# Copyright 2015 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. """Converts cubic bezier curves to quadratic splines. Conversion is performed such that the quadratic splines keep the same end-curve tangents as the original cubics. The approach is iterative, increasing the number of segments for a spline until the error gets below a bound. Respective curves from multiple fonts will be converted at once to ensure that the resulting splines are interpolation-compatible. """ import logging from fontTools.pens.basePen import AbstractPen from fontTools.pens.pointPen import PointToSegmentPen from fontTools.pens.reverseContourPen import ReverseContourPen from . import curves_to_quadratic from .errors import ( UnequalZipLengthsError, IncompatibleSegmentNumberError, IncompatibleSegmentTypesError, IncompatibleGlyphsError, IncompatibleFontsError) __all__ = ['fonts_to_quadratic', 'font_to_quadratic'] # The default approximation error below is a relative value (1/1000 of the EM square). # Later on, we convert it to absolute font units by multiplying it by a font's UPEM # (see fonts_to_quadratic). DEFAULT_MAX_ERR = 0.001 CURVE_TYPE_LIB_KEY = "com.github.googlei18n.cu2qu.curve_type" logger = logging.getLogger(__name__) _zip = zip def zip(*args): """Ensure each argument to zip has the same length. Also make sure a list is returned for python 2/3 compatibility. """ if len(set(len(a) for a in args)) != 1: raise UnequalZipLengthsError(*args) return list(_zip(*args)) class GetSegmentsPen(AbstractPen): """Pen to collect segments into lists of points for conversion. Curves always include their initial on-curve point, so some points are duplicated between segments. """ def __init__(self): self._last_pt = None self.segments = [] def _add_segment(self, tag, *args): if tag in ['move', 'line', 'qcurve', 'curve']: self._last_pt = args[-1] self.segments.append((tag, args)) def moveTo(self, pt): self._add_segment('move', pt) def lineTo(self, pt): self._add_segment('line', pt) def qCurveTo(self, *points): self._add_segment('qcurve', self._last_pt, *points) def curveTo(self, *points): self._add_segment('curve', self._last_pt, *points) def closePath(self): self._add_segment('close') def endPath(self): self._add_segment('end') def addComponent(self, glyphName, transformation): pass def _get_segments(glyph): """Get a glyph's segments as extracted by GetSegmentsPen.""" pen = GetSegmentsPen() # glyph.draw(pen) # We can't simply draw the glyph with the pen, but we must initialize the # PointToSegmentPen explicitly with outputImpliedClosingLine=True. # By default PointToSegmentPen does not outputImpliedClosingLine -- unless # last and first point on closed contour are duplicated. Because we are # converting multiple glyphs at the same time, we want to make sure # this function returns the same number of segments, whether or not # the last and first point overlap. # https://github.com/googlefonts/fontmake/issues/572 # https://github.com/fonttools/fonttools/pull/1720 pointPen = PointToSegmentPen(pen, outputImpliedClosingLine=True) glyph.drawPoints(pointPen) return pen.segments def _set_segments(glyph, segments, reverse_direction): """Draw segments as extracted by GetSegmentsPen back to a glyph.""" glyph.clearContours() pen = glyph.getPen() if reverse_direction: pen = ReverseContourPen(pen) for tag, args in segments: if tag == 'move': pen.moveTo(*args) elif tag == 'line': pen.lineTo(*args) elif tag == 'curve': pen.curveTo(*args[1:]) elif tag == 'qcurve': pen.qCurveTo(*args[1:]) elif tag == 'close': pen.closePath() elif tag == 'end': pen.endPath() else: raise AssertionError('Unhandled segment type "%s"' % tag) def _segments_to_quadratic(segments, max_err, stats): """Return quadratic approximations of cubic segments.""" assert all(s[0] == 'curve' for s in segments), 'Non-cubic given to convert' new_points = curves_to_quadratic([s[1] for s in segments], max_err) n = len(new_points[0]) assert all(len(s) == n for s in new_points[1:]), 'Converted incompatibly' spline_length = str(n - 2) stats[spline_length] = stats.get(spline_length, 0) + 1 return [('qcurve', p) for p in new_points] def _glyphs_to_quadratic(glyphs, max_err, reverse_direction, stats): """Do the actual conversion of a set of compatible glyphs, after arguments have been set up. Return True if the glyphs were modified, else return False. """ try: segments_by_location = zip(*[_get_segments(g) for g in glyphs]) except UnequalZipLengthsError: raise IncompatibleSegmentNumberError(glyphs) if not any(segments_by_location): return False # always modify input glyphs if reverse_direction is True glyphs_modified = reverse_direction new_segments_by_location = [] incompatible = {} for i, segments in enumerate(segments_by_location): tag = segments[0][0] if not all(s[0] == tag for s in segments[1:]): incompatible[i] = [s[0] for s in segments] elif tag == 'curve': segments = _segments_to_quadratic(segments, max_err, stats) glyphs_modified = True new_segments_by_location.append(segments) if glyphs_modified: new_segments_by_glyph = zip(*new_segments_by_location) for glyph, new_segments in zip(glyphs, new_segments_by_glyph): _set_segments(glyph, new_segments, reverse_direction) if incompatible: raise IncompatibleSegmentTypesError(glyphs, segments=incompatible) return glyphs_modified def glyphs_to_quadratic( glyphs, max_err=None, reverse_direction=False, stats=None): """Convert the curves of a set of compatible of glyphs to quadratic. All curves will be converted to quadratic at once, ensuring interpolation compatibility. If this is not required, calling glyphs_to_quadratic with one glyph at a time may yield slightly more optimized results. Return True if glyphs were modified, else return False. Raises IncompatibleGlyphsError if glyphs have non-interpolatable outlines. """ if stats is None: stats = {} if not max_err: # assume 1000 is the default UPEM max_err = DEFAULT_MAX_ERR * 1000 if isinstance(max_err, (list, tuple)): max_errors = max_err else: max_errors = [max_err] * len(glyphs) assert len(max_errors) == len(glyphs) return _glyphs_to_quadratic(glyphs, max_errors, reverse_direction, stats) def fonts_to_quadratic( fonts, max_err_em=None, max_err=None, reverse_direction=False, stats=None, dump_stats=False, remember_curve_type=True): """Convert the curves of a collection of fonts to quadratic. All curves will be converted to quadratic at once, ensuring interpolation compatibility. If this is not required, calling fonts_to_quadratic with one font at a time may yield slightly more optimized results. Return True if fonts were modified, else return False. By default, cu2qu stores the curve type in the fonts' lib, under a private key "com.github.googlei18n.cu2qu.curve_type", and will not try to convert them again if the curve type is already set to "quadratic". Setting 'remember_curve_type' to False disables this optimization. Raises IncompatibleFontsError if same-named glyphs from different fonts have non-interpolatable outlines. """ if remember_curve_type: curve_types = {f.lib.get(CURVE_TYPE_LIB_KEY, "cubic") for f in fonts} if len(curve_types) == 1: curve_type = next(iter(curve_types)) if curve_type == "quadratic": logger.info("Curves already converted to quadratic") return False elif curve_type == "cubic": pass # keep converting else: raise NotImplementedError(curve_type) elif len(curve_types) > 1: # going to crash later if they do differ logger.warning("fonts may contain different curve types") if stats is None: stats = {} if max_err_em and max_err: raise TypeError('Only one of max_err and max_err_em can be specified.') if not (max_err_em or max_err): max_err_em = DEFAULT_MAX_ERR if isinstance(max_err, (list, tuple)): assert len(max_err) == len(fonts) max_errors = max_err elif max_err: max_errors = [max_err] * len(fonts) if isinstance(max_err_em, (list, tuple)): assert len(fonts) == len(max_err_em) max_errors = [f.info.unitsPerEm * e for f, e in zip(fonts, max_err_em)] elif max_err_em: max_errors = [f.info.unitsPerEm * max_err_em for f in fonts] modified = False glyph_errors = {} for name in set().union(*(f.keys() for f in fonts)): glyphs = [] cur_max_errors = [] for font, error in zip(fonts, max_errors): if name in font: glyphs.append(font[name]) cur_max_errors.append(error) try: modified |= _glyphs_to_quadratic( glyphs, cur_max_errors, reverse_direction, stats) except IncompatibleGlyphsError as exc: logger.error(exc) glyph_errors[name] = exc if glyph_errors: raise IncompatibleFontsError(glyph_errors) if modified and dump_stats: spline_lengths = sorted(stats.keys()) logger.info('New spline lengths: %s' % (', '.join( '%s: %d' % (l, stats[l]) for l in spline_lengths))) if remember_curve_type: for font in fonts: curve_type = font.lib.get(CURVE_TYPE_LIB_KEY, "cubic") if curve_type != "quadratic": font.lib[CURVE_TYPE_LIB_KEY] = "quadratic" modified = True return modified def glyph_to_quadratic(glyph, **kwargs): """Convenience wrapper around glyphs_to_quadratic, for just one glyph. Return True if the glyph was modified, else return False. """ return glyphs_to_quadratic([glyph], **kwargs) def font_to_quadratic(font, **kwargs): """Convenience wrapper around fonts_to_quadratic, for just one font. Return True if the font was modified, else return False. """ return fonts_to_quadratic([font], **kwargs)