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venv/Lib/site-packages/fontTools/pens/cu2quPen.py

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+# Copyright 2016 Google Inc. All Rights Reserved.
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+from fontTools.cu2qu import curve_to_quadratic
+from fontTools.pens.basePen import AbstractPen, decomposeSuperBezierSegment
+from fontTools.pens.reverseContourPen import ReverseContourPen
+from fontTools.pens.pointPen import BasePointToSegmentPen
+from fontTools.pens.pointPen import ReverseContourPointPen
+
+
+class Cu2QuPen(AbstractPen):
+    """ A filter pen to convert cubic bezier curves to quadratic b-splines
+    using the FontTools SegmentPen protocol.
+
+    Args:
+
+        other_pen: another SegmentPen used to draw the transformed outline.
+        max_err: maximum approximation error in font units. For optimal results,
+            if you know the UPEM of the font, we recommend setting this to a
+            value equal, or close to UPEM / 1000.
+        reverse_direction: flip the contours' direction but keep starting point.
+        stats: a dictionary counting the point numbers of quadratic segments.
+        ignore_single_points: don't emit contours containing only a single point
+
+    NOTE: The "ignore_single_points" argument is deprecated since v1.3.0,
+    which dropped Robofab subpport. It's no longer needed to special-case
+    UFO2-style anchors (aka "named points") when using ufoLib >= 2.0,
+    as these are no longer drawn onto pens as single-point contours,
+    but are handled separately as anchors.
+    """
+
+    def __init__(self, other_pen, max_err, reverse_direction=False,
+                 stats=None, ignore_single_points=False):
+        if reverse_direction:
+            self.pen = ReverseContourPen(other_pen)
+        else:
+            self.pen = other_pen
+        self.max_err = max_err
+        self.stats = stats
+        if ignore_single_points:
+            import warnings
+            warnings.warn("ignore_single_points is deprecated and "
+                          "will be removed in future versions",
+                          UserWarning, stacklevel=2)
+        self.ignore_single_points = ignore_single_points
+        self.start_pt = None
+        self.current_pt = None
+
+    def _check_contour_is_open(self):
+        if self.current_pt is None:
+            raise AssertionError("moveTo is required")
+
+    def _check_contour_is_closed(self):
+        if self.current_pt is not None:
+            raise AssertionError("closePath or endPath is required")
+
+    def _add_moveTo(self):
+        if self.start_pt is not None:
+            self.pen.moveTo(self.start_pt)
+            self.start_pt = None
+
+    def moveTo(self, pt):
+        self._check_contour_is_closed()
+        self.start_pt = self.current_pt = pt
+        if not self.ignore_single_points:
+            self._add_moveTo()
+
+    def lineTo(self, pt):
+        self._check_contour_is_open()
+        self._add_moveTo()
+        self.pen.lineTo(pt)
+        self.current_pt = pt
+
+    def qCurveTo(self, *points):
+        self._check_contour_is_open()
+        n = len(points)
+        if n == 1:
+            self.lineTo(points[0])
+        elif n > 1:
+            self._add_moveTo()
+            self.pen.qCurveTo(*points)
+            self.current_pt = points[-1]
+        else:
+            raise AssertionError("illegal qcurve segment point count: %d" % n)
+
+    def _curve_to_quadratic(self, pt1, pt2, pt3):
+        curve = (self.current_pt, pt1, pt2, pt3)
+        quadratic = curve_to_quadratic(curve, self.max_err)
+        if self.stats is not None:
+            n = str(len(quadratic) - 2)
+            self.stats[n] = self.stats.get(n, 0) + 1
+        self.qCurveTo(*quadratic[1:])
+
+    def curveTo(self, *points):
+        self._check_contour_is_open()
+        n = len(points)
+        if n == 3:
+            # this is the most common case, so we special-case it
+            self._curve_to_quadratic(*points)
+        elif n > 3:
+            for segment in decomposeSuperBezierSegment(points):
+                self._curve_to_quadratic(*segment)
+        elif n == 2:
+            self.qCurveTo(*points)
+        elif n == 1:
+            self.lineTo(points[0])
+        else:
+            raise AssertionError("illegal curve segment point count: %d" % n)
+
+    def closePath(self):
+        self._check_contour_is_open()
+        if self.start_pt is None:
+            # if 'start_pt' is _not_ None, we are ignoring single-point paths
+            self.pen.closePath()
+        self.current_pt = self.start_pt = None
+
+    def endPath(self):
+        self._check_contour_is_open()
+        if self.start_pt is None:
+            self.pen.endPath()
+        self.current_pt = self.start_pt = None
+
+    def addComponent(self, glyphName, transformation):
+        self._check_contour_is_closed()
+        self.pen.addComponent(glyphName, transformation)
+
+
+class Cu2QuPointPen(BasePointToSegmentPen):
+    """ A filter pen to convert cubic bezier curves to quadratic b-splines
+    using the RoboFab PointPen protocol.
+
+    Args:
+        other_point_pen: another PointPen used to draw the transformed outline.
+        max_err: maximum approximation error in font units. For optimal results,
+            if you know the UPEM of the font, we recommend setting this to a
+            value equal, or close to UPEM / 1000.
+        reverse_direction: reverse the winding direction of all contours.
+        stats: a dictionary counting the point numbers of quadratic segments.
+    """
+
+    def __init__(self, other_point_pen, max_err, reverse_direction=False,
+                 stats=None):
+        BasePointToSegmentPen.__init__(self)
+        if reverse_direction:
+            self.pen = ReverseContourPointPen(other_point_pen)
+        else:
+            self.pen = other_point_pen
+        self.max_err = max_err
+        self.stats = stats
+
+    def _flushContour(self, segments):
+        assert len(segments) >= 1
+        closed = segments[0][0] != "move"
+        new_segments = []
+        prev_points = segments[-1][1]
+        prev_on_curve = prev_points[-1][0]
+        for segment_type, points in segments:
+            if segment_type == 'curve':
+                for sub_points in self._split_super_bezier_segments(points):
+                    on_curve, smooth, name, kwargs = sub_points[-1]
+                    bcp1, bcp2 = sub_points[0][0], sub_points[1][0]
+                    cubic = [prev_on_curve, bcp1, bcp2, on_curve]
+                    quad = curve_to_quadratic(cubic, self.max_err)
+                    if self.stats is not None:
+                        n = str(len(quad) - 2)
+                        self.stats[n] = self.stats.get(n, 0) + 1
+                    new_points = [(pt, False, None, {}) for pt in quad[1:-1]]
+                    new_points.append((on_curve, smooth, name, kwargs))
+                    new_segments.append(["qcurve", new_points])
+                    prev_on_curve = sub_points[-1][0]
+            else:
+                new_segments.append([segment_type, points])
+                prev_on_curve = points[-1][0]
+        if closed:
+            # the BasePointToSegmentPen.endPath method that calls _flushContour
+            # rotates the point list of closed contours so that they end with
+            # the first on-curve point. We restore the original starting point.
+            new_segments = new_segments[-1:] + new_segments[:-1]
+        self._drawPoints(new_segments)
+
+    def _split_super_bezier_segments(self, points):
+        sub_segments = []
+        # n is the number of control points
+        n = len(points) - 1
+        if n == 2:
+            # a simple bezier curve segment
+            sub_segments.append(points)
+        elif n > 2:
+            # a "super" bezier; decompose it
+            on_curve, smooth, name, kwargs = points[-1]
+            num_sub_segments = n - 1
+            for i, sub_points in enumerate(decomposeSuperBezierSegment([
+                    pt for pt, _, _, _ in points])):
+                new_segment = []
+                for point in sub_points[:-1]:
+                    new_segment.append((point, False, None, {}))
+                if i == (num_sub_segments - 1):
+                    # the last on-curve keeps its original attributes
+                    new_segment.append((on_curve, smooth, name, kwargs))
+                else:
+                    # on-curves of sub-segments are always "smooth"
+                    new_segment.append((sub_points[-1], True, None, {}))
+                sub_segments.append(new_segment)
+        else:
+            raise AssertionError(
+                "expected 2 control points, found: %d" % n)
+        return sub_segments
+
+    def _drawPoints(self, segments):
+        pen = self.pen
+        pen.beginPath()
+        last_offcurves = []
+        for i, (segment_type, points) in enumerate(segments):
+            if segment_type in ("move", "line"):
+                assert len(points) == 1, (
+                    "illegal line segment point count: %d" % len(points))
+                pt, smooth, name, kwargs = points[0]
+                pen.addPoint(pt, segment_type, smooth, name, **kwargs)
+            elif segment_type == "qcurve":
+                assert len(points) >= 2, (
+                    "illegal qcurve segment point count: %d" % len(points))
+                offcurves = points[:-1]
+                if offcurves:
+                    if i == 0:
+                        # any off-curve points preceding the first on-curve
+                        # will be appended at the end of the contour
+                        last_offcurves = offcurves
+                    else:
+                        for (pt, smooth, name, kwargs) in offcurves:
+                            pen.addPoint(pt, None, smooth, name, **kwargs)
+                pt, smooth, name, kwargs = points[-1]
+                if pt is None:
+                    # special quadratic contour with no on-curve points:
+                    # we need to skip the "None" point. See also the Pen
+                    # protocol's qCurveTo() method and fontTools.pens.basePen
+                    pass
+                else:
+                    pen.addPoint(pt, segment_type, smooth, name, **kwargs)
+            else:
+                # 'curve' segments must have been converted to 'qcurve' by now
+                raise AssertionError(
+                    "unexpected segment type: %r" % segment_type)
+        for (pt, smooth, name, kwargs) in last_offcurves:
+            pen.addPoint(pt, None, smooth, name, **kwargs)
+        pen.endPath()
+
+    def addComponent(self, baseGlyphName, transformation):
+        assert self.currentPath is None
+        self.pen.addComponent(baseGlyphName, transformation)