svg_builder.py - third_party/github.com/googlefonts/noto-emoji - Git at Google

 # 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.
 #
 # Google Author(s): Doug Felt

 import math
 import random
 import re
 import string

 import svg_cleaner

 class SvgBuilder(object):
   """Modifies a font to add SVG glyphs from a document or string.  Once built you
   can call add_from_filename or add_from_doc multiple times to add SVG
   documents, which should contain a single root svg element representing the glyph.
   This element must have width and height attributes (in px), these are used to
   determine how to scale the glyph.  The svg should be designed to fit inside
   this bounds and have its origin at the top left.  Adding the svg generates a
   transform to scale and position the glyph, so the svg element should not have
   a transform attribute since it will be overwritten.  Any id attribute on the
   glyph is also overwritten.

   Adding a glyph can generate additional default glyphs for components of a
   ligature that are not already present.

   It is possible to add SVG images to a font that already has corresponding
   glyphs.  If a glyph exists already, then its hmtx advance is assumed valid.
   Otherwise we will generate an advance based on the image's width and scale
   factor.  Callers should ensure that glyphs for components of ligatures are
   added before the ligatures themselves, otherwise glyphs generated for missing
   ligature components will be assigned zero metrics metrics that will not be
   overridden later."""

   def __init__(self, font_builder):
     font_builder.init_svg()

     self.font_builder = font_builder
     self.cleaner = svg_cleaner.SvgCleaner()

     font = font_builder.font
     self.font_ascent = font['hhea'].ascent
     self.font_height = self.font_ascent - font['hhea'].descent
     self.font_upem = font['head'].unitsPerEm

   def add_from_filename(self, ustr, filename):
     with open(filename, "r") as fp:
       return self.add_from_doc(ustr, fp.read(), filename=filename)

   def _strip_px(self, val):
     return float(val[:-2] if val.endswith('px') else val)

   def add_from_doc(self, ustr, svgdoc, filename=None):
     """Cleans the svg doc, tweaks the root svg element's
     attributes, then updates the font.  ustr is the character or ligature
     string, svgdoc is the svg document xml.  The doc must have a single
     svg root element."""

     # The svg element must have an id attribute of the form 'glyphNNN' where NNN
     # is the glyph id.  We capture the index of the glyph we're adding and write
     # it into the svg.
     #
     # We generate a transform that places the origin at the top left of the
     # ascent and uniformly scales it to fit both the font height (ascent -
     # descent) and glyph advance if it is already present.  The initial viewport
     # is 1000x1000. When present, viewBox scales to fit this and uses default
     # values for preserveAspectRatio that center the viewBox in this viewport
     # ('xMidyMid meet'), and ignores the width and height.  If viewBox is not
     # present, width and height cause a (possibly non-uniform) scale to be
     # applied that map the extent to the viewport.  This is unfortunate for us,
     # since we want to preserve the aspect ratio, and the image is likely
     # designed for a viewport with the width and height it requested.
     #
     # If we have an advance, we want to replicate the behavior of viewBox,
     # except using a 'viewport' of advance, ascent+descent. If we don't have
     # an advance, we scale the height and compute the advance from the scaled
     # width.
     #
     # Lengths using percentage units map 100% to the width/height/diagonal
     # of the viewBox, or if it is not defined, the viewport.  Since we can't
     # define the viewport, we must always have a viewBox.

     cleaner = self.cleaner
     fbuilder = self.font_builder

     tree = cleaner.tree_from_text(svgdoc)

     name, index, exists = fbuilder.add_components_and_ligature(ustr)

     advance = 0
     if exists:
       advance = fbuilder.hmtx[name][0]

     vb = tree.attrs.get('viewBox')
     if vb:
       x, y, w, h = map(self._strip_px, re.split('\s*,\s*|\s+', vb))
     else:
       wid = tree.attrs.get('width')
       ht = tree.attrs.get('height')
       if not (wid and ht):
         raise ValueError(
             'missing viewBox and width or height attrs (%s)' % filename)
       x, y, w, h = 0, 0, self._strip_px(wid), self._strip_px(ht)

     # We're going to assume default values for preserveAspectRatio for now,
     # this preserves aspect ratio and centers in the viewport.
     #
     # The viewport is 0,0 1000x1000. First compute the scaled extent and
     # translations that center the image rect in the viewport, then scale and
     # translate the result to fit our true 'viewport', which has an origin at
     # 0,-ascent and an extent of advance (if defined) x font_height.  We won't
     # try to optimize this, it's clearer what we're doing this way.

     # Since the viewport is square, we can just compare w and h to determine
     # which to fit to the viewport extent.  Get our position and extent in
     # the viewport.
     if w > h:
         scale_to_viewport = 1000.0 / w
         h_in_viewport = scale_to_viewport * h
         y_in_viewport = (1000 - h_in_viewport) / 2
         w_in_viewport = 1000.0
         x_in_viewport = 0.0
     else:
         scale_to_viewport = 1000.0 / h
         h_in_viewport = 1000.0
         y_in_viewport = 0.0
         w_in_viewport = scale_to_viewport * w
         x_in_viewport = (1000 - w_in_viewport) / 2

     # Now, compute the scale and translations that fit this rectangle to our
     # true 'viewport'.  The true viewport is not square so we need to choose the
     # smaller of the scales that fit its height or width.  We start with height,
     # if there's no advance then we're done, otherwise we might have to fit the
     # advance.
     scale = self.font_height / h_in_viewport
     fit_height = True
     if advance and scale * w_in_viewport > advance:
       scale = advance / w_in_viewport
       fit_height = False

     # Compute transforms that put the top left of the image where we want it.
     ty = -self.font_ascent - scale * y_in_viewport
     tx = -scale * x_in_viewport

     # Adjust them to center the image horizontally if we fit the full height,
     # vertically otherwise.
     if fit_height and advance:
       tx += (advance - scale * w_in_viewport) / 2
     else:
       ty += (self.font_height - scale * h_in_viewport) / 2

     cleaner.clean_tree(tree)

     tree.attrs['id'] = 'glyph%s' % index

     transform = 'translate(%g, %g) scale(%g)' % (tx, ty, scale)
     tree.attrs['transform'] = transform

     tree.attrs['viewBox'] = '%g %g %g %g' % (x, y, w, h)

     # In order to clip, we need to create a path and reference it.  You'd think
     # establishing a rectangular clip would be simpler...  Aaaaand... as it
     # turns out, in FF the clip on the outer svg element is only relative to the
     # initial viewport, and is not affected by the viewBox or transform on the
     # svg element.  Unlike chrome.  So either we apply an inverse transform, or
     # insert a group with the clip between the svg and its children.  The latter
     # seems cleaner, ultimately.
     clip_id = 'clip_' + ''.join(
         random.choice(string.ascii_lowercase) for i in range(8))
     clip_text = ('<g clip-path="url(#%s)"><clipPath id="%s">'
       '<path d="M%g %gh%gv%gh%gz"/></clipPath></g>' % (
           clip_id, clip_id, x, y, w, h, -w))
     clip_tree = cleaner.tree_from_text(clip_text)
     clip_tree.contents.extend(tree.contents)
     tree.contents = [clip_tree]

     svgdoc = cleaner.tree_to_text(tree)

     hmetrics = None
     if not exists:
       # There was no advance to fit, so no horizontal centering. The image advance is
       # all there is.
       # hmetrics is horiz advance and lsb
       advance = scale * w_in_viewport
       hmetrics = [int(round(advance)), 0]

     fbuilder.add_svg(svgdoc, hmetrics, name, index)
	# 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.
	#
	# Google Author(s): Doug Felt

	import math
	import random
	import re
	import string

	import svg_cleaner

	class SvgBuilder(object):
	"""Modifies a font to add SVG glyphs from a document or string. Once built you
	can call add_from_filename or add_from_doc multiple times to add SVG
	documents, which should contain a single root svg element representing the glyph.
	This element must have width and height attributes (in px), these are used to
	determine how to scale the glyph. The svg should be designed to fit inside
	this bounds and have its origin at the top left. Adding the svg generates a
	transform to scale and position the glyph, so the svg element should not have
	a transform attribute since it will be overwritten. Any id attribute on the
	glyph is also overwritten.

	Adding a glyph can generate additional default glyphs for components of a
	ligature that are not already present.

	It is possible to add SVG images to a font that already has corresponding
	glyphs. If a glyph exists already, then its hmtx advance is assumed valid.
	Otherwise we will generate an advance based on the image's width and scale
	factor. Callers should ensure that glyphs for components of ligatures are
	added before the ligatures themselves, otherwise glyphs generated for missing
	ligature components will be assigned zero metrics metrics that will not be
	overridden later."""

	def __init__(self, font_builder):
	font_builder.init_svg()

	self.font_builder = font_builder
	self.cleaner = svg_cleaner.SvgCleaner()

	font = font_builder.font
	self.font_ascent = font['hhea'].ascent
	self.font_height = self.font_ascent - font['hhea'].descent
	self.font_upem = font['head'].unitsPerEm

	def add_from_filename(self, ustr, filename):
	with open(filename, "r") as fp:
	return self.add_from_doc(ustr, fp.read(), filename=filename)

	def _strip_px(self, val):
	return float(val[:-2] if val.endswith('px') else val)

	def add_from_doc(self, ustr, svgdoc, filename=None):
	"""Cleans the svg doc, tweaks the root svg element's
	attributes, then updates the font. ustr is the character or ligature
	string, svgdoc is the svg document xml. The doc must have a single
	svg root element."""

	# The svg element must have an id attribute of the form 'glyphNNN' where NNN
	# is the glyph id. We capture the index of the glyph we're adding and write
	# it into the svg.
	#
	# We generate a transform that places the origin at the top left of the
	# ascent and uniformly scales it to fit both the font height (ascent -
	# descent) and glyph advance if it is already present. The initial viewport
	# is 1000x1000. When present, viewBox scales to fit this and uses default
	# values for preserveAspectRatio that center the viewBox in this viewport
	# ('xMidyMid meet'), and ignores the width and height. If viewBox is not
	# present, width and height cause a (possibly non-uniform) scale to be
	# applied that map the extent to the viewport. This is unfortunate for us,
	# since we want to preserve the aspect ratio, and the image is likely
	# designed for a viewport with the width and height it requested.
	#
	# If we have an advance, we want to replicate the behavior of viewBox,
	# except using a 'viewport' of advance, ascent+descent. If we don't have
	# an advance, we scale the height and compute the advance from the scaled
	# width.
	#
	# Lengths using percentage units map 100% to the width/height/diagonal
	# of the viewBox, or if it is not defined, the viewport. Since we can't
	# define the viewport, we must always have a viewBox.

	cleaner = self.cleaner
	fbuilder = self.font_builder

	tree = cleaner.tree_from_text(svgdoc)

	name, index, exists = fbuilder.add_components_and_ligature(ustr)

	advance = 0
	if exists:
	advance = fbuilder.hmtx[name][0]

	vb = tree.attrs.get('viewBox')
	if vb:
	x, y, w, h = map(self._strip_px, re.split('\s,\s\|\s+', vb))
	else:
	wid = tree.attrs.get('width')
	ht = tree.attrs.get('height')
	if not (wid and ht):
	raise ValueError(
	'missing viewBox and width or height attrs (%s)' % filename)
	x, y, w, h = 0, 0, self._strip_px(wid), self._strip_px(ht)

	# We're going to assume default values for preserveAspectRatio for now,
	# this preserves aspect ratio and centers in the viewport.
	#
	# The viewport is 0,0 1000x1000. First compute the scaled extent and
	# translations that center the image rect in the viewport, then scale and
	# translate the result to fit our true 'viewport', which has an origin at
	# 0,-ascent and an extent of advance (if defined) x font_height. We won't
	# try to optimize this, it's clearer what we're doing this way.

	# Since the viewport is square, we can just compare w and h to determine
	# which to fit to the viewport extent. Get our position and extent in
	# the viewport.
	if w > h:
	scale_to_viewport = 1000.0 / w
	h_in_viewport = scale_to_viewport * h
	y_in_viewport = (1000 - h_in_viewport) / 2
	w_in_viewport = 1000.0
	x_in_viewport = 0.0
	else:
	scale_to_viewport = 1000.0 / h
	h_in_viewport = 1000.0
	y_in_viewport = 0.0
	w_in_viewport = scale_to_viewport * w
	x_in_viewport = (1000 - w_in_viewport) / 2

	# Now, compute the scale and translations that fit this rectangle to our
	# true 'viewport'. The true viewport is not square so we need to choose the
	# smaller of the scales that fit its height or width. We start with height,
	# if there's no advance then we're done, otherwise we might have to fit the
	# advance.
	scale = self.font_height / h_in_viewport
	fit_height = True
	if advance and scale * w_in_viewport > advance:
	scale = advance / w_in_viewport
	fit_height = False

	# Compute transforms that put the top left of the image where we want it.
	ty = -self.font_ascent - scale * y_in_viewport
	tx = -scale * x_in_viewport

	# Adjust them to center the image horizontally if we fit the full height,
	# vertically otherwise.
	if fit_height and advance:
	tx += (advance - scale * w_in_viewport) / 2
	else:
	ty += (self.font_height - scale * h_in_viewport) / 2

	cleaner.clean_tree(tree)

	tree.attrs['id'] = 'glyph%s' % index

	transform = 'translate(%g, %g) scale(%g)' % (tx, ty, scale)
	tree.attrs['transform'] = transform

	tree.attrs['viewBox'] = '%g %g %g %g' % (x, y, w, h)

	# In order to clip, we need to create a path and reference it. You'd think
	# establishing a rectangular clip would be simpler... Aaaaand... as it
	# turns out, in FF the clip on the outer svg element is only relative to the
	# initial viewport, and is not affected by the viewBox or transform on the
	# svg element. Unlike chrome. So either we apply an inverse transform, or
	# insert a group with the clip between the svg and its children. The latter
	# seems cleaner, ultimately.
	clip_id = 'clip_' + ''.join(
	random.choice(string.ascii_lowercase) for i in range(8))
	clip_text = ('<g clip-path="url(#%s)"><clipPath id="%s">'
	'<path d="M%g %gh%gv%gh%gz"/></clipPath></g>' % (
	clip_id, clip_id, x, y, w, h, -w))
	clip_tree = cleaner.tree_from_text(clip_text)
	clip_tree.contents.extend(tree.contents)
	tree.contents = [clip_tree]

	svgdoc = cleaner.tree_to_text(tree)

	hmetrics = None
	if not exists:
	# There was no advance to fit, so no horizontal centering. The image advance is
	# all there is.
	# hmetrics is horiz advance and lsb
	advance = scale * w_in_viewport
	hmetrics = [int(round(advance)), 0]

	fbuilder.add_svg(svgdoc, hmetrics, name, index)