godot/tests/core/string/test_string.h

2011 lines
64 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/**************************************************************************/
/* 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] Contains case insensitive") {
String s = "C:\\Godot\\project\\string_test.tscn";
CHECK(s.containsn("Godot"));
CHECK(s.containsn("godot"));
CHECK(s.containsn(String("Project\\string_test")));
CHECK(s.containsn(String("\\string_Test.tscn")));
CHECK(!s.containsn("Godoh"));
CHECK(!s.containsn("godoh"));
CHECK(!s.containsn(String("project\\string test")));
CHECK(!s.containsn(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";
String b = "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.");
CHECK(b.filenocasecmp_to("img3.png") < 0);
}
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";
MULTICHECK_STRING_EQ(s, find, "tty", 3);
MULTICHECK_STRING_EQ(s, find, "Revenge of the Monster Truck", -1);
MULTICHECK_STRING_INT_EQ(s, find, "Wo", 9, 13);
MULTICHECK_STRING_EQ(s, find, "", -1);
MULTICHECK_STRING_EQ(s, find, "Pretty Woman Woman", 0);
MULTICHECK_STRING_EQ(s, find, "WOMAN", -1);
MULTICHECK_STRING_INT_EQ(s, find, "", 9, -1);
MULTICHECK_STRING_EQ(s, rfind, "", -1);
MULTICHECK_STRING_EQ(s, rfind, "foo", -1);
MULTICHECK_STRING_EQ(s, rfind, "Pretty Woman Woman", 0);
MULTICHECK_STRING_EQ(s, rfind, "man", 15);
MULTICHECK_STRING_EQ(s, rfind, "WOMAN", -1);
MULTICHECK_STRING_INT_EQ(s, rfind, "", 15, -1);
}
TEST_CASE("[String] Find case insensitive") {
String s = "Pretty Whale Whale";
MULTICHECK_STRING_EQ(s, findn, "WHA", 7);
MULTICHECK_STRING_INT_EQ(s, findn, "WHA", 9, 13);
MULTICHECK_STRING_EQ(s, findn, "Revenge of the Monster SawFish", -1);
MULTICHECK_STRING_EQ(s, findn, "", -1);
MULTICHECK_STRING_EQ(s, findn, "wha", 7);
MULTICHECK_STRING_EQ(s, findn, "Wha", 7);
MULTICHECK_STRING_INT_EQ(s, findn, "", 3, -1);
MULTICHECK_STRING_EQ(s, rfindn, "WHA", 13);
MULTICHECK_STRING_EQ(s, rfindn, "", -1);
MULTICHECK_STRING_EQ(s, rfindn, "wha", 13);
MULTICHECK_STRING_EQ(s, rfindn, "Wha", 13);
MULTICHECK_STRING_INT_EQ(s, rfindn, "", 13, -1);
}
TEST_CASE("[String] Find MK") {
Vector<String> 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!";
MULTICHECK_STRING_STRING_EQ(s, replace, "Birthday", "Halloween", "Happy Halloween, Anna!");
MULTICHECK_STRING_STRING_EQ(s, replace_first, "y", "Y", "HappY Birthday, Anna!");
MULTICHECK_STRING_STRING_EQ(s, replacen, "Y", "Y", "HappY BirthdaY, Anna!");
}
TEST_CASE("[String] Insertion") {
String s = "Who is Frederic?";
s = s.insert(s.find("?"), " Chopin");
CHECK(s == "Who is Frederic Chopin?");
s = "foobar";
CHECK(s.insert(0, "X") == "Xfoobar");
CHECK(s.insert(-100, "X") == "foobar");
CHECK(s.insert(6, "X") == "foobarX");
CHECK(s.insert(100, "X") == "foobarX");
CHECK(s.insert(2, "") == "foobar");
s = "";
CHECK(s.insert(0, "abc") == "abc");
CHECK(s.insert(100, "abc") == "abc");
CHECK(s.insert(-100, "abc") == "");
CHECK(s.insert(0, "") == "");
}
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" };
MULTICHECK_GET_SLICE(s, ",", slices);
}
TEST_CASE("[String] Begins with") {
// Test cases for true:
MULTICHECK_STRING_EQ(String("res://foobar"), begins_with, "res://", true);
MULTICHECK_STRING_EQ(String("abc"), begins_with, "abc", true);
MULTICHECK_STRING_EQ(String("abc"), begins_with, "", true);
MULTICHECK_STRING_EQ(String(""), begins_with, "", true);
// Test cases for false:
MULTICHECK_STRING_EQ(String("res"), begins_with, "res://", false);
MULTICHECK_STRING_EQ(String("abcdef"), begins_with, "foo", false);
MULTICHECK_STRING_EQ(String("abc"), begins_with, "ax", false);
MULTICHECK_STRING_EQ(String(""), begins_with, "abc", false);
// Test "const char *" version also with nullptr.
String s("foo");
bool 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 cases for true:
MULTICHECK_STRING_EQ(String("res://foobar"), ends_with, "foobar", true);
MULTICHECK_STRING_EQ(String("abc"), ends_with, "abc", true);
MULTICHECK_STRING_EQ(String("abc"), ends_with, "", true);
MULTICHECK_STRING_EQ(String(""), ends_with, "", true);
// Test cases for false:
MULTICHECK_STRING_EQ(String("res"), ends_with, "res://", false);
MULTICHECK_STRING_EQ(String("abcdef"), ends_with, "foo", false);
MULTICHECK_STRING_EQ(String("abc"), ends_with, "ax", false);
MULTICHECK_STRING_EQ(String(""), ends_with, "abc", false);
// Test "const char *" version also with nullptr.
String s("foo");
bool state = s.ends_with(nullptr) == false;
CHECK_MESSAGE(state, "nullptr check failed");
String empty("");
state = empty.ends_with(nullptr) == false;
CHECK_MESSAGE(state, "nullptr check with empty string failed");
}
TEST_CASE("[String] Splitting") {
{
const String s = "Mars,Jupiter,Saturn,Uranus";
const char *slices_l[3] = { "Mars", "Jupiter", "Saturn,Uranus" };
MULTICHECK_SPLIT(s, split, ",", true, 2, slices_l, 3);
const char *slices_r[3] = { "Mars,Jupiter", "Saturn", "Uranus" };
MULTICHECK_SPLIT(s, rsplit, ",", true, 2, slices_r, 3);
}
{
const String s = "test";
const char *slices[4] = { "t", "e", "s", "t" };
MULTICHECK_SPLIT(s, split, "", true, 0, slices, 4);
}
{
const String s = "";
const char *slices[1] = { "" };
MULTICHECK_SPLIT(s, split, "", true, 0, slices, 1);
MULTICHECK_SPLIT(s, split, "", false, 0, slices, 0);
}
{
const String s = "Mars Jupiter Saturn Uranus";
const char *slices[4] = { "Mars", "Jupiter", "Saturn", "Uranus" };
Vector<String> l = s.split_spaces();
for (int i = 0; i < l.size(); i++) {
CHECK(l[i] == slices[i]);
}
}
{
const String s = "1.2;2.3 4.5";
const double slices[3] = { 1.2, 2.3, 4.5 };
const Vector<double> 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[i]) <= 0.00001);
}
const Vector<String> keys = { ";", " " };
const Vector<float> 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[i]) <= 0.00001);
}
}
{
const String s = " -2.0 5";
const double slices[10] = { 0, -2, 0, 0, 0, 0, 0, 0, 0, 5 };
const Vector<double> arr = s.split_floats(" ");
CHECK(arr.size() == 10);
for (int i = 0; i < arr.size(); i++) {
CHECK(ABS(arr[i] - slices[i]) <= 0.00001);
}
const Vector<String> keys = { ";", " " };
const Vector<float> mk = s.split_floats_mk(keys);
CHECK(mk.size() == 10);
for (int i = 0; i < mk.size(); i++) {
CHECK(mk[i] == slices[i]);
}
}
{
const String s = "1;2 4";
const int slices[3] = { 1, 2, 4 };
const Vector<int> arr = s.split_ints(";");
CHECK(arr.size() == 2);
for (int i = 0; i < arr.size(); i++) {
CHECK(arr[i] == slices[i]);
}
const Vector<String> keys = { ";", " " };
const Vector<int> mk = s.split_ints_mk(keys);
CHECK(mk.size() == 3);
for (int i = 0; i < mk.size(); i++) {
CHECK(mk[i] == slices[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"բառԲառառ 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"բառԲառառ բառ", U"բառԲառԲառԲառ", U"ԲառԲառԲառԲառ", U"բառառառառ" },
{ 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") {
String s = String("");
MULTICHECK_STRING_EQ(s, count, "Test", 0);
s = "Test";
MULTICHECK_STRING_EQ(s, count, "", 0);
s = "Test";
MULTICHECK_STRING_EQ(s, count, "test", 0);
s = "Test";
MULTICHECK_STRING_EQ(s, count, "TEST", 0);
s = "TEST";
MULTICHECK_STRING_EQ(s, count, "TEST", 1);
s = "Test";
MULTICHECK_STRING_EQ(s, count, "Test", 1);
s = "aTest";
MULTICHECK_STRING_EQ(s, count, "Test", 1);
s = "Testa";
MULTICHECK_STRING_EQ(s, count, "Test", 1);
s = "TestTestTest";
MULTICHECK_STRING_EQ(s, count, "Test", 3);
s = "TestTestTest";
MULTICHECK_STRING_EQ(s, count, "TestTest", 1);
s = "TestGodotTestGodotTestGodot";
MULTICHECK_STRING_EQ(s, count, "Test", 3);
s = "TestTestTestTest";
MULTICHECK_STRING_INT_INT_EQ(s, count, "Test", 4, 8, 1);
s = "TestTestTestTest";
MULTICHECK_STRING_INT_INT_EQ(s, count, "Test", 4, 12, 2);
s = "TestTestTestTest";
MULTICHECK_STRING_INT_INT_EQ(s, count, "Test", 4, 16, 3);
s = "TestTestTestTest";
MULTICHECK_STRING_INT_EQ(s, count, "Test", 4, 3);
s = "Test";
MULTICHECK_STRING_EQ(s, countn, "test", 1);
s = "Test";
MULTICHECK_STRING_EQ(s, countn, "TEST", 1);
s = "testTest-Testatest";
MULTICHECK_STRING_EQ(s, countn, "tEst", 4);
s = "testTest-TeStatest";
MULTICHECK_STRING_INT_INT_EQ(s, countn, "tEsT", 4, 16, 2);
}
TEST_CASE("[String] Bigrams") {
String s = "abcd";
Vector<String> 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\" <test@test&'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 = "&quot;&amp;&apos;&lt;&gt;";
CHECK(input.xml_unescape() == "\"&\'<>");
// Numeric entities
input = "&#x41;&#66;";
CHECK(input.xml_unescape() == "AB");
input = "&#0;&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 = "&#xFFFFFFFF;";
result = input.xml_unescape();
CHECK(result.length() == 1);
CHECK(result[0] == 0xFFFFFFFF);
input = "&#4294967295;";
result = input.xml_unescape();
CHECK(result.length() == 1);
CHECK(result[0] == 0xFFFFFFFF);
// Check out of range of char32_t
input = "&#xFFFFFFFFF;";
CHECK(input.xml_unescape() == input);
input = "&#4294967296;";
CHECK(input.xml_unescape() == input);
// Shouldn't consume without ending in a ';'
input = "&#66";
CHECK(input.xml_unescape() == input);
input = "&#x41";
CHECK(input.xml_unescape() == input);
// Invalid characters should make the entity ignored
input = "&#x41SomeIrrelevantText;";
CHECK(input.xml_unescape() == input);
input = "&#66SomeIrrelevantText;";
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";
MULTICHECK_STRING_EQ(s, trim_prefix, "aaa", "Testbbb");
MULTICHECK_STRING_EQ(s, trim_prefix, "Test", s);
MULTICHECK_STRING_EQ(s, trim_prefix, "", s);
MULTICHECK_STRING_EQ(s, trim_prefix, "aaaTestbbb", "");
MULTICHECK_STRING_EQ(s, trim_prefix, "bbb", s);
MULTICHECK_STRING_EQ(s, trim_prefix, "AAA", s);
MULTICHECK_STRING_EQ(s, trim_suffix, "bbb", "aaaTest");
MULTICHECK_STRING_EQ(s, trim_suffix, "Test", s);
MULTICHECK_STRING_EQ(s, trim_suffix, "", s);
MULTICHECK_STRING_EQ(s, trim_suffix, "aaaTestbbb", "");
MULTICHECK_STRING_EQ(s, trim_suffix, "aaa", s);
MULTICHECK_STRING_EQ(s, trim_suffix, "BBB", 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 comma = ", ";
String empty = "";
Vector<String> parts;
CHECK(comma.join(parts) == "");
CHECK(empty.join(parts) == "");
parts.push_back("One");
CHECK(comma.join(parts) == "One");
CHECK(empty.join(parts) == "One");
parts.push_back("B");
parts.push_back("C");
CHECK(comma.join(parts) == "One, B, C");
CHECK(empty.join(parts) == "OneBC");
parts.push_back("");
CHECK(comma.join(parts) == "One, B, C, ");
CHECK(empty.join(parts) == "OneBC");
}
TEST_CASE("[String] Is_*") {
static const char *data[13] = { "-30", "100", "10.1", "10,1", "1e2", "1e-2", "1e2e3", "0xAB", "AB", "Test1", "1Test", "Test*1", "文字" };
static bool isnum[13] = { true, true, true, false, false, false, false, false, false, false, false, false, false };
static bool isint[13] = { true, true, false, false, false, false, false, false, false, false, false, false, false };
static bool ishex[13] = { true, true, false, false, true, false, true, false, true, false, false, false, false };
static bool ishex_p[13] = { false, false, false, false, false, false, false, true, false, false, false, false, false };
static bool isflt[13] = { true, true, true, false, true, true, false, false, false, false, false, false, false };
static bool isaid[13] = { false, false, false, false, false, false, false, false, true, true, false, false, false };
static bool isuid[13] = { false, false, false, false, false, false, false, false, true, true, false, false, true };
for (int i = 0; i < 12; i++) {
String s = String::utf8(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_ascii_identifier() == isaid[i]);
CHECK(s.is_valid_unicode_identifier() == isuid[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_ascii_identifier") {
String empty_string;
CHECK(empty_string.validate_ascii_identifier() == "_");
String numeric_only = "12345";
CHECK(numeric_only.validate_ascii_identifier() == "_12345");
String name_with_spaces = "Name with spaces";
CHECK(name_with_spaces.validate_ascii_identifier() == "Name_with_spaces");
String name_with_invalid_chars = U"Invalid characters:@*#&世界";
CHECK(name_with_invalid_chars.validate_ascii_identifier() == "Invalid_characters_______");
}
TEST_CASE("[String] validate_unicode_identifier") {
String empty_string;
CHECK(empty_string.validate_unicode_identifier() == "_");
String numeric_only = "12345";
CHECK(numeric_only.validate_unicode_identifier() == "_12345");
String name_with_spaces = "Name with spaces";
CHECK(name_with_spaces.validate_unicode_identifier() == "Name_with_spaces");
String name_with_invalid_chars = U"Invalid characters:@*#&世界";
CHECK(name_with_invalid_chars.validate_unicode_identifier() == U"Invalid_characters_____世界");
}
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