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Merge pull request #748 from ryanoasis/feature/allow-downscaling-nonmono

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Feature: Allow symbol scaling in nonmono (down to 2 'widths')
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Fini 2023-01-12 17:32:44 +01:00 committed by GitHub
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2 changed files with 100 additions and 92 deletions
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3
bin/scripts/gotta-patch-em-all-font-patcher!.sh
View file

@ -102,6 +102,9 @@ while getopts ":chijtv-:" option; do
checkfont)
activate_checkfont
;;
help)
show_help
exit 0;;
info)
activate_info
;;

189
font-patcher
View file

@ -6,7 +6,7 @@
from __future__ import absolute_import, print_function, unicode_literals
# Change the script version when you edit this script:
script_version = "3.3.3"
script_version = "3.4.0"
version = "2.3.0-RC"
projectName = "Nerd Fonts"
@ -245,6 +245,7 @@ class font_patcher:
self.sourceFont = None # class 'fontforge.font'
self.patch_set = None # class 'list'
self.font_dim = None # class 'dict'
self.font_extrawide = False
self.onlybitmaps = 0
self.essential = set()
self.config = configparser.ConfigParser(empty_lines_in_values=False, allow_no_value=True)
@ -275,6 +276,11 @@ class font_patcher:
panose[3] = 9 # 3 (4th value) = propotion; 9 = monospaced
self.sourceFont.os2_panose = tuple(panose)
# 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:
print("Very wide and short font, disabling 2 cell Powerline glyphs")
self.font_extrawide = True
# Prevent opening and closing the fontforge font. Makes things faster when patching
# multiple ranges using the same symbol font.
PreviousSymbolFilename = ""
@ -676,39 +682,40 @@ class font_patcher:
def setup_patch_set(self):
""" Creates list of dicts to with instructions on copying glyphs from each symbol font into self.sourceFont """
# Supported params: overlap | careful
# Overlap value is used horizontally but vertically limited to 0.01
# Powerline dividers
SYM_ATTR_POWERLINE = {
'default': {'align': 'c', 'valign': 'c', 'stretch': 'pa', 'params': {}},
# 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': {'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': {'overlap': 0.02, 'xy-ratio': 0.7}},
0xe0b3: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'xy-ratio': 0.7}},
# 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': {'overlap': 0.01, 'xy-ratio': 0.5}},
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': {'overlap': 0.01, 'xy-ratio': 0.5}},
0xe0b7: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'xy-ratio': 0.5}},
# Bottom Triangles
0xe0b8: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0b9: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0ba: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0bb: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0b8: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.02}},
0xe0b9: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {}},
0xe0ba: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.02}},
0xe0bb: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {}},
# Top Triangles
0xe0bc: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0bd: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0be: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0bf: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0bc: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.02}},
0xe0bd: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {}},
0xe0be: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.02}},
0xe0bf: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {}},
# Flames
0xe0c0: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.01}},
0xe0c1: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.01}},
0xe0c2: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.01}},
0xe0c3: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.01}},
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': {}},
# Small squares
0xe0c4: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {}},
@ -719,10 +726,11 @@ class font_patcher:
0xe0c7: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {}},
# Waveform
0xe0c8: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.01}},
0xe0c8: {'align': 'l', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.01}},
0xe0ca: {'align': 'r', 'valign': 'c', 'stretch': 'xy2', 'params': {'overlap': 0.01}},
# Hexagons
0xe0cc: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {}},
0xe0cc: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0cd: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {}},
# Legos
@ -731,8 +739,8 @@ class font_patcher:
0xe0d1: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
# Top and bottom trapezoid
0xe0d2: {'align': 'l', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}},
0xe0d4: {'align': 'r', 'valign': 'c', 'stretch': 'xy', 'params': {'overlap': 0.02}}
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}}
}
SYM_ATTR_DEFAULT = {
@ -969,17 +977,41 @@ class font_patcher:
# print("FINAL", self.font_dim)
def get_scale_factor(self, sym_dim):
scale_ratio = 1
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)
# We want to preserve x/y aspect ratio, so find biggest scale factor that allows symbol to fit
scale_ratio_x = self.font_dim['width'] / sym_dim['width']
scale_ratio_y = self.font_dim['height'] / sym_dim['height']
if scale_ratio_x > scale_ratio_y:
scale_ratio = scale_ratio_y
# 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 (stretch != 'pa' and '2' not in stretch):
relative_width = 1.0
else:
scale_ratio = scale_ratio_x
return scale_ratio
relative_width = 2.0
target_width = self.font_dim['width'] * relative_width
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 stretch == 'pa':
# 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:
# 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
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)
def copy_glyphs(self, sourceFontStart, symbolFont, symbolFontStart, symbolFontEnd, exactEncoding, scaleRules, setName, attributes):
@ -1010,15 +1042,19 @@ class font_patcher:
sys.stdout.write("Adding " + str(max(1, glyphSetLength)) + " Glyphs from " + setName + " Set \n")
currentSourceFontGlyph = -1 # initialize for the exactEncoding case
width_warning = False
for index, sym_glyph in enumerate(symbolFontSelection):
index = max(1, index)
try:
sym_attr = attributes[sym_glyph.unicode]
except KeyError:
sym_attr = attributes.get(sym_glyph.unicode)
if sym_attr is None:
sym_attr = attributes['default']
if self.font_extrawide:
# Do not allow 'xy2' scaling
sym_attr['stretch'] = sym_attr['stretch'].replace('2', '')
if exactEncoding:
# 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
@ -1039,6 +1075,10 @@ class font_patcher:
currentSourceFontGlyph = sourceFontStart + sourceFontCounter
sourceFontCounter += 1
# For debugging process only limited glyphs
# if currentSourceFontGlyph != 0xe7bd:
# continue
if not self.args.quiet:
if self.args.progressbars:
update_progress(round(float(index + 1) / glyphSetLength, 2))
@ -1077,66 +1117,29 @@ class font_patcher:
# Prepare symbol glyph dimensions
sym_dim = get_glyph_dimensions(self.sourceFont[currentSourceFontGlyph])
scale_ratio_x = 1
scale_ratio_y = 1
# Now that we have copy/pasted the glyph, if we are creating a monospace
# font we need to scale and move the glyphs. It is possible to have
# empty glyphs, so we need to skip those.
if self.args.single and sym_dim['width'] and sym_dim['height']:
# If we want to preserve that aspect ratio of the glyphs we need to
# find the largest possible scaling factor that will allow the glyph
# to fit in both the x and y directions
if sym_attr['stretch'] == 'pa':
scale_ratio_x = None
if glyph_scale_data:
# We want to preserve the relative size of each glyph in a glyph group
scale_ratio_x = glyph_scale_data[0]
if scale_ratio_x is None:
# In the remaining cases, each glyph is sized independently to each other
scale_ratio_x = self.get_scale_factor(sym_dim)
scale_ratio_y = scale_ratio_x
else:
if 'x' in sym_attr['stretch']:
# Stretch the glyph horizontally to fit the entire available width
scale_ratio_x = None
if glyph_scale_data is not None and glyph_scale_data[1] is not None:
scale_ratio_x = self.font_dim['width'] / glyph_scale_data[1]['width']
if scale_ratio_x is None:
scale_ratio_x = self.font_dim['width'] / sym_dim['width']
# end if single width
# non-monospace (double width glyphs)
# elif sym_dim['width'] and sym_dim['height']:
# any special logic we want to apply for double-width variation
# would go here
if 'y' in sym_attr['stretch']:
# Stretch the glyph vertically to total line height (good for powerline separators)
# Currently stretching vertically for both monospace and double-width
scale_ratio_y = None
if glyph_scale_data is not None and glyph_scale_data[1] is not None:
scale_ratio_y = self.font_dim['height'] / glyph_scale_data[1]['height']
if scale_ratio_y is None:
scale_ratio_y = self.font_dim['height'] / sym_dim['height']
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
# 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
if scale_ratio_x != 1 or scale_ratio_y != 1:
if overlap:
scale_ratio_x *= 1 + overlap
scale_ratio_y *= 1 + 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):
if glyph_scale_data is not None and glyph_scale_data[1] is not None:
dim = glyph_scale_data[1]
else:
dim = sym_dim
xy_ratio = dim['width'] * scale_ratio_x / (dim['height'] * scale_ratio_y)
if xy_ratio > xy_ratio_max:
scale_ratio_x = scale_ratio_x * xy_ratio_max / xy_ratio
# 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))
# We pasted and scaled now we want to align/move
@ -1174,6 +1177,8 @@ class font_patcher:
elif sym_attr['align'] == 'r':
# Right align
x_align_distance += self.font_dim['width'] - sym_dim['width']
if not self.args.single and '2' in sym_attr['stretch']:
x_align_distance += self.font_dim['width']
if overlap:
overlap_width = self.font_dim['width'] * overlap
@ -1286,7 +1291,7 @@ class font_patcher:
# '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) factor.
# 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:
@ -1307,7 +1312,7 @@ class font_patcher:
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_factor(sym_dim)
scale = self.get_scale_factors(sym_dim, 'pa')[0]
scaleRules['scales'].append(scale)
scaleRules['bbdims'].append(sym_dim)
@ -1320,7 +1325,7 @@ class font_patcher:
else:
group_list.append(i)
sym_dim = get_glyph_dimensions(symbolFont[scaleRules['ScaleGlyph']])
scale = self.get_scale_factor(sym_dim)
scale = self.get_scale_factors(sym_dim, 'pa')[0]
scaleRules['ScaleGroups'].append(group_list)
scaleRules['scales'].append(scale)
scaleRules['bbdims'].append(None) # The 'old' style keeps just the scale, not the positioning