2024-04-04 21:25:11 +08:00
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using Canon.Core.Enums;
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using Canon.Core.LexicalParser;
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using Xunit.Abstractions;
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using Canon.Core.Exceptions;
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2024-04-18 16:34:32 +08:00
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using Canon.Core.Abstractions;
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using Canon.Tests.Utils;
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2024-04-04 21:25:11 +08:00
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namespace Canon.Tests.LexicalParserTests
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{
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public class CharacterTypeTests(ITestOutputHelper testOutputHelper)
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{
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private readonly ILexer _lexer = new Lexer();
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[Theory]
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[InlineData("'a'", 'a')]
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[InlineData("'+'", '+')]
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public void TestCharacterType(string input, char expectedResult)
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{
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IEnumerable<SemanticToken> tokensEnumerable = _lexer.Tokenize(new StringSourceReader(input));
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List<SemanticToken> tokens = tokensEnumerable.ToList();
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testOutputHelper.WriteLine(tokens[0].LiteralValue);
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Assert.Equal(SemanticTokenType.Character, tokens[0].TokenType);
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Assert.Equal(expectedResult, tokens[0].Convert<CharacterSemanticToken>().ParseAsCharacter());
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}
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[Theory]
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[InlineData("'Hello, world'", "Hello, world")]
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[InlineData("'asdfasdf'", "asdfasdf")]
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public void StringTypeTest(string input, string expect)
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{
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IEnumerable<SemanticToken> tokens = _lexer.Tokenize(new StringSourceReader(input));
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SemanticToken token = tokens.First();
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Assert.Equal(SemanticTokenType.String, token.TokenType);
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Assert.Equal(expect, token.Convert<StringSemanticToken>().ParseAsString());
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}
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[Theory]
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//[InlineData("'\\x'", 1, 2, LexemeException.LexemeErrorType.InvalidEscapeSequence)]
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[InlineData("'This is an unclosed string literal", 1, 35, LexemeErrorType.UnclosedStringLiteral)]
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[InlineData("'This", 1, 5, LexemeErrorType.UnclosedStringLiteral)]
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[InlineData("x @", 1, 3, LexemeErrorType.UnknownCharacterOrString)]
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//[InlineData("\"x\'", 1, 3, LexemeException.LexemeErrorType.UnclosedStringLiteral)]
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public void TestParseCharacterError(string input, uint expectedLine, uint expectedCharPosition,
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LexemeErrorType expectedErrorType)
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{
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var ex = Assert.Throws<LexemeException>(() => _lexer.Tokenize(new StringSourceReader(input)).ToList());
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testOutputHelper.WriteLine(ex.ToString());
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Assert.Equal(expectedErrorType, ex.ErrorType);
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Assert.Equal(expectedLine, ex.Line);
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Assert.Equal(expectedCharPosition, ex.CharPosition);
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}
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}
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}
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