Merge "libutils: Add more tests for Unicode"
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commit
8d60cfe2cb
1 changed files with 183 additions and 61 deletions
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@ -35,86 +35,208 @@ protected:
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}
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char16_t const * const kSearchString = u"I am a leaf on the wind.";
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constexpr static size_t BUFSIZE = 64; // large enough for all tests
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void TestUTF8toUTF16(std::initializer_list<uint8_t> input,
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std::initializer_list<char16_t> expect,
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const char* err_msg_length = "",
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ssize_t expected_length = 0) {
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uint8_t empty_str[] = {};
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char16_t output[BUFSIZE];
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const size_t inlen = input.size(), outlen = expect.size();
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ASSERT_LT(outlen, BUFSIZE);
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const uint8_t *input_data = inlen ? std::data(input) : empty_str;
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ssize_t measured = utf8_to_utf16_length(input_data, inlen);
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EXPECT_EQ(expected_length ? : (ssize_t)outlen, measured) << err_msg_length;
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utf8_to_utf16(input_data, inlen, output, outlen + 1);
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for (size_t i = 0; i < outlen; i++) {
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EXPECT_EQ(std::data(expect)[i], output[i]);
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}
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EXPECT_EQ(0, output[outlen]) << "should be null terminated";
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}
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void TestUTF16toUTF8(std::initializer_list<char16_t> input,
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std::initializer_list<char> expect,
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const char* err_msg_length = "",
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ssize_t expected_length = 0) {
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char16_t empty_str[] = {};
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char output[BUFSIZE];
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const size_t inlen = input.size(), outlen = expect.size();
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ASSERT_LT(outlen, BUFSIZE);
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const char16_t *input_data = inlen ? std::data(input) : empty_str;
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ssize_t measured = utf16_to_utf8_length(input_data, inlen);
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EXPECT_EQ(expected_length ? : (ssize_t)outlen, measured) << err_msg_length;
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utf16_to_utf8(input_data, inlen, output, outlen + 1);
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for (size_t i = 0; i < outlen; i++) {
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EXPECT_EQ(std::data(expect)[i], output[i]);
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}
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EXPECT_EQ(0, output[outlen]) << "should be null terminated";
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}
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};
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TEST_F(UnicodeTest, UTF8toUTF16ZeroLength) {
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ssize_t measured;
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const uint8_t str[] = { };
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measured = utf8_to_utf16_length(str, 0);
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EXPECT_EQ(0, measured)
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<< "Zero length input should return zero length output.";
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TestUTF8toUTF16({}, {},
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"Zero length input should return zero length output.");
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}
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TEST_F(UnicodeTest, UTF8toUTF16ASCIILength) {
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ssize_t measured;
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// U+0030 or ASCII '0'
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const uint8_t str[] = { 0x30 };
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measured = utf8_to_utf16_length(str, sizeof(str));
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EXPECT_EQ(1, measured)
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<< "ASCII glyphs should have a length of 1 char16_t";
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TEST_F(UnicodeTest, UTF8toUTF16ASCII) {
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TestUTF8toUTF16(
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{ 0x30 }, // U+0030 or ASCII '0'
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{ 0x0030 },
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"ASCII codepoints should have a length of 1 char16_t");
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}
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TEST_F(UnicodeTest, UTF8toUTF16Plane1Length) {
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ssize_t measured;
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// U+2323 SMILE
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const uint8_t str[] = { 0xE2, 0x8C, 0xA3 };
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measured = utf8_to_utf16_length(str, sizeof(str));
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EXPECT_EQ(1, measured)
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<< "Plane 1 glyphs should have a length of 1 char16_t";
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TEST_F(UnicodeTest, UTF8toUTF16Plane1) {
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TestUTF8toUTF16(
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{ 0xE2, 0x8C, 0xA3 }, // U+2323 SMILE
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{ 0x2323 },
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"Plane 1 codepoints should have a length of 1 char16_t");
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}
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TEST_F(UnicodeTest, UTF8toUTF16SurrogateLength) {
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ssize_t measured;
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// U+10000
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const uint8_t str[] = { 0xF0, 0x90, 0x80, 0x80 };
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measured = utf8_to_utf16_length(str, sizeof(str));
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EXPECT_EQ(2, measured)
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<< "Surrogate pairs should have a length of 2 char16_t";
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TEST_F(UnicodeTest, UTF8toUTF16Surrogate) {
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TestUTF8toUTF16(
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{ 0xF0, 0x90, 0x80, 0x80 }, // U+10000
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{ 0xD800, 0xDC00 },
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"Surrogate pairs should have a length of 2 char16_t");
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}
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TEST_F(UnicodeTest, UTF8toUTF16TruncatedUTF8) {
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ssize_t measured;
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// Truncated U+2323 SMILE
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// U+2323 SMILE
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const uint8_t str[] = { 0xE2, 0x8C };
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measured = utf8_to_utf16_length(str, sizeof(str));
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EXPECT_EQ(-1, measured)
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<< "Truncated UTF-8 should return -1 to indicate invalid";
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TestUTF8toUTF16(
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{ 0xE2, 0x8C }, // Truncated U+2323 SMILE
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{ }, // Conversion should still work but produce nothing
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"Truncated UTF-8 should return -1 to indicate invalid",
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-1);
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}
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TEST_F(UnicodeTest, UTF8toUTF16Normal) {
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const uint8_t str[] = {
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0x30, // U+0030, 1 UTF-16 character
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0xC4, 0x80, // U+0100, 1 UTF-16 character
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0xE2, 0x8C, 0xA3, // U+2323, 1 UTF-16 character
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TestUTF8toUTF16({
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0x30, // U+0030, 1 UTF-16 character
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0xC4, 0x80, // U+0100, 1 UTF-16 character
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0xE2, 0x8C, 0xA3, // U+2323, 1 UTF-16 character
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0xF0, 0x90, 0x80, 0x80, // U+10000, 2 UTF-16 character
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};
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}, {
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0x0030,
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0x0100,
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0x2323,
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0xD800, 0xDC00
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});
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}
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char16_t output[1 + 1 + 1 + 2 + 1]; // Room for null
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TEST_F(UnicodeTest, UTF8toUTF16Invalid) {
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// TODO: The current behavior of utf8_to_utf16 is to treat invalid
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// leading byte (>= 0xf8) as a 4-byte UTF8 sequence, and to treat
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// invalid trailing byte(s) (i.e. bytes not having MSB set) as if
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// they are valid and do the normal conversion. However, a better
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// handling would be to treat invalid sequences as errors, such
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// cases need to be reported and invalid characters (e.g. U+FFFD)
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// could be produced at the place of error. Until a fix is ready
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// and compatibility is not an issue, we will keep testing the
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// current behavior
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TestUTF8toUTF16({
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0xf8, // invalid leading byte
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0xc4, 0x00, // U+0100 with invalid trailing byte
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0xe2, 0x0c, 0xa3, // U+2323 with invalid trailing bytes
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0xf0, 0x10, 0x00, 0x00, // U+10000 with invalid trailing bytes
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}, {
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0x4022, // invalid leading byte (>=0xfc) is treated
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// as valid for 4-byte UTF8 sequence
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0x000C,
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0x00A3, // invalid leadnig byte (b'10xxxxxx) is
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// treated as valid single UTF-8 byte
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0xD800, // invalid trailing bytes are treated
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0xDC00, // as valid bytes and follow normal
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});
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}
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utf8_to_utf16(str, sizeof(str), output, sizeof(output) / sizeof(output[0]));
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TEST_F(UnicodeTest, UTF16toUTF8ZeroLength) {
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// TODO: The current behavior of utf16_to_utf8_length() is that
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// it returns -1 if the input is a zero length UTF16 string.
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// This is inconsistent with utf8_to_utf16_length() where a zero
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// length string returns 0. However, to fix the current behavior,
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// we could have compatibility issue. Until then, we will keep
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// testing the current behavior
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TestUTF16toUTF8({}, {},
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"Zero length UTF16 input should return length of -1.", -1);
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}
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EXPECT_EQ(0x0030, output[0])
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<< "should be U+0030";
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EXPECT_EQ(0x0100, output[1])
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<< "should be U+0100";
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EXPECT_EQ(0x2323, output[2])
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<< "should be U+2323";
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EXPECT_EQ(0xD800, output[3])
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<< "should be first half of surrogate U+10000";
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EXPECT_EQ(0xDC00, output[4])
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<< "should be second half of surrogate U+10000";
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EXPECT_EQ(0, output[5]) << "should be null terminated";
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TEST_F(UnicodeTest, UTF16toUTF8ASCII) {
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TestUTF16toUTF8(
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{ 0x0030 }, // U+0030 or ASCII '0'
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{ '\x30' },
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"ASCII codepoints in UTF16 should give a length of 1 in UTF8");
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}
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TEST_F(UnicodeTest, UTF16toUTF8Plane1) {
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TestUTF16toUTF8(
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{ 0x2323 }, // U+2323 SMILE
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{ '\xE2', '\x8C', '\xA3' },
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"Plane 1 codepoints should have a length of 3 char in UTF-8");
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}
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TEST_F(UnicodeTest, UTF16toUTF8Surrogate) {
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TestUTF16toUTF8(
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{ 0xD800, 0xDC00 }, // U+10000
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{ '\xF0', '\x90', '\x80', '\x80' },
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"Surrogate pairs should have a length of 4 chars");
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}
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TEST_F(UnicodeTest, UTF16toUTF8UnpairedSurrogate) {
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TestUTF16toUTF8(
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{ 0xD800 }, // U+10000 with high surrogate pair only
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{ }, // Unpaired surrogate should be ignored
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"A single unpaired high surrogate should have a length of 0 chars");
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TestUTF16toUTF8(
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{ 0xDC00 }, // U+10000 with low surrogate pair only
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{ }, // Unpaired surrogate should be ignored
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"A single unpaired low surrogate should have a length of 0 chars");
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TestUTF16toUTF8(
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// U+0030, U+0100, U+10000 with high surrogate pair only, U+2323
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{ 0x0030, 0x0100, 0xDC00, 0x2323 },
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{ '\x30', '\xC4', '\x80', '\xE2', '\x8C', '\xA3' },
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"Unpaired high surrogate should be skipped in the middle");
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TestUTF16toUTF8(
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// U+0030, U+0100, U+10000 with high surrogate pair only, U+2323
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{ 0x0030, 0x0100, 0xDC00, 0x2323 },
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{ '\x30', '\xC4', '\x80', '\xE2', '\x8C', '\xA3' },
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"Unpaired low surrogate should be skipped in the middle");
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}
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TEST_F(UnicodeTest, UTF16toUTF8CorrectInvalidSurrogate) {
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// http://b/29250543
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// d841d8 is an invalid start for a surrogate pair. Make sure this is handled by ignoring the
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// first character in the pair and handling the rest correctly.
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TestUTF16toUTF8(
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{ 0xD841, 0xD841, 0xDC41 }, // U+20441
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{ '\xF0', '\xA0', '\x91', '\x81' },
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"Invalid start for a surrogate pair should be ignored");
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}
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TEST_F(UnicodeTest, UTF16toUTF8Normal) {
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TestUTF16toUTF8({
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0x0024, // U+0024 ($) --> 0x24, 1 UTF-8 byte
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0x00A3, // U+00A3 (£) --> 0xC2 0xA3, 2 UTF-8 bytes
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0x0939, // U+0939 (ह) --> 0xE0 0xA4 0xB9, 3 UTF-8 bytes
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0x20AC, // U+20AC (€) --> 0xE2 0x82 0xAC, 3 UTF-8 bytes
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0xD55C, // U+D55C (한)--> 0xED 0x95 0x9C, 3 UTF-8 bytes
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0xD801, 0xDC37, // U+10437 (𐐷) --> 0xF0 0x90 0x90 0xB7, 4 UTF-8 bytes
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}, {
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'\x24',
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'\xC2', '\xA3',
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'\xE0', '\xA4', '\xB9',
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'\xE2', '\x82', '\xAC',
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'\xED', '\x95', '\x9C',
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'\xF0', '\x90', '\x90', '\xB7',
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});
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}
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TEST_F(UnicodeTest, strstr16EmptyTarget) {
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