178 lines
8.9 KiB
Python
178 lines
8.9 KiB
Python
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# -*- coding: utf-8 -*-
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#
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# Base class for testing unicode and utf8 functions. This holds data that's
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# useful for making tests
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import re
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from kitchen.text.converters import to_bytes
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from kitchen.text import misc
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class UnicodeTestData(object):
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u_empty_string = ''
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b_empty_string = b''
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# This should encode fine -- sanity check
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u_ascii = 'the quick brown fox jumped over the lazy dog'
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b_ascii = b'the quick brown fox jumped over the lazy dog'
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# First challenge -- what happens with latin-1 characters
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u_spanish = 'El veloz murciélago saltó sobre el perro perezoso.'
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# utf8 and latin1 both support these chars so no mangling
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utf8_spanish = u_spanish.encode('utf8')
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latin1_spanish = u_spanish.encode('latin1')
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# ASCII does not have the accented characters so it mangles
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ascii_mangled_spanish_as_ascii = u_spanish.encode('ascii', 'replace')
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# Attempting to decode using the wrong charset will mangle
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# Note: as a general principle, we do not want to have code that mangles
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# input of one charset and output of the same charset. We want to avoid
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# things like::
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# input latin-1, transform to unicode with utf-8, output latin-1.
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u_mangled_spanish_utf8_as_latin1 = str(utf8_spanish, encoding='latin1', errors='replace')
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u_mangled_spanish_utf8_as_ascii = str(utf8_spanish, encoding='ascii', errors='replace')
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u_mangled_spanish_latin1_as_ascii = str(latin1_spanish, encoding='ascii', errors='replace')
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u_mangled_spanish_latin1_as_utf8 = str(latin1_spanish, encoding='utf-8', errors='replace')
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ascii_twice_mangled_spanish_latin1_as_utf8_as_ascii = u_mangled_spanish_latin1_as_utf8.encode('ascii', 'replace')
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utf8_mangled_spanish_latin1_as_utf8 = u_mangled_spanish_latin1_as_utf8.encode('utf-8')
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u_spanish_ignore = str(latin1_spanish, encoding='utf8', errors='ignore')
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u_japanese = "速い茶色のキツネが怠惰な犬に'増"
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utf8_japanese = u_japanese.encode('utf8')
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euc_jp_japanese = u_japanese.encode('euc_jp')
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u_mangled_euc_jp_as_latin1 = str(euc_jp_japanese, 'latin1')
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u_mangled_euc_jp_as_utf8 = str(euc_jp_japanese, 'utf-8', 'replace')
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utf8_mangled_euc_jp_as_latin1 = u_mangled_euc_jp_as_latin1.encode('utf8')
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u_mangled_japanese_utf8_as_latin1 = str(utf8_japanese, 'latin1')
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u_mangled_japanese_utf8_as_ascii = "<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>'<EFBFBD><EFBFBD><EFBFBD>"
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ascii_mangled_japanese_replace_as_latin1 = b"??????????????'?"
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latin1_mangled_japanese_replace_as_latin1 = b"??????????????'?"
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u_mixed = 'く ku ら ra と to み mi'
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utf8_mixed = u_mixed.encode('utf8')
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utf8_ku = u_mixed[0].encode('utf8')
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utf8_ra = u_mixed[2].encode('utf8')
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utf8_to = u_mixed[4].encode('utf8')
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utf8_mi = u_mixed[6].encode('utf8')
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u_mixed_replace = '\ufffd ku \ufffd ra \ufffd to \ufffd mi'
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u_mixed_ignore = ' ku ra to mi'
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latin1_mixed_replace = b'? ku ? ra ? to ? mi'
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latin1_mixed_ignore = b' ku ra to mi'
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u_entity = 'Test: <"&"> – ' + u_japanese + 'é'
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utf8_entity = u_entity.encode('utf8')
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u_entity_escape = 'Test: <"&"> – ' + str(u_japanese.encode('ascii', 'xmlcharrefreplace'), 'ascii') + 'é'
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utf8_entity_escape = b'Test: <"&"> ' + ('– ' + u_japanese + 'é').encode('utf8')
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utf8_attrib_escape = b'Test: <"&"> ' + ('– ' + u_japanese + 'é').encode('utf8')
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ascii_entity_escape = (b'Test: <"&"> '.replace(b'&', b'&',1).replace(b'<', b'<').replace(b'>', b'>')) + ('– ' + u_japanese + 'é').encode('ascii', 'xmlcharrefreplace')
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ascii_attrib_escape = (b'Test: <"&"> '.replace(b'&', b'&',1).replace(b'<', b'<').replace(b'>', b'>').replace(b'"', b'"')) + ('– ' + u_japanese + 'é').encode('ascii', 'xmlcharrefreplace')
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b_byte_chars = b' '.join((bytes((b,)) for b in range(0, 256)))
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b_byte_encoded = b'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'
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repr_re = re.compile(b'^<[^ ]*\.([^.]+) object at .*>$')
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u_paragraph = '''ConfigObj is a simple but powerful config file reader and writer: an ini file
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round tripper. Its main feature is that it is very easy to use, with a
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straightforward programmer's interface and a simple syntax for config files.
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It has lots of other features though:
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* Nested sections (subsections), to any level
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* List values
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* Multiple line values
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* String interpolation (substitution)
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* Integrated with a powerful validation system
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o including automatic type checking/conversion
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o repeated sections
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o and allowing default values
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* All comments in the file are preserved
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* The order of keys/sections is preserved
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* No external dependencies
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* Full Unicode support
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* A powerful unrepr mode for storing basic datatypes
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'''
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utf8_paragraph = u_paragraph.encode('utf-8', 'replace')
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u_paragraph_out = ['ConfigObj is a simple but powerful config file reader and writer: an',
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'ini file round tripper. Its main feature is that it is very easy to',
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"use, with a straightforward programmer's interface and a simple syntax",
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'for config files. It has lots of other features though:',
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'',
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'',
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'',
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' * Nested sections (subsections), to any level',
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' * List values',
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' * Multiple line values',
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' * String interpolation (substitution)',
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' * Integrated with a powerful validation system',
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' o including automatic type checking/conversion',
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' o repeated sections',
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' o and allowing default values',
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' * All comments in the file are preserved',
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' * The order of keys/sections is preserved',
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' * No external dependencies',
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' * Full Unicode support',
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' * A powerful unrepr mode for storing basic datatypes']
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utf8_paragraph_out = [line.encode('utf-8', 'replace') for line in u_paragraph_out]
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u_mixed_para = 'くらとみ kuratomi ' * 5
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utf8_mixed_para = u_mixed_para.encode('utf8')
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u_mixed_para_out = ['くらとみ kuratomi くらとみ kuratomi くらとみ kuratomi くらとみ',
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'kuratomi くらとみ kuratomi']
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u_mixed_para_57_initial_subsequent_out = [' くらとみ kuratomi くらとみ kuratomi くらとみ kuratomi',
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'----くらとみ kuratomi くらとみ kuratomi']
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utf8_mixed_para_out = list(map(to_bytes, u_mixed_para_out))
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utf8_mixed_para_57_initial_subsequent_out = list(map(to_bytes, u_mixed_para_57_initial_subsequent_out))
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u_ascii_chars = ' '.join(map(chr, list(range(0, 256))))
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u_ascii_no_ctrl = ''.join([c for c in u_ascii_chars if ord(c) not in misc._CONTROL_CODES])
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u_ascii_ctrl_replace = u_ascii_chars.translate(dict([(c, '?') for c in misc._CONTROL_CODES]))
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utf8_ascii_chars = u_ascii_chars.encode('utf8')
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# These are present in the test catalog as msgids or values
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u_lemon = '1 lemon'
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utf8_lemon = u_lemon.encode('utf-8')
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latin1_lemon = u_lemon.encode('latin-1')
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u_lemons = '4 lemons'
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utf8_lemons = u_lemons.encode('utf-8')
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latin1_lemons = u_lemons.encode('latin-1')
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u_limao = '一 limão'
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utf8_limao = u_limao.encode('utf-8')
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latin1_limao = u_limao.encode('latin-1', 'replace')
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u_limoes = '四 limões'
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utf8_limoes = u_limoes.encode('utf-8')
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latin1_limoes = u_limoes.encode('latin-1', 'replace')
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u_not_in_catalog = 'café not matched in catalogs'
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utf8_not_in_catalog = u_not_in_catalog.encode('utf-8')
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latin1_not_in_catalog = u_not_in_catalog.encode('latin-1')
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u_kitchen = 'kitchen sink'
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utf8_kitchen = u_kitchen.encode('utf-8')
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latin1_kitchen = u_kitchen.encode('latin-1')
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u_pt_kitchen = 'pia da cozinha'
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utf8_pt_kitchen = u_pt_kitchen.encode('utf-8')
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latin1_pt_kitchen = u_pt_kitchen.encode('latin-1')
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u_kuratomi = 'Kuratomi'
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utf8_kuratomi = u_kuratomi.encode('utf-8')
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latin1_kuratomi = u_kuratomi.encode('latin-1')
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u_ja_kuratomi = 'くらとみ'
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utf8_ja_kuratomi = u_ja_kuratomi.encode('utf-8')
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latin1_ja_kuratomi = u_ja_kuratomi.encode('latin-1', 'replace')
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u_in_fallback = 'Only café in fallback'
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utf8_in_fallback = u_in_fallback.encode('utf-8')
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latin1_in_fallback = u_in_fallback.encode('latin-1')
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u_yes_in_fallback = 'Yes, only café in fallback'
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utf8_yes_in_fallback = u_yes_in_fallback.encode('utf-8')
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latin1_yes_in_fallback = u_yes_in_fallback.encode('latin-1')
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