// Kyler Olsen // YREA SLS // Lexer Tests // October 2025 #include #include #include #include #include #include "sls/errors.h" #include "sls/lexer.h" #include "sls/string.h" #include "tests/lexer_test_helpers.h" #include "tests/tests.h" static const size_t NUM_OF_TESTS = 368; static TestResult test_Empty_Statement() { LexerTest test = start_up_test(SLS_STR("Empty_Statement"), SLS_STR("")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_0() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal 0"), SLS_STR("0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_1() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal -1"), SLS_STR("-1")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, -1})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_42() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal 42"), SLS_STR("42")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_Leading_Zeros() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal Leading Zeros"), SLS_STR("00042")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Hex_0xFF() { LexerTest test = start_up_test(SLS_STR("Integer Default Hex 0xFF"), SLS_STR("0xFF")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Hex_0xdeadbeef() { LexerTest test = start_up_test(SLS_STR("Integer Default Hex 0xdeadbeef"), SLS_STR("0xdeadbeef")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 3735928559})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Hex_Max() { LexerTest test = start_up_test(SLS_STR("Integer Default Hex Max"), SLS_STR("0x7FFFFFFFFFFFFFFF")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 9223372036854775807})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Binary_0b1010() { LexerTest test = start_up_test(SLS_STR("Integer Default Binary 0b1010"), SLS_STR("0b1010")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 10})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Binary_All_Ones() { LexerTest test = start_up_test(SLS_STR("Integer Default Binary All Ones"), SLS_STR("0b1111111111111111")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 65535})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Octal_0o755() { LexerTest test = start_up_test(SLS_STR("Integer Default Octal 0o755"), SLS_STR("0o755")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 493})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Octal_Max_Three_Digits() { LexerTest test = start_up_test(SLS_STR("Integer Default Octal Max Three Digits"), SLS_STR("0o777")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 511})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_Max_i64() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal Max i64"), SLS_STR("9223372036854775807")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 9223372036854775807})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_Min_i64() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal Min i64"), SLS_STR("-9223372036854775808")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, INT64_MIN})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_with_Underscore() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal with Underscore"), SLS_STR("1_000_000")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 1000000})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Underscore_End() { LexerTest test = start_up_test(SLS_STR("Integer Default Underscore End"), SLS_STR("42_")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Underscore_Double() { LexerTest test = start_up_test(SLS_STR("Integer Default Underscore Double"), SLS_STR("4__2")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Whitespace() { LexerTest test = start_up_test(SLS_STR("Integer Default Whitespace"), SLS_STR(" 42 ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Hex_Zero() { LexerTest test = start_up_test(SLS_STR("Integer Default Hex Zero"), SLS_STR("0x0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Binary_Zero() { LexerTest test = start_up_test(SLS_STR("Integer Default Binary Zero"), SLS_STR("0b0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Octal_Zero() { LexerTest test = start_up_test(SLS_STR("Integer Default Octal Zero"), SLS_STR("0o0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Decimal_with_Commas_Invalid() { LexerTest test = start_up_test(SLS_STR("Integer Default Decimal with Commas Invalid"), SLS_STR("1,000,000")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid decimal literal: unexpected ',' in decimal integer."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Invalid_Characters() { LexerTest test = start_up_test(SLS_STR("Integer Default Invalid Characters"), SLS_STR("12a3")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid decimal literal: unexpected 'a' in decimal integer."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Default_Invalid_Prefix() { LexerTest test = start_up_test(SLS_STR("Integer Default Invalid Prefix"), SLS_STR("0b2")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid binary literal: unexpected '2' in binary integer."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer i8 Decimal Positive"), SLS_STR("42:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Zero() { LexerTest test = start_up_test(SLS_STR("Integer i8 Zero"), SLS_STR("0:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Decimal_Negative() { LexerTest test = start_up_test(SLS_STR("Integer i8 Decimal Negative"), SLS_STR("-100:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, -100})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Hex() { LexerTest test = start_up_test(SLS_STR("Integer i8 Hex"), SLS_STR("0x7F:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 127})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Binary() { LexerTest test = start_up_test(SLS_STR("Integer i8 Binary"), SLS_STR("0b1111:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Octal() { LexerTest test = start_up_test(SLS_STR("Integer i8 Octal"), SLS_STR("0o77:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer i8 Max Value"), SLS_STR("127:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 127})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer i8 Min Value"), SLS_STR("-128:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, -128})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer i8 Overflow"), SLS_STR("128:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i8."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer i8 Underflow"), SLS_STR("-129:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i8."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer i16 Decimal Positive"), SLS_STR("42:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Zero() { LexerTest test = start_up_test(SLS_STR("Integer i16 Zero"), SLS_STR("0:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Decimal_Negative() { LexerTest test = start_up_test(SLS_STR("Integer i16 Decimal Negative"), SLS_STR("-100:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, -100})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Hex() { LexerTest test = start_up_test(SLS_STR("Integer i16 Hex"), SLS_STR("0xFF:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Binary() { LexerTest test = start_up_test(SLS_STR("Integer i16 Binary"), SLS_STR("0b1111:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Octal() { LexerTest test = start_up_test(SLS_STR("Integer i16 Octal"), SLS_STR("0o77:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer i16 Max Value"), SLS_STR("32767:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 32767})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer i16 Min Value"), SLS_STR("-32768:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, -32768})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer i16 Overflow"), SLS_STR("32768:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i16."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer i16 Underflow"), SLS_STR("-32769:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i16."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer i32 Decimal Positive"), SLS_STR("42:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Zero() { LexerTest test = start_up_test(SLS_STR("Integer i32 Zero"), SLS_STR("0:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Decimal_Negative() { LexerTest test = start_up_test(SLS_STR("Integer i32 Decimal Negative"), SLS_STR("-100:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, -100})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Hex() { LexerTest test = start_up_test(SLS_STR("Integer i32 Hex"), SLS_STR("0xFF:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Binary() { LexerTest test = start_up_test(SLS_STR("Integer i32 Binary"), SLS_STR("0b1111:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Octal() { LexerTest test = start_up_test(SLS_STR("Integer i32 Octal"), SLS_STR("0o77:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer i32 Max Value"), SLS_STR("2147483647:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 2147483647})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer i32 Min Value"), SLS_STR("-2147483648:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, -2147483648})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer i32 Overflow"), SLS_STR("2147483648:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i32."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer i32 Underflow"), SLS_STR("-2147483649:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i32."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Integer i32 With Underscores"), SLS_STR("1_000_000:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 1000000})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer i64 Decimal Positive"), SLS_STR("42:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Zero() { LexerTest test = start_up_test(SLS_STR("Integer i64 Zero"), SLS_STR("0:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Decimal_Negative() { LexerTest test = start_up_test(SLS_STR("Integer i64 Decimal Negative"), SLS_STR("-100:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, -100})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Hex() { LexerTest test = start_up_test(SLS_STR("Integer i64 Hex"), SLS_STR("0xFF:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Binary() { LexerTest test = start_up_test(SLS_STR("Integer i64 Binary"), SLS_STR("0b1111:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Octal() { LexerTest test = start_up_test(SLS_STR("Integer i64 Octal"), SLS_STR("0o77:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer i64 Max Value"), SLS_STR("9223372036854775807:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 9223372036854775807})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer i64 Min Value"), SLS_STR("-9223372036854775808:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, INT64_MIN})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer i64 Overflow"), SLS_STR("9223372036854775808:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i64."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer i64 Underflow"), SLS_STR("-9223372036854775809:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for i64."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Integer i64 With Underscores"), SLS_STR("1_000_000:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 1000000})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer u8 Decimal Positive"), SLS_STR("42:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Zero() { LexerTest test = start_up_test(SLS_STR("Integer u8 Zero"), SLS_STR("0:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Hex() { LexerTest test = start_up_test(SLS_STR("Integer u8 Hex"), SLS_STR("0xFF:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Binary() { LexerTest test = start_up_test(SLS_STR("Integer u8 Binary"), SLS_STR("0b1111:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Octal() { LexerTest test = start_up_test(SLS_STR("Integer u8 Octal"), SLS_STR("0o77:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer u8 Max Value"), SLS_STR("255:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer u8 Min Value"), SLS_STR("0:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer u8 Overflow"), SLS_STR("256:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u8."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer u8 Underflow"), SLS_STR("-1:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u8."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer u16 Decimal Positive"), SLS_STR("42:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Zero() { LexerTest test = start_up_test(SLS_STR("Integer u16 Zero"), SLS_STR("0:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Hex() { LexerTest test = start_up_test(SLS_STR("Integer u16 Hex"), SLS_STR("0xFF:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Binary() { LexerTest test = start_up_test(SLS_STR("Integer u16 Binary"), SLS_STR("0b1111:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Octal() { LexerTest test = start_up_test(SLS_STR("Integer u16 Octal"), SLS_STR("0o77:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer u16 Max Value"), SLS_STR("65535:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 65535})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer u16 Min Value"), SLS_STR("0:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer u16 Overflow"), SLS_STR("65536:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u16."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer u16 Underflow"), SLS_STR("-1:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u16."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer u32 Decimal Positive"), SLS_STR("42:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Zero() { LexerTest test = start_up_test(SLS_STR("Integer u32 Zero"), SLS_STR("0:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Hex() { LexerTest test = start_up_test(SLS_STR("Integer u32 Hex"), SLS_STR("0xFF:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Binary() { LexerTest test = start_up_test(SLS_STR("Integer u32 Binary"), SLS_STR("0b1111:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Octal() { LexerTest test = start_up_test(SLS_STR("Integer u32 Octal"), SLS_STR("0o77:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer u32 Max Value"), SLS_STR("4294967295:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 4294967295})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer u32 Min Value"), SLS_STR("0:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer u32 Overflow"), SLS_STR("4294967296:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u32."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer u32 Underflow"), SLS_STR("-1:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u32."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Integer u32 With Underscores"), SLS_STR("1_000_000:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 1000000})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Decimal_Positive() { LexerTest test = start_up_test(SLS_STR("Integer u64 Decimal Positive"), SLS_STR("42:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Zero() { LexerTest test = start_up_test(SLS_STR("Integer u64 Zero"), SLS_STR("0:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Hex() { LexerTest test = start_up_test(SLS_STR("Integer u64 Hex"), SLS_STR("0xFF:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Binary() { LexerTest test = start_up_test(SLS_STR("Integer u64 Binary"), SLS_STR("0b1111:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 15})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Octal() { LexerTest test = start_up_test(SLS_STR("Integer u64 Octal"), SLS_STR("0o77:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Max_Value() { LexerTest test = start_up_test(SLS_STR("Integer u64 Max Value"), SLS_STR("18446744073709551615:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, UINT64_MAX})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Min_Value() { LexerTest test = start_up_test(SLS_STR("Integer u64 Min Value"), SLS_STR("0:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Overflow() { LexerTest test = start_up_test(SLS_STR("Integer u64 Overflow"), SLS_STR("18446744073709551616:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u64."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Underflow() { LexerTest test = start_up_test(SLS_STR("Integer u64 Underflow"), SLS_STR("-1:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Integer overflow: value exceeds range for u64."))) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Integer u64 With Underscores"), SLS_STR("1_000_000:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 1000000})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Hex_Max() { LexerTest test = start_up_test(SLS_STR("Integer i8 Hex Max"), SLS_STR("0x7F:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 127})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Binary_Max() { LexerTest test = start_up_test(SLS_STR("Integer i8 Binary Max"), SLS_STR("0b01111111:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 127})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Octal_Max() { LexerTest test = start_up_test(SLS_STR("Integer i8 Octal Max"), SLS_STR("0o177:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, 127})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i8_Negative_Hex() { LexerTest test = start_up_test(SLS_STR("Integer i8 Negative Hex"), SLS_STR("-0x80:i8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I8, -128})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Hex_Max() { LexerTest test = start_up_test(SLS_STR("Integer u8 Hex Max"), SLS_STR("0xFF:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Binary_Max() { LexerTest test = start_up_test(SLS_STR("Integer u8 Binary Max"), SLS_STR("0b11111111:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u8_Octal_Max() { LexerTest test = start_up_test(SLS_STR("Integer u8 Octal Max"), SLS_STR("0o377:u8")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U8, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Hex_Sample() { LexerTest test = start_up_test(SLS_STR("Integer i16 Hex Sample"), SLS_STR("0x1234:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 4660})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Binary_Sample() { LexerTest test = start_up_test(SLS_STR("Integer i16 Binary Sample"), SLS_STR("0b1111111100000000:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, -256})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i16_Octal_Sample() { LexerTest test = start_up_test(SLS_STR("Integer i16 Octal Sample"), SLS_STR("0o1234:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 668})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Hex_Max() { LexerTest test = start_up_test(SLS_STR("Integer u16 Hex Max"), SLS_STR("0xFFFF:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 65535})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Binary_Max() { LexerTest test = start_up_test(SLS_STR("Integer u16 Binary Max"), SLS_STR("0b1111111111111111:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 65535})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Octal_Max() { LexerTest test = start_up_test(SLS_STR("Integer u16 Octal Max"), SLS_STR("0o177777:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 65535})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u16_Decimal_Mid() { LexerTest test = start_up_test(SLS_STR("Integer u16 Decimal Mid"), SLS_STR("50000:u16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U16, 50000})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Hex_Sample() { LexerTest test = start_up_test(SLS_STR("Integer i32 Hex Sample"), SLS_STR("0xABCD:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 43981})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i32_Binary_Sample() { LexerTest test = start_up_test(SLS_STR("Integer i32 Binary Sample"), SLS_STR("0b11110000:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 240})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Hex_Max() { LexerTest test = start_up_test(SLS_STR("Integer u32 Hex Max"), SLS_STR("0xFFFFFFFF:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 4294967295})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Binary_Sample() { LexerTest test = start_up_test(SLS_STR("Integer u32 Binary Sample"), SLS_STR("0b11111111000000001111111100000000:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 4278255360})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Octal_Max() { LexerTest test = start_up_test(SLS_STR("Integer u32 Octal Max"), SLS_STR("0o37777777777:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 4294967295})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u32_Decimal_Mid() { LexerTest test = start_up_test(SLS_STR("Integer u32 Decimal Mid"), SLS_STR("1000000:u32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U32, 1000000})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Decimal_Positive_42() { LexerTest test = start_up_test(SLS_STR("Integer i64 Decimal Positive 42"), SLS_STR("42:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Hex_0xFF() { LexerTest test = start_up_test(SLS_STR("Integer i64 Hex 0xFF"), SLS_STR("0xFF:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 255})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Binary_0b1010() { LexerTest test = start_up_test(SLS_STR("Integer i64 Binary 0b1010"), SLS_STR("0b1010:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 10})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_i64_Octal_0o755() { LexerTest test = start_up_test(SLS_STR("Integer i64 Octal 0o755"), SLS_STR("0o755:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 493})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Hex_Max() { LexerTest test = start_up_test(SLS_STR("Integer u64 Hex Max"), SLS_STR("0xFFFFFFFFFFFFFFFF:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, UINT64_MAX})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Binary_Sample() { LexerTest test = start_up_test(SLS_STR("Integer u64 Binary Sample"), SLS_STR("0b1010101010101010:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 43690})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Octal_Sample() { LexerTest test = start_up_test(SLS_STR("Integer u64 Octal Sample"), SLS_STR("0o7777:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 4095})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_u64_Decimal() { LexerTest test = start_up_test(SLS_STR("Integer u64 Decimal"), SLS_STR("42:u64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_U64, 42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Hex_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Integer Hex With Underscores"), SLS_STR("0xDEAD_BEEF:i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 3735928559})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Binary_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Integer Binary With Underscores"), SLS_STR("0b1111_0000_1010_0101:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I32, 61605})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Integer_Octal_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Integer Octal With Underscores"), SLS_STR("0o7_7_7:i16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I16, 511})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Simple() { LexerTest test = start_up_test(SLS_STR("Float Default Simple"), SLS_STR("3.14")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.14})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Zero() { LexerTest test = start_up_test(SLS_STR("Float Default Zero"), SLS_STR("0.0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){0.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Negative() { LexerTest test = start_up_test(SLS_STR("Float Default Negative"), SLS_STR("-2.5")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){-2.5})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_One() { LexerTest test = start_up_test(SLS_STR("Float Default One"), SLS_STR("1.0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_Simple() { LexerTest test = start_up_test(SLS_STR("Float f32 Simple"), SLS_STR("3.14:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){3.14})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f64_Simple() { LexerTest test = start_up_test(SLS_STR("Float f64 Simple"), SLS_STR("2.718:f64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){2.718})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Leading_Zeros() { LexerTest test = start_up_test(SLS_STR("Float Default Leading Zeros"), SLS_STR("00042.5")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){42.5})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Leading_Zero_Decimal() { LexerTest test = start_up_test(SLS_STR("Float Default Leading Zero Decimal"), SLS_STR("0.5")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){0.5})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Trailing_Zeros() { LexerTest test = start_up_test(SLS_STR("Float Default Trailing Zeros"), SLS_STR("3.1400")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.14})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_No_Leading_Digit() { LexerTest test = start_up_test(SLS_STR("Float Default No Leading Digit"), SLS_STR(".5")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){0.5})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_No_Leading_Digit_Negative() { LexerTest test = start_up_test(SLS_STR("Float Default No Leading Digit Negative"), SLS_STR("-.25")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){-0.25})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_No_Trailing_Digits() { LexerTest test = start_up_test(SLS_STR("Float Default No Trailing Digits"), SLS_STR("42.")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){42.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_No_Trailing_Digits_Negative() { LexerTest test = start_up_test(SLS_STR("Float Default No Trailing Digits Negative"), SLS_STR("-7.")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){-7.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Very_Small() { LexerTest test = start_up_test(SLS_STR("Float Default Very Small"), SLS_STR("0.000001")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1e-06})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Very_Large() { LexerTest test = start_up_test(SLS_STR("Float Default Very Large"), SLS_STR("1000000.0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1000000.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Underscore_Integer_Part() { LexerTest test = start_up_test(SLS_STR("Float Default Underscore Integer Part"), SLS_STR("1_000_000.5")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1000000.5})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Underscore_Decimal_Part() { LexerTest test = start_up_test(SLS_STR("Float Default Underscore Decimal Part"), SLS_STR("3.141_592_653")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.141592653})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Underscore_Both_Parts() { LexerTest test = start_up_test(SLS_STR("Float Default Underscore Both Parts"), SLS_STR("1_234.567_89")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1234.56789})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Underscore_Trailing() { LexerTest test = start_up_test(SLS_STR("Float Default Underscore Trailing"), SLS_STR("42.5_")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){42.5})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Underscore_Double() { LexerTest test = start_up_test(SLS_STR("Float Default Underscore Double"), SLS_STR("4__2.5")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){42.5})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_With_Underscores() { LexerTest test = start_up_test(SLS_STR("Float f32 With Underscores"), SLS_STR("1_234.567_89:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){1234.56789})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_Precision_Limit() { LexerTest test = start_up_test(SLS_STR("Float f32 Precision Limit"), SLS_STR("1.2345678:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){1.2345678})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_High_Precision() { LexerTest test = start_up_test(SLS_STR("Float f32 High Precision"), SLS_STR("3.141592653589793:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){3.141592653589793})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f64_Precision_Limit() { LexerTest test = start_up_test(SLS_STR("Float f64 Precision Limit"), SLS_STR("1.234567890123456:f64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1.234567890123456})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f64_High_Precision() { LexerTest test = start_up_test(SLS_STR("Float f64 High Precision"), SLS_STR("3.141592653589793238:f64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.141592653589793})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f64_Close_Numbers_1() { LexerTest test = start_up_test(SLS_STR("Float f64 Close Numbers 1"), SLS_STR("1.0000000000000001:f64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f64_Close_Numbers_2() { LexerTest test = start_up_test(SLS_STR("Float f64 Close Numbers 2"), SLS_STR("1.0000000000000002:f64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1.0000000000000002})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Invalid_Multiple_Decimal_Points() { LexerTest test = start_up_test(SLS_STR("Float Invalid Multiple Decimal Points"), SLS_STR("3.14.159")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid float literal: unexpected '.' in float."))) return test.result; return pass_test(&test, result); } static TestResult test_Float_Invalid_Characters() { LexerTest test = start_up_test(SLS_STR("Float Invalid Characters"), SLS_STR("3.1a4")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid float literal: unexpected 'a' in float."))) return test.result; return pass_test(&test, result); } static TestResult test_Float_Invalid_Type_Annotation() { LexerTest test = start_up_test(SLS_STR("Float Invalid Type Annotation"), SLS_STR("3.14:i32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid float type: must be of type 'f64' or 'f32'."))) return test.result; return pass_test(&test, result); } static TestResult test_Float_Invalid_Type_Name() { LexerTest test = start_up_test(SLS_STR("Float Invalid Type Name"), SLS_STR("3.14:f16")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid float type: must be of type 'f64' or 'f32'."))) return test.result; return pass_test(&test, result); } static TestResult test_Float_Invalid_Comma_Separator() { LexerTest test = start_up_test(SLS_STR("Float Invalid Comma Separator"), SLS_STR("1,234.56")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid decimal literal: unexpected ',' in decimal integer."))) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Leading_Whitespace() { LexerTest test = start_up_test(SLS_STR("Float Default Leading Whitespace"), SLS_STR(" 3.14")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.14})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Trailing_Whitespace() { LexerTest test = start_up_test(SLS_STR("Float Default Trailing Whitespace"), SLS_STR("3.14 ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.14})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Both_Whitespace() { LexerTest test = start_up_test(SLS_STR("Float Default Both Whitespace"), SLS_STR(" 3.14 ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.14})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_With_Whitespace() { LexerTest test = start_up_test(SLS_STR("Float f32 With Whitespace"), SLS_STR(" 2.718:f32 ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){2.718})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Pi_Approximate() { LexerTest test = start_up_test(SLS_STR("Float Default Pi Approximate"), SLS_STR("3.141592653589793")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){3.141592653589793})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_Pi_Approximate() { LexerTest test = start_up_test(SLS_STR("Float f32 Pi Approximate"), SLS_STR("3.1415927:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){3.1415927})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Euler_Approximate() { LexerTest test = start_up_test(SLS_STR("Float Default Euler Approximate"), SLS_STR("2.718281828459045")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){2.718281828459045})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_Euler_Approximate() { LexerTest test = start_up_test(SLS_STR("Float f32 Euler Approximate"), SLS_STR("2.7182817:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){2.7182817})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Golden_Ratio() { LexerTest test = start_up_test(SLS_STR("Float Default Golden Ratio"), SLS_STR("1.618033988749895")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1.618033988749895})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Sqrt2() { LexerTest test = start_up_test(SLS_STR("Float Default Sqrt2"), SLS_STR("1.4142135623730951")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){1.4142135623730951})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Positive_Zero() { LexerTest test = start_up_test(SLS_STR("Float Default Positive Zero"), SLS_STR("0.0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){0.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_Default_Negative_Zero() { LexerTest test = start_up_test(SLS_STR("Float Default Negative Zero"), SLS_STR("-0.0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_double_value(&test, result, i++, &(double){-0.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_Positive_Zero() { LexerTest test = start_up_test(SLS_STR("Float f32 Positive Zero"), SLS_STR("0.0:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){0.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Float_f32_Negative_Zero() { LexerTest test = start_up_test(SLS_STR("Float f32 Negative Zero"), SLS_STR("-0.0:f32")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_float_value(&test, result, i++, &(float){-0.0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Simple_Letter_A() { LexerTest test = start_up_test(SLS_STR("Char Simple Letter A"), SLS_STR("'A'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){65})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Simple_Letter_a() { LexerTest test = start_up_test(SLS_STR("Char Simple Letter a"), SLS_STR("'a'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){97})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Simple_Letter_Z() { LexerTest test = start_up_test(SLS_STR("Char Simple Letter Z"), SLS_STR("'Z'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){90})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Simple_Letter_z() { LexerTest test = start_up_test(SLS_STR("Char Simple Letter z"), SLS_STR("'z'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){122})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Digit_0() { LexerTest test = start_up_test(SLS_STR("Char Digit 0"), SLS_STR("'0'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){48})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Digit_5() { LexerTest test = start_up_test(SLS_STR("Char Digit 5"), SLS_STR("'5'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){53})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Digit_9() { LexerTest test = start_up_test(SLS_STR("Char Digit 9"), SLS_STR("'9'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){57})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Space() { LexerTest test = start_up_test(SLS_STR("Char Space"), SLS_STR("' '")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){32})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Exclamation() { LexerTest test = start_up_test(SLS_STR("Char Exclamation"), SLS_STR("'!'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){33})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Question_Mark() { LexerTest test = start_up_test(SLS_STR("Char Question Mark"), SLS_STR("'?'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){63})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Period() { LexerTest test = start_up_test(SLS_STR("Char Period"), SLS_STR("'.'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){46})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Comma() { LexerTest test = start_up_test(SLS_STR("Char Comma"), SLS_STR("','")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){44})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Semicolon() { LexerTest test = start_up_test(SLS_STR("Char Semicolon"), SLS_STR("';'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){59})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Colon() { LexerTest test = start_up_test(SLS_STR("Char Colon"), SLS_STR("':'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){58})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Plus() { LexerTest test = start_up_test(SLS_STR("Char Plus"), SLS_STR("'+'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){43})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Minus() { LexerTest test = start_up_test(SLS_STR("Char Minus"), SLS_STR("'-'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){45})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Asterisk() { LexerTest test = start_up_test(SLS_STR("Char Asterisk"), SLS_STR("'*'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){42})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Slash() { LexerTest test = start_up_test(SLS_STR("Char Slash"), SLS_STR("'/'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){47})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Equals() { LexerTest test = start_up_test(SLS_STR("Char Equals"), SLS_STR("'='")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){61})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Less_Than() { LexerTest test = start_up_test(SLS_STR("Char Less Than"), SLS_STR("'<'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){60})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Greater_Than() { LexerTest test = start_up_test(SLS_STR("Char Greater Than"), SLS_STR("'>'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){62})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Left_Paren() { LexerTest test = start_up_test(SLS_STR("Char Left Paren"), SLS_STR("'('")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){40})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Right_Paren() { LexerTest test = start_up_test(SLS_STR("Char Right Paren"), SLS_STR("')'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){41})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Left_Bracket() { LexerTest test = start_up_test(SLS_STR("Char Left Bracket"), SLS_STR("'['")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){91})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Right_Bracket() { LexerTest test = start_up_test(SLS_STR("Char Right Bracket"), SLS_STR("']'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){93})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Left_Brace() { LexerTest test = start_up_test(SLS_STR("Char Left Brace"), SLS_STR("'{'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){123})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Right_Brace() { LexerTest test = start_up_test(SLS_STR("Char Right Brace"), SLS_STR("'}'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){125})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Escape_Backslash() { LexerTest test = start_up_test(SLS_STR("Char Escape Backslash"), SLS_STR("'\\\\'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){92})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Escape_Carriage_return() { LexerTest test = start_up_test(SLS_STR("Char Escape Carriage return"), SLS_STR("'\\r'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){13})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Escape_Newline() { LexerTest test = start_up_test(SLS_STR("Char Escape Newline"), SLS_STR("'\\n'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){10})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Escape_Tab() { LexerTest test = start_up_test(SLS_STR("Char Escape Tab"), SLS_STR("'\\t'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){9})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Escape_Single_quote() { LexerTest test = start_up_test(SLS_STR("Char Escape Single quote"), SLS_STR("'\\''")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){39})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Escape_Null_character() { LexerTest test = start_up_test(SLS_STR("Char Escape Null character"), SLS_STR("'\\0'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_With_Leading_Whitespace() { LexerTest test = start_up_test(SLS_STR("Char With Leading Whitespace"), SLS_STR(" 'A'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){65})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_With_Trailing_Whitespace() { LexerTest test = start_up_test(SLS_STR("Char With Trailing Whitespace"), SLS_STR("'A' ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){65})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_With_Both_Whitespace() { LexerTest test = start_up_test(SLS_STR("Char With Both Whitespace"), SLS_STR(" 'A' ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){65})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Tab_Before() { LexerTest test = start_up_test(SLS_STR("Char Tab Before"), SLS_STR("\t'B'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){66})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Newline_Before() { LexerTest test = start_up_test(SLS_STR("Char Newline Before"), SLS_STR("\n'C'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_character_value(&test, result, i++, &(uint8_t){67})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Char_Empty_Literal() { LexerTest test = start_up_test(SLS_STR("Char Empty Literal"), SLS_STR("''")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid character literal: empty character literal."))) return test.result; return pass_test(&test, result); } static TestResult test_Char_Multiple_Characters() { LexerTest test = start_up_test(SLS_STR("Char Multiple Characters"), SLS_STR("'AB'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid character literal: unexpected 'B' in character."))) return test.result; return pass_test(&test, result); } static TestResult test_Char_Unclosed_Quote() { LexerTest test = start_up_test(SLS_STR("Char Unclosed Quote"), SLS_STR("'A")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid character literal: unclosed character literal."))) return test.result; return pass_test(&test, result); } static TestResult test_Char_Unescaped_Newline() { LexerTest test = start_up_test(SLS_STR("Char Unescaped Newline"), SLS_STR("'\n'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid character literal: unclosed character literal."))) return test.result; return pass_test(&test, result); } static TestResult test_Char_Invalid_Escape() { LexerTest test = start_up_test(SLS_STR("Char Invalid Escape"), SLS_STR("'\\q'")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid character literal: unknown escape sequence '\\q'."))) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Simple_Lowercase() { LexerTest test = start_up_test(SLS_STR("Identifier Simple Lowercase"), SLS_STR("hello")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Simple_Uppercase() { LexerTest test = start_up_test(SLS_STR("Identifier Simple Uppercase"), SLS_STR("HELLO")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("HELLO")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Mixed_Case() { LexerTest test = start_up_test(SLS_STR("Identifier Mixed Case"), SLS_STR("HelloWorld")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("HelloWorld")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Single_Letter() { LexerTest test = start_up_test(SLS_STR("Identifier Single Letter"), SLS_STR("x")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("x")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Single_Letter_Upper() { LexerTest test = start_up_test(SLS_STR("Identifier Single Letter Upper"), SLS_STR("X")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("X")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_With_Numbers() { LexerTest test = start_up_test(SLS_STR("Identifier With Numbers"), SLS_STR("var123")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("var123")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Numbers_End() { LexerTest test = start_up_test(SLS_STR("Identifier Numbers End"), SLS_STR("myVar2")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("myVar2")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Mixed_Numbers() { LexerTest test = start_up_test(SLS_STR("Identifier Mixed Numbers"), SLS_STR("a1b2c3")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("a1b2c3")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_With_Underscore() { LexerTest test = start_up_test(SLS_STR("Identifier With Underscore"), SLS_STR("hello_world")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("hello_world")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Leading_Underscore() { LexerTest test = start_up_test(SLS_STR("Identifier Leading Underscore"), SLS_STR("_private")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("_private")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Multiple_Underscores() { LexerTest test = start_up_test(SLS_STR("Identifier Multiple Underscores"), SLS_STR("my_long_var_name")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("my_long_var_name")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Double_Underscore() { LexerTest test = start_up_test(SLS_STR("Identifier Double Underscore"), SLS_STR("my__var")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("my__var")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Trailing_Underscore() { LexerTest test = start_up_test(SLS_STR("Identifier Trailing Underscore"), SLS_STR("var_")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("var_")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Only_Underscores() { LexerTest test = start_up_test(SLS_STR("Identifier Only Underscores"), SLS_STR("___")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("___")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Snake_Case() { LexerTest test = start_up_test(SLS_STR("Identifier Snake Case"), SLS_STR("my_variable_name")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("my_variable_name")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Camel_Case() { LexerTest test = start_up_test(SLS_STR("Identifier Camel Case"), SLS_STR("myVariableName")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("myVariableName")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Pascal_Case() { LexerTest test = start_up_test(SLS_STR("Identifier Pascal Case"), SLS_STR("MyClassName")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("MyClassName")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_All_Caps() { LexerTest test = start_up_test(SLS_STR("Identifier All Caps"), SLS_STR("MY_CONSTANT")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("MY_CONSTANT")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_With_Dash() { LexerTest test = start_up_test(SLS_STR("Identifier With Dash"), SLS_STR("my-var")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("my-var")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Simple() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Simple"), SLS_STR("::hello")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Uppercase() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Uppercase"), SLS_STR("::Point")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("Point")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Snake_Case() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Snake Case"), SLS_STR("::my_var")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("my_var")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Type_i64() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Type i64"), SLS_STR("::i64")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("i64")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Type_String() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Type String"), SLS_STR("::String")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("String")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Type_Point() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Type Point"), SLS_STR("::Point")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("Point")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Trait_Addable() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Trait Addable"), SLS_STR("::Addable")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("Addable")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Trait_Drawable() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Trait Drawable"), SLS_STR("::Drawable")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("Drawable")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Field_x() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Field x"), SLS_STR("::x")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("x")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Field_width() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Field width"), SLS_STR("::width")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("width")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_With_Underscore() { LexerTest test = start_up_test(SLS_STR("Identifier Literal With Underscore"), SLS_STR("::_private")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("_private")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Multiple_Underscores() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Multiple Underscores"), SLS_STR("::my_long_name")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("my_long_name")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_With_Numbers() { LexerTest test = start_up_test(SLS_STR("Identifier Literal With Numbers"), SLS_STR("::var123")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("var123")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Leading_Whitespace() { LexerTest test = start_up_test(SLS_STR("Identifier Leading Whitespace"), SLS_STR(" hello")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Trailing_Whitespace() { LexerTest test = start_up_test(SLS_STR("Identifier Trailing Whitespace"), SLS_STR("hello ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Both_Whitespace() { LexerTest test = start_up_test(SLS_STR("Identifier Both Whitespace"), SLS_STR(" hello ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Tab_Before() { LexerTest test = start_up_test(SLS_STR("Identifier Tab Before"), SLS_STR("\thello")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Leading_Whitespace() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Leading Whitespace"), SLS_STR(" ::hello")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Trailing_Whitespace() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Trailing Whitespace"), SLS_STR("::hello ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Both_Whitespace() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Both Whitespace"), SLS_STR(" ::hello ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){TRUE, SLS_STR("hello")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Moderate_Length() { LexerTest test = start_up_test(SLS_STR("Identifier Moderate Length"), SLS_STR("thisIsAReasonablyLongVariableName")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("thisIsAReasonablyLongVariableName")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Very_Long() { LexerTest test = start_up_test(SLS_STR("Identifier Very Long"), SLS_STR("this_is_a_very_long_identifier_name_that_someone_might_use_for_some_reason")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("this_is_a_very_long_identifier_name_that_someone_might_use_for_some_reason")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Long_With_Numbers() { LexerTest test = start_up_test(SLS_STR("Identifier Long With Numbers"), SLS_STR("variable_with_many_numbers_123_456_789_000")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("variable_with_many_numbers_123_456_789_000")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Starting_With_Number() { LexerTest test = start_up_test(SLS_STR("Identifier Starting With Number"), SLS_STR("123abc")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid decimal literal: unexpected 'a' in decimal integer."))) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_With_Octothorpe() { LexerTest test = start_up_test(SLS_STR("Identifier With Octothorpe"), SLS_STR("my#var")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("my")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_With_Colon() { LexerTest test = start_up_test(SLS_STR("Identifier With Colon"), SLS_STR("my:var")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid identifier: ':' is not allowed in identifiers."))) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Double_Colon_Inside() { LexerTest test = start_up_test(SLS_STR("Identifier Double Colon Inside"), SLS_STR("my::var")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid identifier: ':' is not allowed in identifiers."))) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Only_Numbers() { LexerTest test = start_up_test(SLS_STR("Identifier Only Numbers"), SLS_STR("123")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 123})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Literal_Empty() { LexerTest test = start_up_test(SLS_STR("Identifier Literal Empty"), SLS_STR("::")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Invalid identifier literal: empty identifier after '::'."))) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Case_Lower() { LexerTest test = start_up_test(SLS_STR("Identifier Case Lower"), SLS_STR("variable")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("variable")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Case_Upper() { LexerTest test = start_up_test(SLS_STR("Identifier Case Upper"), SLS_STR("VARIABLE")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("VARIABLE")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Case_Mixed() { LexerTest test = start_up_test(SLS_STR("Identifier Case Mixed"), SLS_STR("Variable")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("Variable")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Case_Camel() { LexerTest test = start_up_test(SLS_STR("Identifier Case Camel"), SLS_STR("variableName")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("variableName")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Case_Pascal() { LexerTest test = start_up_test(SLS_STR("Identifier Case Pascal"), SLS_STR("VariableName")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("VariableName")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_if() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word if"), SLS_STR("if")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("if")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_while() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word while"), SLS_STR("while")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("while")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_for() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word for"), SLS_STR("for")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("for")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_match() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word match"), SLS_STR("match")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("match")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_break() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word break"), SLS_STR("break")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("break")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_continue() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word continue"), SLS_STR("continue")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("continue")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_fn() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word fn"), SLS_STR("fn")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("fn")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_struct() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word struct"), SLS_STR("struct")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("struct")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_union() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word union"), SLS_STR("union")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("union")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_enum() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word enum"), SLS_STR("enum")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("enum")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_trait() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word trait"), SLS_STR("trait")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("trait")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_impl() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word impl"), SLS_STR("impl")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("impl")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_inher() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word inher"), SLS_STR("inher")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("inher")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_dup() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word dup"), SLS_STR("dup")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("dup")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_drop() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word drop"), SLS_STR("drop")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("drop")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_swap() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word swap"), SLS_STR("swap")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("swap")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_over() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word over"), SLS_STR("over")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("over")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_rot() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word rot"), SLS_STR("rot")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("rot")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_pick() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word pick"), SLS_STR("pick")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("pick")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_roll() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word roll"), SLS_STR("roll")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("roll")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Identifier_Reserved_Word_depth() { LexerTest test = start_up_test(SLS_STR("Identifier Reserved Word depth"), SLS_STR("depth")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("depth")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True() { LexerTest test = start_up_test(SLS_STR("Bool True"), SLS_STR("true")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False() { LexerTest test = start_up_test(SLS_STR("Bool False"), SLS_STR("false")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){FALSE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True_Leading_Whitespace() { LexerTest test = start_up_test(SLS_STR("Bool True Leading Whitespace"), SLS_STR(" true")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True_Trailing_Whitespace() { LexerTest test = start_up_test(SLS_STR("Bool True Trailing Whitespace"), SLS_STR("true ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True_Both_Whitespace() { LexerTest test = start_up_test(SLS_STR("Bool True Both Whitespace"), SLS_STR(" true ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True_Tab_Before() { LexerTest test = start_up_test(SLS_STR("Bool True Tab Before"), SLS_STR("\ttrue")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False_Leading_Whitespace() { LexerTest test = start_up_test(SLS_STR("Bool False Leading Whitespace"), SLS_STR(" false")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){FALSE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False_Trailing_Whitespace() { LexerTest test = start_up_test(SLS_STR("Bool False Trailing Whitespace"), SLS_STR("false ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){FALSE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False_Both_Whitespace() { LexerTest test = start_up_test(SLS_STR("Bool False Both Whitespace"), SLS_STR(" false ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){FALSE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False_Tab_Before() { LexerTest test = start_up_test(SLS_STR("Bool False Tab Before"), SLS_STR("\tfalse")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){FALSE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True_Capitalized() { LexerTest test = start_up_test(SLS_STR("Bool True Capitalized"), SLS_STR("True")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("True")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False_Capitalized() { LexerTest test = start_up_test(SLS_STR("Bool False Capitalized"), SLS_STR("False")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("False")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True_All_Caps() { LexerTest test = start_up_test(SLS_STR("Bool True All Caps"), SLS_STR("TRUE")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("TRUE")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False_All_Caps() { LexerTest test = start_up_test(SLS_STR("Bool False All Caps"), SLS_STR("FALSE")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("FALSE")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_True_Mixed_Case() { LexerTest test = start_up_test(SLS_STR("Bool True Mixed Case"), SLS_STR("tRuE")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("tRuE")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_False_Mixed_Case() { LexerTest test = start_up_test(SLS_STR("Bool False Mixed Case"), SLS_STR("fAlSe")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("fAlSe")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Numeric_1() { LexerTest test = start_up_test(SLS_STR("Bool Numeric 1"), SLS_STR("1")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 1})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Numeric_0() { LexerTest test = start_up_test(SLS_STR("Bool Numeric 0"), SLS_STR("0")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_integer_value(&test, result, i++, &(TestIntegerValue){INTEGER_I64, 0})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Yes() { LexerTest test = start_up_test(SLS_STR("Bool Yes"), SLS_STR("yes")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("yes")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_No() { LexerTest test = start_up_test(SLS_STR("Bool No"), SLS_STR("no")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("no")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Typo_Ture() { LexerTest test = start_up_test(SLS_STR("Bool Typo Ture"), SLS_STR("ture")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("ture")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Typo_Flase() { LexerTest test = start_up_test(SLS_STR("Bool Typo Flase"), SLS_STR("flase")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_identifier_value(&test, result, i++, &(TestIdentifierValue){FALSE, SLS_STR("flase")})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Multiple_True_False() { LexerTest test = start_up_test(SLS_STR("Bool Multiple True False"), SLS_STR("true false")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_boolean_value(&test, result, i++, &(Boolean){FALSE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Multiple_Same() { LexerTest test = start_up_test(SLS_STR("Bool Multiple Same"), SLS_STR("true true")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_Bool_Three_Values() { LexerTest test = start_up_test(SLS_STR("Bool Three Values"), SLS_STR("true false true")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_boolean_value(&test, result, i++, &(Boolean){FALSE})) return test.result; if (test_boolean_value(&test, result, i++, &(Boolean){TRUE})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Empty() { LexerTest test = start_up_test(SLS_STR("TokenString Empty"), SLS_STR("{ }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){0, NULL})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Single_Integer() { LexerTest test = start_up_test(SLS_STR("TokenString Single Integer"), SLS_STR("{ 42 }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 42}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Single_Identifier() { LexerTest test = start_up_test(SLS_STR("TokenString Single Identifier"), SLS_STR("{ dup }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Two_Integers() { LexerTest test = start_up_test(SLS_STR("TokenString Two Integers"), SLS_STR("{ 2 3 }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Simple_Expression() { LexerTest test = start_up_test(SLS_STR("TokenString Simple Expression"), SLS_STR("{ 2 3 + }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Stack_Ops() { LexerTest test = start_up_test(SLS_STR("TokenString Stack Ops"), SLS_STR("{ dup * }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Integer_Literals() { LexerTest test = start_up_test(SLS_STR("TokenString Integer Literals"), SLS_STR("{ 0 42 -10 1000 }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){4, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 0}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 42}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, -10}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 1000}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Float_Literals() { LexerTest test = start_up_test(SLS_STR("TokenString Float Literals"), SLS_STR("{ 3.14 -2.5 0.0 }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_double_value, &(double){3.14}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_double_value, &(double){-2.5}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_double_value, &(double){0.0}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Char_Literal() { LexerTest test = start_up_test(SLS_STR("TokenString Char Literal"), SLS_STR("{ 'A' }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_character_value, &(uint8_t){65}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Boolean_Literals() { LexerTest test = start_up_test(SLS_STR("TokenString Boolean Literals"), SLS_STR("{ true false }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_boolean_value, &(Boolean){TRUE}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_boolean_value, &(Boolean){FALSE}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Multiple_Identifiers() { LexerTest test = start_up_test(SLS_STR("TokenString Multiple Identifiers"), SLS_STR("{ dup swap over }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("swap")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("over")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Identifier_Literals() { LexerTest test = start_up_test(SLS_STR("TokenString Identifier Literals"), SLS_STR("{ ::x ::y }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){TRUE, SLS_STR("x")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){TRUE, SLS_STR("y")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Mixed_Identifiers() { LexerTest test = start_up_test(SLS_STR("TokenString Mixed Identifiers"), SLS_STR("{ ::Point get x swap }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){4, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){TRUE, SLS_STR("Point")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("get")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("x")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("swap")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Nested_Single() { LexerTest test = start_up_test(SLS_STR("TokenString Nested Single"), SLS_STR("{ { 2 3 + } }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Nested_With_Others() { LexerTest test = start_up_test(SLS_STR("TokenString Nested With Others"), SLS_STR("{ x { dup * } }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("x")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}}}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Multiple_Nested() { LexerTest test = start_up_test(SLS_STR("TokenString Multiple Nested"), SLS_STR("{ { 2 3 + } { 4 5 * } }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 4}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 5}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}}}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Double_Nested() { LexerTest test = start_up_test(SLS_STR("TokenString Double Nested"), SLS_STR("{ { { 42 } } }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 42}}}}}}}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Complex_Nesting() { LexerTest test = start_up_test(SLS_STR("TokenString Complex Nesting"), SLS_STR("{ 1 { 2 { 3 } 4 } 5 }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 1}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}}}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 4}}}}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 5}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_No_Whitespace() { LexerTest test = start_up_test(SLS_STR("TokenString No Whitespace"), SLS_STR("{2 3 +}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Extra_Whitespace() { LexerTest test = start_up_test(SLS_STR("TokenString Extra Whitespace"), SLS_STR("{ 2 3 + }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Leading_Whitespace_Outside() { LexerTest test = start_up_test(SLS_STR("TokenString Leading Whitespace Outside"), SLS_STR(" { 2 3 + }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Trailing_Whitespace_Outside() { LexerTest test = start_up_test(SLS_STR("TokenString Trailing Whitespace Outside"), SLS_STR("{ 2 3 + } ")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_With_Tabs() { LexerTest test = start_up_test(SLS_STR("TokenString With Tabs"), SLS_STR("{\t2\t3\t+\t}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Multiline_Simple() { LexerTest test = start_up_test(SLS_STR("TokenString Multiline Simple"), SLS_STR("{\n 2 3 +\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Multiline_Multiple() { LexerTest test = start_up_test(SLS_STR("TokenString Multiline Multiple"), SLS_STR("{\n dup\n *\n 2\n +\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){4, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Mixed_Line_Breaks() { LexerTest test = start_up_test(SLS_STR("TokenString Mixed Line Breaks"), SLS_STR("{ 1 2\n3 4\n\n5 6 }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){6, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 1}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 4}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 5}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 6}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Indented_Multiline() { LexerTest test = start_up_test(SLS_STR("TokenString Indented Multiline"), SLS_STR("{\n dup 0 >\n { }\n { 0 swap - }\n if\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){6, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 0}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR(">")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){0, NULL}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 0}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("swap")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("-")}}}}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("if")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Comment_End_Of_Line() { LexerTest test = start_up_test(SLS_STR("TokenString Comment End Of Line"), SLS_STR("{ 2 3 + // add them\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Multiple_Comments() { LexerTest test = start_up_test(SLS_STR("TokenString Multiple Comments"), SLS_STR("{ 2 // first\n3 // second\n+ // add\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Comment_Own_Line() { LexerTest test = start_up_test(SLS_STR("TokenString Comment Own Line"), SLS_STR("{\n // This is a comment\n 2 3 +\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Comment_At_Start() { LexerTest test = start_up_test(SLS_STR("TokenString Comment At Start"), SLS_STR("{ // comment\n2 3 + }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Multiple_Comment_Lines() { LexerTest test = start_up_test(SLS_STR("TokenString Multiple Comment Lines"), SLS_STR("{\n // First comment\n // Second comment\n 2 3 +\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Comments_Nested() { LexerTest test = start_up_test(SLS_STR("TokenString Comments Nested"), SLS_STR("{ { 2 3 + // inner comment\n} // outer comment\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Unclosed() { LexerTest test = start_up_test(SLS_STR("TokenString Unclosed"), SLS_STR("{ 2 3 +")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Unclosed token string: missing closing brace '}'."))) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Unclosed_Nested() { LexerTest test = start_up_test(SLS_STR("TokenString Unclosed Nested"), SLS_STR("{ { 2 3 + }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Unclosed token string: missing closing brace '}'."))) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Extra_Closing_Brace() { LexerTest test = start_up_test(SLS_STR("TokenString Extra Closing Brace"), SLS_STR("{ 2 3 + } }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 3}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_for_error(&test, result, i++, &SLS_STR("Unexpected closing brace '}' without matching opening brace."))) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Only_Closing_Brace() { LexerTest test = start_up_test(SLS_STR("TokenString Only Closing Brace"), SLS_STR("}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_for_error(&test, result, i++, &SLS_STR("Unexpected closing brace '}' without matching opening brace."))) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Error_Inside() { LexerTest test = start_up_test(SLS_STR("TokenString Error Inside"), SLS_STR("{ 2 3a + }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){3, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_for_error, &SLS_STR("Invalid decimal literal: unexpected 'a' in decimal integer.")}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Unclosed_String_Inside() { LexerTest test = start_up_test(SLS_STR("TokenString Unclosed String Inside"), SLS_STR("{ \"hello }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){1, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_for_error, &SLS_STR("Invalid string literal: unclosed string literal.")}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Function_Body() { LexerTest test = start_up_test(SLS_STR("TokenString Function Body"), SLS_STR("{ dup * }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Loop_Body() { LexerTest test = start_up_test(SLS_STR("TokenString Loop Body"), SLS_STR("{ dup print 1 + }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){4, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("print")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 1}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("+")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Struct_Fields() { LexerTest test = start_up_test(SLS_STR("TokenString Struct Fields"), SLS_STR("{ x: y: }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){4, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("x")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR(":")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("y")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR(":")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Lambda() { LexerTest test = start_up_test(SLS_STR("TokenString Lambda"), SLS_STR("{ 2 * }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 2}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Array_Map() { LexerTest test = start_up_test(SLS_STR("TokenString Array Map"), SLS_STR("{ dup * }")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } static TestResult test_TokenString_Conditional_Complex() { LexerTest test = start_up_test(SLS_STR("TokenString Conditional Complex"), SLS_STR("{\n dup 0 >\n { dup * }\n { drop 0 }\n if\n}")); LexerResult result = lexical_analysis(&test.lexer_info); if (result.type == SLS_ERROR) return error_fail_test(&test, result, result.error); size_t i = 0; if (test_token_string_value(&test, result, i++, &(TestTokenStringValue){6, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 0}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR(">")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("dup")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("*")}}}}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_token_string_value, &(TestTokenStringValue){2, (TestTokenStringToken[]){{(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("drop")}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_integer_value, &(TestIntegerValue){INTEGER_I64, 0}}}}}, {(Boolean (*)(LexerTest *, LexerResult, size_t, void *))test_identifier_value, &(TestIdentifierValue){FALSE, SLS_STR("if")}}}})) return test.result; if (test_eof_value(&test, result, i++, 0)) return test.result; return pass_test(&test, result); } TestsReport run_lexer_tests() { TestsReport test_report = (TestsReport) { .section = SLS_STR("lexer_tests"), .count = NUM_OF_TESTS, .tests = (TestResult *)malloc(sizeof(TestResult) * NUM_OF_TESTS), }; size_t i = 0; test_report.tests[i++] = test_Empty_Statement(); test_report.tests[i++] = test_Integer_Default_Decimal_0(); test_report.tests[i++] = test_Integer_Default_Decimal_1(); test_report.tests[i++] = test_Integer_Default_Decimal_42(); test_report.tests[i++] = test_Integer_Default_Decimal_Leading_Zeros(); test_report.tests[i++] = test_Integer_Default_Hex_0xFF(); test_report.tests[i++] = test_Integer_Default_Hex_0xdeadbeef(); test_report.tests[i++] = test_Integer_Default_Hex_Max(); test_report.tests[i++] = test_Integer_Default_Binary_0b1010(); test_report.tests[i++] = test_Integer_Default_Binary_All_Ones(); test_report.tests[i++] = test_Integer_Default_Octal_0o755(); test_report.tests[i++] = test_Integer_Default_Octal_Max_Three_Digits(); test_report.tests[i++] = test_Integer_Default_Decimal_Max_i64(); test_report.tests[i++] = test_Integer_Default_Decimal_Min_i64(); test_report.tests[i++] = test_Integer_Default_Decimal_with_Underscore(); test_report.tests[i++] = test_Integer_Default_Underscore_End(); test_report.tests[i++] = test_Integer_Default_Underscore_Double(); test_report.tests[i++] = test_Integer_Default_Whitespace(); test_report.tests[i++] = test_Integer_Default_Hex_Zero(); test_report.tests[i++] = test_Integer_Default_Binary_Zero(); test_report.tests[i++] = test_Integer_Default_Octal_Zero(); test_report.tests[i++] = test_Integer_Default_Decimal_with_Commas_Invalid(); test_report.tests[i++] = test_Integer_Default_Invalid_Characters(); test_report.tests[i++] = test_Integer_Default_Invalid_Prefix(); test_report.tests[i++] = test_Integer_i8_Decimal_Positive(); test_report.tests[i++] = test_Integer_i8_Zero(); test_report.tests[i++] = test_Integer_i8_Decimal_Negative(); test_report.tests[i++] = test_Integer_i8_Hex(); test_report.tests[i++] = test_Integer_i8_Binary(); test_report.tests[i++] = test_Integer_i8_Octal(); test_report.tests[i++] = test_Integer_i8_Max_Value(); test_report.tests[i++] = test_Integer_i8_Min_Value(); test_report.tests[i++] = test_Integer_i8_Overflow(); test_report.tests[i++] = test_Integer_i8_Underflow(); test_report.tests[i++] = test_Integer_i16_Decimal_Positive(); test_report.tests[i++] = test_Integer_i16_Zero(); test_report.tests[i++] = test_Integer_i16_Decimal_Negative(); test_report.tests[i++] = test_Integer_i16_Hex(); test_report.tests[i++] = test_Integer_i16_Binary(); test_report.tests[i++] = test_Integer_i16_Octal(); test_report.tests[i++] = test_Integer_i16_Max_Value(); test_report.tests[i++] = test_Integer_i16_Min_Value(); test_report.tests[i++] = test_Integer_i16_Overflow(); test_report.tests[i++] = test_Integer_i16_Underflow(); test_report.tests[i++] = test_Integer_i32_Decimal_Positive(); test_report.tests[i++] = test_Integer_i32_Zero(); test_report.tests[i++] = test_Integer_i32_Decimal_Negative(); test_report.tests[i++] = test_Integer_i32_Hex(); test_report.tests[i++] = test_Integer_i32_Binary(); test_report.tests[i++] = test_Integer_i32_Octal(); test_report.tests[i++] = test_Integer_i32_Max_Value(); test_report.tests[i++] = test_Integer_i32_Min_Value(); test_report.tests[i++] = test_Integer_i32_Overflow(); test_report.tests[i++] = test_Integer_i32_Underflow(); test_report.tests[i++] = test_Integer_i32_With_Underscores(); test_report.tests[i++] = test_Integer_i64_Decimal_Positive(); test_report.tests[i++] = test_Integer_i64_Zero(); test_report.tests[i++] = test_Integer_i64_Decimal_Negative(); test_report.tests[i++] = test_Integer_i64_Hex(); test_report.tests[i++] = test_Integer_i64_Binary(); test_report.tests[i++] = test_Integer_i64_Octal(); test_report.tests[i++] = test_Integer_i64_Max_Value(); test_report.tests[i++] = test_Integer_i64_Min_Value(); test_report.tests[i++] = test_Integer_i64_Overflow(); test_report.tests[i++] = test_Integer_i64_Underflow(); test_report.tests[i++] = test_Integer_i64_With_Underscores(); test_report.tests[i++] = test_Integer_u8_Decimal_Positive(); test_report.tests[i++] = test_Integer_u8_Zero(); test_report.tests[i++] = test_Integer_u8_Hex(); test_report.tests[i++] = test_Integer_u8_Binary(); test_report.tests[i++] = test_Integer_u8_Octal(); test_report.tests[i++] = test_Integer_u8_Max_Value(); test_report.tests[i++] = test_Integer_u8_Min_Value(); test_report.tests[i++] = test_Integer_u8_Overflow(); test_report.tests[i++] = test_Integer_u8_Underflow(); test_report.tests[i++] = test_Integer_u16_Decimal_Positive(); test_report.tests[i++] = test_Integer_u16_Zero(); test_report.tests[i++] = test_Integer_u16_Hex(); test_report.tests[i++] = test_Integer_u16_Binary(); test_report.tests[i++] = test_Integer_u16_Octal(); test_report.tests[i++] = test_Integer_u16_Max_Value(); test_report.tests[i++] = test_Integer_u16_Min_Value(); test_report.tests[i++] = test_Integer_u16_Overflow(); test_report.tests[i++] = test_Integer_u16_Underflow(); test_report.tests[i++] = test_Integer_u32_Decimal_Positive(); test_report.tests[i++] = test_Integer_u32_Zero(); test_report.tests[i++] = test_Integer_u32_Hex(); test_report.tests[i++] = test_Integer_u32_Binary(); test_report.tests[i++] = test_Integer_u32_Octal(); test_report.tests[i++] = test_Integer_u32_Max_Value(); test_report.tests[i++] = test_Integer_u32_Min_Value(); test_report.tests[i++] = test_Integer_u32_Overflow(); test_report.tests[i++] = test_Integer_u32_Underflow(); test_report.tests[i++] = test_Integer_u32_With_Underscores(); test_report.tests[i++] = test_Integer_u64_Decimal_Positive(); test_report.tests[i++] = test_Integer_u64_Zero(); test_report.tests[i++] = test_Integer_u64_Hex(); test_report.tests[i++] = test_Integer_u64_Binary(); test_report.tests[i++] = test_Integer_u64_Octal(); test_report.tests[i++] = test_Integer_u64_Max_Value(); test_report.tests[i++] = test_Integer_u64_Min_Value(); test_report.tests[i++] = test_Integer_u64_Overflow(); test_report.tests[i++] = test_Integer_u64_Underflow(); test_report.tests[i++] = test_Integer_u64_With_Underscores(); test_report.tests[i++] = test_Integer_i8_Hex_Max(); test_report.tests[i++] = test_Integer_i8_Binary_Max(); test_report.tests[i++] = test_Integer_i8_Octal_Max(); test_report.tests[i++] = test_Integer_i8_Negative_Hex(); test_report.tests[i++] = test_Integer_u8_Hex_Max(); test_report.tests[i++] = test_Integer_u8_Binary_Max(); test_report.tests[i++] = test_Integer_u8_Octal_Max(); test_report.tests[i++] = test_Integer_i16_Hex_Sample(); test_report.tests[i++] = test_Integer_i16_Binary_Sample(); test_report.tests[i++] = test_Integer_i16_Octal_Sample(); test_report.tests[i++] = test_Integer_u16_Hex_Max(); test_report.tests[i++] = test_Integer_u16_Binary_Max(); test_report.tests[i++] = test_Integer_u16_Octal_Max(); test_report.tests[i++] = test_Integer_u16_Decimal_Mid(); test_report.tests[i++] = test_Integer_i32_Hex_Sample(); test_report.tests[i++] = test_Integer_i32_Binary_Sample(); test_report.tests[i++] = test_Integer_u32_Hex_Max(); test_report.tests[i++] = test_Integer_u32_Binary_Sample(); test_report.tests[i++] = test_Integer_u32_Octal_Max(); test_report.tests[i++] = test_Integer_u32_Decimal_Mid(); test_report.tests[i++] = test_Integer_i64_Decimal_Positive_42(); test_report.tests[i++] = test_Integer_i64_Hex_0xFF(); test_report.tests[i++] = test_Integer_i64_Binary_0b1010(); test_report.tests[i++] = test_Integer_i64_Octal_0o755(); test_report.tests[i++] = test_Integer_u64_Hex_Max(); test_report.tests[i++] = test_Integer_u64_Binary_Sample(); test_report.tests[i++] = test_Integer_u64_Octal_Sample(); test_report.tests[i++] = test_Integer_u64_Decimal(); test_report.tests[i++] = test_Integer_Hex_With_Underscores(); test_report.tests[i++] = test_Integer_Binary_With_Underscores(); test_report.tests[i++] = test_Integer_Octal_With_Underscores(); test_report.tests[i++] = test_Float_Default_Simple(); test_report.tests[i++] = test_Float_Default_Zero(); test_report.tests[i++] = test_Float_Default_Negative(); test_report.tests[i++] = test_Float_Default_One(); test_report.tests[i++] = test_Float_f32_Simple(); test_report.tests[i++] = test_Float_f64_Simple(); test_report.tests[i++] = test_Float_Default_Leading_Zeros(); test_report.tests[i++] = test_Float_Default_Leading_Zero_Decimal(); test_report.tests[i++] = test_Float_Default_Trailing_Zeros(); test_report.tests[i++] = test_Float_Default_No_Leading_Digit(); test_report.tests[i++] = test_Float_Default_No_Leading_Digit_Negative(); test_report.tests[i++] = test_Float_Default_No_Trailing_Digits(); test_report.tests[i++] = test_Float_Default_No_Trailing_Digits_Negative(); test_report.tests[i++] = test_Float_Default_Very_Small(); test_report.tests[i++] = test_Float_Default_Very_Large(); test_report.tests[i++] = test_Float_Default_Underscore_Integer_Part(); test_report.tests[i++] = test_Float_Default_Underscore_Decimal_Part(); test_report.tests[i++] = test_Float_Default_Underscore_Both_Parts(); test_report.tests[i++] = test_Float_Default_Underscore_Trailing(); test_report.tests[i++] = test_Float_Default_Underscore_Double(); test_report.tests[i++] = test_Float_f32_With_Underscores(); test_report.tests[i++] = test_Float_f32_Precision_Limit(); test_report.tests[i++] = test_Float_f32_High_Precision(); test_report.tests[i++] = test_Float_f64_Precision_Limit(); test_report.tests[i++] = test_Float_f64_High_Precision(); test_report.tests[i++] = test_Float_f64_Close_Numbers_1(); test_report.tests[i++] = test_Float_f64_Close_Numbers_2(); test_report.tests[i++] = test_Float_Invalid_Multiple_Decimal_Points(); test_report.tests[i++] = test_Float_Invalid_Characters(); test_report.tests[i++] = test_Float_Invalid_Type_Annotation(); test_report.tests[i++] = test_Float_Invalid_Type_Name(); test_report.tests[i++] = test_Float_Invalid_Comma_Separator(); test_report.tests[i++] = test_Float_Default_Leading_Whitespace(); test_report.tests[i++] = test_Float_Default_Trailing_Whitespace(); test_report.tests[i++] = test_Float_Default_Both_Whitespace(); test_report.tests[i++] = test_Float_f32_With_Whitespace(); test_report.tests[i++] = test_Float_Default_Pi_Approximate(); test_report.tests[i++] = test_Float_f32_Pi_Approximate(); test_report.tests[i++] = test_Float_Default_Euler_Approximate(); test_report.tests[i++] = test_Float_f32_Euler_Approximate(); test_report.tests[i++] = test_Float_Default_Golden_Ratio(); test_report.tests[i++] = test_Float_Default_Sqrt2(); test_report.tests[i++] = test_Float_Default_Positive_Zero(); test_report.tests[i++] = test_Float_Default_Negative_Zero(); test_report.tests[i++] = test_Float_f32_Positive_Zero(); test_report.tests[i++] = test_Float_f32_Negative_Zero(); test_report.tests[i++] = test_Char_Simple_Letter_A(); test_report.tests[i++] = test_Char_Simple_Letter_a(); test_report.tests[i++] = test_Char_Simple_Letter_Z(); test_report.tests[i++] = test_Char_Simple_Letter_z(); test_report.tests[i++] = test_Char_Digit_0(); test_report.tests[i++] = test_Char_Digit_5(); test_report.tests[i++] = test_Char_Digit_9(); test_report.tests[i++] = test_Char_Space(); test_report.tests[i++] = test_Char_Exclamation(); test_report.tests[i++] = test_Char_Question_Mark(); test_report.tests[i++] = test_Char_Period(); test_report.tests[i++] = test_Char_Comma(); test_report.tests[i++] = test_Char_Semicolon(); test_report.tests[i++] = test_Char_Colon(); test_report.tests[i++] = test_Char_Plus(); test_report.tests[i++] = test_Char_Minus(); test_report.tests[i++] = test_Char_Asterisk(); test_report.tests[i++] = test_Char_Slash(); test_report.tests[i++] = test_Char_Equals(); test_report.tests[i++] = test_Char_Less_Than(); test_report.tests[i++] = test_Char_Greater_Than(); test_report.tests[i++] = test_Char_Left_Paren(); test_report.tests[i++] = test_Char_Right_Paren(); test_report.tests[i++] = test_Char_Left_Bracket(); test_report.tests[i++] = test_Char_Right_Bracket(); test_report.tests[i++] = test_Char_Left_Brace(); test_report.tests[i++] = test_Char_Right_Brace(); test_report.tests[i++] = test_Char_Escape_Backslash(); test_report.tests[i++] = test_Char_Escape_Carriage_return(); test_report.tests[i++] = test_Char_Escape_Newline(); test_report.tests[i++] = test_Char_Escape_Tab(); test_report.tests[i++] = test_Char_Escape_Single_quote(); test_report.tests[i++] = test_Char_Escape_Null_character(); test_report.tests[i++] = test_Char_With_Leading_Whitespace(); test_report.tests[i++] = test_Char_With_Trailing_Whitespace(); test_report.tests[i++] = test_Char_With_Both_Whitespace(); test_report.tests[i++] = test_Char_Tab_Before(); test_report.tests[i++] = test_Char_Newline_Before(); test_report.tests[i++] = test_Char_Empty_Literal(); test_report.tests[i++] = test_Char_Multiple_Characters(); test_report.tests[i++] = test_Char_Unclosed_Quote(); test_report.tests[i++] = test_Char_Unescaped_Newline(); test_report.tests[i++] = test_Char_Invalid_Escape(); test_report.tests[i++] = test_Identifier_Simple_Lowercase(); test_report.tests[i++] = test_Identifier_Simple_Uppercase(); test_report.tests[i++] = test_Identifier_Mixed_Case(); test_report.tests[i++] = test_Identifier_Single_Letter(); test_report.tests[i++] = test_Identifier_Single_Letter_Upper(); test_report.tests[i++] = test_Identifier_With_Numbers(); test_report.tests[i++] = test_Identifier_Numbers_End(); test_report.tests[i++] = test_Identifier_Mixed_Numbers(); test_report.tests[i++] = test_Identifier_With_Underscore(); test_report.tests[i++] = test_Identifier_Leading_Underscore(); test_report.tests[i++] = test_Identifier_Multiple_Underscores(); test_report.tests[i++] = test_Identifier_Double_Underscore(); test_report.tests[i++] = test_Identifier_Trailing_Underscore(); test_report.tests[i++] = test_Identifier_Only_Underscores(); test_report.tests[i++] = test_Identifier_Snake_Case(); test_report.tests[i++] = test_Identifier_Camel_Case(); test_report.tests[i++] = test_Identifier_Pascal_Case(); test_report.tests[i++] = test_Identifier_All_Caps(); test_report.tests[i++] = test_Identifier_With_Dash(); test_report.tests[i++] = test_Identifier_Literal_Simple(); test_report.tests[i++] = test_Identifier_Literal_Uppercase(); test_report.tests[i++] = test_Identifier_Literal_Snake_Case(); test_report.tests[i++] = test_Identifier_Literal_Type_i64(); test_report.tests[i++] = test_Identifier_Literal_Type_String(); test_report.tests[i++] = test_Identifier_Literal_Type_Point(); test_report.tests[i++] = test_Identifier_Literal_Trait_Addable(); test_report.tests[i++] = test_Identifier_Literal_Trait_Drawable(); test_report.tests[i++] = test_Identifier_Literal_Field_x(); test_report.tests[i++] = test_Identifier_Literal_Field_width(); test_report.tests[i++] = test_Identifier_Literal_With_Underscore(); test_report.tests[i++] = test_Identifier_Literal_Multiple_Underscores(); test_report.tests[i++] = test_Identifier_Literal_With_Numbers(); test_report.tests[i++] = test_Identifier_Leading_Whitespace(); test_report.tests[i++] = test_Identifier_Trailing_Whitespace(); test_report.tests[i++] = test_Identifier_Both_Whitespace(); test_report.tests[i++] = test_Identifier_Tab_Before(); test_report.tests[i++] = test_Identifier_Literal_Leading_Whitespace(); test_report.tests[i++] = test_Identifier_Literal_Trailing_Whitespace(); test_report.tests[i++] = test_Identifier_Literal_Both_Whitespace(); test_report.tests[i++] = test_Identifier_Moderate_Length(); test_report.tests[i++] = test_Identifier_Very_Long(); test_report.tests[i++] = test_Identifier_Long_With_Numbers(); test_report.tests[i++] = test_Identifier_Starting_With_Number(); test_report.tests[i++] = test_Identifier_With_Octothorpe(); test_report.tests[i++] = test_Identifier_With_Colon(); test_report.tests[i++] = test_Identifier_Double_Colon_Inside(); test_report.tests[i++] = test_Identifier_Only_Numbers(); test_report.tests[i++] = test_Identifier_Literal_Empty(); test_report.tests[i++] = test_Identifier_Case_Lower(); test_report.tests[i++] = test_Identifier_Case_Upper(); test_report.tests[i++] = test_Identifier_Case_Mixed(); test_report.tests[i++] = test_Identifier_Case_Camel(); test_report.tests[i++] = test_Identifier_Case_Pascal(); test_report.tests[i++] = test_Identifier_Reserved_Word_if(); test_report.tests[i++] = test_Identifier_Reserved_Word_while(); test_report.tests[i++] = test_Identifier_Reserved_Word_for(); test_report.tests[i++] = test_Identifier_Reserved_Word_match(); test_report.tests[i++] = test_Identifier_Reserved_Word_break(); test_report.tests[i++] = test_Identifier_Reserved_Word_continue(); test_report.tests[i++] = test_Identifier_Reserved_Word_fn(); test_report.tests[i++] = test_Identifier_Reserved_Word_struct(); test_report.tests[i++] = test_Identifier_Reserved_Word_union(); test_report.tests[i++] = test_Identifier_Reserved_Word_enum(); test_report.tests[i++] = test_Identifier_Reserved_Word_trait(); test_report.tests[i++] = test_Identifier_Reserved_Word_impl(); test_report.tests[i++] = test_Identifier_Reserved_Word_inher(); test_report.tests[i++] = test_Identifier_Reserved_Word_dup(); test_report.tests[i++] = test_Identifier_Reserved_Word_drop(); test_report.tests[i++] = test_Identifier_Reserved_Word_swap(); test_report.tests[i++] = test_Identifier_Reserved_Word_over(); test_report.tests[i++] = test_Identifier_Reserved_Word_rot(); test_report.tests[i++] = test_Identifier_Reserved_Word_pick(); test_report.tests[i++] = test_Identifier_Reserved_Word_roll(); test_report.tests[i++] = test_Identifier_Reserved_Word_depth(); test_report.tests[i++] = test_Bool_True(); test_report.tests[i++] = test_Bool_False(); test_report.tests[i++] = test_Bool_True_Leading_Whitespace(); test_report.tests[i++] = test_Bool_True_Trailing_Whitespace(); test_report.tests[i++] = test_Bool_True_Both_Whitespace(); test_report.tests[i++] = test_Bool_True_Tab_Before(); test_report.tests[i++] = test_Bool_False_Leading_Whitespace(); test_report.tests[i++] = test_Bool_False_Trailing_Whitespace(); test_report.tests[i++] = test_Bool_False_Both_Whitespace(); test_report.tests[i++] = test_Bool_False_Tab_Before(); test_report.tests[i++] = test_Bool_True_Capitalized(); test_report.tests[i++] = test_Bool_False_Capitalized(); test_report.tests[i++] = test_Bool_True_All_Caps(); test_report.tests[i++] = test_Bool_False_All_Caps(); test_report.tests[i++] = test_Bool_True_Mixed_Case(); test_report.tests[i++] = test_Bool_False_Mixed_Case(); test_report.tests[i++] = test_Bool_Numeric_1(); test_report.tests[i++] = test_Bool_Numeric_0(); test_report.tests[i++] = test_Bool_Yes(); test_report.tests[i++] = test_Bool_No(); test_report.tests[i++] = test_Bool_Typo_Ture(); test_report.tests[i++] = test_Bool_Typo_Flase(); test_report.tests[i++] = test_Bool_Multiple_True_False(); test_report.tests[i++] = test_Bool_Multiple_Same(); test_report.tests[i++] = test_Bool_Three_Values(); test_report.tests[i++] = test_TokenString_Empty(); test_report.tests[i++] = test_TokenString_Single_Integer(); test_report.tests[i++] = test_TokenString_Single_Identifier(); test_report.tests[i++] = test_TokenString_Two_Integers(); test_report.tests[i++] = test_TokenString_Simple_Expression(); test_report.tests[i++] = test_TokenString_Stack_Ops(); test_report.tests[i++] = test_TokenString_Integer_Literals(); test_report.tests[i++] = test_TokenString_Float_Literals(); test_report.tests[i++] = test_TokenString_Char_Literal(); test_report.tests[i++] = test_TokenString_Boolean_Literals(); test_report.tests[i++] = test_TokenString_Multiple_Identifiers(); test_report.tests[i++] = test_TokenString_Identifier_Literals(); test_report.tests[i++] = test_TokenString_Mixed_Identifiers(); test_report.tests[i++] = test_TokenString_Nested_Single(); test_report.tests[i++] = test_TokenString_Nested_With_Others(); test_report.tests[i++] = test_TokenString_Multiple_Nested(); test_report.tests[i++] = test_TokenString_Double_Nested(); test_report.tests[i++] = test_TokenString_Complex_Nesting(); test_report.tests[i++] = test_TokenString_No_Whitespace(); test_report.tests[i++] = test_TokenString_Extra_Whitespace(); test_report.tests[i++] = test_TokenString_Leading_Whitespace_Outside(); test_report.tests[i++] = test_TokenString_Trailing_Whitespace_Outside(); test_report.tests[i++] = test_TokenString_With_Tabs(); test_report.tests[i++] = test_TokenString_Multiline_Simple(); test_report.tests[i++] = test_TokenString_Multiline_Multiple(); test_report.tests[i++] = test_TokenString_Mixed_Line_Breaks(); test_report.tests[i++] = test_TokenString_Indented_Multiline(); test_report.tests[i++] = test_TokenString_Comment_End_Of_Line(); test_report.tests[i++] = test_TokenString_Multiple_Comments(); test_report.tests[i++] = test_TokenString_Comment_Own_Line(); test_report.tests[i++] = test_TokenString_Comment_At_Start(); test_report.tests[i++] = test_TokenString_Multiple_Comment_Lines(); test_report.tests[i++] = test_TokenString_Comments_Nested(); test_report.tests[i++] = test_TokenString_Unclosed(); test_report.tests[i++] = test_TokenString_Unclosed_Nested(); test_report.tests[i++] = test_TokenString_Extra_Closing_Brace(); test_report.tests[i++] = test_TokenString_Only_Closing_Brace(); test_report.tests[i++] = test_TokenString_Error_Inside(); test_report.tests[i++] = test_TokenString_Unclosed_String_Inside(); test_report.tests[i++] = test_TokenString_Function_Body(); test_report.tests[i++] = test_TokenString_Loop_Body(); test_report.tests[i++] = test_TokenString_Struct_Fields(); test_report.tests[i++] = test_TokenString_Lambda(); test_report.tests[i++] = test_TokenString_Array_Map(); test_report.tests[i++] = test_TokenString_Conditional_Complex(); return test_report; }