def processSVGElementellipse(svgReader, xmlElement):
"Process xmlElement by svgReader."
attributeDictionary = xmlElement.attributeDictionary
center = euclidean.getComplexDefaultByDictionaryKeys(
complex(), attributeDictionary, 'cx', 'cy')
radius = euclidean.getComplexDefaultByDictionaryKeys(
complex(), attributeDictionary, 'rx', 'ry')
if radius.real == 0.0 or radius.imag == 0.0:
print(
'Warning, in processSVGElementellipse in svgReader radius is zero in:'
)
print(attributeDictionary)
return
global globalNumberOfCirclePoints
global globalSideAngle
loop = []
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
for side in xrange(globalNumberOfCirclePoints):
unitPolar = euclidean.getWiddershinsUnitPolar(
float(side) * globalSideAngle)
loop.append(center +
complex(unitPolar.real * radius.real, unitPolar.imag *
radius.imag))
rotatedLoopLayer.loops += getTransformedFillOutline(
loop, xmlElement, svgReader.yAxisPointingUpward)
def processSVGElementline(svgReader, xmlElement):
"Process xmlElement by svgReader."
begin = euclidean.getComplexDefaultByDictionaryKeys(
complex(), xmlElement.attributeDictionary, 'x1', 'y1')
end = euclidean.getComplexDefaultByDictionaryKeys(
complex(), xmlElement.attributeDictionary, 'x2', 'y2')
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
rotatedLoopLayer.loops += getTransformedOutlineByPath(
[begin, end], xmlElement, svgReader.yAxisPointingUpward)
def processSVGElementline(elementNode, svgReader):
"Process elementNode by svgReader."
begin = euclidean.getComplexDefaultByDictionaryKeys(
complex(), elementNode.attributes, 'x1', 'y1')
end = euclidean.getComplexDefaultByDictionaryKeys(complex(),
elementNode.attributes,
'x2', 'y2')
loopLayer = svgReader.getLoopLayer()
loopLayer.loops += getTransformedOutlineByPath(
elementNode, [begin, end], svgReader.yAxisPointingUpward)
def processSVGElementrect( svgReader, xmlElement ):
"Process xmlElement by svgReader."
attributeDictionary = xmlElement.attributeDictionary
height = euclidean.getFloatDefaultByDictionary( 0.0, attributeDictionary, 'height')
if height == 0.0:
print('Warning, in processSVGElementrect in svgReader height is zero in:')
print(attributeDictionary)
return
width = euclidean.getFloatDefaultByDictionary( 0.0, attributeDictionary, 'width')
if width == 0.0:
print('Warning, in processSVGElementrect in svgReader width is zero in:')
print(attributeDictionary)
return
center = euclidean.getComplexDefaultByDictionaryKeys(complex(), attributeDictionary, 'x', 'y')
inradius = 0.5 * complex( width, height )
cornerRadius = euclidean.getComplexDefaultByDictionaryKeys( complex(), attributeDictionary, 'rx', 'ry')
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
if cornerRadius.real == 0.0 and cornerRadius.imag == 0.0:
inradiusMinusX = complex( - inradius.real, inradius.imag )
loop = [center + inradius, center + inradiusMinusX, center - inradius, center - inradiusMinusX]
rotatedLoopLayer.loops += getTransformedFillOutline(loop, xmlElement, svgReader.yAxisPointingUpward)
return
if cornerRadius.real == 0.0:
cornerRadius = complex( cornerRadius.imag, cornerRadius.imag )
elif cornerRadius.imag == 0.0:
cornerRadius = complex( cornerRadius.real, cornerRadius.real )
cornerRadius = complex( min( cornerRadius.real, inradius.real ), min( cornerRadius.imag, inradius.imag ) )
ellipsePath = [ complex( cornerRadius.real, 0.0 ) ]
inradiusMinusCorner = inradius - cornerRadius
loop = []
global globalNumberOfCornerPoints
global globalSideAngle
for side in xrange( 1, globalNumberOfCornerPoints ):
unitPolar = euclidean.getWiddershinsUnitPolar( float(side) * globalSideAngle )
ellipsePath.append( complex( unitPolar.real * cornerRadius.real, unitPolar.imag * cornerRadius.imag ) )
ellipsePath.append( complex( 0.0, cornerRadius.imag ) )
cornerPoints = []
for point in ellipsePath:
cornerPoints.append( point + inradiusMinusCorner )
cornerPointsReversed = cornerPoints[: : -1]
for cornerPoint in cornerPoints:
loop.append( center + cornerPoint )
for cornerPoint in cornerPointsReversed:
loop.append( center + complex( - cornerPoint.real, cornerPoint.imag ) )
for cornerPoint in cornerPoints:
loop.append( center - cornerPoint )
for cornerPoint in cornerPointsReversed:
loop.append( center + complex( cornerPoint.real, - cornerPoint.imag ) )
loop = euclidean.getLoopWithoutCloseSequentialPoints( 0.0001 * abs(inradius), loop )
rotatedLoopLayer.loops += getTransformedFillOutline(loop, xmlElement, svgReader.yAxisPointingUpward)
def processSVGElementrect( svgReader, xmlElement ):
"Process xmlElement by svgReader."
attributeDictionary = xmlElement.attributeDictionary
height = euclidean.getFloatDefaultByDictionary( 0.0, attributeDictionary, 'height')
if height == 0.0:
print('Warning, in processSVGElementrect in svgReader height is zero in:')
print(attributeDictionary)
return
width = euclidean.getFloatDefaultByDictionary( 0.0, attributeDictionary, 'width')
if width == 0.0:
print('Warning, in processSVGElementrect in svgReader width is zero in:')
print(attributeDictionary)
return
center = euclidean.getComplexDefaultByDictionaryKeys(complex(), attributeDictionary, 'x', 'y')
inradius = 0.5 * complex( width, height )
cornerRadius = euclidean.getComplexDefaultByDictionaryKeys( complex(), attributeDictionary, 'rx', 'ry')
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
if cornerRadius.real == 0.0 and cornerRadius.imag == 0.0:
inradiusMinusX = complex( - inradius.real, inradius.imag )
loop = [center + inradius, center + inradiusMinusX, center - inradius, center - inradiusMinusX]
rotatedLoopLayer.loops += getTransformedFillOutline(loop, xmlElement, svgReader.yAxisPointingUpward)
return
if cornerRadius.real == 0.0:
cornerRadius = complex( cornerRadius.imag, cornerRadius.imag )
elif cornerRadius.imag == 0.0:
cornerRadius = complex( cornerRadius.real, cornerRadius.real )
cornerRadius = complex( min( cornerRadius.real, inradius.real ), min( cornerRadius.imag, inradius.imag ) )
ellipsePath = [ complex( cornerRadius.real, 0.0 ) ]
inradiusMinusCorner = inradius - cornerRadius
loop = []
global globalNumberOfCornerPoints
global globalSideAngle
for side in xrange( 1, globalNumberOfCornerPoints ):
unitPolar = euclidean.getWiddershinsUnitPolar( float(side) * globalSideAngle )
ellipsePath.append( complex( unitPolar.real * cornerRadius.real, unitPolar.imag * cornerRadius.imag ) )
ellipsePath.append( complex( 0.0, cornerRadius.imag ) )
cornerPoints = []
for point in ellipsePath:
cornerPoints.append( point + inradiusMinusCorner )
cornerPointsReversed = cornerPoints[: : -1]
for cornerPoint in cornerPoints:
loop.append( center + cornerPoint )
for cornerPoint in cornerPointsReversed:
loop.append( center + complex( - cornerPoint.real, cornerPoint.imag ) )
for cornerPoint in cornerPoints:
loop.append( center - cornerPoint )
for cornerPoint in cornerPointsReversed:
loop.append( center + complex( cornerPoint.real, - cornerPoint.imag ) )
loop = euclidean.getLoopWithoutCloseSequentialPoints( 0.0001 * abs(inradius), loop )
rotatedLoopLayer.loops += getTransformedFillOutline(loop, xmlElement, svgReader.yAxisPointingUpward)
def processSVGElementellipse( svgReader, xmlElement ):
"Process xmlElement by svgReader."
attributeDictionary = xmlElement.attributeDictionary
center = euclidean.getComplexDefaultByDictionaryKeys( complex(), attributeDictionary, 'cx', 'cy')
radius = euclidean.getComplexDefaultByDictionaryKeys( complex(), attributeDictionary, 'rx', 'ry')
if radius.real == 0.0 or radius.imag == 0.0:
print('Warning, in processSVGElementellipse in svgReader radius is zero in:')
print(attributeDictionary)
return
global globalNumberOfCirclePoints
global globalSideAngle
loop = []
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
for side in xrange( globalNumberOfCirclePoints ):
unitPolar = euclidean.getWiddershinsUnitPolar( float(side) * globalSideAngle )
loop.append( center + complex( unitPolar.real * radius.real, unitPolar.imag * radius.imag ) )
rotatedLoopLayer.loops += getTransformedFillOutline(loop, xmlElement, svgReader.yAxisPointingUpward)
def processSVGElementtext(svgReader, xmlElement):
"Process xmlElement by svgReader."
if svgReader.yAxisPointingUpward:
return
fontFamily = getStyleValue('Gentium Basic Regular', 'font-family', xmlElement)
fontSize = getRightStripAlphabetPercent(getStyleValue('12.0', 'font-size', xmlElement))
matrixSVG = getChainMatrixSVGIfNecessary(xmlElement, svgReader.yAxisPointingUpward)
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
translate = euclidean.getComplexDefaultByDictionaryKeys(complex(), xmlElement.attributeDictionary, 'x', 'y')
for textComplexLoop in getTextComplexLoops(fontFamily, fontSize, xmlElement.text, svgReader.yAxisPointingUpward):
translatedLoop = []
for textComplexPoint in textComplexLoop:
translatedLoop.append(textComplexPoint + translate )
rotatedLoopLayer.loops.append(matrixSVG.getTransformedPath(translatedLoop))
def processSVGElementtext(svgReader, xmlElement):
"Process xmlElement by svgReader."
if svgReader.yAxisPointingUpward:
return
fontFamily = getStyleValue('Gentium Basic Regular', 'font-family', xmlElement)
fontSize = getRightStripAlphabetPercent(getStyleValue('12.0', 'font-size', xmlElement))
matrixSVG = getChainMatrixSVGIfNecessary(xmlElement, svgReader.yAxisPointingUpward)
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
translate = euclidean.getComplexDefaultByDictionaryKeys(complex(), xmlElement.attributeDictionary, 'x', 'y')
for textComplexLoop in getTextComplexLoops(fontFamily, fontSize, xmlElement.text, svgReader.yAxisPointingUpward):
translatedLoop = []
for textComplexPoint in textComplexLoop:
translatedLoop.append(textComplexPoint + translate )
rotatedLoopLayer.loops.append(matrixSVG.getTransformedPath(translatedLoop))
def processSVGElementcircle( elementNode, svgReader ):
"Process elementNode by svgReader."
attributes = elementNode.attributes
center = euclidean.getComplexDefaultByDictionaryKeys( complex(), attributes, 'cx', 'cy')
radius = euclidean.getFloatDefaultByDictionary( 0.0, attributes, 'r')
if radius == 0.0:
print('Warning, in processSVGElementcircle in svgReader radius is zero in:')
print(attributes)
return
global globalNumberOfCirclePoints
global globalSideAngle
loop = []
loopLayer = svgReader.getLoopLayer()
for side in xrange( globalNumberOfCirclePoints ):
unitPolar = euclidean.getWiddershinsUnitPolar( float(side) * globalSideAngle )
loop.append( center + radius * unitPolar )
loopLayer.loops += getTransformedFillOutline(elementNode, loop, svgReader.yAxisPointingUpward)
def processSVGElementtext(svgReader, xmlElement):
"Process xmlElement by svgReader."
if svgReader.yAxisPointingUpward:
return
translate = euclidean.getComplexDefaultByDictionaryKeys(complex(), xmlElement.attributeDictionary, 'x', 'y')
fontFamily = getStyleValue('Gentium Basic Regular', 'font-family', xmlElement)
global globalFontReaderDictionary
fontReader = getFontReader(fontFamily)
fontSize = getRightStripAlphabetPercent(getStyleValue('12.0', 'font-size', xmlElement))
rotatedLoopLayer = svgReader.getRotatedLoopLayer()
horizontalAdvanceX = 0.0
matrixSVG = getChainMatrixSVGIfNecessary(xmlElement, svgReader.yAxisPointingUpward)
for character in xmlElement.text:
glyph = fontReader.getGlyph(character, svgReader)
glyphLoops = glyph.getSizedAdvancedLoops(fontSize, horizontalAdvanceX, translate, svgReader.yAxisPointingUpward)
rotatedLoopLayer.loops += matrixSVG.getTransformedPaths(glyphLoops)
horizontalAdvanceX += glyph.horizontalAdvanceX
def processSVGElementcircle( elementNode, svgReader ):
"Process elementNode by svgReader."
attributes = elementNode.attributes
center = euclidean.getComplexDefaultByDictionaryKeys( complex(), attributes, 'cx', 'cy')
radius = euclidean.getFloatDefaultByDictionary( 0.0, attributes, 'r')
if radius == 0.0:
print('Warning, in processSVGElementcircle in svgReader radius is zero in:')
print(attributes)
return
global globalNumberOfCirclePoints
global globalSideAngle
loop = []
loopLayer = svgReader.getLoopLayer()
for side in xrange( globalNumberOfCirclePoints ):
unitPolar = euclidean.getWiddershinsUnitPolar( float(side) * globalSideAngle )
loop.append( center + radius * unitPolar )
loopLayer.loops += getTransformedFillOutline(elementNode, loop, svgReader.yAxisPointingUpward)
def processSVGElementline(svgReader, xmlElement): "Process xmlElement by svgReader." begin = euclidean.getComplexDefaultByDictionaryKeys(complex(), xmlElement.attributeDictionary, 'x1', 'y1') end = euclidean.getComplexDefaultByDictionaryKeys(complex(), xmlElement.attributeDictionary, 'x2', 'y2') rotatedLoopLayer = svgReader.getRotatedLoopLayer() rotatedLoopLayer.loops += getTransformedOutlineByPath([begin, end], xmlElement, svgReader.yAxisPointingUpward)
def processSVGElementline(elementNode, svgReader): "Process elementNode by svgReader." begin = euclidean.getComplexDefaultByDictionaryKeys(complex(), elementNode.attributes, 'x1', 'y1') end = euclidean.getComplexDefaultByDictionaryKeys(complex(), elementNode.attributes, 'x2', 'y2') loopLayer = svgReader.getLoopLayer() loopLayer.loops += getTransformedOutlineByPath(elementNode, [begin, end], svgReader.yAxisPointingUpward)
