monolisa-nerdfont-patch/bin/scripts/name_parser/FontnameTools.py
2024-04-01 00:31:39 +00:00

427 lines
18 KiB
Python

#!/usr/bin/env python
# coding=utf8
import re
import sys
class FontnameTools:
"""Deconstruct a fontname to get standardized name parts"""
@staticmethod
def front_upper(word):
"""Capitalize a string (but keep case of subsequent chars)"""
return word[:1].upper() + word[1:]
@staticmethod
def camel_casify(word):
"""Remove blanks and use CamelCase for the new word"""
return ''.join(map(FontnameTools.front_upper, word.split(' ')))
@staticmethod
def camel_explode(word):
"""Explode CamelCase -> Camel Case"""
# But do not explode "JetBrains" etc at string start...
excludes = [
'JetBrains',
'DejaVu',
'OpenDyslexicAlta',
'OpenDyslexicMono',
'OpenDyslexic',
'DaddyTimeMono',
'InconsolataGo',
'ProFontWindows',
'ProFont',
'ProggyClean',
]
m = re.match('(' + '|'.join(excludes) + ')(.*)', word)
(prefix, word) = m.group(1,2) if m != None else ('', word)
if len(word) == 0:
return prefix
parts = re.split('(?<=[a-z0-9])(?=[A-Z])', word)
if len(prefix):
parts.insert(0, prefix)
return ' '.join(parts)
@staticmethod
def drop_empty(l):
"""Remove empty strings from list of strings"""
return [x for x in l if len(x) > 0]
@staticmethod
def concat(*all_things):
"""Flatten list of (strings or lists of strings) to a blank-separated string"""
all = []
for thing in all_things:
if type(thing) is not list:
all.append(thing)
else:
all += thing
return ' '.join(FontnameTools.drop_empty(all))
@staticmethod
def unify_style_names(style_name):
"""Substitude some known token with standard wording"""
known_names = {
# Source of the table is the current sourcefonts
# Left side needs to be lower case
'book': '',
'ce': 'CE',
'normal': 'Regular',
}
return known_names.get(style_name.lower(), style_name)
@staticmethod
def find_in_dicts(key, dicts):
"""Find an entry in a list of dicts, return entry and in which list it was"""
for i, d in enumerate(dicts):
if key in d:
return ( d[key], i )
return (None, 0)
@staticmethod
def get_shorten_form_idx(aggressive, prefix, form_if_prefixed):
"""Get the tuple index of known_* data tables"""
if aggressive:
return 0
if len(prefix):
return form_if_prefixed
return 1
@staticmethod
def shorten_style_name(name, aggressive):
"""Substitude some known styles to short form"""
# If aggressive is False create the mild short form
# aggressive == True: Always use first form of everything
# aggressive == False:
# - has no modifier: use the second form
# - has modifier: use second form of mod plus first form of weights2
# - has modifier: use second form of mod plus second form of widths
name_rest = name
name_pre = ''
form = FontnameTools.get_shorten_form_idx(aggressive, '', 0)
for mod in FontnameTools.known_modifiers:
if name.startswith(mod) and len(name) > len(mod): # Second condition specifically for 'Demi'
name_pre = FontnameTools.known_modifiers[mod][form]
name_rest = name[len(mod):]
break
subst, i = FontnameTools.find_in_dicts(name_rest, [ FontnameTools.known_weights2, FontnameTools.known_widths ])
form = FontnameTools.get_shorten_form_idx(aggressive, name_pre, i)
if isinstance(subst, tuple):
return name_pre + subst[form]
if not len(name_pre):
# The following sets do not allow modifiers
subst, _ = FontnameTools.find_in_dicts(name_rest, [ FontnameTools.known_weights1, FontnameTools.known_slopes ])
if isinstance(subst, tuple):
return subst[form]
return name
@staticmethod
def short_styles(lists, aggressive):
"""Shorten all style names in a list or a list of lists"""
if not len(lists) or not isinstance(lists[0], list):
return list(map(lambda x: FontnameTools.shorten_style_name(x, aggressive), lists))
return [ list(map(lambda x: FontnameTools.shorten_style_name(x, aggressive), styles)) for styles in lists ]
@staticmethod
def make_oblique_style(weights, styles):
"""Move "Oblique" from weights to styles for font naming purposes"""
if 'Oblique' in weights:
weights = list(weights)
weights.remove('Oblique')
styles = list(styles)
styles.append('Oblique')
return (weights, styles)
@staticmethod
def get_name_token(name, tokens):
"""Try to find any case insensitive token from tokens in the name, return tuple with found token-list and rest"""
# The default mode (allow_regex_token = False) will try to find any verbatim string in the
# tokens list (case insensitive matching) and give that tokens list item back with
# unchanged case (i.e. [ 'Bold' ] will match "bold" and return it as [ 'Bold', ]
# In the regex mode (allow_regex_token = True) it will use the tokens elements as
# regexes and return the original (i.e. from name) case.
#
# Token are always used in a regex and may not capture, use non capturing
# grouping if needed (?: ... )
lower_tokens = [ t.lower() for t in tokens ]
not_matched = ""
all_tokens = []
j = 1
token_regex = '|'.join(tokens)
# Allow a dash between CamelCase token word parts, i.e. Camel-Case
# This allows for styles like Extra-Bold
token_regex = re.sub(r'(?<=[a-z])(?=[A-Z])', '-?', token_regex)
regex = re.compile('(.*?)(' + token_regex + ')(.*)', re.IGNORECASE)
while j:
j = regex.match(name)
if not j:
break
if len(j.groups()) != 3:
sys.exit('Malformed regex in FontnameTools.get_name_token()')
not_matched += ' ' + j.groups()[0] # Blanc prevents unwanted concatenation of unmatched substrings
tok = j.groups()[1].lower()
tok = tok.replace('-', '') # Remove dashes between CamelCase token words
if tok in lower_tokens:
tok = tokens[lower_tokens.index(tok)]
tok = FontnameTools.unify_style_names(tok)
if len(tok):
all_tokens.append(tok)
name = j.groups()[2] # Recurse rest
not_matched += ' ' + name
return ( not_matched.strip(), all_tokens )
@staticmethod
def postscript_char_filter(name):
"""Filter out characters that are not allowed in Postscript names"""
# The name string must be restricted to the printable ASCII subset, codes 33 to 126,
# except for the 10 characters '[', ']', '(', ')', '{', '}', '<', '>', '/', '%'
out = ''
for c in name:
if c in '[](){}<>/%' or ord(c) < 33 or ord(c) > 126:
continue
out += c
return out
SIL_TABLE = [
( '(a)nka/(c)oder', r'\1na\2onder' ),
( '(a)nonymous', r'\1nonymice' ),
( '(b)itstream( ?)(v)era( ?sans ?mono)?', r'\1itstrom\2Wera' ),
( '(c)ascadia( ?)(c)ode', r'\1askaydia\2\3ove' ),
( '(c)ascadia( ?)(m)ono', r'\1askaydia\2\3ono' ),
( 'Gohufont', r'GohuFont'), # Correct to CamelCase
( '(h)ermit', r'\1urmit' ),
( '(h)asklig', r'\1asklug' ),
( 'iA([- ]?)writer', r'iM\1Writing' ),
( 'IBM[- ]?plex', r'Blex' ), # We do not keep the case here
( '(i)ntel( ?)(o)ne', r'\1ntone' ),
( '(l)iberation', r'\1iteration' ),
( '(m)onaspace', r'\1onaspice' ),
( '(m)( ?)plus', r'\1+'), # Added this, because they use a plus symbol :->
( '(s)hare', r'\1hure' ),
( '(s)ource', r'\1auce' ),
( '(t)erminus', r'\1erminess' ),
# Noone cares that font names starting with a digit are forbidden:
( 'IBM 3270', r'3270'), # for historical reasons and 'IBM' is a TM or something
# Some name parts that are too long for us
( '(.*sans ?m)ono', r'\1'), # Various SomenameSansMono fonts
( '(.*code ?lat)in', r'\1'), # for 'M PLUS Code Latin'
( '(b)ig( ?)(b)lue( ?)(t)erminal', r'\1ig\3lue\5erm'), # Shorten BigBlueTerminal
( '(.*)437TT', r'\g<1>437'), # Shorten BigBlueTerminal 437 TT even further
( '(.*dyslexic ?alt)a', r'\1'), # Open Dyslexic Alta -> Open Dyslexic Alt
( '(.*dyslexic ?m)ono', r'\1'), # Open Dyslexic Mono -> Open Dyslexic M
( '(overpass ?m)ono', r'\1'), # Overpass Mono -> Overpass M
( '(proggyclean) ?tt', r'\1'), # Remove TT from ProggyClean
( '(terminess) ?\(ttf\)', r'\1'), # Remove TTF from Terminus (after renamed to Terminess)
( '(.*ne)on', r'\1'), # Monaspace shorten face name
( '(.*ar)gon', r'\1'), # Monaspace shorten face name
( '(.*kr)ypton', r'\1'), # Monaspace shorten face name
( '(.*xe)non', r'\1'), # Monaspace shorten face name
( '(.*r)adon', r'\1n'), # Monaspace shorten face name
( '(im ?writing ?q)uattro', r'\1uat'), # Rename iM Writing Quattro to Quat
( '(im ?writing ?(mono|duo|quat)) ?s', r'\1'), # Remove S from all iM Writing styles
( '(r)ec( ?)(m)ono( ?)(s)emicasual', r'\1ec\3ono\5emi'), # Shorten RecMonoSemicausal
]
# From https://adobe-type-tools.github.io/font-tech-notes/pdfs/5088.FontNames.pdf
# The first short variant is from the linked table.
# The second (longer) short variant is from diverse fonts like Noto.
# We can
# - use the long form
# - use the very short form (first)
# - use mild short form:
# - has no modifier: use the second form
# - has modifier: use second form of mod plus first form of weights2
# - has modifier: use second form of mod plus second form of widths
# This is encoded in get_shorten_form_idx()
known_weights1 = { # can not take modifiers
'Medium': ('Md', 'Med'),
'Nord': ('Nd', 'Nord'),
'Book': ('Bk', 'Book'),
'Text': ('Txt', 'Text'),
'Poster': ('Po', 'Poster'),
'Demi': ('Dm', 'Demi'), # Demi is sometimes used as a weight, sometimes as a modifier
'Regular': ('Rg', 'Reg'),
'Display': ('DS', 'Disp'),
'Super': ('Su', 'Sup'),
'Retina': ('Rt', 'Ret'),
}
known_weights2 = { # can take modifiers
'Black': ('Blk', 'Black'),
'Bold': ('Bd', 'Bold'),
'Heavy': ('Hv', 'Heavy'),
'Thin': ('Th', 'Thin'),
'Light': ('Lt', 'Light'),
' ': (), # Just for CodeClimate :-/
}
known_styles = [ # Keywords that end up as style (i.e. a RIBBI set)
'Bold', 'Italic', 'Regular', 'Normal'
]
known_widths = { # can take modifiers
'Compressed': ('Cm', 'Comp'),
'Extended': ('Ex', 'Extd'),
'Condensed': ('Cn', 'Cond'),
'Narrow': ('Nr', 'Narrow'),
'Compact': ('Ct', 'Compact'),
}
known_slopes = { # can not take modifiers
'Inclined': ('Ic', 'Incl'),
'Oblique': ('Obl', 'Obl'),
'Italic': ('It', 'Italic'),
'Upright': ('Up', 'Uprght'),
'Kursiv': ('Ks', 'Kurs'),
'Sloped': ('Sl', 'Slop'),
}
known_modifiers = {
'Demi': ('Dm', 'Dem'),
'Ultra': ('Ult', 'Ult'),
'Semi': ('Sm', 'Sem'),
'Extra': ('X', 'Ext'),
}
equivalent_weights = {
100: ('thin', 'hairline'),
200: ('extralight', 'ultralight'),
300: ('light', ),
350: ('semilight', ),
400: ('regular', 'normal', 'book', 'text', 'nord', 'retina'),
500: ('medium', ),
600: ('semibold', 'demibold', 'demi'),
700: ('bold', ),
800: ('extrabold', 'ultrabold'),
900: ('black', 'heavy', 'poster', 'extrablack', 'ultrablack'),
}
@staticmethod
def weight_string_to_number(w):
""" Convert a common string approximation to a PS/2 weight value """
if not isinstance(w, str) or len(w) < 1:
return 400
w = w.lower().replace('-', '').replace(' ', '')
for num, strs in FontnameTools.equivalent_weights.items():
if w in strs:
return num
return None
@staticmethod
def weight_to_string(w):
""" Convert a PS/2 weight value to the common string approximation """
if w < 150:
str = 'Thin'
elif w < 250:
str = 'Extra-Light'
elif w < 350:
str = 'Light'
elif w < 450:
str = 'Regular'
elif w < 550:
str = 'Medium'
elif w < 650:
str = 'Semi-Bold'
elif w < 750:
str = 'Bold'
elif w < 850:
str = 'Extra-Bold'
else:
str = 'Black'
return str
@staticmethod
def is_keep_regular(basename):
"""This has been decided by the font designers, we need to mimic that (for comparison purposes)"""
KEEP_REGULAR = [
'Agave',
'Arimo',
'Aurulent',
'Cascadia',
'Cousine',
'Fantasque',
'Fira',
'Overpass',
'Lilex',
'Inconsolata$', # not InconsolataGo
'IAWriter',
'Meslo',
'Monoid',
'Mononoki',
'Hack',
'JetBrains Mono',
'Noto Sans',
'Noto Serif',
'Victor',
]
for kr in KEEP_REGULAR:
if (basename.rstrip() + '$').startswith(kr): return True
return False
@staticmethod
def _parse_simple_font_name(name):
"""Parse a fontname that does not follow the 'FontFamilyName-FontStyle' pattern"""
# This is the usual case, because the font-patcher usually uses the fullname and
# not the PS name
if ' ' in name:
return FontnameTools.parse_font_name(name.replace(' ', '-'))
# Do we have a number-name boundary?
p = re.split('(?<=[0-9])(?=[a-zA-Z])', name)
if len(p) > 1:
return FontnameTools.parse_font_name('-'.join(p))
# Or do we have CamelCase?
n = FontnameTools.camel_explode(name)
if n != name:
return FontnameTools.parse_font_name(n.replace(' ', '-'))
return (False, FontnameTools.camel_casify(name), [], [], [], '')
@staticmethod
def parse_font_name(name):
"""Expects a fontname following the 'FontFamilyName-FontStyle' pattern and returns ... parts"""
# This could parse filenames in the beginning but that was never used in production; code removed with this commit
for special in [
('ExtLt', 'ExtraLight'), # IBM-Plex
('Medm', 'Medium'), # IBM-Plex
('Semi-Condensed', 'SemiCondensed'), # 3270
('SmBld', 'SemiBold'), # IBM-Plex
]:
name = re.sub(r'\b' + special[0] + r'\b', special[1], name, 1, re.IGNORECASE)
name = re.sub('[_\s]+', ' ', name)
matches = re.match(r'([^-]+)(?:-(.*))?', name)
familyname = FontnameTools.camel_casify(matches.group(1))
style = matches.group(2)
if not style:
return FontnameTools._parse_simple_font_name(name)
# These are the FontStyle keywords we know, in three categories
# Weights end up as Typographic Family parts ('after the dash')
# Styles end up as Family parts (for classic grouping of four)
# Others also end up in Typographic Family ('before the dash')
weights = [ m + s
for s in list(FontnameTools.known_weights2) + list(FontnameTools.known_widths)
for m in list(FontnameTools.known_modifiers) + [''] if m != s
] + list(FontnameTools.known_weights1) + list(FontnameTools.known_slopes)
weights = [ w for w in weights if w not in FontnameTools.known_styles ]
# Some font specialities:
other = [
'-', 'Book', 'For', 'Powerline',
'IIx', # Profont IIx
'LGC', # Inconsolata LGC
r'\bCE\b', # ProggycleanTT CE
r'[12][cmp]n?', # MPlus
r'(?:uni-)?1[14]', # GohuFont uni
]
( style, weight_token ) = FontnameTools.get_name_token(style, weights)
( style, style_token ) = FontnameTools.get_name_token(style, FontnameTools.known_styles)
( style, other_token ) = FontnameTools.get_name_token(style, other)
while 'Regular' in style_token and len(style_token) > 1:
# Correct situation where "Regular" and something else is given
style_token.remove('Regular')
# Recurse to see if unmatched stuff between dashes can belong to familyname
matches2 = re.match(r'(\w+)-(.*)', style)
if matches2:
return FontnameTools.parse_font_name(familyname + matches2.group(1) + '-' + matches2.group(2))
style = re.sub(r'(^|\s)\d+(\.\d+)+(\s|$)', r'\1\3', style) # Remove (free standing) version numbers
style_parts = FontnameTools.drop_empty(style.split(' '))
style = ' '.join(map(FontnameTools.front_upper, style_parts))
familyname = FontnameTools.camel_explode(familyname)
return (True, familyname, weight_token, style_token, other_token, style)