Exemplo n.º 1
0
def polygonGradientIris( position,sides, radius, divisionOfPieRotation, sideTurnings, reverse=0, passive=0):
    gradientIrisGroup = etree.Element("g")
    #calculate creepRatio from rotationAngle,
    #where rotationAngle is the angle each polygon is rotated
    #and creepRatio is the percentage of the polygon side to move from one corner to the other
    rotations = divisionOfPieRotation*sideTurnings/2
    colorGradation = color.tupleGradient((150.0/255,0,212.0/255), (1,0,212.0/255),rotations )
    pieCornerAngle = 1.0/sides*tewpi
    rotationAngle = 1.0/divisionOfPieRotation*pieCornerAngle
    
    polygonCornerAngle =  (sides-2)*math.pi/(2*sides)
    adjacentAngle = math.pi - rotationAngle - polygonCornerAngle
    
    adjacentSide = math.sin(rotationAngle)/math.sin(adjacentAngle)*radius
    innerSide = math.sin(rotationAngle)*radius/math.sin(adjacentAngle)
    outerSegmentLength = math.sin(pieCornerAngle)*radius/math.sin(polygonCornerAngle)
    print "%%%%%%%%%%%%%%%%%%%%%%%%" + str(2-2*math.cos(tewpi*1.0/sides))
    creepRatio = innerSide/outerSegmentLength
    if reverse : creepRatio = 1 - creepRatio
    
    print ">>>>>>>>>>>>>>>>>>>>"+ str(creepRatio)
    print colorGradation
    linePoints = createRadialPlots(position, radius, sides, passive=passive )
    print linePoints
    for i in range(rotations+1):
        polygonAttributes = {u'style':u'stroke:black;stroke-width:1;fill:' + unicode(colorGradation[i])}
        print str(linePoints[0])
        trianglePath = PathData().moveTo(linePoints[0])
        for j in range(1,sides):
            trianglePath.lineTo(linePoints[j])
        trianglePath.closePath()
        gradientIrisGroup.append(buildPath( trianglePath, polygonAttributes))
        newLinePoints = []
        for j in range(sides):
            newLinePoints.append(getLineDivision(linePoints[j], linePoints[(j+1)%sides], creepRatio))
        linePoints = newLinePoints
    return gradientIrisGroup
Exemplo n.º 2
0
 def polygonGradientIris(self, position,sides, radius,  startColor, endColor, divisionOfPieRotation,  sideTurnings, reverse=0, passiveopt=0):
     
     gradientIrisGroup = inkex.etree.Element("g")
     #calculate creepRatio from rotationAngle,
     #where rotationAngle is the angle each polygon is rotated
     #and creepRatio is the percentage of the polygon side to move from one corner to the other
     rotations = divisionOfPieRotation*sideTurnings/2
     colorGradation = color.tupleGradient(color.hexToRGB(startColor), color.hexToRGB(endColor),rotations )
     
     pieCornerAngle = 1.0/sides*math.pi*2
     rotationAngle = 1.0/divisionOfPieRotation*pieCornerAngle
     
     polygonCornerAngle =  (sides-2)*math.pi/(2*sides)
     adjacentAngle = math.pi - rotationAngle - polygonCornerAngle
     
     adjacentSide = math.sin(rotationAngle)/math.sin(adjacentAngle)*radius
     innerSide = math.sin(rotationAngle)*radius/math.sin(adjacentAngle)
     outerSegmentLength = math.sin(pieCornerAngle)*radius/math.sin(polygonCornerAngle)
     creepRatio = innerSide/outerSegmentLength
     if reverse : creepRatio = 1 - creepRatio
     
     
     linePoints = geom.createRadialPlots(position, radius, sides, passive=passiveopt )
     
     for i in range(rotations+1):
         polygonAttributes = {u'style':u'stroke:black;stroke-width:1;fill:' + unicode(colorGradation[i])}
         trianglePath = path.PathData().moveTo(linePoints[0])
         for j in range(1,sides):
             trianglePath.lineTo(linePoints[j])
         trianglePath.closePath()
         gradientIrisGroup.append(element.buildPath( trianglePath, polygonAttributes))
         newLinePoints = []
         for j in range(sides):
             newLinePoints.append(geom.getLineDivision(linePoints[j], linePoints[(j+1)%sides], creepRatio))
         linePoints = newLinePoints
     return gradientIrisGroup