def getLoopLayersSetCopy(elementNode, geometryOutput, importRadius, radius):
'Get the loop layers and set the copyShallow.'
halfLayerHeight = 0.5 * radius
copyShallow = elementNode.getCopyShallow()
processElementNodeByGeometry(copyShallow, geometryOutput)
targetMatrix = matrix.getBranchMatrixSetElementNode(elementNode)
matrix.setElementNodeDictionaryMatrix(copyShallow, targetMatrix)
transformedVertexes = copyShallow.xmlObject.getTransformedVertexes()
minimumZ = boolean_geometry.getMinimumZ(copyShallow.xmlObject)
if minimumZ == None:
copyShallow.parentNode.xmlObject.archivableObjects.remove(
copyShallow.xmlObject)
return []
maximumZ = euclidean.getTopPath(transformedVertexes)
copyShallow.attributes['visible'] = True
copyShallowObjects = [copyShallow.xmlObject]
bottomLoopLayer = euclidean.LoopLayer(minimumZ)
z = minimumZ + 0.1 * radius
zoneArrangement = triangle_mesh.ZoneArrangement(radius,
transformedVertexes)
bottomLoopLayer.loops = boolean_geometry.getEmptyZLoops(
copyShallowObjects, importRadius, False, z, zoneArrangement)
loopLayers = [bottomLoopLayer]
z = minimumZ + halfLayerHeight
loopLayers += boolean_geometry.getLoopLayers(copyShallowObjects,
importRadius, halfLayerHeight,
maximumZ, False, z,
zoneArrangement)
copyShallow.parentNode.xmlObject.archivableObjects.remove(
copyShallow.xmlObject)
return loopLayers
def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix): 'Get inset geometryOutput.' derivation = InsetDerivation(elementNode, prefix) if derivation.radius == 0.0: return geometryOutput copyShallow = elementNode.getCopyShallow() solid.processElementNodeByGeometry(copyShallow, geometryOutput) targetMatrix = matrix.getBranchMatrixSetElementNode(elementNode) matrix.setElementNodeDictionaryMatrix(copyShallow, targetMatrix) transformedVertexes = copyShallow.xmlObject.getTransformedVertexes() minimumZ = boolean_geometry.getMinimumZ(copyShallow.xmlObject) maximumZ = euclidean.getTopPath(transformedVertexes) layerThickness = setting.getLayerThickness(elementNode) importRadius = setting.getImportRadius(elementNode) zoneArrangement = triangle_mesh.ZoneArrangement(layerThickness, transformedVertexes) copyShallow.attributes['visible'] = True copyShallowObjects = [copyShallow.xmlObject] bottomLoopLayer = euclidean.LoopLayer(minimumZ) z = minimumZ + 0.1 * layerThickness bottomLoopLayer.loops = boolean_geometry.getEmptyZLoops(copyShallowObjects, importRadius, False, z, zoneArrangement) loopLayers = [bottomLoopLayer] z = minimumZ + layerThickness loopLayers += boolean_geometry.getLoopLayers(copyShallowObjects, importRadius, layerThickness, maximumZ, False, z, zoneArrangement) copyShallow.parentNode.xmlObject.archivableObjects.remove(copyShallow.xmlObject) belowLoop = [] diagonalRadius = math.sqrt(0.5) * derivation.radius insetDiagonalLoops = [] loops = [] vertexes = [] for loopLayer in loopLayers: insetDiagonalLoops.append(intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0], diagonalRadius)) for loopLayerIndex, loopLayer in enumerate(loopLayers): vector3Loop = [] insetLoop = intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0], derivation.radius) loopLists = [[getLoopOrEmpty(loopLayerIndex - 1, insetDiagonalLoops)], [insetLoop]] largestLoop = euclidean.getLargestLoop(boolean_solid.getLoopsIntersection(importRadius, loopLists)) if evaluate.getEvaluatedBoolean(True, elementNode, prefix + 'insetTop'): loopLists = [[getLoopOrEmpty(loopLayerIndex + 1, insetDiagonalLoops)], [largestLoop]] largestLoop = euclidean.getLargestLoop(boolean_solid.getLoopsIntersection(importRadius, loopLists)) for point in largestLoop: vector3Index = Vector3Index(len(vertexes), point.real, point.imag, loopLayer.z) vector3Loop.append(vector3Index) vertexes.append(vector3Index) if len(vector3Loop) > 0: loops.append(vector3Loop) if evaluate.getEvaluatedBoolean(False, elementNode, prefix + 'addExtraTopLayer') and len(loops) > 0: topLoop = loops[-1] vector3Loop = [] loops.append(vector3Loop) z = topLoop[0].z + layerThickness for point in topLoop: vector3Index = Vector3Index(len(vertexes), point.x, point.y, z) vector3Loop.append(vector3Index) vertexes.append(vector3Index) geometryOutput = triangle_mesh.getMeldedPillarOutput(loops) return geometryOutput
def getCarvableObject(elementNode, globalObject, object):
"Get new carvable object info."
object.xmlObject = globalObject()
object.xmlObject.elementNode = object
object.attributes['id'] = elementNode.getFirstChildByLocalName('name').getTextContent()
coords = elementNode.getFirstChildByLocalName('coords')
transformElementNode = getTransformElementNode(coords, 'transformFrom')
if len(transformElementNode.attributes) < 16:
transformElementNode = getTransformElementNode(coords, 'transformTo')
matrix.setElementNodeDictionaryMatrix(object, object.xmlObject.matrix4X4.getFromElementNode(transformElementNode, ''))
return object.xmlObject
def getCarvableObject(elementNode, globalObject, object):
"Get new carvable object info."
object.xmlObject = globalObject()
object.xmlObject.elementNode = object
object.attributes['id'] = elementNode.getFirstChildByLocalName('name').getTextContent()
coords = elementNode.getFirstChildByLocalName('coords')
transformElementNode = getTransformElementNode(coords, 'transformFrom')
if len(transformElementNode.attributes) < 16:
transformElementNode = getTransformElementNode(coords, 'transformTo')
matrix.setElementNodeDictionaryMatrix(object, object.xmlObject.matrix4X4.getFromElementNode(transformElementNode, ''))
return object.xmlObject
def getCarvableObject(elementNode, globalObject, object):
"Get new carvable object info."
object.xmlObject = globalObject()
object.xmlObject.elementNode = object
object.attributes["id"] = elementNode.getFirstChildByLocalName("name").getTextContent()
coords = elementNode.getFirstChildByLocalName("coords")
transformElementNode = getTransformElementNode(coords, "transformFrom")
if len(transformElementNode.attributes) < 16:
transformElementNode = getTransformElementNode(coords, "transformTo")
matrix.setElementNodeDictionaryMatrix(
object, object.xmlObject.matrix4X4.getFromElementNode(transformElementNode, "")
)
return object.xmlObject
def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix):
"Get bottomed geometryOutput."
derivation = BottomDerivation(elementNode, prefix)
copyShallow = elementNode.getCopyShallow()
solid.processElementNodeByGeometry(copyShallow, geometryOutput)
targetMatrix = matrix.getBranchMatrixSetElementNode(elementNode)
matrix.setElementNodeDictionaryMatrix(copyShallow, targetMatrix)
minimumZ = boolean_geometry.getMinimumZ(copyShallow.xmlObject)
copyShallow.parentNode.xmlObject.archivableObjects.remove(copyShallow.xmlObject)
lift = derivation.altitude - minimumZ
vertexes = matrix.getVertexes(geometryOutput)
for vertex in vertexes:
vertex.z += lift
return geometryOutput
def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix): 'Get bottomed geometryOutput.' derivation = BottomDerivation(elementNode, prefix) copyShallow = elementNode.getCopyShallow() solid.processElementNodeByGeometry(copyShallow, geometryOutput) targetMatrix = matrix.getBranchMatrixSetElementNode(elementNode) matrix.setElementNodeDictionaryMatrix(copyShallow, targetMatrix) minimumZ = boolean_geometry.getMinimumZ(copyShallow.xmlObject) copyShallow.parentNode.xmlObject.archivableObjects.remove(copyShallow.xmlObject) lift = derivation.altitude - minimumZ vertexes = matrix.getVertexes(geometryOutput) for vertex in vertexes: vertex.z += lift return geometryOutput
def bottomElementNode(derivation, target):
"Bottom target."
xmlObject = target.xmlObject
if xmlObject == None:
print("Warning, bottomTarget in bottom could not get xmlObject for:")
print(target)
print(derivation.elementNode)
return
targetMatrix = matrix.getBranchMatrixSetElementNode(target)
lift = derivation.altitude
transformedPaths = xmlObject.getTransformedPaths()
if len(transformedPaths) > 0:
lift += derivation.getAdditionalPathLift() - euclidean.getBottomByPaths(transformedPaths)
else:
lift -= boolean_geometry.getMinimumZ(xmlObject)
targetMatrix.tetragrid = matrix.getIdentityTetragrid(targetMatrix.tetragrid)
targetMatrix.tetragrid[2][3] += lift
matrix.setElementNodeDictionaryMatrix(target, targetMatrix)
def bottomElementNode(derivation, target):
"Bottom target."
xmlObject = target.xmlObject
if xmlObject == None:
print('Warning, bottomTarget in bottom could not get xmlObject for:')
print(target)
print(derivation.elementNode)
return
targetMatrix = matrix.getBranchMatrixSetElementNode(target)
lift = derivation.altitude
transformedPaths = xmlObject.getTransformedPaths()
if len(transformedPaths) > 0:
lift += derivation.getAdditionalPathLift() - euclidean.getBottomByPaths(transformedPaths)
else:
lift -= boolean_geometry.getMinimumZ(xmlObject)
targetMatrix.tetragrid = matrix.getIdentityTetragrid(targetMatrix.tetragrid)
targetMatrix.tetragrid[2][3] += lift
matrix.setElementNodeDictionaryMatrix(target, targetMatrix)
def getLoopLayersSetCopy(elementNode, geometryOutput, importRadius, radius): 'Get the loop layers and set the copyShallow.' halfLayerHeight = 0.5 * radius copyShallow = elementNode.getCopyShallow() processElementNodeByGeometry(copyShallow, geometryOutput) targetMatrix = matrix.getBranchMatrixSetElementNode(elementNode) matrix.setElementNodeDictionaryMatrix(copyShallow, targetMatrix) transformedVertexes = copyShallow.xmlObject.getTransformedVertexes() minimumZ = boolean_geometry.getMinimumZ(copyShallow.xmlObject) if minimumZ == None: copyShallow.parentNode.xmlObject.archivableObjects.remove(copyShallow.xmlObject) return [] maximumZ = euclidean.getTopPath(transformedVertexes) copyShallow.attributes['visible'] = True copyShallowObjects = [copyShallow.xmlObject] bottomLoopLayer = euclidean.LoopLayer(minimumZ) z = minimumZ + 0.1 * radius zoneArrangement = triangle_mesh.ZoneArrangement(radius, transformedVertexes) bottomLoopLayer.loops = boolean_geometry.getEmptyZLoops(copyShallowObjects, importRadius, False, z, zoneArrangement) loopLayers = [bottomLoopLayer] z = minimumZ + halfLayerHeight loopLayers += boolean_geometry.getLoopLayers(copyShallowObjects, importRadius, halfLayerHeight, maximumZ, False, z, zoneArrangement) copyShallow.parentNode.xmlObject.archivableObjects.remove(copyShallow.xmlObject) return loopLayers
def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix):
'Get inset geometryOutput.'
derivation = InsetDerivation(elementNode, prefix)
if derivation.radius == 0.0:
return geometryOutput
copyShallow = elementNode.getCopyShallow()
solid.processElementNodeByGeometry(copyShallow, geometryOutput)
targetMatrix = matrix.getBranchMatrixSetElementNode(elementNode)
matrix.setElementNodeDictionaryMatrix(copyShallow, targetMatrix)
transformedVertexes = copyShallow.xmlObject.getTransformedVertexes()
minimumZ = boolean_geometry.getMinimumZ(copyShallow.xmlObject)
maximumZ = euclidean.getTopPath(transformedVertexes)
layerThickness = setting.getLayerThickness(elementNode)
importRadius = setting.getImportRadius(elementNode)
zoneArrangement = triangle_mesh.ZoneArrangement(layerThickness,
transformedVertexes)
copyShallow.attributes['visible'] = True
copyShallowObjects = [copyShallow.xmlObject]
bottomLoopLayer = euclidean.LoopLayer(minimumZ)
z = minimumZ + 0.1 * layerThickness
bottomLoopLayer.loops = boolean_geometry.getEmptyZLoops(
copyShallowObjects, importRadius, False, z, zoneArrangement)
loopLayers = [bottomLoopLayer]
z = minimumZ + layerThickness
loopLayers += boolean_geometry.getLoopLayers(copyShallowObjects,
importRadius, layerThickness,
maximumZ, False, z,
zoneArrangement)
copyShallow.parentNode.xmlObject.archivableObjects.remove(
copyShallow.xmlObject)
belowLoop = []
diagonalRadius = math.sqrt(0.5) * derivation.radius
insetDiagonalLoops = []
loops = []
vertexes = []
for loopLayer in loopLayers:
insetDiagonalLoops.append(
intercircle.getLargestInsetLoopFromLoop(loopLayer.loops[0],
diagonalRadius))
for loopLayerIndex, loopLayer in enumerate(loopLayers):
vector3Loop = []
insetLoop = intercircle.getLargestInsetLoopFromLoop(
loopLayer.loops[0], derivation.radius)
loopLists = [[getLoopOrEmpty(loopLayerIndex - 1, insetDiagonalLoops)],
[insetLoop]]
largestLoop = euclidean.getLargestLoop(
boolean_solid.getLoopsIntersection(importRadius, loopLists))
if evaluate.getEvaluatedBoolean(True, elementNode,
prefix + 'insetTop'):
loopLists = [[
getLoopOrEmpty(loopLayerIndex + 1, insetDiagonalLoops)
], [largestLoop]]
largestLoop = euclidean.getLargestLoop(
boolean_solid.getLoopsIntersection(importRadius, loopLists))
for point in largestLoop:
vector3Index = Vector3Index(len(vertexes), point.real, point.imag,
loopLayer.z)
vector3Loop.append(vector3Index)
vertexes.append(vector3Index)
if len(vector3Loop) > 0:
loops.append(vector3Loop)
if evaluate.getEvaluatedBoolean(False, elementNode, prefix +
'addExtraTopLayer') and len(loops) > 0:
topLoop = loops[-1]
vector3Loop = []
loops.append(vector3Loop)
z = topLoop[0].z + layerThickness
for point in topLoop:
vector3Index = Vector3Index(len(vertexes), point.x, point.y, z)
vector3Loop.append(vector3Index)
vertexes.append(vector3Index)
geometryOutput = triangle_mesh.getMeldedPillarOutput(loops)
return geometryOutput
