using CanonSharp.Combinator;
using CanonSharp.Combinator.Abstractions;
using CanonSharp.Combinator.Extensions;
using CanonSharp.Tests.Utils;
using static CanonSharp.Combinator.ParserBuilder;

namespace CanonSharp.Tests.CombinatorsTests;

public class PrimitiveParserTests : ParserTestsBase
{
    [Fact]
    public void PureTest()
    {
        Parser<char, char> parser = Pure<char, char>('a');
        ValidateSuccessfulResult(parser, 'a', "abc");

        parser = Pure<char, char>(_ => 'a');
        ValidateSuccessfulResult(parser, 'a', "abc");
    }

    [Fact]
    public void NullTest()
    {
        Parser<char, Unit> parser = Null<char>();
        ValidateSuccessfulResult(parser, Unit.Instance, "abc");
    }

    [Fact]
    public void FailTest()
    {
        Parser<char, char> parser = Fail<char, char>();
        ValidateFailedResult(parser, "abc");

        parser = Fail<char, char>("Failed message");
        FailedResult<char, char> result = ValidateFailedResult(parser, "abc");
        Assert.Equal("Failed message", result.Message);

        parser = Fail<char, char>(x => $"{x}");
        result = ValidateFailedResult(parser, "abc");
        Assert.Equal("a<0x61>", result.Message);

        parser = Fail<char, char>(new InvalidOperationException());
        result = ValidateFailedResult(parser, "abc");
        Assert.IsType<InvalidOperationException>(result.Exception.InnerException);
    }

    [Fact]
    public void SatisfyTest()
    {
        Parser<char, char> parser = Satisfy<char>(char.IsLetter);
        ValidateSuccessfulResult(parser, 'a', "abc");
        ValidateFailedResult(parser, "123");
    }

    [Fact]
    public void AnyTest()
    {
        Parser<char, char> parser = Any<char>();
        ValidateSuccessfulResult(parser, '1', "123");
    }

    [Fact]
    public void TokenTest()
    {
        Parser<char, char> parser = Token('a');
        ValidateSuccessfulResult(parser, 'a', "abc");
    }

    [Fact]
    public void TakeTest()
    {
        Parser<char, IEnumerable<char>> parser = Take<char>(5);
        ValidateSuccessfulResult(parser, ['h', 'e', 'l', 'l', 'o'], "hello");
        ValidateFailedResult(parser, "abc");
    }

    [Fact]
    public void SkipTest()
    {
        Parser<char, char> parser = Skip<char>(5).Bind(_ => Token(','));
        ValidateSuccessfulResult(parser, ',', "hello,world.");
        ValidateFailedResult(parser, "abc");
    }
}