangle_mesh.getMeldedPillarOutput(loops)
def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix): 'Get outset geometryOutput.' derivation = OutsetDerivation(elementNode, prefix) if derivation.radius == 0.0: return geometryOutput halfLayerHeight = 0.5 * derivation.radius importRadius = 0.5 * derivation.radius * setting.getImportCoarseness(elementNode) loopLayers = solid.getLoopLayersSetCopy(elementNode, geometryOutput, importRadius, derivation.radius) if len(loopLayers) == 0: return triangle_mesh.getMeldedPillarOutput([]) triangleAltitude = math.sqrt(0.75) * derivation.radius loops = [] vertexes = [] for loopLayerIndex in xrange(1, len(loopLayers), 2): loopLayer = loopLayers[loopLayerIndex] loopLayer.loops[0] = intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0], triangleAltitude) z = loopLayers[0].z - derivation.radius for loopIndex in xrange(-2, len(loopLayers) + 2, 2): loopLists = [[solid.getLoopOrEmpty(loopIndex - 2, loopLayers)]] loopLists.append([solid.getLoopOrEmpty(loopIndex - 1, loopLayers)]) loopLists.append([intercircle.getLargestInsetLoopFromLoop(solid.getLoopOrEmpty(loopIndex, loopLayers), -derivation.radius)]) loopLists.append([solid.getLoopOrEmpty(loopIndex + 1, loopLayers)]) loopLists.append([solid.getLoopOrEmpty(loopIndex + 2, loopLayers)]) largestLoop = euclidean.getLargestLoop(boolean_solid.getLoopsUnion(importRadius, loopLists)) triangle_mesh.addVector3Loop(largestLoop, loops, vertexes, z) z += derivation.radius return triangle_mesh.getMeldedPillarOutput(loops)
def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix): 'Get inset geometryOutput.' derivation = InsetDerivation(elementNode, prefix) if derivation.radius == 0.0: return geometryOutput halfLayerHeight = 0.5 * derivation.radius importRadius = 0.5 * derivation.radius * setting.getImportCoarseness(elementNode) loopLayers = solid.getLoopLayersSetCopy(elementNode, geometryOutput, importRadius, derivation.radius) triangleAltitude = math.sqrt(0.75) * derivation.radius loops = [] vertexes = [] for loopLayerIndex in xrange(1, len(loopLayers), 2): loopLayer = loopLayers[loopLayerIndex] loopLayer.loops[0] = intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0], triangleAltitude) for loopLayerIndex in xrange(0, len(loopLayers), 2): loopLayer = loopLayers[loopLayerIndex] loopLists = [[solid.getLoopOrEmpty(loopLayerIndex - 2, loopLayers)]] loopLists.append([solid.getLoopOrEmpty(loopLayerIndex - 1, loopLayers)]) loopLists.append([intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0], derivation.radius)]) if evaluate.getEvaluatedBoolean(True, elementNode, prefix + 'insetTop'): loopLists.append([solid.getLoopOrEmpty(loopLayerIndex + 1, loopLayers)]) loopLists.append([solid.getLoopOrEmpty(loopLayerIndex + 2, loopLayers)]) largestLoop = euclidean.getLargestLoop(boolean_solid.getLoopsIntersection(importRadius, loopLists)) triangle_mesh.addVector3Loop(largestLoop, loops, vertexes, loopLayer.z) if evaluate.getEvaluatedBoolean(False, elementNode, prefix + 'addExtraTopLayer') and len(loops) > 0: topLoop = loops[-1] vector3Loop = [] loops.append(vector3Loop) z = topLoop[0].z + derivation.radius for point in topLoop: vector3Index = Vector3Index(len(vertexes), point.x, point.y, z) vector3Loop.append(vector3Index) vertexes.append(vector3Index) return triangle_mesh.getMeldedPillarOutput(loops)