#include "utf8.h"
#include "wide.h"
#include <library/cpp/testing/unittest/registar.h>
#include <util/string/reverse.h>
#include <algorithm>
namespace {
//! three UTF8 encoded russian letters (A, B, V)
const char utext[] = "\xd0\x90\xd0\x91\xd0\x92";
const char asciiLatinAlphabet[] = "ABCDEFGHIGKLMNOPQRSTUVWXYZabcdefghigklmnopqrstuvwxyz";
const wchar16 wideLatinAlphabet[] = {
'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'G', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z',
'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'g', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', 0};
const wchar16 wideCyrillicAlphabet[] = {
0x0410, 0x0411, 0x0412, 0x0413, 0x0414, 0x0415, 0x0416, 0x0417, 0x0418, 0x0419, 0x041A, 0x041B, 0x041C, 0x041D, 0x041E, 0x041F,
0x0420, 0x0421, 0x0422, 0x0423, 0x0424, 0x0425, 0x0426, 0x0427, 0x0428, 0x0429, 0x042A, 0x042B, 0x042C, 0x042D, 0x042E, 0x042F,
0x0430, 0x0431, 0x0432, 0x0433, 0x0434, 0x0435, 0x0436, 0x0437, 0x0438, 0x0439, 0x043A, 0x043B, 0x043C, 0x043D, 0x043E, 0x043F,
0x0440, 0x0441, 0x0442, 0x0443, 0x0444, 0x0445, 0x0446, 0x0447, 0x0448, 0x0449, 0x044A, 0x044B, 0x044C, 0x044D, 0x044E, 0x044F, 0x00};
const char utf8CyrillicAlphabet[] =
"\xd0\x90\xd0\x91\xd0\x92\xd0\x93\xd0\x94\xd0\x95\xd0\x96\xd0\x97"
"\xd0\x98\xd0\x99\xd0\x9a\xd0\x9b\xd0\x9c\xd0\x9d\xd0\x9e\xd0\x9f"
"\xd0\xa0\xd0\xa1\xd0\xa2\xd0\xa3\xd0\xa4\xd0\xa5\xd0\xa6\xd0\xa7"
"\xd0\xa8\xd0\xa9\xd0\xaa\xd0\xab\xd0\xac\xd0\xad\xd0\xae\xd0\xaf"
"\xd0\xb0\xd0\xb1\xd0\xb2\xd0\xb3\xd0\xb4\xd0\xb5\xd0\xb6\xd0\xb7"
"\xd0\xb8\xd0\xb9\xd0\xba\xd0\xbb\xd0\xbc\xd0\xbd\xd0\xbe\xd0\xbf"
"\xd1\x80\xd1\x81\xd1\x82\xd1\x83\xd1\x84\xd1\x85\xd1\x86\xd1\x87"
"\xd1\x88\xd1\x89\xd1\x8a\xd1\x8b\xd1\x8c\xd1\x8d\xd1\x8e\xd1\x8f";
const wchar32 LEAD_BITS_MASK_2_BYTES = 0x1F;
const wchar32 LEAD_BITS_MASK_3_BYTES = 0x0F;
const wchar32 LEAD_BITS_MASK_4_BYTES = 0x07;
wchar16 ws[] = {
0x0009,
0x000A, 0x2028, 0x2029,
0x000B,
0x000C,
0x000D,
0x0020, 0x1680,
0x2000, 0x2001, 0x2002, 0x2003, 0x2004, 0x2005, 0x2006, 0x2007, 0x2008, 0x2009, 0x200A, 0x200B,
0x202F, 0x205F, 0x3000,
0x00A0};
const size_t CaseTestDataSize = 10;
wchar32 WideStringTestData[][CaseTestDataSize] = {
{0x01C4, 0x10428, 0x10429, 0x10447, 0x10441, 0x1C03, 0x00A0, 0x10400, 0x10415, 0x10437}, // original
{0x01C6, 0x10428, 0x10429, 0x10447, 0x10441, 0x1C03, 0x00A0, 0x10428, 0x1043D, 0x10437}, // lower
{0x01C4, 0x10400, 0x10401, 0x1041F, 0x10419, 0x1C03, 0x00A0, 0x10400, 0x10415, 0x1040F}, // upper
{0x01C5, 0x10428, 0x10429, 0x10447, 0x10441, 0x1C03, 0x00A0, 0x10428, 0x1043D, 0x10437}, // title
};
TUtf16String CreateUnicodeText() {
const int len = 256;
wchar16 text[len] = {
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x00 - 0x0F
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x10 - 0x1F
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x20 - 0x2F
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x30 - 0x3F
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x40 - 0x4F
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x50 - 0x5F
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x60 - 0x6F
0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, // 0x70 - 0x7F
0x0301, 0x00C4, 0x00D6, 0x00DC, 0x0104, 0x0106, 0x0118, 0x0141, 0x00E0, 0x00E2, 0x00E7, 0x00E8, 0x00E9, 0x00EA, 0x0490, 0x00AD, // 0x80 - 0x8F
0x00DF, 0x00E4, 0x00F6, 0x00FC, 0x0105, 0x0107, 0x0119, 0x0142, 0x00EB, 0x00EE, 0x00EF, 0x00F4, 0x00F9, 0x00FB, 0x0491, 0x92CF, // 0x90 - 0x9F
0x00A0, 0x0143, 0x00D3, 0x015A, 0x017B, 0x0179, 0x046C, 0x00A7, 0x0401, 0x0462, 0x0472, 0x0474, 0x040E, 0x0406, 0x0404, 0x0407, // 0xA0 - 0xAF
0x00B0, 0x0144, 0x00F3, 0x015B, 0x017C, 0x017A, 0x046D, 0x2116, 0x0451, 0x0463, 0x0473, 0x0475, 0x045E, 0x0456, 0x0454, 0x0457 // 0xB0 - 0xBF
};
for (int i = 0; i < len; ++i) {
if (i <= 0x7F) { // ASCII characters without 0x7 and 0x1B
text[i] = static_cast<wchar16>(i);
} else if (i >= 0xC0 && i <= 0xFF) { // russian characters (without YO and yo)
text[i] = static_cast<wchar16>(i + 0x0350); // 0x0410 - 0x044F
}
}
return TUtf16String(text, len);
}
TString CreateUTF8Text() {
char text[] = {
'\x00', '\x01', '\x02', '\x03', '\x04', '\x05', '\x06', '\x07', '\x08', '\x09', '\x0a', '\x0b', '\x0c', '\x0d', '\x0e', '\x0f',
'\x10', '\x11', '\x12', '\x13', '\x14', '\x15', '\x16', '\x17', '\x18', '\x19', '\x1a', '\x1b', '\x1c', '\x1d', '\x1e', '\x1f',
'\x20', '\x21', '\x22', '\x23', '\x24', '\x25', '\x26', '\x27', '\x28', '\x29', '\x2a', '\x2b', '\x2c', '\x2d', '\x2e', '\x2f',
'\x30', '\x31', '\x32', '\x33', '\x34', '\x35', '\x36', '\x37', '\x38', '\x39', '\x3a', '\x3b', '\x3c', '\x3d', '\x3e', '\x3f',
'\x40', '\x41', '\x42', '\x43', '\x44', '\x45', '\x46', '\x47', '\x48', '\x49', '\x4a', '\x4b', '\x4c', '\x4d', '\x4e', '\x4f',
'\x50', '\x51', '\x52', '\x53', '\x54', '\x55', '\x56', '\x57', '\x58', '\x59', '\x5a', '\x5b', '\x5c', '\x5d', '\x5e', '\x5f',
'\x60', '\x61', '\x62', '\x63', '\x64', '\x65', '\x66', '\x67', '\x68', '\x69', '\x6a', '\x6b', '\x6c', '\x6d', '\x6e', '\x6f',
'\x70', '\x71', '\x72', '\x73', '\x74', '\x75', '\x76', '\x77', '\x78', '\x79', '\x7a', '\x7b', '\x7c', '\x7d', '\x7e', '\x7f',
'\xcc', '\x81', '\xc3', '\x84', '\xc3', '\x96', '\xc3', '\x9c', '\xc4', '\x84', '\xc4', '\x86', '\xc4', '\x98', '\xc5', '\x81',
'\xc3', '\xa0', '\xc3', '\xa2', '\xc3', '\xa7', '\xc3', '\xa8', '\xc3', '\xa9', '\xc3', '\xaa', '\xd2', '\x90', '\xc2', '\xad',
'\xc3', '\x9f', '\xc3', '\xa4', '\xc3', '\xb6', '\xc3', '\xbc', '\xc4', '\x85', '\xc4', '\x87', '\xc4', '\x99', '\xc5', '\x82',
'\xc3', '\xab', '\xc3', '\xae', '\xc3', '\xaf', '\xc3', '\xb4', '\xc3', '\xb9', '\xc3', '\xbb', '\xd2', '\x91', '\xe9', '\x8b',
'\x8f', '\xc2', '\xa0', '\xc5', '\x83', '\xc3', '\x93', '\xc5', '\x9a', '\xc5', '\xbb', '\xc5', '\xb9', '\xd1', '\xac', '\xc2',
'\xa7', '\xd0', '\x81', '\xd1', '\xa2', '\xd1', '\xb2', '\xd1', '\xb4', '\xd0', '\x8e', '\xd0', '\x86', '\xd0', '\x84', '\xd0',
'\x87', '\xc2', '\xb0', '\xc5', '\x84', '\xc3', '\xb3', '\xc5', '\x9b', '\xc5', '\xbc', '\xc5', '\xba', '\xd1', '\xad', '\xe2',
'\x84', '\x96', '\xd1', '\x91', '\xd1', '\xa3', '\xd1', '\xb3', '\xd1', '\xb5', '\xd1', '\x9e', '\xd1', '\x96', '\xd1', '\x94',
'\xd1', '\x97', '\xd0', '\x90', '\xd0', '\x91', '\xd0', '\x92', '\xd0', '\x93', '\xd0', '\x94', '\xd0', '\x95', '\xd0', '\x96',
'\xd0', '\x97', '\xd0', '\x98', '\xd0', '\x99', '\xd0', '\x9a', '\xd0', '\x9b', '\xd0', '\x9c', '\xd0', '\x9d', '\xd0', '\x9e',
'\xd0', '\x9f', '\xd0', '\xa0', '\xd0', '\xa1', '\xd0', '\xa2', '\xd0', '\xa3', '\xd0', '\xa4', '\xd0', '\xa5', '\xd0', '\xa6',
'\xd0', '\xa7', '\xd0', '\xa8', '\xd0', '\xa9', '\xd0', '\xaa', '\xd0', '\xab', '\xd0', '\xac', '\xd0', '\xad', '\xd0', '\xae',
'\xd0', '\xaf', '\xd0', '\xb0', '\xd0', '\xb1', '\xd0', '\xb2', '\xd0', '\xb3', '\xd0', '\xb4', '\xd0', '\xb5', '\xd0', '\xb6',
'\xd0', '\xb7', '\xd0', '\xb8', '\xd0', '\xb9', '\xd0', '\xba', '\xd0', '\xbb', '\xd0', '\xbc', '\xd0', '\xbd', '\xd0', '\xbe',
'\xd0', '\xbf', '\xd1', '\x80', '\xd1', '\x81', '\xd1', '\x82', '\xd1', '\x83', '\xd1', '\x84', '\xd1', '\x85', '\xd1', '\x86',
'\xd1', '\x87', '\xd1', '\x88', '\xd1', '\x89', '\xd1', '\x8a', '\xd1', '\x8b', '\xd1', '\x8c', '\xd1', '\x8d', '\xd1', '\x8e',
'\xd1', '\x8f'};
return TString(text, Y_ARRAY_SIZE(text));
}
//! use this function to dump UTF8 text into a file in case of any changes
// void DumpUTF8Text() {
// TString s = WideToUTF8(UnicodeText);
// std::ofstream f("utf8.txt");
// f << std::hex;
// for (int i = 0; i < (int)s.size(); ++i) {
// f << "0x" << std::setw(2) << std::setfill('0') << (int)(ui8)s[i] << ", ";
// if ((i + 1) % 16 == 0)
// f << std::endl;
// }
// }
void CheckRecodeOK(wchar32 expected, unsigned char* first, size_t n) {
wchar32 w = 0;
const unsigned char* p = first;
RECODE_RESULT r = ReadUTF8CharAndAdvance(w, p, first + n);
UNIT_ASSERT(w == expected);
UNIT_ASSERT(size_t(p - first) == n);
UNIT_ASSERT(r == RECODE_OK);
}
void CheckBrokenSymbol(unsigned char* first, unsigned char* last) {
wchar32 w = 0;
const unsigned char* p = first;
RECODE_RESULT r = ReadUTF8CharAndAdvance(w, p, last);
UNIT_ASSERT(w == BROKEN_RUNE);
UNIT_ASSERT(p - first == 0);
UNIT_ASSERT(r == RECODE_BROKENSYMBOL);
}
void CheckEndOfInput(unsigned char* first, size_t n) {
wchar32 w = 0;
const unsigned char* p = first;
RECODE_RESULT r = ReadUTF8CharAndAdvance(w, p, first + n);
(void)w;
UNIT_ASSERT(p - first == 0);
UNIT_ASSERT(r == RECODE_EOINPUT);
}
void CheckCharLen(unsigned char* first, unsigned char* last, size_t len, RECODE_RESULT result) {
size_t n = 0;
RECODE_RESULT r = GetUTF8CharLen(n, first, last);
UNIT_ASSERT(n == len);
UNIT_ASSERT(r == result);
}
}
class TConversionTest: public TTestBase {
private:
//! @note every of the text can have zeros in the middle
const TUtf16String UnicodeText_;
const TString Utf8Text_;
private:
UNIT_TEST_SUITE(TConversionTest);
UNIT_TEST(TestReadUTF8Char);
UNIT_TEST(TestGetUTF8CharLen);
UNIT_TEST(TestWriteUTF8Char);
UNIT_TEST(TestUTF8ToWide);
UNIT_TEST(TestWideToUTF8);
UNIT_TEST(TestGetNumOfUTF8Chars);
UNIT_TEST(TestSubstrUTF8);
UNIT_TEST(TestUnicodeCase);
UNIT_TEST(TestUnicodeDetails);
UNIT_TEST(TestHexConversion);
UNIT_TEST_SUITE_END();
public:
TConversionTest()
: UnicodeText_(CreateUnicodeText())
, Utf8Text_(CreateUTF8Text())
{
}
void TestReadUTF8Char();
void TestGetUTF8CharLen();
void TestWriteUTF8Char();
void TestUTF8ToWide();
void TestWideToUTF8();
void TestGetNumOfUTF8Chars();
void TestSubstrUTF8();
void TestUnicodeCase();
void TestUnicodeDetails();
void TestHexConversion();
};
UNIT_TEST_SUITE_REGISTRATION(TConversionTest);
void TConversionTest::TestHexConversion() {
for (char ch = '0'; ch <= '9'; ++ch) {
UNIT_ASSERT(isxdigit(ch));
UNIT_ASSERT(IsHexdigit(ch));
}
for (char ch = 'a'; ch <= 'f'; ++ch) {
UNIT_ASSERT(isxdigit(ch));
UNIT_ASSERT(IsHexdigit(ch));
}
for (char ch = 'A'; ch <= 'F'; ++ch) {
UNIT_ASSERT(isxdigit(ch));
UNIT_ASSERT(IsHexdigit(ch));
}
for (wchar16 i = std::numeric_limits<wchar16>::min(); i < std::numeric_limits<wchar16>::max(); ++i) {
if (IsHexdigit(i)) {
UNIT_ASSERT(isxdigit(char(i)));
}
}
}
void TConversionTest::TestReadUTF8Char() {
wchar32 e; // expected unicode char
wchar32 c;
unsigned long u; // single UTF8 encoded character
unsigned char* const first = reinterpret_cast<unsigned char*>(&u);
unsigned char* const last = first + sizeof(u);
// all ASCII characters are converted with no change (zero converted successfully as well)
for (c = 0; c <= 0x7F; ++c) {
u = c;
CheckRecodeOK(c, first, 1);
}
// broken symbols from the second half of ASCII table (1000 0000 - 1011 1111)
for (c = 0x80; c <= 0xBF; ++c) {
u = c;
CheckBrokenSymbol(first, last);
}
// overlong encoding: leading byte of 2-byte symbol: 1100 0000 - 1100 0001
for (c = 0xC0; c <= 0xC1; ++c) {
u = c;
CheckBrokenSymbol(first, last);
u |= 0x8000;
CheckBrokenSymbol(first, first + 2);
CheckEndOfInput(first, 1);
}
// leading byte of 2-byte symbol: 1100 0000 - 1101 1111
for (c = 0xC2; c <= 0xDF; ++c) {
u = c;
CheckBrokenSymbol(first, last);
u |= 0x8000;
// w: 0000 0000 0000 0000 - 0000 0111 1100 0000
e = c & LEAD_BITS_MASK_2_BYTES;
e <<= 6;
CheckRecodeOK(e, first, 2);
CheckEndOfInput(first, 1);
}
// possible overlong encoding with leading byte 1110 0000
{
u = c = 0xE0;
CheckBrokenSymbol(first, last);
u |= 0x808000;
CheckBrokenSymbol(first, first + 3);
u = c | 0x80A000;
e = 0x800;
CheckRecodeOK(e, first, 3);
CheckEndOfInput(first, 2);
CheckEndOfInput(first, 1);
}
// leading byte of 3-byte symbol: 1110 0001 - 1110 1111
for (c = 0xE1; c <= 0xEF; ++c) {
u = c;
CheckBrokenSymbol(first, last);
u |= 0x808000;
// w: 0000 0000 0000 0000 - 0000 0111 1100 0000
e = c & LEAD_BITS_MASK_3_BYTES;
e <<= 12;
CheckRecodeOK(e, first, 3);
CheckEndOfInput(first, 2);
CheckEndOfInput(first, 1);
}
// possible overlong encoding with leading byte 1111 0000
{
u = c = 0xF0;
CheckBrokenSymbol(first, last);
u |= 0x80808000;
CheckBrokenSymbol(first, first + 4);
u = c | 0x80809000;
e = 0x10000;
CheckRecodeOK(e, first, 4);
CheckEndOfInput(first, 3);
CheckEndOfInput(first, 2);
CheckEndOfInput(first, 1);
}
// leading byte of 4-byte symbol: 1111 0001 - 1111 0111
for (c = 0xF1; c <= 0xF3; ++c) {
u = c;
CheckBrokenSymbol(first, last);
u |= 0x80808000;
// w: 0000 0000 0000 0000 - 0000 0111 1100 0000
e = c & LEAD_BITS_MASK_4_BYTES;
e <<= 18;
CheckRecodeOK(e, first, 4);
CheckEndOfInput(first, 3);
CheckEndOfInput(first, 2);
CheckEndOfInput(first, 1);
}
// possible invalid code points with leading byte 1111 0100
{
c = 0xF4;
u = 0x80808000 | c;
e = c & LEAD_BITS_MASK_4_BYTES;
e <<= 18;
CheckRecodeOK(e, first, 4);
// the largest possible Unicode code point
u = 0xBFBF8F00 | c;
e = 0x10FFFF;
CheckRecodeOK(e, first, 4);
u = 0x80809000 | c;
CheckBrokenSymbol(first, last);
}
// broken symbols: 1111 0101 - 1111 1111
for (c = 0xF5; c <= 0xFF; ++c) {
u = c;
CheckBrokenSymbol(first, last);
}
}
void TConversionTest::TestGetUTF8CharLen() {
wchar32 c;
unsigned long u; // single UTF8 encoded character
unsigned char* const first = reinterpret_cast<unsigned char*>(&u);
unsigned char* const last = first + sizeof(u);
// all ASCII characters are converted with no change (zero converted successfully as well)
for (c = 0; c <= 0x7F; ++c) {
u = c;
CheckCharLen(first, last, 1, RECODE_OK);
}
// broken symbols from the second half of ASCII table (1000 0000 - 1011 1111)
for (c = 0x80; c <= 0xBF; ++c) {
u = c;
CheckCharLen(first, last, 0, RECODE_BROKENSYMBOL);
}
// leading byte of 2-byte symbol: 1100 0000 - 1101 1111
for (c = 0xC0; c <= 0xDF; ++c) {
u = c;
CheckCharLen(first, last, 0, RECODE_BROKENSYMBOL);
u |= 0x8000;
// w: 0000 0000 0000 0000 - 0000 0111 1100 0000
CheckCharLen(first, last, 2, RECODE_OK);
CheckCharLen(first, first + 1, 0, RECODE_EOINPUT);
}
// leading byte of 3-byte symbol: 1110 0000 - 1110 1111
for (c = 0xE0; c <= 0xEF; ++c) {
u = c;
CheckCharLen(first, last, 0, RECODE_BROKENSYMBOL);
u |= 0x808000;
// w: 0000 0000 0000 0000 - 0000 0111 1100 0000
CheckCharLen(first, last, 3, RECODE_OK);
CheckCharLen(first, first + 2, 0, RECODE_EOINPUT);
CheckCharLen(first, first + 1, 0, RECODE_EOINPUT);
}
// leading byte of 4-byte symbol: 1111 0000 - 1111 0111
for (c = 0xF0; c <= 0xF3; ++c) {
u = c;
CheckCharLen(first, last, 0, RECODE_BROKENSYMBOL);
u |= 0x80808000;
// w: 0000 0000 0000 0000 - 0000 0111 1100 0000
CheckCharLen(first, last, 4, RECODE_OK);
CheckCharLen(first, first + 3, 0, RECODE_EOINPUT);
CheckCharLen(first, first + 2, 0, RECODE_EOINPUT);
CheckCharLen(first, first + 1, 0, RECODE_EOINPUT);
}
// broken symbols: 1111 1000 - 1111 1111
for (c = 0xF8; c <= 0xFF; ++c) {
u = c;
CheckCharLen(first, last, 0, RECODE_BROKENSYMBOL);
}
}
void TConversionTest::TestWriteUTF8Char() {
wchar32 w;
unsigned long u; // single UTF8 encoded character
size_t n;
for (w = 0x00; w < 0x80; ++w) {
u = 0;
WriteUTF8Char(w, n, reinterpret_cast<unsigned char*>(&u));
UNIT_ASSERT((u & 0xFFFFFF80) == 0x00000000);
UNIT_ASSERT(n == 1);
}
for (w = 0x80; w < 0x800; ++w) {
u = 0;
WriteUTF8Char(w, n, reinterpret_cast<unsigned char*>(&u));
UNIT_ASSERT((u & 0xFFFFC000) == 0x00008000); // see constants in ReadUTF8Char
UNIT_ASSERT(n == 2);
}
for (w = 0x800; w < 0x10000; ++w) {
u = 0;
WriteUTF8Char(w, n, reinterpret_cast<unsigned char*>(&u));
UNIT_ASSERT((u & 0xFFC0C000) == 0x00808000); // see constants in ReadUTF8Char
UNIT_ASSERT(n == 3);
}
for (w = 0x10000; w < 0x80; ++w) {
WriteUTF8Char(w, n, reinterpret_cast<unsigned char*>(&u));
UNIT_ASSERT((u & 0xC0C0C000) == 0x80808000); // see constants in ReadUTF8Char
UNIT_ASSERT(n == 4);
}
}
static void TestSurrogates(const char* str, const wchar16* wide, size_t wideSize) {
TUtf16String w = UTF8ToWide(str);
UNIT_ASSERT(w.size() == wideSize);
UNIT_ASSERT(!memcmp(w.c_str(), wide, wideSize));
TString s = WideToUTF8(w);
UNIT_ASSERT(s == str);
}
void TConversionTest::TestUTF8ToWide() {
TUtf16String w = UTF8ToWide(Utf8Text_);
UNIT_ASSERT(w.size() == 256);
UNIT_ASSERT(w.size() == UnicodeText_.size());
for (int i = 0; i < 256; ++i) {
UNIT_ASSERT_VALUES_EQUAL(w[i], UnicodeText_[i]);
}
wchar16 buffer[4] = {0};
size_t written = 0;
// the function must extract 2 symbols only
bool result = UTF8ToWide(utext, 5, buffer, written);
UNIT_ASSERT(!result);
UNIT_ASSERT(buffer[0] == 0x0410);
UNIT_ASSERT(buffer[1] == 0x0411);
UNIT_ASSERT(buffer[2] == 0x0000);
UNIT_ASSERT(buffer[3] == 0x0000);
UNIT_ASSERT(written == 2);
memset(buffer, 0, 4);
written = 0;
result = UTF8ToWide(utext, 1, buffer, written);
UNIT_ASSERT(!result);
UNIT_ASSERT(buffer[0] == 0x0000);
UNIT_ASSERT(buffer[1] == 0x0000);
UNIT_ASSERT(buffer[2] == 0x0000);
UNIT_ASSERT(buffer[3] == 0x0000);
UNIT_ASSERT(written == 0);
w = UTF8ToWide(asciiLatinAlphabet, strlen(asciiLatinAlphabet));
UNIT_ASSERT(w == wideLatinAlphabet);
w = UTF8ToWide(utf8CyrillicAlphabet, strlen(utf8CyrillicAlphabet));
UNIT_ASSERT(w == wideCyrillicAlphabet);
const char* utf8NonBMP = "\xf4\x80\x89\x84\xf4\x80\x89\x87\xf4\x80\x88\xba";
wchar16 wNonBMPDummy[] = {0xDBC0, 0xDE44, 0xDBC0, 0xDE47, 0xDBC0, 0xDE3A};
TestSurrogates(utf8NonBMP, wNonBMPDummy, Y_ARRAY_SIZE(wNonBMPDummy));
const char* utf8NonBMP2 = "ab\xf4\x80\x89\x87n";
wchar16 wNonBMPDummy2[] = {'a', 'b', 0xDBC0, 0xDE47, 'n'};
TestSurrogates(utf8NonBMP2, wNonBMPDummy2, Y_ARRAY_SIZE(wNonBMPDummy2));
UNIT_ASSERT_VALUES_EQUAL(WideToUTF8(UTF8ToWide(WideToUTF8(UTF8ToWide<true>(
"m\xFB\xB2\xA5\xAA\xAFyeuse.sexwebcamz.com")))),
TString(
"m\xEF\xBF\xBD\xEF\xBF\xBD\xEF\xBF\xBD\xEF\xBF\xBD\xEF\xBF\xBDyeuse.sexwebcamz.com"));
}
void TConversionTest::TestWideToUTF8() {
TString s = WideToUTF8(UnicodeText_);
size_t len = 0;
for (TUtf16String::const_iterator i = UnicodeText_.begin(), ie = UnicodeText_.end(); i != ie; ++i) {
len += UTF8RuneLenByUCS(*i);
}
UNIT_ASSERT(s.size() == Utf8Text_.size());
UNIT_ASSERT(s.size() == len);
for (int i = 0; i < static_cast<int>(s.size()); ++i) {
UNIT_ASSERT_VALUES_EQUAL(s[i], Utf8Text_[i]);
}
}
void TConversionTest::TestGetNumOfUTF8Chars() {
size_t n = 0;
bool result = GetNumberOfUTF8Chars(Utf8Text_.c_str(), Utf8Text_.size(), n);
UNIT_ASSERT(result);
UNIT_ASSERT(n == 256);
n = 0;
result = GetNumberOfUTF8Chars(utext, 5, n);
UNIT_ASSERT(!result);
UNIT_ASSERT(n == 2);
n = 0;
result = GetNumberOfUTF8Chars(utext, 1, n);
UNIT_ASSERT(!result);
UNIT_ASSERT(n == 0);
UNIT_ASSERT_EQUAL(GetNumberOfUTF8Chars("привет!"), 7);
}
void TConversionTest::TestSubstrUTF8() {
TStringBuf utextBuf(utext, sizeof(utext));
UNIT_ASSERT(SubstrUTF8(utextBuf, 0, 2) == utextBuf.substr(0, 4));
UNIT_ASSERT(SubstrUTF8(utextBuf, 1, 1) == utextBuf.substr(2, 2));
UNIT_ASSERT(SubstrUTF8(utextBuf, 1, 2) == utextBuf.substr(2, 4));
UNIT_ASSERT(SubstrUTF8(utextBuf, 1, 3) == utextBuf.substr(2, 6));
}
inline bool MustBeSurrogate(wchar32 ch) {
return ch > 0xFFFF;
}
void TConversionTest::TestUnicodeCase() {
// ToLower, ToUpper, ToTitle functions depend on equal size of both original and changed characters
for (wchar32 i = 0; i != NUnicode::UnicodeInstancesLimit(); ++i) {
UNIT_ASSERT(MustBeSurrogate(i) == MustBeSurrogate(ToLower(i)));
UNIT_ASSERT(MustBeSurrogate(i) == MustBeSurrogate(ToUpper(i)));
UNIT_ASSERT(MustBeSurrogate(i) == MustBeSurrogate(ToTitle(i)));
}
}
void TConversionTest::TestUnicodeDetails() {
TUtf16String temp;
for (wchar32 i = 0; i != NUnicode::UnicodeInstancesLimit(); ++i) {
temp.clear();
WriteSymbol(i, temp);
UNIT_ASSERT(temp.size() == W16SymbolSize(temp.c_str(), temp.c_str() + temp.size()));
}
}
class TWideUtilTest: public TTestBase {
UNIT_TEST_SUITE(TWideUtilTest);
UNIT_TEST(TestCollapse);
UNIT_TEST(TestCollapseBuffer);
UNIT_TEST(TestStrip);
UNIT_TEST(TestIsSpace);
UNIT_TEST(TestEscapeHtmlChars);
UNIT_TEST(TestToLower);
UNIT_TEST(TestToUpper);
UNIT_TEST(TestWideString);
UNIT_TEST(TestCountWideChars);
UNIT_TEST(TestIsValidUTF16);
UNIT_TEST(TestIsStringASCII);
UNIT_TEST(TestIsLowerWordStr);
UNIT_TEST(TestIsUpperWordStr);
UNIT_TEST(TestIsTitleStr);
UNIT_TEST(TestIsLowerStr);
UNIT_TEST(TestIsUpperStr);
UNIT_TEST(TestToLowerStr);
UNIT_TEST(TestToUpperStr);
UNIT_TEST(TestToTitleStr);
UNIT_TEST_SUITE_END();
public:
void TestCollapse() {
TUtf16String s;
s.append(ws, Y_ARRAY_SIZE(ws)).append(3, 'a').append(ws, Y_ARRAY_SIZE(ws)).append(3, 'b').append(ws, Y_ARRAY_SIZE(ws));
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide(" aaa bbb "));
{
const TUtf16String w(ASCIIToWide(" a b c "));
s = w;
Collapse(s);
UNIT_ASSERT(s == w);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.c_str() == w.c_str()); // Collapse() does not change the string at all
#endif
}
s = ASCIIToWide(" 123 456 ");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide(" 123 456 "));
s = ASCIIToWide(" 1\n\n\n23\t 4\f\f56 ");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide(" 1 23 4 56 "));
s = ASCIIToWide(" 1\n\n\n\f\f56 ");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide(" 1 56 "));
s = ASCIIToWide(" 1\r\n,\n(\n23\t 4\f\f56 ");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide(" 1 , ( 23 4 56 "));
s = ASCIIToWide("1 23 ");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide("1 23 "));
{
const TUtf16String w = ASCIIToWide(" ");
s = w;
Collapse(s);
UNIT_ASSERT(s == w);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.c_str() == w.c_str()); // Collapse() does not change the string at all
#endif
}
s = ASCIIToWide(" ");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide(" "));
s = ASCIIToWide(",\r\n\"");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide(", \""));
s = ASCIIToWide("-");
Collapse(s);
UNIT_ASSERT(s == ASCIIToWide("-"));
s.clear();
Collapse(s);
UNIT_ASSERT(s == TUtf16String());
}
void TestCollapseBuffer() {
TUtf16String s;
s.append(ws, Y_ARRAY_SIZE(ws)).append(3, 'a').append(ws, Y_ARRAY_SIZE(ws)).append(3, 'b').append(ws, Y_ARRAY_SIZE(ws));
size_t n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide(" aaa bbb "));
s = ASCIIToWide(" a b c ");
n = Collapse(s.begin(), s.size());
UNIT_ASSERT(n == s.size()); // length was not changed
UNIT_ASSERT(s == ASCIIToWide(" a b c "));
s = ASCIIToWide(" 123 456 ");
n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide(" 123 456 "));
s = ASCIIToWide(" 1\n\n\n23\t 4\f\f56 ");
n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide(" 1 23 4 56 "));
s = ASCIIToWide(" 1\n\n\n\f\f56 ");
n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide(" 1 56 "));
s = ASCIIToWide(" 1\r\n,\n(\n23\t 4\f\f56 ");
n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide(" 1 , ( 23 4 56 "));
s = ASCIIToWide("1 23 ");
n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide("1 23 "));
s = ASCIIToWide(" ");
n = Collapse(s.begin(), s.size());
UNIT_ASSERT(n == 1);
UNIT_ASSERT(s == ASCIIToWide(" "));
s = ASCIIToWide(" ");
n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide(" "));
s = ASCIIToWide(",\r\n\"");
n = Collapse(s.begin(), s.size());
s.resize(n);
UNIT_ASSERT(s == ASCIIToWide(", \""));
s = ASCIIToWide("-");
n = Collapse(s.begin(), s.size());
UNIT_ASSERT(n == 1);
UNIT_ASSERT(s == ASCIIToWide("-"));
s = ASCIIToWide("\t");
n = Collapse(s.begin(), s.size());
UNIT_ASSERT(n == 1);
UNIT_ASSERT(s == ASCIIToWide(" "));
s.clear();
n = Collapse(s.begin(), s.size());
UNIT_ASSERT(n == 0);
UNIT_ASSERT(s == TUtf16String());
}
void TestStrip() {
TUtf16String s;
Strip(s);
UNIT_ASSERT(s == TUtf16String());
StripLeft(s);
UNIT_ASSERT(s == TUtf16String());
StripRight(s);
UNIT_ASSERT(s == TUtf16String());
s = ASCIIToWide(" \t\r\n");
Strip(s);
UNIT_ASSERT(s == TUtf16String());
s = ASCIIToWide(" \t\r\n");
StripLeft(s);
UNIT_ASSERT(s == TUtf16String());
s = ASCIIToWide(" \t\r\n");
StripRight(s);
UNIT_ASSERT(s == TUtf16String());
s = ASCIIToWide("\t\f\va \r\n");
Strip(s);
UNIT_ASSERT(s == ASCIIToWide("a"));
s = ASCIIToWide("\t\f\va \r\n");
StripLeft(s);
UNIT_ASSERT(s == ASCIIToWide("a \r\n"));
s = ASCIIToWide("\t\f\va \r\n");
StripRight(s);
UNIT_ASSERT(s == ASCIIToWide("\t\f\va"));
s = ASCIIToWide("\r\na\r\nb\t\tc\r\n");
Strip(s);
UNIT_ASSERT(s == ASCIIToWide("a\r\nb\t\tc"));
s = ASCIIToWide("\r\na\r\nb\t\tc\r\n");
StripLeft(s);
UNIT_ASSERT(s == ASCIIToWide("a\r\nb\t\tc\r\n"));
s = ASCIIToWide("\r\na\r\nb\t\tc\r\n");
StripRight(s);
UNIT_ASSERT(s == ASCIIToWide("\r\na\r\nb\t\tc"));
const TUtf16String w(ASCIIToWide("a b"));
s = w;
Strip(s);
UNIT_ASSERT(s == w);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.c_str() == w.c_str()); // Strip() does not change the string at all
#endif
s = w;
StripLeft(s);
UNIT_ASSERT(s == w);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.c_str() == w.c_str()); // Strip() does not change the string at all
#endif
s = w;
StripRight(s);
UNIT_ASSERT(s == w);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.c_str() == w.c_str()); // Strip() does not change the string at all
#endif
}
void TestIsSpace() {
UNIT_ASSERT(!IsSpace(TUtf16String()));
UNIT_ASSERT(IsSpace(ws, Y_ARRAY_SIZE(ws)));
TUtf16String w;
w.assign(ws, Y_ARRAY_SIZE(ws)).append(TUtf16String(1, '!'));
UNIT_ASSERT(!IsSpace(w.c_str(), w.size()));
w.assign(TUtf16String(1, '_')).append(ws, Y_ARRAY_SIZE(ws));
UNIT_ASSERT(!IsSpace(w.c_str(), w.size()));
w.assign(ws, Y_ARRAY_SIZE(ws)).append(TUtf16String(1, '$')).append(ws, Y_ARRAY_SIZE(ws));
UNIT_ASSERT(!IsSpace(w.c_str(), w.size()));
}
void TestEscapeHtmlChars() {
// characters from the first half of the ASCII table
for (wchar16 c = 1; c < 0x7F; ++c) {
TUtf16String w(1, c);
EscapeHtmlChars<false>(w);
switch (c) {
case '<':
UNIT_ASSERT(w == ASCIIToWide("<"));
break;
case '>':
UNIT_ASSERT(w == ASCIIToWide(">"));
break;
case '&':
UNIT_ASSERT(w == ASCIIToWide("&"));
break;
case '"':
UNIT_ASSERT(w == ASCIIToWide("""));
break;
default:
UNIT_ASSERT(w == TUtf16String(1, c));
break;
}
}
for (wchar16 c = 1; c < 0x7F; ++c) {
TUtf16String w(1, c);
EscapeHtmlChars<true>(w);
switch (c) {
case '<':
UNIT_ASSERT(w == ASCIIToWide("<"));
break;
case '>':
UNIT_ASSERT(w == ASCIIToWide(">"));
break;
case '&':
UNIT_ASSERT(w == ASCIIToWide("&"));
break;
case '"':
UNIT_ASSERT(w == ASCIIToWide("""));
break;
case '\r':
case '\n':
UNIT_ASSERT(w == ASCIIToWide("<BR>"));
break;
default:
UNIT_ASSERT(w == TUtf16String(1, c));
break;
}
}
}
void TestToLower() {
const size_t n = 32;
wchar16 upperCase[n];
std::copy(wideCyrillicAlphabet, wideCyrillicAlphabet + n, upperCase);
ToLower(upperCase, n);
UNIT_ASSERT(TWtringBuf(upperCase, n) == TWtringBuf(wideCyrillicAlphabet + n, n));
}
void TestToUpper() {
const size_t n = 32;
wchar16 lowerCase[n];
std::copy(wideCyrillicAlphabet + n, wideCyrillicAlphabet + n * 2, lowerCase);
ToUpper(lowerCase, n);
UNIT_ASSERT(TWtringBuf(lowerCase, n) == TWtringBuf(wideCyrillicAlphabet, n));
}
void TestWideString() {
const TUtf16String original = UTF32ToWide(WideStringTestData[0], CaseTestDataSize);
const TUtf16String lower = UTF32ToWide(WideStringTestData[1], CaseTestDataSize);
const TUtf16String upper = UTF32ToWide(WideStringTestData[2], CaseTestDataSize);
const TUtf16String title = UTF32ToWide(WideStringTestData[3], CaseTestDataSize);
TUtf16String temp;
temp = original;
temp.to_lower();
UNIT_ASSERT(temp == lower);
temp = original;
ToLower(temp.begin(), temp.size());
UNIT_ASSERT(temp == lower);
temp = original;
temp.to_upper();
UNIT_ASSERT(temp == upper);
temp = original;
ToUpper(temp.begin(), temp.size());
UNIT_ASSERT(temp == upper);
temp = original;
temp.to_title();
UNIT_ASSERT(temp == title);
temp = original;
ToTitle(temp.begin(), temp.size());
UNIT_ASSERT(temp == title);
TVector<wchar32> buffer(WideStringTestData[0], WideStringTestData[0] + CaseTestDataSize);
std::reverse(buffer.begin(), buffer.end());
const TUtf16String reversed = UTF32ToWide(buffer.data(), buffer.size());
temp = original;
ReverseInPlace(temp);
UNIT_ASSERT(temp == reversed);
}
void TestCountWideChars() {
UNIT_ASSERT_EQUAL(CountWideChars(UTF8ToWide("привет!")), 7);
TUtf16String wideStr = UTF8ToWide("\xf0\x9f\x92\xb8привет!");
UNIT_ASSERT_EQUAL(wideStr.size(), 9);
UNIT_ASSERT_EQUAL(CountWideChars(wideStr), 8);
}
void TestIsValidUTF16() {
static wchar16 str1[] = {'h', 'e', 'l', 'l', 'o', '!', 0};
static wchar16 str2[] = {'h', 'e', 'l', 'l', 'o', 0xD842, 0xDEAD, '!', 0};
static wchar16 str3[] = {'h', 'e', 'l', 'l', 'o', 0xD842, '!', 0};
static wchar16 str4[] = {'h', 'e', 'l', 'l', 'o', 0xDEAD, 0xD842, '!', 0};
static wchar16 str5[] = {'h', 'e', 'l', 'l', 'o', 0xD842, 0xDEAD, 0xDEAD, '!', 0};
UNIT_ASSERT(IsValidUTF16(TWtringBuf(str1)));
UNIT_ASSERT(IsValidUTF16(TWtringBuf(str2)));
UNIT_ASSERT(!IsValidUTF16(TWtringBuf(str3)));
UNIT_ASSERT(!IsValidUTF16(TWtringBuf(str4)));
UNIT_ASSERT(!IsValidUTF16(TWtringBuf(str5)));
}
void TestIsStringASCII() {
static char charAscii[] = "0123456789ABCDEF0123456789ABCDEF0123456789ABCDEF";
static wchar16 char16Ascii[] = {
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', 'A',
'B', 'C', 'D', 'E', 'F', '0', '1', '2', '3', '4', '5', '6',
'7', '8', '9', '0', 'A', 'B', 'C', 'D', 'E', 'F', 0};
// Test a variety of the fragment start positions and lengths in order to make
// sure that bit masking in IsStringASCII works correctly.
// Also, test that a non-ASCII character will be detected regardless of its
// position inside the string.
{
const size_t stringLength = Y_ARRAY_SIZE(charAscii) - 1;
for (size_t offset = 0; offset < 8; ++offset) {
for (size_t len = 0, maxLen = stringLength - offset; len < maxLen; ++len) {
UNIT_ASSERT(IsStringASCII(charAscii + offset, charAscii + offset + len));
for (size_t charPos = offset; charPos < len; ++charPos) {
charAscii[charPos] |= '\x80';
UNIT_ASSERT(!IsStringASCII(charAscii + offset, charAscii + offset + len));
charAscii[charPos] &= ~'\x80';
}
}
}
}
{
const size_t stringLength = Y_ARRAY_SIZE(char16Ascii) - 1;
for (size_t offset = 0; offset < 4; ++offset) {
for (size_t len = 0, maxLen = stringLength - offset; len < maxLen; ++len) {
UNIT_ASSERT(IsStringASCII(char16Ascii + offset, char16Ascii + offset + len));
for (size_t charPos = offset; charPos < len; ++charPos) {
char16Ascii[charPos] |= 0x80;
UNIT_ASSERT(
!IsStringASCII(char16Ascii + offset, char16Ascii + offset + len));
char16Ascii[charPos] &= ~0x80;
// Also test when the upper half is non-zero.
char16Ascii[charPos] |= 0x100;
UNIT_ASSERT(
!IsStringASCII(char16Ascii + offset, char16Ascii + offset + len));
char16Ascii[charPos] &= ~0x100;
}
}
}
}
}
void TestIsLowerWordStr() {
UNIT_ASSERT(IsLowerWord(TWtringBuf()));
UNIT_ASSERT(IsLowerWord(UTF8ToWide("")));
UNIT_ASSERT(IsLowerWord(UTF8ToWide("test")));
UNIT_ASSERT(IsLowerWord(UTF8ToWide("тест"))); // "тест" is "test" in russian (cyrrilic)
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("тест тест")));
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("тест100500")));
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("Test")));
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("tesT")));
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("tEst")));
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("Тест")));
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("теСт")));
UNIT_ASSERT(!IsLowerWord(UTF8ToWide("тесТ")));
}
void TestIsUpperWordStr() {
UNIT_ASSERT(IsUpperWord(TWtringBuf()));
UNIT_ASSERT(IsUpperWord(UTF8ToWide("")));
UNIT_ASSERT(IsUpperWord(UTF8ToWide("TEST")));
UNIT_ASSERT(IsUpperWord(UTF8ToWide("ТЕСТ")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("тест тест")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("тест100500")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("Test")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("tesT")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("tEst")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("Тест")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("теСт")));
UNIT_ASSERT(!IsUpperWord(UTF8ToWide("тесТ")));
}
void TestIsTitleStr() {
UNIT_ASSERT(!IsTitleWord(TWtringBuf()));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("t")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("й")));
UNIT_ASSERT(IsTitleWord(UTF8ToWide("T")));
UNIT_ASSERT(IsTitleWord(UTF8ToWide("Й")));
UNIT_ASSERT(IsTitleWord(UTF8ToWide("Test")));
UNIT_ASSERT(IsTitleWord(UTF8ToWide("Тест")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("тест тест")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("тест100500")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("Тест тест")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("Тест100500")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("tesT")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("tEst")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("теСт")));
UNIT_ASSERT(!IsTitleWord(UTF8ToWide("тесТ")));
}
void TestIsLowerStr() {
UNIT_ASSERT(IsLower(TWtringBuf()));
UNIT_ASSERT(IsLower(UTF8ToWide("")));
UNIT_ASSERT(IsLower(UTF8ToWide("test")));
UNIT_ASSERT(IsLower(UTF8ToWide("тест"))); // "тест" is "test" in russian (cyrrilic)
UNIT_ASSERT(IsLower(UTF8ToWide("тест тест")));
UNIT_ASSERT(IsLower(UTF8ToWide("тест100500")));
UNIT_ASSERT(!IsLower(UTF8ToWide("Test")));
UNIT_ASSERT(!IsLower(UTF8ToWide("tesT")));
UNIT_ASSERT(!IsLower(UTF8ToWide("tEst")));
UNIT_ASSERT(!IsLower(UTF8ToWide("Тест")));
UNIT_ASSERT(!IsLower(UTF8ToWide("теСт")));
UNIT_ASSERT(!IsLower(UTF8ToWide("тесТ")));
}
void TestIsUpperStr() {
UNIT_ASSERT(IsUpper(TWtringBuf()));
UNIT_ASSERT(IsUpper(UTF8ToWide("")));
UNIT_ASSERT(IsUpper(UTF8ToWide("TEST")));
UNIT_ASSERT(IsUpper(UTF8ToWide("ТЕСТ")));
UNIT_ASSERT(IsUpper(UTF8ToWide("ТЕСТ ТЕСТ")));
UNIT_ASSERT(IsUpper(UTF8ToWide("ТЕСТ100500")));
UNIT_ASSERT(!IsUpper(UTF8ToWide("Test")));
UNIT_ASSERT(!IsUpper(UTF8ToWide("tesT")));
UNIT_ASSERT(!IsUpper(UTF8ToWide("tEst")));
UNIT_ASSERT(!IsUpper(UTF8ToWide("Тест")));
UNIT_ASSERT(!IsUpper(UTF8ToWide("теСт")));
UNIT_ASSERT(!IsUpper(UTF8ToWide("тесТ")));
}
void TestToLowerStr() {
// In these test and test for `ToUpper` and `ToTitle` we are checking that string keep
// pointing to the same piece of memory we are doing it the following way:
//
// TUtf16String s = ...
// const auto copy = s;
// ...
// UNIT_ASSERT(s.data() == copy.data())
//
// It saves us a couple lines (we are reusing `copy` later) and if one day `TString` will
// become non-refcounted we'll need to rewrite it to something like:
//
// TUtf16String s = ...
// const auto* const data = s.data();
// const auto length = s.length();
// ...
// UNIT_ASSERT(s.data() == data);
// UNIT_ASSERT(s.length() == length);
{
TUtf16String s;
auto writableCopy = s;
const auto copy = s;
const TUtf16String lower;
UNIT_ASSERT(!ToLower(s));
UNIT_ASSERT(s == lower);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToLower(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(!ToLower(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLowerRet(copy) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy)) == lower);
}
{
TUtf16String s = UTF8ToWide("");
auto writableCopy = s;
const auto copy = s;
const TUtf16String lower;
UNIT_ASSERT(!ToLower(s));
UNIT_ASSERT(s == lower);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToLower(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(!ToLower(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLowerRet(copy) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy)) == lower);
}
{
TUtf16String s;
const auto copy = s;
const TUtf16String lower;
UNIT_ASSERT(!ToLower(s, 100500));
UNIT_ASSERT(s == lower);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToLowerRet(copy, 100500) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy), 100500) == lower);
}
{
TUtf16String s;
const auto copy = s;
const TUtf16String lower;
UNIT_ASSERT(!ToLower(s, 100500, 1111));
UNIT_ASSERT(s == lower);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToLowerRet(copy, 100500, 1111) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy), 100500, 1111) == lower);
}
{
auto s = UTF8ToWide("Й");
auto writableCopy = s;
const auto copy = s;
const auto lower = UTF8ToWide("й");
UNIT_ASSERT(ToLower(s));
UNIT_ASSERT(s == lower);
UNIT_ASSERT(ToLower(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLower(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLowerRet(copy) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy)) == lower);
}
{
auto s = UTF8ToWide("й");
auto writableCopy = s;
const auto copy = s;
const auto lower = UTF8ToWide("й");
UNIT_ASSERT(!ToLower(s));
UNIT_ASSERT(s == lower);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToLower(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(!ToLower(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLowerRet(copy) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy)) == lower);
}
{
auto s = UTF8ToWide("тест");
auto writableCopy = s;
const auto copy = s;
const auto lower = UTF8ToWide("тест");
UNIT_ASSERT(!ToLower(s));
UNIT_ASSERT(s == lower);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToLower(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(!ToLower(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLowerRet(copy) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy)) == lower);
}
{
auto s = UTF8ToWide("Тест");
auto writableCopy = s;
const auto copy = s;
const auto lower = UTF8ToWide("тест");
UNIT_ASSERT(ToLower(s));
UNIT_ASSERT(s == lower);
UNIT_ASSERT(ToLower(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLower(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == lower);
UNIT_ASSERT(ToLowerRet(copy) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy)) == lower);
}
{
TUtf16String s = UTF8ToWide("тЕст");
const auto copy = s;
const auto lower = UTF8ToWide("тест");
UNIT_ASSERT(ToLower(s));
UNIT_ASSERT(s == UTF8ToWide("тест"));
UNIT_ASSERT(ToLowerRet(copy) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy)) == lower);
}
{
auto s = UTF8ToWide("тЕст");
const auto copy = s;
const auto lower = UTF8ToWide("тЕст");
UNIT_ASSERT(!ToLower(s, 2));
UNIT_ASSERT(s == lower);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToLowerRet(copy, 2) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy), 2) == lower);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto lower = UTF8ToWide("тест");
UNIT_ASSERT(ToLower(s, 2));
UNIT_ASSERT(s == lower);
UNIT_ASSERT(ToLowerRet(copy, 2) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy), 2) == lower);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto lower = UTF8ToWide("теСт");
UNIT_ASSERT(!ToLower(s, 3, 1));
UNIT_ASSERT(s == copy);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToLowerRet(copy, 3, 1) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy), 3, 1) == lower);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto lower = UTF8ToWide("теСт");
UNIT_ASSERT(!ToLower(s, 3, 100500));
UNIT_ASSERT(s == copy);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToLowerRet(copy, 3, 100500) == lower);
UNIT_ASSERT(ToLowerRet(TWtringBuf(copy), 3, 100500) == lower);
}
}
void TestToUpperStr() {
{
TUtf16String s;
auto writableCopy = s;
const auto copy = s;
const TUtf16String upper;
UNIT_ASSERT(!ToUpper(s));
UNIT_ASSERT(s == upper);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(!ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy)) == upper);
}
{
auto s = UTF8ToWide("");
auto writableCopy = s;
const auto copy = s;
const TUtf16String upper;
UNIT_ASSERT(!ToUpper(s));
UNIT_ASSERT(s == upper);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(!ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy)) == upper);
}
{
TUtf16String s;
auto writableCopy = s;
const auto copy = s;
const TUtf16String upper;
UNIT_ASSERT(!ToUpper(s, 100500));
UNIT_ASSERT(s == upper);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(!ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy, 100500) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy), 100500) == upper);
}
{
TUtf16String s;
const auto copy = s;
const TUtf16String upper;
UNIT_ASSERT(!ToUpper(s, 100500, 1111));
UNIT_ASSERT(s == upper);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToUpperRet(copy, 100500, 1111) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy), 100500, 1111) == upper);
}
{
auto s = UTF8ToWide("й");
auto writableCopy = s;
const auto copy = s;
const auto upper = UTF8ToWide("Й");
UNIT_ASSERT(ToUpper(s));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy)) == upper);
}
{
auto s = UTF8ToWide("Й");
auto writableCopy = s;
const auto copy = s;
const auto upper = UTF8ToWide("Й");
UNIT_ASSERT(!ToUpper(s));
UNIT_ASSERT(s == copy);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(!ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy)) == upper);
}
{
auto s = UTF8ToWide("тест");
auto writableCopy = s;
const auto copy = s;
const auto upper = UTF8ToWide("ТЕСТ");
UNIT_ASSERT(ToUpper(s));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy)) == upper);
}
{
auto s = UTF8ToWide("Тест");
auto writableCopy = s;
const auto copy = s;
const auto upper = UTF8ToWide("ТЕСТ");
UNIT_ASSERT(ToUpper(s));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy)) == upper);
}
{
auto s = UTF8ToWide("тЕст");
auto writableCopy = s;
const auto copy = s;
const auto upper = UTF8ToWide("ТЕСТ");
UNIT_ASSERT(ToUpper(s));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpper(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpper(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == upper);
UNIT_ASSERT(ToUpperRet(copy) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy)) == upper);
}
{
auto s = UTF8ToWide("тЕст");
const auto copy = s;
const auto upper = UTF8ToWide("тЕСТ");
UNIT_ASSERT(ToUpper(s, 2));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpperRet(copy, 2) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy), 2) == upper);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto upper = UTF8ToWide("теСТ");
UNIT_ASSERT(ToUpper(s, 2));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpperRet(copy, 2) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy), 2) == upper);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto upper = UTF8ToWide("теСТ");
UNIT_ASSERT(ToUpper(s, 3, 1));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpperRet(copy, 3, 1) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy), 3, 1) == upper);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto upper = UTF8ToWide("теСТ");
UNIT_ASSERT(ToUpper(s, 3, 100500));
UNIT_ASSERT(s == upper);
UNIT_ASSERT(ToUpperRet(copy, 3, 100500) == upper);
UNIT_ASSERT(ToUpperRet(TWtringBuf(copy), 3, 100500) == upper);
}
}
void TestToTitleStr() {
{
TUtf16String s;
auto writableCopy = s;
const auto copy = s;
const TUtf16String title;
UNIT_ASSERT(!ToTitle(s));
UNIT_ASSERT(s == title);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToTitle(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(!ToTitle(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
auto s = UTF8ToWide("");
auto writableCopy = s;
const auto copy = s;
const TUtf16String title;
UNIT_ASSERT(!ToTitle(s));
UNIT_ASSERT(s == title);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToTitle(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(!ToTitle(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
TUtf16String s;
const auto copy = s;
const TUtf16String title;
UNIT_ASSERT(!ToTitle(s, 100500));
UNIT_ASSERT(s == title);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
TUtf16String s;
const auto copy = s;
const TUtf16String title;
UNIT_ASSERT(!ToTitle(s, 100500, 1111));
UNIT_ASSERT(s == title);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
auto s = UTF8ToWide("й");
auto writableCopy = s;
const auto copy = s;
const auto title = UTF8ToWide("Й");
UNIT_ASSERT(ToTitle(s));
UNIT_ASSERT(s == title);
UNIT_ASSERT(ToTitle(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitle(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
auto s = UTF8ToWide("Й");
auto writableCopy = s;
const auto copy = s;
const auto title = UTF8ToWide("Й");
UNIT_ASSERT(!ToTitle(s));
UNIT_ASSERT(s == title);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToTitle(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(!ToTitle(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
auto s = UTF8ToWide("тест");
auto writableCopy = s;
const auto copy = s;
const auto title = UTF8ToWide("Тест");
UNIT_ASSERT(ToTitle(s));
UNIT_ASSERT(s == title);
UNIT_ASSERT(ToTitle(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitle(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
auto s = UTF8ToWide("Тест");
auto writableCopy = s;
const auto copy = s;
const auto title = UTF8ToWide("Тест");
UNIT_ASSERT(!ToTitle(s));
UNIT_ASSERT(s == title);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(!ToTitle(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(!ToTitle(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
auto s = UTF8ToWide("тЕст");
auto writableCopy = s;
const auto copy = s;
const auto title = UTF8ToWide("Тест");
UNIT_ASSERT(ToTitle(s));
UNIT_ASSERT(s == title);
UNIT_ASSERT(ToTitle(writableCopy.Detach(), writableCopy.size()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitle(copy.data(), copy.size(), writableCopy.Detach()));
UNIT_ASSERT(writableCopy == title);
UNIT_ASSERT(ToTitleRet(copy) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy)) == title);
}
{
auto s = UTF8ToWide("тЕст");
const auto copy = s;
const auto title = UTF8ToWide("тЕСт");
UNIT_ASSERT(ToTitle(s, 2));
UNIT_ASSERT(s == title);
UNIT_ASSERT(ToTitleRet(copy, 2) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy), 2) == title);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto title = UTF8ToWide("теСт");
UNIT_ASSERT(!ToTitle(s, 2));
UNIT_ASSERT(s == title);
#ifndef TSTRING_IS_STD_STRING
UNIT_ASSERT(s.data() == copy.data());
#endif
UNIT_ASSERT(ToTitleRet(copy, 2) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy), 2) == title);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto title = UTF8ToWide("теСТ");
UNIT_ASSERT(ToTitle(s, 3, 1));
UNIT_ASSERT(s == title);
UNIT_ASSERT(ToTitleRet(copy, 3, 1) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy), 3, 1) == title);
}
{
auto s = UTF8ToWide("теСт");
const auto copy = s;
const auto title = UTF8ToWide("теСТ");
UNIT_ASSERT(ToTitle(s, 3, 100500));
UNIT_ASSERT(s == title);
UNIT_ASSERT(ToTitleRet(copy, 3, 100500) == title);
UNIT_ASSERT(ToTitleRet(TWtringBuf(copy), 3, 100500) == title);
}
}
};
UNIT_TEST_SUITE_REGISTRATION(TWideUtilTest);
