import sys
if len (sys.argv) != 5:
print >>sys.stderr, "usage: ./gen-use-table.py IndicSyllabicCategory.txt IndicPositionalCategory.txt UnicodeData.txt Blocks.txt"
sys.exit (1)
BLACKLISTED_BLOCKS = ["Thai", "Lao", "Tibetan"]
files = [file (x) for x in sys.argv[1:]]
headers = [[f.readline () for i in range (2)] for j,f in enumerate(files) if j != 2]
headers.append (["UnicodeData.txt does not have a header."])
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 if i != 2 else 2]
for u in range (start, end + 1):
data[i][u] = t
values[i][t] = values[i].get (t, 0) + end - start + 1
defaults = ('Other', 'Not_Applicable', 'Cn', 'No_Block')
data[0][0x034F] = defaults[0]
data[0][0x2060] = defaults[0]
for u in range (0xFE00, 0xFE0F + 1):
data[0][u] = defaults[0]
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 v[3] not in BLACKLISTED_BLOCKS}
data = combined
del combined
num = len (data)
property_names = [
'Cc', 'Cf', 'Cn', 'Co', 'Cs', 'Ll', 'Lm', 'Lo', 'Lt', 'Lu', 'Mc',
'Me', 'Mn', 'Nd', 'Nl', 'No', 'Pc', 'Pd', 'Pe', 'Pf', 'Pi', 'Po',
'Ps', 'Sc', 'Sk', 'Sm', 'So', 'Zl', 'Zp', 'Zs',
'Other',
'Bindu',
'Visarga',
'Avagraha',
'Nukta',
'Virama',
'Pure_Killer',
'Invisible_Stacker',
'Vowel_Independent',
'Vowel_Dependent',
'Vowel',
'Consonant_Placeholder',
'Consonant',
'Consonant_Dead',
'Consonant_With_Stacker',
'Consonant_Prefixed',
'Consonant_Preceding_Repha',
'Consonant_Succeeding_Repha',
'Consonant_Subjoined',
'Consonant_Medial',
'Consonant_Final',
'Consonant_Head_Letter',
'Modifying_Letter',
'Tone_Letter',
'Tone_Mark',
'Gemination_Mark',
'Cantillation_Mark',
'Register_Shifter',
'Syllable_Modifier',
'Consonant_Killer',
'Non_Joiner',
'Joiner',
'Number_Joiner',
'Number',
'Brahmi_Joining_Number',
'Not_Applicable',
'Right',
'Left',
'Visual_Order_Left',
'Left_And_Right',
'Top',
'Bottom',
'Top_And_Bottom',
'Top_And_Right',
'Top_And_Left',
'Top_And_Left_And_Right',
'Bottom_And_Right',
'Top_And_Bottom_And_Right',
'Overstruck',
]
class PropertyValue(object):
def __init__(self, name_):
self.name = name_
def __str__(self):
return self.name
def __eq__(self, other):
return self.name == (other if isinstance(other, basestring) else other.name)
def __ne__(self, other):
return not (self == other)
property_values = {}
for name in property_names:
value = PropertyValue(name)
assert value not in property_values
assert value not in globals()
property_values[name] = value
globals().update(property_values)
def is_BASE(U, UISC, UGC):
return (UISC in [Number, Consonant, Consonant_Head_Letter,
Tone_Letter,
Vowel_Independent ] or
(UGC == Lo and UISC in [Avagraha, Bindu, Consonant_Final, Consonant_Medial,
Consonant_Subjoined, Vowel, Vowel_Dependent]))
def is_BASE_IND(U, UISC, UGC):
return (UISC in [Consonant_Dead, Modifying_Letter] or
(UGC == Po and not U in [0x104E, 0x2022]) or
False )
def is_BASE_NUM(U, UISC, UGC):
return UISC == Brahmi_Joining_Number
def is_BASE_OTHER(U, UISC, UGC):
if UISC == Consonant_Placeholder: return True return U in [0x2015, 0x2022, 0x25FB, 0x25FC, 0x25FD, 0x25FE]
def is_CGJ(U, UISC, UGC):
return U == 0x034F
def is_CONS_FINAL(U, UISC, UGC):
return ((UISC == Consonant_Final and UGC != Lo) or
UISC == Consonant_Succeeding_Repha)
def is_CONS_FINAL_MOD(U, UISC, UGC):
return UISC == Syllable_Modifier
def is_CONS_MED(U, UISC, UGC):
return UISC == Consonant_Medial and UGC != Lo
def is_CONS_MOD(U, UISC, UGC):
return UISC in [Nukta, Gemination_Mark, Consonant_Killer]
def is_CONS_SUB(U, UISC, UGC):
return UISC == Consonant_Subjoined and UGC != Lo
def is_HALANT(U, UISC, UGC):
return UISC in [Virama, Invisible_Stacker]
def is_HALANT_NUM(U, UISC, UGC):
return UISC == Number_Joiner
def is_ZWNJ(U, UISC, UGC):
return UISC == Non_Joiner
def is_ZWJ(U, UISC, UGC):
return UISC == Joiner
def is_Word_Joiner(U, UISC, UGC):
return U == 0x2060
def is_OTHER(U, UISC, UGC):
return (UISC == Other
and not is_SYM_MOD(U, UISC, UGC)
and not is_CGJ(U, UISC, UGC)
and not is_Word_Joiner(U, UISC, UGC)
and not is_VARIATION_SELECTOR(U, UISC, UGC)
)
def is_Reserved(U, UISC, UGC):
return UGC == 'Cn'
def is_REPHA(U, UISC, UGC):
return UISC in [Consonant_Preceding_Repha, Consonant_With_Stacker, Consonant_Prefixed]
def is_SYM(U, UISC, UGC):
if U == 0x25CC: return False return UGC in [So, Sc]
def is_SYM_MOD(U, UISC, UGC):
return U in [0x1B6B, 0x1B6C, 0x1B6D, 0x1B6E, 0x1B6F, 0x1B70, 0x1B71, 0x1B72, 0x1B73]
def is_VARIATION_SELECTOR(U, UISC, UGC):
return 0xFE00 <= U <= 0xFE0F
def is_VOWEL(U, UISC, UGC):
return (UISC == Pure_Killer or
(UGC != Lo and UISC in [Vowel, Vowel_Dependent] and U not in [0xAA29]))
def is_VOWEL_MOD(U, UISC, UGC):
return (UISC in [Tone_Mark, Cantillation_Mark, Register_Shifter, Visarga] or
(UGC != Lo and (UISC == Bindu or U in [0xAA29])))
use_mapping = {
'B': is_BASE,
'IND': is_BASE_IND,
'N': is_BASE_NUM,
'GB': is_BASE_OTHER,
'CGJ': is_CGJ,
'F': is_CONS_FINAL,
'FM': is_CONS_FINAL_MOD,
'M': is_CONS_MED,
'CM': is_CONS_MOD,
'SUB': is_CONS_SUB,
'H': is_HALANT,
'HN': is_HALANT_NUM,
'ZWNJ': is_ZWNJ,
'ZWJ': is_ZWJ,
'WJ': is_Word_Joiner,
'O': is_OTHER,
'Rsv': is_Reserved,
'R': is_REPHA,
'S': is_SYM,
'SM': is_SYM_MOD,
'VS': is_VARIATION_SELECTOR,
'V': is_VOWEL,
'VM': is_VOWEL_MOD,
}
use_positions = {
'F': {
'Abv': [Top],
'Blw': [Bottom],
'Pst': [Right],
},
'M': {
'Abv': [Top],
'Blw': [Bottom],
'Pst': [Right],
'Pre': [Left],
},
'CM': {
'Abv': [Top],
'Blw': [Bottom],
},
'V': {
'Abv': [Top, Top_And_Bottom, Top_And_Bottom_And_Right, Top_And_Right],
'Blw': [Bottom, Overstruck, Bottom_And_Right],
'Pst': [Right],
'Pre': [Left, Top_And_Left, Top_And_Left_And_Right, Left_And_Right],
},
'VM': {
'Abv': [Top],
'Blw': [Bottom, Overstruck],
'Pst': [Right],
'Pre': [Left],
},
'SM': {
'Abv': [Top],
'Blw': [Bottom],
},
'H': None,
'B': None,
'FM': None,
'SUB': None,
}
def map_to_use(data):
out = {}
items = use_mapping.items()
for U,(UISC,UIPC,UGC,UBlock) in data.items():
if U == 0x17DD: UISC = Vowel_Dependent
if 0x1CE2 <= U <= 0x1CE8: UISC = Cantillation_Mark
if U == 0x1CED: UISC = Tone_Mark
evals = [(k, v(U,UISC,UGC)) for k,v in items]
values = [k for k,v in evals if v]
assert len(values) == 1, "%s %s %s %s" % (hex(U), UISC, UGC, values)
USE = values[0]
if U == 0x1B6C: UIPC = Bottom
if U in [0x953, 0x954]: UIPC = Not_Applicable
if U == 0x103C: UIPC = Left
if 0xA926 <= U <= 0xA92A: UIPC = Top
if U == 0x111CA: UIPC = Bottom
if U == 0x11300: UIPC = Top
if U == 0x1133C: UIPC = Bottom
if U == 0x1171E: UIPC = Left if 0x1CF2 <= U <= 0x1CF3: UIPC = Right
if 0x1CF8 <= U <= 0x1CF9: UIPC = Top
assert (UIPC in [Not_Applicable, Visual_Order_Left] or
USE in use_positions), "%s %s %s %s %s" % (hex(U), UIPC, USE, UISC, UGC)
pos_mapping = use_positions.get(USE, None)
if pos_mapping:
values = [k for k,v in pos_mapping.items() if v and UIPC in v]
assert len(values) == 1, "%s %s %s %s %s %s" % (hex(U), UIPC, USE, UISC, UGC, values)
USE = USE + values[0]
out[U] = (USE, UBlock)
return out
defaults = ('O', 'No_Block')
data = map_to_use(data)
singles = {}
for u in [0x034F, 0x25CC, 0x1107F]:
singles[u] = data[u]
del data[u]
print "/* == Start of generated table == */"
print "/*"
print " * The following table is generated by running:"
print " *"
print " * ./gen-use-table.py IndicSyllabicCategory.txt IndicPositionalCategory.txt UnicodeData.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-use-private.hh"'
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
if start % 16:
print ' ' * (20 + (start % 16 * 6)),
num = 0
assert start % 8 == 0
assert (end+1) % 8 == 0
for u in range (start, end+1):
if u % 16 == 0:
print
print " /* %04X */" % u,
if u in data:
num += 1
d = data.get (u, defaults)
sys.stdout.write ("%6s," % d[0])
total += end - start + 1
used += num
if block:
last_block = block
uu = data.keys ()
uu.sort ()
last = -100000
num = 0
offset = 0
starts = []
ends = []
for k,v in sorted(use_mapping.items()):
if k in use_positions and use_positions[k]: continue
print "#define %s USE_%s /* %s */" % (k, k, v.__name__[3:])
for k,v in sorted(use_positions.items()):
if not v: continue
for suf in v.keys():
tag = k + suf
print "#define %s USE_%s" % (tag, tag)
print ""
print "static const USE_TABLE_ELEMENT_TYPE use_table[] = {"
for u in uu:
if u <= last:
continue
block = data[u][1]
start = u//8*8
end = start+1
while end in uu and block == data[end][1]:
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 use_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 "USE_TABLE_ELEMENT_TYPE"
print "hb_use_get_categories (hb_codepoint_t u)"
print "{"
print " switch (u >> %d)" % page_bits
print " {"
pages = set([u>>page_bits for u in starts+ends+singles.keys()])
for p in sorted(pages):
print " case 0x%0Xu:" % p
for (start,end) in zip (starts, ends):
if p not in [start>>page_bits, end>>page_bits]: continue
offset = "use_offset_0x%04xu" % start
print " if (hb_in_range<hb_codepoint_t> (u, 0x%04Xu, 0x%04Xu)) return use_table[u - 0x%04Xu + %s];" % (start, end-1, start, offset)
for u,d in singles.items ():
if p != u>>page_bits: continue
print " if (unlikely (u == 0x%04Xu)) return %s;" % (u, d[0])
print " break;"
print ""
print " default:"
print " break;"
print " }"
print " return USE_O;"
print "}"
print
for k in sorted(use_mapping.keys()):
if k in use_positions and use_positions[k]: continue
print "#undef %s" % k
for k,v in sorted(use_positions.items()):
if not v: continue
for suf in v.keys():
tag = k + suf
print "#undef %s" % tag
print
print "/* == End of generated table == */"
if occupancy < 50:
raise Exception ("Table too sparse, please investigate: ", occupancy)