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mirror of https://github.com/ryanoasis/nerd-fonts.git synced 2024-12-25 20:18:01 +02:00
nerd-fonts/font-patcher
2016-10-14 23:37:45 -07:00

620 lines
26 KiB
Python
Executable File

#!/usr/bin/env python2
# coding=utf8
# version: 0.8.0
version = "0.8.0"
projectName = "Nerd Fonts"
projectNameAbbreviation = "NF"
projectNameSingular = projectName[:-1]
import sys
try:
import psMat
except ImportError:
sys.stderr.write(projectName + ": FontForge module is probably not installed. [See: http://designwithfontforge.com/en-US/Installing_Fontforge.html]\n")
sys.exit(1)
import re
import os
import argparse
import errno
try:
#Load the module
import fontforge
except ImportError:
sys.stderr.write(projectName + ": FontForge module could not be loaded. Try installing fontforge python bindings [e.g. on Linux Debian or Ubuntu: `sudo apt-get install fontforge python-fontforge`]\n")
sys.exit(1)
# argparse stuff
parser = argparse.ArgumentParser(description='Patches a given font with programming and web development related glyphs (mainly for https://github.com/ryanoasis/vim-devicons)')
parser.add_argument('-v', '--version', action='version', version=projectName + ": %(prog)s ("+version+")")
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('-c', '--complete', dest='complete', action='store_true', help='Add all availale Glyphs', default=False)
parser.add_argument('--fontawesome', dest='fontawesome', action='store_true', help='Add Font Awesome Glyphs (http://fortawesome.github.io/Font-Awesome)', default=False)
parser.add_argument('--fontlinux', dest='fontlinux', action='store_true', help='Add Font Linux Glyphs (https://github.com/Lukas-W/font-linux)', default=False)
parser.add_argument('--octicons', dest='octicons', action='store_true', help='Add Octicons Glyphs (https://octicons.github.com)', default=False)
parser.add_argument('--pomicons', dest='pomicons', action='store_true', help='Add Pomicon Glyphs (https://github.com/gabrielelana/pomicons)', default=False)
parser.add_argument('--powerline', dest='powerline', action='store_true', help='Add Powerline Glyphs', default=False)
parser.add_argument('--powerlineextra', dest='powerlineextra', action='store_true', help='Add Powerline Glyphs (https://github.com/ryanoasis/powerline-extra-symbols)', default=False)
parser.add_argument('--careful', dest='careful', action='store_true', help='Do not overwrite existing glyphs if detected', default=False)
parser.add_argument('-ext', '--extension', type=str, nargs='?', dest='extension', help='Change type of font file to create (e.g. ttf, otf)', default="")
parser.add_argument('-out', '--outputdir', type=str, nargs='?', dest='outputdir', help='The directory to output the patched font file to', default=".")
args = parser.parse_args()
changelog = open("changelog.md", "r")
minimumVersion = 20141231
actualVersion = int(fontforge.version())
# un-comment following line for testing invalid version error handling
#actualVersion = 20120731
# versions tested: 20150612, 20150824
if actualVersion < minimumVersion:
print projectName + ": You seem to be using an unsupported (old) version of fontforge: " + str(actualVersion)
print projectName + ": Please use at least version: " + str(minimumVersion)
sys.exit(1)
verboseAdditionalFontNameSuffix = " " + projectNameSingular
if args.complete:
args.fontawesome = True
args.fontlinux = True
args.octicons = True
args.pomicons = True
args.powerline = True
args.powerlineextra = True
if args.windows:
# attempt to shorten here on the additional name BEFORE trimming later
additionalFontNameSuffix = " " + projectNameAbbreviation
else:
additionalFontNameSuffix = verboseAdditionalFontNameSuffix
if args.fontawesome:
additionalFontNameSuffix += " A"
verboseAdditionalFontNameSuffix += " Plus Font Awesome"
if args.octicons:
additionalFontNameSuffix += " O"
verboseAdditionalFontNameSuffix += " Plus Octicons"
if args.pomicons:
additionalFontNameSuffix += " P"
verboseAdditionalFontNameSuffix += " Plus Pomicons"
if args.fontlinux:
additionalFontNameSuffix += " L"
verboseAdditionalFontNameSuffix += " Plus Font Linux"
# if all source glyphs included simplify the name
if args.fontawesome and args.octicons and args.pomicons and args.powerlineextra and args.fontlinux:
additionalFontNameSuffix = " " + projectNameSingular + " C"
verboseAdditionalFontNameSuffix = " " + projectNameSingular + " Complete"
# add mono signifier to end of name
if args.single:
additionalFontNameSuffix += " M"
verboseAdditionalFontNameSuffix += " M"
sourceFont = fontforge.open(args.font)
# basically split the font name around the dash "-" to get the fontname and the style (e.g. Bold)
# this does not seem very reliable so only use the style here as a fallback if the font does not
# have an internal style defined (in sfnt_names)
# using '([^-]*?)' to get the item before the first dash "-"
# using '([^-]*(?!.*-))' to get the item after the last dash "-"
fontname, fallbackStyle = re.match("^([^-]*).*?([^-]*(?!.*-))$", sourceFont.fontname).groups()
# dont trust 'sourceFont.familyname'
familyname = fontname
# fullname (filename) can always use long/verbose font name, even in windows
fullname = sourceFont.fullname + verboseAdditionalFontNameSuffix
fontname = fontname + additionalFontNameSuffix.replace(" ", "")
# let us try to get the 'style' from the font info in sfnt_names and fallback to the
# parse fontname if it fails:
try:
# search tuple:
subFamilyTupleIndex = [x[1] for x in sourceFont.sfnt_names].index("SubFamily")
# String ID is at the second index in the Tuple lists
sfntNamesStringIDIndex = 2
# now we have the correct item:
subFamily = sourceFont.sfnt_names[sfntNamesStringIDIndex][subFamilyTupleIndex]
except IndexError:
print projectName + ": Could not find 'SubFamily' for given font, falling back to parsed fontname"
subFamily = fallbackStyle
# some fonts have inaccurate 'SubFamily', if it is Regular let us trust the filename more:
if subFamily == "Regular":
subFamily = fallbackStyle
if args.windows:
maxFamilyLength = 31
maxFontLength = maxFamilyLength-len('-' + subFamily)
familyname += " " + projectNameAbbreviation
fullname += " Windows Compatible"
# now make sure less than 32 characters name length
if len(fontname) > maxFontLength:
fontname = fontname[:maxLength]
if len(familyname) > maxFamilyLength:
familyname = familyname[:maxLength]
else:
familyname += " " + projectNameSingular
# Don't truncate the subfamily to keep fontname unique. MacOS treats fonts with
# the same name as the same font, even if subFamily is different.
fontname += '-' + subFamily
# rename font
def replace_all(text, dic):
for i, j in dic.iteritems():
text = text.replace(i, j)
return text
def make_sure_path_exists(path):
try:
os.makedirs(path)
except OSError as exception:
if exception.errno != errno.EEXIST:
raise
make_sure_path_exists(args.outputdir)
# comply with SIL Open Font License (OFL)
reservedFontNameReplacements = { 'source': 'sauce', 'Source': 'Sauce', 'hermit': 'hurmit', 'Hermit': 'Hurmit', 'fira': 'fura', 'Fira': 'Fura', 'hack': 'knack', 'Hack': 'Knack' }
projectInfo = "Patched with '" + projectName + " Patcher' (https://github.com/ryanoasis/nerd-fonts)"
sourceFont.familyname = replace_all(familyname, reservedFontNameReplacements)
sourceFont.fullname = replace_all(fullname, reservedFontNameReplacements)
sourceFont.fontname = replace_all(fontname, reservedFontNameReplacements)
sourceFont.appendSFNTName('English (US)', 'Preferred Family', sourceFont.familyname)
sourceFont.appendSFNTName('English (US)', 'Compatible Full', sourceFont.fullname)
sourceFont.appendSFNTName('English (US)', 'SubFamily', subFamily)
sourceFont.comment = projectInfo
sourceFont.fontlog = projectInfo + "\n\n" + changelog.read()
# todo version not being set for all font types (e.g. ttf)
#print "Version was " + sourceFont.version
sourceFont.version += ";" + projectName + " " + version
#print "Version now is " + sourceFont.version
# Open fonts and force the em size to be equal
symbols = fontforge.open("glyph-source-fonts/original-source.otf")
powerlineSymbols = fontforge.open("glyph-source-fonts/PowerlineSymbols.otf")
powerlineExtraSymbols = fontforge.open("glyph-source-fonts/PowerlineExtraSymbols.otf")
symbolsDevicons = fontforge.open("glyph-source-fonts/devicons.ttf")
symbols.em = sourceFont.em
symbolsDevicons.em = sourceFont.em
powerlineSymbols.em = sourceFont.em
powerlineExtraSymbols.em = sourceFont.em
if args.fontawesome:
fontawesome = fontforge.open("glyph-source-fonts/FontAwesome.otf")
fontawesome.em = sourceFont.em
if args.octicons:
octicons = fontforge.open("glyph-source-fonts/octicons.ttf")
octicons.em = sourceFont.em
octiconsExactEncodingPosition = True
if args.pomicons:
pomicons = fontforge.open("glyph-source-fonts/Pomicons.otf")
pomicons.em = sourceFont.em
if args.fontlinux:
fontlinux = fontforge.open("glyph-source-fonts/font-linux.ttf")
fontlinux.em = sourceFont.em
fontlinuxExactEncodingPosition = True
# Prevent glyph encoding position conflicts between glyph sets
if args.fontawesome and args.octicons:
octiconsExactEncodingPosition = False
if args.fontawesome or args.octicons:
fontlinuxExactEncodingPosition = False
# Define the character ranges
# Symbol font ranges
symbolsPomiconsRangeStart = 0xE000
symbolsPomiconsRangeEnd = 0xE00A
symbolsPowerlineRange1Start = 0xE0A0
symbolsPowerlineRange1End = 0xE0A2
symbolsPowerlineRange2Start = 0xE0B0
symbolsPowerlineRange2End = 0xE0B3
symbolsPowerlineExtraRange1Start = 0xE0A3
symbolsPowerlineExtraRange1End = 0xE0A3
symbolsPowerlineExtraRange2Start = 0xE0B4
symbolsPowerlineExtraRange2End = 0xE0C8
symbolsPowerlineExtraRange3Start = 0xE0CC
symbolsPowerlineExtraRange3End = 0xE0D4
symbolsOriginalRangeStart = 0xE4FA
symbolsOriginalRangeEnd = 0xE52A
symbolsDeviconsRangeStart = 0xE600
symbolsDeviconsRangeEnd = 0xE6C5
symbolsFontAwesomeRangeStart = 0xF000
symbolsFontAwesomeRangeEnd = 0xF295
symbolsOcticonsRangeStart = 0xF000
symbolsOcticonsRangeEnd = 0xF0DB
symbolsFontLinuxRangeStart = 0xF100
symbolsFontLinuxRangeEnd = 0xF115
# Destination font ranges
sourceFontPomiconsStart = 0xE000
sourceFontPomiconsEnd = 0xE00A
sourceFontOriginalStart = 0xE5FA
sourceFontOriginalEnd = 0xE62A
sourceFontDeviconsStart = 0xE700
sourceFontDeviconsEnd = 0xE7C5
sourceFontFontAwesomeStart = 0xF000
sourceFontFontAwesomeEnd = 0xF295
sourceFontOcticonsStart = 0xF400
sourceFontOcticonsEnd = 0xF4DB
sourceFontFontLinuxStart = 0xF300
sourceFontFontLinuxEnd = 0xF315
# To keep the size of glyphs constant when scaling, choose a larger
# sized glyph from each symbol font to set the scaling amount
symbolsPomiconsScaleGlyph = 0xE000 # first symbol
symbolsPowerlineScaleGlyph = 0xE0A0 # scm branch symbol
symbolsPowerlineExtraScaleGlyph = 0xE70E # Android logo
symbolsDeviconsScaleGlyph = 0xE60E # Android logo
symbolsFontAwesomeScaleGlyph = 0xF17A # Windows logo
symbolsOcticonsScaleGlyph = 0xF02E # magnifying glass
symbolsFontLinuxScaleGlyph = 0xF10E # Ubuntu logo
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 },
# Powerline dividers
# Arrow tips
0xe0b0: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0b1: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0b2: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
0xe0b3: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
# Rounded arcs
0xe0b4: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0b5: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0b6: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
0xe0b7: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
# Bottom Triangles
0xe0b8: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0b9: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0ba: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
0xe0bb: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
# Top Triangles
0xe0bc: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0bd: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0be: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
0xe0bf: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
# Flames
0xe0c0: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0c1: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0c2: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
0xe0c3: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
# Small squares
0xe0c4: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0c5: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
# Bigger squares
0xe0c6: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0c7: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
# Waveform
0xe0c8: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
# Hexagons
0xe0cc: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0cd: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
# Legos
0xe0ce: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0cf: { 'align': 'c', 'stretch': 'xy', 'overlap': False },
0xe0d1: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
# Top and bottom trapezoid
0xe0d2: { 'align': 'l', 'stretch': 'xy', 'overlap': False },
0xe0d4: { 'align': 'r', 'stretch': 'xy', 'overlap': False },
}
SYM_ATTR_DEFAULT = {
# 'pa' == preserve aspect ratio
'align': 'c', 'stretch': 'pa', 'overlap': False
}
# Initial font dimensions
font_dim = {
# Use os2_winXXXXXX for ymin and ymax as this is typically what is used for line size
'xmin' : 0,
'ymin' : -sourceFont.os2_windescent,
'xmax' : 0,
'ymax' : sourceFont.os2_winascent,
'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 font_dim['width'] < sourceFont[glyph].width:
font_dim['width'] = sourceFont[glyph].width
# Ignore the y-values, os2_winXXXXX values set above are more accurate
# 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 set_width(sourceFont, width):
sourceFont.selection.all()
for glyph in sourceFont.selection.byGlyphs:
glyph.width = width
def get_scale_factor(font_dim, sym_dim):
# We want to preserve x/y aspect ratio, so find biggest scale factor that allows symbol to fit
scale_ratio_x = font_dim['width'] / sym_dim['width']
# font_dim['height'] represents total line height, keep our symbols sized based upon font's em
scale_ratio_y = sourceFont.em / sym_dim['height']
if scale_ratio_x > scale_ratio_y:
return scale_ratio_y
else:
return scale_ratio_x
def copy_glyphs(sourceFont, sourceFontStart, sourceFontEnd, symbolFont, symbolFontStart, symbolFontEnd, exactEncoding=False, scaleGlyph=None):
if exactEncoding is False:
sourceFontList = []
sourceFontCounter = 0
for i in xrange(sourceFontStart, sourceFontEnd + 1):
sourceFontList.append(format(i, 'X'))
scale_factor = 0
if scaleGlyph:
sym_dim = get_dim(symbolFont[scaleGlyph])
scale_factor = get_scale_factor(font_dim, sym_dim)
# 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:
try:
sym_attr = SYM_ATTR[sym_glyph.unicode]
except KeyError:
sym_attr = SYM_ATTR_DEFAULT
glyphName = sym_glyph.glyphname
if exactEncoding:
# use the exact same hex values for the source font as for the symbol font
currentSourceFontGlyph = sym_glyph.encoding
copiedToSlot = str(sym_glyph.unicode)
else:
# use source font defined hex values based on passed in start and end
# convince that this string really is a hex:
currentSourceFontGlyph = int("0x" + sourceFontList[sourceFontCounter], 16)
copiedToSlot = sourceFontList[sourceFontCounter]
if args.quiet == False:
print "updating glyph: " + str(sym_glyph) + " " + str(sym_glyph.glyphname) + " putting at: " + str(copiedToSlot)
# 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()
# check it
if args.careful:
if copiedToSlot.startswith("uni"):
copiedToSlot = copiedToSlot[3:]
codepoint = int("0x" + copiedToSlot, 16)
try:
sourceFont[codepoint]
except TypeError:
# nothing there go ahead and paste at this codepoint
sourceFont.selection.select(currentSourceFontGlyph)
sourceFont.paste()
else:
sourceFont.selection.select(currentSourceFontGlyph)
sourceFont.paste()
sourceFont[currentSourceFontGlyph].glyphname = glyphName
# Now that we have copy/pasted the glyph, if we are creating a monospace
# font we need to scale and move the glyphs. It is possible to have
# empty glyphs, so we need to skip those.
if args.single and sym_dim['width'] and sym_dim['height']:
scale_ratio_x = 1
scale_ratio_y = 1
# If we want to preserve that aspect ratio of the glyphs we need to
# find the largest possible scaling factor that will allow the glyph
# to fit in both the x and y directions
if sym_attr['stretch'] == 'pa':
if scale_factor:
# We want to preserve the relative size of each glyph to other glyphs
# in the same symbol font.
scale_ratio_x = scale_factor
scale_ratio_y = scale_factor
else:
# In this case, each glyph is sized independantly to each other
scale_ratio_x = get_scale_factor(font_dim, sym_dim)
scale_ratio_y = scale_ratio_x
else:
if 'x' in sym_attr['stretch']:
# Stretch the glyph horizontally to fit the entire available width
scale_ratio_x = font_dim['width'] / sym_dim['width']
if 'y' in sym_attr['stretch']:
# Stretch the glyph vertically to total line height (good for powerline separators)
scale_ratio_y = font_dim['height'] / sym_dim['height']
if scale_ratio_x != 1 or scale_ratio_y != 1:
sourceFont.transform(psMat.scale(scale_ratio_x, scale_ratio_y))
# Use the dimensions from the newly pasted and stretched glyph
sym_dim = get_dim(sourceFont[currentSourceFontGlyph])
# Center the symbol vertically by matching the center of the line height and center of symbol
sym_ycenter = sym_dim['ymax'] - (sym_dim['height'] / 2)
font_ycenter = font_dim['ymax'] - (font_dim['height'] / 2)
y_align_distance = font_ycenter - sym_ycenter
# Handle glyph l/r/c alignment
# First find the baseline x-alignment (left alignment amount)
x_align_distance = font_dim['xmin']-sym_dim['xmin']
if sym_attr['align'] == 'c':
# Center align
x_align_distance += (font_dim['width']/2) - (sym_dim['width']/2)
elif sym_attr['align'] == 'r':
# Right align
x_align_distance += font_dim['width'] - sym_dim['width']
align_matrix = psMat.translate(x_align_distance, y_align_distance)
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))
if args.single:
# Ensure the font is considered monospaced on Windows by setting the same
# width for all character glyphs.
# This needs to be done for all glyphs, even the ones that are empty and
# didn't go through the scaling operations.
sourceFont[currentSourceFontGlyph].width = font_dim['width']
if exactEncoding is False:
sourceFontCounter += 1
# reset selection so iteration works propertly @todo fix? rookie misunderstanding?
# This is likely needed because the selection was changed when the glyph was copy/pasted
symbolFont.selection.select(("ranges","unicode"),symbolFontStart,symbolFontEnd)
# end for
return
if args.extension == "":
extension = os.path.splitext(sourceFont.path)[1]
else:
extension = '.'+args.extension
if args.single and extension == '.ttf':
# Force width to be equal on all glyphs to ensure the font is considered monospaced on Windows.
# This needs to be done on all characters, as some information seems to be lost from the original font file.
# This is only a problem with ttf files, otf files seem to be okay.
set_width(sourceFont, font_dim['width'])
copy_glyphs(sourceFont, sourceFontOriginalStart, sourceFontOriginalEnd, symbols, symbolsOriginalRangeStart, symbolsOriginalRangeEnd)
copy_glyphs(sourceFont, sourceFontDeviconsStart, sourceFontDeviconsEnd, symbolsDevicons, symbolsDeviconsRangeStart, symbolsDeviconsRangeEnd, scaleGlyph=symbolsDeviconsScaleGlyph)
if args.powerline:
copy_glyphs(sourceFont, symbolsPowerlineRange1Start, symbolsPowerlineRange1End, powerlineSymbols, symbolsPowerlineRange1Start, symbolsPowerlineRange1End, scaleGlyph=symbolsPowerlineScaleGlyph)
copy_glyphs(sourceFont, symbolsPowerlineRange2Start, symbolsPowerlineRange2End, powerlineSymbols, symbolsPowerlineRange2Start, symbolsPowerlineRange2End, scaleGlyph=symbolsPowerlineScaleGlyph)
if args.powerlineextra:
copy_glyphs(sourceFont, symbolsPowerlineExtraRange1Start, symbolsPowerlineExtraRange1End, powerlineExtraSymbols, symbolsPowerlineExtraRange1Start, symbolsPowerlineExtraRange1End, True, scaleGlyph=symbolsPowerlineExtraScaleGlyph)
copy_glyphs(sourceFont, symbolsPowerlineExtraRange2Start, symbolsPowerlineExtraRange2End, powerlineExtraSymbols, symbolsPowerlineExtraRange2Start, symbolsPowerlineExtraRange2End, True, scaleGlyph=symbolsPowerlineExtraScaleGlyph)
copy_glyphs(sourceFont, symbolsPowerlineExtraRange3Start, symbolsPowerlineExtraRange3End, powerlineExtraSymbols, symbolsPowerlineExtraRange3Start, symbolsPowerlineExtraRange3End, True, scaleGlyph=symbolsPowerlineExtraScaleGlyph)
if args.fontawesome:
copy_glyphs(sourceFont, sourceFontFontAwesomeStart, sourceFontFontAwesomeEnd, fontawesome, symbolsFontAwesomeRangeStart, symbolsFontAwesomeRangeEnd, True, scaleGlyph=symbolsFontAwesomeScaleGlyph)
if args.octicons:
copy_glyphs(sourceFont, sourceFontOcticonsStart, sourceFontOcticonsEnd, octicons, symbolsOcticonsRangeStart, symbolsOcticonsRangeEnd, octiconsExactEncodingPosition, scaleGlyph=symbolsOcticonsScaleGlyph)
if args.pomicons:
copy_glyphs(sourceFont, sourceFontPomiconsStart, sourceFontPomiconsEnd, pomicons, symbolsPomiconsRangeStart, symbolsPomiconsRangeEnd, scaleGlyph=symbolsPomiconsScaleGlyph)
if args.fontlinux:
copy_glyphs(sourceFont, sourceFontFontLinuxStart, sourceFontFontLinuxEnd, fontlinux, symbolsFontLinuxRangeStart, symbolsFontLinuxRangeEnd, fontlinuxExactEncodingPosition, scaleGlyph=symbolsFontLinuxScaleGlyph)
# the `PfEd-comments` flag is required for Fontforge to save
# '.comment' and '.fontlog'.
sourceFont.generate(args.outputdir + "/" + sourceFont.fullname + extension, flags=('opentype', 'PfEd-comments'))
print "Generated"
print sourceFont.fullname