/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include // IWYU pragma: keep #include #include #include #include #include #include #include #include "cmStringAlgorithms.h" int testStringAlgorithms(int /*unused*/, char* /*unused*/[]) { int failed = 0; auto assert_ok = [&failed](bool test, cm::string_view title) { if (test) { std::cout << "Passed: " << title << "\n"; } else { std::cout << "Failed: " << title << "\n"; ++failed; } }; auto assert_string = [&failed](cm::string_view generated, cm::string_view expected, cm::string_view title) { if (generated == expected) { std::cout << "Passed: " << title << "\n"; } else { std::cout << "Failed: " << title << "\n"; std::cout << "Expected: " << expected << "\n"; std::cout << "Got: " << generated << "\n"; ++failed; } }; // ---------------------------------------------------------------------- // Test cmTrimWhitespace { std::string base = "base"; std::string spaces = " \f\f\n\n\r\r\t\t\v\v"; assert_string(cmTrimWhitespace(spaces + base), base, "cmTrimWhitespace front"); assert_string(cmTrimWhitespace(base + spaces), base, "cmTrimWhitespace back"); assert_string(cmTrimWhitespace(spaces + base + spaces), base, "cmTrimWhitespace front and back"); } // ---------------------------------------------------------------------- // Test cmRemoveQuotes { auto test = [&assert_string](cm::string_view source, cm::string_view expected, cm::string_view title) { assert_string(cmRemoveQuotes(source), expected, title); }; test("", "", "cmRemoveQuotes empty"); test("\"", "\"", "cmRemoveQuotes single quote"); test("\"\"", "", "cmRemoveQuotes double quote"); test("\"a", "\"a", "cmRemoveQuotes quote char"); test("\"ab", "\"ab", "cmRemoveQuotes quote char char"); test("a\"", "a\"", "cmRemoveQuotes char quote"); test("ab\"", "ab\"", "cmRemoveQuotes char char quote"); test("a", "a", "cmRemoveQuotes single char"); test("ab", "ab", "cmRemoveQuotes two chars"); test("abc", "abc", "cmRemoveQuotes three chars"); test("\"abc\"", "abc", "cmRemoveQuotes quoted chars"); test("\"\"abc\"\"", "\"abc\"", "cmRemoveQuotes quoted quoted chars"); } // ---------------------------------------------------------------------- // Test cmEscapeQuotes { assert_string(cmEscapeQuotes("plain"), "plain", "cmEscapeQuotes plain"); std::string base = "\"base\"\""; std::string result = "\\\"base\\\"\\\""; assert_string(cmEscapeQuotes(base), result, "cmEscapeQuotes escaped"); } // ---------------------------------------------------------------------- // Test cmJoin { typedef std::string ST; typedef std::vector VT; assert_string(cmJoin(ST("abc"), ";"), "a;b;c", "cmJoin std::string"); assert_string(cmJoin(VT{}, ";"), "", "cmJoin std::vector empty"); assert_string(cmJoin(VT{ "a" }, ";"), "a", "cmJoin std::vector single"); assert_string(cmJoin(VT{ "a", "b", "c" }, ";"), "a;b;c", "cmJoin std::vector multiple"); assert_string(cmJoin(VT{ "a", "b", "c" }, "<=>"), "a<=>b<=>c", "cmJoin std::vector long sep"); } // ---------------------------------------------------------------------- // Test cmTokenize { typedef std::vector VT; assert_ok(cmTokenize("", ";") == VT{ "" }, "cmTokenize empty"); assert_ok(cmTokenize(";", ";") == VT{ "" }, "cmTokenize sep"); assert_ok(cmTokenize("abc", ";") == VT{ "abc" }, "cmTokenize item"); assert_ok(cmTokenize("abc;", ";") == VT{ "abc" }, "cmTokenize item sep"); assert_ok(cmTokenize(";abc", ";") == VT{ "abc" }, "cmTokenize sep item"); assert_ok(cmTokenize("abc;;efg", ";") == VT{ "abc", "efg" }, "cmTokenize item sep sep item"); assert_ok(cmTokenize("a1;a2;a3;a4", ";") == VT{ "a1", "a2", "a3", "a4" }, "cmTokenize multiple items"); } // ---------------------------------------------------------------------- // Test cmStrCat { int ni = -1100; unsigned int nui = 1100u; long int nli = -12000l; unsigned long int nuli = 12000ul; long long int nlli = -130000ll; unsigned long long int nulli = 130000ull; std::string val = cmStrCat("", ni, ',', nui, ',', nli, ",", nuli, ", ", nlli, std::string(", "), nulli, cm::string_view("")); std::string expect = "-1100,1100,-12000,12000, -130000, 130000"; assert_string(val, expect, "cmStrCat strings and integers"); } { float const val = 1.5f; float const div = 0.00001f; float f = 0.0f; std::istringstream(cmStrCat("", val)) >> f; f -= val; assert_ok((f < div) && (f > -div), "cmStrCat float"); } { double const val = 1.5; double const div = 0.00001; double d = 0.0; std::istringstream(cmStrCat("", val)) >> d; d -= val; assert_ok((d < div) && (d > -div), "cmStrCat double"); } { std::string val; std::string expect; val.reserve(50 * cmStrLen("cmStrCat move ") + 1); auto data = val.data(); auto capacity = val.capacity(); bool moved = true; for (int i = 0; i < 100; i++) { if (i % 2 == 0) { val = cmStrCat(std::move(val), "move "); expect += "move "; } else { val = cmStrCat("cmStrCat ", std::move(val)); expect = "cmStrCat " + std::move(expect); } if (val.data() != data || val.capacity() != capacity) { moved = false; } } assert_ok(moved, "cmStrCat move"); assert_string(val, expect, "cmStrCat move"); } // ---------------------------------------------------------------------- // Test cmWrap { typedef std::vector VT; assert_string(cmWrap("<", VT{}, ">", "; "), // "", // "cmWrap empty, string prefix and suffix"); assert_string(cmWrap("<", VT{ "abc" }, ">", "; "), // "", // "cmWrap single, string prefix and suffix"); assert_string(cmWrap("<", VT{ "a1", "a2", "a3" }, ">", "; "), // "; ; ", // "cmWrap multiple, string prefix and suffix"); assert_string(cmWrap('<', VT{}, '>', "; "), // "", // "cmWrap empty, char prefix and suffix"); assert_string(cmWrap('<', VT{ "abc" }, '>', "; "), // "", // "cmWrap single, char prefix and suffix"); assert_string(cmWrap('<', VT{ "a1", "a2", "a3" }, '>', "; "), // "; ; ", // "cmWrap multiple, char prefix and suffix"); } // ---------------------------------------------------------------------- // Test cmHas(Literal)Prefix and cmHas(Literal)Suffix { std::string str("abc"); assert_ok(cmHasPrefix(str, 'a'), "cmHasPrefix char"); assert_ok(!cmHasPrefix(str, 'c'), "cmHasPrefix char not"); assert_ok(cmHasPrefix(str, "ab"), "cmHasPrefix string"); assert_ok(!cmHasPrefix(str, "bc"), "cmHasPrefix string not"); assert_ok(cmHasPrefix(str, str), "cmHasPrefix complete string"); assert_ok(cmHasLiteralPrefix(str, "ab"), "cmHasLiteralPrefix string"); assert_ok(!cmHasLiteralPrefix(str, "bc"), "cmHasLiteralPrefix string not"); assert_ok(cmHasSuffix(str, 'c'), "cmHasSuffix char"); assert_ok(!cmHasSuffix(str, 'a'), "cmHasSuffix char not"); assert_ok(cmHasSuffix(str, "bc"), "cmHasSuffix string"); assert_ok(!cmHasSuffix(str, "ab"), "cmHasSuffix string not"); assert_ok(cmHasSuffix(str, str), "cmHasSuffix complete string"); assert_ok(cmHasLiteralSuffix(str, "bc"), "cmHasLiteralSuffix string"); assert_ok(!cmHasLiteralSuffix(str, "ab"), "cmHasLiteralPrefix string not"); } // ---------------------------------------------------------------------- // Test cmStrToLong { long value; assert_ok(cmStrToLong("1", &value) && value == 1, "cmStrToLong parses a positive decimal integer."); assert_ok(cmStrToLong(" 1", &value) && value == 1, "cmStrToLong parses a decimal integer after whitespace."); assert_ok(cmStrToLong("-1", &value) && value == -1, "cmStrToLong parses a negative decimal integer."); assert_ok( cmStrToLong(" -1", &value) && value == -1, "cmStrToLong parses a negative decimal integer after whitespace."); assert_ok(!cmStrToLong("1x", &value), "cmStrToLong rejects trailing content."); } // ---------------------------------------------------------------------- // Test cmStrToULong { unsigned long value; assert_ok(cmStrToULong("1", &value) && value == 1, "cmStrToULong parses a decimal integer."); assert_ok(cmStrToULong(" 1", &value) && value == 1, "cmStrToULong parses a decimal integer after whitespace."); assert_ok(!cmStrToULong("-1", &value), "cmStrToULong rejects a negative number."); assert_ok(!cmStrToULong(" -1", &value), "cmStrToULong rejects a negative number after whitespace."); assert_ok(!cmStrToULong("1x", &value), "cmStrToULong rejects trailing content."); } // ---------------------------------------------------------------------- // Test cmStrToLongLong { long long value; assert_ok(cmStrToLongLong("1", &value) && value == 1, "cmStrToLongLong parses a positive decimal integer."); assert_ok(cmStrToLongLong(" 1", &value) && value == 1, "cmStrToLongLong parses a decimal integer after whitespace."); assert_ok(cmStrToLongLong("-1", &value) && value == -1, "cmStrToLongLong parses a negative decimal integer."); assert_ok( cmStrToLongLong(" -1", &value) && value == -1, "cmStrToLongLong parses a negative decimal integer after whitespace."); assert_ok(!cmStrToLongLong("1x", &value), "cmStrToLongLong rejects trailing content."); } // ---------------------------------------------------------------------- // Test cmStrToULongLong { unsigned long long value; assert_ok(cmStrToULongLong("1", &value) && value == 1, "cmStrToULongLong parses a decimal integer."); assert_ok(cmStrToULongLong(" 1", &value) && value == 1, "cmStrToULongLong parses a decimal integer after whitespace."); assert_ok(!cmStrToULongLong("-1", &value), "cmStrToULongLong rejects a negative number."); assert_ok(!cmStrToULongLong(" -1", &value), "cmStrToULongLong rejects a negative number after whitespace."); assert_ok(!cmStrToULongLong("1x", &value), "cmStrToULongLong rejects trailing content."); } // ---------------------------------------------------------------------- // Test cmStrLen { constexpr auto len = cmStrLen("Hello world!"); assert_ok(len == 12, "cmStrLen returns length of non-empty literal string"); assert_ok(cmStrLen("") == 0, "cmStrLen returns length of empty literal string"); } return failed; }