def buildDesignSpace(sources, instances, axes):
# use DesignSpaceDocument because it supports axis labelNames
doc = DesignSpaceDocument()
for source in sources:
s = SourceDescriptor()
s.path = source["path"]
s.name = source["name"]
s.copyInfo = source["copyInfo"]
s.location = source["location"]
s.familyName = source["familyName"]
s.styleName = source["styleName"]
doc.addSource(s)
for instance in instances:
i = InstanceDescriptor()
i.location = instance["location"]
i.familyName = instance["familyName"]
i.styleName = instance["styleName"]
doc.addInstance(i)
for axis in axes:
a = AxisDescriptor()
a.minimum = axis["minimum"]
a.maximum = axis["maximum"]
a.default = axis["default"]
a.name = axis["name"]
a.tag = axis["tag"]
for languageCode, labelName in axis["labelNames"].items():
a.labelNames[languageCode] = labelName
a.map = axis["map"]
doc.addAxis(a)
return doc
def testDocument(docPath):
# make the test fonts and a test document
testFontPath = os.path.join(os.getcwd(), "automatic_testfonts")
m1, m2, i1, i2, i3 = makeTestFonts(testFontPath)
d = DesignSpaceProcessor()
a = AxisDescriptor()
a.name = "pop"
a.minimum = 50
a.maximum = 1000
a.default = 0
a.tag = "pop*"
d.addAxis(a)
s1 = SourceDescriptor()
s1.path = m1
s1.location = dict(pop=a.minimum)
s1.name = "test.master.1"
s1.copyInfo = True
s1.copyFeatures = True
s1.copyLib = True
d.addSource(s1)
s2 = SourceDescriptor()
s2.path = m2
s2.location = dict(pop=1000)
s2.name = "test.master.2"
#s2.copyInfo = True
d.addSource(s2)
for counter in range(3):
factor = counter / 2
i = InstanceDescriptor()
v = a.minimum + factor * (a.maximum - a.minimum)
i.path = i1 % v
i.familyName = "TestFamily"
i.styleName = "TestStyle_pop%3.3f" % (v)
i.name = "%s-%s" % (i.familyName, i.styleName)
i.location = dict(pop=v)
i.info = True
i.kerning = True
if counter == 2:
i.glyphs['glyphTwo'] = dict(name="glyphTwo", mute=True)
i.copyLib = True
if counter == 2:
i.glyphs['narrow'] = dict(instanceLocation=dict(pop=400),
unicodes=[0x123, 0x124, 0x125])
d.addInstance(i)
d.write(docPath)
def __init__(self, font):
self.font = font
self.designSpaceModel = self.font.lib.get(self.designSpaceModelLibKey,
"twobytwo")
#if self.designSpaceModel is None:
# print("This font is probably not a Responsive Lettering project?")
# return
if self.designSpaceModel == "twobytwo":
self.masterNames = [
'narrow-thin', 'wide-thin', 'narrow-bold', 'wide-bold'
]
self.fontNames = {
'narrow-thin': 'NarrowThin',
'wide-thin': 'WideThin',
'narrow-bold': 'NarrowBold',
'wide-bold': 'WideBold'
}
self.axes = ['width', 'weight']
self.locations = {
'narrow-thin': dict(weight=0, width=0),
'wide-thin': dict(width=1000, weight=0),
'narrow-bold': dict(width=0, weight=1000),
'wide-bold': dict(width=1000, weight=1000)
}
elif self.designSpaceModel == "twobyone":
self.masterNames = ['narrow-thin', 'wide-thin']
self.fontNames = {
'narrow-thin': 'NarrowThin',
'wide-thin': 'WideThin'
}
self.axes = ['width']
self.locations = {
'narrow-thin': dict(weight=0),
'wide-thin': dict(weight=1000)
}
elif self.designSpaceModel == "threebyone":
self.masterNames = ['narrow-thin', 'wide-thin', 'medium-thin']
self.fontNames = {
'narrow-thin': 'NarrowThin',
'wide-thin': 'WideThin',
'medium-thin': 'MediumThin'
}
self.axes = ['width']
self.locations = {
'narrow-thin': dict(weight=0),
'medium-thin': dict(weight=500),
'wide-thin': dict(weight=1000)
}
projectRoot = os.path.join(
os.path.dirname(self.font.path),
"%s_variableFont" % self.font.info.styleName)
docPath = os.path.join(
projectRoot,
"%s_variableFont.designspace" % self.font.info.styleName)
if not os.path.exists(projectRoot):
os.makedirs(projectRoot)
widthMinimum = self.font['narrow-thin'].width
widthMaximum = self.font['wide-thin'].width
for k, v in self.locations.items():
new = {}
for axisName, axisValue in v.items():
if axisName == "width":
if axisValue == 1000:
new[axisName] = widthMaximum
elif axisValue == 0:
new[axisName] = widthMinimum
else:
new[axisName] = axisValue
self.locations[k] = new
doc = DesignSpaceDocument()
for name in self.axes:
if name == "width":
a = AxisDescriptor()
a.minimum = widthMinimum
a.maximum = widthMaximum
a.default = widthMinimum
a.name = "width"
a.tag = "wdth"
#a.labelNames['en'] = "Width"
doc.addAxis(a)
elif name == "weight":
a = AxisDescriptor()
a.minimum = 0
a.maximum = 1000
a.default = 0
a.name = "weight"
a.tag = "wght"
#a.labelNames['en'] = "Weight"
doc.addAxis(a)
print "projectRoot", projectRoot
masterCount = 0
for name in self.masterNames:
if name in self.font:
masterCount += 1
if masterCount != len(self.masterNames):
print "missing glyphs, can't generate"
return
closers = []
for name in self.masterNames:
print "processing", name, self.locations[name]
m = RFont()
m.info.unitsPerEm = self.font.info.unitsPerEm
m.info.ascender = self.font.info.ascender
m.info.descender = self.font.info.descender
if self.font.info.familyName in ["MathShape", "Responsive"]:
m.info.familyName = self.font.info.styleName
else:
m.info.familyName = "ResponsiveLettering"
m.info.styleName = self.fontNames[name]
m.info.copyright = "Generated from Responsive Lettering project %s" % (
os.path.basename(self.font.path))
m.info.openTypeNameSampleText = "A"
fontPath = os.path.join(projectRoot,
"master_%s.ufo" % (m.info.styleName))
instancePath = os.path.join(
projectRoot,
"instance_%s%s.ufo" % (m.info.familyName, m.info.styleName))
m.save(fontPath)
m.newGlyph("A")
g = m['A']
pen = g.getPointPen()
self.font[name].drawPoints(pen)
#g.appendGlyph(self.font[name])
g.width = self.font[name].width
g.clearImage()
g.update()
m.save()
m.newGlyph("space")
g = m['space']
g.clearImage()
g.width = self.font[name].width
#g.note = "test"
#g.appendGlyph(self.font[name])
m.newGlyph(".notdef")
g = m['.notdef']
g.clearImage()
g.width = self.font[name].width
#g.note = "test"
g.update()
m.save()
s = SourceDescriptor()
s.path = fontPath
s.location = self.locations[name]
if name == 'narrow-thin':
s.copyLib = True
s.copyInfo = True
doc.addSource(s)
# add some instances
i = InstanceDescriptor()
i.path = instancePath
i.location = self.locations[name]
i.copyLib = True
i.copyInfo = True
i.copyFeatures = True
i.familyName = "ResponsiveLetteringVariable"
i.styleName = m.info.styleName
#i.kerning = True
doc.addInstance(i)
closers.append(m)
doc.write(docPath)
for m in closers:
m.save()
m.close()
s3.name = "master.MutatorMathTest.BoldWide.3" s3.familyName = familyName s3.styleName = "BoldWide" s3.location = dict(weight=1000, width=1000) doc.addSource(s3) #----------- # instances #----------- i0 = InstanceDescriptor() i0.name = 'instance_LightCondensed' i0.familyName = familyName i0.styleName = "Medium" i0.path = os.path.join(root, "instances", "MutatorSansTest-Medium.ufo") i0.location = dict(weight=500, width=327) i0.kerning = True i0.info = True doc.addInstance(i0) #------- # rules #------- # TODO: add rules to match the contents of `MutatorSans.designspace` # http://github.com/LettError/mutatorSans/blob/master/MutatorSans.designspace #-------- # saving #--------
doc = DesignSpaceDocument()
for source in sources:
s = SourceDescriptor()
s.path = source["path"]
s.name = source["name"]
s.copyInfo = source["copyInfo"]
s.location = source["location"]
s.familyName = source["familyName"]
s.styleName = source["styleName"]
doc.addSource(s)
for instance in instances:
i = InstanceDescriptor()
i.location = instance["location"]
i.familyName = instance["familyName"]
i.styleName = instance["styleName"]
doc.addInstance(i)
for axis in axes:
a = AxisDescriptor()
a.minimum = axis["minimum"]
a.maximum = axis["maximum"]
a.default = axis["default"]
a.name = axis["name"]
a.tag = axis["tag"]
for languageCode, labelName in axis["labelNames"].items():
a.labelNames[languageCode] = labelName
a.map = axis["map"]
doc.addAxis(a)