1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
| # -*- coding: utf-8 -*-
|
| # Sinhala number to words
|
| from __future__ import division, print_function, unicode_literals
|
| from . import lang_EU
|
|
| class Num2Word_SI(lang_EU.Num2Word_EU):
| # GIGA_SUFFIX = "iljarder"
| # MEGA_SUFFIX = "iljoner"
|
| # def set_high_numwords(self, high):
| # cap = 3 + 6 * len(high)
|
| # for word, n in zip(high, range(cap, 3, -6)):
| # if self.GIGA_SUFFIX:
| # self.cards[10 ** n] = word + self.GIGA_SUFFIX
|
| # if self.MEGA_SUFFIX:
| # self.cards[10 ** (n - 3)] = word + self.MEGA_SUFFIX
| def set_high_numwords(self, high):
| max = 3 * len(high)
| for word, n in zip(high, range(max, 0, -3)):
| # print(word[0],word[1],n)
| self.cards[10 ** n] = word[1]
|
| def setup(self):
| super(Num2Word_SI, self).setup()
|
| self.negword = "අඩු "
| self.pointword = "ලක්ෂ්යය"
| self.exclude_title = ["හා", "ලක්ෂ්යය", "අඩු"]
|
| self.high_numwords = [(10000000000, 'බිලියන දහයකි'),
| (1000000000, 'බිලියනයක්'),
| (100000000, 'මිලියන සියයක්'),
| (10000000,'දස මිලියන'),
| (1000000, 'මිලියනයක්'),
| (100000, 'එක් ලක්ෂයක්'),
| (1000, 'දහසක්') ]
| self.mid_numwords = [(1000, "දහසක්"), (100, "සියය"),
| (90, "අනූවක්"), (80, "අසූව"), (70, "හැත්තෑ"),
| (60, "හැට"), (50, "පනස්"), (40, "හතළිහක්"),
| (30, "තිස්")]
|
| self.low_numwords = ['විස්සක්','දහනවය','දහඅට','දාහත','දහසය','පහළොව','දහහතර','දහතුන','දොළොස්','එකොළොස්','දස','නවය','අට','හත','හය','පහ','හතර','තුන්','දෙක','එක','ශුන්ය']
|
| self.ords = {'එක': 'පළමුවන',
| 'දෙක': 'දෙවැනි',
| 'තුන්': 'තෙවන',
| 'හතර': 'හතරවන',
| 'පහ': 'පස්වන',
| 'හය': 'හය වන',
| 'හත': 'හත්වන',
| 'අට': 'අටවැනි',
| 'නවය': 'නවවැනි',
| 'දස': 'දහවන'}
|
|
| def merge(self, lpair, rpair):
| ltext, lnum = lpair
| rtext, rnum = rpair
| if lnum == 1 and rnum < 100:
| return (rtext, rnum)
| elif 100 > lnum > rnum:
| return ("%s %s" % (ltext, rtext), lnum + rnum)
| elif lnum >= 100 > rnum:
| return ("%s %s" % (ltext, rtext), lnum + rnum)
| elif rnum > lnum:
| return ("%s %s" % (ltext, rtext), lnum * rnum)
| return ("%s %s" % (ltext, rtext), lnum + rnum)
|
| def to_ordinal_num(self, value):
| self.verify_ordinal(value)
| return "%s %s" % (value, self.to_ordinal(value))
|
| def to_ordinal(self, value):
| self.verify_ordinal(value)
| try:
| ordinal_word = self.ords[value]
| except KeyError:
| ordinal_word = value #TODO: check nepali ordinal word suffix
| return ordinal_word
|
|
| def to_year(self, val, suffix=None, longval=True):
| if val < 0:
| val = abs(val)
| suffix = 'සියවසට පෙර ' if not suffix else suffix
| high, low = (val // 100, val % 100)
| # If year is 00XX, X00X, or beyond 9999, go cardinal.
| if (high == 0
| or (high % 10 == 0 and low < 10)
| or high >= 100):
| valtext = self.to_cardinal(val)
| else:
| hightext = self.to_cardinal(high)
| if low == 0:
| lowtext = "සියයක්" #hundred
| elif low < 10:
| lowtext = "%s" % self.to_cardinal(low)
| else:
| lowtext = self.to_cardinal(low)
| valtext = "%s %s" % (hightext, lowtext)
| return (valtext if not suffix
| else "%s %s" % (valtext, suffix))
|
|
