#include "tests/ArrayStringTests.h" #include "data/HashMap.h" #include "test/Test.h" #include "utils/ArrayString.h" using String = Core::ArrayString<128>; static String build(Core::Test& test, const char* cs) { String s; test.checkFalse(s.append(cs), "append works"); return s; } static void testEquality(Core::Test& test) { String s = build(test, "test"); test.checkTrue(s == "test", "equality with c-string"); test.checkTrue(s == build(test, "test"), "equality with another string"); test.checkTrue("test" == s, "inverse equality with c-string"); test.checkTrue(build(test, "test") == s, "inverse equality with another string"); test.checkTrue(s == s, "equality with itself"); } static void testUnicodeEquality(Core::Test& test) { const char* cs = "\u0040\u0400\u8000\U00100000"; String s = build(test, cs); test.checkTrue(s == cs, "unicode equality with c-string"); test.checkTrue(s == build(test, cs), "unicode equality with another string"); test.checkTrue(cs == s, "unicode inverse equality with c-string"); test.checkTrue(build(test, cs) == s, "unicode inverse equality with another string"); test.checkTrue(s == s, "unicode equality with itself"); } static void testInequality(Core::Test& test) { String s = build(test, "test"); test.checkFalse(s != "test", "inequality with c-string"); test.checkFalse(s != build(test, "test"), "inequality with another string"); test.checkFalse("test" != s, "inverse inequality with c-string"); test.checkFalse(build(test, "test") != s, "inverse inequality with another string"); test.checkFalse(s != s, "inequality with itself"); } static void testStringAppend(Core::Test& test) { String s = build(test, "test"); test.checkFalse(s.append("22"), "multiple append works"); test.checkFalse(s.append("333"), "multiple append works"); test.checkFalse(s.append("4444"), "multiple append works"); test.checkEqual(build(test, "test223334444"), s, "multiple appends"); } static void testStringAppendOverflow(Core::Test& test) { Core::ArrayString<20> s; test.checkFalse(s.append("te"), "overflow test 1"); test.checkTrue(s.append("23334444"), "overflow test 2"); test.checkTrue(build(test, "te23334444") != s, "overflow test 3"); } static void testCharacters(Core::Test& test) { String s = build(test, "test"); test.checkEqual('t', s[0], "character read 1"); test.checkEqual('e', s[1], "character read 2"); test.checkEqual('s', s[2], "character read 3"); test.checkEqual('t', s[3], "character read 4"); } static void testLength(Core::Test& test) { String s = build(test, "test"); test.checkEqual(4, s.getLength(), "length 1"); test.checkFalse(s.append("aaa"), "length append works"); test.checkEqual(7, s.getLength(), "length 2"); } static void testChar(Core::Test& test) { String s = build(test, "test"); for(char i = 'a'; i < 'd'; i++) { test.checkFalse(s.append(i), "char append"); } test.checkEqual(build(test, "testabc"), s, "char append"); } static void testSignedChar(Core::Test& test) { String s = build(test, "test"); for(signed char i = 'b'; i < 'e'; i++) { test.checkFalse(s.append(i), "signed char append"); } test.checkEqual(build(test, "testbcd"), s, "signed char append"); } static void testUnsignedChar(Core::Test& test) { String s = build(test, "test"); for(unsigned char i = 'c'; i < 'f'; i++) { test.checkFalse(s.append(i), "unsigned char append"); } test.checkEqual(build(test, "testcde"), s, "unsigned char append"); } static void testSignedShort(Core::Test& test) { String s = build(test, "test"); for(signed short i = 100; i < 103; i++) { test.checkFalse(s.append(i), "signed short append"); } test.checkEqual(build(test, "test100101102"), s, "signed short append"); } static void testUnsignedShort(Core::Test& test) { String s = build(test, "test"); for(unsigned short i = 101; i < 104; i++) { test.checkFalse(s.append(i), "unsigned short append"); } test.checkEqual(build(test, "test101102103"), s, "unsigned short append"); } static void testSignedInt(Core::Test& test) { String s = build(test, "test"); for(signed int i = 102; i < 105; i++) { test.checkFalse(s.append(i), "signed int append"); } test.checkEqual(build(test, "test102103104"), s, "signed int append"); } static void testUnsignedInt(Core::Test& test) { String s = build(test, "test"); for(unsigned int i = 103; i < 106; i++) { test.checkFalse(s.append(i), "unsigned int append"); } test.checkEqual(build(test, "test103104105"), s, "unsigned int append"); } static void testSignedLong(Core::Test& test) { String s = build(test, "test"); for(signed long i = 104; i < 107; i++) { test.checkFalse(s.append(i), "signed long append"); } test.checkEqual(build(test, "test104105106"), s, "signed long append"); } static void testUnsignedLong(Core::Test& test) { String s = build(test, "test"); for(unsigned long i = 105; i < 108; i++) { test.checkFalse(s.append(i), "unsigned long append"); } test.checkEqual(build(test, "test105106107"), s, "unsigned long append"); } static void testSignedLongLong(Core::Test& test) { String s = build(test, "test"); for(signed long long i = 106; i < 109; i++) { test.checkFalse(s.append(i), "signed long long append"); } test.checkEqual(build(test, "test106107108"), s, "signed long long append"); } static void testUnsignedLongLong(Core::Test& test) { String s = build(test, "test"); for(unsigned long long i = 107; i < 110; i++) { test.checkFalse(s.append(i), "unsigned long long append"); } test.checkEqual(build(test, "test107108109"), s, "unsigned long long append"); } static void testFloat(Core::Test& test) { String s = build(test, "test"); for(float i = 108; i < 111; i++) { test.checkFalse(s.append(i), "float append"); } test.checkEqual(build(test, "test108.00109.00110.00"), s, "float append"); } static void testDouble(Core::Test& test) { String s = build(test, "test"); for(double i = 109; i < 112; i++) { test.checkFalse(s.append(i), "double append"); } test.checkEqual(build(test, "test109.00110.00111.00"), s, "double append"); } static void testLongDouble(Core::Test& test) { String s = build(test, "test"); for(long double i = 110; i < 113; i++) { test.checkFalse(s.append(i), "long double append"); } test.checkEqual(build(test, "test110.00111.00112.00"), s, "long double append"); } static void testBool(Core::Test& test) { String s = build(test, "test"); test.checkFalse(s.append(true), "bool append 1"); test.checkFalse(s.append(false), "bool append 2"); test.checkFalse(s.append(true), "bool append 3"); test.checkEqual(build(test, "testtruefalsetrue"), s, "bool append 4"); } static void testIntOverflow(Core::Test& test) { Core::ArrayString<20> s; test.checkTrue(s.append(123456), "int overflow"); String o; for(int i = 0; i < s.getCapacity(); i++) { test.checkFalse(o.append(i + 1), "int overflow compare build"); } test.checkTrue(o == s, "int overflow compare"); } static void testUnicode(Core::Test& test) { String s; test.checkFalse(s.appendUnicode('\u0040'), "unicode 1"); test.checkFalse(s.appendUnicode(L'\u0400'), "unicode 2"); test.checkFalse(s.appendUnicode(L'\u8000'), "unicode 3"); test.checkFalse(s.appendUnicode(U'\U00100000'), "unicode 4"); test.checkEqual(build(test, "\u0040\u0400\u8000\U00100000"), s, "unicode append"); } static void testClear(Core::Test& test) { String s = build(test, "test"); test.checkFalse(s.append(1234), "clear 1"); s.clear(); test.checkFalse(s.append("wusi"), "clear 2"); test.checkFalse(s.append("1234"), "clear 3"); test.checkEqual(build(test, "wusi1234"), s, "clear 4"); } static void testHashCode(Core::Test& test) { String s; test.checkFalse(s.append("a"), "hash code 1"); test.checkFalse(s.append("bc"), "hash code 2"); test.checkFalse(s.append(20), "hash code 3"); test.checkFalse(s.append(25.5f), "hash code 4"); test.checkFalse(s.append(true), "hash code 5"); test.checkEqual(build(test, "abc2025.50true").hashCode(), s.hashCode(), "string modification recalculates hash 1"); s.clear(); test.checkEqual(String().hashCode(), s.hashCode(), "string modification recalculates hash 2"); } static void testAddSelf(Core::Test& test) { String s; test.checkFalse(s.append("test1"), "add self 1"); test.checkFalse(s.append(s), "add self 2"); test.checkFalse(s.append(s), "add self 3"); test.checkEqual(build(test, "test1test1test1test1"), s, "add self 4"); } static void testAsHashMapKey(Core::Test& test) { Core::HashMap map; test.checkFalse(map.add(build(test, "wusi"), 3), "as hashmap key 1"); test.checkFalse(map.add(build(test, "hiThere"), 7), "as hashmap key 2"); test.checkFalse(map.add(build(test, "baum123"), 5), "as hashmap key 3"); int* a = map.search(build(test, "wusi")); int* b = map.search(build(test, "hiThere")); int* c = map.search(build(test, "baum123")); int* d = map.search(build(test, "423hifd")); test.checkTrue(a != nullptr, "strings works as hash key 1"); test.checkTrue(b != nullptr, "strings works as hash key 2"); test.checkTrue(c != nullptr, "strings works as hash key 3"); test.checkTrue(d == nullptr, "strings works as hash key 4"); if(a != nullptr && b != nullptr && c != nullptr) { test.checkEqual(3, *a, "strings works as hash key 1"); test.checkEqual(7, *b, "strings works as hash key 2"); test.checkEqual(5, *c, "strings works as hash key 3"); } } void Core::ArrayStringTests::test() { Core::Test test("String"); testEquality(test); testUnicodeEquality(test); testInequality(test); testStringAppend(test); testStringAppendOverflow(test); testCharacters(test); testLength(test); testChar(test); testSignedChar(test); testUnsignedChar(test); testSignedShort(test); testUnsignedShort(test); testSignedInt(test); testUnsignedInt(test); testSignedLong(test); testUnsignedLong(test); testSignedLongLong(test); testUnsignedLongLong(test); testFloat(test); testDouble(test); testLongDouble(test); testBool(test); testIntOverflow(test); testUnicode(test); testClear(test); testHashCode(test); testAddSelf(test); testAsHashMapKey(test); test.finalize(); }