harfbuzz/src/gen-indic-table.py

263 lines
6.3 KiB
Python
Executable File

#!/usr/bin/env python
from __future__ import print_function, division, absolute_import
import io, sys
if len (sys.argv) != 4:
print ("usage: ./gen-indic-table.py IndicSyllabicCategory.txt IndicPositionalCategory.txt Blocks.txt", file=sys.stderr)
sys.exit (1)
ALLOWED_SINGLES = [0x00A0, 0x25CC]
ALLOWED_BLOCKS = [
'Basic Latin',
'Latin-1 Supplement',
'Devanagari',
'Bengali',
'Gurmukhi',
'Gujarati',
'Oriya',
'Tamil',
'Telugu',
'Kannada',
'Malayalam',
'Sinhala',
'Myanmar',
'Khmer',
'Vedic Extensions',
'General Punctuation',
'Superscripts and Subscripts',
'Devanagari Extended',
'Myanmar Extended-B',
'Myanmar Extended-A',
]
files = [io.open (x, encoding='utf-8') for x in sys.argv[1:]]
headers = [[f.readline () for i in range (2)] for f in files]
data = [{} for f in files]
values = [{} for f in files]
for i, f in enumerate (files):
for line in f:
j = line.find ('#')
if j >= 0:
line = line[:j]
fields = [x.strip () for x in line.split (';')]
if len (fields) == 1:
continue
uu = fields[0].split ('..')
start = int (uu[0], 16)
if len (uu) == 1:
end = start
else:
end = int (uu[1], 16)
t = fields[1]
for u in range (start, end + 1):
data[i][u] = t
values[i][t] = values[i].get (t, 0) + end - start + 1
# Merge data into one dict:
defaults = ('Other', 'Not_Applicable', 'No_Block')
for i,v in enumerate (defaults):
values[i][v] = values[i].get (v, 0) + 1
combined = {}
for i,d in enumerate (data):
for u,v in d.items ():
if i == 2 and not u in combined:
continue
if not u in combined:
combined[u] = list (defaults)
combined[u][i] = v
combined = {k:v for k,v in combined.items() if k in ALLOWED_SINGLES or v[2] in ALLOWED_BLOCKS}
data = combined
del combined
num = len (data)
for u in [0x17CD, 0x17CE, 0x17CF, 0x17D0, 0x17D3]:
if data[u][0] == 'Other':
data[u][0] = "Vowel_Dependent"
# Move the outliers NO-BREAK SPACE and DOTTED CIRCLE out
singles = {}
for u in ALLOWED_SINGLES:
singles[u] = data[u]
del data[u]
print ("/* == Start of generated table == */")
print ("/*")
print (" * The following table is generated by running:")
print (" *")
print (" * ./gen-indic-table.py IndicSyllabicCategory.txt IndicPositionalCategory.txt Blocks.txt")
print (" *")
print (" * on files with these headers:")
print (" *")
for h in headers:
for l in h:
print (" * %s" % (l.strip()))
print (" */")
print ()
print ('#include "hb-ot-shape-complex-indic.hh"')
print ()
# Shorten values
short = [{
"Bindu": 'Bi',
"Cantillation_Mark": 'Ca',
"Joiner": 'ZWJ',
"Non_Joiner": 'ZWNJ',
"Number": 'Nd',
"Visarga": 'Vs',
"Vowel": 'Vo',
"Vowel_Dependent": 'M',
"Consonant_Prefixed": 'CPrf',
"Other": 'x',
},{
"Not_Applicable": 'x',
}]
all_shorts = [{},{}]
# Add some of the values, to make them more readable, and to avoid duplicates
for i in range (2):
for v,s in short[i].items ():
all_shorts[i][s] = v
what = ["INDIC_SYLLABIC_CATEGORY", "INDIC_MATRA_CATEGORY"]
what_short = ["ISC", "IMC"]
print ('#pragma GCC diagnostic push')
print ('#pragma GCC diagnostic ignored "-Wunused-macros"')
for i in range (2):
print ()
vv = sorted (values[i].keys ())
for v in vv:
v_no_and = v.replace ('_And_', '_')
if v in short[i]:
s = short[i][v]
else:
s = ''.join ([c for c in v_no_and if ord ('A') <= ord (c) <= ord ('Z')])
if s in all_shorts[i]:
raise Exception ("Duplicate short value alias", v, all_shorts[i][s])
all_shorts[i][s] = v
short[i][v] = s
print ("#define %s_%s %s_%s %s/* %3d chars; %s */" %
(what_short[i], s, what[i], v.upper (),
' '* ((48-1 - len (what[i]) - 1 - len (v)) // 8),
values[i][v], v))
print ('#pragma GCC diagnostic pop')
print ()
print ("#define _(S,M) INDIC_COMBINE_CATEGORIES (ISC_##S, IMC_##M)")
print ()
print ()
total = 0
used = 0
last_block = None
def print_block (block, start, end, data):
global total, used, last_block
if block and block != last_block:
print ()
print ()
print (" /* %s */" % block)
num = 0
assert start % 8 == 0
assert (end+1) % 8 == 0
for u in range (start, end+1):
if u % 8 == 0:
print ()
print (" /* %04X */" % u, end="")
if u in data:
num += 1
d = data.get (u, defaults)
print ("%9s" % ("_(%s,%s)," % (short[0][d[0]], short[1][d[1]])), end="")
total += end - start + 1
used += num
if block:
last_block = block
uu = sorted (data.keys ())
last = -100000
num = 0
offset = 0
starts = []
ends = []
print ("static const INDIC_TABLE_ELEMENT_TYPE indic_table[] = {")
for u in uu:
if u <= last:
continue
block = data[u][2]
start = u//8*8
end = start+1
while end in uu and block == data[end][2]:
end += 1
end = (end-1)//8*8 + 7
if start != last + 1:
if start - last <= 1+16*3:
print_block (None, last+1, start-1, data)
last = start-1
else:
if last >= 0:
ends.append (last + 1)
offset += ends[-1] - starts[-1]
print ()
print ()
print ("#define indic_offset_0x%04xu %d" % (start, offset))
starts.append (start)
print_block (block, start, end, data)
last = end
ends.append (last + 1)
offset += ends[-1] - starts[-1]
print ()
print ()
occupancy = used * 100. / total
page_bits = 12
print ("}; /* Table items: %d; occupancy: %d%% */" % (offset, occupancy))
print ()
print ("INDIC_TABLE_ELEMENT_TYPE")
print ("hb_indic_get_categories (hb_codepoint_t u)")
print ("{")
print (" switch (u >> %d)" % page_bits)
print (" {")
pages = set ([u>>page_bits for u in starts+ends+list (singles.keys ())])
for p in sorted(pages):
print (" case 0x%0Xu:" % p)
for u,d in singles.items ():
if p != u>>page_bits: continue
print (" if (unlikely (u == 0x%04Xu)) return _(%s,%s);" % (u, short[0][d[0]], short[1][d[1]]))
for (start,end) in zip (starts, ends):
if p not in [start>>page_bits, end>>page_bits]: continue
offset = "indic_offset_0x%04xu" % start
print (" if (hb_in_range<hb_codepoint_t> (u, 0x%04Xu, 0x%04Xu)) return indic_table[u - 0x%04Xu + %s];" % (start, end-1, start, offset))
print (" break;")
print ("")
print (" default:")
print (" break;")
print (" }")
print (" return _(x,x);")
print ("}")
print ()
print ("#undef _")
for i in range (2):
print
vv = sorted (values[i].keys ())
for v in vv:
print ("#undef %s_%s" %
(what_short[i], short[i][v]))
print ()
print ("/* == End of generated table == */")
# Maintain at least 30% occupancy in the table */
if occupancy < 30:
raise Exception ("Table too sparse, please investigate: ", occupancy)