def getRadiusFromXMLElement( sideAngle, xmlElement ): "Get radius from attribute dictionary." if 'radius' in xmlElement.attributeDictionary: return evaluate.getEvaluatedFloatOne( 'radius', xmlElement ) if 'apothem' in xmlElement.attributeDictionary: return getRadiusFromApothem( evaluate.getEvaluatedFloatOne( 'apothem', xmlElement ), sideAngle ) if 'inradius' in xmlElement.attributeDictionary: return getRadiusFromApothem( evaluate.getEvaluatedFloatOne( 'inradius', xmlElement ), sideAngle ) return 1.0
def getRadiusFromXMLElement(sideAngle, xmlElement):
"Get radius from attribute dictionary."
if 'radius' in xmlElement.attributeDictionary:
return evaluate.getEvaluatedFloatOne('radius', xmlElement)
if 'apothem' in xmlElement.attributeDictionary:
return getRadiusFromApothem(
evaluate.getEvaluatedFloatOne('apothem', xmlElement), sideAngle)
if 'inradius' in xmlElement.attributeDictionary:
return getRadiusFromApothem(
evaluate.getEvaluatedFloatOne('inradius', xmlElement), sideAngle)
return 1.0
def getGeometryOutput(xmlElement):
"Get vector3 vertices from attribute dictionary."
radius = complex(1.0, 1.0)
radius = lineation.getComplexByPrefixes(['demisize', 'radius'], radius, xmlElement)
radius = lineation.getComplexByMultiplierPrefixes(2.0, ['diameter', 'size'], radius, xmlElement)
sides = evaluate.getSidesMinimumThree(max(radius.real, radius.imag), xmlElement)
sides = evaluate.getEvaluatedFloatDefault(sides, 'sides', xmlElement)
loop = []
start = evaluate.getEvaluatedFloatZero('start', xmlElement)
start = getWrappedFloat(start, 360.0)
extent = evaluate.getEvaluatedFloatDefault(360.0 - start, 'extent', xmlElement)
end = evaluate.getEvaluatedFloatDefault(start + extent, 'end', xmlElement)
end = getWrappedFloat(end, 360.0)
revolutions = evaluate.getEvaluatedFloatOne('revolutions', xmlElement)
if revolutions > 1:
end += 360.0 * (revolutions - 1)
sidesCeiling = int(math.ceil(abs(sides) * extent / 360.0))
sideAngle = math.radians(extent) / sidesCeiling
startAngle = math.radians(start)
for side in xrange(sidesCeiling + (extent != 360.0)):
angle = float(side) * sideAngle + startAngle
point = euclidean.getWiddershinsUnitPolar(angle)
vertex = Vector3(point.real * radius.real, point.imag * radius.imag)
loop.append(vertex)
sideLength = sideAngle * lineation.getAverageRadius(radius)
return lineation.getGeometryOutputByLoop(lineation.SideLoop(loop, sideAngle, sideLength), xmlElement)
def getGeometryOutput(xmlElement):
"Get vector3 vertexes from attribute dictionary."
radius = lineation.getRadiusComplex(complex(1.0, 1.0), xmlElement)
sides = evaluate.getSidesMinimumThreeBasedOnPrecisionSides(max(radius.real, radius.imag), xmlElement)
loop = []
start = evaluate.getEvaluatedFloatZero('start', xmlElement)
start = getWrappedFloat(start, 360.0)
extent = evaluate.getEvaluatedFloatDefault(360.0 - start, 'extent', xmlElement)
end = evaluate.getEvaluatedFloatDefault(start + extent, 'end', xmlElement)
end = getWrappedFloat(end, 360.0)
revolutions = evaluate.getEvaluatedFloatOne('revolutions', xmlElement)
if revolutions > 1:
end += 360.0 * (revolutions - 1)
angleTotal = math.radians(start)
extent = end - start
sidesCeiling = int(math.ceil(abs(sides) * extent / 360.0))
sideAngle = math.radians(extent) / sidesCeiling
spiral = lineation.Spiral(0.5 * sideAngle / math.pi, xmlElement)
for side in xrange(sidesCeiling + (extent != 360.0)):
unitPolar = euclidean.getWiddershinsUnitPolar(angleTotal)
vertex = spiral.getSpiralPoint(unitPolar, Vector3(unitPolar.real * radius.real, unitPolar.imag * radius.imag))
angleTotal += sideAngle
loop.append(vertex)
sideLength = sideAngle * lineation.getAverageRadius(radius)
lineation.setClosedAttribute(revolutions, xmlElement)
return lineation.getGeometryOutputByLoop(lineation.SideLoop(loop, sideAngle, sideLength), xmlElement)
def setToObjectAttributeDictionary(self):
"Set the shape of this carvable object info."
self.inradius = evaluate.getVector3ByPrefixes( ['demisize', 'inradius', 'radius'], Vector3(1.0, 1.0, 1.0), self.xmlElement )
self.inradius = evaluate.getVector3ByMultiplierPrefixes( 2.0, ['diameter', 'size'], self.inradius, self.xmlElement )
self.inradius.z = 0.5 * evaluate.getEvaluatedFloatDefault( self.inradius.z + self.inradius.z, 'height', self.xmlElement )
self.topOverBottom = evaluate.getEvaluatedFloatOne('topoverbottom', self.xmlElement )
self.xmlElement.attributeDictionary['height'] = self.inradius.z + self.inradius.z
self.xmlElement.attributeDictionary['radius.x'] = self.inradius.x
self.xmlElement.attributeDictionary['radius.y'] = self.inradius.y
self.xmlElement.attributeDictionary['topoverbottom'] = self.topOverBottom
self.createShape()
def setToObjectAttributeDictionary( self ): "Set the shape of this carvable object info." radius = evaluate.getVector3ByPrefix( 'radius', Vector3( 1.0, 1.0, 1.0 ), self.xmlElement ) radius = evaluate.getVector3ThroughSizeDiameter( radius, self.xmlElement ) self.height = evaluate.getEvaluatedFloatDefault( radius.z + radius.z, 'height', self.xmlElement ) self.radiusX = radius.x self.radiusY = radius.y self.radiusZ = None self.topOverBottom = evaluate.getEvaluatedFloatOne( 'topoverbottom', self.xmlElement ) self.xmlElement.attributeDictionary[ 'height' ] = self.height self.xmlElement.attributeDictionary[ 'radiusx' ] = self.radiusX self.xmlElement.attributeDictionary[ 'radiusy' ] = self.radiusY self.xmlElement.attributeDictionary[ 'topoverbottom' ] = self.topOverBottom self.createShape()
def setToObjectAttributeDictionary(self):
"Set the shape of this carvable object info."
radius = evaluate.getVector3ByPrefix("radius", Vector3(1.0, 1.0, 1.0), self.xmlElement)
radius = evaluate.getVector3ThroughSizeDiameter(radius, self.xmlElement)
self.height = evaluate.getEvaluatedFloatDefault(radius.z + radius.z, "height", self.xmlElement)
self.radiusX = radius.x
self.radiusY = radius.y
self.radiusZ = None
self.topOverBottom = evaluate.getEvaluatedFloatOne("topoverbottom", self.xmlElement)
self.xmlElement.attributeDictionary["height"] = self.height
self.xmlElement.attributeDictionary["radiusx"] = self.radiusX
self.xmlElement.attributeDictionary["radiusy"] = self.radiusY
self.xmlElement.attributeDictionary["topoverbottom"] = self.topOverBottom
self.createShape()
