/**************************************************************************/ /* test_string.h */ /**************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /**************************************************************************/ /* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */ /* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /**************************************************************************/ #ifndef TEST_STRING_H #define TEST_STRING_H #include "core/string/ustring.h" #include "tests/test_macros.h" namespace TestString { int u32scmp(const char32_t *l, const char32_t *r) { for (; *l == *r && *l && *r; l++, r++) { // Continue. } return *l - *r; } TEST_CASE("[String] Assign Latin-1 char string") { String s = "Hello"; CHECK(u32scmp(s.get_data(), U"Hello") == 0); } TEST_CASE("[String] Assign from Latin-1 char string (operator=)") { String s = "Dolly"; const String &t = s; CHECK(u32scmp(t.get_data(), U"Dolly") == 0); } TEST_CASE("[String] Assign from Latin-1 char string (copycon)") { String s("Sheep"); const String &t1(s); CHECK(u32scmp(t1.get_data(), U"Sheep") == 0); String t2 = String("Sheep", 3); CHECK(u32scmp(t2.get_data(), U"She") == 0); } TEST_CASE("[String] Assign from wchar_t string (operator=)") { String s = L"Give me"; CHECK(u32scmp(s.get_data(), U"Give me") == 0); } TEST_CASE("[String] Assign from wchar_t string (copycon)") { String s(L"Wool"); CHECK(u32scmp(s.get_data(), U"Wool") == 0); } TEST_CASE("[String] Assign from char32_t string (operator=)") { String s = U"Give me"; CHECK(u32scmp(s.get_data(), U"Give me") == 0); } TEST_CASE("[String] Assign from char32_t string (copycon)") { String s(U"Wool"); CHECK(u32scmp(s.get_data(), U"Wool") == 0); } TEST_CASE("[String] UTF8") { /* how can i embed UTF in here? */ static const char32_t u32str[] = { 0x0045, 0x0020, 0x304A, 0x360F, 0x3088, 0x3046, 0x1F3A4, 0 }; static const uint8_t u8str[] = { 0x45, 0x20, 0xE3, 0x81, 0x8A, 0xE3, 0x98, 0x8F, 0xE3, 0x82, 0x88, 0xE3, 0x81, 0x86, 0xF0, 0x9F, 0x8E, 0xA4, 0 }; String s = u32str; Error err = s.parse_utf8(s.utf8().get_data()); CHECK(err == OK); CHECK(s == u32str); err = s.parse_utf8((const char *)u8str); CHECK(err == OK); CHECK(s == u32str); CharString cs = (const char *)u8str; CHECK(String::utf8(cs) == s); } TEST_CASE("[String] UTF16") { /* how can i embed UTF in here? */ static const char32_t u32str[] = { 0x0045, 0x0020, 0x304A, 0x360F, 0x3088, 0x3046, 0x1F3A4, 0 }; static const char16_t u16str[] = { 0x0045, 0x0020, 0x304A, 0x360F, 0x3088, 0x3046, 0xD83C, 0xDFA4, 0 }; String s = u32str; Error err = s.parse_utf16(s.utf16().get_data()); CHECK(err == OK); CHECK(s == u32str); err = s.parse_utf16(u16str); CHECK(err == OK); CHECK(s == u32str); Char16String cs = u16str; CHECK(String::utf16(cs) == s); } TEST_CASE("[String] UTF8 with BOM") { /* how can i embed UTF in here? */ static const char32_t u32str[] = { 0x0045, 0x0020, 0x304A, 0x360F, 0x3088, 0x3046, 0x1F3A4, 0 }; static const uint8_t u8str[] = { 0xEF, 0xBB, 0xBF, 0x45, 0x20, 0xE3, 0x81, 0x8A, 0xE3, 0x98, 0x8F, 0xE3, 0x82, 0x88, 0xE3, 0x81, 0x86, 0xF0, 0x9F, 0x8E, 0xA4, 0 }; String s; Error err = s.parse_utf8((const char *)u8str); CHECK(err == OK); CHECK(s == u32str); CharString cs = (const char *)u8str; CHECK(String::utf8(cs) == s); } TEST_CASE("[String] UTF16 with BOM") { /* how can i embed UTF in here? */ static const char32_t u32str[] = { 0x0020, 0x0045, 0x304A, 0x360F, 0x3088, 0x3046, 0x1F3A4, 0 }; static const char16_t u16str[] = { 0xFEFF, 0x0020, 0x0045, 0x304A, 0x360F, 0x3088, 0x3046, 0xD83C, 0xDFA4, 0 }; static const char16_t u16str_swap[] = { 0xFFFE, 0x2000, 0x4500, 0x4A30, 0x0F36, 0x8830, 0x4630, 0x3CD8, 0xA4DF, 0 }; String s; Error err = s.parse_utf16(u16str); CHECK(err == OK); CHECK(s == u32str); err = s.parse_utf16(u16str_swap); CHECK(err == OK); CHECK(s == u32str); Char16String cs = u16str; CHECK(String::utf16(cs) == s); cs = u16str_swap; CHECK(String::utf16(cs) == s); } TEST_CASE("[String] UTF8 with CR") { const String base = U"Hello darkness\r\nMy old friend\nI've come to talk\rWith you again"; String keep_cr; Error err = keep_cr.parse_utf8(base.utf8().get_data()); CHECK(err == OK); CHECK(keep_cr == base); String no_cr; err = no_cr.parse_utf8(base.utf8().get_data(), -1, true); // Skip CR. CHECK(err == OK); CHECK(no_cr == base.replace("\r", "")); } TEST_CASE("[String] Invalid UTF8 (non-standard)") { ERR_PRINT_OFF static const uint8_t u8str[] = { 0x45, 0xE3, 0x81, 0x8A, 0xE3, 0x82, 0x88, 0xE3, 0x81, 0x86, 0xF0, 0x9F, 0x8E, 0xA4, 0xF0, 0x82, 0x82, 0xAC, 0xED, 0xA0, 0x81, 0 }; // + +2 +2 +2 +3 overlong +3 unpaired +2 static const char32_t u32str[] = { 0x45, 0x304A, 0x3088, 0x3046, 0x1F3A4, 0x20AC, 0xFFFD, 0 }; String s; Error err = s.parse_utf8((const char *)u8str); CHECK(err == ERR_INVALID_DATA); CHECK(s == u32str); CharString cs = (const char *)u8str; CHECK(String::utf8(cs) == s); ERR_PRINT_ON } TEST_CASE("[String] Invalid UTF8 (unrecoverable)") { ERR_PRINT_OFF static const uint8_t u8str[] = { 0x45, 0xE3, 0x81, 0x8A, 0x8F, 0xE3, 0xE3, 0x98, 0x8F, 0xE3, 0x82, 0x88, 0xE3, 0x81, 0x86, 0xC0, 0x80, 0xF0, 0x9F, 0x8E, 0xA4, 0xF0, 0x82, 0x82, 0xAC, 0xED, 0xA0, 0x81, 0 }; // + +2 inv +2 inv inv inv +2 +2 ovl NUL +1 +3 overlong +3 unpaired +2 static const char32_t u32str[] = { 0x45, 0x304A, 0xFFFD, 0xFFFD, 0xFFFD, 0xFFFD, 0x3088, 0x3046, 0xFFFD, 0x1F3A4, 0x20AC, 0xFFFD, 0 }; String s; Error err = s.parse_utf8((const char *)u8str); CHECK(err == ERR_INVALID_DATA); CHECK(s == u32str); CharString cs = (const char *)u8str; CHECK(String::utf8(cs) == s); ERR_PRINT_ON } TEST_CASE("[String] Invalid UTF16 (non-standard)") { ERR_PRINT_OFF static const char16_t u16str[] = { 0x0045, 0x304A, 0x3088, 0x3046, 0xDFA4, 0 }; // + + + + unpaired static const char32_t u32str[] = { 0x0045, 0x304A, 0x3088, 0x3046, 0xDFA4, 0 }; String s; Error err = s.parse_utf16(u16str); CHECK(err == ERR_PARSE_ERROR); CHECK(s == u32str); Char16String cs = u16str; CHECK(String::utf16(cs) == s); ERR_PRINT_ON } TEST_CASE("[String] ASCII") { String s = U"Primero Leche"; String t = s.ascii(false).get_data(); CHECK(s == t); t = s.ascii(true).get_data(); CHECK(s == t); } TEST_CASE("[String] Comparisons (equal)") { String s = "Test Compare"; CHECK(s == "Test Compare"); CHECK(s == U"Test Compare"); CHECK(s == L"Test Compare"); CHECK(s == String("Test Compare")); CharString empty = ""; CharString cs = "Test Compare"; CHECK(!(empty == cs)); CHECK(!(cs == empty)); CHECK(cs == CharString("Test Compare")); } TEST_CASE("[String] Comparisons (not equal)") { String s = "Test Compare"; CHECK(s != "Peanut"); CHECK(s != U"Coconut"); CHECK(s != L"Coconut"); CHECK(s != String("Butter")); } TEST_CASE("[String] Comparisons (operator <)") { String s = "Bees"; CHECK(s < "Elephant"); CHECK(!(s < U"Amber")); CHECK(!(s < L"Amber")); CHECK(!(s < String("Beatrix"))); } TEST_CASE("[String] Concatenation") { String s; s += "Have"; s += ' '; s += 'a'; s += String(" "); s = s + U"Nice"; s = s + " "; s = s + String("Day"); CHECK(s == "Have a Nice Day"); } TEST_CASE("[String] Testing size and length of string") { // todo: expand this test to do more tests on size() as it is complicated under the hood. CHECK(String("Mellon").size() == 7); CHECK(String("Mellon1").size() == 8); // length works fine and is easier to test CHECK(String("Mellon").length() == 6); CHECK(String("Mellon1").length() == 7); CHECK(String("Mellon2").length() == 7); CHECK(String("Mellon3").length() == 7); } TEST_CASE("[String] Testing for empty string") { CHECK(!String("Mellon").is_empty()); // do this more than once, to check for string corruption CHECK(String("").is_empty()); CHECK(String("").is_empty()); CHECK(String("").is_empty()); } TEST_CASE("[String] Contains") { String s = "C:\\Godot\\project\\string_test.tscn"; CHECK(s.contains(":\\")); CHECK(s.contains("Godot")); CHECK(s.contains(String("project\\string_test"))); CHECK(s.contains(String("\\string_test.tscn"))); CHECK(!s.contains("://")); CHECK(!s.contains("Godoh")); CHECK(!s.contains(String("project\\string test"))); CHECK(!s.contains(String("\\char_test.tscn"))); } TEST_CASE("[String] Test chr") { CHECK(String::chr('H') == "H"); CHECK(String::chr(0x3012)[0] == 0x3012); ERR_PRINT_OFF CHECK(String::chr(0xd812)[0] == 0xfffd); // Unpaired UTF-16 surrogate CHECK(String::chr(0x20d812)[0] == 0xfffd); // Outside UTF-32 range ERR_PRINT_ON } TEST_CASE("[String] Operator []") { String a = "Kugar Sane"; a[0] = 'S'; a[6] = 'C'; CHECK(a == "Sugar Cane"); CHECK(a[1] == 'u'); CHECK(a.unicode_at(1) == 'u'); } TEST_CASE("[String] Case function test") { String a = "MoMoNgA"; CHECK(a.to_upper() == "MOMONGA"); CHECK(a.to_lower() == "momonga"); } TEST_CASE("[String] Case compare function test") { String a = "MoMoNgA"; CHECK(a.casecmp_to("momonga") != 0); CHECK(a.nocasecmp_to("momonga") == 0); } TEST_CASE("[String] Natural compare function test") { String a = "img2.png"; CHECK(a.nocasecmp_to("img10.png") > 0); CHECK(a.naturalnocasecmp_to("img10.png") < 0); } TEST_CASE("[String] File compare function test") { String a = "_img2.png"; CHECK(a.nocasecmp_to("img10.png") > 0); CHECK_MESSAGE(a.filenocasecmp_to("img10.png") < 0, "Should sort before letters."); CHECK_MESSAGE(a.filenocasecmp_to(".img10.png") > 0, "Should sort after period."); } TEST_CASE("[String] hex_encode_buffer") { static const uint8_t u8str[] = { 0x45, 0xE3, 0x81, 0x8A, 0x8F, 0xE3 }; String s = String::hex_encode_buffer(u8str, 6); CHECK(s == U"45e3818a8fe3"); } TEST_CASE("[String] Substr") { String s = "Killer Baby"; CHECK(s.substr(3, 4) == "ler "); CHECK(s.substr(3) == "ler Baby"); } TEST_CASE("[String] Find") { String s = "Pretty Woman Woman"; CHECK(s.find("tty") == 3); CHECK(s.find("Wo", 9) == 13); CHECK(s.find("Revenge of the Monster Truck") == -1); CHECK(s.rfind("man") == 15); } TEST_CASE("[String] Find no case") { String s = "Pretty Whale Whale"; CHECK(s.findn("WHA") == 7); CHECK(s.findn("WHA", 9) == 13); CHECK(s.findn("Revenge of the Monster SawFish") == -1); CHECK(s.rfindn("WHA") == 13); } TEST_CASE("[String] Find MK") { Vector keys; keys.push_back("sty"); keys.push_back("tty"); keys.push_back("man"); String s = "Pretty Woman"; int key = 0; CHECK(s.findmk(keys, 0, &key) == 3); CHECK(key == 1); CHECK(s.findmk(keys, 5, &key) == 9); CHECK(key == 2); } TEST_CASE("[String] Find and replace") { String s = "Happy Birthday, Anna!"; s = s.replace("Birthday", "Halloween"); CHECK(s == "Happy Halloween, Anna!"); s = s.replace_first("H", "W"); CHECK(s == "Wappy Halloween, Anna!"); } TEST_CASE("[String] Insertion") { String s = "Who is Frederic?"; s = s.insert(s.find("?"), " Chopin"); CHECK(s == "Who is Frederic Chopin?"); } TEST_CASE("[String] Erasing") { String s = "Josephine is such a cute girl!"; s = s.erase(s.find("cute "), String("cute ").length()); CHECK(s == "Josephine is such a girl!"); } TEST_CASE("[String] Number to string") { CHECK(String::num(0) == "0"); CHECK(String::num(0.0) == "0"); // No trailing zeros. CHECK(String::num(-0.0) == "-0"); // Includes sign even for zero. CHECK(String::num(3.141593) == "3.141593"); CHECK(String::num(3.141593, 3) == "3.142"); CHECK(String::num_scientific(30000000) == "3e+07"); CHECK(String::num_int64(3141593) == "3141593"); CHECK(String::num_int64(0xA141593, 16) == "a141593"); CHECK(String::num_int64(0xA141593, 16, true) == "A141593"); CHECK(String::num(42.100023, 4) == "42.1"); // No trailing zeros. // String::num_real tests. CHECK(String::num_real(1.0) == "1.0"); CHECK(String::num_real(1.0, false) == "1"); CHECK(String::num_real(9.9) == "9.9"); CHECK(String::num_real(9.99) == "9.99"); CHECK(String::num_real(9.999) == "9.999"); CHECK(String::num_real(9.9999) == "9.9999"); CHECK(String::num_real(3.141593) == "3.141593"); CHECK(String::num_real(3.141) == "3.141"); // No trailing zeros. #ifdef REAL_T_IS_DOUBLE CHECK_MESSAGE(String::num_real(123.456789) == "123.456789", "Prints the appropriate amount of digits for real_t = double."); CHECK_MESSAGE(String::num_real(-123.456789) == "-123.456789", "Prints the appropriate amount of digits for real_t = double."); CHECK_MESSAGE(String::num_real(Math_PI) == "3.14159265358979", "Prints the appropriate amount of digits for real_t = double."); CHECK_MESSAGE(String::num_real(3.1415f) == "3.1414999961853", "Prints more digits of 32-bit float when real_t = double (ones that would be reliable for double) and no trailing zero."); #else CHECK_MESSAGE(String::num_real(123.456789) == "123.4568", "Prints the appropriate amount of digits for real_t = float."); CHECK_MESSAGE(String::num_real(-123.456789) == "-123.4568", "Prints the appropriate amount of digits for real_t = float."); CHECK_MESSAGE(String::num_real(Math_PI) == "3.141593", "Prints the appropriate amount of digits for real_t = float."); CHECK_MESSAGE(String::num_real(3.1415f) == "3.1415", "Prints only reliable digits of 32-bit float when real_t = float."); #endif // REAL_T_IS_DOUBLE // Checks doubles with many decimal places. CHECK(String::num(0.0000012345432123454321, -1) == "0.00000123454321"); // -1 uses 14 as sane default. CHECK(String::num(0.0000012345432123454321) == "0.00000123454321"); // -1 is the default value. CHECK(String::num(-0.0000012345432123454321) == "-0.00000123454321"); CHECK(String::num(-10000.0000012345432123454321) == "-10000.0000012345"); CHECK(String::num(0.0000000000012345432123454321) == "0.00000000000123"); CHECK(String::num(0.0000000000012345432123454321, 3) == "0"); // Note: When relevant (remainder > 0.5), the last digit gets rounded up, // which can also lead to not include a trailing zero, e.g. "...89" -> "...9". CHECK(String::num(0.0000056789876567898765) == "0.00000567898766"); // Should round last digit. CHECK(String::num(10000.000005678999999999) == "10000.000005679"); // We cut at ...789|99 which is rounded to ...79, so only 13 decimals. CHECK(String::num(42.12999999, 6) == "42.13"); // Also happens with lower decimals count. // 32 is MAX_DECIMALS. We can't reliably store that many so we can't compare against a string, // but we can check that the string length is 34 (32 + 2 for "0."). CHECK(String::num(0.00000123456789987654321123456789987654321, 32).length() == 34); CHECK(String::num(0.00000123456789987654321123456789987654321, 42).length() == 34); // Should enforce MAX_DECIMALS. CHECK(String::num(10000.00000123456789987654321123456789987654321, 42).length() == 38); // 32 decimals + "10000.". } TEST_CASE("[String] String to integer") { static const char *nums[14] = { "1237461283", "- 22", "0", " - 1123412", "", "10_000_000", "-1_2_3_4", "10__000", " 1 2 34 ", "-0", "007", "--45", "---46", "-7-2" }; static const int num[14] = { 1237461283, -22, 0, -1123412, 0, 10000000, -1234, 10000, 1234, 0, 7, 45, -46, -72 }; for (int i = 0; i < 14; i++) { CHECK(String(nums[i]).to_int() == num[i]); } CHECK(String("0b1011").to_int() == 1011); // Looks like a binary number, but to_int() handles this as a base-10 number, "b" is just ignored. CHECK(String("0x1012").to_int() == 1012); // Looks like a hexadecimal number, but to_int() handles this as a base-10 number, "x" is just ignored. ERR_PRINT_OFF CHECK(String("999999999999999999999999999999999999999999999999999999999").to_int() == INT64_MAX); // Too large, largest possible is returned. CHECK(String("-999999999999999999999999999999999999999999999999999999999").to_int() == INT64_MIN); // Too small, smallest possible is returned. ERR_PRINT_ON } TEST_CASE("[String] Hex to integer") { static const char *nums[12] = { "0xFFAE", "22", "0", "AADDAD", "0x7FFFFFFFFFFFFFFF", "-0xf", "", "000", "000f", "0xaA", "-ff", "-" }; static const int64_t num[12] = { 0xFFAE, 0x22, 0, 0xAADDAD, 0x7FFFFFFFFFFFFFFF, -0xf, 0, 0, 0xf, 0xaa, -0xff, 0x0 }; for (int i = 0; i < 12; i++) { CHECK(String(nums[i]).hex_to_int() == num[i]); } // Invalid hex strings should return 0. static const char *invalid_nums[15] = { "qwerty", "QWERTY", "0xqwerty", "0x00qwerty", "qwerty00", "0x", "0x__", "__", "x12", "+", " ff", "ff ", "f f", "+ff", "--0x78" }; ERR_PRINT_OFF for (int i = 0; i < 15; i++) { CHECK(String(invalid_nums[i]).hex_to_int() == 0); } CHECK(String("0xFFFFFFFFFFFFFFFFFFFFFFF").hex_to_int() == INT64_MAX); // Too large, largest possible is returned. CHECK(String("-0xFFFFFFFFFFFFFFFFFFFFFFF").hex_to_int() == INT64_MIN); // Too small, smallest possible is returned. ERR_PRINT_ON } TEST_CASE("[String] Bin to integer") { static const char *nums[10] = { "", "0", "0b0", "0b1", "0b", "1", "0b1010", "-0b11", "-1010", "0b0111111111111111111111111111111111111111111111111111111111111111" }; static const int64_t num[10] = { 0, 0, 0, 1, 0, 1, 10, -3, -10, 0x7FFFFFFFFFFFFFFF }; for (int i = 0; i < 10; i++) { CHECK(String(nums[i]).bin_to_int() == num[i]); } // Invalid bin strings should return 0. The long "0x11...11" is just too long for a 64 bit int. static const char *invalid_nums[16] = { "qwerty", "QWERTY", "0bqwerty", "0b00qwerty", "qwerty00", "0x__", "0b__", "__", "b12", "+", "-", "0x12ab", " 11", "11 ", "1 1", "--0b11" }; for (int i = 0; i < 16; i++) { CHECK(String(invalid_nums[i]).bin_to_int() == 0); } ERR_PRINT_OFF CHECK(String("0b111111111111111111111111111111111111111111111111111111111111111111111111111111111").bin_to_int() == INT64_MAX); // Too large, largest possible is returned. CHECK(String("-0b111111111111111111111111111111111111111111111111111111111111111111111111111111111").bin_to_int() == INT64_MIN); // Too small, smallest possible is returned. ERR_PRINT_ON } TEST_CASE("[String] String to float") { static const char *nums[12] = { "-12348298412.2", "0.05", "2.0002", " -0.0001", "0", "000", "123", "0.0", "000.000", "000.007", "234__", "3..14" }; static const double num[12] = { -12348298412.2, 0.05, 2.0002, -0.0001, 0.0, 0.0, 123.0, 0.0, 0.0, 0.007, 234.0, 3.0 }; for (int i = 0; i < 12; i++) { CHECK(!(ABS(String(nums[i]).to_float() - num[i]) > 0.00001)); } // Invalid float strings should return 0. static const char *invalid_nums[6] = { "qwerty", "qwerty123", "0xffff", "0b1010", "--3.13", "__345" }; for (int i = 0; i < 6; i++) { CHECK(String(invalid_nums[i]).to_float() == 0); } // Very large exponents. CHECK(String("1e308").to_float() == 1e308); CHECK(String("-1e308").to_float() == -1e308); // Exponent is so high that value is INFINITY/-INFINITY. CHECK(String("1e309").to_float() == INFINITY); CHECK(String("1e511").to_float() == INFINITY); CHECK(String("-1e309").to_float() == -INFINITY); CHECK(String("-1e511").to_float() == -INFINITY); // Exponent is so high that a warning message is printed. Value is INFINITY/-INFINITY. ERR_PRINT_OFF CHECK(String("1e512").to_float() == INFINITY); CHECK(String("-1e512").to_float() == -INFINITY); ERR_PRINT_ON } TEST_CASE("[String] Slicing") { String s = "Mars,Jupiter,Saturn,Uranus"; const char *slices[4] = { "Mars", "Jupiter", "Saturn", "Uranus" }; for (int i = 0; i < s.get_slice_count(","); i++) { CHECK(s.get_slice(",", i) == slices[i]); } } TEST_CASE("[String] Splitting") { String s = "Mars,Jupiter,Saturn,Uranus"; Vector l; const char *slices_l[3] = { "Mars", "Jupiter", "Saturn,Uranus" }; const char *slices_r[3] = { "Mars,Jupiter", "Saturn", "Uranus" }; const char *slices_3[4] = { "t", "e", "s", "t" }; l = s.split(",", true, 2); CHECK(l.size() == 3); for (int i = 0; i < l.size(); i++) { CHECK(l[i] == slices_l[i]); } l = s.rsplit(",", true, 2); CHECK(l.size() == 3); for (int i = 0; i < l.size(); i++) { CHECK(l[i] == slices_r[i]); } s = "test"; l = s.split(); CHECK(l.size() == 4); for (int i = 0; i < l.size(); i++) { CHECK(l[i] == slices_3[i]); } s = ""; l = s.split(); CHECK(l.size() == 1); CHECK(l[0] == ""); l = s.split("", false); CHECK(l.size() == 0); s = "Mars Jupiter Saturn Uranus"; const char *slices_s[4] = { "Mars", "Jupiter", "Saturn", "Uranus" }; l = s.split_spaces(); for (int i = 0; i < l.size(); i++) { CHECK(l[i] == slices_s[i]); } s = "1.2;2.3 4.5"; const double slices_d[3] = { 1.2, 2.3, 4.5 }; Vector d_arr; d_arr = s.split_floats(";"); CHECK(d_arr.size() == 2); for (int i = 0; i < d_arr.size(); i++) { CHECK(ABS(d_arr[i] - slices_d[i]) <= 0.00001); } Vector keys; keys.push_back(";"); keys.push_back(" "); Vector f_arr; f_arr = s.split_floats_mk(keys); CHECK(f_arr.size() == 3); for (int i = 0; i < f_arr.size(); i++) { CHECK(ABS(f_arr[i] - slices_d[i]) <= 0.00001); } s = "1;2 4"; const int slices_i[3] = { 1, 2, 4 }; Vector ii; ii = s.split_ints(";"); CHECK(ii.size() == 2); for (int i = 0; i < ii.size(); i++) { CHECK(ii[i] == slices_i[i]); } ii = s.split_ints_mk(keys); CHECK(ii.size() == 3); for (int i = 0; i < ii.size(); i++) { CHECK(ii[i] == slices_i[i]); } } struct test_27_data { char const *data; char const *part; bool expected; }; TEST_CASE("[String] Begins with") { test_27_data tc[] = { // Test cases for true: { "res://foobar", "res://", true }, { "abc", "abc", true }, { "abc", "", true }, { "", "", true }, // Test cases for false: { "res", "res://", false }, { "abcdef", "foo", false }, { "abc", "ax", false }, { "", "abc", false } }; size_t count = sizeof(tc) / sizeof(tc[0]); bool state = true; for (size_t i = 0; i < count; ++i) { String s = tc[i].data; state = s.begins_with(tc[i].part) == tc[i].expected; CHECK_MESSAGE(state, "first check failed at: ", i); String sb = tc[i].part; state = s.begins_with(sb) == tc[i].expected; CHECK_MESSAGE(state, "second check failed at: ", i); } // Test "const char *" version also with nullptr. String s("foo"); state = s.begins_with(nullptr) == false; CHECK_MESSAGE(state, "nullptr check failed"); String empty(""); state = empty.begins_with(nullptr) == false; CHECK_MESSAGE(state, "nullptr check with empty string failed"); } TEST_CASE("[String] Ends with") { test_27_data tc[] = { // test cases for true: { "res://foobar", "foobar", true }, { "abc", "abc", true }, { "abc", "", true }, { "", "", true }, // test cases for false: { "res", "res://", false }, { "", "abc", false }, { "abcdef", "foo", false }, { "abc", "xc", false } }; size_t count = sizeof(tc) / sizeof(tc[0]); for (size_t i = 0; i < count; ++i) { String s = tc[i].data; String sb = tc[i].part; bool state = s.ends_with(sb) == tc[i].expected; CHECK_MESSAGE(state, "check failed at: ", i); } } TEST_CASE("[String] format") { const String value_format = "red=\"$red\" green=\"$green\" blue=\"$blue\" alpha=\"$alpha\""; Dictionary value_dictionary; value_dictionary["red"] = 10; value_dictionary["green"] = 20; value_dictionary["blue"] = "bla"; value_dictionary["alpha"] = 0.4; String value = value_format.format(value_dictionary, "$_"); CHECK(value == "red=\"10\" green=\"20\" blue=\"bla\" alpha=\"0.4\""); } TEST_CASE("[String] sprintf") { String format, output; Array args; bool error; // %% format = "fish %% frog"; args.clear(); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish % frog")); ///// Ints // Int format = "fish %d frog"; args.clear(); args.push_back(5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 5 frog")); // Int left padded with zeroes. format = "fish %05d frog"; args.clear(); args.push_back(5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 00005 frog")); // Int left padded with spaces. format = "fish %5d frog"; args.clear(); args.push_back(5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 5 frog")); // Int right padded with spaces. format = "fish %-5d frog"; args.clear(); args.push_back(5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 5 frog")); // Int with sign (positive). format = "fish %+d frog"; args.clear(); args.push_back(5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish +5 frog")); // Negative int. format = "fish %d frog"; args.clear(); args.push_back(-5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish -5 frog")); // Negative int left padded with spaces. format = "fish %5d frog"; args.clear(); args.push_back(-5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish -5 frog")); // Negative int left padded with zeros. format = "fish %05d frog"; args.clear(); args.push_back(-5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish -0005 frog")); // Negative int right padded with spaces. format = "fish %-5d frog"; args.clear(); args.push_back(-5); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish -5 frog")); // Negative int right padded with zeros. (0 ignored) format = "fish %-05d frog"; args.clear(); args.push_back(-5); ERR_PRINT_OFF; // Silence warning about 0 ignored. output = format.sprintf(args, &error); ERR_PRINT_ON; REQUIRE(error == false); CHECK(output == String("fish -5 frog")); // Hex (lower) format = "fish %x frog"; args.clear(); args.push_back(45); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 2d frog")); // Hex (upper) format = "fish %X frog"; args.clear(); args.push_back(45); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 2D frog")); // Octal format = "fish %o frog"; args.clear(); args.push_back(99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 143 frog")); ///// Reals // Real format = "fish %f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 99.990000 frog")); // Real left-padded. format = "fish %11f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 99.990000 frog")); // Real (infinity) left-padded format = "fish %11f frog"; args.clear(); args.push_back(INFINITY); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish inf frog")); // Real right-padded. format = "fish %-11f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 99.990000 frog")); // Real given int. format = "fish %f frog"; args.clear(); args.push_back(99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 99.000000 frog")); // Real with sign (positive). format = "fish %+f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish +99.990000 frog")); // Real with sign (negative zero). format = "fish %+f frog"; args.clear(); args.push_back(-0.0); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish -0.000000 frog")); // Real with sign (positive zero). format = "fish %+f frog"; args.clear(); args.push_back(0.0); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish +0.000000 frog")); // Real with 1 decimal. format = "fish %.1f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 100.0 frog")); // Real with 12 decimals. format = "fish %.12f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 99.990000000000 frog")); // Real with no decimals. format = "fish %.f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 100 frog")); // Negative real right padded with zeros. (0 ignored) format = "fish %-011f frog"; args.clear(); args.push_back(-99.99); ERR_PRINT_OFF; // Silence warning about 0 ignored. output = format.sprintf(args, &error); ERR_PRINT_ON; REQUIRE(error == false); CHECK(output == String("fish -99.990000 frog")); ///// Vectors // Vector2 format = "fish %v frog"; args.clear(); args.push_back(Variant(Vector2(19.99, 1.00))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (19.990000, 1.000000) frog")); // Vector3 format = "fish %v frog"; args.clear(); args.push_back(Variant(Vector3(19.99, 1.00, -2.05))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (19.990000, 1.000000, -2.050000) frog")); // Vector4 format = "fish %v frog"; args.clear(); args.push_back(Variant(Vector4(19.99, 1.00, -2.05, 5.5))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (19.990000, 1.000000, -2.050000, 5.500000) frog")); // Vector with negative values. format = "fish %v frog"; args.clear(); args.push_back(Variant(Vector2(-19.99, -1.00))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (-19.990000, -1.000000) frog")); // Vector left-padded. format = "fish %11v frog"; args.clear(); args.push_back(Variant(Vector3(19.99, 1.00, -2.05))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish ( 19.990000, 1.000000, -2.050000) frog")); // Vector left-padded with inf/nan format = "fish %11v frog"; args.clear(); args.push_back(Variant(Vector2(INFINITY, NAN))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish ( inf, nan) frog")); // Vector right-padded. format = "fish %-11v frog"; args.clear(); args.push_back(Variant(Vector3(19.99, 1.00, -2.05))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (19.990000 , 1.000000 , -2.050000 ) frog")); // Vector left-padded with zeros. format = "fish %011v frog"; args.clear(); args.push_back(Variant(Vector3(19.99, 1.00, -2.05))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (0019.990000, 0001.000000, -002.050000) frog")); // Vector given Vector3i. format = "fish %v frog"; args.clear(); args.push_back(Variant(Vector3i(19, 1, -2))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (19.000000, 1.000000, -2.000000) frog")); // Vector with 1 decimal. format = "fish %.1v frog"; args.clear(); args.push_back(Variant(Vector3(19.99, 1.00, -2.05))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (20.0, 1.0, -2.0) frog")); // Vector with 12 decimals. format = "fish %.12v frog"; args.clear(); args.push_back(Variant(Vector3(19.00, 1.00, -2.00))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (19.000000000000, 1.000000000000, -2.000000000000) frog")); // Vector with no decimals. format = "fish %.v frog"; args.clear(); args.push_back(Variant(Vector3(19.99, 1.00, -2.05))); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish (20, 1, -2) frog")); ///// Strings // String format = "fish %s frog"; args.clear(); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish cheese frog")); // String left-padded. format = "fish %10s frog"; args.clear(); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish cheese frog")); // String right-padded. format = "fish %-10s frog"; args.clear(); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish cheese frog")); ///// Characters // Character as string. format = "fish %c frog"; args.clear(); args.push_back("A"); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish A frog")); // Character as int. format = "fish %c frog"; args.clear(); args.push_back(65); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish A frog")); ///// Dynamic width // String dynamic width. format = "fish %*s frog"; args.clear(); args.push_back(10); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error == false); REQUIRE(output == String("fish cheese frog")); // Int dynamic width. format = "fish %*d frog"; args.clear(); args.push_back(10); args.push_back(99); output = format.sprintf(args, &error); REQUIRE(error == false); REQUIRE(output == String("fish 99 frog")); // Float dynamic width. format = "fish %*.*f frog"; args.clear(); args.push_back(10); args.push_back(3); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error == false); CHECK(output == String("fish 99.990 frog")); ///// Errors // More formats than arguments. format = "fish %s %s frog"; args.clear(); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "not enough arguments for format string"); // More arguments than formats. format = "fish %s frog"; args.clear(); args.push_back("hello"); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "not all arguments converted during string formatting"); // Incomplete format. format = "fish %10"; args.clear(); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "incomplete format"); // Bad character in format string. format = "fish %&f frog"; args.clear(); args.push_back("cheese"); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "unsupported format character"); // Too many decimals. format = "fish %2.2.2f frog"; args.clear(); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "too many decimal points in format"); // * not a number or vector. format = "fish %*f frog"; args.clear(); args.push_back("cheese"); args.push_back(99.99); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "* wants number or vector"); // Character too long. format = "fish %c frog"; args.clear(); args.push_back("sc"); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "%c requires number or single-character string"); // Character bad type. format = "fish %c frog"; args.clear(); args.push_back(Array()); output = format.sprintf(args, &error); REQUIRE(error); CHECK(output == "%c requires number or single-character string"); } TEST_CASE("[String] is_numeric") { CHECK(String("12").is_numeric()); CHECK(String("1.2").is_numeric()); CHECK(!String("AF").is_numeric()); CHECK(String("-12").is_numeric()); CHECK(String("-1.2").is_numeric()); } TEST_CASE("[String] pad") { String s = String("test"); CHECK(s.lpad(10, "x") == U"xxxxxxtest"); CHECK(s.rpad(10, "x") == U"testxxxxxx"); s = String("10.10"); CHECK(s.pad_decimals(4) == U"10.1000"); CHECK(s.pad_decimals(1) == U"10.1"); CHECK(s.pad_zeros(4) == U"0010.10"); CHECK(s.pad_zeros(1) == U"10.10"); } TEST_CASE("[String] is_subsequence_of") { String a = "is subsequence of"; CHECK(String("sub").is_subsequence_of(a)); CHECK(!String("Sub").is_subsequence_of(a)); CHECK(String("Sub").is_subsequence_ofn(a)); } TEST_CASE("[String] match") { CHECK(String("img1.png").match("*.png")); CHECK(!String("img1.jpeg").match("*.png")); CHECK(!String("img1.Png").match("*.png")); CHECK(String("img1.Png").matchn("*.png")); } TEST_CASE("[String] IPVX address to string") { IPAddress ip0("2001:0db8:85a3:0000:0000:8a2e:0370:7334"); IPAddress ip(0x0123, 0x4567, 0x89ab, 0xcdef, true); IPAddress ip2("fe80::52e5:49ff:fe93:1baf"); IPAddress ip3("::ffff:192.168.0.1"); String ip4 = "192.168.0.1"; CHECK(ip4.is_valid_ip_address()); ip4 = "192.368.0.1"; CHECK(!ip4.is_valid_ip_address()); String ip6 = "2001:0db8:85a3:0000:0000:8a2e:0370:7334"; CHECK(ip6.is_valid_ip_address()); ip6 = "2001:0db8:85j3:0000:0000:8a2e:0370:7334"; CHECK(!ip6.is_valid_ip_address()); ip6 = "2001:0db8:85f345:0000:0000:8a2e:0370:7334"; CHECK(!ip6.is_valid_ip_address()); ip6 = "2001:0db8::0:8a2e:370:7334"; CHECK(ip6.is_valid_ip_address()); ip6 = "::ffff:192.168.0.1"; CHECK(ip6.is_valid_ip_address()); } TEST_CASE("[String] Capitalize against many strings") { String input = "2D"; String output = "2d"; CHECK(input.capitalize() == output); input = "2d"; output = "2d"; CHECK(input.capitalize() == output); input = "2db"; output = "2 Db"; CHECK(input.capitalize() == output); input = "HTML5 Html5 html5 html_5"; output = "Html 5 Html 5 Html 5 Html 5"; CHECK(input.capitalize() == output); input = "Node2D Node2d NODE2D NODE_2D node_2d"; output = "Node 2d Node 2d Node 2d Node 2d Node 2d"; CHECK(input.capitalize() == output); input = "Node2DPosition"; output = "Node 2d Position"; CHECK(input.capitalize() == output); input = "Number2Digits"; output = "Number 2 Digits"; CHECK(input.capitalize() == output); input = "bytes2var"; output = "Bytes 2 Var"; CHECK(input.capitalize() == output); input = "linear2db"; output = "Linear 2 Db"; CHECK(input.capitalize() == output); input = "vector3"; output = "Vector 3"; CHECK(input.capitalize() == output); input = "sha256"; output = "Sha 256"; CHECK(input.capitalize() == output); input = "PascalCase"; output = "Pascal Case"; CHECK(input.capitalize() == output); input = "PascalPascalCase"; output = "Pascal Pascal Case"; CHECK(input.capitalize() == output); input = "snake_case"; output = "Snake Case"; CHECK(input.capitalize() == output); input = "snake_snake_case"; output = "Snake Snake Case"; CHECK(input.capitalize() == output); input = "sha256sum"; output = "Sha 256 Sum"; CHECK(input.capitalize() == output); input = "cat2dog"; output = "Cat 2 Dog"; CHECK(input.capitalize() == output); input = "function(name)"; output = "Function(name)"; CHECK(input.capitalize() == output); input = "snake_case_function(snake_case_arg)"; output = "Snake Case Function(snake Case Arg)"; CHECK(input.capitalize() == output); input = "snake_case_function( snake_case_arg )"; output = "Snake Case Function( Snake Case Arg )"; CHECK(input.capitalize() == output); input = U"словоСлово_слово слово"; output = U"Слово Слово Слово Слово"; CHECK(input.capitalize() == output); input = U"λέξηΛέξη_λέξη λέξη"; output = U"Λέξη Λέξη Λέξη Λέξη"; CHECK(input.capitalize() == output); input = U"բառԲառ_բառ բառ"; output = U"Բառ Բառ Բառ Բառ"; CHECK(input.capitalize() == output); } struct StringCasesTestCase { const char32_t *input; const char32_t *camel_case; const char32_t *pascal_case; const char32_t *snake_case; }; TEST_CASE("[String] Checking case conversion methods") { StringCasesTestCase test_cases[] = { /* clang-format off */ { U"2D", U"2d", U"2d", U"2d" }, { U"2d", U"2d", U"2d", U"2d" }, { U"2db", U"2Db", U"2Db", U"2_db" }, { U"Vector3", U"vector3", U"Vector3", U"vector_3" }, { U"sha256", U"sha256", U"Sha256", U"sha_256" }, { U"Node2D", U"node2d", U"Node2d", U"node_2d" }, { U"RichTextLabel", U"richTextLabel", U"RichTextLabel", U"rich_text_label" }, { U"HTML5", U"html5", U"Html5", U"html_5" }, { U"Node2DPosition", U"node2dPosition", U"Node2dPosition", U"node_2d_position" }, { U"Number2Digits", U"number2Digits", U"Number2Digits", U"number_2_digits" }, { U"get_property_list", U"getPropertyList", U"GetPropertyList", U"get_property_list" }, { U"get_camera_2d", U"getCamera2d", U"GetCamera2d", U"get_camera_2d" }, { U"_physics_process", U"physicsProcess", U"PhysicsProcess", U"_physics_process" }, { U"bytes2var", U"bytes2Var", U"Bytes2Var", U"bytes_2_var" }, { U"linear2db", U"linear2Db", U"Linear2Db", U"linear_2_db" }, { U"sha256sum", U"sha256Sum", U"Sha256Sum", U"sha_256_sum" }, { U"camelCase", U"camelCase", U"CamelCase", U"camel_case" }, { U"PascalCase", U"pascalCase", U"PascalCase", U"pascal_case" }, { U"snake_case", U"snakeCase", U"SnakeCase", U"snake_case" }, { U"Test TEST test", U"testTestTest", U"TestTestTest", U"test_test_test" }, { U"словоСлово_слово слово", U"словоСловоСловоСлово", U"СловоСловоСловоСлово", U"слово_слово_слово_слово" }, { U"λέξηΛέξη_λέξη λέξη", U"λέξηΛέξηΛέξηΛέξη", U"ΛέξηΛέξηΛέξηΛέξη", U"λέξη_λέξη_λέξη_λέξη" }, { U"բառԲառ_բառ բառ", U"բառԲառԲառԲառ", U"ԲառԲառԲառԲառ", U"բառ_բառ_բառ_բառ" }, { nullptr, nullptr, nullptr, nullptr }, /* clang-format on */ }; int idx = 0; while (test_cases[idx].input != nullptr) { String input = test_cases[idx].input; CHECK(input.to_camel_case() == test_cases[idx].camel_case); CHECK(input.to_pascal_case() == test_cases[idx].pascal_case); CHECK(input.to_snake_case() == test_cases[idx].snake_case); idx++; } } TEST_CASE("[String] Checking string is empty when it should be") { bool state = true; bool success; String a = ""; success = a[0] == 0; if (!success) { state = false; } String b = "Godot"; success = b[b.size()] == 0; if (!success) { state = false; } const String c = ""; success = c[0] == 0; if (!success) { state = false; } const String d = "Godot"; success = d[d.size()] == 0; if (!success) { state = false; } CHECK(state); } TEST_CASE("[String] lstrip and rstrip") { #define STRIP_TEST(x) \ { \ bool success = x; \ state = state && success; \ } bool state = true; // strip none STRIP_TEST(String("abc").lstrip("") == "abc"); STRIP_TEST(String("abc").rstrip("") == "abc"); // strip one STRIP_TEST(String("abc").lstrip("a") == "bc"); STRIP_TEST(String("abc").rstrip("c") == "ab"); // strip lots STRIP_TEST(String("bababbababccc").lstrip("ab") == "ccc"); STRIP_TEST(String("aaabcbcbcbbcbbc").rstrip("cb") == "aaa"); // strip empty string STRIP_TEST(String("").lstrip("") == ""); STRIP_TEST(String("").rstrip("") == ""); // strip to empty string STRIP_TEST(String("abcabcabc").lstrip("bca") == ""); STRIP_TEST(String("abcabcabc").rstrip("bca") == ""); // don't strip wrong end STRIP_TEST(String("abc").lstrip("c") == "abc"); STRIP_TEST(String("abca").lstrip("a") == "bca"); STRIP_TEST(String("abc").rstrip("a") == "abc"); STRIP_TEST(String("abca").rstrip("a") == "abc"); // in utf-8 "¿" (\u00bf) has the same first byte as "µ" (\u00b5) // and the same second as "ÿ" (\u00ff) STRIP_TEST(String::utf8("¿").lstrip(String::utf8("µÿ")) == String::utf8("¿")); STRIP_TEST(String::utf8("¿").rstrip(String::utf8("µÿ")) == String::utf8("¿")); STRIP_TEST(String::utf8("µ¿ÿ").lstrip(String::utf8("µÿ")) == String::utf8("¿ÿ")); STRIP_TEST(String::utf8("µ¿ÿ").rstrip(String::utf8("µÿ")) == String::utf8("µ¿")); // the above tests repeated with additional superfluous strip chars // strip none STRIP_TEST(String("abc").lstrip("qwjkl") == "abc"); STRIP_TEST(String("abc").rstrip("qwjkl") == "abc"); // strip one STRIP_TEST(String("abc").lstrip("qwajkl") == "bc"); STRIP_TEST(String("abc").rstrip("qwcjkl") == "ab"); // strip lots STRIP_TEST(String("bababbababccc").lstrip("qwabjkl") == "ccc"); STRIP_TEST(String("aaabcbcbcbbcbbc").rstrip("qwcbjkl") == "aaa"); // strip empty string STRIP_TEST(String("").lstrip("qwjkl") == ""); STRIP_TEST(String("").rstrip("qwjkl") == ""); // strip to empty string STRIP_TEST(String("abcabcabc").lstrip("qwbcajkl") == ""); STRIP_TEST(String("abcabcabc").rstrip("qwbcajkl") == ""); // don't strip wrong end STRIP_TEST(String("abc").lstrip("qwcjkl") == "abc"); STRIP_TEST(String("abca").lstrip("qwajkl") == "bca"); STRIP_TEST(String("abc").rstrip("qwajkl") == "abc"); STRIP_TEST(String("abca").rstrip("qwajkl") == "abc"); // in utf-8 "¿" (\u00bf) has the same first byte as "µ" (\u00b5) // and the same second as "ÿ" (\u00ff) STRIP_TEST(String::utf8("¿").lstrip(String::utf8("qwaµÿjkl")) == String::utf8("¿")); STRIP_TEST(String::utf8("¿").rstrip(String::utf8("qwaµÿjkl")) == String::utf8("¿")); STRIP_TEST(String::utf8("µ¿ÿ").lstrip(String::utf8("qwaµÿjkl")) == String::utf8("¿ÿ")); STRIP_TEST(String::utf8("µ¿ÿ").rstrip(String::utf8("qwaµÿjkl")) == String::utf8("µ¿")); CHECK(state); #undef STRIP_TEST } TEST_CASE("[String] Ensuring empty string into parse_utf8 passes empty string") { String empty; CHECK(empty.parse_utf8(nullptr, -1) == ERR_INVALID_DATA); } TEST_CASE("[String] Cyrillic to_lower()") { String upper = U"АБВГДЕЁЖЗИЙКЛМНОПРСТУФХЦЧШЩЪЫЬЭЮЯ"; String lower = U"абвгдеёжзийклмнопрстуфхцчшщъыьэюя"; String test = upper.to_lower(); bool state = test == lower; CHECK(state); } TEST_CASE("[String] Count and countn functionality") { #define COUNT_TEST(x) \ { \ bool success = x; \ state = state && success; \ } bool state = true; COUNT_TEST(String("").count("Test") == 0); COUNT_TEST(String("Test").count("") == 0); COUNT_TEST(String("Test").count("test") == 0); COUNT_TEST(String("Test").count("TEST") == 0); COUNT_TEST(String("TEST").count("TEST") == 1); COUNT_TEST(String("Test").count("Test") == 1); COUNT_TEST(String("aTest").count("Test") == 1); COUNT_TEST(String("Testa").count("Test") == 1); COUNT_TEST(String("TestTestTest").count("Test") == 3); COUNT_TEST(String("TestTestTest").count("TestTest") == 1); COUNT_TEST(String("TestGodotTestGodotTestGodot").count("Test") == 3); COUNT_TEST(String("TestTestTestTest").count("Test", 4, 8) == 1); COUNT_TEST(String("TestTestTestTest").count("Test", 4, 12) == 2); COUNT_TEST(String("TestTestTestTest").count("Test", 4, 16) == 3); COUNT_TEST(String("TestTestTestTest").count("Test", 4) == 3); COUNT_TEST(String("Test").countn("test") == 1); COUNT_TEST(String("Test").countn("TEST") == 1); COUNT_TEST(String("testTest-Testatest").countn("tEst") == 4); COUNT_TEST(String("testTest-TeStatest").countn("tEsT", 4, 16) == 2); CHECK(state); #undef COUNT_TEST } TEST_CASE("[String] Bigrams") { String s = "abcd"; Vector bigr = s.bigrams(); CHECK(bigr.size() == 3); CHECK(bigr[0] == "ab"); CHECK(bigr[1] == "bc"); CHECK(bigr[2] == "cd"); } TEST_CASE("[String] c-escape/unescape") { String s = "\\1\a2\b\f3\n45\r6\t7\v8\'9\?0\""; CHECK(s.c_escape().c_unescape() == s); } TEST_CASE("[String] indent") { static const char *input[] = { "", "aaa\nbbb", "\tcontains\n\tindent", "empty\n\nline", }; static const char *expected[] = { "", "\taaa\n\tbbb", "\t\tcontains\n\t\tindent", "\tempty\n\n\tline", }; for (int i = 0; i < 3; i++) { CHECK(String(input[i]).indent("\t") == expected[i]); } } TEST_CASE("[String] dedent") { String s = " aaa\n bbb"; String t = "aaa\nbbb"; CHECK(s.dedent() == t); } TEST_CASE("[String] Path functions") { static const char *path[8] = { "C:\\Godot\\project\\test.tscn", "/Godot/project/test.xscn", "../Godot/project/test.scn", "Godot\\test.doc", "C:\\test.", "res://test", "user://test", "/.test" }; static const char *base_dir[8] = { "C:\\Godot\\project", "/Godot/project", "../Godot/project", "Godot", "C:\\", "res://", "user://", "/" }; static const char *base_name[8] = { "C:\\Godot\\project\\test", "/Godot/project/test", "../Godot/project/test", "Godot\\test", "C:\\test", "res://test", "user://test", "/" }; static const char *ext[8] = { "tscn", "xscn", "scn", "doc", "", "", "", "test" }; static const char *file[8] = { "test.tscn", "test.xscn", "test.scn", "test.doc", "test.", "test", "test", ".test" }; static const char *simplified[8] = { "C:/Godot/project/test.tscn", "/Godot/project/test.xscn", "Godot/project/test.scn", "Godot/test.doc", "C:/test.", "res://test", "user://test", "/.test" }; static const bool abs[8] = { true, true, false, false, true, true, true, true }; for (int i = 0; i < 8; i++) { CHECK(String(path[i]).get_base_dir() == base_dir[i]); CHECK(String(path[i]).get_basename() == base_name[i]); CHECK(String(path[i]).get_extension() == ext[i]); CHECK(String(path[i]).get_file() == file[i]); CHECK(String(path[i]).is_absolute_path() == abs[i]); CHECK(String(path[i]).is_relative_path() != abs[i]); CHECK(String(path[i]).simplify_path() == String(simplified[i])); CHECK(String(path[i]).simplify_path().get_base_dir().path_join(file[i]) == String(path[i]).simplify_path()); } static const char *file_name[3] = { "test.tscn", "test://.xscn", "?tes*t.scn" }; static const bool valid[3] = { true, false, false }; for (int i = 0; i < 3; i++) { CHECK(String(file_name[i]).is_valid_filename() == valid[i]); } } TEST_CASE("[String] hash") { String a = "Test"; String b = "Test"; String c = "West"; CHECK(a.hash() == b.hash()); CHECK(a.hash() != c.hash()); CHECK(a.hash64() == b.hash64()); CHECK(a.hash64() != c.hash64()); } TEST_CASE("[String] uri_encode/unescape") { String s = "Godot Engine:'docs'"; String t = "Godot%20Engine%3A%27docs%27"; String x1 = "T%C4%93%C5%A1t"; static const uint8_t u8str[] = { 0x54, 0xC4, 0x93, 0xC5, 0xA1, 0x74, 0x00 }; String x2 = String::utf8((const char *)u8str); String x3 = U"Tēšt"; CHECK(x1.uri_decode() == x2); CHECK(x1.uri_decode() == x3); CHECK((x1 + x3).uri_decode() == (x2 + x3)); // Mixed unicode and URL encoded string, e.g. GTK+ bookmark. CHECK(x2.uri_encode() == x1); CHECK(x3.uri_encode() == x1); CHECK(s.uri_encode() == t); CHECK(t.uri_decode() == s); } TEST_CASE("[String] xml_escape/unescape") { String s = "\"Test\" "; CHECK(s.xml_escape(true).xml_unescape() == s); CHECK(s.xml_escape(false).xml_unescape() == s); } TEST_CASE("[String] xml_unescape") { // Named entities String input = ""&'<>"; CHECK(input.xml_unescape() == "\"&\'<>"); // Numeric entities input = "AB"; CHECK(input.xml_unescape() == "AB"); input = "�&x#0;More text"; String result = input.xml_unescape(); // Didn't put in a leading NUL and terminate the string CHECK(input.length() > 0); CHECK(input[0] != '\0'); // Entity should be left as-is if invalid CHECK(input.xml_unescape() == input); // Check near char32_t range input = "�"; result = input.xml_unescape(); CHECK(result.length() == 1); CHECK(result[0] == 0xFFFFFFFF); input = "�"; result = input.xml_unescape(); CHECK(result.length() == 1); CHECK(result[0] == 0xFFFFFFFF); // Check out of range of char32_t input = "�"; CHECK(input.xml_unescape() == input); input = "�"; CHECK(input.xml_unescape() == input); // Shouldn't consume without ending in a ';' input = "B"; CHECK(input.xml_unescape() == input); input = "A"; CHECK(input.xml_unescape() == input); // Invalid characters should make the entity ignored input = "ASomeIrrelevantText;"; CHECK(input.xml_unescape() == input); input = "BSomeIrrelevantText;"; CHECK(input.xml_unescape() == input); } TEST_CASE("[String] Strip escapes") { String s = "\t\tTest Test\r\n Test"; CHECK(s.strip_escapes() == "Test Test Test"); } TEST_CASE("[String] Similarity") { String a = "Test"; String b = "West"; String c = "Toad"; CHECK(a.similarity(b) > a.similarity(c)); } TEST_CASE("[String] Strip edges") { String s = "\t Test Test "; CHECK(s.strip_edges(true, false) == "Test Test "); CHECK(s.strip_edges(false, true) == "\t Test Test"); CHECK(s.strip_edges(true, true) == "Test Test"); } TEST_CASE("[String] Trim") { String s = "aaaTestbbb"; CHECK(s.trim_prefix("aaa") == "Testbbb"); CHECK(s.trim_suffix("bbb") == "aaaTest"); CHECK(s.trim_suffix("Test") == s); } TEST_CASE("[String] Right/Left") { String s = "aaaTestbbb"; // ^ CHECK(s.right(6) == "estbbb"); CHECK(s.right(-6) == "tbbb"); CHECK(s.left(6) == "aaaTes"); CHECK(s.left(-6) == "aaaT"); } TEST_CASE("[String] Repeat") { String s = "abababab"; String x = "ab"; String t = x.repeat(4); CHECK(t == s); } TEST_CASE("[String] Reverse") { String s = "Abcd"; CHECK(s.reverse() == "dcbA"); } TEST_CASE("[String] SHA1/SHA256/MD5") { String s = "Godot"; String sha1 = "a1e91f39b9fce6a9998b14bdbe2aa2b39dc2d201"; static uint8_t sha1_buf[20] = { 0xA1, 0xE9, 0x1F, 0x39, 0xB9, 0xFC, 0xE6, 0xA9, 0x99, 0x8B, 0x14, 0xBD, 0xBE, 0x2A, 0xA2, 0xB3, 0x9D, 0xC2, 0xD2, 0x01 }; String sha256 = "2a02b2443f7985d89d09001086ae3dcfa6eb0f55c6ef170715d42328e16e6cb8"; static uint8_t sha256_buf[32] = { 0x2A, 0x02, 0xB2, 0x44, 0x3F, 0x79, 0x85, 0xD8, 0x9D, 0x09, 0x00, 0x10, 0x86, 0xAE, 0x3D, 0xCF, 0xA6, 0xEB, 0x0F, 0x55, 0xC6, 0xEF, 0x17, 0x07, 0x15, 0xD4, 0x23, 0x28, 0xE1, 0x6E, 0x6C, 0xB8 }; String md5 = "4a336d087aeb0390da10ee2ea7cb87f8"; static uint8_t md5_buf[16] = { 0x4A, 0x33, 0x6D, 0x08, 0x7A, 0xEB, 0x03, 0x90, 0xDA, 0x10, 0xEE, 0x2E, 0xA7, 0xCB, 0x87, 0xF8 }; PackedByteArray buf = s.sha1_buffer(); CHECK(memcmp(sha1_buf, buf.ptr(), 20) == 0); CHECK(s.sha1_text() == sha1); buf = s.sha256_buffer(); CHECK(memcmp(sha256_buf, buf.ptr(), 32) == 0); CHECK(s.sha256_text() == sha256); buf = s.md5_buffer(); CHECK(memcmp(md5_buf, buf.ptr(), 16) == 0); CHECK(s.md5_text() == md5); } TEST_CASE("[String] Join") { String s = ", "; Vector parts; parts.push_back("One"); parts.push_back("B"); parts.push_back("C"); String t = s.join(parts); CHECK(t == "One, B, C"); } TEST_CASE("[String] Is_*") { static const char *data[12] = { "-30", "100", "10.1", "10,1", "1e2", "1e-2", "1e2e3", "0xAB", "AB", "Test1", "1Test", "Test*1" }; static bool isnum[12] = { true, true, true, false, false, false, false, false, false, false, false, false }; static bool isint[12] = { true, true, false, false, false, false, false, false, false, false, false, false }; static bool ishex[12] = { true, true, false, false, true, false, true, false, true, false, false, false }; static bool ishex_p[12] = { false, false, false, false, false, false, false, true, false, false, false, false }; static bool isflt[12] = { true, true, true, false, true, true, false, false, false, false, false, false }; static bool isid[12] = { false, false, false, false, false, false, false, false, true, true, false, false }; for (int i = 0; i < 12; i++) { String s = String(data[i]); CHECK(s.is_numeric() == isnum[i]); CHECK(s.is_valid_int() == isint[i]); CHECK(s.is_valid_hex_number(false) == ishex[i]); CHECK(s.is_valid_hex_number(true) == ishex_p[i]); CHECK(s.is_valid_float() == isflt[i]); CHECK(s.is_valid_identifier() == isid[i]); } } TEST_CASE("[String] humanize_size") { CHECK(String::humanize_size(1000) == "1000 B"); CHECK(String::humanize_size(1025) == "1.00 KiB"); CHECK(String::humanize_size(1025300) == "1001.2 KiB"); CHECK(String::humanize_size(100523550) == "95.86 MiB"); CHECK(String::humanize_size(5345555000) == "4.97 GiB"); } TEST_CASE("[String] validate_node_name") { String numeric_only = "12345"; CHECK(numeric_only.validate_node_name() == "12345"); String name_with_spaces = "Name with spaces"; CHECK(name_with_spaces.validate_node_name() == "Name with spaces"); String name_with_kana = U"Name with kana ゴドツ"; CHECK(name_with_kana.validate_node_name() == U"Name with kana ゴドツ"); String name_with_invalid_chars = "Name with invalid characters :.@%removed!"; CHECK(name_with_invalid_chars.validate_node_name() == "Name with invalid characters ____removed!"); } TEST_CASE("[String] validate_identifier") { String empty_string; CHECK(empty_string.validate_identifier() == "_"); String numeric_only = "12345"; CHECK(numeric_only.validate_identifier() == "_12345"); String name_with_spaces = "Name with spaces"; CHECK(name_with_spaces.validate_identifier() == "Name_with_spaces"); String name_with_invalid_chars = U"Invalid characters:@*#&世界"; CHECK(name_with_invalid_chars.validate_identifier() == "Invalid_characters_______"); } TEST_CASE("[String] Variant indexed get") { Variant s = String("abcd"); bool valid = false; bool oob = true; String r = s.get_indexed(1, valid, oob); CHECK(valid); CHECK_FALSE(oob); CHECK_EQ(r, String("b")); } TEST_CASE("[String] Variant validated indexed get") { Variant s = String("abcd"); Variant::ValidatedIndexedGetter getter = Variant::get_member_validated_indexed_getter(Variant::STRING); Variant r; bool oob = true; getter(&s, 1, &r, &oob); CHECK_FALSE(oob); CHECK_EQ(r, String("b")); } TEST_CASE("[String] Variant ptr indexed get") { String s("abcd"); Variant::PTRIndexedGetter getter = Variant::get_member_ptr_indexed_getter(Variant::STRING); String r; getter(&s, 1, &r); CHECK_EQ(r, String("b")); } TEST_CASE("[String] Variant indexed set") { Variant s = String("abcd"); bool valid = false; bool oob = true; s.set_indexed(1, String("z"), valid, oob); CHECK(valid); CHECK_FALSE(oob); CHECK_EQ(s, String("azcd")); } TEST_CASE("[String] Variant validated indexed set") { Variant s = String("abcd"); Variant::ValidatedIndexedSetter setter = Variant::get_member_validated_indexed_setter(Variant::STRING); Variant v = String("z"); bool oob = true; setter(&s, 1, &v, &oob); CHECK_FALSE(oob); CHECK_EQ(s, String("azcd")); } TEST_CASE("[String] Variant ptr indexed set") { String s("abcd"); Variant::PTRIndexedSetter setter = Variant::get_member_ptr_indexed_setter(Variant::STRING); String v("z"); setter(&s, 1, &v); CHECK_EQ(s, String("azcd")); } TEST_CASE("[Stress][String] Empty via ' == String()'") { for (int i = 0; i < 100000; ++i) { String str = "Hello World!"; if (str == String()) { continue; } } } TEST_CASE("[Stress][String] Empty via `is_empty()`") { for (int i = 0; i < 100000; ++i) { String str = "Hello World!"; if (str.is_empty()) { continue; } } } } // namespace TestString #endif // TEST_STRING_H