""" Boolean geometry disjoin. """ 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.geometry_tools import path from fabmetheus_utilities.geometry.geometry_utilities.evaluate_elements import setting from fabmetheus_utilities.geometry.geometry_utilities import boolean_geometry from fabmetheus_utilities.geometry.geometry_utilities import evaluate from fabmetheus_utilities.geometry.geometry_utilities import matrix from fabmetheus_utilities.geometry.solids import difference from fabmetheus_utilities.geometry.solids import triangle_mesh from fabmetheus_utilities import euclidean from fabmetheus_utilities import xml_simple_reader from fabmetheus_utilities.vector3 import Vector3 __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' def getLinkedElementNode(idSuffix, parentNode, target): 'Get elementNode with identifiers and parentNode.' linkedElementNode = xml_simple_reader.ElementNode() euclidean.overwriteDictionary(target.attributes, ['id', 'name', 'quantity'], linkedElementNode.attributes) linkedElementNode.addSuffixToID(idSuffix) tagKeys = target.getTagKeys() tagKeys.append('disjoin') tagKeys.sort() tags = ', '.join(tagKeys) linkedElementNode.attributes['tags'] = tags linkedElementNode.setParentAddToChildNodes(parentNode) linkedElementNode.addToIdentifierDictionaries() return linkedElementNode def getNewDerivation(elementNode): 'Get new derivation.' return DisjoinDerivation(elementNode) def processElementNode(elementNode): 'Process the xml element.' processElementNodeByDerivation(None, elementNode) def processElementNodeByDerivation(derivation, elementNode): 'Process the xml element by derivation.' if derivation == None: derivation = DisjoinDerivation(elementNode) targetElementNode = derivation.targetElementNode if targetElementNode == None: print('Warning, disjoin could not get target for:') print(elementNode) return xmlObject = targetElementNode.xmlObject if xmlObject == None: print('Warning, processElementNodeByDerivation in disjoin could not get xmlObject for:') print(targetElementNode) print(derivation.elementNode) return matrix.getBranchMatrixSetElementNode(targetElementNode) transformedVertexes = xmlObject.getTransformedVertexes() if len(transformedVertexes) < 1: print('Warning, transformedVertexes is zero in processElementNodeByDerivation in disjoin for:') print(xmlObject) print(targetElementNode) print(derivation.elementNode) return elementNode.localName = 'group' elementNode.getXMLProcessor().processElementNode(elementNode) targetChainMatrix = matrix.Matrix(xmlObject.getMatrixChainTetragrid()) minimumZ = boolean_geometry.getMinimumZ(xmlObject) z = minimumZ + 0.5 * derivation.sheetThickness zoneArrangement = triangle_mesh.ZoneArrangement(derivation.layerHeight, transformedVertexes) oldVisibleString = targetElementNode.attributes['visible'] targetElementNode.attributes['visible'] = True loops = boolean_geometry.getEmptyZLoops([xmlObject], derivation.importRadius, False, z, zoneArrangement) targetElementNode.attributes['visible'] = oldVisibleString vector3Loops = euclidean.getVector3Paths(loops, z) pathElement = getLinkedElementNode('_sheet', elementNode, targetElementNode) path.convertElementNode(pathElement, vector3Loops) targetOutput = xmlObject.getGeometryOutput() differenceElement = getLinkedElementNode('_solid', elementNode, targetElementNode) targetElementCopy = targetElementNode.getCopy('_positive', differenceElement) targetElementCopy.attributes['visible'] = True targetElementCopy.attributes.update(targetChainMatrix.getAttributes('matrix.')) complexMaximum = euclidean.getMaximumByVector3Path(transformedVertexes).dropAxis() complexMinimum = euclidean.getMinimumByVector3Path(transformedVertexes).dropAxis() centerComplex = 0.5 * (complexMaximum + complexMinimum) centerVector3 = Vector3(centerComplex.real, centerComplex.imag, minimumZ) slightlyMoreThanHalfExtent = 0.501 * (complexMaximum - complexMinimum) inradius = Vector3(slightlyMoreThanHalfExtent.real, slightlyMoreThanHalfExtent.imag, derivation.sheetThickness) cubeElement = xml_simple_reader.ElementNode() cubeElement.attributes['inradius'] = str(inradius) if not centerVector3.getIsDefault(): cubeElement.attributes['translate.'] = str(centerVector3) cubeElement.localName = 'cube' cubeElement.setParentAddToChildNodes(differenceElement) difference.processElementNode(differenceElement) class DisjoinDerivation: "Class to hold disjoin variables." def __init__(self, elementNode): 'Set defaults.' self.elementNode = elementNode self.importRadius = setting.getImportRadius(elementNode) self.layerHeight = setting.getLayerHeight(elementNode) self.sheetThickness = setting.getSheetThickness(elementNode) self.targetElementNode = evaluate.getElementNodeByKey(elementNode, 'target')