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ruby--ruby/test/ruby/test_econv.rb

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require 'test/unit'
class TestEncodingConverter < Test::Unit::TestCase
def check_ec(edst, esrc, eres, dst, src, ec, off, len, opts=nil)
res = ec.primitive_convert(src, dst, off, len, opts)
assert_equal([edst.dup.force_encoding("ASCII-8BIT"),
esrc.dup.force_encoding("ASCII-8BIT"),
eres],
[dst.dup.force_encoding("ASCII-8BIT"),
src.dup.force_encoding("ASCII-8BIT"),
res])
end
def assert_econv(converted, eres, obuf_bytesize, ec, consumed, rest, opts=nil)
ec = Encoding::Converter.new(*ec) if Array === ec
i = consumed + rest
o = ""
ret = ec.primitive_convert(i, o, 0, obuf_bytesize, opts)
assert_equal([converted, eres, rest],
[o, ret, i])
end
def assert_errinfo(e_res, e_enc1, e_enc2, e_error_bytes, e_readagain_bytes, ec)
assert_equal([e_res, e_enc1, e_enc2,
e_error_bytes && e_error_bytes.dup.force_encoding("ASCII-8BIT"),
e_readagain_bytes && e_readagain_bytes.dup.force_encoding("ASCII-8BIT")],
ec.primitive_errinfo)
end
def test_s_asciicompat_encoding
assert_equal(Encoding::STATELESS_ISO_2022_JP, Encoding::Converter.asciicompat_encoding("ISO-2022-JP"))
assert_equal(Encoding::STATELESS_ISO_2022_JP, Encoding::Converter.asciicompat_encoding(Encoding::ISO_2022_JP))
assert_equal(Encoding::UTF_8, Encoding::Converter.asciicompat_encoding("UTF-16BE"))
assert_equal(Encoding::UTF_8, Encoding::Converter.asciicompat_encoding("UTF-16LE"))
assert_equal(Encoding::UTF_8, Encoding::Converter.asciicompat_encoding("UTF-32BE"))
assert_equal(Encoding::UTF_8, Encoding::Converter.asciicompat_encoding("UTF-32LE"))
assert_nil(Encoding::Converter.asciicompat_encoding("EUC-JP"))
assert_nil(Encoding::Converter.asciicompat_encoding("UTF-8"))
assert_nil(Encoding::Converter.asciicompat_encoding(Encoding::UTF_8))
assert_nil(Encoding::Converter.asciicompat_encoding("xml_attr_escape"))
assert_nil(Encoding::Converter.asciicompat_encoding("encoding-not-exist"))
end
def test_asciicompat_encoding_iso2022jp
acenc = Encoding::Converter.asciicompat_encoding("ISO-2022-JP")
str = "\e$B~~\(B".force_encoding("iso-2022-jp")
str2 = str.encode(acenc)
str3 = str.encode("ISO-2022-JP")
assert_equal(str, str3)
end
def test_s_new
assert_kind_of(Encoding::Converter, Encoding::Converter.new("UTF-8", "EUC-JP"))
assert_kind_of(Encoding::Converter, Encoding::Converter.new(Encoding::UTF_8, Encoding::EUC_JP))
end
def test_s_new_convpath
assert_equal([], Encoding::Converter.new([]).convpath)
assert_equal([[Encoding::UTF_8, Encoding::EUC_JP]],
Encoding::Converter.new([["UTF-8", "EUC-JP"]]).convpath)
assert_equal([[Encoding::UTF_8, Encoding::WINDOWS_31J]],
Encoding::Converter.new([["utf-8", "cp932"]]).convpath)
assert_equal([[Encoding::UTF_8, Encoding::EUC_JP]],
Encoding::Converter.new([[Encoding::UTF_8, Encoding::EUC_JP]]).convpath)
assert_equal([[Encoding::ISO_8859_1, Encoding::UTF_8],
[Encoding::UTF_8, Encoding::EUC_JP]],
Encoding::Converter.new([["iso-8859-1", "euc-jp"]]).convpath)
assert_equal([[Encoding::ISO_8859_1, Encoding::UTF_8],
[Encoding::UTF_8, Encoding::EUC_JP],
"universal_newline"],
Encoding::Converter.new([["iso-8859-1", "euc-jp"], "universal_newline"]).convpath)
assert_equal(["universal_newline",
[Encoding::ISO_8859_1, Encoding::UTF_8],
[Encoding::UTF_8, Encoding::EUC_JP],
"universal_newline"],
Encoding::Converter.new(["universal_newline", ["iso-8859-1", "euc-jp"], "universal_newline"]).convpath)
end
def test_s_new_fail
name1 = "encoding-which-is-not-exist-1"
name2 = "encoding-which-is-not-exist-2"
assert_raise(Encoding::ConverterNotFoundError) {
Encoding::Converter.new(name1, name2)
}
encoding_list = Encoding.list.map {|e| e.name }
assert(!encoding_list.include?(name1))
assert(!encoding_list.include?(name2))
end
def test_newline_converter_with_ascii_incompatible
assert_nothing_raised {
Encoding::Converter.new("UTF-8", "UTF-16BE", Encoding::Converter::UNIVERSAL_NEWLINE_DECORATOR)
}
assert_nothing_raised {
Encoding::Converter.new("UTF-16BE", "UTF-8", Encoding::Converter::CRLF_NEWLINE_DECORATOR)
}
assert_nothing_raised {
Encoding::Converter.new("UTF-16BE", "UTF-8", Encoding::Converter::CR_NEWLINE_DECORATOR)
}
assert_nothing_raised {
Encoding::Converter.new("UTF-16BE", "UTF-8", Encoding::Converter::UNIVERSAL_NEWLINE_DECORATOR)
}
assert_nothing_raised {
Encoding::Converter.new("UTF-8", "UTF-16BE", Encoding::Converter::CRLF_NEWLINE_DECORATOR)
}
assert_nothing_raised {
Encoding::Converter.new("UTF-8", "UTF-16BE", Encoding::Converter::CR_NEWLINE_DECORATOR)
}
end
def test_get_encoding
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
assert_equal(Encoding::UTF_8, ec.source_encoding)
assert_equal(Encoding::EUC_JP, ec.destination_encoding)
end
def test_result_encoding
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
dst = "".force_encoding("ASCII-8BIT")
assert_equal(Encoding::ASCII_8BIT, dst.encoding)
ec.primitive_convert("\u{3042}", dst, nil, 10)
assert_equal(Encoding::EUC_JP, dst.encoding)
end
def test_output_region
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
ec.primitive_convert(src="a", dst="b", nil, 1, :partial_input=>true)
assert_equal("ba", dst)
ec.primitive_convert(src="a", dst="b", 0, 1, :partial_input=>true)
assert_equal("a", dst)
ec.primitive_convert(src="a", dst="b", 1, 1, :partial_input=>true)
assert_equal("ba", dst)
assert_raise(ArgumentError) {
ec.primitive_convert(src="a", dst="b", 2, 1, :partial_input=>true)
}
assert_raise(ArgumentError) {
ec.primitive_convert(src="a", dst="b", -1, 1, :partial_input=>true)
}
assert_raise(ArgumentError) {
ec.primitive_convert(src="a", dst="b", 1, -1, :partial_input=>true)
}
end
def test_nil_source_buffer
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
ret = ec.primitive_convert(nil, dst="", nil, 10)
assert_equal(:finished, ret)
end
def test_nil_destination_bytesize
ec = Encoding::Converter.new("Shift_JIS", "UTF-8")
n = 10000
src = "\xa1".force_encoding("Shift_JIS") * n
ret = ec.primitive_convert(src, dst="", nil, nil)
assert_equal(:finished, ret)
assert_equal("\xEF\xBD\xA1".force_encoding("UTF-8") * n, dst)
end
def test_nil_destination_bytesize2
ec = Encoding::Converter.new("Shift_JIS", "UTF-8")
n = 10000
src = "\xa1".force_encoding("Shift_JIS") * n
ret = ec.primitive_convert(src, dst="")
assert_equal(:finished, ret)
assert_equal("\xEF\xBD\xA1".force_encoding("UTF-8") * n, dst)
end
def test_nil_destination_bytesize_with_nonnil_byteoffset
ec = Encoding::Converter.new("Shift_JIS", "UTF-8")
n = 2000
src = "\xa1".force_encoding("Shift_JIS") * n
dst = "abcd" * 2000
ret = ec.primitive_convert(src, dst, 3, nil)
assert_equal(:finished, ret)
assert_equal("abc" + "\xEF\xBD\xA1".force_encoding("UTF-8") * n, dst)
end
def test_partial_input
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
ret = ec.primitive_convert(src="", dst="", nil, 10, :partial_input=>true)
assert_equal(:source_buffer_empty, ret)
ret = ec.primitive_convert(src="", dst="", nil, 10)
assert_equal(:finished, ret)
end
def test_accumulate_dst1
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
a = ["", "abc\u{3042}def", ec, nil, 1]
check_ec("a", "c\u{3042}def", :destination_buffer_full, *a)
check_ec("ab", "\u{3042}def", :destination_buffer_full, *a)
check_ec("abc", "def", :destination_buffer_full, *a)
check_ec("abc\xA4", "def", :destination_buffer_full, *a)
check_ec("abc\xA4\xA2", "ef", :destination_buffer_full, *a)
check_ec("abc\xA4\xA2d", "f", :destination_buffer_full, *a)
check_ec("abc\xA4\xA2de", "", :destination_buffer_full, *a)
check_ec("abc\xA4\xA2def", "", :finished, *a)
end
def test_accumulate_dst2
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
a = ["", "abc\u{3042}def", ec, nil, 2]
check_ec("ab", "\u{3042}def", :destination_buffer_full, *a)
check_ec("abc\xA4", "def", :destination_buffer_full, *a)
check_ec("abc\xA4\xA2d", "f", :destination_buffer_full, *a)
check_ec("abc\xA4\xA2def", "", :finished, *a)
end
def test_eucjp_to_utf8
assert_econv("", :finished, 100, ["UTF-8", "EUC-JP"], "", "")
assert_econv("a", :finished, 100, ["UTF-8", "EUC-JP"], "a", "")
end
def test_iso2022jp
assert_econv("", :finished, 100, ["Shift_JIS", "ISO-2022-JP"], "", "")
end
def test_iso2022jp_encode
ec = Encoding::Converter.new("EUC-JP", "ISO-2022-JP")
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "a"; check_ec("a", "", :source_buffer_empty, *a)
src << "\xA2"; check_ec("a", "", :source_buffer_empty, *a)
src << "\xA4"; check_ec("a\e$B\"$", "", :source_buffer_empty, *a)
src << "\xA1"; check_ec("a\e$B\"$", "", :source_buffer_empty, *a)
src << "\xA2"; check_ec("a\e$B\"$!\"", "", :source_buffer_empty, *a)
src << "b"; check_ec("a\e$B\"$!\"\e(Bb", "", :source_buffer_empty, *a)
src << "\xA2\xA6"; check_ec("a\e$B\"$!\"\e(Bb\e$B\"&", "", :source_buffer_empty, *a)
a[-1] = 0; check_ec("a\e$B\"$!\"\e(Bb\e$B\"&\e(B", "", :finished, *a)
end
def test_iso2022jp_decode
ec = Encoding::Converter.new("ISO-2022-JP", "EUC-JP")
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "a"; check_ec("a", "", :source_buffer_empty, *a)
src << "\e"; check_ec("a", "", :source_buffer_empty, *a)
src << "$"; check_ec("a", "", :source_buffer_empty, *a)
src << "B"; check_ec("a", "", :source_buffer_empty, *a)
src << "\x21"; check_ec("a", "", :source_buffer_empty, *a)
src << "\x22"; check_ec("a\xA1\xA2", "", :source_buffer_empty, *a)
src << "\n"; check_ec("a\xA1\xA2", "", :invalid_byte_sequence, *a)
src << "\x23"; check_ec("a\xA1\xA2", "", :source_buffer_empty, *a)
src << "\x24"; check_ec("a\xA1\xA2\xA3\xA4", "", :source_buffer_empty, *a)
src << "\e"; check_ec("a\xA1\xA2\xA3\xA4", "", :source_buffer_empty, *a)
src << "("; check_ec("a\xA1\xA2\xA3\xA4", "", :source_buffer_empty, *a)
src << "B"; check_ec("a\xA1\xA2\xA3\xA4", "", :source_buffer_empty, *a)
src << "c"; check_ec("a\xA1\xA2\xA3\xA4c", "", :source_buffer_empty, *a)
src << "\n"; check_ec("a\xA1\xA2\xA3\xA4c\n","", :source_buffer_empty, *a)
end
def test_invalid
assert_econv("", :invalid_byte_sequence, 100, ["UTF-8", "EUC-JP"], "\x80", "")
assert_econv("a", :invalid_byte_sequence, 100, ["UTF-8", "EUC-JP"], "a\x80", "")
assert_econv("a", :invalid_byte_sequence, 100, ["UTF-8", "EUC-JP"], "a\x80", "\x80")
assert_econv("abc", :invalid_byte_sequence, 100, ["UTF-8", "EUC-JP"], "abc\xFF", "def")
assert_econv("abc", :invalid_byte_sequence, 100, ["Shift_JIS", "EUC-JP"], "abc\xFF", "def")
assert_econv("abc", :invalid_byte_sequence, 100, ["ISO-2022-JP", "EUC-JP"], "abc\xFF", "def")
end
def test_invalid2
ec = Encoding::Converter.new("Shift_JIS", "EUC-JP")
a = ["", "abc\xFFdef", ec, nil, 1]
check_ec("a", "c\xFFdef", :destination_buffer_full, *a)
check_ec("ab", "\xFFdef", :destination_buffer_full, *a)
check_ec("abc", "def", :invalid_byte_sequence, *a)
check_ec("abcd", "f", :destination_buffer_full, *a)
check_ec("abcde", "", :destination_buffer_full, *a)
check_ec("abcdef", "", :finished, *a)
end
def test_invalid3
ec = Encoding::Converter.new("Shift_JIS", "EUC-JP")
a = ["", "abc\xFFdef", ec, nil, 10]
check_ec("abc", "def", :invalid_byte_sequence, *a)
check_ec("abcdef", "", :finished, *a)
end
def test_invalid4
ec = Encoding::Converter.new("Shift_JIS", "EUC-JP")
a = ["", "abc\xFFdef", ec, nil, 10, :after_output=>true]
check_ec("a", "bc\xFFdef", :after_output, *a)
check_ec("ab", "c\xFFdef", :after_output, *a)
check_ec("abc", "\xFFdef", :after_output, *a)
check_ec("abc", "def", :invalid_byte_sequence, *a)
check_ec("abcd", "ef", :after_output, *a)
check_ec("abcde", "f", :after_output, *a)
check_ec("abcdef", "", :after_output, *a)
check_ec("abcdef", "", :finished, *a)
end
def test_invalid_utf16le
ec = Encoding::Converter.new("UTF-16LE", "UTF-8")
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "A"; check_ec("", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\xd8"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x01"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x02"; check_ec("A", "", :invalid_byte_sequence, *a)
src << "\x03"; check_ec("A\u{0201}", "", :source_buffer_empty, *a)
src << "\x04"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\xd8"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\xd8"; check_ec("A\u{0201}\u{0403}", "", :invalid_byte_sequence, *a)
src << "\x00"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\xdc"; check_ec("A\u{0201}\u{0403}\u{10000}", "", :source_buffer_empty, *a)
end
def test_invalid_utf16be
ec = Encoding::Converter.new("UTF-16BE", "UTF-8")
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "\x00"; check_ec("", "", :source_buffer_empty, *a)
src << "A"; check_ec("A", "", :source_buffer_empty, *a)
src << "\xd8"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x02"; check_ec("A", "", :invalid_byte_sequence, *a)
src << "\x01"; check_ec("A\u{0201}", "", :source_buffer_empty, *a)
src << "\x04"; check_ec("A\u{0201}", "", :source_buffer_empty, *a)
src << "\x03"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\xd8"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\xd8"; check_ec("A\u{0201}\u{0403}", "", :invalid_byte_sequence, *a)
src << "\x00"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\xdc"; check_ec("A\u{0201}\u{0403}", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A\u{0201}\u{0403}\u{10000}", "", :source_buffer_empty, *a)
end
def test_invalid_utf32be
ec = Encoding::Converter.new("UTF-32BE", "UTF-8")
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "\x00"; check_ec("", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("", "", :source_buffer_empty, *a)
src << "A"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\xdc"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :invalid_byte_sequence, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "B"; check_ec("AB", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("AB", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("AB", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("AB", "", :source_buffer_empty, *a)
src << "C"; check_ec("ABC", "", :source_buffer_empty, *a)
end
def test_invalid_utf32le
ec = Encoding::Converter.new("UTF-32LE", "UTF-8")
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "A"; check_ec("", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\xdc"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :invalid_byte_sequence, *a)
src << "B"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("A", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("AB", "", :source_buffer_empty, *a)
src << "C"; check_ec("AB", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("AB", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("AB", "", :source_buffer_empty, *a)
src << "\x00"; check_ec("ABC", "", :source_buffer_empty, *a)
end
def test_errors
ec = Encoding::Converter.new("UTF-16BE", "EUC-JP")
a = ["", "\xFF\xFE\x00A\xDC\x00\x00B", ec, nil, 10]
check_ec("", "\x00A\xDC\x00\x00B", :undefined_conversion, *a)
check_ec("A", "\x00B", :invalid_byte_sequence, *a) # \xDC\x00 is invalid as UTF-16BE
check_ec("AB", "", :finished, *a)
end
def test_errors2
ec = Encoding::Converter.new("UTF-16BE", "EUC-JP")
a = ["", "\xFF\xFE\x00A\xDC\x00\x00B", ec, nil, 10, :after_output=>true]
check_ec("", "\x00A\xDC\x00\x00B", :undefined_conversion, *a)
check_ec("A", "\xDC\x00\x00B", :after_output, *a)
check_ec("A", "\x00B", :invalid_byte_sequence, *a)
check_ec("AB", "", :after_output, *a)
check_ec("AB", "", :finished, *a)
end
def test_universal_newline
ec = Encoding::Converter.new("UTF-8", "EUC-JP", universal_newline: true)
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "abc\r\ndef"; check_ec("abc\ndef", "", :source_buffer_empty, *a)
src << "ghi\njkl"; check_ec("abc\ndefghi\njkl", "", :source_buffer_empty, *a)
src << "mno\rpqr"; check_ec("abc\ndefghi\njklmno\npqr", "", :source_buffer_empty, *a)
src << "stu\r"; check_ec("abc\ndefghi\njklmno\npqrstu", "", :source_buffer_empty, *a)
src << "\nvwx"; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx", "", :source_buffer_empty, *a)
src << "\nyz"; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx\nyz", "", :source_buffer_empty, *a)
end
* include/ruby/io.h (FMODE_TEXTMODE): defined. * include/ruby/encoding.h (rb_econv_t): new field: flags. (rb_econv_binmode): declared. * io.c (io_unread): text mode hack removed. (NEED_NEWLINE_DECODER): defined. (NEED_NEWLINE_ENCODER): defined. (NEED_READCONV): defined. (NEED_WRITECONV): defined. (TEXTMODE_NEWLINE_ENCODER): defined for windows. (make_writeconv): setup converter with TEXTMODE_NEWLINE_ENCODER for text mode. (io_fwrite): use NEED_WRITECONV. character code conversion is disabled if fptr->writeconv_stateless is nil. (make_readconv): setup converter with ECONV_UNIVERSAL_NEWLINE_DECODER for text mode. (read_all): use NEED_READCONV. (appendline): use NEED_READCONV. (rb_io_getline_1): use NEED_READCONV. (io_getc): use NEED_READCONV. (rb_io_ungetc): use NEED_READCONV. (rb_io_binmode): OS-level text mode test removed. call rb_econv_binmode. (rb_io_binmode_m): call rb_io_binmode_m with write_io as well. (rb_io_flags_mode): return mode string including "t". (rb_io_mode_flags): detect "t" for text mode. (rb_sysopen): always specify O_BINARY. * transcode.c (rb_econv_open_by_transcoder_entries): initialize flags. (rb_econv_open): if source and destination encoding is both empty string, open newline converter. last_tc will be NULL in this case. (rb_econv_encoding_to_insert_output): last_tc may be NULL now. (rb_econv_string): ditto. (output_replacement_character): ditto. (transcode_loop): ditto. (econv_init): ditto. (econv_inspect): ditto. (rb_econv_binmode): new function. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18780 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2008-08-22 12:44:00 -04:00
def test_universal_newline2
ec = Encoding::Converter.new("", "", universal_newline: true)
a = ["", src="", ec, nil, 50, :partial_input=>true]
* include/ruby/io.h (FMODE_TEXTMODE): defined. * include/ruby/encoding.h (rb_econv_t): new field: flags. (rb_econv_binmode): declared. * io.c (io_unread): text mode hack removed. (NEED_NEWLINE_DECODER): defined. (NEED_NEWLINE_ENCODER): defined. (NEED_READCONV): defined. (NEED_WRITECONV): defined. (TEXTMODE_NEWLINE_ENCODER): defined for windows. (make_writeconv): setup converter with TEXTMODE_NEWLINE_ENCODER for text mode. (io_fwrite): use NEED_WRITECONV. character code conversion is disabled if fptr->writeconv_stateless is nil. (make_readconv): setup converter with ECONV_UNIVERSAL_NEWLINE_DECODER for text mode. (read_all): use NEED_READCONV. (appendline): use NEED_READCONV. (rb_io_getline_1): use NEED_READCONV. (io_getc): use NEED_READCONV. (rb_io_ungetc): use NEED_READCONV. (rb_io_binmode): OS-level text mode test removed. call rb_econv_binmode. (rb_io_binmode_m): call rb_io_binmode_m with write_io as well. (rb_io_flags_mode): return mode string including "t". (rb_io_mode_flags): detect "t" for text mode. (rb_sysopen): always specify O_BINARY. * transcode.c (rb_econv_open_by_transcoder_entries): initialize flags. (rb_econv_open): if source and destination encoding is both empty string, open newline converter. last_tc will be NULL in this case. (rb_econv_encoding_to_insert_output): last_tc may be NULL now. (rb_econv_string): ditto. (output_replacement_character): ditto. (transcode_loop): ditto. (econv_init): ditto. (econv_inspect): ditto. (rb_econv_binmode): new function. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18780 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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src << "abc\r\ndef"; check_ec("abc\ndef", "", :source_buffer_empty, *a)
src << "ghi\njkl"; check_ec("abc\ndefghi\njkl", "", :source_buffer_empty, *a)
src << "mno\rpqr"; check_ec("abc\ndefghi\njklmno\npqr", "", :source_buffer_empty, *a)
src << "stu\r"; check_ec("abc\ndefghi\njklmno\npqrstu", "", :source_buffer_empty, *a)
* include/ruby/io.h (FMODE_TEXTMODE): defined. * include/ruby/encoding.h (rb_econv_t): new field: flags. (rb_econv_binmode): declared. * io.c (io_unread): text mode hack removed. (NEED_NEWLINE_DECODER): defined. (NEED_NEWLINE_ENCODER): defined. (NEED_READCONV): defined. (NEED_WRITECONV): defined. (TEXTMODE_NEWLINE_ENCODER): defined for windows. (make_writeconv): setup converter with TEXTMODE_NEWLINE_ENCODER for text mode. (io_fwrite): use NEED_WRITECONV. character code conversion is disabled if fptr->writeconv_stateless is nil. (make_readconv): setup converter with ECONV_UNIVERSAL_NEWLINE_DECODER for text mode. (read_all): use NEED_READCONV. (appendline): use NEED_READCONV. (rb_io_getline_1): use NEED_READCONV. (io_getc): use NEED_READCONV. (rb_io_ungetc): use NEED_READCONV. (rb_io_binmode): OS-level text mode test removed. call rb_econv_binmode. (rb_io_binmode_m): call rb_io_binmode_m with write_io as well. (rb_io_flags_mode): return mode string including "t". (rb_io_mode_flags): detect "t" for text mode. (rb_sysopen): always specify O_BINARY. * transcode.c (rb_econv_open_by_transcoder_entries): initialize flags. (rb_econv_open): if source and destination encoding is both empty string, open newline converter. last_tc will be NULL in this case. (rb_econv_encoding_to_insert_output): last_tc may be NULL now. (rb_econv_string): ditto. (output_replacement_character): ditto. (transcode_loop): ditto. (econv_init): ditto. (econv_inspect): ditto. (rb_econv_binmode): new function. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18780 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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src << "\nvwx"; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx", "", :source_buffer_empty, *a)
src << "\nyz"; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx\nyz", "", :source_buffer_empty, *a)
end
def test_universal_newline3
ec = Encoding::Converter.new("", "", universal_newline: true)
a = ["", src="", ec, nil, 50, :partial_input=>true]
src << "abc\r\ndef"; check_ec("abc\ndef", "", :source_buffer_empty, *a)
src << "ghi\njkl"; check_ec("abc\ndefghi\njkl", "", :source_buffer_empty, *a)
src << "mno\rpqr"; check_ec("abc\ndefghi\njklmno\npqr", "", :source_buffer_empty, *a)
src << "stu\r"; check_ec("abc\ndefghi\njklmno\npqrstu", "", :source_buffer_empty, *a)
src << "\nvwx"; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx", "", :source_buffer_empty, *a)
src << "\nyz"; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx\nyz", "", :source_buffer_empty, *a)
src << "\r"; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx\nyz", "", :source_buffer_empty, *a)
a[-1] = nil
src << ""; check_ec("abc\ndefghi\njklmno\npqrstu\nvwx\nyz\n", "", :finished, *a)
end
def test_crlf_newline
ec = Encoding::Converter.new("UTF-8", "EUC-JP", crlf_newline: true)
assert_econv("abc\r\ndef", :finished, 50, ec, "abc\ndef", "")
end
* include/ruby/io.h (FMODE_TEXTMODE): defined. * include/ruby/encoding.h (rb_econv_t): new field: flags. (rb_econv_binmode): declared. * io.c (io_unread): text mode hack removed. (NEED_NEWLINE_DECODER): defined. (NEED_NEWLINE_ENCODER): defined. (NEED_READCONV): defined. (NEED_WRITECONV): defined. (TEXTMODE_NEWLINE_ENCODER): defined for windows. (make_writeconv): setup converter with TEXTMODE_NEWLINE_ENCODER for text mode. (io_fwrite): use NEED_WRITECONV. character code conversion is disabled if fptr->writeconv_stateless is nil. (make_readconv): setup converter with ECONV_UNIVERSAL_NEWLINE_DECODER for text mode. (read_all): use NEED_READCONV. (appendline): use NEED_READCONV. (rb_io_getline_1): use NEED_READCONV. (io_getc): use NEED_READCONV. (rb_io_ungetc): use NEED_READCONV. (rb_io_binmode): OS-level text mode test removed. call rb_econv_binmode. (rb_io_binmode_m): call rb_io_binmode_m with write_io as well. (rb_io_flags_mode): return mode string including "t". (rb_io_mode_flags): detect "t" for text mode. (rb_sysopen): always specify O_BINARY. * transcode.c (rb_econv_open_by_transcoder_entries): initialize flags. (rb_econv_open): if source and destination encoding is both empty string, open newline converter. last_tc will be NULL in this case. (rb_econv_encoding_to_insert_output): last_tc may be NULL now. (rb_econv_string): ditto. (output_replacement_character): ditto. (transcode_loop): ditto. (econv_init): ditto. (econv_inspect): ditto. (rb_econv_binmode): new function. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18780 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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def test_crlf_newline2
ec = Encoding::Converter.new("", "", crlf_newline: true)
* include/ruby/io.h (FMODE_TEXTMODE): defined. * include/ruby/encoding.h (rb_econv_t): new field: flags. (rb_econv_binmode): declared. * io.c (io_unread): text mode hack removed. (NEED_NEWLINE_DECODER): defined. (NEED_NEWLINE_ENCODER): defined. (NEED_READCONV): defined. (NEED_WRITECONV): defined. (TEXTMODE_NEWLINE_ENCODER): defined for windows. (make_writeconv): setup converter with TEXTMODE_NEWLINE_ENCODER for text mode. (io_fwrite): use NEED_WRITECONV. character code conversion is disabled if fptr->writeconv_stateless is nil. (make_readconv): setup converter with ECONV_UNIVERSAL_NEWLINE_DECODER for text mode. (read_all): use NEED_READCONV. (appendline): use NEED_READCONV. (rb_io_getline_1): use NEED_READCONV. (io_getc): use NEED_READCONV. (rb_io_ungetc): use NEED_READCONV. (rb_io_binmode): OS-level text mode test removed. call rb_econv_binmode. (rb_io_binmode_m): call rb_io_binmode_m with write_io as well. (rb_io_flags_mode): return mode string including "t". (rb_io_mode_flags): detect "t" for text mode. (rb_sysopen): always specify O_BINARY. * transcode.c (rb_econv_open_by_transcoder_entries): initialize flags. (rb_econv_open): if source and destination encoding is both empty string, open newline converter. last_tc will be NULL in this case. (rb_econv_encoding_to_insert_output): last_tc may be NULL now. (rb_econv_string): ditto. (output_replacement_character): ditto. (transcode_loop): ditto. (econv_init): ditto. (econv_inspect): ditto. (rb_econv_binmode): new function. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18780 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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assert_econv("abc\r\ndef", :finished, 50, ec, "abc\ndef", "")
end
def test_cr_newline
ec = Encoding::Converter.new("UTF-8", "EUC-JP", cr_newline: true)
assert_econv("abc\rdef", :finished, 50, ec, "abc\ndef", "")
end
* include/ruby/io.h (FMODE_TEXTMODE): defined. * include/ruby/encoding.h (rb_econv_t): new field: flags. (rb_econv_binmode): declared. * io.c (io_unread): text mode hack removed. (NEED_NEWLINE_DECODER): defined. (NEED_NEWLINE_ENCODER): defined. (NEED_READCONV): defined. (NEED_WRITECONV): defined. (TEXTMODE_NEWLINE_ENCODER): defined for windows. (make_writeconv): setup converter with TEXTMODE_NEWLINE_ENCODER for text mode. (io_fwrite): use NEED_WRITECONV. character code conversion is disabled if fptr->writeconv_stateless is nil. (make_readconv): setup converter with ECONV_UNIVERSAL_NEWLINE_DECODER for text mode. (read_all): use NEED_READCONV. (appendline): use NEED_READCONV. (rb_io_getline_1): use NEED_READCONV. (io_getc): use NEED_READCONV. (rb_io_ungetc): use NEED_READCONV. (rb_io_binmode): OS-level text mode test removed. call rb_econv_binmode. (rb_io_binmode_m): call rb_io_binmode_m with write_io as well. (rb_io_flags_mode): return mode string including "t". (rb_io_mode_flags): detect "t" for text mode. (rb_sysopen): always specify O_BINARY. * transcode.c (rb_econv_open_by_transcoder_entries): initialize flags. (rb_econv_open): if source and destination encoding is both empty string, open newline converter. last_tc will be NULL in this case. (rb_econv_encoding_to_insert_output): last_tc may be NULL now. (rb_econv_string): ditto. (output_replacement_character): ditto. (transcode_loop): ditto. (econv_init): ditto. (econv_inspect): ditto. (rb_econv_binmode): new function. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18780 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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def test_cr_newline2
ec = Encoding::Converter.new("", "", cr_newline: true)
* include/ruby/io.h (FMODE_TEXTMODE): defined. * include/ruby/encoding.h (rb_econv_t): new field: flags. (rb_econv_binmode): declared. * io.c (io_unread): text mode hack removed. (NEED_NEWLINE_DECODER): defined. (NEED_NEWLINE_ENCODER): defined. (NEED_READCONV): defined. (NEED_WRITECONV): defined. (TEXTMODE_NEWLINE_ENCODER): defined for windows. (make_writeconv): setup converter with TEXTMODE_NEWLINE_ENCODER for text mode. (io_fwrite): use NEED_WRITECONV. character code conversion is disabled if fptr->writeconv_stateless is nil. (make_readconv): setup converter with ECONV_UNIVERSAL_NEWLINE_DECODER for text mode. (read_all): use NEED_READCONV. (appendline): use NEED_READCONV. (rb_io_getline_1): use NEED_READCONV. (io_getc): use NEED_READCONV. (rb_io_ungetc): use NEED_READCONV. (rb_io_binmode): OS-level text mode test removed. call rb_econv_binmode. (rb_io_binmode_m): call rb_io_binmode_m with write_io as well. (rb_io_flags_mode): return mode string including "t". (rb_io_mode_flags): detect "t" for text mode. (rb_sysopen): always specify O_BINARY. * transcode.c (rb_econv_open_by_transcoder_entries): initialize flags. (rb_econv_open): if source and destination encoding is both empty string, open newline converter. last_tc will be NULL in this case. (rb_econv_encoding_to_insert_output): last_tc may be NULL now. (rb_econv_string): ditto. (output_replacement_character): ditto. (transcode_loop): ditto. (econv_init): ditto. (econv_inspect): ditto. (rb_econv_binmode): new function. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@18780 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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assert_econv("abc\rdef", :finished, 50, ec, "abc\ndef", "")
end
def test_after_output
ec = Encoding::Converter.new("UTF-8", "EUC-JP")
a = ["", "abc\u{3042}def", ec, nil, 100, :after_output=>true]
check_ec("a", "bc\u{3042}def", :after_output, *a)
check_ec("ab", "c\u{3042}def", :after_output, *a)
check_ec("abc", "\u{3042}def", :after_output, *a)
check_ec("abc\xA4\xA2", "def", :after_output, *a)
check_ec("abc\xA4\xA2d", "ef", :after_output, *a)
check_ec("abc\xA4\xA2de", "f", :after_output, *a)
check_ec("abc\xA4\xA2def", "", :after_output, *a)
check_ec("abc\xA4\xA2def", "", :finished, *a)
end
def test_errinfo_invalid_euc_jp
ec = Encoding::Converter.new("EUC-JP", "Shift_JIS")
ec.primitive_convert(src="\xff", dst="", nil, 10)
assert_errinfo(:invalid_byte_sequence, "EUC-JP", "Shift_JIS", "\xFF", "", ec)
end
def test_errinfo_invalid_euc_jp2
ec = Encoding::Converter.new("EUC-JP", "ISO-8859-1")
ec.primitive_convert(src="\xff", dst="", nil, 10)
assert_errinfo(:invalid_byte_sequence, "EUC-JP", "UTF-8", "\xFF", "", ec)
end
def test_errinfo_undefined_hiragana
ec = Encoding::Converter.new("EUC-JP", "ISO-8859-1")
ec.primitive_convert(src="\xa4\xa2", dst="", nil, 10)
assert_errinfo(:undefined_conversion, "UTF-8", "ISO-8859-1", "\xE3\x81\x82", "", ec)
end
def test_errinfo_invalid_partial_character
ec = Encoding::Converter.new("EUC-JP", "ISO-8859-1")
ec.primitive_convert(src="\xa4", dst="", nil, 10)
assert_errinfo(:incomplete_input, "EUC-JP", "UTF-8", "\xA4", "", ec)
end
def test_errinfo_valid_partial_character
ec = Encoding::Converter.new("EUC-JP", "ISO-8859-1")
ec.primitive_convert(src="\xa4", dst="", nil, 10, :partial_input=>true)
assert_errinfo(:source_buffer_empty, nil, nil, nil, nil, ec)
end
def test_errinfo_invalid_utf16be
ec = Encoding::Converter.new("UTF-16BE", "UTF-8")
ec.primitive_convert(src="\xd8\x00\x00@", dst="", nil, 10)
assert_errinfo(:invalid_byte_sequence, "UTF-16BE", "UTF-8", "\xD8\x00", "\x00", ec)
assert_equal("@", src)
end
def test_errinfo_invalid_utf16le
ec = Encoding::Converter.new("UTF-16LE", "UTF-8")
ec.primitive_convert(src="\x00\xd8@\x00", dst="", nil, 10)
assert_errinfo(:invalid_byte_sequence, "UTF-16LE", "UTF-8", "\x00\xD8", "@\x00", ec)
assert_equal("", src)
end
def test_output_iso2022jp
ec = Encoding::Converter.new("EUC-JP", "ISO-2022-JP")
ec.primitive_convert(src="\xa1\xa1", dst="", nil, 10, :partial_input=>true)
assert_equal("\e$B!!".force_encoding("ISO-2022-JP"), dst)
assert_equal(nil, ec.insert_output("???"))
ec.primitive_convert("", dst, nil, 10, :partial_input=>true)
assert_equal("\e$B!!\e(B???".force_encoding("ISO-2022-JP"), dst)
ec.primitive_convert(src="\xa1\xa2", dst, nil, 10, :partial_input=>true)
assert_equal("\e$B!!\e(B???\e$B!\"".force_encoding("ISO-2022-JP"), dst)
assert_equal(nil, ec.insert_output("\xA1\xA1".force_encoding("EUC-JP")))
ec.primitive_convert("", dst, nil, 10, :partial_input=>true)
assert_equal("\e$B!!\e(B???\e$B!\"!!".force_encoding("ISO-2022-JP"), dst)
ec.primitive_convert(src="\xa1\xa3", dst, nil, 10, :partial_input=>true)
assert_equal("\e$B!!\e(B???\e$B!\"!!!\#".force_encoding("ISO-2022-JP"), dst)
assert_equal(nil, ec.insert_output("\u3042"))
ec.primitive_convert("", dst, nil, 10, :partial_input=>true)
assert_equal("\e$B!!\e(B???\e$B!\"!!!\#$\"".force_encoding("ISO-2022-JP"), dst)
assert_raise(Encoding::UndefinedConversionError) {
ec.insert_output("\uFFFD")
}
assert_equal("\e$B!!\e(B???\e$B!\"!!!\#$\"".force_encoding("ISO-2022-JP"), dst)
ec.primitive_convert("", dst, nil, 10)
assert_equal("\e$B!!\e(B???\e$B!\"!!!\#$\"\e(B".force_encoding("ISO-2022-JP"), dst)
end
def test_exc_invalid
err = assert_raise(Encoding::InvalidByteSequenceError) {
"abc\xa4def".encode("ISO-8859-1", "EUC-JP")
}
assert_equal("EUC-JP", err.source_encoding_name)
assert_equal("UTF-8", err.destination_encoding_name)
assert_equal(Encoding::EUC_JP, err.source_encoding)
assert_equal(Encoding::UTF_8, err.destination_encoding)
assert_equal("\xA4".force_encoding("ASCII-8BIT"), err.error_bytes)
assert_equal("d", err.readagain_bytes)
assert_equal(false, err.incomplete_input?)
end
def test_exc_incomplete
err = assert_raise(Encoding::InvalidByteSequenceError) {
"abc\xa4".encode("ISO-8859-1", "EUC-JP")
}
assert_equal("EUC-JP", err.source_encoding_name)
assert_equal("UTF-8", err.destination_encoding_name)
assert_equal(Encoding::EUC_JP, err.source_encoding)
assert_equal(Encoding::UTF_8, err.destination_encoding)
assert_equal("\xA4".force_encoding("ASCII-8BIT"), err.error_bytes)
assert_equal(nil, err.readagain_bytes)
assert_equal(true, err.incomplete_input?)
end
def test_exc_undef
err = assert_raise(Encoding::UndefinedConversionError) {
"abc\xa4\xa2def".encode("ISO-8859-1", "EUC-JP")
}
assert_equal("UTF-8", err.source_encoding_name)
assert_equal("ISO-8859-1", err.destination_encoding_name)
assert_equal(Encoding::UTF_8, err.source_encoding)
assert_equal(Encoding::ISO_8859_1, err.destination_encoding)
assert_equal("\u{3042}", err.error_char)
end
def test_putback
ec = Encoding::Converter.new("EUC-JP", "ISO-8859-1")
ret = ec.primitive_convert(src="abc\xa1def", dst="", nil, 10)
assert_equal(:invalid_byte_sequence, ret)
assert_equal(["abc", "ef"], [dst, src])
src = ec.putback + src
assert_equal(["abc", "def"], [dst, src])
ret = ec.primitive_convert(src, dst, nil, 10)
assert_equal(:finished, ret)
assert_equal(["abcdef", ""], [dst, src])
end
def test_putback2
ec = Encoding::Converter.new("utf-16le", "euc-jp")
ret = ec.primitive_convert(src="\x00\xd8\x21\x00", dst="", nil, nil)
assert_equal(:invalid_byte_sequence, ret)
assert_equal("\x00".force_encoding("utf-16le"), ec.putback(1))
assert_equal("\x21".force_encoding("utf-16le"), ec.putback(1))
assert_equal("", ec.putback(1))
end
def test_invalid_replace
ec = Encoding::Converter.new("UTF-8", "EUC-JP", invalid: :replace)
ret = ec.primitive_convert(src="abc\x80def", dst="", nil, 100)
assert_equal(:finished, ret)
assert_equal("", src)
assert_equal("abc?def", dst)
end
def test_invalid_ignore
ec = Encoding::Converter.new("UTF-8", "EUC-JP", :invalid => :replace, :replace => "")
ret = ec.primitive_convert(src="abc\x80def", dst="", nil, 100)
assert_equal(:finished, ret)
assert_equal("", src)
assert_equal("abcdef", dst)
end
def test_undef_replace
ec = Encoding::Converter.new("UTF-8", "EUC-JP", :undef => :replace)
ret = ec.primitive_convert(src="abc\u{fffd}def", dst="", nil, 100)
assert_equal(:finished, ret)
assert_equal("", src)
assert_equal("abc?def", dst)
end
def test_undef_ignore
ec = Encoding::Converter.new("UTF-8", "EUC-JP", :undef => :replace, :replace => "")
ret = ec.primitive_convert(src="abc\u{fffd}def", dst="", nil, 100)
assert_equal(:finished, ret)
assert_equal("", src)
assert_equal("abcdef", dst)
end
def test_noconv
ec = Encoding::Converter.new("", "")
assert_equal(nil, ec.source_encoding)
assert_equal(nil, ec.destination_encoding)
assert_equal([:source_buffer_empty, nil, nil, nil, nil], ec.primitive_errinfo)
a = ["", "abcdefg", ec, nil, 2]
check_ec("ab", "cdefg", :destination_buffer_full, *a)
check_ec("abcd", "efg", :destination_buffer_full, *a)
check_ec("abcdef", "g", :destination_buffer_full, *a)
check_ec("abcdefg", "", :finished, *a)
end
def test_noconv_partial
ec = Encoding::Converter.new("", "")
a = ["", "abcdefg", ec, nil, 2, :partial_input=>true]
check_ec("ab", "cdefg", :destination_buffer_full, *a)
check_ec("abcd", "efg", :destination_buffer_full, *a)
check_ec("abcdef", "g", :destination_buffer_full, *a)
check_ec("abcdefg", "", :source_buffer_empty, *a)
end
def test_noconv_after_output
ec = Encoding::Converter.new("", "")
a = ["", "abcdefg", ec, nil, 2, :after_output=>true]
check_ec("a", "bcdefg", :after_output, *a)
check_ec("ab", "cdefg", :after_output, *a)
check_ec("abc", "defg", :after_output, *a)
check_ec("abcd", "efg", :after_output, *a)
check_ec("abcde", "fg", :after_output, *a)
check_ec("abcdef", "g", :after_output, *a)
check_ec("abcdefg", "", :after_output, *a)
check_ec("abcdefg", "", :finished, *a)
end
def test_noconv_insert_output
ec = Encoding::Converter.new("", "")
ec.insert_output("xyz")
ret = ec.primitive_convert(src="abc", dst="", nil, 20)
assert_equal(:finished, ret)
assert_equal(["xyzabc", ""], [dst, src])
end
def test_convert
ec = Encoding::Converter.new("utf-8", "euc-jp")
assert_raise(Encoding::InvalidByteSequenceError) { ec.convert("a\x80") }
assert_raise(Encoding::UndefinedConversionError) { ec.convert("\ufffd") }
ret = ec.primitive_convert(nil, "", nil, nil)
assert_equal(:finished, ret)
assert_raise(ArgumentError) { ec.convert("a") }
end
def test_finish_iso2022jp
ec = Encoding::Converter.new("utf-8", "iso-2022-jp")
assert_equal("\e$B$\"".force_encoding("iso-2022-jp"), ec.convert("\u3042"))
assert_equal("\e(B".force_encoding("iso-2022-jp"), ec.finish)
end
def test_finish_incomplete_error
ec = Encoding::Converter.new("utf-8", "euc-jp")
ec.convert("\xEF")
assert_raise(Encoding::InvalidByteSequenceError) { ec.finish }
end
def test_last_error1
ec = Encoding::Converter.new("sjis", "euc-jp")
assert_equal(nil, ec.last_error)
assert_equal(:incomplete_input, ec.primitive_convert(src="fo\x81", dst="", nil, nil))
assert_kind_of(Encoding::InvalidByteSequenceError, ec.last_error)
end
def test_last_error2
ec = Encoding::Converter.new("sjis", "euc-jp")
assert_equal("fo", ec.convert(src="fo\x81"))
assert_raise(Encoding::InvalidByteSequenceError) { ec.finish }
assert_kind_of(Encoding::InvalidByteSequenceError, ec.last_error)
end
def test_us_ascii
ec = Encoding::Converter.new("UTF-8", "US-ASCII")
ec.primitive_convert(src="\u{3042}", dst="")
err = ec.last_error
assert_kind_of(Encoding::UndefinedConversionError, err)
assert_equal("\u{3042}", err.error_char)
end
def test_88591
ec = Encoding::Converter.new("UTF-8", "ISO-8859-1")
ec.primitive_convert(src="\u{3042}", dst="")
err = ec.last_error
assert_kind_of(Encoding::UndefinedConversionError, err)
assert_equal("\u{3042}", err.error_char)
end
def test_get_replacement
ec = Encoding::Converter.new("euc-jp", "iso-8859-1")
assert_equal("?", ec.replacement)
ec = Encoding::Converter.new("euc-jp", "utf-8")
assert_equal("\uFFFD", ec.replacement)
end
def test_set_replacement
ec = Encoding::Converter.new("utf-8", "us-ascii", :undef => :replace)
ec.replacement = "<undef>"
assert_equal("a <undef> b", ec.convert("a \u3042 b"))
end
def test_econv_new_hash
ec = Encoding::Converter.new("utf-8", "us-ascii", :undef => :replace)
assert_equal("a ? b", ec.convert("a \u3042 b"))
ec = Encoding::Converter.new("utf-8", "us-ascii", :undef => :replace, :replace => "X")
assert_equal("a X b", ec.convert("a \u3042 b"))
end
def test_hex_charref
ec = Encoding::Converter.new("UTF-8", "US-ASCII", Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal("&#x3042;", ec.convert("\u3042"))
ec = Encoding::Converter.new("UTF-8", "EUC-JP", Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal("\xa4\xcf\xa4\xa1\xa4\xa4&#x2665;\xa1\xa3".force_encoding("euc-jp"),
ec.convert("\u{306f 3041 3044 2665 3002}"))
ec = Encoding::Converter.new("UTF-8", "ISO-2022-JP", Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal("\e$B$O$!$$\e(B&#x2665;\e$B!#".force_encoding("ISO-2022-JP"),
ec.convert("\u{306f 3041 3044 2665 3002}"))
assert_equal("\e(B".force_encoding("ISO-2022-JP"),
ec.finish)
ec = Encoding::Converter.new("EUC-JP", "US-ASCII", Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal("&#x4EA4;&#x63DB;&#x6CD5;&#x5247;: n&#xD7;m=m&#xD7;n".force_encoding("ISO-8859-1"),
ec.convert("\xB8\xF2\xB4\xB9\xCB\xA1\xC2\xA7: n\xA1\xDFm=m\xA1\xDFn"))
ec = Encoding::Converter.new("EUC-JP", "ISO-8859-1", Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal("&#x4EA4;&#x63DB;&#x6CD5;&#x5247;: n\xD7m=m\xD7n".force_encoding("ISO-8859-1"),
ec.convert("\xB8\xF2\xB4\xB9\xCB\xA1\xC2\xA7: n\xA1\xDFm=m\xA1\xDFn"))
ec = Encoding::Converter.new("UTF-8", "US-ASCII", Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal("&", ec.convert("&"))
end
def test_xml_escape_text
ec = Encoding::Converter.new("", "amp_escape")
assert_equal('&amp;<>"', ec.convert("&<>\""))
assert_equal('', ec.finish)
ec = Encoding::Converter.new("", "xml_text_escape")
assert_equal('&amp;&lt;&gt;"', ec.convert("&<>\""))
assert_equal('', ec.finish)
end
def test_xml_escape_attr_content
ec = Encoding::Converter.new("", "xml_attr_content_escape")
assert_equal('', ec.finish)
ec = Encoding::Converter.new("", "xml_attr_content_escape")
assert_equal('', ec.convert(""))
assert_equal('', ec.finish)
ec = Encoding::Converter.new("", "xml_attr_content_escape")
assert_equal('&quot;', ec.convert('"'))
assert_equal('', ec.finish)
ec = Encoding::Converter.new("", "xml_attr_content_escape")
assert_equal('&amp;&lt;&gt;&quot;', ec.convert("&<>\""))
assert_equal('', ec.finish)
end
def test_xml_escape_attr_quote
ec = Encoding::Converter.new("", "xml_attr_quote")
assert_equal('""', ec.finish)
ec = Encoding::Converter.new("", "xml_attr_quote")
assert_equal('', ec.convert(""))
assert_equal('""', ec.finish)
ec = Encoding::Converter.new("", "xml_attr_quote")
assert_equal('""', ec.convert('"'))
assert_equal('"', ec.finish)
ec = Encoding::Converter.new("", "xml_attr_quote")
assert_equal('"&<>"', ec.convert("&<>\""))
assert_equal('"', ec.finish)
end
def test_xml_escape_with_charref
ec = Encoding::Converter.new("utf-8", "euc-jp", Encoding::Converter::XML_TEXT_DECORATOR|Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal('&lt;&#x2665;&gt;&amp;"&#x2661;"', ec.convert("<\u2665>&\"\u2661\""))
assert_equal('', ec.finish)
ec = Encoding::Converter.new("utf-8", "euc-jp",
Encoding::Converter::XML_ATTR_CONTENT_DECORATOR|
Encoding::Converter::XML_ATTR_QUOTE_DECORATOR|
Encoding::Converter::UNDEF_HEX_CHARREF)
assert_equal('"&lt;&#x2665;&gt;&amp;&quot;&#x2661;&quot;', ec.convert("<\u2665>&\"\u2661\""))
assert_equal('"', ec.finish)
ec = Encoding::Converter.new("utf-8", "iso-2022-jp", Encoding::Converter::XML_TEXT_DECORATOR)
assert_equal("&amp;\e$B$&\e(B&amp;".force_encoding("iso-2022-jp"), ec.convert("&\u3046&"))
assert_equal('', ec.finish)
end
def test_xml_hasharg
assert_equal("&amp;\e$B$&\e(B&#x2665;&amp;\"'".force_encoding("iso-2022-jp"),
"&\u3046\u2665&\"'".encode("iso-2022-jp", xml: :text))
assert_equal("\"&amp;\e$B$&\e(B&#x2661;&amp;&quot;'\"".force_encoding("iso-2022-jp"),
"&\u3046\u2661&\"'".encode("iso-2022-jp", xml: :attr))
assert_equal("&amp;\u3046\u2661&amp;\"'".force_encoding("utf-8"),
"&\u3046\u2661&\"'".encode("utf-8", xml: :text))
end
def test_iso2022jp_invalid_replace
assert_equal("?x".force_encoding("iso-2022-jp"),
"\222\xA1x".encode("iso-2022-jp", "stateless-iso-2022-jp", :invalid => :replace))
end
def test_convpath
eucjp = Encoding::EUC_JP
utf8 = Encoding::UTF_8
utf16be = Encoding::UTF_16BE
utf16le = Encoding::UTF_16LE
iso88591 = Encoding::ISO_8859_1
iso2022jp = Encoding::ISO_2022_JP
siso2022jp = Encoding::STATELESS_ISO_2022_JP
assert_equal([], Encoding::Converter.new("", "").convpath)
assert_equal([[eucjp, utf8], [utf8, iso88591]],
Encoding::Converter.new(eucjp, iso88591).convpath)
assert_equal([[eucjp, siso2022jp], [siso2022jp, iso2022jp]],
Encoding::Converter.new(eucjp, iso2022jp).convpath)
assert_equal([[iso2022jp, siso2022jp],
[siso2022jp, eucjp],
[eucjp, utf8],
[utf8, iso88591]],
Encoding::Converter.new(iso2022jp, iso88591).convpath)
assert_equal(["universal_newline", [utf8, utf16be]],
Encoding::Converter.new(utf8, utf16be, universal_newline: true).convpath)
assert_equal([[utf16be, utf8], "universal_newline"],
Encoding::Converter.new(utf16be, utf8, universal_newline: true).convpath)
assert_equal([[utf16be, utf8], "universal_newline", [utf8, utf16le]],
Encoding::Converter.new(utf16be, utf16le, universal_newline: true).convpath)
end
def test_search_convpath
eucjp = Encoding::EUC_JP
utf8 = Encoding::UTF_8
utf32be = Encoding::UTF_32BE
iso88591 = Encoding::ISO_8859_1
assert_equal([[iso88591,utf8], [utf8,eucjp]],
Encoding::Converter.search_convpath("ISO-8859-1", "EUC-JP"))
assert_equal([[iso88591,utf8], [utf8,eucjp]],
Encoding::Converter.search_convpath(iso88591, eucjp))
assert_equal([[iso88591,utf8], [utf8,eucjp], "universal_newline"],
Encoding::Converter.search_convpath("ISO-8859-1", "EUC-JP", universal_newline: true))
assert_equal([[iso88591,utf8], "universal_newline", [utf8,utf32be]],
Encoding::Converter.search_convpath("ISO-8859-1", "UTF-32BE", universal_newline: true))
end
def test_invalid_replace2
assert_raise(ArgumentError) {
broken = "\x80".force_encoding("euc-jp")
"".encode("euc-jp", :undef => :replace, :replace => broken)
}
end
end