""" Boolean geometry translation. """ from __future__ import absolute_import #Init has to be imported first because it has code to workaround the python bug where relative imports don't work if the module is imported as a main module. import __init__ from fabmetheus_utilities.geometry.creation import solid from fabmetheus_utilities.geometry.geometry_utilities import matrix from fabmetheus_utilities.vector3 import Vector3 from fabmetheus_utilities import euclidean __author__ = 'Enrique Perez (perez_enrique@yahoo.com)' __credits__ = 'Art of Illusion ' __date__ = '$Date: 2008/02/05 $' __license__ = 'GNU Affero General Public License http://www.gnu.org/licenses/agpl.html' globalExecutionOrder = 380 def getManipulatedGeometryOutput(elementNode, geometryOutput, prefix): "Get equated geometryOutput." translatePoints(elementNode, matrix.getVertexes(geometryOutput), prefix) return geometryOutput def getManipulatedPaths(close, elementNode, loop, prefix, sideLength): "Get equated paths." translatePoints(elementNode, loop, prefix) return [loop] def getNewDerivation(elementNode, prefix, sideLength): 'Get new derivation.' return TranslateDerivation(elementNode) def manipulateElementNode(elementNode, target): "Manipulate the xml element." derivation = TranslateDerivation(elementNode) if derivation.translateTetragrid == None: print('Warning, translateTetragrid was None in translate so nothing will be done for:') print(elementNode) return matrix.setAttributesToMultipliedTetragrid(target, derivation.translateTetragrid) def processElementNode(elementNode): "Process the xml element." solid.processElementNodeByFunction(elementNode, manipulateElementNode) def translateNegativesPositives(negatives, positives, translation): 'Translate the negatives and postives.' euclidean.translateVector3Path(matrix.getVertexes(negatives), translation) euclidean.translateVector3Path(matrix.getVertexes(positives), translation) def translatePoints(elementNode, points, prefix): "Translate the points." translateVector3 = matrix.getCumulativeVector3Remove(Vector3(), elementNode, prefix) if abs(translateVector3) > 0.0: euclidean.translateVector3Path(points, translateVector3) class TranslateDerivation: "Class to hold translate variables." def __init__(self, elementNode): 'Set defaults.' self.translateTetragrid = matrix.getTranslateTetragrid(elementNode, '')