119 lines
5.2 KiB
Python
Executable File
119 lines
5.2 KiB
Python
Executable File
#! /usr/bin/python
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# Generate utt tables. Note: this script has now been converted to Python 3.
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# The source file pcre2_tables.c contains (amongst other things), a table that
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# is indexed by script name. In order to reduce the number of relocations when
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# loading the library, the names are held as a single large string, with
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# offsets in the table. This is tedious to maintain by hand. Therefore, this
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# script is used to generate the table. The output is sent to stdout; usually
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# that should be directed to a temporary file. Then pcre2_tables.c can be
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# edited by replacing the relevant definitions and table therein with the
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# temporary file.
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# Modified by PH 17-March-2009 to generate the more verbose form that works
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# for UTF-support in EBCDIC as well as ASCII environments.
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# Modified by PH 01-March-2010 to add new scripts for Unicode 5.2.0.
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# Modified by PH 04-May-2010 to add new "X.." special categories.
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# Modified by PH 30-April-2011 to add new scripts for Unicode 6.0.0
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# Modified by ChPe 30-September-2012 to add this note; no other changes were
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# necessary for Unicode 6.2.0 support.
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# Modfied by PH 26-February-2013 to add the Xuc special category.
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# Comment modified by PH 13-May-2014 to update to PCRE2 file names.
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# Script updated to Python 3 by running it through the 2to3 converter.
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# Added script names for Unicode 7.0.0, 20-June-2014.
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script_names = ['Arabic', 'Armenian', 'Bengali', 'Bopomofo', 'Braille', 'Buginese', 'Buhid', 'Canadian_Aboriginal', \
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'Cherokee', 'Common', 'Coptic', 'Cypriot', 'Cyrillic', 'Deseret', 'Devanagari', 'Ethiopic', 'Georgian', \
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'Glagolitic', 'Gothic', 'Greek', 'Gujarati', 'Gurmukhi', 'Han', 'Hangul', 'Hanunoo', 'Hebrew', 'Hiragana', \
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'Inherited', 'Kannada', 'Katakana', 'Kharoshthi', 'Khmer', 'Lao', 'Latin', 'Limbu', 'Linear_B', 'Malayalam', \
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'Mongolian', 'Myanmar', 'New_Tai_Lue', 'Ogham', 'Old_Italic', 'Old_Persian', 'Oriya', 'Osmanya', 'Runic', \
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'Shavian', 'Sinhala', 'Syloti_Nagri', 'Syriac', 'Tagalog', 'Tagbanwa', 'Tai_Le', 'Tamil', 'Telugu', 'Thaana', \
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'Thai', 'Tibetan', 'Tifinagh', 'Ugaritic', 'Yi', \
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# New for Unicode 5.0
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'Balinese', 'Cuneiform', 'Nko', 'Phags_Pa', 'Phoenician', \
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# New for Unicode 5.1
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'Carian', 'Cham', 'Kayah_Li', 'Lepcha', 'Lycian', 'Lydian', 'Ol_Chiki', 'Rejang', 'Saurashtra', 'Sundanese', 'Vai', \
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# New for Unicode 5.2
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'Avestan', 'Bamum', 'Egyptian_Hieroglyphs', 'Imperial_Aramaic', \
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'Inscriptional_Pahlavi', 'Inscriptional_Parthian', \
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'Javanese', 'Kaithi', 'Lisu', 'Meetei_Mayek', \
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'Old_South_Arabian', 'Old_Turkic', 'Samaritan', 'Tai_Tham', 'Tai_Viet', \
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# New for Unicode 6.0.0
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'Batak', 'Brahmi', 'Mandaic', \
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# New for Unicode 6.1.0
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'Chakma', 'Meroitic_Cursive', 'Meroitic_Hieroglyphs', 'Miao', 'Sharada', 'Sora_Sompeng', 'Takri',
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# New for Unicode 7.0.0
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'Bassa_Vah', 'Caucasian_Albanian', 'Duployan', 'Elbasan', 'Grantha', 'Khojki', 'Khudawadi',
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'Linear_A', 'Mahajani', 'Manichaean', 'Mende_Kikakui', 'Modi', 'Mro', 'Nabataean',
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'Old_North_Arabian', 'Old_Permic', 'Pahawh_Hmong', 'Palmyrene', 'Psalter_Pahlavi',
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'Pau_Cin_Hau', 'Siddham', 'Tirhuta', 'Warang_Citi'
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]
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category_names = ['Cc', 'Cf', 'Cn', 'Co', 'Cs', 'Ll', 'Lm', 'Lo', 'Lt', 'Lu',
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'Mc', 'Me', 'Mn', 'Nd', 'Nl', 'No', 'Pc', 'Pd', 'Pe', 'Pf', 'Pi', 'Po', 'Ps',
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'Sc', 'Sk', 'Sm', 'So', 'Zl', 'Zp', 'Zs' ]
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general_category_names = ['C', 'L', 'M', 'N', 'P', 'S', 'Z']
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# First add the Unicode script and category names.
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utt_table = list(zip(script_names, ['PT_SC'] * len(script_names)))
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utt_table += list(zip(category_names, ['PT_PC'] * len(category_names)))
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utt_table += list(zip(general_category_names, ['PT_GC'] * len(general_category_names)))
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# Now add our own specials.
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utt_table.append(('Any', 'PT_ANY'))
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utt_table.append(('L&', 'PT_LAMP'))
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utt_table.append(('Xan', 'PT_ALNUM'))
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utt_table.append(('Xps', 'PT_PXSPACE'))
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utt_table.append(('Xsp', 'PT_SPACE'))
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utt_table.append(('Xuc', 'PT_UCNC'))
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utt_table.append(('Xwd', 'PT_WORD'))
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# Sort the table.
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utt_table.sort()
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# We have to use STR_ macros to define the strings so that it all works in
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# UTF-8 mode on EBCDIC platforms.
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for utt in utt_table:
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print('#define STRING_%s0' % (utt[0].replace('&', '_AMPERSAND')), end=' ')
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for c in utt[0]:
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if c == '_':
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print('STR_UNDERSCORE', end=' ')
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elif c == '&':
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print('STR_AMPERSAND', end=' ')
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else:
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print('STR_%s' % c, end=' ');
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print('"\\0"')
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# Print the actual table, using the string names
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print('')
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print('const char PRIV(utt_names)[] =');
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last = ''
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for utt in utt_table:
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if utt == utt_table[-1]:
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last = ';'
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print(' STRING_%s0%s' % (utt[0].replace('&', '_AMPERSAND'), last))
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# This was how it was done before the EBCDIC-compatible modification.
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# print ' "%s\\0"%s' % (utt[0], last)
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print('\nconst ucp_type_table PRIV(utt)[] = {')
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offset = 0
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last = ','
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for utt in utt_table:
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if utt[1] in ('PT_ANY', 'PT_LAMP', 'PT_ALNUM', 'PT_PXSPACE',
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'PT_SPACE', 'PT_UCNC', 'PT_WORD'):
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value = '0'
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else:
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value = 'ucp_' + utt[0]
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if utt == utt_table[-1]:
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last = ''
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print(' { %3d, %s, %s }%s' % (offset, utt[1], value, last))
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offset += len(utt[0]) + 1
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print('};')
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