""" Shaft path. """ 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 lineation from fabmetheus_utilities.geometry.geometry_tools import path from fabmetheus_utilities.geometry.geometry_utilities import evaluate from fabmetheus_utilities import euclidean import math __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 getGeometryOutput(derivation, elementNode): "Get vector3 vertexes from attribute dictionary." if derivation == None: derivation = ShaftDerivation(elementNode) shaftPath = getShaftPath(derivation.depthBottom, derivation.depthTop, derivation.radius, derivation.sides) return lineation.getGeometryOutputByLoop(elementNode, lineation.SideLoop(shaftPath)) def getGeometryOutputByArguments(arguments, elementNode): "Get vector3 vertexes from attribute dictionary by arguments." evaluate.setAttributesByArguments(['radius', 'sides'], arguments, elementNode) return getGeometryOutput(None, elementNode) def getNewDerivation(elementNode): 'Get new derivation.' return ShaftDerivation(elementNode) def getShaftPath(depthBottom, depthTop, radius, sides): 'Get shaft with the option of a flat on the top and/or bottom.' if radius <= 0.0: return [] sideAngle = 2.0 * math.pi / float(abs(sides)) startAngle = 0.5 * sideAngle endAngle = math.pi - 0.1 * sideAngle shaftProfile = [] while startAngle < endAngle: unitPolar = euclidean.getWiddershinsUnitPolar(startAngle) shaftProfile.append(unitPolar * radius) startAngle += sideAngle if abs(sides) % 2 == 1: shaftProfile.append(complex(-radius, 0.0)) horizontalBegin = radius - depthTop horizontalEnd = depthBottom - radius shaftProfile = euclidean.getHorizontallyBoundedPath(horizontalBegin, horizontalEnd, shaftProfile) for shaftPointIndex, shaftPoint in enumerate(shaftProfile): shaftProfile[shaftPointIndex] = complex(shaftPoint.imag, shaftPoint.real) shaftPath = euclidean.getVector3Path(euclidean.getMirrorPath(shaftProfile)) if sides > 0: shaftPath.reverse() return shaftPath def processElementNode(elementNode): "Process the xml element." path.convertElementNode(elementNode, getGeometryOutput(None, elementNode)) class ShaftDerivation: "Class to hold shaft variables." def __init__(self, elementNode): 'Set defaults.' self.depthBottomOverRadius = evaluate.getEvaluatedFloat(0.0, elementNode, 'depthBottomOverRadius') self.depthTopOverRadius = evaluate.getEvaluatedFloat(0.0, elementNode, 'depthOverRadius') self.depthTopOverRadius = evaluate.getEvaluatedFloat( self.depthTopOverRadius, elementNode, 'depthTopOverRadius') self.radius = evaluate.getEvaluatedFloat(1.0, elementNode, 'radius') self.sides = evaluate.getEvaluatedInt(4, elementNode, 'sides') self.depthBottom = self.radius * self.depthBottomOverRadius self.depthBottom = evaluate.getEvaluatedFloat(self.depthBottom, elementNode, 'depthBottom') self.depthTop = self.radius * self.depthTopOverRadius self.depthTop = evaluate.getEvaluatedFloat(self.depthTop, elementNode, 'depth') self.depthTop = evaluate.getEvaluatedFloat(self.depthTop, elementNode, 'depthTop')