#!/usr/bin/env python2 # version: 0.3.1 import sys import psMat import re import os.path import argparse try: #Load the module import fontforge except ImportError: sys.stderr.write("FontForge module could not be loaded. Try installing fontforge python bindings\n") sys.exit(1) # argparse stuff parser = argparse.ArgumentParser(description='Patches a given font with programming and web development related glyphs (mainly for vim-webdevicons)') parser.add_argument('font', help='The path to the font to be patched (e.g. Inconsolata.otf)') parser.add_argument('-s', '--use-single-width-glyphs', dest='single', action='store_true', help='Whether to generate the glyphs as single-width not double-width (default is double-width)', default=False) parser.add_argument('-q', '--quiet', '--shutup', dest='quiet', action='store_true', help='Do not generate verbose output', default=False) parser.add_argument('-w', '--windows', '--limit-font-name-length', dest='windows', action='store_true', help='Limit the internal font name to a maximum of 31 characters (for safe Windows compatiblity)', default=False) parser.add_argument('--pomicons', dest='pomicons', action='store_true', help='Add Pomicon Glyphs (https://github.com/gabrielelana/pomicons)', default=False) args = parser.parse_args() #print "using fontforge package version: " + str(fontforge.__version__) + " " + str(fontforge.version()) #print type(fontforge.version()) #print int(fontforge.version()) minimumVersion = 20141231 actualVersion = int(fontforge.version()) #actualVersion = 20120731 # for testing invalid version if actualVersion < minimumVersion: print "You seem to be using an unsupported (old) version of fontforge: " + str(actualVersion) print "Please use at least version: " + str(minimumVersion) sys.exit(1) verboseAdditionalFontNameSuffix = " Plus Nerd File Types" if args.windows: # attempt to shorten here on the additional name BEFORE trimming later additionalFontNameSuffix = " PNFT" else: additionalFontNameSuffix = verboseAdditionalFontNameSuffix if args.single: additionalFontNameSuffix += " Mono" verboseAdditionalFontNameSuffix += " Mono" if args.pomicons: additionalFontNameSuffix += " Plus Pomicons" verboseAdditionalFontNameSuffix += " Plus Pomicons" sourceFont = fontforge.open(args.font) fontname, style = re.match("^([^-]*)(?:(-.*))?$", sourceFont.fontname).groups() familyname = sourceFont.familyname + additionalFontNameSuffix # fullname (filename) can always use long/verbose font name, even in windows fullname = sourceFont.fullname + verboseAdditionalFontNameSuffix fontname = fontname + additionalFontNameSuffix.replace(" ", "") if args.windows: maxLength = 31 fullname += " Windows Compatible" # now make sure less than 32 characters name length #if len(fullname) > maxLength: # fullname = fullname[:maxLength] if len(fontname) > maxLength: fontname = fontname[:maxLength] if len(fullname) > maxLength: familyname = familyname[:maxLength] # rename font sourceFont.familyname = familyname sourceFont.fullname = fullname sourceFont.fontname = fontname sourceFont.appendSFNTName('English (US)', 'Preferred Family', sourceFont.familyname) sourceFont.appendSFNTName('English (US)', 'Compatible Full', sourceFont.fullname) # glyph font sourceFont_em_original = sourceFont.em symbols = fontforge.open("glyph-source-fonts/original-source.otf") symbols2 = fontforge.open("glyph-source-fonts/devicons.ttf") pomicons = fontforge.open("glyph-source-fonts/Pomicons.otf") symbolsRangeStart = 0xE500 symbolsRangeEnd = 0xE521 symbols2RangeStart = 0xE600 symbols2RangeEnd = 0xE6C5 pomiconsRangeStart = 0xE000 pomiconsRangeEnd = 0xE00A sourceFontRange1Start = 0xE600 sourceFontRange1End = 0xE621 sourceFontRange2Start = 0xE700 sourceFontRange2End = 0xE7C5 sourceFontRange3Start = 0xE000 sourceFontRange3End = 0xE00A SYM_ATTR = { # Right/left-aligned glyphs will have their advance width reduced in order to overlap the next glyph slightly 0x2b60: { 'align': 'c', 'stretch': 'y' , 'overlap': False }, 0x2b61: { 'align': 'c', 'stretch': '' , 'overlap': False }, 0x2b62: { 'align': 'r', 'stretch': '' , 'overlap': False }, 0x2b63: { 'align': 'l', 'stretch': '' , 'overlap': False }, 0x2b64: { 'align': 'c', 'stretch': '' , 'overlap': False }, 0x2b80: { 'align': 'l', 'stretch': 'xy', 'overlap': True }, 0x2b81: { 'align': 'l', 'stretch': 'xy', 'overlap': True }, 0x2b82: { 'align': 'r', 'stretch': 'xy', 'overlap': True }, 0x2b83: { 'align': 'r', 'stretch': 'xy', 'overlap': True }, } # Force the em size to be equal symbols.em = sourceFont.em symbols2.em = sourceFont.em # Initial font dimensions font_dim = { 'xmin' : 0, 'ymin' : -sourceFont.descent, 'xmax' : 0, 'ymax' : sourceFont.ascent, 'width' : 0, 'height': 0, } # Find the biggest char width and height # # 0x00-0x17f is the Latin Extended-A range # 0x2500-0x2600 is the box drawing range for glyph in range(0x00, 0x17f) + range(0x2500, 0x2600): try: (xmin, ymin, xmax, ymax) = sourceFont[glyph].boundingBox() except TypeError: continue if font_dim['width'] == 0: font_dim['width'] = sourceFont[glyph].width if ymin < font_dim['ymin']: font_dim['ymin'] = ymin if ymax > font_dim['ymax']: font_dim['ymax'] = ymax if xmax > font_dim['xmax']: font_dim['xmax'] = xmax # Calculate font height font_dim['height'] = abs(font_dim['ymin']) + font_dim['ymax'] # Update the font encoding to ensure that the Unicode glyphs are available sourceFont.encoding = 'ISO10646' # Fetch this property before adding outlines onlybitmaps = sourceFont.onlybitmaps def get_dim(glyph): bbox = glyph.boundingBox() return { 'xmin' : bbox[0], 'ymin' : bbox[1], 'xmax' : bbox[2], 'ymax' : bbox[3], 'width' : bbox[2] + (-bbox[0]), 'height': bbox[3] + (-bbox[1]), } def copy_glyphs(sourceFont, sourceFontStart, sourceFontEnd, symbolFont, symbolFontStart, symbolFontEnd): sourceFontList = [] sourceFontCounter = 0 for i in xrange(sourceFontStart, sourceFontEnd + 1): sourceFontList.append(format(i, 'X')) # Create glyphs from symbol font symbolFont.selection.select(("ranges","unicode"),symbolFontStart,symbolFontEnd) sourceFont.selection.select(("ranges","unicode"),sourceFontStart,sourceFontEnd) for sym_glyph in symbolFont.selection.byGlyphs: #sym_attr = SYM_ATTR[sym_glyph.unicode] if args.quiet == False: print "updating glyph: " + str(sym_glyph) # convince that this string really is a hex: currentSourceFontGlyph = int("0x" + sourceFontList[sourceFontCounter], 16) # Prepare symbol glyph dimensions sym_dim = get_dim(sym_glyph) # Select and copy symbol from its encoding point symbolFont.selection.select(sym_glyph.encoding) symbolFont.copy() # Select and paste symbol to its unicode code point sourceFont.selection.select(currentSourceFontGlyph) sourceFont.paste() if args.single: # Now that we have copy/pasted the glyph, it's time to scale and move it # Handle glyph stretching #if 'x' in sym_attr['stretch']: # # Stretch the glyph horizontally # scale_ratio = font_dim['width'] / sym_dim['width'] # sourceFont.transform(psMat.scale(scale_ratio, 1)) #if 'y' in sym_attr['stretch']: # # Stretch the glyph vertically # scale_ratio = font_dim['height'] / sym_dim['height'] # sourceFont.transform(psMat.scale(1, scale_ratio)) # Use the dimensions from the pasted and stretched glyph sym_dim = get_dim(sourceFont[currentSourceFontGlyph]) # Center-align the glyph vertically font_ycenter = font_dim['height'] / 2 sym_ycenter = sym_dim['height'] / 2 # First move it to the ymax (top) sourceFont.transform(psMat.translate(0, font_dim['ymax'] - sym_dim['ymax'])) # Then move it the y center difference sourceFont.transform(psMat.translate(0, sym_ycenter - font_ycenter)) # Ensure that the glyph doesn't extend outside the font's bounding box if sym_dim['width'] > font_dim['width']: # The glyph is too wide, scale it down to fit scale_matrix = psMat.scale(font_dim['width'] / sym_dim['width'], 1) sourceFont.transform(scale_matrix) # Use the dimensions from the stretched glyph sym_dim = get_dim(sourceFont[currentSourceFontGlyph]) # Handle glyph alignment #if sym_attr['align'] == 'c': # # Center align # align_matrix = psMat.translate(font_dim['width'] / 2 - sym_dim['width'] / 2 , 0) align_matrix = psMat.translate(font_dim['width'] / 2 - sym_dim['width'] / 2 , 0) #elif sym_attr['align'] == 'r': # # Right align # align_matrix = psMat.translate(font_dim['width'] - sym_dim['width'], 0) #else: # No alignment (left alignment) #align_matrix = psMat.translate(0, 0) sourceFont.transform(align_matrix) #if sym_attr['overlap'] is True: # overlap_width = sourceFont.em / 48 # # Stretch the glyph slightly horizontally if it should overlap # sourceFont.transform(psMat.scale((sym_dim['width'] + overlap_width) / sym_dim['width'], 1)) # if sym_attr['align'] == 'l': # # The glyph should be left-aligned, so it must be moved overlap_width to the left # # This only applies to left-aligned glyphs because the glyph is scaled to the right # sourceFont.transform(psMat.translate(-overlap_width, 0)) # Ensure the font is considered monospaced on Windows sourceFont[currentSourceFontGlyph].width = font_dim['width'] sourceFontCounter += 1 # reset selection so iteration works propertly @todo fix? rookie misunderstanding? symbolFont.selection.select(("ranges","unicode"),symbolFontStart,symbolFontEnd) # end for return copy_glyphs(sourceFont, sourceFontRange1Start, sourceFontRange1End, symbols, symbolsRangeStart, symbolsRangeEnd) copy_glyphs(sourceFont, sourceFontRange2Start, sourceFontRange2End, symbols2, symbols2RangeStart, symbols2RangeEnd) if args.pomicons: copy_glyphs(sourceFont, sourceFontRange3Start, sourceFontRange3End, pomicons, pomiconsRangeStart, pomiconsRangeEnd) extension = os.path.splitext(sourceFont.path)[1] # @todo later add option to generate the sfd? #sourceFont.save(sourceFont.fullname + ".sfd") sourceFont.generate(sourceFont.fullname + extension) print "Generated" print sourceFont.fullname