--TEST-- Exhaustive test of ISO-2022-JP-MS text encoding --EXTENSIONS-- mbstring --SKIPIF-- --FILE-- > 8) & 0xFF; $second = $bytes & 0xFF; $hi_bits = $first - (($first > 0x9F) ? 0xE0 - 31 : 0x81); if ($second > 0x9E) { $kuten = ((($hi_bits << 1) + 0x22) << 8) + ($second - 0x9F + 0x21); } else if ($second > 0x7F) { $kuten = ((($hi_bits << 1) + 0x21) << 8) + ($second - 0x80 + 63 + 0x21); } else { $kuten = ((($hi_bits << 1) + 0x21) << 8) + ($second - 0x40 + 0x21); } return $kuten; } /* Read in the table of all characters in CP932 */ $cp932Chars = array(); /* CP932 string -> UTF-32BE string */ $fp = fopen(realpath(__DIR__ . '/data/CP932.txt'), 'r+'); while ($line = fgets($fp, 256)) { if ($line[0] == '#') continue; if (sscanf($line, "0x%x\t0x%x", $bytes, $codepoint) == 2) { if ($bytes < 256) continue; /* ISO-2022-JP-MS only uses the first two ranges of MS vendor extensions */ if ($bytes >= 0xFA00) continue; $cp932Chars[pack('n', shiftJISDecode($bytes))] = pack('N', $codepoint); } } /* Windows-932 has many cases where two different kuten codes map to the same * Unicode codepoints */ foreach ([0x8790, 0x8791, 0x8792, 0x8795, 0x8796, 0x8797, 0x879A, 0x879B, 0x879C, 0xEEF9] as $i) { $bytes = pack('n', shiftJISDecode($i)); $nonInvertible[$bytes] = $cp932Chars[$bytes]; } /* Add User Defined codes (which use ESC $ ( ? escape sequence)) */ $udcChars = array(); for ($cp = 0xE000; $cp < (0xE000 + (20 * 94)); $cp++) { $i = $cp - 0xE000; $bytes = (((int)($i / 94) + 0x21) << 8) + (($i % 94) + 0x21); $udcChars[pack('n', $bytes)] = pack('N', $cp); } /* Read in table of all characters in JISX-0201 charset */ $jisx0201Chars = array(); /* JISX0201 -> UTF-32BE */ $fp = fopen(realpath(__DIR__ . '/data/JISX0201.txt'), 'r+'); while ($line = fgets($fp, 256)) { if ($line[0] == '#') continue; if (sscanf($line, "0x%x\t0x%x", $byte, $codepoint) == 2) $jisx0201Chars[chr($byte)] = pack('N', $codepoint); } function testValid($from, $to, $encoding, $bothWays = true) { identifyValidString($from, $encoding); convertValidString($from, $to, $encoding, 'UTF-32BE', false); if ($bothWays) { /* ESC ( B at the beginning is redundant, since ASCII mode is the default */ if (substr($from, 0, 3) == "\x1B(B") $from = substr($from, 3, strlen($from) - 3); /* If the string switches to a different charset, it should switch back to * ASCII at the end */ if (strpos($from, "\x1B\$B") !== false || strpos($from, "\x1B(I") !== false || strpos($from, "\x1B\$@") !== false || strpos($from, "\x1B\$(B") !== false || strpos($from, "\x1B\$(@") !== false || strpos($from, "\x1B\$(?") !== false) $from .= "\x1B(B"; convertValidString($to, $from, 'UTF-32BE', $encoding, false); } } function testInvalid($from, $to, $encoding) { testInvalidString($from, $to, $encoding, 'UTF-32BE'); } for ($i = 0; $i < 0x80; $i++) { if ($i == 0x1B) continue; testValid(chr($i), "\x00\x00\x00" . chr($i), 'ISO-2022-JP-MS'); testValid("\x1B(B" . chr($i), "\x00\x00\x00" . chr($i), 'ISO-2022-JP-MS', false); testValid("\x1B(J" . chr($i), "\x00\x00\x00" . chr($i), 'ISO-2022-JP-MS', false); } for ($i = 0x80; $i < 256; $i++) { if ($i >= 0xA1 && $i <= 0xDF) // We convert single bytes from 0xA1-0xDF as JIS X 0201 kana continue; testInvalid(chr($i), "\x00\x00\x00%", 'ISO-2022-JP-MS'); testInvalid("\x1B(B" . chr($i), "\x00\x00\x00%", 'ISO-2022-JP-MS'); testInvalid("\x1B(J" . chr($i), "\x00\x00\x00%", 'ISO-2022-JP-MS'); } echo "ASCII support OK\n"; /* All valid JIS X 0201 characters * Those with a 1 in the high bit are JIS X 0201 kana */ foreach ($jisx0201Chars as $jisx0201 => $utf32BE) { if (ord($jisx0201) >= 128) { $kana = chr(ord($jisx0201) - 128); testValid("\x1B(I" . $kana, $utf32BE, 'ISO-2022-JP-MS', false); testValid($jisx0201, $utf32BE, 'ISO-2022-JP-MS', false); } } for ($i = 0x80; $i < 256; $i++) { if ($i >= 0xA1 && $i <= 0xDF) continue; testInvalid("\x1B(I" . chr($i), "\x00\x00\x00%", 'ISO-2022-JP-MS'); testInvalid("\x1B(J" . chr($i), "\x00\x00\x00%", 'ISO-2022-JP-MS'); } echo "JIS X 0201 support OK\n"; function testAllValidCharsWithPrefix($validChars, $prefix, $bothWays) { $good = array_keys($validChars); shuffle($good); while (!empty($good)) { $length = min(rand(5,10), count($good)); $from = $to = ''; while ($length--) { $goodChar = array_pop($good); $from .= $goodChar; $to .= $validChars[$goodChar]; } testValid($prefix . $from, $to, 'ISO-2022-JP-MS', $bothWays); } } $validChars = $cp932Chars; /* We allow ASCII/JIS X 0201 characters to appear even in JIS X 0208 mode */ for ($i = 0; $i <= 0x7F; $i++) $validChars[chr($i)] = chr($i); for ($i = 0xA1; $i <= 0xDF; $i++) $validChars[chr($i)] = $jisx0201Chars[chr($i)]; $lenTable = array_fill_keys(range(0xE0, 0xFC), 2) + array_fill_keys(range(0x81, 0x9F), 2); findInvalidChars($validChars, $invalidChars, $truncatedChars, $lenTable); foreach ($nonInvertible as $bytes => $char) unset($cp932Chars[$bytes]); testAllValidCharsWithPrefix($cp932Chars, "\x1B\$B", true); testAllValidCharsWithPrefix($nonInvertible, "\x1B\$B", false); foreach (array_keys($invalidChars) as $invalid) { $firstByte = ord($invalid[0]); if (($firstByte > 0x80 && $firstByte < 0xA0) || $firstByte >= 0xE0) { /* The first byte of this 2-byte character will be rejected and result in % being sent * to the output. Then the second byte will do something else. It is easier to write the * test if we only check with the 1st byte. */ testInvalidString("\x1B\$B" . $invalid[0], "\x00\x00\x00%", 'ISO-2022-JP-MS', 'UTF-32BE'); } else { testInvalidString("\x1B\$B" . $invalid, "\x00\x00\x00%", 'ISO-2022-JP-MS', 'UTF-32BE'); } } foreach (array_keys($truncatedChars) as $truncated) testInvalidString("\x1B\$B" . $truncated, "\x00\x00\x00%", 'ISO-2022-JP-MS', 'UTF-32BE'); echo "JIS X 0208 (with MS extensions) support OK\n"; $validChars = $udcChars; for ($i = 0; $i <= 0x7F; $i++) $validChars[chr($i)] = chr($i); for ($i = 0xA1; $i <= 0xDF; $i++) $validChars[chr($i)] = $jisx0201Chars[chr($i)]; findInvalidChars($validChars, $invalidChars, $truncatedChars, array_fill_keys(range(0x21, 0x7F), 2)); testAllValidCharsWithPrefix($udcChars, "\x1B\$(?", true); foreach (array_keys($invalidChars) as $invalid) { $firstByte = ord(substr($invalid, 0, 1)); if (($firstByte > 0x80 && $firstByte < 0xA0) || $firstByte >= 0xE0) { testInvalidString("\x1B\$(?" . $invalid[0], "\x00\x00\x00%", 'ISO-2022-JP-MS', 'UTF-32BE'); } else { testInvalidString("\x1B\$(?" . $invalid, "\x00\x00\x00%", 'ISO-2022-JP-MS', 'UTF-32BE'); } } foreach (array_keys($truncatedChars) as $truncated) testInvalidString("\x1B\$(?" . $truncated, "\x00\x00\x00%", 'ISO-2022-JP-MS', 'UTF-32BE'); echo "UDC support OK\n"; testValidString("\x00\xA5", "\x1B\$B!o\x1B(B", "UTF-16BE", "ISO-2022-JP-MS", false); testValidString("\x20\x3E", "\x1B\$B!1\x1B(B", "UTF-16BE", "ISO-2022-JP-MS", false); testValidString("\xFF\x5E", "\x1B\$B!A\x1B(B", "UTF-16BE", "ISO-2022-JP-MS", false); echo "Other mappings from Unicode -> ISO-2022-JP-MS OK\n"; // Alternative escape sequences for 2-byte characters testValidString("\x1B\$(B\x21\x21", "\x30\x00", "ISO-2022-JP-MS", "UTF-16BE", false); testValidString("\x1B\$(@\x21\x21", "\x30\x00", "ISO-2022-JP-MS", "UTF-16BE", false); // Switching between different character types testValidString("\x00a\x00b\x00c\xFF\x61\x00a\x00b\x00c", "abc\x1B(I\x21\x1B(Babc", "UTF-16BE", "ISO-2022-JP-MS", false); // Test "long" illegal character markers mb_substitute_character("long"); convertInvalidString("\xE0", "%", "ISO-2022-JP-MS", "UTF-8"); // Invalid escapes: convertInvalidString("\x1B", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B.", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B\$", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B\$.", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B(", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B(.", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B\$(", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B\$(X", "%", "ISO-2022-JP-MS", "UTF-8"); convertInvalidString("\x1B\$B\x9F", "%", "ISO-2022-JP-MS", "UTF-8"); // 0x9F does not start any 2-byte character echo "Done!\n"; ?> --EXPECT-- ASCII support OK JIS X 0201 support OK JIS X 0208 (with MS extensions) support OK UDC support OK Other mappings from Unicode -> ISO-2022-JP-MS OK Done!