from fontTools.ttLib import TTFont, newTable from fontTools.varLib import build, load_designspace from fontTools.varLib.errors import VarLibValidationError import fontTools.varLib.errors as varLibErrors from fontTools.varLib.mutator import instantiateVariableFont from fontTools.varLib import main as varLib_main, load_masters from fontTools.varLib import set_default_weight_width_slant from fontTools.designspaceLib import ( DesignSpaceDocumentError, DesignSpaceDocument, SourceDescriptor, ) from fontTools.feaLib.builder import addOpenTypeFeaturesFromString import difflib from io import BytesIO import os import shutil import sys import tempfile import unittest import pytest def reload_font(font): """(De)serialize to get final binary layout.""" buf = BytesIO() font.save(buf) # Close the font to release filesystem resources so that on Windows the tearDown # method can successfully remove the temporary directory created during setUp. font.close() buf.seek(0) return TTFont(buf) class BuildTest(unittest.TestCase): def __init__(self, methodName): unittest.TestCase.__init__(self, methodName) # Python 3 renamed assertRaisesRegexp to assertRaisesRegex, # and fires deprecation warnings if a program uses the old name. if not hasattr(self, "assertRaisesRegex"): self.assertRaisesRegex = self.assertRaisesRegexp def setUp(self): self.tempdir = None self.num_tempfiles = 0 def tearDown(self): if self.tempdir: shutil.rmtree(self.tempdir) def get_test_input(self, test_file_or_folder, copy=False): parent_dir = os.path.dirname(__file__) path = os.path.join(parent_dir, "data", test_file_or_folder) if copy: copied_path = os.path.join(self.tempdir, test_file_or_folder) shutil.copy2(path, copied_path) return copied_path else: return path @staticmethod def get_test_output(test_file_or_folder): path, _ = os.path.split(__file__) return os.path.join(path, "data", "test_results", test_file_or_folder) @staticmethod def get_file_list(folder, suffix, prefix=''): all_files = os.listdir(folder) file_list = [] for p in all_files: if p.startswith(prefix) and p.endswith(suffix): file_list.append(os.path.abspath(os.path.join(folder, p))) return file_list def temp_path(self, suffix): self.temp_dir() self.num_tempfiles += 1 return os.path.join(self.tempdir, "tmp%d%s" % (self.num_tempfiles, suffix)) def temp_dir(self): if not self.tempdir: self.tempdir = tempfile.mkdtemp() def read_ttx(self, path): lines = [] with open(path, "r", encoding="utf-8") as ttx: for line in ttx.readlines(): # Elide ttFont attributes because ttLibVersion may change, # and use os-native line separators so we can run difflib. if line.startswith("" + os.linesep) else: lines.append(line.rstrip() + os.linesep) return lines def expect_ttx(self, font, expected_ttx, tables): path = self.temp_path(suffix=".ttx") font.saveXML(path, tables=tables) actual = self.read_ttx(path) expected = self.read_ttx(expected_ttx) if actual != expected: for line in difflib.unified_diff( expected, actual, fromfile=expected_ttx, tofile=path): sys.stdout.write(line) self.fail("TTX output is different from expected") def check_ttx_dump(self, font, expected_ttx, tables, suffix): """Ensure the TTX dump is the same after saving and reloading the font.""" path = self.temp_path(suffix=suffix) font.save(path) self.expect_ttx(TTFont(path), expected_ttx, tables) def compile_font(self, path, suffix, temp_dir): ttx_filename = os.path.basename(path) savepath = os.path.join(temp_dir, ttx_filename.replace('.ttx', suffix)) font = TTFont(recalcBBoxes=False, recalcTimestamp=False) font.importXML(path) font.save(savepath, reorderTables=None) return font, savepath def _run_varlib_build_test(self, designspace_name, font_name, tables, expected_ttx_name, save_before_dump=False, post_process_master=None): suffix = '.ttf' ds_path = self.get_test_input(designspace_name + '.designspace') ufo_dir = self.get_test_input('master_ufo') ttx_dir = self.get_test_input('master_ttx_interpolatable_ttf') self.temp_dir() ttx_paths = self.get_file_list(ttx_dir, '.ttx', font_name + '-') for path in ttx_paths: font, savepath = self.compile_font(path, suffix, self.tempdir) if post_process_master is not None: post_process_master(font, savepath) finder = lambda s: s.replace(ufo_dir, self.tempdir).replace('.ufo', suffix) varfont, model, _ = build(ds_path, finder) if save_before_dump: # some data (e.g. counts printed in TTX inline comments) is only # calculated at compile time, so before we can compare the TTX # dumps we need to save to a temporary stream, and realod the font varfont = reload_font(varfont) expected_ttx_path = self.get_test_output(expected_ttx_name + '.ttx') self.expect_ttx(varfont, expected_ttx_path, tables) self.check_ttx_dump(varfont, expected_ttx_path, tables, suffix) # ----- # Tests # ----- def test_varlib_build_ttf(self): """Designspace file contains element.""" self._run_varlib_build_test( designspace_name='Build', font_name='TestFamily', tables=['GDEF', 'HVAR', 'MVAR', 'fvar', 'gvar'], expected_ttx_name='Build' ) def test_varlib_build_no_axes_ttf(self): """Designspace file does not contain an element.""" ds_path = self.get_test_input('InterpolateLayout3.designspace') with self.assertRaisesRegex(DesignSpaceDocumentError, "No axes defined"): build(ds_path) def test_varlib_avar_single_axis(self): """Designspace file contains a 'weight' axis with elements modifying the normalization mapping. An 'avar' table is generated. """ test_name = 'BuildAvarSingleAxis' self._run_varlib_build_test( designspace_name=test_name, font_name='TestFamily3', tables=['avar'], expected_ttx_name=test_name ) def test_varlib_avar_with_identity_maps(self): """Designspace file contains two 'weight' and 'width' axes both with elements. The 'width' axis only contains identity mappings, however the resulting avar segment will not be empty but will contain the default axis value maps: {-1.0: -1.0, 0.0: 0.0, 1.0: 1.0}. This is to work around an issue with some rasterizers: https://github.com/googlei18n/fontmake/issues/295 https://github.com/fonttools/fonttools/issues/1011 """ test_name = 'BuildAvarIdentityMaps' self._run_varlib_build_test( designspace_name=test_name, font_name='TestFamily3', tables=['avar'], expected_ttx_name=test_name ) def test_varlib_avar_empty_axis(self): """Designspace file contains two 'weight' and 'width' axes, but only one axis ('weight') has some elements. Even if no elements are defined for the 'width' axis, the resulting avar segment still contains the default axis value maps: {-1.0: -1.0, 0.0: 0.0, 1.0: 1.0}. This is again to work around an issue with some rasterizers: https://github.com/googlei18n/fontmake/issues/295 https://github.com/fonttools/fonttools/issues/1011 """ test_name = 'BuildAvarEmptyAxis' self._run_varlib_build_test( designspace_name=test_name, font_name='TestFamily3', tables=['avar'], expected_ttx_name=test_name ) def test_varlib_build_feature_variations(self): """Designspace file contains element, used to build GSUB FeatureVariations table. """ self._run_varlib_build_test( designspace_name="FeatureVars", font_name="TestFamily", tables=["fvar", "GSUB"], expected_ttx_name="FeatureVars", save_before_dump=True, ) def test_varlib_build_feature_variations_custom_tag(self): """Designspace file contains element, used to build GSUB FeatureVariations table. """ self._run_varlib_build_test( designspace_name="FeatureVarsCustomTag", font_name="TestFamily", tables=["fvar", "GSUB"], expected_ttx_name="FeatureVarsCustomTag", save_before_dump=True, ) def test_varlib_build_feature_variations_whole_range(self): """Designspace file contains element specifying the entire design space, used to build GSUB FeatureVariations table. """ self._run_varlib_build_test( designspace_name="FeatureVarsWholeRange", font_name="TestFamily", tables=["fvar", "GSUB"], expected_ttx_name="FeatureVarsWholeRange", save_before_dump=True, ) def test_varlib_build_feature_variations_whole_range_empty(self): """Designspace file contains element without a condition, specifying the entire design space, used to build GSUB FeatureVariations table. """ self._run_varlib_build_test( designspace_name="FeatureVarsWholeRangeEmpty", font_name="TestFamily", tables=["fvar", "GSUB"], expected_ttx_name="FeatureVarsWholeRange", save_before_dump=True, ) def test_varlib_build_feature_variations_with_existing_rclt(self): """Designspace file contains element, used to build GSUB FeatureVariations table. is specified to do its OT processing "last", so a 'rclt' feature will be used or created. This test covers the case when a 'rclt' already exists in the masters. We dynamically add a 'rclt' feature to an existing set of test masters, to avoid adding more test data. The multiple languages are done to verify whether multiple existing 'rclt' features are updated correctly. """ def add_rclt(font, savepath): features = """ languagesystem DFLT dflt; languagesystem latn dflt; languagesystem latn NLD; feature rclt { script latn; language NLD; lookup A { sub uni0041 by uni0061; } A; language dflt; lookup B { sub uni0041 by uni0061; } B; } rclt; """ addOpenTypeFeaturesFromString(font, features) font.save(savepath) self._run_varlib_build_test( designspace_name="FeatureVars", font_name="TestFamily", tables=["fvar", "GSUB"], expected_ttx_name="FeatureVars_rclt", save_before_dump=True, post_process_master=add_rclt, ) def test_varlib_gvar_explicit_delta(self): """The variable font contains a composite glyph odieresis which does not need a gvar entry, because all its deltas are 0, but it must be added anyway to work around an issue with macOS 10.14. https://github.com/fonttools/fonttools/issues/1381 """ test_name = 'BuildGvarCompositeExplicitDelta' self._run_varlib_build_test( designspace_name=test_name, font_name='TestFamily4', tables=['gvar'], expected_ttx_name=test_name ) def test_varlib_nonmarking_CFF2(self): self.temp_dir() ds_path = self.get_test_input('TestNonMarkingCFF2.designspace', copy=True) ttx_dir = self.get_test_input("master_non_marking_cff2") expected_ttx_path = self.get_test_output("TestNonMarkingCFF2.ttx") for path in self.get_file_list(ttx_dir, '.ttx', 'TestNonMarkingCFF2_'): self.compile_font(path, ".otf", self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", ".otf") ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = ["CFF2"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_CFF2(self): self.temp_dir() ds_path = self.get_test_input('TestCFF2.designspace', copy=True) ttx_dir = self.get_test_input("master_cff2") expected_ttx_path = self.get_test_output("BuildTestCFF2.ttx") for path in self.get_file_list(ttx_dir, '.ttx', 'TestCFF2_'): self.compile_font(path, ".otf", self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", ".otf") ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = ["fvar", "CFF2"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_CFF2_from_CFF2(self): self.temp_dir() ds_path = self.get_test_input('TestCFF2Input.designspace', copy=True) ttx_dir = self.get_test_input("master_cff2_input") expected_ttx_path = self.get_test_output("BuildTestCFF2.ttx") for path in self.get_file_list(ttx_dir, '.ttx', 'TestCFF2_'): self.compile_font(path, ".otf", self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", ".otf") ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = ["fvar", "CFF2"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_sparse_CFF2(self): self.temp_dir() ds_path = self.get_test_input('TestSparseCFF2VF.designspace', copy=True) ttx_dir = self.get_test_input("master_sparse_cff2") expected_ttx_path = self.get_test_output("TestSparseCFF2VF.ttx") for path in self.get_file_list(ttx_dir, '.ttx', 'MasterSet_Kanji-'): self.compile_font(path, ".otf", self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", ".otf") ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = ["fvar", "CFF2"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_vpal(self): self.temp_dir() ds_path = self.get_test_input('test_vpal.designspace', copy=True) ttx_dir = self.get_test_input("master_vpal_test") expected_ttx_path = self.get_test_output("test_vpal.ttx") for path in self.get_file_list(ttx_dir, '.ttx', 'master_vpal_test_'): self.compile_font(path, ".otf", self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", ".otf") ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = ["GPOS"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_main_ttf(self): """Mostly for testing varLib.main() """ suffix = '.ttf' ds_path = self.get_test_input('Build.designspace') ttx_dir = self.get_test_input('master_ttx_interpolatable_ttf') self.temp_dir() ttf_dir = os.path.join(self.tempdir, 'master_ttf_interpolatable') os.makedirs(ttf_dir) ttx_paths = self.get_file_list(ttx_dir, '.ttx', 'TestFamily-') for path in ttx_paths: self.compile_font(path, suffix, ttf_dir) ds_copy = os.path.join(self.tempdir, 'BuildMain.designspace') shutil.copy2(ds_path, ds_copy) # by default, varLib.main finds master TTFs inside a # 'master_ttf_interpolatable' subfolder in current working dir cwd = os.getcwd() os.chdir(self.tempdir) try: varLib_main([ds_copy]) finally: os.chdir(cwd) varfont_path = os.path.splitext(ds_copy)[0] + '-VF' + suffix self.assertTrue(os.path.exists(varfont_path)) # try again passing an explicit --master-finder os.remove(varfont_path) finder = "%s/master_ttf_interpolatable/{stem}.ttf" % self.tempdir varLib_main([ds_copy, "--master-finder", finder]) self.assertTrue(os.path.exists(varfont_path)) # and also with explicit -o output option os.remove(varfont_path) varfont_path = os.path.splitext(varfont_path)[0] + "-o" + suffix varLib_main([ds_copy, "-o", varfont_path, "--master-finder", finder]) self.assertTrue(os.path.exists(varfont_path)) varfont = TTFont(varfont_path) tables = [table_tag for table_tag in varfont.keys() if table_tag != 'head'] expected_ttx_path = self.get_test_output('BuildMain.ttx') self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_from_ds_object_in_memory_ttfonts(self): ds_path = self.get_test_input("Build.designspace") ttx_dir = self.get_test_input("master_ttx_interpolatable_ttf") expected_ttx_path = self.get_test_output("BuildMain.ttx") self.temp_dir() for path in self.get_file_list(ttx_dir, '.ttx', 'TestFamily-'): self.compile_font(path, ".ttf", self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: filename = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", ".ttf") ) source.font = TTFont( filename, recalcBBoxes=False, recalcTimestamp=False, lazy=True ) source.filename = None # Make sure no file path gets into build() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = [table_tag for table_tag in varfont.keys() if table_tag != "head"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_from_ttf_paths(self): self.temp_dir() ds_path = self.get_test_input("Build.designspace", copy=True) ttx_dir = self.get_test_input("master_ttx_interpolatable_ttf") expected_ttx_path = self.get_test_output("BuildMain.ttx") for path in self.get_file_list(ttx_dir, '.ttx', 'TestFamily-'): self.compile_font(path, ".ttf", self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", ".ttf") ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = [table_tag for table_tag in varfont.keys() if table_tag != "head"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_from_ttx_paths(self): ds_path = self.get_test_input("Build.designspace") ttx_dir = self.get_test_input("master_ttx_interpolatable_ttf") expected_ttx_path = self.get_test_output("BuildMain.ttx") ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( ttx_dir, os.path.basename(source.filename).replace(".ufo", ".ttx") ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = [table_tag for table_tag in varfont.keys() if table_tag != "head"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_sparse_masters(self): ds_path = self.get_test_input("SparseMasters.designspace") expected_ttx_path = self.get_test_output("SparseMasters.ttx") varfont, _, _ = build(ds_path) varfont = reload_font(varfont) tables = [table_tag for table_tag in varfont.keys() if table_tag != "head"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_lazy_masters(self): # See https://github.com/fonttools/fonttools/issues/1808 ds_path = self.get_test_input("SparseMasters.designspace") expected_ttx_path = self.get_test_output("SparseMasters.ttx") def _open_font(master_path, master_finder=lambda s: s): font = TTFont() font.importXML(master_path) buf = BytesIO() font.save(buf, reorderTables=False) buf.seek(0) font = TTFont(buf, lazy=True) # reopen in lazy mode, to reproduce #1808 return font ds = DesignSpaceDocument.fromfile(ds_path) ds.loadSourceFonts(_open_font) varfont, _, _ = build(ds) varfont = reload_font(varfont) tables = [table_tag for table_tag in varfont.keys() if table_tag != "head"] self.expect_ttx(varfont, expected_ttx_path, tables) def test_varlib_build_sparse_masters_MVAR(self): import fontTools.varLib.mvar ds_path = self.get_test_input("SparseMasters.designspace") ds = DesignSpaceDocument.fromfile(ds_path) load_masters(ds) # Trigger MVAR generation so varLib is forced to create deltas with a # sparse master inbetween. font_0_os2 = ds.sources[0].font["OS/2"] font_0_os2.sTypoAscender = 1 font_0_os2.sTypoDescender = 1 font_0_os2.sTypoLineGap = 1 font_0_os2.usWinAscent = 1 font_0_os2.usWinDescent = 1 font_0_os2.sxHeight = 1 font_0_os2.sCapHeight = 1 font_0_os2.ySubscriptXSize = 1 font_0_os2.ySubscriptYSize = 1 font_0_os2.ySubscriptXOffset = 1 font_0_os2.ySubscriptYOffset = 1 font_0_os2.ySuperscriptXSize = 1 font_0_os2.ySuperscriptYSize = 1 font_0_os2.ySuperscriptXOffset = 1 font_0_os2.ySuperscriptYOffset = 1 font_0_os2.yStrikeoutSize = 1 font_0_os2.yStrikeoutPosition = 1 font_0_vhea = newTable("vhea") font_0_vhea.ascent = 1 font_0_vhea.descent = 1 font_0_vhea.lineGap = 1 font_0_vhea.caretSlopeRise = 1 font_0_vhea.caretSlopeRun = 1 font_0_vhea.caretOffset = 1 ds.sources[0].font["vhea"] = font_0_vhea font_0_hhea = ds.sources[0].font["hhea"] font_0_hhea.caretSlopeRise = 1 font_0_hhea.caretSlopeRun = 1 font_0_hhea.caretOffset = 1 font_0_post = ds.sources[0].font["post"] font_0_post.underlineThickness = 1 font_0_post.underlinePosition = 1 font_2_os2 = ds.sources[2].font["OS/2"] font_2_os2.sTypoAscender = 800 font_2_os2.sTypoDescender = 800 font_2_os2.sTypoLineGap = 800 font_2_os2.usWinAscent = 800 font_2_os2.usWinDescent = 800 font_2_os2.sxHeight = 800 font_2_os2.sCapHeight = 800 font_2_os2.ySubscriptXSize = 800 font_2_os2.ySubscriptYSize = 800 font_2_os2.ySubscriptXOffset = 800 font_2_os2.ySubscriptYOffset = 800 font_2_os2.ySuperscriptXSize = 800 font_2_os2.ySuperscriptYSize = 800 font_2_os2.ySuperscriptXOffset = 800 font_2_os2.ySuperscriptYOffset = 800 font_2_os2.yStrikeoutSize = 800 font_2_os2.yStrikeoutPosition = 800 font_2_vhea = newTable("vhea") font_2_vhea.ascent = 800 font_2_vhea.descent = 800 font_2_vhea.lineGap = 800 font_2_vhea.caretSlopeRise = 800 font_2_vhea.caretSlopeRun = 800 font_2_vhea.caretOffset = 800 ds.sources[2].font["vhea"] = font_2_vhea font_2_hhea = ds.sources[2].font["hhea"] font_2_hhea.caretSlopeRise = 800 font_2_hhea.caretSlopeRun = 800 font_2_hhea.caretOffset = 800 font_2_post = ds.sources[2].font["post"] font_2_post.underlineThickness = 800 font_2_post.underlinePosition = 800 varfont, _, _ = build(ds) mvar_tags = [vr.ValueTag for vr in varfont["MVAR"].table.ValueRecord] assert all(tag in mvar_tags for tag in fontTools.varLib.mvar.MVAR_ENTRIES) def test_varlib_build_VVAR_CFF2(self): self.temp_dir() ds_path = self.get_test_input('TestVVAR.designspace', copy=True) ttx_dir = self.get_test_input("master_vvar_cff2") expected_ttx_name = 'TestVVAR' suffix = '.otf' for path in self.get_file_list(ttx_dir, '.ttx', 'TestVVAR'): font, savepath = self.compile_font(path, suffix, self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", suffix) ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) expected_ttx_path = self.get_test_output(expected_ttx_name + '.ttx') tables = ["VVAR"] self.expect_ttx(varfont, expected_ttx_path, tables) self.check_ttx_dump(varfont, expected_ttx_path, tables, suffix) def test_varlib_build_BASE(self): self.temp_dir() ds_path = self.get_test_input('TestBASE.designspace', copy=True) ttx_dir = self.get_test_input("master_base_test") expected_ttx_name = 'TestBASE' suffix = '.otf' for path in self.get_file_list(ttx_dir, '.ttx', 'TestBASE'): font, savepath = self.compile_font(path, suffix, self.tempdir) ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: source.path = os.path.join( self.tempdir, os.path.basename(source.filename).replace(".ufo", suffix) ) ds.updatePaths() varfont, _, _ = build(ds) varfont = reload_font(varfont) expected_ttx_path = self.get_test_output(expected_ttx_name + '.ttx') tables = ["BASE"] self.expect_ttx(varfont, expected_ttx_path, tables) self.check_ttx_dump(varfont, expected_ttx_path, tables, suffix) def test_varlib_build_single_master(self): self._run_varlib_build_test( designspace_name='SingleMaster', font_name='TestFamily', tables=['GDEF', 'HVAR', 'MVAR', 'STAT', 'fvar', 'cvar', 'gvar', 'name'], expected_ttx_name='SingleMaster', save_before_dump=True, ) def test_kerning_merging(self): """Test the correct merging of class-based pair kerning. Problem description at https://github.com/fonttools/fonttools/pull/1638. Test font and Designspace generated by https://gist.github.com/madig/183d0440c9f7d05f04bd1280b9664bd1. """ ds_path = self.get_test_input("KerningMerging.designspace") ttx_dir = self.get_test_input("master_kerning_merging") ds = DesignSpaceDocument.fromfile(ds_path) for source in ds.sources: ttx_dump = TTFont() ttx_dump.importXML( os.path.join( ttx_dir, os.path.basename(source.filename).replace(".ttf", ".ttx") ) ) source.font = reload_font(ttx_dump) varfont, _, _ = build(ds) varfont = reload_font(varfont) class_kerning_tables = [ t for l in varfont["GPOS"].table.LookupList.Lookup for t in l.SubTable if t.Format == 2 ] assert len(class_kerning_tables) == 1 class_kerning_table = class_kerning_tables[0] # Test that no class kerned against class zero (containing all glyphs not # classed) has a `XAdvDevice` table attached, which in the variable font # context is a "VariationIndex" table and points to kerning deltas in the GDEF # table. Variation deltas of any kerning class against class zero should # probably never exist. for class1_record in class_kerning_table.Class1Record: class2_zero = class1_record.Class2Record[0] assert getattr(class2_zero.Value1, "XAdvDevice", None) is None # Assert the variable font's kerning table (without deltas) is equal to the # default font's kerning table. The bug fixed in # https://github.com/fonttools/fonttools/pull/1638 caused rogue kerning # values to be written to the variable font. assert _extract_flat_kerning(varfont, class_kerning_table) == { ("A", ".notdef"): 0, ("A", "A"): 0, ("A", "B"): -20, ("A", "C"): 0, ("A", "D"): -20, ("B", ".notdef"): 0, ("B", "A"): 0, ("B", "B"): 0, ("B", "C"): 0, ("B", "D"): 0, } instance_thin = instantiateVariableFont(varfont, {"wght": 100}) instance_thin_kerning_table = ( instance_thin["GPOS"].table.LookupList.Lookup[0].SubTable[0] ) assert _extract_flat_kerning(instance_thin, instance_thin_kerning_table) == { ("A", ".notdef"): 0, ("A", "A"): 0, ("A", "B"): 0, ("A", "C"): 10, ("A", "D"): 0, ("B", ".notdef"): 0, ("B", "A"): 0, ("B", "B"): 0, ("B", "C"): 10, ("B", "D"): 0, } instance_black = instantiateVariableFont(varfont, {"wght": 900}) instance_black_kerning_table = ( instance_black["GPOS"].table.LookupList.Lookup[0].SubTable[0] ) assert _extract_flat_kerning(instance_black, instance_black_kerning_table) == { ("A", ".notdef"): 0, ("A", "A"): 0, ("A", "B"): 0, ("A", "C"): 0, ("A", "D"): 40, ("B", ".notdef"): 0, ("B", "A"): 0, ("B", "B"): 0, ("B", "C"): 0, ("B", "D"): 40, } def test_designspace_fill_in_location(self): ds_path = self.get_test_input("VarLibLocationTest.designspace") ds = DesignSpaceDocument.fromfile(ds_path) ds_loaded = load_designspace(ds) assert ds_loaded.instances[0].location == {"weight": 0, "width": 50} def test_varlib_build_incompatible_features(self): with pytest.raises( varLibErrors.ShouldBeConstant, match = """ Couldn't merge the fonts, because some values were different, but should have been the same. This happened while performing the following operation: GPOS.table.FeatureList.FeatureCount The problem is likely to be in Simple Two Axis Bold: Incompatible features between masters. Expected: kern, mark. Got: kern. """): self._run_varlib_build_test( designspace_name="IncompatibleFeatures", font_name="IncompatibleFeatures", tables=["GPOS"], expected_ttx_name="IncompatibleFeatures", save_before_dump=True, ) def test_varlib_build_incompatible_lookup_types(self): with pytest.raises( varLibErrors.MismatchedTypes, match = r"MarkBasePos, instead saw PairPos" ): self._run_varlib_build_test( designspace_name="IncompatibleLookupTypes", font_name="IncompatibleLookupTypes", tables=["GPOS"], expected_ttx_name="IncompatibleLookupTypes", save_before_dump=True, ) def test_varlib_build_incompatible_arrays(self): with pytest.raises( varLibErrors.ShouldBeConstant, match = """ Couldn't merge the fonts, because some values were different, but should have been the same. This happened while performing the following operation: GPOS.table.ScriptList.ScriptCount The problem is likely to be in Simple Two Axis Bold: Expected to see .ScriptCount==1, instead saw 0""" ): self._run_varlib_build_test( designspace_name="IncompatibleArrays", font_name="IncompatibleArrays", tables=["GPOS"], expected_ttx_name="IncompatibleArrays", save_before_dump=True, ) def test_load_masters_layerName_without_required_font(): ds = DesignSpaceDocument() s = SourceDescriptor() s.font = None s.layerName = "Medium" ds.addSource(s) with pytest.raises( VarLibValidationError, match="specified a layer name but lacks the required TTFont object", ): load_masters(ds) def _extract_flat_kerning(font, pairpos_table): extracted_kerning = {} for glyph_name_1 in pairpos_table.Coverage.glyphs: class_def_1 = pairpos_table.ClassDef1.classDefs.get(glyph_name_1, 0) for glyph_name_2 in font.getGlyphOrder(): class_def_2 = pairpos_table.ClassDef2.classDefs.get(glyph_name_2, 0) kern_value = ( pairpos_table.Class1Record[class_def_1] .Class2Record[class_def_2] .Value1.XAdvance ) extracted_kerning[(glyph_name_1, glyph_name_2)] = kern_value return extracted_kerning @pytest.fixture def ttFont(): f = TTFont() f["OS/2"] = newTable("OS/2") f["OS/2"].usWeightClass = 400 f["OS/2"].usWidthClass = 100 f["post"] = newTable("post") f["post"].italicAngle = 0 return f class SetDefaultWeightWidthSlantTest(object): @pytest.mark.parametrize( "location, expected", [ ({"wght": 0}, 1), ({"wght": 1}, 1), ({"wght": 100}, 100), ({"wght": 1000}, 1000), ({"wght": 1001}, 1000), ], ) def test_wght(self, ttFont, location, expected): set_default_weight_width_slant(ttFont, location) assert ttFont["OS/2"].usWeightClass == expected @pytest.mark.parametrize( "location, expected", [ ({"wdth": 0}, 1), ({"wdth": 56}, 1), ({"wdth": 57}, 2), ({"wdth": 62.5}, 2), ({"wdth": 75}, 3), ({"wdth": 87.5}, 4), ({"wdth": 100}, 5), ({"wdth": 112.5}, 6), ({"wdth": 125}, 7), ({"wdth": 150}, 8), ({"wdth": 200}, 9), ({"wdth": 201}, 9), ({"wdth": 1000}, 9), ], ) def test_wdth(self, ttFont, location, expected): set_default_weight_width_slant(ttFont, location) assert ttFont["OS/2"].usWidthClass == expected @pytest.mark.parametrize( "location, expected", [ ({"slnt": -91}, -90), ({"slnt": -90}, -90), ({"slnt": 0}, 0), ({"slnt": 11.5}, 11.5), ({"slnt": 90}, 90), ({"slnt": 91}, 90), ], ) def test_slnt(self, ttFont, location, expected): set_default_weight_width_slant(ttFont, location) assert ttFont["post"].italicAngle == expected def test_all(self, ttFont): set_default_weight_width_slant( ttFont, {"wght": 500, "wdth": 150, "slnt": -12.0} ) assert ttFont["OS/2"].usWeightClass == 500 assert ttFont["OS/2"].usWidthClass == 8 assert ttFont["post"].italicAngle == -12.0 if __name__ == "__main__": sys.exit(unittest.main())