Lib/fontTools/feaLib/variableScalar.py - platform/external/fonttools - Git at Google

 from fontTools.varLib.models import VariationModel, normalizeValue, piecewiseLinearMap


 def Location(loc):
     return tuple(sorted(loc.items()))


 class VariableScalar:
     """A scalar with different values at different points in the designspace."""

     def __init__(self, location_value={}):
         self.values = {}
         self.axes = {}
         for location, value in location_value.items():
             self.add_value(location, value)

     def __repr__(self):
         items = []
         for location, value in self.values.items():
             loc = ",".join(["%s=%i" % (ax, loc) for ax, loc in location])
             items.append("%s:%i" % (loc, value))
         return "(" + (" ".join(items)) + ")"

     @property
     def does_vary(self):
         values = list(self.values.values())
         return any(v != values[0] for v in values[1:])

     @property
     def axes_dict(self):
         if not self.axes:
             raise ValueError(
                 ".axes must be defined on variable scalar before interpolating"
             )
         return {ax.axisTag: ax for ax in self.axes}

     def _normalized_location(self, location):
         location = self.fix_location(location)
         normalized_location = {}
         for axtag in location.keys():
             if axtag not in self.axes_dict:
                 raise ValueError("Unknown axis %s in %s" % (axtag, location))
             axis = self.axes_dict[axtag]
             normalized_location[axtag] = normalizeValue(
                 location[axtag], (axis.minValue, axis.defaultValue, axis.maxValue)
             )

         return Location(normalized_location)

     def fix_location(self, location):
         location = dict(location)
         for tag, axis in self.axes_dict.items():
             if tag not in location:
                 location[tag] = axis.defaultValue
         return location

     def add_value(self, location, value):
         if self.axes:
             location = self.fix_location(location)

         self.values[Location(location)] = value

     def fix_all_locations(self):
         self.values = {
             Location(self.fix_location(l)): v for l, v in self.values.items()
         }

     @property
     def default(self):
         self.fix_all_locations()
         key = Location({ax.axisTag: ax.defaultValue for ax in self.axes})
         if key not in self.values:
             raise ValueError("Default value could not be found")
             # I *guess* we could interpolate one, but I don't know how.
         return self.values[key]

     def value_at_location(self, location, model_cache=None, avar=None):
         loc = location
         if loc in self.values.keys():
             return self.values[loc]
         values = list(self.values.values())
         return self.model(model_cache, avar).interpolateFromMasters(loc, values)

     def model(self, model_cache=None, avar=None):
         if model_cache is not None:
             key = tuple(self.values.keys())
             if key in model_cache:
                 return model_cache[key]
         locations = [dict(self._normalized_location(k)) for k in self.values.keys()]
         if avar is not None:
             mapping = avar.segments
             locations = [
                 {
                     k: piecewiseLinearMap(v, mapping[k]) if k in mapping else v
                     for k, v in location.items()
                 }
                 for location in locations
             ]
         m = VariationModel(locations)
         if model_cache is not None:
             model_cache[key] = m
         return m

     def get_deltas_and_supports(self, model_cache=None, avar=None):
         values = list(self.values.values())
         return self.model(model_cache, avar).getDeltasAndSupports(values)

     def add_to_variation_store(self, store_builder, model_cache=None, avar=None):
         deltas, supports = self.get_deltas_and_supports(model_cache, avar)
         store_builder.setSupports(supports)
         index = store_builder.storeDeltas(deltas)
         return int(self.default), index
	from fontTools.varLib.models import VariationModel, normalizeValue, piecewiseLinearMap


	def Location(loc):
	return tuple(sorted(loc.items()))


	class VariableScalar:
	"""A scalar with different values at different points in the designspace."""

	def __init__(self, location_value={}):
	self.values = {}
	self.axes = {}
	for location, value in location_value.items():
	self.add_value(location, value)

	def __repr__(self):
	items = []
	for location, value in self.values.items():
	loc = ",".join(["%s=%i" % (ax, loc) for ax, loc in location])
	items.append("%s:%i" % (loc, value))
	return "(" + (" ".join(items)) + ")"

	@property
	def does_vary(self):
	values = list(self.values.values())
	return any(v != values[0] for v in values[1:])

	@property
	def axes_dict(self):
	if not self.axes:
	raise ValueError(
	".axes must be defined on variable scalar before interpolating"
	)
	return {ax.axisTag: ax for ax in self.axes}

	def _normalized_location(self, location):
	location = self.fix_location(location)
	normalized_location = {}
	for axtag in location.keys():
	if axtag not in self.axes_dict:
	raise ValueError("Unknown axis %s in %s" % (axtag, location))
	axis = self.axes_dict[axtag]
	normalized_location[axtag] = normalizeValue(
	location[axtag], (axis.minValue, axis.defaultValue, axis.maxValue)
	)

	return Location(normalized_location)

	def fix_location(self, location):
	location = dict(location)
	for tag, axis in self.axes_dict.items():
	if tag not in location:
	location[tag] = axis.defaultValue
	return location

	def add_value(self, location, value):
	if self.axes:
	location = self.fix_location(location)

	self.values[Location(location)] = value

	def fix_all_locations(self):
	self.values = {
	Location(self.fix_location(l)): v for l, v in self.values.items()
	}

	@property
	def default(self):
	self.fix_all_locations()
	key = Location({ax.axisTag: ax.defaultValue for ax in self.axes})
	if key not in self.values:
	raise ValueError("Default value could not be found")
	# I guess we could interpolate one, but I don't know how.
	return self.values[key]

	def value_at_location(self, location, model_cache=None, avar=None):
	loc = location
	if loc in self.values.keys():
	return self.values[loc]
	values = list(self.values.values())
	return self.model(model_cache, avar).interpolateFromMasters(loc, values)

	def model(self, model_cache=None, avar=None):
	if model_cache is not None:
	key = tuple(self.values.keys())
	if key in model_cache:
	return model_cache[key]
	locations = [dict(self._normalized_location(k)) for k in self.values.keys()]
	if avar is not None:
	mapping = avar.segments
	locations = [
	{
	k: piecewiseLinearMap(v, mapping[k]) if k in mapping else v
	for k, v in location.items()
	}
	for location in locations
	]
	m = VariationModel(locations)
	if model_cache is not None:
	model_cache[key] = m
	return m

	def get_deltas_and_supports(self, model_cache=None, avar=None):
	values = list(self.values.values())
	return self.model(model_cache, avar).getDeltasAndSupports(values)

	def add_to_variation_store(self, store_builder, model_cache=None, avar=None):
	deltas, supports = self.get_deltas_and_supports(model_cache, avar)
	store_builder.setSupports(supports)
	index = store_builder.storeDeltas(deltas)
	return int(self.default), index