"""This test suite test general Pen stuff, it should not contain FontLab-specific code. """ import unittest from robofab.pens.digestPen import DigestPointPen from robofab.pens.adapterPens import SegmentToPointPen, PointToSegmentPen from robofab.pens.adapterPens import GuessSmoothPointPen from robofab.pens.reverseContourPointPen import ReverseContourPointPen from robofab.test.testSupport import getDemoFontGlyphSetPath from robofab.glifLib import GlyphSet class TestShapes: # Collection of test shapes. It's probably better to add these as # glyphs to the demo font. def square(pen): # a simple square as a closed path (100, 100, 600, 600) pen.beginPath() pen.addPoint((100, 100), "line") pen.addPoint((100, 600), "line") pen.addPoint((600, 600), "line") pen.addPoint((600, 100), "line") pen.endPath() square = staticmethod(square) def onCurveLessQuadShape(pen): pen.beginPath() pen.addPoint((100, 100)) pen.addPoint((100, 600)) pen.addPoint((600, 600)) pen.addPoint((600, 100)) pen.endPath() onCurveLessQuadShape = staticmethod(onCurveLessQuadShape) def openPath(pen): # a simple square as a closed path (100, 100, 600, 600) pen.beginPath() pen.addPoint((100, 100), "move") pen.addPoint((100, 600), "line") pen.addPoint((600, 600), "line") pen.addPoint((600, 100), "line") pen.endPath() openPath = staticmethod(openPath) def circle(pen): pen.beginPath() pen.addPoint((0, 500), "curve") pen.addPoint((0, 800)) pen.addPoint((200, 1000)) pen.addPoint((500, 1000), "curve") pen.addPoint((800, 1000)) pen.addPoint((1000, 800)) pen.addPoint((1000, 500), "curve") pen.addPoint((1000, 200)) pen.addPoint((800, 0)) pen.addPoint((500, 0), "curve") pen.addPoint((200, 0)) pen.addPoint((0, 200)) pen.endPath() circle = staticmethod(circle) class RoundTripTestCase(unittest.TestCase): def _doTest(self, shapeFunc, shapeName): pen = DigestPointPen(ignoreSmoothAndName=True) shapeFunc(pen) digest1 = pen.getDigest() digestPen = DigestPointPen(ignoreSmoothAndName=True) pen = PointToSegmentPen(SegmentToPointPen(digestPen)) shapeFunc(pen) digest2 = digestPen.getDigest() self.assertEqual(digest1, digest2, "%r failed round tripping" % shapeName) def testShapes(self): for name in dir(TestShapes): if name[0] != "_": self._doTest(getattr(TestShapes, name), name) def testShapesFromGlyphSet(self): glyphSet = GlyphSet(getDemoFontGlyphSetPath()) for name in glyphSet.keys(): self._doTest(glyphSet[name].drawPoints, name) def testGuessSmoothPen(self): glyphSet = GlyphSet(getDemoFontGlyphSetPath()) for name in glyphSet.keys(): digestPen = DigestPointPen() glyphSet[name].drawPoints(digestPen) digest1 = digestPen.getDigest() digestPen = DigestPointPen() pen = GuessSmoothPointPen(digestPen) glyphSet[name].drawPoints(pen) digest2 = digestPen.getDigest() self.assertEqual(digest1, digest2) class ReverseContourTestCase(unittest.TestCase): def testReverseContourClosedPath(self): digestPen = DigestPointPen() TestShapes.square(digestPen) d1 = digestPen.getDigest() digestPen = DigestPointPen() pen = ReverseContourPointPen(digestPen) pen.beginPath() pen.addPoint((100, 100), "line") pen.addPoint((600, 100), "line") pen.addPoint((600, 600), "line") pen.addPoint((100, 600), "line") pen.endPath() d2 = digestPen.getDigest() self.assertEqual(d1, d2) def testReverseContourOpenPath(self): digestPen = DigestPointPen() TestShapes.openPath(digestPen) d1 = digestPen.getDigest() digestPen = DigestPointPen() pen = ReverseContourPointPen(digestPen) pen.beginPath() pen.addPoint((600, 100), "move") pen.addPoint((600, 600), "line") pen.addPoint((100, 600), "line") pen.addPoint((100, 100), "line") pen.endPath() d2 = digestPen.getDigest() self.assertEqual(d1, d2) def testReversContourFromGlyphSet(self): glyphSet = GlyphSet(getDemoFontGlyphSetPath()) digestPen = DigestPointPen() glyphSet["testglyph1"].drawPoints(digestPen) digest1 = digestPen.getDigest() digestPen = DigestPointPen() pen = ReverseContourPointPen(digestPen) glyphSet["testglyph1.reversed"].drawPoints(pen) digest2 = digestPen.getDigest() self.assertEqual(digest1, digest2) if __name__ == "__main__": from robofab.test.testSupport import runTests runTests()