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nerd-fonts/font-patcher

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#!/usr/bin/env python
# coding=utf8
# Nerd Fonts Version: 3.0.0
# Script version is further down
from __future__ import absolute_import, print_function, unicode_literals
# Change the script version when you edit this script:
script_version = "4.1.5"
version = "3.0.0"
projectName = "Nerd Fonts"
projectNameAbbreviation = "NF"
projectNameSingular = projectName[:-1]
import sys
import re
import os
import argparse
from argparse import RawTextHelpFormatter
import errno
import subprocess
import json
from enum import Enum
import logging
try:
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import configparser
except ImportError:
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sys.exit(projectName + ": configparser module is probably not installed. Try `pip install configparser` or equivalent")
try:
import psMat
import fontforge
except ImportError:
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sys.exit(
projectName + (
": FontForge module could not be loaded. Try installing fontforge python bindings "
"[e.g. on Linux Debian or Ubuntu: `sudo apt install fontforge python3-fontforge`]"
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)
)
sys.path.insert(0, os.path.abspath(os.path.dirname(sys.argv[0])) + '/bin/scripts/name_parser/')
try:
from FontnameParser import FontnameParser
from FontnameTools import FontnameTools
FontnameParserOK = True
except ImportError:
FontnameParserOK = False
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class TableHEADWriter:
""" Access to the HEAD table without external dependencies """
def getlong(self, pos = None):
""" Get four bytes from the font file as integer number """
if pos:
self.goto(pos)
return (ord(self.f.read(1)) << 24) + (ord(self.f.read(1)) << 16) + (ord(self.f.read(1)) << 8) + ord(self.f.read(1))
def getshort(self, pos = None):
""" Get two bytes from the font file as integer number """
if pos:
self.goto(pos)
return (ord(self.f.read(1)) << 8) + ord(self.f.read(1))
def putlong(self, num, pos = None):
""" Put number as four bytes into font file """
if pos:
self.goto(pos)
self.f.write(bytearray([(num >> 24) & 0xFF, (num >> 16) & 0xFF ,(num >> 8) & 0xFF, num & 0xFF]))
self.modified = True
def putshort(self, num, pos = None):
""" Put number as two bytes into font file """
if pos:
self.goto(pos)
self.f.write(bytearray([(num >> 8) & 0xFF, num & 0xFF]))
self.modified = True
def calc_checksum(self, start, end, checksum = 0):
""" Calculate a font table checksum, optionally ignoring another embedded checksum value (for table 'head') """
self.f.seek(start)
for i in range(start, end - 4, 4):
checksum += self.getlong()
checksum &= 0xFFFFFFFF
i += 4
extra = 0
for j in range(4):
extra = extra << 8
if i + j <= end:
extra += ord(self.f.read(1))
checksum = (checksum + extra) & 0xFFFFFFFF
return checksum
def find_table(self, tablenames, idx):
""" Search all tables for one of the tables in tablenames and store its metadata """
# Use font with index idx if this is a font collection file
self.f.seek(0, 0)
tag = self.f.read(4)
if tag == b'ttcf':
self.f.seek(2*2, 1)
self.num_fonts = self.getlong()
if (idx >= self.num_fonts):
raise Exception('Trying to access subfont index {} but have only {} fonts'.format(idx, num_fonts))
for _ in range(idx + 1):
offset = self.getlong()
self.f.seek(offset, 0)
elif idx != 0:
raise Exception('Trying to access subfont but file is no collection')
else:
self.f.seek(0, 0)
self.num_fonts = 1
self.f.seek(4, 1)
numtables = self.getshort()
self.f.seek(3*2, 1)
for i in range(numtables):
tab_name = self.f.read(4)
self.tab_check_offset = self.f.tell()
self.tab_check = self.getlong()
self.tab_offset = self.getlong()
self.tab_length = self.getlong()
if tab_name in tablenames:
return True
return False
def find_head_table(self, idx):
""" Search all tables for the HEAD table and store its metadata """
# Use font with index idx if this is a font collection file
found = self.find_table([ b'head' ], idx)
if not found:
raise Exception('No HEAD table found in font idx {}'.format(idx))
def goto(self, where):
""" Go to a named location in the file or to the specified index """
if isinstance(where, str):
positions = {'checksumAdjustment': 2+2+4,
'flags': 2+2+4+4+4,
'lowestRecPPEM': 2+2+4+4+4+2+2+8+8+2+2+2+2+2,
'avgWidth': 2,
}
where = self.tab_offset + positions[where]
self.f.seek(where)
def calc_full_checksum(self, check = False):
""" Calculate the whole file's checksum """
self.f.seek(0, 2)
self.end = self.f.tell()
full_check = self.calc_checksum(0, self.end, (-self.checksum_adj) & 0xFFFFFFFF)
if check and (0xB1B0AFBA - full_check) & 0xFFFFFFFF != self.checksum_adj:
sys.exit("Checksum of whole font is bad")
return full_check
def calc_table_checksum(self, check = False):
tab_check_new = self.calc_checksum(self.tab_offset, self.tab_offset + self.tab_length - 1, (-self.checksum_adj) & 0xFFFFFFFF)
if check and tab_check_new != self.tab_check:
sys.exit("Checksum of 'head' in font is bad")
return tab_check_new
def reset_table_checksum(self):
new_check = self.calc_table_checksum()
self.putlong(new_check, self.tab_check_offset)
def reset_full_checksum(self):
new_adj = (0xB1B0AFBA - self.calc_full_checksum()) & 0xFFFFFFFF
self.putlong(new_adj, 'checksumAdjustment')
def close(self):
self.f.close()
def __init__(self, filename):
self.modified = False
self.f = open(filename, 'r+b')
self.find_head_table(0)
self.flags = self.getshort('flags')
self.lowppem = self.getshort('lowestRecPPEM')
self.checksum_adj = self.getlong('checksumAdjustment')
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
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def check_panose_monospaced(font):
""" Check if the font's Panose flags say it is monospaced """
# https://forum.high-logic.com/postedfiles/Panose.pdf
panose = list(font.os2_panose)
if panose[0] < 2 or panose[0] > 5:
return -1 # invalid Panose info
panose_mono = ((panose[0] == 2 and panose[3] == 9) or
(panose[0] == 3 and panose[3] == 3))
return 1 if panose_mono else 0
def panose_check_to_text(value, panose = False):
""" Convert value from check_panose_monospaced() to human readable string """
if value == 0:
return "Panose says \"not monospaced\""
if value == 1:
return "Panose says \"monospaced\""
return "Panose is invalid" + (" ({})".format(list(panose)) if panose else "")
def panose_proportion_to_text(value):
""" Interpret a Panose proportion value (4th value) for family 2 (latin text) """
proportion = {
0: "Any", 1: "No Fit", 2: "Old Style", 3: "Modern", 4: "Even Width",
5: "Extended", 6: "Condensed", 7: "Very Extended", 8: "Very Condensed",
9: "Monospaced" }
return proportion.get(value, "??? {}".format(value))
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
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def is_monospaced(font):
""" Check if a font is probably monospaced """
# Some fonts lie (or have not any Panose flag set), spot check monospaced:
width = -1
width_mono = True
for glyph in [ 0x49, 0x4D, 0x57, 0x61, 0x69, 0x6d, 0x2E ]: # wide and slim glyphs 'I', 'M', 'W', 'a', 'i', 'm', '.'
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
if not glyph in font:
# A 'strange' font, believe Panose
return (check_panose_monospaced(font) == 1, None)
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
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# print(" -> {} {}".format(glyph, font[glyph].width))
if width < 0:
width = font[glyph].width
continue
if font[glyph].width != width:
# Exception for fonts like Code New Roman Regular or Hermit Light/Bold:
# Allow small 'i' and dot to be smaller than normal
# I believe the source fonts are buggy
if glyph in [ 0x69, 0x2E ]:
if width > font[glyph].width:
continue
(xmin, _, xmax, _) = font[glyph].boundingBox()
if width > xmax - xmin:
continue
width_mono = False
break
# We believe our own check more then Panose ;-D
return (width_mono, None if width_mono else glyph)
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
def force_panose_monospaced(font):
""" Forces the Panose flag to monospaced if they are unset or halfway ok already """
# For some Windows applications (e.g. 'cmd'), they seem to honour the Panose table
# https://forum.high-logic.com/postedfiles/Panose.pdf
panose = list(font.os2_panose)
if panose[0] == 0: # 0 (1st value) = family kind; 0 = any (default)
panose[0] = 2 # make kind latin text and display
logger.info("Setting Panose 'Family Kind' to 'Latin Text and Display' (was 'Any')")
font.os2_panose = tuple(panose)
if panose[0] == 2 and panose[3] != 9:
logger.info("Setting Panose 'Proportion' to 'Monospaced' (was '%s')", panose_proportion_to_text(panose[3]))
panose[3] = 9 # 3 (4th value) = proportion; 9 = monospaced
font.os2_panose = tuple(panose)
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
def get_advance_width(font, extended, minimum):
""" Get the maximum/minimum advance width in the extended(?) range """
width = 0
if extended:
end = 0x17f
else:
end = 0x07e
for glyph in range(0x21, end):
if not glyph in font:
continue
if glyph in range(0x7F, 0xBF):
continue # ignore special characters like '1/4' etc
if width == 0:
width = font[glyph].width
continue
if not minimum and width < font[glyph].width:
width = font[glyph].width
elif minimum and width > font[glyph].width:
width = font[glyph].width
return width
def report_advance_widths(font):
return "Advance widths (base/extended): {} - {} / {} - {}".format(
get_advance_width(font, True, True), get_advance_width(font, False, True),
get_advance_width(font, False, False), get_advance_width(font, True, False))
def get_btb_metrics(font):
""" Get the baseline to baseline distance for all three metrics """
hhea_height = font.hhea_ascent - font.hhea_descent
typo_height = font.os2_typoascent - font.os2_typodescent
win_height = font.os2_winascent + font.os2_windescent
win_gap = max(0, font.hhea_linegap - win_height + hhea_height)
hhea_btb = hhea_height + font.hhea_linegap
typo_btb = typo_height + font.os2_typolinegap
win_btb = win_height + win_gap
return (hhea_btb, typo_btb, win_btb, win_gap)
def get_old_average_x_width(font):
""" Determine xAvgCharWidth of the OS/2 table """
# Fontforge can not create fonts with old (i.e. prior to OS/2 version 3)
# table values, but some very old applications do need them sometimes
# https://learn.microsoft.com/en-us/typography/opentype/spec/os2#xavgcharwidth
s = 0
weights = {
'a': 64, 'b': 14, 'c': 27, 'd': 35, 'e': 100, 'f': 20, 'g': 14, 'h': 42, 'i': 63,
'j': 3, 'k': 6, 'l': 35, 'm': 20, 'n': 56, 'o': 56, 'p': 17, 'q': 4, 'r': 49,
's': 56, 't': 71, 'u': 31, 'v': 10, 'w': 18, 'x': 3, 'y': 18, 'z': 2, 32: 166,
}
for g in weights:
if g not in font:
logger.critical("Can not determine ancient style xAvgCharWidth")
sys.exit(1)
s += font[g].width * weights[g]
return int(s / 1000)
def create_filename(fonts):
""" Determine filename from font object(s) """
sfnt = { k: v for l, k, v in fonts[0].sfnt_names }
sfnt_pfam = sfnt.get('Preferred Family', sfnt['Family'])
sfnt_psubfam = sfnt.get('Preferred Styles', sfnt['SubFamily'])
if len(fonts) > 1:
return sfnt_pfam
if len(sfnt_psubfam) > 0:
sfnt_psubfam = '-' + sfnt_psubfam
return (sfnt_pfam + sfnt_psubfam).replace(' ', '')
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class font_patcher:
def __init__(self, args):
self.args = args # class 'argparse.Namespace'
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self.sym_font_args = []
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self.config = None # class 'configparser.ConfigParser'
self.sourceFont = None # class 'fontforge.font'
self.patch_set = None # class 'list'
self.font_dim = None # class 'dict'
self.font_extrawide = False
self.source_monospaced = None # Later True or False
self.symbolsonly = False
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self.onlybitmaps = 0
self.essential = set()
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self.config = configparser.ConfigParser(empty_lines_in_values=False, allow_no_value=True)
self.xavgwidth = [] # list of ints
def patch(self, font):
self.sourceFont = font
self.setup_version()
self.get_essential_references()
self.setup_name_backup(font)
self.assert_monospace()
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self.remove_ligatures()
self.setup_patch_set()
self.get_sourcefont_dimensions()
self.improve_line_dimensions()
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self.sourceFont.encoding = 'UnicodeFull' # Update the font encoding to ensure that the Unicode glyphs are available
self.onlybitmaps = self.sourceFont.onlybitmaps # Fetch this property before adding outlines. NOTE self.onlybitmaps initialized and never used
if self.args.single:
# 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.
self.set_sourcefont_glyph_widths()
# For very wide (almost square or wider) fonts we do not want to generate 2 cell wide Powerline glyphs
if self.font_dim['height'] * 1.8 < self.font_dim['width'] * 2:
logger.warning("Very wide and short font, disabling 2 cell Powerline glyphs")
self.font_extrawide = True
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# Prevent opening and closing the fontforge font. Makes things faster when patching
# multiple ranges using the same symbol font.
PreviousSymbolFilename = ""
symfont = None
if not os.path.isdir(self.args.glyphdir):
logger.critical("Can not find symbol glyph directory %s "
"(probably you need to download the src/glyphs/ directory?)", self.args.glyphdir)
sys.exit(1)
if self.args.dry_run:
return
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for patch in self.patch_set:
if patch['Enabled']:
if PreviousSymbolFilename != patch['Filename']:
# We have a new symbol font, so close the previous one if it exists
if symfont:
symfont.close()
symfont = None
if not os.path.isfile(self.args.glyphdir + patch['Filename']):
logger.critical("Can not find symbol source for '%s' (i.e. %s)",
patch['Name'], self.args.glyphdir + patch['Filename'])
sys.exit(1)
if not os.access(self.args.glyphdir + patch['Filename'], os.R_OK):
logger.critical("Can not open symbol source for '%s' (i.e. %s)",
patch['Name'], self.args.glyphdir + patch['Filename'])
sys.exit(1)
symfont = fontforge.open(os.path.join(self.args.glyphdir, patch['Filename']))
symfont.encoding = 'UnicodeFull'
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# Match the symbol font size to the source font size
symfont.em = self.sourceFont.em
PreviousSymbolFilename = patch['Filename']
font-patcher: Remove "SrcEnd" option [why] In patch set definitions we have for the source ranges SymStart and SymEnd and for the destination we can specify SrcStart and SrcEnd The SrcEnd can be automatically generated. For SrcEnd values that differ from the autogenerated value (are lower) the script would crash, or (are higher) ignore them anyhow. There are two modes: 'exact = True' and 'exact = False'. The SrcStart and SrcEnd values are ignored if exact is True, because the glyphs are patched into the same codepoint where they originate. This also means that gaps in the symbols are preserved - all patched in glyphs have the same codepoint as they have in the source (symbol) font. When exact is False on the other hand, all (non empty) glyphs are filled into the codepoints that start at SrcStart. Gaps (empty glyphs) are ignored and thus are not present as gap in the patched font anymore (*). The to-be-filled-next codepoint in the patched font just increases by 1 on every filled symbol. See note for the reason. This also makes maintining the patch set easier as noone needs to 'calculate' a SrcEnd value anymore. [how] Use directly the start value and the counter instead of filling an array with a range, that is then indexed by the counter. Before this commit: list_of_patched_font_codepoints = list(range(SrcStart, SrcEnd + 1)) current_codepoint = list_of_patched_font_codepoints[loop_counter] After this commit: current_codepoint = SrcStart + loop_counter [note] Maybe related to code removed with c728079b6. I guess the code uses the list, because it has been believed that glyphs can only be indexed by strings containing a hex number. The array supposedly contained that strings. But in fact the fontforge python module docu is like this: font.__getitem__(key) If key is an integer, then returns the glyph at that encoding. If a string then returns the glyph with that name. May not be assigned to. Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-02-04 12:33:38 +02:00
# If patch table doesn't include a source start, re-use the symbol font values
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SrcStart = patch['SrcStart']
if not SrcStart:
SrcStart = patch['SymStart']
self.copy_glyphs(SrcStart, symfont, patch['SymStart'], patch['SymEnd'], patch['Exact'], patch['ScaleRules'], patch['Name'], patch['Attributes'])
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if symfont:
symfont.close()
# The grave accent and fontforge:
# If the type is 'auto' fontforge changes it to 'mark' on export.
# We can not prevent this. So set it to 'baseglyph' instead, as
# that resembles the most common expectations.
# This is not needed with fontforge March 2022 Release anymore.
if "grave" in self.sourceFont:
self.sourceFont["grave"].glyphclass="baseglyph"
def generate(self, sourceFonts):
sourceFont = sourceFonts[0]
# the `PfEd-comments` flag is required for Fontforge to save '.comment' and '.fontlog'.
if int(fontforge.version()) >= 20201107:
gen_flags = (str('opentype'), str('PfEd-comments'), str('no-FFTM-table'))
else:
gen_flags = (str('opentype'), str('PfEd-comments'))
if len(sourceFonts) > 1:
layer = None
# use first non-background layer
for l in sourceFont.layers:
if not sourceFont.layers[l].is_background:
layer = l
break
outfile = os.path.normpath(os.path.join(
sanitize_filename(self.args.outputdir, True),
sanitize_filename(create_filename(sourceFonts)) + ".ttc"))
sourceFonts[0].generateTtc(outfile, sourceFonts[1:], flags=gen_flags, layer=layer)
message = " Generated {} fonts\n \===> '{}'".format(len(sourceFonts), outfile)
else:
fontname = create_filename(sourceFonts)
if not fontname:
fontname = sourceFont.cidfontname
outfile = os.path.normpath(os.path.join(
sanitize_filename(self.args.outputdir, True),
sanitize_filename(fontname) + self.args.extension))
bitmaps = str()
if len(self.sourceFont.bitmapSizes):
logger.debug("Preserving bitmaps %s", repr(self.sourceFont.bitmapSizes))
bitmaps = str('otf') # otf/ttf, both is bf_ttf
if self.args.dry_run:
logger.debug("=====> Filename '%s'", outfile)
return
sourceFont.generate(outfile, bitmap_type=bitmaps, flags=gen_flags)
message = " {}\n \===> '{}'".format(self.sourceFont.fullname, outfile)
# Adjust flags that can not be changed via fontforge
if re.search('\\.[ot]tf$', self.args.font, re.IGNORECASE) and re.search('\\.[ot]tf$', outfile, re.IGNORECASE):
try:
source_font = TableHEADWriter(self.args.font)
dest_font = TableHEADWriter(outfile)
for idx in range(source_font.num_fonts):
logger.debug("Tweaking %d/%d", idx + 1, source_font.num_fonts)
xwidth_s = ''
xwidth = self.xavgwidth[idx]
if isinstance(xwidth, int):
if isinstance(xwidth, bool) and xwidth:
source_font.find_table([b'OS/2'], idx)
xwidth = source_font.getshort('avgWidth')
xwidth_s = ' (copied from source)'
dest_font.find_table([b'OS/2'], idx)
d_xwidth = dest_font.getshort('avgWidth')
if d_xwidth != xwidth:
logger.debug("Changing xAvgCharWidth from %d to %d%s", d_xwidth, xwidth, xwidth_s)
dest_font.putshort(xwidth, 'avgWidth')
dest_font.reset_table_checksum()
source_font.find_head_table(idx)
dest_font.find_head_table(idx)
if source_font.flags & 0x08 == 0 and dest_font.flags & 0x08 != 0:
logger.debug("Changing flags from 0x%X to 0x%X", dest_font.flags, dest_font.flags & ~0x08)
dest_font.putshort(dest_font.flags & ~0x08, 'flags') # clear 'ppem_to_int'
if source_font.lowppem != dest_font.lowppem:
logger.debug("Changing lowestRecPPEM from %d to %d", dest_font.lowppem, source_font.lowppem)
dest_font.putshort(source_font.lowppem, 'lowestRecPPEM')
if dest_font.modified:
dest_font.reset_table_checksum()
if dest_font.modified:
dest_font.reset_full_checksum()
except Exception as error:
logger.error("Can not handle font flags (%s)", repr(error))
finally:
try:
source_font.close()
dest_font.close()
except:
pass
if self.args.is_variable:
logger.critical("Source font is a variable open type font (VF) and the patch results will most likely not be what you want")
print(message)
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if self.args.postprocess:
subprocess.call([self.args.postprocess, outfile])
print("\n")
logger.info("Post Processed: %s", outfile)
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def setup_name_backup(self, font):
""" Store the original font names to be able to rename the font multiple times """
font.persistent = {
"fontname": font.fontname,
"fullname": font.fullname,
"familyname": font.familyname,
}
def setup_font_names(self, font):
font.fontname = font.persistent["fontname"]
if isinstance(font.persistent["fullname"], str):
font.fullname = font.persistent["fullname"]
if isinstance(font.persistent["familyname"], str):
font.familyname = font.persistent["familyname"]
verboseAdditionalFontNameSuffix = ""
additionalFontNameSuffix = ""
2018-08-07 13:27:48 +02:00
if not self.args.complete:
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# NOTE not all symbol fonts have appended their suffix here
if self.args.fontawesome:
additionalFontNameSuffix += " A"
verboseAdditionalFontNameSuffix += " Plus Font Awesome"
if self.args.fontawesomeextension:
additionalFontNameSuffix += " AE"
verboseAdditionalFontNameSuffix += " Plus Font Awesome Extension"
if self.args.octicons:
additionalFontNameSuffix += " O"
verboseAdditionalFontNameSuffix += " Plus Octicons"
if self.args.powersymbols:
additionalFontNameSuffix += " PS"
verboseAdditionalFontNameSuffix += " Plus Power Symbols"
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if self.args.codicons:
additionalFontNameSuffix += " C"
verboseAdditionalFontNameSuffix += " Plus Codicons"
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if self.args.pomicons:
additionalFontNameSuffix += " P"
verboseAdditionalFontNameSuffix += " Plus Pomicons"
if self.args.fontlogos:
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additionalFontNameSuffix += " L"
verboseAdditionalFontNameSuffix += " Plus Font Logos"
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if self.args.material:
additionalFontNameSuffix += " MDI"
verboseAdditionalFontNameSuffix += " Plus Material Design Icons"
if self.args.weather:
additionalFontNameSuffix += " WEA"
verboseAdditionalFontNameSuffix += " Plus Weather Icons"
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# add mono signifier to beginning of name suffix
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if self.args.single:
variant_abbrev = "M"
variant_full = " Mono"
elif self.args.nonmono and not self.symbolsonly:
variant_abbrev = "P"
variant_full = " Propo"
else:
variant_abbrev = ""
variant_full = ""
ps_suffix = projectNameAbbreviation + variant_abbrev + additionalFontNameSuffix
# add 'Nerd Font' to beginning of name suffix
verboseAdditionalFontNameSuffix = " " + projectNameSingular + variant_full + verboseAdditionalFontNameSuffix
additionalFontNameSuffix = " " + projectNameSingular + variant_full + additionalFontNameSuffix
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if FontnameParserOK and self.args.makegroups > 0:
use_fullname = isinstance(font.fullname, str) # Usually the fullname is better to parse
# Use fullname if it is 'equal' to the fontname
if font.fullname:
use_fullname |= font.fontname.lower() == FontnameTools.postscript_char_filter(font.fullname).lower()
# Use fullname for any of these source fonts (that are impossible to disentangle from the fontname, we need the blanks)
for hit in [ 'Meslo' ]:
use_fullname |= font.fontname.lower().startswith(hit.lower())
parser_name = font.fullname if use_fullname else font.fontname
# Gohu fontnames hide the weight, but the file names are ok...
if parser_name.startswith('Gohu'):
parser_name = os.path.splitext(os.path.basename(self.args.font))[0]
n = FontnameParser(parser_name, logger)
if not n.parse_ok:
logger.warning("Have only minimal naming information, check resulting name. Maybe specify --makegroups 0")
n.drop_for_powerline()
n.enable_short_families(True, self.args.makegroups in [ 2, 3, 5, 6, ], self.args.makegroups in [ 3, 6, ])
if not n.set_expect_no_italic(self.args.noitalic):
logger.critical("Detected 'Italic' slant but --has-no-italic specified")
sys.exit(1)
# All the following stuff is ignored in makegroups-mode
2018-08-04 12:39:21 +02:00
# 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("^([^-]*).*?([^-]*(?!.*-))$", font.fontname).groups()
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# dont trust 'font.familyname'
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familyname = fontname
# fullname (filename) can always use long/verbose font name, even in windows
if font.fullname != None:
fullname = font.fullname + verboseAdditionalFontNameSuffix
else:
fullname = font.cidfontname + verboseAdditionalFontNameSuffix
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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 font.sfnt_names].index("SubFamily")
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# String ID is at the second index in the Tuple lists
sfntNamesStringIDIndex = 2
# now we have the correct item:
subFamily = font.sfnt_names[subFamilyTupleIndex][sfntNamesStringIDIndex]
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except IndexError:
sys.stderr.write("{}: Could not find 'SubFamily' for given font, falling back to parsed fontname\n".format(projectName))
subFamily = fallbackStyle
# some fonts have inaccurate 'SubFamily', if it is Regular let us trust the filename more:
if subFamily == "Regular" and len(fallbackStyle):
2018-08-04 12:39:21 +02:00
subFamily = fallbackStyle
# This is meant to cover the case where the SubFamily is "Italic" and the filename is *-BoldItalic.
if len(subFamily) < len(fallbackStyle):
subFamily = fallbackStyle
if len(subFamily) == 0:
subFamily = "Regular"
familyname += " " + projectNameSingular + variant_full
2018-08-04 12:39:21 +02:00
# 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. Make sure to
# keep the resulting fontname (PostScript name) valid by removing spaces.
fontname += '-' + subFamily.replace(' ', '')
2019-07-05 21:32:06 +02:00
# rename font
#
# comply with SIL Open Font License (OFL)
reservedFontNameReplacements = {
'source' : 'sauce',
'Source' : 'Sauce',
'Bitstream Vera Sans Mono' : 'Bitstrom Wera',
'BitstreamVeraSansMono' : 'BitstromWera',
'bitstream vera sans mono' : 'bitstrom wera',
'bitstreamverasansmono' : 'bitstromwera',
'hermit' : 'hurmit',
'Hermit' : 'Hurmit',
'hasklig' : 'hasklug',
'Hasklig' : 'Hasklug',
'Share' : 'Shure',
'share' : 'shure',
'IBMPlex' : 'Blex',
'ibmplex' : 'blex',
'IBM-Plex' : 'Blex',
'IBM Plex' : 'Blex',
'terminus' : 'terminess',
'Terminus' : 'Terminess',
'liberation' : 'literation',
'Liberation' : 'Literation',
'iAWriter' : 'iMWriting',
'iA Writer' : 'iM Writing',
'iA-Writer' : 'iM-Writing',
'Anka/Coder' : 'AnaConder',
'anka/coder' : 'anaconder',
'Cascadia Code' : 'Caskaydia Cove',
'cascadia code' : 'caskaydia cove',
'CascadiaCode' : 'CaskaydiaCove',
2021-11-12 06:16:12 +02:00
'cascadiacode' : 'caskaydiacove',
'Cascadia Mono' : 'Caskaydia Mono',
'cascadia mono' : 'caskaydia mono',
'CascadiaMono' : 'CaskaydiaMono',
2021-12-19 21:12:08 +02:00
'cascadiamono' : 'caskaydiamono',
'Fira Mono' : 'Fura Mono',
'Fira Sans' : 'Fura Sans',
'FiraMono' : 'FuraMono',
'FiraSans' : 'FuraSans',
'fira mono' : 'fura mono',
'fira sans' : 'fura sans',
'firamono' : 'furamono',
'firasans' : 'furasans',
2019-07-05 21:32:06 +02:00
}
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# remove overly verbose font names
# particularly regarding Powerline sourced Fonts (https://github.com/powerline/fonts)
additionalFontNameReplacements = {
'for Powerline': '',
'ForPowerline': ''
}
additionalFontNameReplacements2 = {
'Powerline': ''
}
projectInfo = (
"Patched with '" + projectName + " Patcher' (https://github.com/ryanoasis/nerd-fonts)\n\n"
"* Website: https://www.nerdfonts.com\n"
"* Version: " + version + "\n"
"* Development Website: https://github.com/ryanoasis/nerd-fonts\n"
"* Changelog: https://github.com/ryanoasis/nerd-fonts/blob/-/changelog.md"
2018-08-04 12:39:21 +02:00
)
familyname = replace_font_name(familyname, reservedFontNameReplacements)
fullname = replace_font_name(fullname, reservedFontNameReplacements)
fontname = replace_font_name(fontname, reservedFontNameReplacements)
familyname = replace_font_name(familyname, additionalFontNameReplacements)
fullname = replace_font_name(fullname, additionalFontNameReplacements)
fontname = replace_font_name(fontname, additionalFontNameReplacements)
familyname = replace_font_name(familyname, additionalFontNameReplacements2)
fullname = replace_font_name(fullname, additionalFontNameReplacements2)
fontname = replace_font_name(fontname, additionalFontNameReplacements2)
if not (FontnameParserOK and self.args.makegroups > 0):
# replace any extra whitespace characters:
font.familyname = " ".join(familyname.split())
font.fullname = " ".join(fullname.split())
font.fontname = " ".join(fontname.split())
font.appendSFNTName(str('English (US)'), str('Preferred Family'), font.familyname)
font.appendSFNTName(str('English (US)'), str('Family'), font.familyname)
font.appendSFNTName(str('English (US)'), str('Compatible Full'), font.fullname)
font.appendSFNTName(str('English (US)'), str('SubFamily'), subFamily)
else:
short_family = projectNameAbbreviation + variant_abbrev if self.args.makegroups >= 4 else projectNameSingular + variant_full
# inject_suffix(family, ps_fontname, short_family)
n.inject_suffix(verboseAdditionalFontNameSuffix, ps_suffix, short_family)
n.rename_font(font)
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font.comment = projectInfo
font.fontlog = projectInfo
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def setup_version(self):
""" Add the Nerd Font version to the original version """
2018-08-07 13:06:39 +02:00
# print("Version was {}".format(sourceFont.version))
if self.sourceFont.version != None:
self.sourceFont.version += ";" + projectName + " " + version
else:
self.sourceFont.version = str(self.sourceFont.cidversion) + ";" + projectName + " " + version
self.sourceFont.sfntRevision = None # Auto-set (refreshed) by fontforge
self.sourceFont.appendSFNTName(str('English (US)'), str('Version'), "Version " + self.sourceFont.version)
# The Version SFNT name is later reused by the NameParser for UniqueID
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# print("Version now is {}".format(sourceFont.version))
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def remove_ligatures(self):
# let's deal with ligatures (mostly for monospaced fonts)
# Usually removes 'fi' ligs that end up being only one cell wide, and 'ldot'
2018-08-04 12:39:21 +02:00
if self.args.configfile and self.config.read(self.args.configfile):
if self.args.removeligatures:
logger.info("Removing ligatures from configfile `Subtables` section")
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ligature_subtables = json.loads(self.config.get("Subtables", "ligatures"))
for subtable in ligature_subtables:
logger.debug("Removing subtable: %s", subtable)
try:
self.sourceFont.removeLookupSubtable(subtable)
logger.debug("Successfully removed subtable: %s", subtable)
except Exception:
logger.error("Failed to remove subtable: %s", subtable)
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elif self.args.removeligatures:
logger.error("Unable to read configfile, unable to remove ligatures")
2018-08-04 12:39:21 +02:00
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
def assert_monospace(self):
# Check if the sourcefont is monospaced
width_mono, offending_char = is_monospaced(self.sourceFont)
self.source_monospaced = width_mono
if self.args.nonmono:
return
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
panose_mono = check_panose_monospaced(self.sourceFont)
# The following is in fact "width_mono != panose_mono", but only if panose_mono is not 'unknown'
if (width_mono and panose_mono == 0) or (not width_mono and panose_mono == 1):
logger.warning("Monospaced check: Panose assumed to be wrong")
logger.warning(" %s and %s",
report_advance_widths(self.sourceFont),
panose_check_to_text(panose_mono, self.sourceFont.os2_panose))
if self.args.single and not width_mono:
logger.warning("Sourcefont is not monospaced - forcing to monospace not advisable, results might be useless")
if offending_char is not None:
logger.warning(" Offending char: %X", offending_char)
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
if self.args.single <= 1:
logger.critical("Font will not be patched! Give --mono (or -s, or --use-single-width-glyphs) twice to force patching")
sys.exit(1)
if width_mono:
force_panose_monospaced(self.sourceFont)
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
2018-08-04 12:39:21 +02:00
def setup_patch_set(self):
""" Creates list of dicts to with instructions on copying glyphs from each symbol font into self.sourceFont """
box_enabled = self.source_monospaced # Box glyph only for monospaced
box_keep = False
if box_enabled:
self.sourceFont.selection.select(("ranges",), 0x2500, 0x259f)
box_glyphs_target = len(list(self.sourceFont.selection))
box_glyphs_current = len(list(self.sourceFont.selection.byGlyphs))
if box_glyphs_target > box_glyphs_current:
# Sourcefont does not have all of these glyphs, do not mix sets (overwrite existing)
if box_glyphs_current > 0:
logger.debug("%d/%d box drawing glyphs will be replaced",
box_glyphs_current, box_glyphs_target)
box_enabled = True
else:
# Sourcefont does have all of these glyphs
# box_keep = True # just scale do not copy (need to scale to fit new cell size)
box_enabled = False # Cowardly not scaling existing glyphs, although the code would allow this
# Stretch 'xz' or 'pa' (preserve aspect ratio)
# Supported params: overlap | careful | xy-ratio | dont_copy
# Overlap value is used horizontally but vertically limited to 0.01
# Careful does not overwrite/modify existing glyphs
# The xy-ratio limits the x-scale for a given y-scale to make the ratio <= this value (to prevent over-wide glyphs)
# '1' means occupu 1 cell (default for 'xy')
# '2' means occupy 2 cells (default for 'pa')
# '!' means do the 'pa' scaling even with non mono fonts (else it just scales down, never up)
# Dont_copy does not overwrite existing glyphs but rescales the preexisting ones
SYM_ATTR_DEFAULT = {
'default': {'align': 'c', 'valign': 'c', 'stretch': 'pa', 'params': {}}
}
2018-08-04 12:39:21 +02:00
SYM_ATTR_POWERLINE = {
'default': {'align': 'c', 'valign': 'c', 'stretch': 'pa', 'params': {}},
2018-08-04 12:39:21 +02:00
# Arrow tips
0xe0b0: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02, 'xy-ratio': 0.7}},
0xe0b1: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'xy-ratio': 0.7}},
0xe0b2: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02, 'xy-ratio': 0.7}},
0xe0b3: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'xy-ratio': 0.7}},
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# Rounded arcs
0xe0b4: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.01, 'xy-ratio': 0.59}},
0xe0b5: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'xy-ratio': 0.5}},
0xe0b6: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.01, 'xy-ratio': 0.59}},
0xe0b7: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'xy-ratio': 0.5}},
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# Bottom Triangles
0xe0b8: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0b9: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {}},
0xe0ba: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0bb: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {}},
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# Top Triangles
0xe0bc: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0bd: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {}},
0xe0be: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0bf: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {}},
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# Flames
0xe0c0: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.01}},
0xe0c1: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {}},
0xe0c2: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.01}},
0xe0c3: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {}},
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# Small squares
0xe0c4: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': -0.03, 'xy-ratio': 0.86}},
0xe0c5: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': -0.03, 'xy-ratio': 0.86}},
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# Bigger squares
0xe0c6: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': -0.03, 'xy-ratio': 0.78}},
0xe0c7: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': -0.03, 'xy-ratio': 0.78}},
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# Waveform
0xe0c8: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.01}},
0xe0ca: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.01}},
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# Hexagons
0xe0cc: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.02, 'xy-ratio': 0.85}},
0xe0cd: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'xy-ratio': 0.865}},
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# Legos
0xe0ce: {'align': 'l', 'valign': 'c', 'stretch': 'pa', 'params': {}},
0xe0cf: {'align': 'c', 'valign': 'c', 'stretch': 'pa', 'params': {}},
0xe0d0: {'align': 'l', 'valign': 'c', 'stretch': 'pa', 'params': {}},
0xe0d1: {'align': 'l', 'valign': 'c', 'stretch': 'pa', 'params': {}},
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# Top and bottom trapezoid
0xe0d2: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02, 'xy-ratio': 0.7}},
0xe0d4: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02, 'xy-ratio': 0.7}}
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}
SYM_ATTR_TRIGRAPH = {
'default': {'align': 'c', 'valign': 'c', 'stretch': 'pa1!', 'params': {'overlap': -0.10, 'careful': True}}
}
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SYM_ATTR_FONTA = {
# 'pa' == preserve aspect ratio
'default': {'align': 'c', 'valign': 'c', 'stretch': 'pa', 'params': {}},
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# Don't center these arrows vertically
0xf0dc: {'align': 'c', 'valign': '', 'stretch': 'pa', 'params': {}},
0xf0dd: {'align': 'c', 'valign': '', 'stretch': 'pa', 'params': {}},
0xf0de: {'align': 'c', 'valign': '', 'stretch': 'pa', 'params': {}}
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}
SYM_ATTR_HEAVYBRACKETS = {
'default': {'align': 'c', 'valign': 'c', 'stretch': 'pa', 'params': {'careful': True}}
}
SYM_ATTR_BOX = {
'default': {'align': 'c', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02, 'dont_copy': box_keep}},
# No overlap with checkered greys (commented out because that raises problems on rescaling clients)
# 0x2591: {'align': 'c', 'valign': 'c', 'stretch': 'xy', 'params': {'dont_copy': box_keep}},
# 0x2592: {'align': 'c', 'valign': 'c', 'stretch': 'xy', 'params': {'dont_copy': box_keep}},
# 0x2593: {'align': 'c', 'valign': 'c', 'stretch': 'xy', 'params': {'dont_copy': box_keep}},
}
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CUSTOM_ATTR = {
# 'pa' == preserve aspect ratio
'default': {'align': 'c', 'valign': '', 'stretch': '', 'params': {}}
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}
# Most glyphs we want to maximize (individually) during the scale
# However, there are some that need to be small or stay relative in
# size to each other.
# The glyph-specific behavior can be given as ScaleRules in the patch-set.
#
# ScaleRules can contain two different kind of rules (possibly in parallel):
# - ScaleGlyph:
# Here one specific glyph is used as 'scale blueprint'. Other glyphs are
# scaled by the same factor as this glyph. This is useful if you have one
# 'biggest' glyph and all others should stay relatively in size.
# Shifting in addition to scaling can be selected too (see below).
# - ScaleGroups:
# Here you specify a group of glyphs that should be handled together
# with the same scaling and shifting. The basis for it is a 'combined
# bounding box' of all glyphs in that group. All glyphs are handled as
# if they fill that combined bounding box.
#
# The ScaleGlyph method: You set 'ScaleGlyph' to the unicode of the reference glyph.
# Note that there can be only one per patch-set.
# Additionally you set 'GlyphsToScale' that contains all the glyphs that shall be
# handled (scaled) like the reference glyph.
# It is a List of: ((glyph code) or (tuple of two glyph codes that form a closed range))
# 'GlyphsToScale': [
# 0x0100, 0x0300, 0x0400, # The single glyphs 0x0100, 0x0300, and 0x0400
# (0x0200, 0x0210), # All glyphs 0x0200 to 0x0210 including both 0x0200 and 0x0210
# ]}
# If you want to not only scale but also shift as the refenerce glyph you give the
# data as 'GlyphsToScale+'. Note that only one set is used and the plus version is preferred.
#
# For the ScaleGroup method you define any number groups of glyphs and each group is
# handled separately. The combined bounding box of all glyphs in the group is determined
# and based on that the scale and shift for all the glyphs in the group.
# You define the groups as value of 'ScaleGroups'.
# It is a List of: ((lists of glyph codes) or (ranges of glyph codes))
# 'ScaleGroups': [
# [0x0100, 0x0300, 0x0400], # One group consists of glyphs 0x0100, 0x0300, and 0x0400
# range(0x0200, 0x0210 + 1), # Another group contains glyphs 0x0200 to 0x0210 incl.
#
# Note the subtle differences: tuple vs. range; closed vs open range; etc
# See prepareScaleRules() for some more details.
# For historic reasons ScaleGroups is sometimes called 'new method' and ScaleGlyph 'old'.
# The codepoints mentioned here are symbol-font-codepoints.
BOX_SCALE_LIST = {'ScaleGroups': [
[*range(0x2500, 0x2570 + 1), *range(0x2574, 0x257f + 1)], # box drawing
range(0x2571, 0x2573 + 1), # diagonals
[*range(0x2580, 0x2590 + 1), 0x2594, 0x2595], # blocks
range(0x2591, 0x2593 + 1), # greys
range(0x2594, 0x259f + 1), # quards (Note: quard 2597 in Hack is wrong, scales like block!)
]}
CODI_SCALE_LIST = {'ScaleGroups': [
range(0xea99, 0xeaa1 + 1), # arrows
range(0xeb6e, 0xeb71 + 1), # triangles
range(0xeab4, 0xeab7 + 1), # chevrons
[0xea71, *range(0xeaa6, 0xeaab + 1), 0xeabc, 0xeb18, 0xeb87, 0xeb88, 0xeb8a, 0xeb8c, 0xebb4], # cicles
[0xeacc, 0xeaba], # dash
]}
DEVI_SCALE_LIST = {'ScaleGlyph': 0xE60E, # Android logo
'GlyphsToScale': [
(0xe6bd, 0xe6c3) # very small things
]}
FONTA_SCALE_LIST = {'ScaleGroups': [
[0xf005, 0xf006, 0xf089], # star, star empty, half star
range(0xf026, 0xf028 + 1), # volume off, down, up
range(0xf02b, 0xf02c + 1), # tag, tags
range(0xf031, 0xf035 + 1), # font et al
range(0xf044, 0xf046 + 1), # edit, share, check (boxes)
range(0xf048, 0xf052 + 1), # multimedia buttons
range(0xf060, 0xf063 + 1), # arrows
[0xf053, 0xf054, 0xf077, 0xf078], # chevron all directions
range(0xf07d, 0xf07e + 1), # resize
range(0xf0a4, 0xf0a7 + 1), # pointing hands
[0xf0d7, 0xf0d8, 0xf0d9, 0xf0da, 0xf0dc, 0xf0dd, 0xf0de], # caret all directions and same looking sort
range(0xf100, 0xf107 + 1), # angle
range(0xf130, 0xf131 + 1), # mic
range(0xf141, 0xf142 + 1), # ellipsis
range(0xf153, 0xf15a + 1), # currencies
range(0xf175, 0xf178 + 1), # long arrows
range(0xf182, 0xf183 + 1), # male and female
range(0xf221, 0xf22d + 1), # gender or so
range(0xf255, 0xf25b + 1), # hand symbols
]}
OCTI_SCALE_LIST = {'ScaleGroups': [
[*range(0xf03d, 0xf040 + 1), 0xf019, 0xf030, 0xf04a, 0xf050, 0xf071, 0xf08c ], # arrows
[0xF0E7, # Smily and ...
0xf044, 0xf05a, 0xf05b, 0xf0aa, # triangles
0xf052, 0xf053, 0x296, 0xf2f0, # small stuff
0xf078, 0xf0a2, 0xf0a3, 0xf0a4, # chevrons
0xf0ca, 0xf081, 0xf092, # dash, X, github-text
],
[0xf09c, 0xf09f, 0xf0de], # bells
range(0xf2c2, 0xf2c5 + 1), # move to
[0xf07b, 0xf0a1, 0xf0d6], # bookmarks
]}
WEATH_SCALE_LIST = {'ScaleGroups': [
[0xf03c, 0xf042, 0xf045 ], # degree signs
[0xf043, 0xf044, 0xf048, 0xf04b, 0xf04c, 0xf04d, 0xf057, 0xf058, 0xf087, 0xf088], # arrows
range(0xf053, 0xf055 + 1), # thermometers
[*range(0xf059, 0xf061 + 1), 0xf0b1], # wind directions
range(0xf089, 0xf094 + 1), # clocks
range(0xf095, 0xf0b0 + 1), # moon phases
range(0xf0b7, 0xf0c3 + 1), # wind strengths
[0xf06e, 0xf070 ], # solar/lunar eclipse
# Note: Codepoints listed before that are also in the following range
# will take the scaling of the previous group (the ScaleGroups are
# searched through in definition order).
# But be careful, the combined bounding box for the following group
# _will_ include all glyphs in its definition: Make sure the exempt
# glyphs from above are smaller (do not extend) the combined bounding
# box of this range:
range(0xf000, 0xf0cb + 1), # lots of clouds and other (Please read note above!)
]}
MDI_SCALE_LIST = None # Maybe later add some selected ScaleGroups
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# Define the character ranges
# Symbol font ranges
self.patch_set = [
{'Enabled': True, 'Name': "Seti-UI + Custom", 'Filename': "original-source.otf", 'Exact': False, 'SymStart': 0xE4FA, 'SymEnd': 0xE5FF, 'SrcStart': 0xE5FA, 'ScaleRules': None, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': True, 'Name': "Heavy Angle Brackets", 'Filename': "extraglyphs.sfd", 'Exact': True, 'SymStart': 0x276C, 'SymEnd': 0x2771, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_HEAVYBRACKETS},
{'Enabled': box_enabled, 'Name': "Box Drawing", 'Filename': "extraglyphs.sfd", 'Exact': True, 'SymStart': 0x2500, 'SymEnd': 0x259F, 'SrcStart': None, 'ScaleRules': BOX_SCALE_LIST, 'Attributes': SYM_ATTR_BOX},
{'Enabled': True, 'Name': "Devicons", 'Filename': "devicons.ttf", 'Exact': False, 'SymStart': 0xE600, 'SymEnd': 0xE6C5, 'SrcStart': 0xE700, 'ScaleRules': DEVI_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.powerline, 'Name': "Powerline Symbols", 'Filename': "powerline-symbols/PowerlineSymbols.otf", 'Exact': True, 'SymStart': 0xE0A0, 'SymEnd': 0xE0A2, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_POWERLINE},
{'Enabled': self.args.powerline, 'Name': "Powerline Symbols", 'Filename': "powerline-symbols/PowerlineSymbols.otf", 'Exact': True, 'SymStart': 0xE0B0, 'SymEnd': 0xE0B3, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_POWERLINE},
{'Enabled': self.args.powerlineextra, 'Name': "Powerline Extra Symbols", 'Filename': "PowerlineExtraSymbols.otf", 'Exact': True, 'SymStart': 0xE0A3, 'SymEnd': 0xE0A3, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_POWERLINE},
{'Enabled': self.args.powerlineextra, 'Name': "Powerline Extra Symbols", 'Filename': "PowerlineExtraSymbols.otf", 'Exact': True, 'SymStart': 0xE0B4, 'SymEnd': 0xE0C8, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_POWERLINE},
{'Enabled': self.args.powerlineextra, 'Name': "Powerline Extra Symbols", 'Filename': "PowerlineExtraSymbols.otf", 'Exact': True, 'SymStart': 0xE0CA, 'SymEnd': 0xE0CA, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_POWERLINE},
{'Enabled': self.args.powerlineextra, 'Name': "Powerline Extra Symbols", 'Filename': "PowerlineExtraSymbols.otf", 'Exact': True, 'SymStart': 0xE0CC, 'SymEnd': 0xE0D4, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_POWERLINE},
{'Enabled': self.args.powerlineextra, 'Name': "Powerline Extra Symbols", 'Filename': "PowerlineExtraSymbols.otf", 'Exact': True, 'SymStart': 0x2630, 'SymEnd': 0x2630, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_TRIGRAPH},
{'Enabled': self.args.pomicons, 'Name': "Pomicons", 'Filename': "Pomicons.otf", 'Exact': True, 'SymStart': 0xE000, 'SymEnd': 0xE00A, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.fontawesome, 'Name': "Font Awesome", 'Filename': "font-awesome/FontAwesome.otf", 'Exact': True, 'SymStart': 0xF000, 'SymEnd': 0xF2E0, 'SrcStart': None, 'ScaleRules': FONTA_SCALE_LIST, 'Attributes': SYM_ATTR_FONTA},
{'Enabled': self.args.fontawesomeextension, 'Name': "Font Awesome Extension", 'Filename': "font-awesome-extension.ttf", 'Exact': False, 'SymStart': 0xE000, 'SymEnd': 0xE0A9, 'SrcStart': 0xE200, 'ScaleRules': None, 'Attributes': SYM_ATTR_DEFAULT}, # Maximize
{'Enabled': self.args.powersymbols, 'Name': "Power Symbols", 'Filename': "Unicode_IEC_symbol_font.otf", 'Exact': True, 'SymStart': 0x23FB, 'SymEnd': 0x23FE, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_DEFAULT}, # Power, Power On/Off, Power On, Sleep
{'Enabled': self.args.powersymbols, 'Name': "Power Symbols", 'Filename': "Unicode_IEC_symbol_font.otf", 'Exact': True, 'SymStart': 0x2B58, 'SymEnd': 0x2B58, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_DEFAULT}, # Heavy Circle (aka Power Off)
{'Enabled': False , 'Name': "Material legacy", 'Filename': "materialdesignicons-webfont.ttf", 'Exact': False, 'SymStart': 0xF001, 'SymEnd': 0xF847, 'SrcStart': 0xF500, 'ScaleRules': None, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.material, 'Name': "Material", 'Filename': "materialdesign/MaterialDesignIconsDesktop.ttf", 'Exact': True, 'SymStart': 0xF0001,'SymEnd': 0xF1AF0,'SrcStart': None, 'ScaleRules': MDI_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.weather, 'Name': "Weather Icons", 'Filename': "weather-icons/weathericons-regular-webfont.ttf", 'Exact': False, 'SymStart': 0xF000, 'SymEnd': 0xF0EB, 'SrcStart': 0xE300, 'ScaleRules': WEATH_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.fontlogos, 'Name': "Font Logos", 'Filename': "font-logos.ttf", 'Exact': True, 'SymStart': 0xF300, 'SymEnd': 0xF32F, 'SrcStart': None, 'ScaleRules': None, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.octicons, 'Name': "Octicons", 'Filename': "octicons/octicons.ttf", 'Exact': False, 'SymStart': 0xF000, 'SymEnd': 0xF105, 'SrcStart': 0xF400, 'ScaleRules': OCTI_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT}, # Magnifying glass
{'Enabled': self.args.octicons, 'Name': "Octicons", 'Filename': "octicons/octicons.ttf", 'Exact': True, 'SymStart': 0x2665, 'SymEnd': 0x2665, 'SrcStart': None, 'ScaleRules': OCTI_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT}, # Heart
{'Enabled': self.args.octicons, 'Name': "Octicons", 'Filename': "octicons/octicons.ttf", 'Exact': True, 'SymStart': 0X26A1, 'SymEnd': 0X26A1, 'SrcStart': None, 'ScaleRules': OCTI_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT}, # Zap
{'Enabled': self.args.octicons, 'Name': "Octicons", 'Filename': "octicons/octicons.ttf", 'Exact': False, 'SymStart': 0xF27C, 'SymEnd': 0xF305, 'SrcStart': 0xF4A9, 'ScaleRules': OCTI_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.codicons, 'Name': "Codicons", 'Filename': "codicons/codicon.ttf", 'Exact': True, 'SymStart': 0xEA60, 'SymEnd': 0xEBEB, 'SrcStart': None, 'ScaleRules': CODI_SCALE_LIST, 'Attributes': SYM_ATTR_DEFAULT},
{'Enabled': self.args.custom, 'Name': "Custom", 'Filename': self.args.custom, 'Exact': True, 'SymStart': 0x0000, 'SymEnd': 0x0000, 'SrcStart': None, 'ScaleRules': None, 'Attributes': CUSTOM_ATTR}
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]
def improve_line_dimensions(self):
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# Make the total line size even. This seems to make the powerline separators
# center more evenly.
if self.args.adjustLineHeight:
if (self.sourceFont.os2_winascent + self.sourceFont.os2_windescent) % 2 != 0:
# All three are equal before due to get_sourcefont_dimensions()
self.sourceFont.hhea_ascent += 1
self.sourceFont.os2_typoascent += 1
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self.sourceFont.os2_winascent += 1
def add_glyphrefs_to_essential(self, unicode):
self.essential.add(unicode)
# According to fontforge spec, altuni is either None or a tuple of tuples
# Those tuples contained in altuni are of the following "format":
# (unicode-value, variation-selector, reserved-field)
altuni = self.sourceFont[unicode].altuni
if altuni is not None:
for altcode in [ v for v, s, r in altuni if v >= 0 ]:
# If alternate unicode already exists in self.essential,
# that means it has gone through this function before.
# Therefore we skip it to avoid infinite loop.
# A unicode value of -1 basically means unused and is also worth skipping.
if altcode not in self.essential:
self.add_glyphrefs_to_essential(altcode)
# From fontforge documentation:
# glyph.references return a tuple of tuples containing, for each reference in foreground,
# a glyph name, a transformation matrix, and (depending on ff version) whether the
# reference is currently selected.
references = self.sourceFont[unicode].references
for refcode in [ self.sourceFont[n].unicode for n, *_ in references ]: # tuple of 2 or 3 depending on ff version
if refcode not in self.essential and refcode >= 0:
self.add_glyphrefs_to_essential(refcode)
def get_essential_references(self):
"""Find glyphs that are needed for the basic glyphs"""
# Sometimes basic glyphs are constructed from multiple other glyphs.
# Find out which other glyphs are also needed to keep the basic
# glyphs intact.
# 0x00-0x17f is the Latin Extended-A range
basic_glyphs = set()
# Collect substitution destinations
for glyph in range(0x21, 0x17f + 1):
if not glyph in self.sourceFont:
continue
basic_glyphs.add(glyph)
for possub in self.sourceFont[glyph].getPosSub('*'):
if possub[1] == 'Substitution' or possub[1] == 'Ligature':
basic_glyphs.add(self.sourceFont[possub[2]].unicode)
basic_glyphs.discard(-1) # the .notdef glyph
for glyph in basic_glyphs:
self.add_glyphrefs_to_essential(glyph)
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def get_sourcefont_dimensions(self):
""" This gets the font dimensions (cell width and height), and makes them equal on all platforms """
# Step 1
# There are three ways to discribe the baseline to baseline distance
# (a.k.a. line spacing) of a font. That is all a kuddelmuddel
# and we try to sort this out here
# See also https://glyphsapp.com/learn/vertical-metrics
# See also https://github.com/source-foundry/font-line
(hhea_btb, typo_btb, win_btb, win_gap) = get_btb_metrics(self.sourceFont)
use_typo = self.sourceFont.os2_use_typo_metrics != 0
Metric = Enum('Metric', ['HHEA', 'TYPO', 'WIN'])
# We use either TYPO (1) or WIN (2) and compare with HHEA
# and use HHEA (0) if the fonts seems broken - no WIN, see #1056
our_btb = typo_btb if use_typo else win_btb
if our_btb == hhea_btb:
metrics = Metric.TYPO if use_typo else Metric.WIN # conforming font
elif abs(our_btb - hhea_btb) / our_btb < 0.03:
logger.info("Font vertical metrics slightly off (%.1f%)", (our_btb - hhea_btb) / our_btb * 100.0)
metrics = Metric.TYPO if use_typo else Metric.WIN
else:
# Try the other metric
our_btb = typo_btb if not use_typo else win_btb
if our_btb == hhea_btb:
use_typo = not use_typo
logger.warning("Font vertical metrics probably wrong USE TYPO METRICS, assume opposite (i.e. %s)", repr(use_typo))
self.sourceFont.os2_use_typo_metrics = 1 if use_typo else 0
metrics = Metric.TYPO if use_typo else Metric.WIN
else:
# We trust the WIN metric more, see experiments in #1056
logger.warning("Font vertical metrics inconsistent (HHEA %d / TYPO %d / WIN %d), using WIN", hhea_btb, typo_btb, win_btb)
our_btb = win_btb
metrics = Metric.WIN
# print("FINI hhea {} typo {} win {} use {} {} {}".format(hhea_btb, typo_btb, win_btb, use_typo, our_btb != hhea_btb, self.sourceFont.fontname))
self.font_dim = {'xmin': 0, 'ymin': 0, 'xmax': 0, 'ymax': 0, 'width' : 0, 'height': 0}
if metrics == Metric.HHEA:
self.font_dim['ymin'] = self.sourceFont.hhea_descent - half_gap(self.sourceFont.hhea_linegap, False)
self.font_dim['ymax'] = self.sourceFont.hhea_ascent + half_gap(self.sourceFont.hhea_linegap, True)
elif metrics == Metric.TYPO:
self.font_dim['ymin'] = self.sourceFont.os2_typodescent - half_gap(self.sourceFont.os2_typolinegap, False)
self.font_dim['ymax'] = self.sourceFont.os2_typoascent + half_gap(self.sourceFont.os2_typolinegap, True)
elif metrics == Metric.WIN:
self.font_dim['ymin'] = -self.sourceFont.os2_windescent - half_gap(win_gap, False)
self.font_dim['ymax'] = self.sourceFont.os2_winascent + half_gap(win_gap, True)
else:
pass # Will fail the metrics check some line later
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# Calculate font height
self.font_dim['height'] = -self.font_dim['ymin'] + self.font_dim['ymax']
if self.font_dim['height'] == 0:
# This can only happen if the input font is empty
# Assume we are using our prepared templates
self.symbolsonly = True
self.font_dim = {
'xmin' : 0,
'ymin' : -self.sourceFont.descent,
'xmax' : self.sourceFont.em,
'ymax' : self.sourceFont.ascent,
'width' : self.sourceFont.em,
'height': self.sourceFont.descent + self.sourceFont.ascent,
}
our_btb = self.sourceFont.descent + self.sourceFont.ascent
elif self.font_dim['height'] < 0:
logger.critical("Can not detect sane font height")
sys.exit(1)
# Make all metrics equal
self.sourceFont.os2_typolinegap = 0
self.sourceFont.os2_typoascent = self.font_dim['ymax']
self.sourceFont.os2_typodescent = self.font_dim['ymin']
self.sourceFont.os2_winascent = self.sourceFont.os2_typoascent
self.sourceFont.os2_windescent = -self.sourceFont.os2_typodescent
self.sourceFont.hhea_ascent = self.sourceFont.os2_typoascent
self.sourceFont.hhea_descent = self.sourceFont.os2_typodescent
self.sourceFont.hhea_linegap = self.sourceFont.os2_typolinegap
self.sourceFont.os2_use_typo_metrics = 1
(check_hhea_btb, check_typo_btb, check_win_btb, _) = get_btb_metrics(self.sourceFont)
if check_hhea_btb != check_typo_btb or check_typo_btb != check_win_btb or check_win_btb != our_btb:
logger.critical("Error in baseline to baseline code detected")
sys.exit(1)
# Step 2
# Find the biggest char width and advance width
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# 0x00-0x17f is the Latin Extended-A range
warned1 = self.args.nonmono # Do not warn if proportional target
warned2 = warned1
for glyph in range(0x21, 0x17f):
if glyph in range(0x7F, 0xBF) or glyph in [
0x132, 0x133, # IJ, ij (in Overpass Mono)
0x022, 0x027, 0x060, # Single and double quotes in Inconsolata LGC
0x0D0, 0x10F, 0x110, 0x111, 0x127, 0x13E, 0x140, 0x165, # Eth and others with stroke or caron in RobotoMono
0x02D, # hyphen for Monofur
]:
continue # ignore special characters like '1/4' etc and some specifics
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try:
(_, _, xmax, _) = self.sourceFont[glyph].boundingBox()
except TypeError:
continue
# print("WIDTH {:X} {} ({} {})".format(glyph, self.sourceFont[glyph].width, self.font_dim['width'], xmax))
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if self.font_dim['width'] < self.sourceFont[glyph].width:
self.font_dim['width'] = self.sourceFont[glyph].width
if not warned1 and glyph > 0x7a: # NOT 'basic' glyph, which includes a-zA-Z
logger.debug("Extended glyphs wider than basic glyphs, results might be useless\n %s",
report_advance_widths(self.sourceFont))
warned1 = True
# print("New MAXWIDTH-A {:X} {} -> {} {}".format(glyph, self.sourceFont[glyph].width, self.font_dim['width'], xmax))
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if xmax > self.font_dim['xmax']:
self.font_dim['xmax'] = xmax
if not warned2 and glyph > 0x7a: # NOT 'basic' glyph, which includes a-zA-Z
logger.debug("Extended glyphs wider bounding box than basic glyphs")
warned2 = True
# print("New MAXWIDTH-B {:X} {} -> {} {}".format(glyph, self.sourceFont[glyph].width, self.font_dim['width'], xmax))
if self.font_dim['width'] < self.font_dim['xmax']:
logger.debug("Font has negative right side bearing in extended glyphs")
self.font_dim['xmax'] = self.font_dim['width'] # In fact 'xmax' is never used
# print("FINAL", self.font_dim)
self.xavgwidth.append(self.args.xavgwidth)
if isinstance(self.xavgwidth[-1], int) and self.xavgwidth[-1] == 0:
self.xavgwidth[-1] = get_old_average_x_width(self.sourceFont)
def get_target_width(self, stretch):
""" Get the target width (1 or 2 'cell') for a given stretch parameter """
# For monospaced fonts all chars need to be maximum 'one' space wide
# other fonts allows double width glyphs for 'pa' or if requested with '2'
if self.args.single or ('pa' not in stretch and '2' not in stretch) or '1' in stretch:
return 1
return 2
def get_scale_factors(self, sym_dim, stretch):
""" Get scale in x and y as tuple """
# It is possible to have empty glyphs, so we need to skip those.
if not sym_dim['width'] or not sym_dim['height']:
return (1.0, 1.0)
target_width = self.font_dim['width'] * self.get_target_width(stretch)
scale_ratio_x = target_width / sym_dim['width']
# font_dim['height'] represents total line height, keep our symbols sized based upon font's em
# Use the font_dim['height'] only for explicit 'y' scaling (not 'pa')
target_height = self.font_dim['height']
scale_ratio_y = target_height / sym_dim['height']
if 'pa' in stretch:
# We want to preserve x/y aspect ratio, so find biggest scale factor that allows symbol to fit
scale_ratio_x = min(scale_ratio_x, scale_ratio_y)
if not self.args.single and not '!' in stretch:
# non monospaced fonts just scale down on 'pa', not up
scale_ratio_x = min(scale_ratio_x, 1.0)
scale_ratio_y = scale_ratio_x
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else:
# Keep the not-stretched direction
if not 'x' in stretch:
scale_ratio_x = 1.0
if not 'y' in stretch:
scale_ratio_y = 1.0
return (scale_ratio_x, scale_ratio_y)
2018-08-04 12:39:21 +02:00
def copy_glyphs(self, sourceFontStart, symbolFont, symbolFontStart, symbolFontEnd, exactEncoding, scaleRules, setName, attributes):
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""" Copies symbol glyphs into self.sourceFont """
progressText = ''
careful = False
font-patcher: Remove "SrcEnd" option [why] In patch set definitions we have for the source ranges SymStart and SymEnd and for the destination we can specify SrcStart and SrcEnd The SrcEnd can be automatically generated. For SrcEnd values that differ from the autogenerated value (are lower) the script would crash, or (are higher) ignore them anyhow. There are two modes: 'exact = True' and 'exact = False'. The SrcStart and SrcEnd values are ignored if exact is True, because the glyphs are patched into the same codepoint where they originate. This also means that gaps in the symbols are preserved - all patched in glyphs have the same codepoint as they have in the source (symbol) font. When exact is False on the other hand, all (non empty) glyphs are filled into the codepoints that start at SrcStart. Gaps (empty glyphs) are ignored and thus are not present as gap in the patched font anymore (*). The to-be-filled-next codepoint in the patched font just increases by 1 on every filled symbol. See note for the reason. This also makes maintining the patch set easier as noone needs to 'calculate' a SrcEnd value anymore. [how] Use directly the start value and the counter instead of filling an array with a range, that is then indexed by the counter. Before this commit: list_of_patched_font_codepoints = list(range(SrcStart, SrcEnd + 1)) current_codepoint = list_of_patched_font_codepoints[loop_counter] After this commit: current_codepoint = SrcStart + loop_counter [note] Maybe related to code removed with c728079b6. I guess the code uses the list, because it has been believed that glyphs can only be indexed by strings containing a hex number. The array supposedly contained that strings. But in fact the fontforge python module docu is like this: font.__getitem__(key) If key is an integer, then returns the glyph at that encoding. If a string then returns the glyph with that name. May not be assigned to. Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-02-04 12:33:38 +02:00
sourceFontCounter = 0
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if self.args.careful:
careful = True
# Create glyphs from symbol font
#
# If we are going to copy all Glyphs, then assume we want to be careful
# and only copy those that are not already contained in the source font
if symbolFontStart == 0:
symbolFont.selection.all()
careful = True
else:
symbolFont.selection.select((str("ranges"), str("unicode")), symbolFontStart, symbolFontEnd)
# Get number of selected non-empty glyphs with codes >=0 (i.e. not -1 == notdef)
symbolFontSelection = [ x for x in symbolFont.selection.byGlyphs if x.unicode >= 0 ]
glyphSetLength = len(symbolFontSelection)
if not self.args.quiet:
modify = attributes['default']['params'].get('dont_copy')
sys.stdout.write("{} {} Glyphs from {} Set\n".format(
"Adding" if not modify else "Rescaling", glyphSetLength, setName))
font-patcher: Allow glyphs with altuni for exactEncoding [why] Some symbol fonts might come with glyphs that have multiple codepoints. When we want to patch them with `'Exact': true` (i.e. at their 'original' codepoints) we want to patch them into the codepoint that has been used in the selection process. That means between SymStart and SymEnd. But this is not the case. We patch them in into their 'main' codepoint, which can be outside the expected range of points. This came up when patching with FontAwesome V6. It has for example these glyphs: Glyph 'music' has a main codepoint 0x1F3B5, but it is present in the font also on codepoint 0xF001. Glyph 'heard' has a main codepoint 0x1F9E1, but it is present in the font also on codepoints 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... When doing a `'Exact': true` patch (i.e. exactEncoding = true) the glyphs is patched into the target font at its (the glyph's) main codepoint, regardless of our patch-codepoint-range. [how] We examine all codepoints that a glyph occupies in the symbol font. From all these codepoints we take the nearest to the last glyph be patched in. Nearest means from the possible codepoints the lowest that come after the previous used codepoint. For example the 'heard': Last patched in codepoint was 0xF003. Main codepoint: 0x1F9E1 Alternate codepoints: 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... -=> 0xF004 Later in the patching process we might encounter the same glyph again, but this time the previous codepoint was 0xF089, so we need to take 0xF08A. Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-02-22 12:59:38 +02:00
currentSourceFontGlyph = -1 # initialize for the exactEncoding case
width_warning = False
font-patcher: Allow glyphs with altuni for exactEncoding [why] Some symbol fonts might come with glyphs that have multiple codepoints. When we want to patch them with `'Exact': true` (i.e. at their 'original' codepoints) we want to patch them into the codepoint that has been used in the selection process. That means between SymStart and SymEnd. But this is not the case. We patch them in into their 'main' codepoint, which can be outside the expected range of points. This came up when patching with FontAwesome V6. It has for example these glyphs: Glyph 'music' has a main codepoint 0x1F3B5, but it is present in the font also on codepoint 0xF001. Glyph 'heard' has a main codepoint 0x1F9E1, but it is present in the font also on codepoints 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... When doing a `'Exact': true` patch (i.e. exactEncoding = true) the glyphs is patched into the target font at its (the glyph's) main codepoint, regardless of our patch-codepoint-range. [how] We examine all codepoints that a glyph occupies in the symbol font. From all these codepoints we take the nearest to the last glyph be patched in. Nearest means from the possible codepoints the lowest that come after the previous used codepoint. For example the 'heard': Last patched in codepoint was 0xF003. Main codepoint: 0x1F9E1 Alternate codepoints: 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... -=> 0xF004 Later in the patching process we might encounter the same glyph again, but this time the previous codepoint was 0xF089, so we need to take 0xF08A. Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-02-22 12:59:38 +02:00
for index, sym_glyph in enumerate(symbolFontSelection):
sym_attr = attributes.get(sym_glyph.unicode)
if sym_attr is None:
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sym_attr = attributes['default']
if self.font_extrawide:
# Do not allow 'xy2' scaling
sym_attr['stretch'] = sym_attr['stretch'].replace('2', '')
2018-08-04 12:39:21 +02:00
if exactEncoding:
font-patcher: Allow glyphs with altuni for exactEncoding [why] Some symbol fonts might come with glyphs that have multiple codepoints. When we want to patch them with `'Exact': true` (i.e. at their 'original' codepoints) we want to patch them into the codepoint that has been used in the selection process. That means between SymStart and SymEnd. But this is not the case. We patch them in into their 'main' codepoint, which can be outside the expected range of points. This came up when patching with FontAwesome V6. It has for example these glyphs: Glyph 'music' has a main codepoint 0x1F3B5, but it is present in the font also on codepoint 0xF001. Glyph 'heard' has a main codepoint 0x1F9E1, but it is present in the font also on codepoints 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... When doing a `'Exact': true` patch (i.e. exactEncoding = true) the glyphs is patched into the target font at its (the glyph's) main codepoint, regardless of our patch-codepoint-range. [how] We examine all codepoints that a glyph occupies in the symbol font. From all these codepoints we take the nearest to the last glyph be patched in. Nearest means from the possible codepoints the lowest that come after the previous used codepoint. For example the 'heard': Last patched in codepoint was 0xF003. Main codepoint: 0x1F9E1 Alternate codepoints: 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... -=> 0xF004 Later in the patching process we might encounter the same glyph again, but this time the previous codepoint was 0xF089, so we need to take 0xF08A. Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-02-22 12:59:38 +02:00
# Use the exact same hex values for the source font as for the symbol font.
# Problem is we do not know the codepoint of the sym_glyph and because it
# came from a selection.byGlyphs there might be skipped over glyphs.
# The iteration is still in the order of the selection by codepoint,
# so we take the next allowed codepoint of the current glyph
possible_codes = [ ]
if sym_glyph.unicode > currentSourceFontGlyph:
possible_codes += [ sym_glyph.unicode ]
if sym_glyph.altuni:
possible_codes += [ v for v, s, r in sym_glyph.altuni if v > currentSourceFontGlyph ]
if len(possible_codes) == 0:
logger.warning("Can not determine codepoint of %X. Skipping...", sym_glyph.unicode)
continue
font-patcher: Allow glyphs with altuni for exactEncoding [why] Some symbol fonts might come with glyphs that have multiple codepoints. When we want to patch them with `'Exact': true` (i.e. at their 'original' codepoints) we want to patch them into the codepoint that has been used in the selection process. That means between SymStart and SymEnd. But this is not the case. We patch them in into their 'main' codepoint, which can be outside the expected range of points. This came up when patching with FontAwesome V6. It has for example these glyphs: Glyph 'music' has a main codepoint 0x1F3B5, but it is present in the font also on codepoint 0xF001. Glyph 'heard' has a main codepoint 0x1F9E1, but it is present in the font also on codepoints 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... When doing a `'Exact': true` patch (i.e. exactEncoding = true) the glyphs is patched into the target font at its (the glyph's) main codepoint, regardless of our patch-codepoint-range. [how] We examine all codepoints that a glyph occupies in the symbol font. From all these codepoints we take the nearest to the last glyph be patched in. Nearest means from the possible codepoints the lowest that come after the previous used codepoint. For example the 'heard': Last patched in codepoint was 0xF003. Main codepoint: 0x1F9E1 Alternate codepoints: 0x2665, 0x2764, 0xF004, 0xF08A, 0x1F499, ... -=> 0xF004 Later in the patching process we might encounter the same glyph again, but this time the previous codepoint was 0xF089, so we need to take 0xF08A. Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-02-22 12:59:38 +02:00
currentSourceFontGlyph = min(possible_codes)
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else:
font-patcher: Remove "SrcEnd" option [why] In patch set definitions we have for the source ranges SymStart and SymEnd and for the destination we can specify SrcStart and SrcEnd The SrcEnd can be automatically generated. For SrcEnd values that differ from the autogenerated value (are lower) the script would crash, or (are higher) ignore them anyhow. There are two modes: 'exact = True' and 'exact = False'. The SrcStart and SrcEnd values are ignored if exact is True, because the glyphs are patched into the same codepoint where they originate. This also means that gaps in the symbols are preserved - all patched in glyphs have the same codepoint as they have in the source (symbol) font. When exact is False on the other hand, all (non empty) glyphs are filled into the codepoints that start at SrcStart. Gaps (empty glyphs) are ignored and thus are not present as gap in the patched font anymore (*). The to-be-filled-next codepoint in the patched font just increases by 1 on every filled symbol. See note for the reason. This also makes maintining the patch set easier as noone needs to 'calculate' a SrcEnd value anymore. [how] Use directly the start value and the counter instead of filling an array with a range, that is then indexed by the counter. Before this commit: list_of_patched_font_codepoints = list(range(SrcStart, SrcEnd + 1)) current_codepoint = list_of_patched_font_codepoints[loop_counter] After this commit: current_codepoint = SrcStart + loop_counter [note] Maybe related to code removed with c728079b6. I guess the code uses the list, because it has been believed that glyphs can only be indexed by strings containing a hex number. The array supposedly contained that strings. But in fact the fontforge python module docu is like this: font.__getitem__(key) If key is an integer, then returns the glyph at that encoding. If a string then returns the glyph with that name. May not be assigned to. Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-02-04 12:33:38 +02:00
# use source font defined hex values based on passed in start (fills gaps; symbols are packed)
currentSourceFontGlyph = sourceFontStart + sourceFontCounter
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sourceFontCounter += 1
# For debugging process only limited glyphs
# if currentSourceFontGlyph != 0xe7bd:
# continue
if not self.args.quiet:
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if self.args.progressbars:
update_progress(round(float(index + 1) / glyphSetLength, 2))
else:
progressText = "\nUpdating glyph: {} {} putting at: {:X}".format(sym_glyph, sym_glyph.glyphname, currentSourceFontGlyph)
2018-08-04 12:39:21 +02:00
sys.stdout.write(progressText)
sys.stdout.flush()
# check if a glyph already exists in this location
if careful or 'careful' in sym_attr['params'] or currentSourceFontGlyph in self.essential:
if currentSourceFontGlyph in self.sourceFont:
careful_type = 'essential' if currentSourceFontGlyph in self.essential else 'existing'
logger.debug("Found %s Glyph at %X. Skipping...", careful_type, currentSourceFontGlyph)
2018-08-04 12:39:21 +02:00
# We don't want to touch anything so move to next Glyph
continue
else:
# If we overwrite an existing glyph all subtable entries regarding it will be wrong
# (Probably; at least if we add a symbol and do not substitude a ligature or such)
if currentSourceFontGlyph in self.sourceFont:
self.sourceFont[currentSourceFontGlyph].removePosSub("*")
2018-08-04 12:39:21 +02:00
dont_copy = sym_attr['params'].get('dont_copy')
if dont_copy:
# Just prepare scaling of existing glyphs
glyph_scale_data = self.get_glyph_scale(sym_glyph.encoding, scaleRules, self.sourceFont, currentSourceFontGlyph) if scaleRules is not None else None
else:
# This will destroy any content currently in currentSourceFontGlyph, so do it first
glyph_scale_data = self.get_glyph_scale(sym_glyph.encoding, scaleRules, symbolFont, currentSourceFontGlyph) if scaleRules is not None else None
# Select and copy symbol from its encoding point
# We need to do this select after the careful check, this way we don't
# reset our selection before starting the next loop
symbolFont.selection.select(sym_glyph.encoding)
symbolFont.copy()
2018-08-04 12:39:21 +02:00
# Paste it
self.sourceFont.selection.select(currentSourceFontGlyph)
self.sourceFont.paste()
self.sourceFont[currentSourceFontGlyph].glyphname = sym_glyph.glyphname
self.sourceFont[currentSourceFontGlyph].manualHints = True # No autohints for symbols
2018-08-04 12:39:21 +02:00
# Prepare symbol glyph dimensions
sym_dim = get_glyph_dimensions(self.sourceFont[currentSourceFontGlyph])
if glyph_scale_data is not None:
if glyph_scale_data[1] is not None:
sym_dim = glyph_scale_data[1] # Use combined bounding box
(scale_ratio_x, scale_ratio_y) = self.get_scale_factors(sym_dim, sym_attr['stretch'])
else:
# This is roughly alike get_scale_factors(glyph_scale_data[1], 'pa')
# Except we do not have glyph_scale_data[1] always...
(scale_ratio_x, scale_ratio_y) = (glyph_scale_data[0], glyph_scale_data[0])
else:
(scale_ratio_x, scale_ratio_y) = self.get_scale_factors(sym_dim, sym_attr['stretch'])
overlap = sym_attr['params'].get('overlap')
if overlap:
scale_ratio_x *= 1.0 + (self.font_dim['width'] / (sym_dim['width'] * scale_ratio_x)) * overlap
y_overlap = min(0.01, overlap) # never aggressive vertical overlap
scale_ratio_y *= 1.0 + (self.font_dim['height'] / (sym_dim['height'] * scale_ratio_y)) * y_overlap
# Size in x to size in y ratio limit (to prevent over-wide glyphs)
xy_ratio_max = sym_attr['params'].get('xy-ratio')
if (xy_ratio_max):
xy_ratio = sym_dim['width'] * scale_ratio_x / (sym_dim['height'] * scale_ratio_y)
if xy_ratio > xy_ratio_max:
scale_ratio_x = scale_ratio_x * xy_ratio_max / xy_ratio
if scale_ratio_x != 1.0 or scale_ratio_y != 1.0:
self.sourceFont[currentSourceFontGlyph].transform(psMat.scale(scale_ratio_x, scale_ratio_y))
2018-08-04 12:39:21 +02:00
# We pasted and scaled now we want to align/move
# Use the dimensions from the newly pasted and stretched glyph to avoid any rounding errors
2018-08-04 12:39:21 +02:00
sym_dim = get_glyph_dimensions(self.sourceFont[currentSourceFontGlyph])
# Use combined bounding box?
if glyph_scale_data is not None and glyph_scale_data[1] is not None:
scaleglyph_dim = scale_bounding_box(glyph_scale_data[1], scale_ratio_x, scale_ratio_y)
if scaleglyph_dim['advance'] is None:
# On monospaced symbol collections use their advance with, otherwise align horizontally individually
scaleglyph_dim['xmin'] = sym_dim['xmin']
scaleglyph_dim['xmax'] = sym_dim['xmax']
scaleglyph_dim['width'] = sym_dim['width']
sym_dim = scaleglyph_dim
2018-08-04 12:39:21 +02:00
y_align_distance = 0
if sym_attr['valign'] == 'c':
# 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 = self.font_dim['ymax'] - (self.font_dim['height'] / 2)
y_align_distance = font_ycenter - sym_ycenter
# Handle glyph l/r/c alignment
x_align_distance = 0
if self.args.nonmono and sym_dim['advance'] is None:
font-patcher: Keep overlap in proportional font [why] The previous commit is somewhat incomplete in some cases and plain wrong in others (with proportional fonts). Examples: The Heard 0x2665 gets a positive right side bearing, which is unexpected. The commits prevents negative right side bearings but not positive ones. The glyphs with overlap (which are the Powerline ones) like 0xE0B0 and 0xE0B2 end up in wrong sizes. This can especially be seen with the Symbols-Only (non-Mono) font, because that is (secretly) a 'Nerd Font Propo' (--variable-width-glyphs) font. [how] This is kind of a design choice: As with the other patched font variants we ignore existing borders (positive bearings) around the glyph. The previous commit tried to keep them, which seems to be impossible and is inconsistent). Also negative bearings would be ignored (but there are none). The only place where bearings come into play is now when we have overlap. All non-overlap glyphs render without any bearing. If we have overlap we need to a) reduce the width by the overlap b) introduce a negative bearing on the appropriate side First we remove any left side bearing by transforming the glyph to the side, such that the bearing becomes zero. For left-side overlap we additionally transform the glyph by the overlap amount to the left (as usual). This creates the neg. left bearing. For right-side overlap we keep the left bearing to be zero. After correcting the left-side bearing (by transforming) we set the corrected width. That is the width subtracted by the overlap. In the left-aligned case this makes the right-side bearing zero. In the right-aligned case this results in a negative right-side bearing. Note how fontforge handles size and bearing changes: Fontforge handles the width change like this: - Keep existing left_side_bearing - Set width - Calculate and set new right_side_bearing Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2023-01-02 17:17:22 +02:00
# Remove left side bearing
# (i.e. do not remove left side bearing when combined BB is in use)
font-patcher: Keep overlap in proportional font [why] The previous commit is somewhat incomplete in some cases and plain wrong in others (with proportional fonts). Examples: The Heard 0x2665 gets a positive right side bearing, which is unexpected. The commits prevents negative right side bearings but not positive ones. The glyphs with overlap (which are the Powerline ones) like 0xE0B0 and 0xE0B2 end up in wrong sizes. This can especially be seen with the Symbols-Only (non-Mono) font, because that is (secretly) a 'Nerd Font Propo' (--variable-width-glyphs) font. [how] This is kind of a design choice: As with the other patched font variants we ignore existing borders (positive bearings) around the glyph. The previous commit tried to keep them, which seems to be impossible and is inconsistent). Also negative bearings would be ignored (but there are none). The only place where bearings come into play is now when we have overlap. All non-overlap glyphs render without any bearing. If we have overlap we need to a) reduce the width by the overlap b) introduce a negative bearing on the appropriate side First we remove any left side bearing by transforming the glyph to the side, such that the bearing becomes zero. For left-side overlap we additionally transform the glyph by the overlap amount to the left (as usual). This creates the neg. left bearing. For right-side overlap we keep the left bearing to be zero. After correcting the left-side bearing (by transforming) we set the corrected width. That is the width subtracted by the overlap. In the left-aligned case this makes the right-side bearing zero. In the right-aligned case this results in a negative right-side bearing. Note how fontforge handles size and bearing changes: Fontforge handles the width change like this: - Keep existing left_side_bearing - Set width - Calculate and set new right_side_bearing Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2023-01-02 17:17:22 +02:00
x_align_distance = -self.sourceFont[currentSourceFontGlyph].left_side_bearing
elif sym_attr['align']:
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# First find the baseline x-alignment (left alignment amount)
x_align_distance = self.font_dim['xmin'] - sym_dim['xmin']
if sym_attr['align'] == 'c':
# Center align
x_align_distance += (self.font_dim['width'] / 2) - (sym_dim['width'] / 2)
elif sym_attr['align'] == 'r':
# Right align
x_align_distance += self.font_dim['width'] * self.get_target_width(sym_attr['stretch']) - sym_dim['width']
# If symbol glyph is wider than target font cell, just left-align
x_align_distance = max(self.font_dim['xmin'] - sym_dim['xmin'], x_align_distance)
if overlap:
overlap_width = self.font_dim['width'] * overlap
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if sym_attr['align'] == 'l':
x_align_distance -= overlap_width
elif sym_attr['align'] == 'c':
if overlap_width > 0:
x_align_distance -= overlap_width / 2
elif sym_attr['align'] == 'r':
# Check and correct overlap; it can go wrong if we have a xy-ratio limit
target_xmax = (self.font_dim['xmin'] + self.font_dim['width']) * self.get_target_width(sym_attr['stretch'])
target_xmax += overlap_width
glyph_xmax = sym_dim['xmax'] + x_align_distance
correction = target_xmax - glyph_xmax
x_align_distance += correction
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align_matrix = psMat.translate(x_align_distance, y_align_distance)
self.sourceFont[currentSourceFontGlyph].transform(align_matrix)
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# Ensure after horizontal adjustments and centering that the glyph
# does not overlap the bearings (edges)
if not overlap:
self.remove_glyph_neg_bearings(self.sourceFont[currentSourceFontGlyph])
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# Needed for setting 'advance width' on each glyph so they do not overlap,
# also ensures 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.
# It should come after setting the glyph bearings
font-patcher: Keep overlap in proportional font [why] The previous commit is somewhat incomplete in some cases and plain wrong in others (with proportional fonts). Examples: The Heard 0x2665 gets a positive right side bearing, which is unexpected. The commits prevents negative right side bearings but not positive ones. The glyphs with overlap (which are the Powerline ones) like 0xE0B0 and 0xE0B2 end up in wrong sizes. This can especially be seen with the Symbols-Only (non-Mono) font, because that is (secretly) a 'Nerd Font Propo' (--variable-width-glyphs) font. [how] This is kind of a design choice: As with the other patched font variants we ignore existing borders (positive bearings) around the glyph. The previous commit tried to keep them, which seems to be impossible and is inconsistent). Also negative bearings would be ignored (but there are none). The only place where bearings come into play is now when we have overlap. All non-overlap glyphs render without any bearing. If we have overlap we need to a) reduce the width by the overlap b) introduce a negative bearing on the appropriate side First we remove any left side bearing by transforming the glyph to the side, such that the bearing becomes zero. For left-side overlap we additionally transform the glyph by the overlap amount to the left (as usual). This creates the neg. left bearing. For right-side overlap we keep the left bearing to be zero. After correcting the left-side bearing (by transforming) we set the corrected width. That is the width subtracted by the overlap. In the left-aligned case this makes the right-side bearing zero. In the right-aligned case this results in a negative right-side bearing. Note how fontforge handles size and bearing changes: Fontforge handles the width change like this: - Keep existing left_side_bearing - Set width - Calculate and set new right_side_bearing Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2023-01-02 17:17:22 +02:00
if not self.args.nonmono:
self.set_glyph_width_mono(self.sourceFont[currentSourceFontGlyph])
else:
# Target font with variable advance width get the icons with their native widths
# and keeping possible (right and/or negative) bearings in effect
if sym_dim['advance'] is not None:
# 'Width' from monospaced scale group
width = sym_dim['advance']
else:
width = sym_dim['width']
font-patcher: Keep overlap in proportional font [why] The previous commit is somewhat incomplete in some cases and plain wrong in others (with proportional fonts). Examples: The Heard 0x2665 gets a positive right side bearing, which is unexpected. The commits prevents negative right side bearings but not positive ones. The glyphs with overlap (which are the Powerline ones) like 0xE0B0 and 0xE0B2 end up in wrong sizes. This can especially be seen with the Symbols-Only (non-Mono) font, because that is (secretly) a 'Nerd Font Propo' (--variable-width-glyphs) font. [how] This is kind of a design choice: As with the other patched font variants we ignore existing borders (positive bearings) around the glyph. The previous commit tried to keep them, which seems to be impossible and is inconsistent). Also negative bearings would be ignored (but there are none). The only place where bearings come into play is now when we have overlap. All non-overlap glyphs render without any bearing. If we have overlap we need to a) reduce the width by the overlap b) introduce a negative bearing on the appropriate side First we remove any left side bearing by transforming the glyph to the side, such that the bearing becomes zero. For left-side overlap we additionally transform the glyph by the overlap amount to the left (as usual). This creates the neg. left bearing. For right-side overlap we keep the left bearing to be zero. After correcting the left-side bearing (by transforming) we set the corrected width. That is the width subtracted by the overlap. In the left-aligned case this makes the right-side bearing zero. In the right-aligned case this results in a negative right-side bearing. Note how fontforge handles size and bearing changes: Fontforge handles the width change like this: - Keep existing left_side_bearing - Set width - Calculate and set new right_side_bearing Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2023-01-02 17:17:22 +02:00
# If we have overlap we need to subtract that to keep/get negative bearings
if overlap and (sym_attr['align'] == 'l' or sym_attr['align'] == 'r'):
width -= overlap_width
# Fontforge handles the width change like this:
# - Keep existing left_side_bearing
# - Set width
# - Calculate and set new right_side_bearing
self.sourceFont[currentSourceFontGlyph].width = int(width)
# Check if the inserted glyph is scaled correctly for monospace
if self.args.single:
(xmin, _, xmax, _) = self.sourceFont[currentSourceFontGlyph].boundingBox()
if int(xmax - xmin) > self.font_dim['width'] * (1 + (overlap or 0)):
logger.warning("Scaled glyph %X wider than one monospace width (%d / %d (overlap %s))",
currentSourceFontGlyph, int(xmax - xmin), self.font_dim['width'], repr(overlap))
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# end for
if not self.args.quiet:
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sys.stdout.write("\n")
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def set_sourcefont_glyph_widths(self):
""" Makes self.sourceFont monospace compliant """
for glyph in self.sourceFont.glyphs():
if (glyph.width == self.font_dim['width']):
# Don't touch the (negative) bearings if the width is ok
# Ligartures will have these.
continue
if (glyph.width != 0):
# If the width is zero this glyph is intened to be printed on top of another one.
# In this case we need to keep the negative bearings to shift it 'left'.
# Things like &Auml; have these: composed of U+0041 'A' and U+0308 'double dot above'
#
# If width is not zero, correct the bearings such that they are within the width:
self.remove_glyph_neg_bearings(glyph)
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self.set_glyph_width_mono(glyph)
def remove_glyph_neg_bearings(self, glyph):
""" Sets passed glyph's bearings 0 if they are negative. """
2018-08-04 03:47:20 +02:00
try:
if glyph.left_side_bearing < 0:
glyph.left_side_bearing = 0
if glyph.right_side_bearing < 0:
glyph.right_side_bearing = 0
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except:
pass
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def set_glyph_width_mono(self, glyph):
""" Sets passed glyph.width to self.font_dim.width.
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self.font_dim.width is set with self.get_sourcefont_dimensions().
"""
try:
# Fontforge handles the width change like this:
# - Keep existing left_side_bearing
# - Set width
# - Calculate and set new right_side_bearing
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glyph.width = self.font_dim['width']
except:
pass
def prepareScaleRules(self, scaleRules, symbolFont, destGlyph):
""" Prepare raw ScaleRules data for use """
# The scaleRules is/will be a dict with these (possible) entries:
# 'ScaleGroups': List of ((lists of glyph codes) or (ranges of glyph codes)) that shall be scaled
# 'scales': List of associated scale factors, one for each entry in 'ScaleGroups' (generated by this function)
# 'bbdims': List of associated sym_dim dicts, one for each entry in 'ScaleGroups' (generated by this function)
# Each dim_dict describes the combined bounding box of all glyphs in one ScaleGroups group
# Example:
# { 'ScaleGroups': [ range(1, 3), [ 7, 10 ], ],
# 'scales': [ 1.23, 1.33, ],
# 'bbdims': [ dim_dict1, dim_dict2, ] }
#
# Each item in 'ScaleGroups' (a range or an explicit list) forms a group of glyphs that shall be
# as rescaled all with the same and maximum possible (for the included glyphs) 'pa' factor.
# If the 'bbdims' is present they all shall be shifted in the same way.
#
# Previously this structure has been used:
# 'ScaleGlyph' Lead glyph, which scaling factor is taken
# 'GlyphsToScale': List of ((glyph code) or (tuple of two glyph codes that form a closed range)) that shall be scaled
# Note that this allows only one group for the whle symbol font, and that the scaling factor is defined by
# a specific character, which needs to be manually selected (on each symbol font update).
# Previous entries are automatically rewritten to the new style.
#
# Note that scaleRules is overwritten with the added data.
if 'scales' in scaleRules:
# Already prepared... must not happen, ignore call
return
scaleRules['scales'] = []
scaleRules['bbdims'] = []
if 'ScaleGroups' not in scaleRules:
scaleRules['ScaleGroups'] = []
for group in scaleRules['ScaleGroups']:
sym_dim = get_multiglyph_boundingBox([ symbolFont[g] if g in symbolFont else None for g in group ], destGlyph)
scale = self.get_scale_factors(sym_dim, 'pa')[0]
scaleRules['scales'].append(scale)
scaleRules['bbdims'].append(sym_dim)
if 'ScaleGlyph' in scaleRules:
# Rewrite to equivalent ScaleGroup
group_list = []
if 'GlyphsToScale+' in scaleRules:
key = 'GlyphsToScale+'
plus = True
else:
key = 'GlyphsToScale'
plus = False
for i in scaleRules[key]:
if isinstance(i, tuple):
group_list.append(range(i[0], i[1] + 1))
else:
group_list.append(i)
sym_dim = get_glyph_dimensions(symbolFont[scaleRules['ScaleGlyph']])
scale = self.get_scale_factors(sym_dim, 'pa')[0]
scaleRules['ScaleGroups'].append(group_list)
scaleRules['scales'].append(scale)
if plus:
scaleRules['bbdims'].append(sym_dim)
else:
scaleRules['bbdims'].append(None) # The 'old' style keeps just the scale, not the positioning
def get_glyph_scale(self, symbol_unicode, scaleRules, symbolFont, dest_unicode):
""" Determines whether or not to use scaled glyphs for glyph in passed symbol_unicode """
# Potentially destorys the contents of self.sourceFont[dest_unicode]
if not 'scales' in scaleRules:
if not dest_unicode in self.sourceFont:
self.sourceFont.createChar(dest_unicode)
self.prepareScaleRules(scaleRules, symbolFont, self.sourceFont[dest_unicode])
for glyph_list, scale, box in zip(scaleRules['ScaleGroups'], scaleRules['scales'], scaleRules['bbdims']):
for e in glyph_list:
if isinstance(e, range):
if symbol_unicode in e:
return (scale, box)
elif symbol_unicode == e:
return (scale, box)
return None
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def half_gap(gap, top):
""" Divides integer value into two new integers """
# Line gap add extra space on the bottom of the line which
# doesn't allow the powerline glyphs to fill the entire line.
# Put half of the gap into the 'cell', each top and bottom
if gap <= 0:
return 0
gap_top = int(gap / 2)
gap_bottom = gap - gap_top
if top:
logger.info("Redistributing line gap of %d (%d top and %d bottom)", gap, gap_top, gap_bottom)
return gap_top
return gap_bottom
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def replace_font_name(font_name, replacement_dict):
""" Replaces all keys with vals from replacement_dict in font_name. """
for key, val in replacement_dict.items():
font_name = font_name.replace(key, val)
return font_name
def make_sure_path_exists(path):
""" Verifies path passed to it exists. """
try:
os.makedirs(path)
except OSError as exception:
if exception.errno != errno.EEXIST:
raise
def sanitize_filename(filename, allow_dirs = False):
""" Enforces to not use forbitten characters in a filename/path. """
if filename == '.' and not allow_dirs:
return '_'
trans = filename.maketrans('<>:"|?*', '_______')
for i in range(0x00, 0x20):
trans[i] = ord('_')
if not allow_dirs:
trans[ord('/')] = ord('_')
trans[ord('\\')] = ord('_')
else:
trans[ord('\\')] = ord('/') # We use posix paths
return filename.translate(trans)
def get_multiglyph_boundingBox(glyphs, destGlyph = None):
""" Returns dict of the dimensions of multiple glyphs combined(, as if they are copied into destGlyph) """
# If destGlyph is given the glyph(s) are first copied over into that
# glyph and measured in that font (to avoid rounding errors)
# Leaves the destGlyph in unknown state!
bbox = [ None, None, None, None, None ]
for glyph in glyphs:
if glyph is None:
# Glyph has been in defining range but is not in the actual font
continue
if destGlyph and glyph.font != destGlyph.font:
glyph.font.selection.select(glyph)
glyph.font.copy()
destGlyph.font.selection.select(destGlyph)
destGlyph.font.paste()
glyph = destGlyph
gbb = glyph.boundingBox()
gadvance = glyph.width
if len(glyphs) > 1 and gbb[0] == gbb[2] and gbb[1] == gbb[3]:
# Ignore empty glyphs if we examine more than one glyph
continue
bbox[0] = gbb[0] if bbox[0] is None or bbox[0] > gbb[0] else bbox[0]
bbox[1] = gbb[1] if bbox[1] is None or bbox[1] > gbb[1] else bbox[1]
bbox[2] = gbb[2] if bbox[2] is None or bbox[2] < gbb[2] else bbox[2]
bbox[3] = gbb[3] if bbox[3] is None or bbox[3] < gbb[3] else bbox[3]
if not bbox[4]:
bbox[4] = -gadvance # Negative for one/first glyph
else:
if abs(bbox[4]) != gadvance:
bbox[4] = -1 # Marker for not-monospaced
else:
bbox[4] = gadvance # Positive for 2 or more glyphs
if bbox[4] and bbox[4] < 0:
# Not monospaced when only one glyph is used or multiple glyphs with different advance widths
bbox[4] = None
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return {
'xmin' : bbox[0],
'ymin' : bbox[1],
'xmax' : bbox[2],
'ymax' : bbox[3],
'width' : bbox[2] + (-bbox[0]),
'height' : bbox[3] + (-bbox[1]),
'advance': bbox[4], # advance width if monospaced
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}
def get_glyph_dimensions(glyph):
""" Returns dict of the dimesions of the glyph passed to it. """
return get_multiglyph_boundingBox([ glyph ])
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def scale_bounding_box(bbox, scale_x, scale_y):
""" Return a scaled version of a glyph dimensions dict """
# Simulate scaling on combined bounding box, round values for better simulation
new_dim = {
'xmin' : int(bbox['xmin'] * scale_x),
'ymin' : int(bbox['ymin'] * scale_y),
'xmax' : int(bbox['xmax'] * scale_x),
'ymax' : int(bbox['ymax'] * scale_y),
'advance': int(bbox['advance'] * scale_x) if bbox['advance'] is not None else None,
}
new_dim['width'] = new_dim['xmax'] + (-new_dim['xmin'])
new_dim['height'] = new_dim['ymax'] + (-new_dim['ymin'])
return new_dim
def update_progress(progress):
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""" Updates progress bar length.
Accepts a float between 0.0 and 1.0. Any int will be converted to a float.
A value at 1 or bigger represents 100%
modified from: https://stackoverflow.com/questions/3160699/python-progress-bar
"""
barLength = 40 # Modify this to change the length of the progress bar
if isinstance(progress, int):
progress = float(progress)
if progress >= 1:
progress = 1
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status = "Done...\r\n" # NOTE: status initialized and never used
block = int(round(barLength * progress))
text = "\r╢{0}╟ {1}%".format("█" * block + "░" * (barLength - block), int(progress * 100))
sys.stdout.write(text)
sys.stdout.flush()
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def check_fontforge_min_version():
""" Verifies installed FontForge version meets minimum requirement. """
minimumVersion = 20141231
actualVersion = int(fontforge.version())
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# un-comment following line for testing invalid version error handling
2018-08-07 13:06:39 +02:00
# actualVersion = 20120731
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# versions tested: 20150612, 20150824
if actualVersion < minimumVersion:
logger.critical("You seem to be using an unsupported (old) version of fontforge: %d", actualVersion)
logger.critical("Please use at least version: %d", minimumVersion)
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sys.exit(1)
def check_version_with_git(version):
""" Upgraded the version to the current git tag version (starting with 'v') """
git = subprocess.run("git describe --tags",
cwd=os.path.dirname(__file__),
shell=True,
stdout=subprocess.PIPE, stderr=subprocess.DEVNULL
).stdout.decode('utf-8')
if len(git) == 0:
return False
tag = git.strip()
if len(tag) == 0 or not tag.startswith('v'):
return False
tag = tag[1:]
r = re.search('(.*?)(-[0-9]+)-g[0-9a-fA-F]+$', tag)
if r:
tag = r.group(1)
patchlevel = r.group(2)
else:
patchlevel = ""
# Inspired by Phaxmohdem's versiontuple https://stackoverflow.com/a/28568003
versiontuple = lambda v: tuple( p.zfill(8) for p in v.split(".") )
if versiontuple(tag) > versiontuple(version):
return tag + patchlevel
if versiontuple(tag) == versiontuple(version) and len(patchlevel) > 0:
return tag + patchlevel
return False
def setup_arguments():
parser = argparse.ArgumentParser(
description=(
'Nerd Fonts Font Patcher: patches a given font with programming and development related glyphs\n\n'
'* Website: https://www.nerdfonts.com\n'
'* Version: ' + version + '\n'
'* Development Website: https://github.com/ryanoasis/nerd-fonts\n'
'* Changelog: https://github.com/ryanoasis/nerd-fonts/blob/-/changelog.md'),
formatter_class=RawTextHelpFormatter
)
# optional arguments
parser.add_argument('font', help='The path to the font to patch (e.g., Inconsolata.otf)')
parser.add_argument('-v', '--version', action='version', version=projectName + ": %(prog)s (" + version + ")")
font-patcher: Prevent --mono on proportional fonts [why] When the source font is proportional we can not really create a monospaced (patched) font from it. The glyph width is for example very small for 'i' but wide for 'W'. The glyphs are all left aligned, leaving very strange separation between smallish glyphs. Even if we would center the glyphs, the look would be strange and completely differenmt from the source font's look. [how] For proportional fonts do not allow to patch with `--mono`. The fact if a source font is monospaced is determined by examining some (very few) glyphs. But testing all our source fonts in the repo shows that it is sufficient. Furthermore the Panose flag is checked and differences between the flag and what the glyph examination found are reported. The user can enforce `Nerd Font Mono` generation with double specifying the command line option `--mono --mono`. Still a warning will be issued. [note] Because `gotta-patch-em-all-font-patcher!.sh` does not really count the variations but calculates them in a separate loop it does not know anymore how many variations are created per family. The numbers are wrong. But probably we should count the result font files in the end anyhow. Because the information is not needed (in an automated manner) this is not corrected here. It seems wrong anyhow: total_variation_count=$((total_variation_count+combination_count)) total_count=$((total_count+complete_variations_per_family+combination_count)) Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-04 19:55:24 +02:00
parser.add_argument('-s', '--mono', '--use-single-width-glyphs', dest='single', default=False, action='count', help='Whether to generate the glyphs as single-width not double-width (default is double-width)')
parser.add_argument('-l', '--adjust-line-height', dest='adjustLineHeight', default=False, action='store_true', help='Whether to adjust line heights (attempt to center powerline separators more evenly)')
parser.add_argument('-q', '--quiet', '--shutup', dest='quiet', default=False, action='store_true', help='Do not generate verbose output')
parser.add_argument('-c', '--complete', dest='complete', default=False, action='store_true', help='Add all available Glyphs')
parser.add_argument('--careful', dest='careful', default=False, action='store_true', help='Do not overwrite existing glyphs if detected')
parser.add_argument('--removeligs', '--removeligatures', dest='removeligatures', default=False, action='store_true', help='Removes ligatures specificed in JSON configuration file')
parser.add_argument('--postprocess', dest='postprocess', default=False, type=str, nargs='?', help='Specify a Script for Post Processing')
parser.add_argument('--configfile', dest='configfile', default=False, type=str, nargs='?', help='Specify a file path for JSON configuration file (see sample: src/config.sample.json)')
parser.add_argument('--custom', dest='custom', default=False, type=str, nargs='?', help='Specify a custom symbol font. All new glyphs will be copied, with no scaling applied.')
parser.add_argument('-ext', '--extension', dest='extension', default="", type=str, nargs='?', help='Change font file type to create (e.g., ttf, otf)')
parser.add_argument('-out', '--outputdir', dest='outputdir', default=".", type=str, nargs='?', help='The directory to output the patched font file to')
parser.add_argument('--glyphdir', dest='glyphdir', default=__dir__ + "/src/glyphs/", type=str, nargs='?', help='Path to glyphs to be used for patching')
parser.add_argument('--makegroups', dest='makegroups', default=1, type=int, nargs='?', help='Use alternative method to name patched fonts (recommended)', const=1, choices=range(0, 6 + 1))
# --makegroup has an additional undocumented numeric specifier. '--makegroup' is in fact '--makegroup 1'.
# Original font name: Hugo Sans Mono ExtraCondensed Light Italic
# NF Fam agg.
# 0 turned off, use old naming scheme [-] [-] [-]
# 1 HugoSansMono Nerd Font ExtraCondensed Light Italic [ ] [ ] [ ]
# 2 HugoSansMono Nerd Font ExtCn Light Italic [ ] [X] [ ]
# 3 HugoSansMono Nerd Font XCn Lt It [ ] [X] [X]
# 4 HugoSansMono NF ExtraCondensed Light Italic [X] [ ] [ ]
# 5 HugoSansMono NF ExtCn Light Italic [X] [X] [ ]
# 6 HugoSansMono NF XCn Lt It [X] [X] [X]
parser.add_argument('--variable-width-glyphs', dest='nonmono', default=False, action='store_true', help='Do not adjust advance width (no "overhang")')
parser.add_argument('--has-no-italic', dest='noitalic', default=False, action='store_true', help='Font family does not have Italic (but Oblique)')
# progress bar arguments - https://stackoverflow.com/questions/15008758/parsing-boolean-values-with-argparse
progressbars_group_parser = parser.add_mutually_exclusive_group(required=False)
progressbars_group_parser.add_argument('--progressbars', dest='progressbars', action='store_true', help='Show percentage completion progress bars per Glyph Set (default)')
progressbars_group_parser.add_argument('--no-progressbars', dest='progressbars', action='store_false', help='Don\'t show percentage completion progress bars per Glyph Set')
parser.set_defaults(progressbars=True)
parser.add_argument('--debug', dest='debugmode', default=0, type=int, nargs='?', help='Verbose mode (optional: 1=just to file; 2*=just to terminal; 3=display and file)', const=2, choices=range(0, 3 + 1))
parser.add_argument('--dry', dest='dry_run', default=False, action='store_true', help='Do neither patch nor store the font, to check naming')
parser.add_argument('--xavgcharwidth', dest='xavgwidth', default=None, type=int, nargs='?', help='Adjust xAvgCharWidth (optional: concrete value)', const=True)
# --xavgcharwidth for compatibility with old applications like notepad and non-latin fonts
# Possible values with examples:
# <none> - copy from sourcefont (default)
# 0 - calculate from font according to OS/2-version-2
# 500 - set to 500
# symbol fonts to include arguments
sym_font_group = parser.add_argument_group('Symbol Fonts')
sym_font_group.add_argument('--fontawesome', dest='fontawesome', default=False, action='store_true', help='Add Font Awesome Glyphs (http://fontawesome.io/)')
sym_font_group.add_argument('--fontawesomeextension', dest='fontawesomeextension', default=False, action='store_true', help='Add Font Awesome Extension Glyphs (https://andrelzgava.github.io/font-awesome-extension/)')
sym_font_group.add_argument('--fontlogos', '--fontlinux', dest='fontlogos', default=False, action='store_true', help='Add Font Logos Glyphs (https://github.com/Lukas-W/font-logos)')
sym_font_group.add_argument('--octicons', dest='octicons', default=False, action='store_true', help='Add Octicons Glyphs (https://octicons.github.com)')
sym_font_group.add_argument('--codicons', dest='codicons', default=False, action='store_true', help='Add Codicons Glyphs (https://github.com/microsoft/vscode-codicons)')
sym_font_group.add_argument('--powersymbols', dest='powersymbols', default=False, action='store_true', help='Add IEC Power Symbols (https://unicodepowersymbol.com/)')
sym_font_group.add_argument('--pomicons', dest='pomicons', default=False, action='store_true', help='Add Pomicon Glyphs (https://github.com/gabrielelana/pomicons)')
sym_font_group.add_argument('--powerline', dest='powerline', default=False, action='store_true', help='Add Powerline Glyphs')
sym_font_group.add_argument('--powerlineextra', dest='powerlineextra', default=False, action='store_true', help='Add Powerline Glyphs (https://github.com/ryanoasis/powerline-extra-symbols)')
sym_font_group.add_argument('--material', '--materialdesignicons', '--mdi', dest='material', default=False, action='store_true', help='Add Material Design Icons (https://github.com/templarian/MaterialDesign)')
sym_font_group.add_argument('--weather', '--weathericons', dest='weather', default=False, action='store_true', help='Add Weather Icons (https://github.com/erikflowers/weather-icons)')
args = parser.parse_args()
if args.makegroups > 0 and not FontnameParserOK:
logger.critical("FontnameParser module missing (bin/scripts/name_parser/Fontname*), specify --makegroups 0")
sys.exit(1)
# if you add a new font, set it to True here inside the if condition
if args.complete:
args.fontawesome = True
args.fontawesomeextension = True
args.fontlogos = True
args.octicons = True
args.codicons = True
args.powersymbols = True
args.pomicons = True
args.powerline = True
args.powerlineextra = True
args.material = True
args.weather = True
if not args.complete:
sym_font_args = []
# add the list of arguments for each symbol font to the list sym_font_args
for action in sym_font_group._group_actions:
sym_font_args.append(action.__dict__['option_strings'])
# determine whether or not all symbol fonts are to be used
font_complete = True
for sym_font_arg_aliases in sym_font_args:
found = False
for alias in sym_font_arg_aliases:
if alias in sys.argv:
found = True
if not found:
font_complete = False
args.complete = font_complete
if args.nonmono and args.single:
logging.warning("Specified contradicting --variable-width-glyphs and --use-single-width-glyph. Ignoring --variable-width-glyphs.")
args.nonmono = False
make_sure_path_exists(args.outputdir)
if not os.path.isfile(args.font):
logging.critical("Font file does not exist: %s", args.font)
sys.exit(1)
if not os.access(args.font, os.R_OK):
logging.critical("Can not open font file for reading: %s", args.font)
sys.exit(1)
is_ttc = len(fontforge.fontsInFile(args.font)) > 1
try:
source_font_test = TableHEADWriter(args.font)
args.is_variable = source_font_test.find_table([b'avar', b'cvar', b'fvar', b'gvarb', b'HVAR', b'MVAR', b'VVAR'], 0)
if args.is_variable:
logging.warning("Source font is a variable open type font (VF), opening might fail...")
except:
args.is_variable = False
finally:
try:
source_font_test.close()
except:
pass
if args.extension == "":
args.extension = os.path.splitext(args.font)[1]
else:
args.extension = '.' + args.extension
if re.match("\.ttc$", args.extension, re.IGNORECASE):
if not is_ttc:
logging.critical("Can not create True Type Collections from single font files")
sys.exit(1)
else:
if is_ttc:
logging.critical("Can not create single font files from True Type Collections")
sys.exit(1)
if isinstance(args.xavgwidth, int) and not isinstance(args.xavgwidth, bool):
if args.xavgwidth < 0:
logging.critical("--xavgcharwidth takes no negative numbers")
sys.exit(2)
if args.xavgwidth > 16384:
logging.critical("--xavgcharwidth takes only numbers up to 16384")
sys.exit(2)
return args
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def main():
global version
git_version = check_version_with_git(version)
allversions = "Patcher v{} ({}) (ff {})".format(
git_version if git_version else version, script_version, fontforge.version())
print("{} {}".format(projectName, allversions))
if git_version:
version = git_version
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check_fontforge_min_version()
args = setup_arguments()
global logger
logger = logging.getLogger(os.path.basename(args.font))
logger.setLevel(logging.DEBUG)
log_to_file = (args.debugmode & 1 == 1)
if log_to_file:
try:
f_handler = logging.FileHandler('font-patcher-log.txt')
f_handler.setFormatter(logging.Formatter('%(levelname)s: %(name)s %(message)s'))
logger.addHandler(f_handler)
except:
log_to_file = False
logger.debug(allversions)
logger.debug("Options %s", repr(sys.argv[1:]))
c_handler = logging.StreamHandler(stream=sys.stdout)
c_handler.setFormatter(logging.Formatter('%(levelname)s: %(message)s'))
if not (args.debugmode & 2 == 2):
c_handler.setLevel(logging.INFO)
logger.addHandler(c_handler)
if (args.debugmode & 1 == 1) and not log_to_file:
logger.info("Can not write logfile, disabling")
logger.debug("Naming mode %d", args.makegroups)
patcher = font_patcher(args)
sourceFonts = []
all_fonts = fontforge.fontsInFile(args.font)
for i, subfont in enumerate(all_fonts):
if len(all_fonts) > 1:
print("\n")
logger.info("Processing %s (%d/%d)", subfont, i + 1, len(all_fonts))
try:
sourceFonts.append(fontforge.open("{}({})".format(args.font, subfont), 1)) # 1 = ("fstypepermitted",))
except Exception:
logger.critical("Can not open font '%s', try to open with fontforge interactively to get more information",
subfont)
sys.exit(1)
patcher.patch(sourceFonts[-1])
print("Done with Patch Sets, generating font...")
for f in sourceFonts:
patcher.setup_font_names(f)
patcher.generate(sourceFonts)
for f in sourceFonts:
f.close()
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if __name__ == "__main__":
__dir__ = os.path.dirname(os.path.abspath(__file__))
main()