from fontTools.misc import sstruct from fontTools.misc.textTools import safeEval from fontTools.misc.fixedTools import ( ensureVersionIsLong as fi2ve, versionToFixed as ve2fi) from . import DefaultTable import math hheaFormat = """ > # big endian tableVersion: L ascent: h descent: h lineGap: h advanceWidthMax: H minLeftSideBearing: h minRightSideBearing: h xMaxExtent: h caretSlopeRise: h caretSlopeRun: h caretOffset: h reserved0: h reserved1: h reserved2: h reserved3: h metricDataFormat: h numberOfHMetrics: H """ class table__h_h_e_a(DefaultTable.DefaultTable): # Note: Keep in sync with table__v_h_e_a dependencies = ['hmtx', 'glyf', 'CFF ', 'CFF2'] # OpenType spec renamed these, add aliases for compatibility @property def ascender(self): return self.ascent @ascender.setter def ascender(self,value): self.ascent = value @property def descender(self): return self.descent @descender.setter def descender(self,value): self.descent = value def decompile(self, data, ttFont): sstruct.unpack(hheaFormat, data, self) def compile(self, ttFont): if ttFont.recalcBBoxes and (ttFont.isLoaded('glyf') or ttFont.isLoaded('CFF ') or ttFont.isLoaded('CFF2')): self.recalc(ttFont) self.tableVersion = fi2ve(self.tableVersion) return sstruct.pack(hheaFormat, self) def recalc(self, ttFont): if 'hmtx' in ttFont: hmtxTable = ttFont['hmtx'] self.advanceWidthMax = max(adv for adv, _ in hmtxTable.metrics.values()) boundsWidthDict = {} if 'glyf' in ttFont: glyfTable = ttFont['glyf'] for name in ttFont.getGlyphOrder(): g = glyfTable[name] if g.numberOfContours == 0: continue if g.numberOfContours < 0 and not hasattr(g, "xMax"): # Composite glyph without extents set. # Calculate those. g.recalcBounds(glyfTable) boundsWidthDict[name] = g.xMax - g.xMin elif 'CFF ' in ttFont or 'CFF2' in ttFont: if 'CFF ' in ttFont: topDict = ttFont['CFF '].cff.topDictIndex[0] else: topDict = ttFont['CFF2'].cff.topDictIndex[0] charStrings = topDict.CharStrings for name in ttFont.getGlyphOrder(): cs = charStrings[name] bounds = cs.calcBounds(charStrings) if bounds is not None: boundsWidthDict[name] = int( math.ceil(bounds[2]) - math.floor(bounds[0])) if boundsWidthDict: minLeftSideBearing = float('inf') minRightSideBearing = float('inf') xMaxExtent = -float('inf') for name, boundsWidth in boundsWidthDict.items(): advanceWidth, lsb = hmtxTable[name] rsb = advanceWidth - lsb - boundsWidth extent = lsb + boundsWidth minLeftSideBearing = min(minLeftSideBearing, lsb) minRightSideBearing = min(minRightSideBearing, rsb) xMaxExtent = max(xMaxExtent, extent) self.minLeftSideBearing = minLeftSideBearing self.minRightSideBearing = minRightSideBearing self.xMaxExtent = xMaxExtent else: # No glyph has outlines. self.minLeftSideBearing = 0 self.minRightSideBearing = 0 self.xMaxExtent = 0 def toXML(self, writer, ttFont): formatstring, names, fixes = sstruct.getformat(hheaFormat) for name in names: value = getattr(self, name) if name == "tableVersion": value = fi2ve(value) value = "0x%08x" % value writer.simpletag(name, value=value) writer.newline() def fromXML(self, name, attrs, content, ttFont): if name == "tableVersion": setattr(self, name, ve2fi(attrs["value"])) return setattr(self, name, safeEval(attrs["value"]))