feat: Grammar Parser (#3)

Reviewed-on: https://git.bupt-hpc.cn/jackfiled/CanonSharp/pulls/3 Co-authored-by: jackfiled <xcrenchangjun@outlook.com> Co-committed-by: jackfiled <xcrenchangjun@outlook.com>
2024-08-18 12:01:27 +08:00 · 2024-08-18 12:01:27 +08:00 · cf19f8197e
commit cf19f8197e
parent 3ed8bf5d36
85 changed files with 2340 additions and 413 deletions
--- a/CanonSharp.Combinator/Abstractions/FailedResult.cs
+++ b/CanonSharp.Combinator/Abstractions/FailedResult.cs
@ -1,49 +0,0 @@
 namespace CanonSharp.Combinator.Abstractions;
 /// <summary>
 /// 失败解析结果基类
 /// </summary>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">解析结果类型</typeparam>
 public abstract class FailedResult<TToken, T> : ParseResult<TToken, T>
 {
    public override T Value => throw Exception;
    /// <summary>
    /// 当前读取到的状态
    /// </summary>
    public abstract IReadState<TToken> State { get; }
    /// <summary>
    /// 解析失败的消息
    /// </summary>
    public abstract string Message { get; }
    /// <summary>
    /// 解析失败的异常
    /// </summary>
    public virtual ParseException Exception => new(ToString());
    /// <summary>
    /// 转换该失败结果的类型
    /// </summary>
    /// <typeparam name="TNext">转换之后的结果类型</typeparam>
    /// <returns>转换之后的失败解析类型</returns>
    public abstract FailedResult<TToken, TNext> Convert<TNext>();
    internal override ParseResult<TToken, TResult> Next<TNext, TResult>(Func<T, Parser<TToken, TNext>> nextParser,
        Func<ParseResult<TToken, TNext>, ParseResult<TToken, TResult>> continuation)
        => continuation(Convert<TNext>());
    public override ParseResult<TToken, TResult> Map<TResult>(Func<T, TResult> map)
        => Convert<TResult>();
    public override TResult CaseOf<TResult>(Func<SuccessfulResult<TToken, T>, TResult> successfulHandler,
        Func<FailedResult<TToken, T>, TResult> failedHandler)
        => failedHandler(this);
    public override string ToString()
    {
        return $"Parse Failed: {Message}.";
    }
 }
--- a/CanonSharp.Combinator/Abstractions/IFailedResult.cs
+++ b/CanonSharp.Combinator/Abstractions/IFailedResult.cs
@ -0,0 +1,45 @@
 namespace CanonSharp.Combinator.Abstractions;
 /// <summary>
 /// 失败解析结果基类
 /// </summary>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">解析结果类型</typeparam>
 public interface IFailedResult<TToken, out T> : IParseResult<TToken, T>
 {
    T IParseResult<TToken, T>.Value => throw Exception;
    /// <summary>
    /// 当前读取到的状态
    /// </summary>
    public IReadState<TToken> State { get; }
    /// <summary>
    /// 解析失败的消息
    /// </summary>
    public string Message { get; }
    /// <summary>
    /// 解析失败的异常
    /// </summary>
    public ParseException Exception => new(Message);
    /// <summary>
    /// 转换该失败结果的类型
    /// </summary>
    /// <typeparam name="TNext">转换之后的结果类型</typeparam>
    /// <returns>转换之后的失败解析类型</returns>
    public IFailedResult<TToken, TNext> Convert<TNext>();
    IParseResult<TToken, TResult> IParseResult<TToken, T>.Next<TNext, TResult>(
        Func<T, IParser<TToken, TNext>> nextParser,
        Func<IParseResult<TToken, TNext>, IParseResult<TToken, TResult>> continuation)
        => continuation(Convert<TNext>());
    IParseResult<TToken, TResult> IParseResult<TToken, T>.Map<TResult>(Func<T, TResult> map)
        => Convert<TResult>();
    TResult IParseResult<TToken, T>.CaseOf<TResult>(Func<ISuccessfulResult<TToken, T>, TResult> successfulHandler,
        Func<IFailedResult<TToken, T>, TResult> failedHandler)
        => failedHandler(this);
 }
--- a/CanonSharp.Combinator/Abstractions/IParseResult.cs
+++ b/CanonSharp.Combinator/Abstractions/IParseResult.cs
@ -5,17 +5,12 @@ namespace CanonSharp.Combinator.Abstractions;
 /// </summary>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">实际结果类型</typeparam>
-public abstract class ParseResult<TToken, T>
+public interface IParseResult<TToken, out T>
 {
    /// <summary>
    /// 实际结果对象
    /// </summary>
-    public abstract T Value { get; }
+    public T Value { get; }
    protected ParseResult()
    {
    }
    /// <summary>
    /// 在当前结果上应用下一个解析器
@ -25,8 +20,8 @@ public abstract class ParseResult<TToken, T>
    /// <typeparam name="TNext">下一个解析器函数返回的解析结果类型</typeparam>
    /// <typeparam name="TResult">最终的解析结果类型</typeparam>
    /// <returns></returns>
-    internal abstract ParseResult<TToken, TResult> Next<TNext, TResult>(Func<T, Parser<TToken, TNext>> nextParser,
+    internal IParseResult<TToken, TResult> Next<TNext, TResult>(Func<T, IParser<TToken, TNext>> nextParser,
-        Func<ParseResult<TToken, TNext>, ParseResult<TToken, TResult>> continuation);
+        Func<IParseResult<TToken, TNext>, IParseResult<TToken, TResult>> continuation);
    /// <summary>
    /// 映射结果
@ -34,7 +29,7 @@ public abstract class ParseResult<TToken, T>
    /// <param name="map">映射结果的函数</param>
    /// <typeparam name="TResult">映射结果函数返回解析结果的类型</typeparam>
    /// <returns>最终的解析结果</returns>
-    public abstract ParseResult<TToken, TResult> Map<TResult>(Func<T, TResult> map);
+    public IParseResult<TToken, TResult> Map<TResult>(Func<T, TResult> map);
    /// <summary>
    /// 在成功或者失败解析结果上应用不同的后继函数
@ -43,6 +38,6 @@ public abstract class ParseResult<TToken, T>
    /// <param name="failedHandler">在失败解析结构上应用的函数</param>
    /// <typeparam name="TResult">最后返回解析结果的类型</typeparam>
    /// <returns>最后的解析结果</returns>
-    public abstract TResult CaseOf<TResult>(Func<SuccessfulResult<TToken, T>, TResult> successfulHandler,
+    public TResult CaseOf<TResult>(Func<ISuccessfulResult<TToken, T>, TResult> successfulHandler,
-        Func<FailedResult<TToken, T>, TResult> failedHandler);
+        Func<IFailedResult<TToken, T>, TResult> failedHandler);
 }
--- a/CanonSharp.Combinator/Abstractions/IParser.cs
+++ b/CanonSharp.Combinator/Abstractions/IParser.cs
@ -7,7 +7,7 @@ namespace CanonSharp.Combinator.Abstractions;
 /// </summary>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">解析结果类型</typeparam>
-public abstract class Parser<TToken, T>
+public interface IParser<TToken, out T>
 {
    /// <summary>
    /// 解析器运行函数
@ -17,16 +17,16 @@ public abstract class Parser<TToken, T>
    /// <typeparam name="TState">输入流状态类型</typeparam>
    /// <typeparam name="TResult">后继函数运行之后的解析结果类型</typeparam>
    /// <returns></returns>
-    internal abstract ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    internal IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>;
-    public ParseResult<TToken, T> Parse<TState>(TState state) where TState : IReadState<TToken, TState>
+    public IParseResult<TToken, T> Parse<TState>(TState state) where TState : IReadState<TToken, TState>
    {
        return Run(state);
    }
-    private ParseResult<TToken, T> Run<TState>(TState state) where TState : IReadState<TToken, TState>
+    private IParseResult<TToken, T> Run<TState>(TState state) where TState : IReadState<TToken, TState>
    {
        try
        {
@ -38,6 +38,6 @@ public abstract class Parser<TToken, T>
        }
    }
-    public static Parser<TToken, T> operator |(Parser<TToken, T> a, Parser<TToken, T> b)
+    public static IParser<TToken, T> operator |(IParser<TToken, T> a, IParser<TToken, T> b)
        => a.Alternative(b);
 }
--- a/CanonSharp.Combinator/Abstractions/ISuccessfulResult.cs
+++ b/CanonSharp.Combinator/Abstractions/ISuccessfulResult.cs
@ -0,0 +1,29 @@
 namespace CanonSharp.Combinator.Abstractions;
 /// <summary>
 /// 成功解析结果基类
 /// </summary>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">实际的解析结果类型</typeparam>
 public interface ISuccessfulResult<TToken,out T> : IParseResult<TToken, T>
 {
    /// <summary>
    /// 运行下一个解析器
    /// </summary>
    /// <param name="parser">下一个解析器</param>
    /// <param name="continuation">处理解析结果的后继函数</param>
    /// <typeparam name="TNext">下一个解析器返回的结果类型</typeparam>
    /// <typeparam name="TResult">最终的结果类型</typeparam>
    /// <returns>最终的结果</returns>
    protected IParseResult<TToken, TResult> RunNext<TNext, TResult>(IParser<TToken, TNext> parser,
        Func<IParseResult<TToken, TNext>, IParseResult<TToken, TResult>> continuation);
    IParseResult<TToken, TResult> IParseResult<TToken, T>.Next<TNext, TResult>(
        Func<T, IParser<TToken, TNext>> nextParser,
        Func<IParseResult<TToken, TNext>, IParseResult<TToken, TResult>> continuation)
        => RunNext(nextParser(Value), continuation);
    TResult IParseResult<TToken, T>.CaseOf<TResult>(Func<ISuccessfulResult<TToken, T>, TResult> successfulHandler,
        Func<IFailedResult<TToken, T>, TResult> failedHandler)
        => successfulHandler(this);
 }
--- a/CanonSharp.Combinator/Abstractions/SuccessfulResult.cs
+++ b/CanonSharp.Combinator/Abstractions/SuccessfulResult.cs
@ -1,33 +0,0 @@
 namespace CanonSharp.Combinator.Abstractions;
 /// <summary>
 /// 成功解析结果基类
 /// </summary>
 /// <param name="value">实际的解析结果</param>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">实际的解析结果类型</typeparam>
 public abstract class SuccessfulResult<TToken, T>(T value) : ParseResult<TToken, T>
 {
    public override T Value => value;
    /// <summary>
    /// 运行下一个解析器
    /// </summary>
    /// <param name="parser">下一个解析器</param>
    /// <param name="continuation">处理解析结果的后继函数</param>
    /// <typeparam name="TNext">下一个解析器返回的结果类型</typeparam>
    /// <typeparam name="TResult">最终的结果类型</typeparam>
    /// <returns>最终的结果</returns>
    protected abstract ParseResult<TToken, TResult> RunNext<TNext, TResult>(Parser<TToken, TNext> parser,
        Func<ParseResult<TToken, TNext>, ParseResult<TToken, TResult>> continuation);
    internal override ParseResult<TToken, TResult> Next<TNext, TResult>(Func<T, Parser<TToken, TNext>> nextParser,
        Func<ParseResult<TToken, TNext>, ParseResult<TToken, TResult>> continuation)
        => RunNext(nextParser(Value), continuation);
    public override TResult CaseOf<TResult>(Func<SuccessfulResult<TToken, T>, TResult> successfulHandler,
        Func<FailedResult<TToken, T>, TResult> failedHandler)
        => successfulHandler(this);
    public override string ToString() => Value?.ToString() ?? string.Empty;
 }
--- a/CanonSharp.Combinator/Extensions/ParserExtensions.cs
+++ b/CanonSharp.Combinator/Extensions/ParserExtensions.cs
@ -19,7 +19,7 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Alternative<TToken, T>(this Parser<TToken, T> first, Parser<TToken, T> second)
+    public static IParser<TToken, T> Alternative<TToken, T>(this IParser<TToken, T> first, IParser<TToken, T> second)
        => new AlternativeParser<TToken, T>(first, second);
    /// <summary>
@ -32,8 +32,8 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Alternative<TToken, T>(this Parser<TToken, T> parser,
+    public static IParser<TToken, T> Alternative<TToken, T>(this IParser<TToken, T> parser,
-        Func<FailedResult<TToken, T>, Parser<TToken, T>> resume)
+        Func<IFailedResult<TToken, T>, IParser<TToken, T>> resume)
        => new ResumeParser<TToken, T>(parser, resume);
    /// <summary>
@ -46,8 +46,8 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Bind<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Bind<TToken, T, TResult>(this IParser<TToken, T> parser,
-        Func<T, Parser<TToken, TResult>> next)
+        Func<T, IParser<TToken, TResult>> next)
        => new BindParser<TToken, T, TResult>(parser, next);
    /// <summary>
@ -60,7 +60,7 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Map<TToken, T, TResult>(this Parser<TToken, T> parser, Func<T, TResult> map)
+    public static IParser<TToken, TResult> Map<TToken, T, TResult>(this IParser<TToken, T> parser, Func<T, TResult> map)
        => new MapParser<TToken, T, TResult>(parser, map);
    /// <summary>
@ -73,7 +73,7 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Map<TToken, T, TResult>(this Parser<TToken, T> parser, TResult result)
+    public static IParser<TToken, TResult> Map<TToken, T, TResult>(this IParser<TToken, T> parser, TResult result)
        => parser.Map(_ => result);
    /// <summary>
@ -87,9 +87,9 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Next<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Next<TToken, T, TResult>(this IParser<TToken, T> parser,
-        Func<T, Parser<TToken, TResult>> next,
+        Func<T, IParser<TToken, TResult>> next,
-        Func<FailedResult<TToken, T>, Parser<TToken, TResult>> failedNext)
+        Func<IFailedResult<TToken, T>, IParser<TToken, TResult>> failedNext)
        => new NextParser<TToken, T, TResult>(parser, next, failedNext);
    /// <summary>
@ -103,8 +103,8 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Next<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Next<TToken, T, TResult>(this IParser<TToken, T> parser,
-        Func<T, Parser<TToken, TResult>> next, Func<FailedResult<TToken, T>, TResult> failedHandler)
+        Func<T, IParser<TToken, TResult>> next, Func<IFailedResult<TToken, T>, TResult> failedHandler)
        => parser.Next(next, failedResult => Pure<TToken, TResult>(failedHandler(failedResult)));
    /// <summary>
@ -118,8 +118,8 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Next<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Next<TToken, T, TResult>(this IParser<TToken, T> parser,
-        Func<T, Parser<TToken, TResult>> next, TResult failedResult)
+        Func<T, IParser<TToken, TResult>> next, TResult failedResult)
        => parser.Next(next, _ => Pure<TToken, TResult>(failedResult));
    /// <summary>
@ -133,8 +133,8 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Next<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Next<TToken, T, TResult>(this IParser<TToken, T> parser,
-        Func<T, TResult> nextResult, Func<FailedResult<TToken, T>, Parser<TToken, TResult>> failedResume)
+        Func<T, TResult> nextResult, Func<IFailedResult<TToken, T>, IParser<TToken, TResult>> failedResume)
        => parser.Next(x => Pure<TToken, TResult>(nextResult(x)), failedResume);
    /// <summary>
@ -148,8 +148,8 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Next<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Next<TToken, T, TResult>(this IParser<TToken, T> parser,
-        Func<T, TResult> nextResult, Func<FailedResult<TToken, T>, TResult> failedResult)
+        Func<T, TResult> nextResult, Func<IFailedResult<TToken, T>, TResult> failedResult)
        => new SuccessfulMapParser<TToken, T, TResult>(parser, nextResult, failedResult);
    /// <summary>
@ -163,7 +163,7 @@ public static class ParserExtensions
    /// <typeparam name="TResult"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Next<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Next<TToken, T, TResult>(this IParser<TToken, T> parser,
        Func<T, TResult> successfulHandler, TResult failedResult)
        => parser.Next(successfulHandler, _ => failedResult);
@ -181,8 +181,8 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Do<TToken, T>(this Parser<TToken, T> parser, Action<T> successfulAction,
+    public static IParser<TToken, T> Do<TToken, T>(this IParser<TToken, T> parser, Action<T> successfulAction,
-        Action<FailedResult<TToken, T>> failedAction)
+        Action<IFailedResult<TToken, T>> failedAction)
        => new DoParser<TToken, T>(parser, successfulAction, failedAction);
    /// <summary>
@ -194,7 +194,7 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Do<TToken, T>(this Parser<TToken, T> parser, Action<T> successfulAction)
+    public static IParser<TToken, T> Do<TToken, T>(this IParser<TToken, T> parser, Action<T> successfulAction)
        => parser.Do(successfulAction, _ => { });
    /// <summary>
@ -206,7 +206,7 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> LookAhead<TToken, T>(this Parser<TToken, T> parser)
+    public static IParser<TToken, T> LookAhead<TToken, T>(this IParser<TToken, T> parser)
        => new LookAheadParser<TToken, T>(parser);
    /// <summary>
@ -219,7 +219,7 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Not<TToken, TIgnore, T>(this Parser<TToken, TIgnore> parser, T result)
+    public static IParser<TToken, T> Not<TToken, TIgnore, T>(this IParser<TToken, TIgnore> parser, T result)
        => new ReverseParser<TToken, TIgnore, T>(parser, result);
    /// <summary>
@ -231,21 +231,21 @@ public static class ParserExtensions
    /// <typeparam name="TIgnore"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, Unit> Not<TToken, TIgnore>(this Parser<TToken, TIgnore> parser)
+    public static IParser<TToken, Unit> Not<TToken, TIgnore>(this IParser<TToken, TIgnore> parser)
        => parser.Not(Unit.Instance);
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Try<TToken, T>(this Parser<TToken, T> parser,
+    public static IParser<TToken, T> Try<TToken, T>(this IParser<TToken, T> parser,
-        Func<FailedResult<TToken, T>, T> resume)
+        Func<IFailedResult<TToken, T>, T> resume)
        => new TryParser<TToken, T>(parser, resume);
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Try<TToken, T>(this Parser<TToken, T> parser, T result)
+    public static IParser<TToken, T> Try<TToken, T>(this IParser<TToken, T> parser, T result)
        => parser.Try(_ => result);
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, bool> Try<TToken, T>(this Parser<TToken, T> parser)
+    public static IParser<TToken, bool> Try<TToken, T>(this IParser<TToken, T> parser)
        => parser.Next(_ => true, false).Try(false);
    #endregion
@ -262,8 +262,8 @@ public static class ParserExtensions
    /// <typeparam name="TRight"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TLeft> Left<TToken, TLeft, TRight>(this Parser<TToken, TLeft> left,
+    public static IParser<TToken, TLeft> Left<TToken, TLeft, TRight>(this IParser<TToken, TLeft> left,
-        Parser<TToken, TRight> right)
+        IParser<TToken, TRight> right)
        => left.Bind(right.Map);
    /// <summary>
@ -276,12 +276,12 @@ public static class ParserExtensions
    /// <typeparam name="TRight"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TRight> Right<TToken, TLeft, TRight>(this Parser<TToken, TLeft> left,
+    public static IParser<TToken, TRight> Right<TToken, TLeft, TRight>(this IParser<TToken, TLeft> left,
-        Parser<TToken, TRight> right)
+        IParser<TToken, TRight> right)
        => left.Bind(_ => right);
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    private static Parser<TToken, IEnumerable<T>> ManyRecursively<TToken, T>(this Parser<TToken, T> parser,
+    private static IParser<TToken, IEnumerable<T>> ManyRecursively<TToken, T>(this IParser<TToken, T> parser,
        IEnumerable<T> result)
        => parser.Next(x => parser.ManyRecursively(result.Append(x)), result);
@ -293,7 +293,7 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> Many<TToken, T>(this Parser<TToken, T> parser)
+    public static IParser<TToken, IEnumerable<T>> Many<TToken, T>(this IParser<TToken, T> parser)
        => parser.ManyRecursively([]);
    /// <summary>
@ -304,7 +304,7 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> Many1<TToken, T>(this Parser<TToken, T> parser)
+    public static IParser<TToken, IEnumerable<T>> Many1<TToken, T>(this IParser<TToken, T> parser)
        => parser.Bind(x => parser.ManyRecursively([x]));
    /// <summary>
@ -317,7 +317,7 @@ public static class ParserExtensions
    /// <typeparam name="TIgnore"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, Unit> SkipMany<TToken, TIgnore>(this Parser<TToken, TIgnore> parser)
+    public static IParser<TToken, Unit> SkipMany<TToken, TIgnore>(this IParser<TToken, TIgnore> parser)
        => Fix<TToken, Unit>(self => parser.Next(_ => self, Unit.Instance));
    /// <summary>
@ -330,11 +330,11 @@ public static class ParserExtensions
    /// <typeparam name="TIgnore"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, Unit> SkipMany1<TToken, TIgnore>(this Parser<TToken, TIgnore> parser)
+    public static IParser<TToken, Unit> SkipMany1<TToken, TIgnore>(this IParser<TToken, TIgnore> parser)
        => parser.Right(parser.SkipMany());
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    private static Parser<TToken, T> ChainRecursively<TToken, T>(Func<T, Parser<TToken, T>> chain, T value)
+    private static IParser<TToken, T> ChainRecursively<TToken, T>(Func<T, IParser<TToken, T>> chain, T value)
        => chain(value).Next(x => ChainRecursively(chain, x), value);
    /// <summary>
@ -347,12 +347,12 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Chain<TToken, T>(this Parser<TToken, T> parser, Func<T, Parser<TToken, T>> chain)
+    public static IParser<TToken, T> Chain<TToken, T>(this IParser<TToken, T> parser, Func<T, IParser<TToken, T>> chain)
        => parser.Bind(x => ChainRecursively(chain, x));
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    private static Parser<TToken, IEnumerable<T>> ManyTillRecursively<TToken, T, TIgnore>(this Parser<TToken, T> parser,
+    private static IParser<TToken, IEnumerable<T>> ManyTillRecursively<TToken, T, TIgnore>(this IParser<TToken, T> parser,
-        Parser<TToken, TIgnore> terminator, IEnumerable<T> result)
+        IParser<TToken, TIgnore> terminator, IEnumerable<T> result)
        => terminator.Next(_ => Pure<TToken, IEnumerable<T>>(result),
            _ => parser.Bind(x => parser.ManyTillRecursively(terminator, result.Append(x))));
@ -367,8 +367,8 @@ public static class ParserExtensions
    /// <typeparam name="TIgnore"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> ManyTill<TToken, T, TIgnore>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> ManyTill<TToken, T, TIgnore>(this IParser<TToken, T> parser,
-        Parser<TToken, TIgnore> terminator)
+        IParser<TToken, TIgnore> terminator)
        => parser.ManyTillRecursively(terminator, []);
    /// <summary>
@ -382,8 +382,8 @@ public static class ParserExtensions
    /// <typeparam name="TIgnore"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> Many1Till<TToken, T, TIgnore>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> Many1Till<TToken, T, TIgnore>(this IParser<TToken, T> parser,
-        Parser<TToken, TIgnore> terminator)
+        IParser<TToken, TIgnore> terminator)
        => parser.Bind(x => parser.ManyTillRecursively(terminator, [x]));
    /// <summary>
@ -397,8 +397,8 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> SkipTill<TToken, TIgnore, T>(this Parser<TToken, TIgnore> parser,
+    public static IParser<TToken, T> SkipTill<TToken, TIgnore, T>(this IParser<TToken, TIgnore> parser,
-        Parser<TToken, T> terminator)
+        IParser<TToken, T> terminator)
        => Fix<TToken, T>(self => terminator | parser.Right(self));
    /// <summary>
@ -412,8 +412,8 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Skip1Till<TToken, TIgnore, T>(this Parser<TToken, TIgnore> parser,
+    public static IParser<TToken, T> Skip1Till<TToken, TIgnore, T>(this IParser<TToken, TIgnore> parser,
-        Parser<TToken, T> terminator)
+        IParser<TToken, T> terminator)
        => parser.Right(parser.SkipTill(terminator));
    /// <summary>
@ -424,7 +424,7 @@ public static class ParserExtensions
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Match<TToken, T>(this Parser<TToken, T> parser)
+    public static IParser<TToken, T> Match<TToken, T>(this IParser<TToken, T> parser)
        => SkipTill(Any<TToken>(), parser);
    /// <summary>
@ -440,8 +440,8 @@ public static class ParserExtensions
    /// <typeparam name="TRight"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> Quote<TToken, T, TLeft, TRight>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> Quote<TToken, T, TLeft, TRight>(this IParser<TToken, T> parser,
-        Parser<TToken, TLeft> left, Parser<TToken, TRight> right)
+        IParser<TToken, TLeft> left, IParser<TToken, TRight> right)
        => left.Right(parser.ManyTill(right));
    /// <summary>
@ -454,8 +454,8 @@ public static class ParserExtensions
    /// <typeparam name="TQuote"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> Quote<TToken, T, TQuote>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> Quote<TToken, T, TQuote>(this IParser<TToken, T> parser,
-        Parser<TToken, TQuote> quotedParser)
+        IParser<TToken, TQuote> quotedParser)
        => parser.Quote(quotedParser, quotedParser);
    /// <summary>
@ -470,8 +470,8 @@ public static class ParserExtensions
    /// <typeparam name="TSeparator"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> SeparatedBy1<TToken, T, TSeparator>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> SeparatedBy1<TToken, T, TSeparator>(this IParser<TToken, T> parser,
-        Parser<TToken, TSeparator> separator)
+        IParser<TToken, TSeparator> separator)
        => parser.Bind(x => separator.Right(parser).ManyRecursively([x]));
    /// <summary>
@ -486,8 +486,8 @@ public static class ParserExtensions
    /// <typeparam name="TSeparator"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> SeparatedBy<TToken, T, TSeparator>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> SeparatedBy<TToken, T, TSeparator>(this IParser<TToken, T> parser,
-        Parser<TToken, TSeparator> separator)
+        IParser<TToken, TSeparator> separator)
        => parser.SeparatedBy1(separator).Try([]);
    /// <summary>
@ -502,8 +502,8 @@ public static class ParserExtensions
    /// <typeparam name="TSeparator"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> EndBy<TToken, T, TSeparator>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> EndBy<TToken, T, TSeparator>(this IParser<TToken, T> parser,
-        Parser<TToken, TSeparator> separator)
+        IParser<TToken, TSeparator> separator)
        => parser.Many().Left(separator);
    /// <summary>
@ -518,8 +518,8 @@ public static class ParserExtensions
    /// <typeparam name="TSeparator"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> EndBy1<TToken, T, TSeparator>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> EndBy1<TToken, T, TSeparator>(this IParser<TToken, T> parser,
-        Parser<TToken, TSeparator> separator)
+        IParser<TToken, TSeparator> separator)
        => parser.Many1().Left(separator);
    /// <summary>
@ -534,8 +534,8 @@ public static class ParserExtensions
    /// <typeparam name="TSeparator"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> SeparatedOrEndBy1<TToken, T, TSeparator>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> SeparatedOrEndBy1<TToken, T, TSeparator>(this IParser<TToken, T> parser,
-        Parser<TToken, TSeparator> separator)
+        IParser<TToken, TSeparator> separator)
        => parser.SeparatedBy1(separator).Left(separator.Try());
    /// <summary>
@ -550,8 +550,8 @@ public static class ParserExtensions
    /// <typeparam name="TSeparator"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> SeparatedOrEndBy<TToken, T, TSeparator>(this Parser<TToken, T> parser,
+    public static IParser<TToken, IEnumerable<T>> SeparatedOrEndBy<TToken, T, TSeparator>(this IParser<TToken, T> parser,
-        Parser<TToken, TSeparator> separator)
+        IParser<TToken, TSeparator> separator)
        => parser.SeparatedOrEndBy1(separator).Try([]);
    #endregion
@ -559,13 +559,13 @@ public static class ParserExtensions
    #region LINQ
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> Select<TToken, T, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> Select<TToken, T, TResult>(this IParser<TToken, T> parser,
        Func<T, TResult> selector)
        => parser.Map(selector);
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TResult> SelectMany<TToken, T, TIntermediate, TResult>(this Parser<TToken, T> parser,
+    public static IParser<TToken, TResult> SelectMany<TToken, T, TIntermediate, TResult>(this IParser<TToken, T> parser,
-        Func<T, Parser<TToken, TIntermediate>> selector, Func<T, TIntermediate, TResult> projector)
+        Func<T, IParser<TToken, TIntermediate>> selector, Func<T, TIntermediate, TResult> projector)
        => parser.Bind(x => selector(x).Map(y => projector(x, y)));
    #endregion
--- a/CanonSharp.Combinator/ParseResultBuilder.cs
+++ b/CanonSharp.Combinator/ParseResultBuilder.cs
@ -19,7 +19,7 @@ public static class ParseResultBuilder
    /// <typeparam name="T">解析成功的对象类型</typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static ParseResult<TToken, T> Succeed<TToken, TState, T>(T value, TState state)
+    public static IParseResult<TToken, T> Succeed<TToken, TState, T>(T value, TState state)
        where TState : IReadState<TToken, TState>
        => new InternalSuccessfulResult<TToken, TState, T>(value, state);
@ -32,7 +32,7 @@ public static class ParseResultBuilder
    /// <typeparam name="T">解析成功的对象类型</typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static ParseResult<TToken, T> Fail<TToken, TState, T>(TState state)
+    public static IParseResult<TToken, T> Fail<TToken, TState, T>(TState state)
        where TState : IReadState<TToken, TState>
        => new FailedResultWithError<TToken, TState, T>(state);
@ -47,7 +47,7 @@ public static class ParseResultBuilder
    /// <typeparam name="T">解析成功的对象类型</typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static ParseResult<TToken, T> Fail<TToken, TState, T>(string message, TState state)
+    public static IParseResult<TToken, T> Fail<TToken, TState, T>(string message, TState state)
        where TState : IReadState<TToken, TState>
        => new FailedResultWithMessage<TToken, TState, T>(message, state);
@ -61,7 +61,7 @@ public static class ParseResultBuilder
    /// <typeparam name="T">解析成功的对象类型</typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static ParseResult<TToken, T> Fail<TToken, TState, T>(Exception exception, TState state)
+    public static IParseResult<TToken, T> Fail<TToken, TState, T>(Exception exception, TState state)
        where TState : IReadState<TToken, TState>
        => new FailedResultWithException<TToken, TState, T>(exception, state);
 }
--- a/CanonSharp.Combinator/ParserBuilder.cs
+++ b/CanonSharp.Combinator/ParserBuilder.cs
@ -20,7 +20,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Pure<TToken, T>(T value)
+    public static IParser<TToken, T> Pure<TToken, T>(T value)
        => new PureParser<TToken, T>(value);
    /// <summary>
@ -31,7 +31,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Pure<TToken, T>(Func<IReadState<TToken>, T> valueFunc)
+    public static IParser<TToken, T> Pure<TToken, T>(Func<IReadState<TToken>, T> valueFunc)
        => new DelayedPureParser<TToken, T>(valueFunc);
    /// <summary>
@ -40,7 +40,7 @@ public static class ParserBuilder
    /// <typeparam name="TToken"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, Unit> Null<TToken>() => Pure<TToken, Unit>(Unit.Instance);
+    public static IParser<TToken, Unit> Null<TToken>() => Pure<TToken, Unit>(Unit.Instance);
    /// <summary>
    /// 失败的解析器
@ -49,7 +49,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Fail<TToken, T>() => new FailedParser<TToken, T>();
+    public static IParser<TToken, T> Fail<TToken, T>() => new FailedParser<TToken, T>();
    /// <summary>
    /// 失败的解析器
@ -59,7 +59,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Fail<TToken, T>(string message) => new FailedParserWithMessage<TToken, T>(message);
+    public static IParser<TToken, T> Fail<TToken, T>(string message) => new FailedParserWithMessage<TToken, T>(message);
    /// <summary>
    /// 失败的解析器
@ -69,7 +69,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Fail<TToken, T>(Func<IReadState<TToken>, string> messageFunc) =>
+    public static IParser<TToken, T> Fail<TToken, T>(Func<IReadState<TToken>, string> messageFunc) =>
        new FailedParserWithDelayedMessage<TToken, T>(messageFunc);
    /// <summary>
@ -80,7 +80,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Fail<TToken, T>(Exception exception) =>
+    public static IParser<TToken, T> Fail<TToken, T>(Exception exception) =>
        new FailedParserWithException<TToken, T>(exception);
    /// <summary>
@ -90,7 +90,7 @@ public static class ParserBuilder
    /// <typeparam name="TToken"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TToken> Satisfy<TToken>(Func<TToken, bool> predicate)
+    public static IParser<TToken, TToken> Satisfy<TToken>(Func<TToken, bool> predicate)
        => new SatisfyParser<TToken>(predicate);
    /// <summary>
@ -99,7 +99,7 @@ public static class ParserBuilder
    /// <typeparam name="TToken"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TToken> Any<TToken>() => Satisfy<TToken>(_ => true);
+    public static IParser<TToken, TToken> Any<TToken>() => Satisfy<TToken>(_ => true);
    /// <summary>
    /// 识别指定输入元素的解析器
@ -108,7 +108,7 @@ public static class ParserBuilder
    /// <typeparam name="TToken"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, TToken> Token<TToken>(TToken token)
+    public static IParser<TToken, TToken> Token<TToken>(TToken token)
        => Satisfy<TToken>(t => EqualityComparer<TToken>.Default.Equals(t, token));
    /// <summary>
@ -118,7 +118,7 @@ public static class ParserBuilder
    /// <typeparam name="TToken"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, Unit> Skip<TToken>(int count) => new SkipParser<TToken>(count);
+    public static IParser<TToken, Unit> Skip<TToken>(int count) => new SkipParser<TToken>(count);
    /// <summary>
    /// 识别指定数量输入元素的解析器
@ -127,7 +127,7 @@ public static class ParserBuilder
    /// <typeparam name="TToken"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<TToken>> Take<TToken>(int count) => new TakeParser<TToken>(count);
+    public static IParser<TToken, IEnumerable<TToken>> Take<TToken>(int count) => new TakeParser<TToken>(count);
    #endregion
@ -141,7 +141,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Fix<TToken, T>(Func<Parser<TToken, T>, Parser<TToken, T>> parserFix)
+    public static IParser<TToken, T> Fix<TToken, T>(Func<IParser<TToken, T>, IParser<TToken, T>> parserFix)
        => new FixParser<TToken, T>(parserFix);
    #endregion
@ -156,8 +156,8 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Choice<TToken, T>(IEnumerable<Parser<TToken, T>> parsers)
+    public static IParser<TToken, T> Choice<TToken, T>(IEnumerable<IParser<TToken, T>> parsers)
-        => parsers.Reverse().Aggregate((next, parser) => parser.Alternative(next));
+        => parsers.Aggregate((result, parser) => result.Alternative(parser));
    /// <summary>
    /// 按照给定的解析器组依次尝试
@ -167,7 +167,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, T> Choice<TToken, T>(params Parser<TToken, T>[] parsers)
+    public static IParser<TToken, T> Choice<TToken, T>(params IParser<TToken, T>[] parsers)
        => Choice(parsers.AsEnumerable());
    /// <summary>
@ -178,7 +178,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> Sequence<TToken, T>(IEnumerable<Parser<TToken, T>> parsers)
+    public static IParser<TToken, IEnumerable<T>> Sequence<TToken, T>(IEnumerable<IParser<TToken, T>> parsers)
        => parsers.Reverse().Aggregate(Pure<TToken, IEnumerable<T>>([]),
            (next, parser) => parser.Bind(
                x => next.Map(result => result.Prepend(x))));
@ -191,7 +191,7 @@ public static class ParserBuilder
    /// <typeparam name="T"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<T>> Sequence<TToken, T>(params Parser<TToken, T>[] parsers)
+    public static IParser<TToken, IEnumerable<T>> Sequence<TToken, T>(params IParser<TToken, T>[] parsers)
        => Sequence(parsers.AsEnumerable());
    /// <summary>
@ -203,7 +203,7 @@ public static class ParserBuilder
    /// <typeparam name="TIgnore"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<TToken>> TakeTill<TToken, TIgnore>(Parser<TToken, TIgnore> terminator)
+    public static IParser<TToken, IEnumerable<TToken>> TakeTill<TToken, TIgnore>(IParser<TToken, TIgnore> terminator)
        => Any<TToken>().ManyTill(terminator);
    /// <summary>
@ -215,9 +215,8 @@ public static class ParserBuilder
    /// <typeparam name="TIgnore"></typeparam>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<TToken, IEnumerable<TToken>> Take1Till<TToken, TIgnore>(Parser<TToken, TIgnore> termintor)
+    public static IParser<TToken, IEnumerable<TToken>> Take1Till<TToken, TIgnore>(IParser<TToken, TIgnore> termintor)
        => Any<TToken>().Many1Till(termintor);
    #endregion
 }
--- a/CanonSharp.Combinator/Parsers/Bases/AlternativeParser.cs
+++ b/CanonSharp.Combinator/Parsers/Bases/AlternativeParser.cs
@ -10,11 +10,12 @@ namespace CanonSharp.Combinator.Parsers.Bases;
 /// <param name="second">第二个解析器</param>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">解析器结果类型</typeparam>
-internal sealed class AlternativeParser<TToken, T>(Parser<TToken, T> first, Parser<TToken, T> second)
+internal sealed class AlternativeParser<TToken, T>(IParser<TToken, T> first, IParser<TToken, T> second)
-    : Parser<TToken, T>
+    : IParser<TToken, T>
 {
-    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
    {
        return first.Run(state, result => result.CaseOf(continuation, _ => second.Run(state, continuation)));
    }
--- a/CanonSharp.Combinator/Parsers/Bases/BindParser.cs
+++ b/CanonSharp.Combinator/Parsers/Bases/BindParser.cs
@ -11,10 +11,11 @@ namespace CanonSharp.Combinator.Parsers.Bases;
 /// <typeparam name="TIntermediate">上游解析器结果类型</typeparam>
 /// <typeparam name="T">下游解析器结果类型</typeparam>
 internal sealed class BindParser<TToken, TIntermediate, T>(
-    Parser<TToken, TIntermediate> parser,
+    IParser<TToken, TIntermediate> parser,
-    Func<TIntermediate, Parser<TToken, T>> next) : Parser<TToken, T>
+    Func<TIntermediate, IParser<TToken, T>> next) : IParser<TToken, T>
 {
-    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
        => parser.Run(state, result => result.Next(next, continuation));
 }
--- a/CanonSharp.Combinator/Parsers/Bases/FixParser.cs
+++ b/CanonSharp.Combinator/Parsers/Bases/FixParser.cs
@ -9,25 +9,17 @@ namespace CanonSharp.Combinator.Parsers.Bases;
 /// </summary>
 /// <typeparam name="TToken"></typeparam>
 /// <typeparam name="T"></typeparam>
-internal sealed class FixParser<TToken, T> : Parser<TToken, T>
+internal sealed class FixParser<TToken, T> : IParser<TToken, T>
 {
-    private readonly Parser<TToken, T> _parser;
+    private readonly IParser<TToken, T> _parser;
-    public FixParser(Func<Parser<TToken, T>, Parser<TToken, T>> func)
+    public FixParser(Func<IParser<TToken, T>, IParser<TToken, T>> func)
    {
        _parser = func(this);
    }
-    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
        => _parser.Run(state, continuation);
 }
 internal sealed class FixParser<TToken, TParameter, T>(
    Func<Func<TParameter, Parser<TToken, T>>, TParameter, Parser<TToken, T>> func,
    TParameter parameter) : Parser<TToken, T>
 {
    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
        => func(p => new FixParser<TToken, TParameter, T>(func, p), parameter).Run(state, continuation);
 }
--- a/CanonSharp.Combinator/Parsers/Bases/MapParser.cs
+++ b/CanonSharp.Combinator/Parsers/Bases/MapParser.cs
@ -12,10 +12,11 @@ namespace CanonSharp.Combinator.Parsers.Bases;
 /// <typeparam name="TIntermediate"></typeparam>
 /// <typeparam name="T"></typeparam>
 internal sealed class MapParser<TToken, TIntermediate, T>(
-    Parser<TToken, TIntermediate> parser,
+    IParser<TToken, TIntermediate> parser,
-    Func<TIntermediate, T> func) : Parser<TToken, T>
+    Func<TIntermediate, T> func) : IParser<TToken, T>
 {
-    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
        => parser.Run(state, result => continuation(result.Map(func)));
 }
--- a/CanonSharp.Combinator/Parsers/Bases/NextParser.cs
+++ b/CanonSharp.Combinator/Parsers/Bases/NextParser.cs
@ -12,12 +12,13 @@ namespace CanonSharp.Combinator.Parsers.Bases;
 /// <typeparam name="TIntermediate">上游解析器结果类型</typeparam>
 /// <typeparam name="T">最终解析结果类型</typeparam>
 internal sealed class NextParser<TToken, TIntermediate, T>(
-    Parser<TToken, TIntermediate> parser,
+    IParser<TToken, TIntermediate> parser,
-    Func<TIntermediate, Parser<TToken, T>> successfulParser,
+    Func<TIntermediate, IParser<TToken, T>> successfulParser,
-    Func<FailedResult<TToken, TIntermediate>, Parser<TToken, T>> failedParser) : Parser<TToken, T>
+    Func<IFailedResult<TToken, TIntermediate>, IParser<TToken, T>> failedParser) : IParser<TToken, T>
 {
-    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
    {
        return parser.Run(state, result => result.CaseOf(
            successfulResult => successfulResult.Next(successfulParser, continuation),
--- a/CanonSharp.Combinator/Parsers/Bases/ResumeParser.cs
+++ b/CanonSharp.Combinator/Parsers/Bases/ResumeParser.cs
@ -11,11 +11,12 @@ namespace CanonSharp.Combinator.Parsers.Bases;
 /// <typeparam name="TToken">输入令牌类型</typeparam>
 /// <typeparam name="T">解析结果类型</typeparam>
 internal sealed class ResumeParser<TToken, T>(
-    Parser<TToken, T> parser,
+    IParser<TToken, T> parser,
-    Func<FailedResult<TToken, T>, Parser<TToken, T>> failedHandler) : Parser<TToken, T>
+    Func<IFailedResult<TToken, T>, IParser<TToken, T>> failedHandler) : IParser<TToken, T>
 {
-    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
    {
        return parser.Run(state,
            result => result.CaseOf(continuation,
--- a/CanonSharp.Combinator/Parsers/ModifiedParser.cs
+++ b/CanonSharp.Combinator/Parsers/ModifiedParser.cs
@ -9,18 +9,20 @@ namespace CanonSharp.Combinator.Parsers;
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="TIntermediate">需要修改结果的解析器</typeparam>
 /// <typeparam name="T">最终返回的解析结果</typeparam>
-public abstract class ModifiedParser<TToken, TIntermediate, T>(Parser<TToken, TIntermediate> parser) : Parser<TToken, T>
+public abstract class ModifiedParser<TToken, TIntermediate, T>(IParser<TToken, TIntermediate> parser)
    : IParser<TToken, T>
 {
-    protected abstract ParseResult<TToken, T> Fail<TState>(TState state,
+    protected abstract IParseResult<TToken, T> Fail<TState>(TState state,
-        FailedResult<TToken, TIntermediate> failedResult)
+        IFailedResult<TToken, TIntermediate> failedResult)
        where TState : IReadState<TToken, TState>;
-    protected abstract ParseResult<TToken, T> Succeed<TState>(TState state,
+    protected abstract IParseResult<TToken, T> Succeed<TState>(TState state,
-        SuccessfulResult<TToken, TIntermediate> successfulResult)
+        ISuccessfulResult<TToken, TIntermediate> successfulResult)
        where TState : IReadState<TToken, TState>;
-    internal override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
        => parser.Run(state, result => result.CaseOf(
            success => continuation(Succeed(state, success)),
            failure => continuation(Fail(state, failure))));
--- a/CanonSharp.Combinator/Parsers/Modifiers/DoParser.cs
+++ b/CanonSharp.Combinator/Parsers/Modifiers/DoParser.cs
@ -11,18 +11,18 @@ namespace CanonSharp.Combinator.Parsers.Modifiers;
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">解析结果类型</typeparam>
 internal sealed class DoParser<TToken, T>(
-    Parser<TToken, T> parser,
+    IParser<TToken, T> parser,
    Action<T> succeed,
-    Action<FailedResult<TToken, T>> fail) : ModifiedParser<TToken, T, T>(parser)
+    Action<IFailedResult<TToken, T>> fail) : ModifiedParser<TToken, T, T>(parser)
 {
-    protected override ParseResult<TToken, T> Succeed<TState>(TState state,
+    protected override IParseResult<TToken, T> Succeed<TState>(TState state,
-        SuccessfulResult<TToken, T> successfulResult)
+        ISuccessfulResult<TToken, T> successfulResult)
    {
        succeed(successfulResult.Value);
        return successfulResult;
    }
-    protected override ParseResult<TToken, T> Fail<TState>(TState state, FailedResult<TToken, T> failedResult)
+    protected override IParseResult<TToken, T> Fail<TState>(TState state, IFailedResult<TToken, T> failedResult)
    {
        fail(failedResult);
        return failedResult;
--- a/CanonSharp.Combinator/Parsers/Modifiers/LookAheadParser.cs
+++ b/CanonSharp.Combinator/Parsers/Modifiers/LookAheadParser.cs
@ -10,12 +10,12 @@ namespace CanonSharp.Combinator.Parsers.Modifiers;
 /// <param name="parser">需要向前看的解析器</param>
 /// <typeparam name="TToken">输入流令牌</typeparam>
 /// <typeparam name="T">返回的解析结果类型</typeparam>
-internal sealed class LookAheadParser<TToken, T>(Parser<TToken, T> parser) : ModifiedParser<TToken, T, T>(parser)
+internal sealed class LookAheadParser<TToken, T>(IParser<TToken, T> parser) : ModifiedParser<TToken, T, T>(parser)
 {
-    protected override ParseResult<TToken, T> Succeed<TState>(TState state,
+    protected override IParseResult<TToken, T> Succeed<TState>(TState state,
-        SuccessfulResult<TToken, T> successfulResult)
+        ISuccessfulResult<TToken, T> successfulResult)
        => ParseResultBuilder.Succeed<TToken, TState, T>(successfulResult.Value, state);
-    protected override ParseResult<TToken, T> Fail<TState>(TState state, FailedResult<TToken, T> failedResult)
+    protected override IParseResult<TToken, T> Fail<TState>(TState state, IFailedResult<TToken, T> failedResult)
        => ParseResultBuilder.Fail<TToken, TState, T>($"Failed when looking ahead: {failedResult}", state);
 }
--- a/CanonSharp.Combinator/Parsers/Modifiers/ReverseParser.cs
+++ b/CanonSharp.Combinator/Parsers/Modifiers/ReverseParser.cs
@ -12,15 +12,15 @@ namespace CanonSharp.Combinator.Parsers.Modifiers;
 /// <typeparam name="TToken">输入流的类型</typeparam>
 /// <typeparam name="TIntermediate">上游解析器结果类型</typeparam>
 /// <typeparam name="T">最终的返回结果</typeparam>
-internal sealed class ReverseParser<TToken, TIntermediate, T>(Parser<TToken, TIntermediate> parser, T result)
+internal sealed class ReverseParser<TToken, TIntermediate, T>(IParser<TToken, TIntermediate> parser, T result)
    : ModifiedParser<TToken, TIntermediate, T>(parser)
 {
-    protected override ParseResult<TToken, T> Succeed<TState>(TState state,
+    protected override IParseResult<TToken, T> Succeed<TState>(TState state,
-        SuccessfulResult<TToken, TIntermediate> successfulResult)
+        ISuccessfulResult<TToken, TIntermediate> successfulResult)
        => ParseResultBuilder.Fail<TToken, TState, T>($"Unexpected successful result: {successfulResult.Value}",
            state);
-    protected override ParseResult<TToken, T> Fail<TState>(TState state,
+    protected override IParseResult<TToken, T> Fail<TState>(TState state,
-        FailedResult<TToken, TIntermediate> failedResult)
+        IFailedResult<TToken, TIntermediate> failedResult)
        => ParseResultBuilder.Succeed<TToken, TState, T>(result, state);
 }
--- a/CanonSharp.Combinator/Parsers/Modifiers/SuccessfulMapParser.cs
+++ b/CanonSharp.Combinator/Parsers/Modifiers/SuccessfulMapParser.cs
@ -12,15 +12,15 @@ namespace CanonSharp.Combinator.Parsers.Modifiers;
 /// <typeparam name="TIntermediate">上游解析器解析结果类型</typeparam>
 /// <typeparam name="T">最终的解析结果类型</typeparam>
 internal sealed class SuccessfulMapParser<TToken, TIntermediate, T>(
-    Parser<TToken, TIntermediate> parser,
+    IParser<TToken, TIntermediate> parser,
    Func<TIntermediate, T> successfulHandler,
-    Func<FailedResult<TToken, TIntermediate>, T> failedHandler) : ModifiedParser<TToken, TIntermediate, T>(parser)
+    Func<IFailedResult<TToken, TIntermediate>, T> failedHandler) : ModifiedParser<TToken, TIntermediate, T>(parser)
 {
-    protected override ParseResult<TToken, T> Succeed<TState>(TState state,
+    protected override IParseResult<TToken, T> Succeed<TState>(TState state,
-        SuccessfulResult<TToken, TIntermediate> successfulResult)
+        ISuccessfulResult<TToken, TIntermediate> successfulResult)
        => successfulResult.Map(successfulHandler);
-    protected override ParseResult<TToken, T> Fail<TState>(TState state,
+    protected override IParseResult<TToken, T> Fail<TState>(TState state,
-        FailedResult<TToken, TIntermediate> failedResult)
+        IFailedResult<TToken, TIntermediate> failedResult)
        => ParseResultBuilder.Succeed<TToken, TState, T>(failedHandler(failedResult), state);
 }
--- a/CanonSharp.Combinator/Parsers/Modifiers/TryParser.cs
+++ b/CanonSharp.Combinator/Parsers/Modifiers/TryParser.cs
@ -11,13 +11,13 @@ namespace CanonSharp.Combinator.Parsers.Modifiers;
 /// <param name="resume">处理失败结果的恢复函数</param>
 /// <typeparam name="TToken">输入流令牌</typeparam>
 /// <typeparam name="T">解析器返回结果类型</typeparam>
-internal sealed class TryParser<TToken, T>(Parser<TToken, T> parser, Func<FailedResult<TToken, T>, T> resume)
+internal sealed class TryParser<TToken, T>(IParser<TToken, T> parser, Func<IFailedResult<TToken, T>, T> resume)
    : ModifiedParser<TToken, T, T>(parser)
 {
-    protected override ParseResult<TToken, T> Succeed<TState>(TState state,
+    protected override IParseResult<TToken, T> Succeed<TState>(TState state,
-        SuccessfulResult<TToken, T> successfulResult)
+        ISuccessfulResult<TToken, T> successfulResult)
        => successfulResult;
-    protected override ParseResult<TToken, T> Fail<TState>(TState state, FailedResult<TToken, T> failedResult)
+    protected override IParseResult<TToken, T> Fail<TState>(TState state, IFailedResult<TToken, T> failedResult)
        => ParseResultBuilder.Succeed<TToken, TState, T>(resume(failedResult), state);
 }
--- a/CanonSharp.Combinator/Parsers/PrimitiveParser.cs
+++ b/CanonSharp.Combinator/Parsers/PrimitiveParser.cs
@ -8,7 +8,7 @@ namespace CanonSharp.Combinator.Parsers;
 /// </summary>
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="T">解析结果的类型</typeparam>
-public abstract class PrimitiveParser<TToken, T> : Parser<TToken, T>
+public abstract class PrimitiveParser<TToken, T> : IParser<TToken, T>
 {
    /// <summary>
    /// 运行解析器 返回解析结果
@ -16,10 +16,11 @@ public abstract class PrimitiveParser<TToken, T> : Parser<TToken, T>
    /// <param name="state">当前输入流的状态</param>
    /// <typeparam name="TState">输入流状态的类型</typeparam>
    /// <returns>解析结果</returns>
-    protected abstract ParseResult<TToken, T> Run<TState>(TState state)
+    protected abstract IParseResult<TToken, T> Run<TState>(TState state)
        where TState : IReadState<TToken, TState>;
-    internal sealed override ParseResult<TToken, TResult> Run<TState, TResult>(TState state,
+    public IParseResult<TToken, TResult> Run<TState, TResult>(TState state,
-        Func<ParseResult<TToken, T>, ParseResult<TToken, TResult>> continuation)
+        Func<IParseResult<TToken, T>, IParseResult<TToken, TResult>> continuation)
        where TState : IReadState<TToken, TState>
        => continuation(Run(state));
 }
--- a/CanonSharp.Combinator/Parsers/Primitives/FailedParser.cs
+++ b/CanonSharp.Combinator/Parsers/Primitives/FailedParser.cs
@ -9,7 +9,7 @@ namespace CanonSharp.Combinator.Parsers.Primitives;
 /// <typeparam name="T">解析结果的类型</typeparam>
 internal sealed class FailedParser<TToken, T> : PrimitiveParser<TToken, T>
 {
-    protected override ParseResult<TToken, T> Run<TState>(TState state)
+    protected override IParseResult<TToken, T> Run<TState>(TState state)
        => ParseResultBuilder.Fail<TToken, TState, T>(state);
 }
@ -21,7 +21,7 @@ internal sealed class FailedParser<TToken, T> : PrimitiveParser<TToken, T>
 /// <typeparam name="T">解析结果的类型</typeparam>
 internal sealed class FailedParserWithMessage<TToken, T>(string message) : PrimitiveParser<TToken, T>
 {
-    protected override ParseResult<TToken, T> Run<TState>(TState state)
+    protected override IParseResult<TToken, T> Run<TState>(TState state)
        => ParseResultBuilder.Fail<TToken, TState, T>(message, state);
 }
@ -34,7 +34,7 @@ internal sealed class FailedParserWithMessage<TToken, T>(string message) : Primi
 internal sealed class FailedParserWithDelayedMessage<TToken, T>(Func<IReadState<TToken>, string> messageFunc)
    : PrimitiveParser<TToken, T>
 {
-    protected override ParseResult<TToken, T> Run<TState>(TState state)
+    protected override IParseResult<TToken, T> Run<TState>(TState state)
        => ParseResultBuilder.Fail<TToken, TState, T>(messageFunc(state), state);
 }
@ -46,6 +46,6 @@ internal sealed class FailedParserWithDelayedMessage<TToken, T>(Func<IReadState<
 /// <typeparam name="T">解析结果的类型</typeparam>
 internal sealed class FailedParserWithException<TToken, T>(Exception e) : PrimitiveParser<TToken, T>
 {
-    protected override ParseResult<TToken, T> Run<TState>(TState state)
+    protected override IParseResult<TToken, T> Run<TState>(TState state)
        => ParseResultBuilder.Fail<TToken, TState, T>(e, state);
 }
--- a/CanonSharp.Combinator/Parsers/Primitives/PureParser.cs
+++ b/CanonSharp.Combinator/Parsers/Primitives/PureParser.cs
@ -10,7 +10,7 @@ namespace CanonSharp.Combinator.Parsers.Primitives;
 /// <typeparam name="T">解析成功返回值的类型</typeparam>
 internal sealed class PureParser<TToken, T>(T value) : PrimitiveParser<TToken, T>
 {
-    protected override ParseResult<TToken, T> Run<TState>(TState state)
+    protected override IParseResult<TToken, T> Run<TState>(TState state)
        => ParseResultBuilder.Succeed<TToken, TState, T>(value, state);
 }
@ -22,6 +22,6 @@ internal sealed class PureParser<TToken, T>(T value) : PrimitiveParser<TToken, T
 /// <typeparam name="T">解析成功返回值的类型</typeparam>
 internal sealed class DelayedPureParser<TToken, T>(Func<IReadState<TToken>, T> valueFunc) : PrimitiveParser<TToken, T>
 {
-    protected override ParseResult<TToken, T> Run<TState>(TState state)
+    protected override IParseResult<TToken, T> Run<TState>(TState state)
        => ParseResultBuilder.Succeed<TToken, TState, T>(valueFunc(state), state);
 }
--- a/CanonSharp.Combinator/Parsers/Primitives/SatisfyParser.cs
+++ b/CanonSharp.Combinator/Parsers/Primitives/SatisfyParser.cs
@ -9,7 +9,7 @@ namespace CanonSharp.Combinator.Parsers.Primitives;
 /// <typeparam name="TToken">输入流类型</typeparam>
 internal sealed class SatisfyParser<TToken>(Func<TToken, bool> predicate) : PrimitiveParser<TToken, TToken>
 {
-    protected override ParseResult<TToken, TToken> Run<TState>(TState state)
+    protected override IParseResult<TToken, TToken> Run<TState>(TState state)
    {
        return state.HasValue && predicate(state.Current)
            ? ParseResultBuilder.Succeed<TToken, TState, TToken>(state.Current, state.Next)
--- a/CanonSharp.Combinator/Parsers/Primitives/SkipParser.cs
+++ b/CanonSharp.Combinator/Parsers/Primitives/SkipParser.cs
@ -10,7 +10,7 @@ namespace CanonSharp.Combinator.Parsers.Primitives;
 /// <typeparam name="TToken">输入流类型</typeparam>
 internal sealed class SkipParser<TToken>(int count) : PrimitiveParser<TToken, Unit>
 {
-    protected override ParseResult<TToken, Unit> Run<TState>(TState state)
+    protected override IParseResult<TToken, Unit> Run<TState>(TState state)
    {
        List<TState> result = state.AsEnumerable<TToken, TState>().Take(count).ToList();
--- a/CanonSharp.Combinator/Parsers/Primitives/TakeParser.cs
+++ b/CanonSharp.Combinator/Parsers/Primitives/TakeParser.cs
@ -10,7 +10,7 @@ namespace CanonSharp.Combinator.Parsers.Primitives;
 /// <typeparam name="TToken">输入流类型</typeparam>
 internal sealed class TakeParser<TToken>(int count) : PrimitiveParser<TToken, IEnumerable<TToken>>
 {
-    protected override ParseResult<TToken, IEnumerable<TToken>> Run<TState>(TState state)
+    protected override IParseResult<TToken, IEnumerable<TToken>> Run<TState>(TState state)
    {
        List<TState> result = state.AsEnumerable<TToken, TState>().Take(count).ToList();
--- a/CanonSharp.Combinator/Results/FailedResultWithError.cs
+++ b/CanonSharp.Combinator/Results/FailedResultWithError.cs
@ -8,15 +8,17 @@ namespace CanonSharp.Combinator.Results;
 /// <typeparam name="TToken">输入流的类型</typeparam>
 /// <typeparam name="TState">输入流的读取类型</typeparam>
 /// <typeparam name="T">实际的结果类型</typeparam>
-internal sealed class FailedResultWithError<TToken, TState, T>(TState state) : FailedResult<TToken, T>
+internal sealed class FailedResultWithError<TToken, TState, T>(TState state) : IFailedResult<TToken, T>
    where TState : IReadState<TToken, TState>
 {
-    public override IReadState<TToken> State => state;
+    public IReadState<TToken> State => state;
-    public override string Message => $"Unexpected state: {state}.";
+    public string Message => $"Unexpected state: {state}.";
-    public override FailedResult<TToken, TNext> Convert<TNext>()
+    public IFailedResult<TToken, TNext> Convert<TNext>()
    {
        return new FailedResultWithError<TToken, TState, TNext>(state);
    }
    public override string ToString() => $"Parse failed: {Message}.";
 }
--- a/CanonSharp.Combinator/Results/FailedResultWithException.cs
+++ b/CanonSharp.Combinator/Results/FailedResultWithException.cs
@ -10,15 +10,18 @@ namespace CanonSharp.Combinator.Results;
 /// <typeparam name="TToken">输入流类型</typeparam>
 /// <typeparam name="TState">当前输入流状态的类型</typeparam>
 /// <typeparam name="T">解析结果的类型</typeparam>
-public class FailedResultWithException<TToken, TState, T>(Exception exception, TState state) : FailedResult<TToken, T>
+internal sealed class FailedResultWithException<TToken, TState, T>(Exception exception, TState state)
    : IFailedResult<TToken, T>
    where TState : IReadState<TToken, TState>
 {
-    public override IReadState<TToken> State => state;
+    public IReadState<TToken> State => state;
-    public override ParseException Exception => new(ToString(), exception);
+    public ParseException Exception => new(Message, exception);
-    public override string Message => $"Exception occured: {exception}.";
+    public string Message => $"Exception occured: {exception}.";
-    public override FailedResult<TToken, TNext> Convert<TNext>()
+    public IFailedResult<TToken, TNext> Convert<TNext>()
        => new FailedResultWithException<TToken, TState, TNext>(exception, state);
    public override string ToString() => $"Parse failed: {Message}.";
 }
--- a/CanonSharp.Combinator/Results/FailedResultWithMessage.cs
+++ b/CanonSharp.Combinator/Results/FailedResultWithMessage.cs
@ -10,15 +10,18 @@ namespace CanonSharp.Combinator.Results;
 /// <typeparam name="TToken">输入流的类型</typeparam>
 /// <typeparam name="TState">读取状态类型</typeparam>
 /// <typeparam name="T">解析结果的类型</typeparam>
-internal sealed class FailedResultWithMessage<TToken, TState, T>(string message, TState state) : FailedResult<TToken, T>
+internal sealed class FailedResultWithMessage<TToken, TState, T>(string message, TState state)
    : IFailedResult<TToken, T>
    where TState : IReadState<TToken, TState>
 {
-    public override IReadState<TToken> State => state;
+    public IReadState<TToken> State => state;
-    public override string Message => message;
+    public string Message => message;
-    public override FailedResult<TToken, TNext> Convert<TNext>()
+    public IFailedResult<TToken, TNext> Convert<TNext>()
    {
        return new FailedResultWithMessage<TToken, TState, TNext>(message, state);
    }
    public override string ToString() => $"Parse failed: {Message}.";
 }
--- a/CanonSharp.Combinator/Results/InternalSuccessfulResult.cs
+++ b/CanonSharp.Combinator/Results/InternalSuccessfulResult.cs
@ -11,13 +11,17 @@ namespace CanonSharp.Combinator.Results;
 /// <typeparam name="TState">输入流的状态类型</typeparam>
 /// <typeparam name="T">解析结果的类型</typeparam>
 internal sealed class InternalSuccessfulResult<TToken, TState, T>(T result, TState state)
-    : SuccessfulResult<TToken, T>(result)
+    : ISuccessfulResult<TToken, T>
    where TState : IReadState<TToken, TState>
 {
-    protected override ParseResult<TToken, TResult> RunNext<TNext, TResult>(Parser<TToken, TNext> parser,
+    public T Value => result;
-        Func<ParseResult<TToken, TNext>, ParseResult<TToken, TResult>> continuation)
+
    public IParseResult<TToken, TResult> RunNext<TNext, TResult>(IParser<TToken, TNext> parser,
        Func<IParseResult<TToken, TNext>, IParseResult<TToken, TResult>> continuation)
        => parser.Run(state, continuation);
-    public override ParseResult<TToken, TResult> Map<TResult>(Func<T, TResult> map)
+    public IParseResult<TToken, TResult> Map<TResult>(Func<T, TResult> map)
        => new InternalSuccessfulResult<TToken, TState, TResult>(map(Value), state);
    public override string ToString() => Value?.ToString() ?? string.Empty;
 }
--- a/CanonSharp.Combinator/Text/StringParser.cs
+++ b/CanonSharp.Combinator/Text/StringParser.cs
@ -11,7 +11,7 @@ namespace CanonSharp.Combinator.Text;
 /// <param name="comparison">字符串比较模式</param>
 public class StringParser(string except, StringComparison comparison) : PrimitiveParser<char, string>
 {
-    protected override ParseResult<char, string> Run<TState>(TState state)
+    protected override IParseResult<char, string> Run<TState>(TState state)
    {
        TState[] states = state.AsEnumerable<char, TState>().Take(except.Length).ToArray();
        string actual = new(states.Select(x => x.Current).ToArray());
--- a/CanonSharp.Combinator/Text/TextParserBuilder.cs
+++ b/CanonSharp.Combinator/Text/TextParserBuilder.cs
@ -13,7 +13,7 @@ public static class TextParserBuilder
    /// <param name="token">识别的单个字符</param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> Char(char token) => Satisfy<char>(x => x == token);
+    public static IParser<char, char> Char(char token) => Satisfy<char>(x => x == token);
    /// <summary>
    /// 忽略大小写识别单个字符
@ -21,7 +21,7 @@ public static class TextParserBuilder
    /// <param name="token"></param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> CharIgnoreCase(char token) =>
+    public static IParser<char, char> CharIgnoreCase(char token) =>
        Satisfy<char>(x => char.ToUpperInvariant(x) == char.ToUpperInvariant(token));
    /// <summary>
@ -30,7 +30,7 @@ public static class TextParserBuilder
    /// <param name="candidate"></param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> OneOf(string candidate) => Satisfy<char>(candidate.Contains);
+    public static IParser<char, char> OneOf(string candidate) => Satisfy<char>(candidate.Contains);
    /// <summary>
    /// 忽略大小写识别字符串中的一个字符
@ -38,7 +38,7 @@ public static class TextParserBuilder
    /// <param name="candidate"></param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> OneOfIgnoreCase(string candidate) =>
+    public static IParser<char, char> OneOfIgnoreCase(string candidate) =>
        Satisfy<char>(x => candidate.Contains(x, StringComparison.OrdinalIgnoreCase));
    /// <summary>
@ -48,7 +48,7 @@ public static class TextParserBuilder
    /// <param name="comparison">字符串比较方法</param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, string> String(string except, StringComparison comparison) =>
+    public static IParser<char, string> String(string except, StringComparison comparison) =>
        new StringParser(except, comparison);
    /// <summary>
@ -57,7 +57,7 @@ public static class TextParserBuilder
    /// <param name="except"></param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, string> String(string except) => String(except, StringComparison.Ordinal);
+    public static IParser<char, string> String(string except) => String(except, StringComparison.Ordinal);
    /// <summary>
    /// 忽略大小写识别一个字符串
@ -65,7 +65,7 @@ public static class TextParserBuilder
    /// <param name="except"></param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, string> StringIgnoreCase(string except) =>
+    public static IParser<char, string> StringIgnoreCase(string except) =>
        String(except, StringComparison.OrdinalIgnoreCase);
    /// <summary>
@ -75,28 +75,28 @@ public static class TextParserBuilder
    /// <param name="end">包括的终止字符</param>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> Range(char start, char end) => Satisfy<char>(x => x >= start && x <= end);
+    public static IParser<char, char> Range(char start, char end) => Satisfy<char>(x => x >= start && x <= end);
    /// <summary>
    /// 识别Unicode字符类别的解析器
    /// </summary>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> Letter() => Satisfy<char>(char.IsLetter);
+    public static IParser<char, char> Letter() => Satisfy<char>(char.IsLetter);
    /// <summary>
    /// 识别Unicode数字类别的解析器
    /// </summary>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> Digit() => Satisfy<char>(char.IsDigit);
+    public static IParser<char, char> Digit() => Satisfy<char>(char.IsDigit);
    /// <summary>
    /// 识别ASCII字符类别的解析器
    /// </summary>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> AsciiLetter() =>
+    public static IParser<char, char> AsciiLetter() =>
        Satisfy<char>(x => x is >= 'a' and <= 'z' or >= 'A' and <= 'Z');
    /// <summary>
@ -104,20 +104,20 @@ public static class TextParserBuilder
    /// </summary>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> AsciiDigit() => Satisfy<char>(x => x is >= '0' and <= '9');
+    public static IParser<char, char> AsciiDigit() => Satisfy<char>(x => x is >= '0' and <= '9');
    /// <summary>
    /// 识别Unicode空白类型的字符
    /// </summary>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, char> Space() => Satisfy<char>(char.IsWhiteSpace);
+    public static IParser<char, char> Space() => Satisfy<char>(char.IsWhiteSpace);
    /// <summary>
    /// 识别所有的换行符
    /// </summary>
    /// <returns></returns>
    [MethodImpl(MethodImplOptions.AggressiveInlining)]
-    public static Parser<char, string> LineBreak() =>
+    public static IParser<char, string> LineBreak() =>
        OneOf("\u000D\u000A\u0085\u2028\u2029\n").Map(x => x.ToString()) | String("\r\n");
 }
--- a/CanonSharp.Combinator/Text/TextParserExtensions.cs
+++ b/CanonSharp.Combinator/Text/TextParserExtensions.cs
@ -6,9 +6,9 @@ namespace CanonSharp.Combinator.Text;
 public static class TextParserExtensions
 {
-    public static Parser<char, T> SkipSpaces<T>(this Parser<char, T> parser)
+    public static IParser<char, T> SkipSpaces<T>(this IParser<char, T> parser)
        => Space().SkipTill(parser);
-    public static Parser<char, T> SkipSpaceAndLineBreak<T>(this Parser<char, T> parser)
+    public static IParser<char, T> SkipSpaceAndLineBreak<T>(this IParser<char, T> parser)
        => (Space().Map(x => x.ToString()) | LineBreak()).SkipTill(parser);
 }
--- a/CanonSharp.Pascal/CanonSharp.Pascal.csproj
+++ b/CanonSharp.Pascal/CanonSharp.Pascal.csproj
@ -4,6 +4,7 @@
        <TargetFramework>net8.0</TargetFramework>
        <ImplicitUsings>enable</ImplicitUsings>
        <Nullable>enable</Nullable>
        <RootNamespace>CanonSharp.Common</RootNamespace>
    </PropertyGroup>
    <ItemGroup>
--- a/CanonSharp.Pascal/Parser/GrammarParser.cs
+++ b/CanonSharp.Pascal/Parser/GrammarParser.cs
@ -0,0 +1,392 @@
 using CanonSharp.Combinator.Abstractions;
 using CanonSharp.Combinator.Extensions;
 using static CanonSharp.Combinator.ParserBuilder;
 using CanonSharp.Pascal.Scanner;
 using CanonSharp.Pascal.SyntaxTree;
 namespace CanonSharp.Pascal.Parser;
 public sealed class GrammarParser : GrammarParserBuilder
 {
    public static IParser<LexicalToken, SyntaxNodeBase> FactorParser()
    {
        // factor -> - factor | + factor
        IParser<LexicalToken, SyntaxNodeBase> minusParser =
            from _ in Operator("-")
            from node in FactorParser()
            select new UnaryOperatorNode(UnaryOperatorType.Minus, node);
        IParser<LexicalToken, SyntaxNodeBase> plusParser =
            from _ in Operator("+")
            from node in FactorParser()
            select new UnaryOperatorNode(UnaryOperatorType.Plus, node);
        IParser<LexicalToken, SyntaxNodeBase> notParser =
            from _ in Keyword("not")
            from node in FactorParser()
            select new UnaryOperatorNode(UnaryOperatorType.Not, node);
        IParser<LexicalToken, SyntaxNodeBase> parenthesisParser =
            from _1 in Delimiter("(")
            from node in ExpressionParser()
            from _2 in Delimiter(")")
            select node;
        IParser<LexicalToken, SyntaxNodeBase> procedureCallParser =
            from identifier in IdentifierParser()
            from _ in Delimiter("(")
            from expressions in ExpressionParser().SeparatedBy(Delimiter(","))
            from _1 in Delimiter(")")
            select new ProcedureCallNode(identifier, expressions);
        return Choice(
            TrueParser(),
            FalseParser(),
            NumberParser(),
            minusParser,
            plusParser,
            notParser,
            procedureCallParser,
            VariableParser(),
            parenthesisParser
        );
    }
    private static IParser<LexicalToken, SyntaxNodeBase> TermRecursively(SyntaxNodeBase left)
    {
        // MultiplyOperator -> * | / | div | mod | and
        IParser<LexicalToken, BinaryOperatorType> multiplyOperator = Choice(
            from _ in Operator("*")
            select BinaryOperatorType.Multiply,
            from _ in Operator("/")
            select BinaryOperatorType.Divide,
            from _ in Keyword("div")
            select BinaryOperatorType.IntegerDivide,
            from _ in Keyword("mod")
            select BinaryOperatorType.Mod,
            from _ in Keyword("and")
            select BinaryOperatorType.And);
        return multiplyOperator.Next(op =>
        {
            return FactorParser().Map(right => new BinaryOperatorNode(op, left, right))
                .Bind(TermRecursively);
        }, left);
    }
    public static IParser<LexicalToken, SyntaxNodeBase> TermParser()
    {
        // Term -> Factor | Term MultiplyOperator Factor
        // 消除左递归为
        // Term -> Factor Term'
        // Term' -> MultiplyOperator Factor Term' | ε
        return FactorParser().Bind(TermRecursively);
    }
    private static IParser<LexicalToken, SyntaxNodeBase> SimpleExpressionRecursively(SyntaxNodeBase left)
    {
        // AddOperator -> + | - | or
        IParser<LexicalToken, BinaryOperatorType> addOperator = Choice(
            from _ in Operator("+")
            select BinaryOperatorType.Add,
            from _ in Operator("-")
            select BinaryOperatorType.Subtract,
            from _ in Keyword("or")
            select BinaryOperatorType.Or);
        return addOperator.Next(op =>
        {
            return TermParser().Map(right => new BinaryOperatorNode(op, left, right))
                .Bind(SimpleExpressionRecursively);
        }, left);
    }
    public static IParser<LexicalToken, SyntaxNodeBase> SimpleExpressionParser()
    {
        // SimpleExpression -> Term | SimpleExpression AddOperator Term
        // 消除左递归为
        // SimpleExpression -> Term SimpleExpression'
        // SimpleExpression' -> AddOperator Term SimpleExpression' | ε
        return TermParser().Bind(SimpleExpressionRecursively);
    }
    public static IParser<LexicalToken, SyntaxNodeBase> ExpressionParser()
    {
        // RelationOperator -> = | <> | < | <= | > | >=
        IParser<LexicalToken, BinaryOperatorType> relationOperator = Choice(
            from _ in Operator("=")
            select BinaryOperatorType.Equal,
            from _ in Operator("<>")
            select BinaryOperatorType.NotEqual,
            from _ in Operator("<")
            select BinaryOperatorType.Less,
            from _ in Operator("<=")
            select BinaryOperatorType.LessEqual,
            from _ in Operator(">")
            select BinaryOperatorType.Greater,
            from _ in Operator(">=")
            select BinaryOperatorType.GreaterEqual);
        // Expression -> SimpleExpression | SimpleExpression RelationOperator SimpleExpression
        return Choice(
            from left in SimpleExpressionParser()
            from op in relationOperator
            from right in SimpleExpressionParser()
            select new BinaryOperatorNode(op, left, right),
            SimpleExpressionParser()
        );
    }
    /// <summary>
    /// ExpressionList Parser
    /// ExpressionList -> Expression | ExpressionList , Expression
    /// </summary>
    /// <returns></returns>
    public static IParser<LexicalToken, IEnumerable<SyntaxNodeBase>> ExpressionsParser()
        => ExpressionParser().SeparatedBy1(Delimiter(","));
    public static IParser<LexicalToken, VariableNode> VariableParser()
    {
        return Choice(
            from token in IdentifierParser()
            from _ in Delimiter("[")
            from expressions in ExpressionsParser()
            from _1 in Delimiter("]")
            select new VariableNode(token, expressions),
            from token in IdentifierParser()
            select new VariableNode(token)
        );
    }
    public static IParser<LexicalToken, IfNode> IfParser()
    {
        IParser<LexicalToken, IfNode> commonPart = from _ in Keyword("if")
            from condition in ExpressionParser()
            from _1 in Keyword("then")
            from statement in StatementParser()
            select new IfNode(condition, statement);
        return Choice(
            from common in commonPart
            from _ in Keyword("else")
            from elseStatement in StatementParser()
            select new IfNode(common.Condition, common.Statement, elseStatement),
            commonPart
        );
    }
    public static IParser<LexicalToken, ForNode> ForParser()
    {
        return from _ in Keyword("for")
            from identifier in IdentifierParser()
            from _1 in Operator(":=")
            from left in ExpressionParser()
            from _2 in Keyword("to")
            from right in ExpressionParser()
            from _3 in Keyword("do")
            from statement in StatementParser()
            select new ForNode(identifier, left, right, statement);
    }
    public static IParser<LexicalToken, WhileNode> WhileParser()
    {
        return from _ in Keyword("while")
            from condition in ExpressionParser()
            from _1 in Keyword("do")
            from statement in StatementParser()
            select new WhileNode(condition, statement);
    }
    public static IParser<LexicalToken, ProcedureCallNode> ProcedureCallParser()
    {
        return Choice(
            from identifier in IdentifierParser()
            from _ in Delimiter("(")
            from expressions in ExpressionParser().SeparatedBy(Delimiter(","))
            from _1 in Delimiter(")")
            select new ProcedureCallNode(identifier, expressions),
            from identifier in IdentifierParser()
            select new ProcedureCallNode(identifier, [])
        );
    }
    public static IParser<LexicalToken, SyntaxNodeBase> StatementParser()
    {
        return Choice<LexicalToken, SyntaxNodeBase>(
            from variable in VariableParser()
            from _ in Operator(":=")
            from expression in ExpressionParser()
            select new AssignNode(variable, expression),
            ProcedureCallParser(),
            IfParser(),
            ForParser(),
            WhileParser(),
            CompoundStatementParser()
        );
    }
    public static IParser<LexicalToken, BlockNode> CompoundStatementParser()
    {
        return from _1 in Keyword("begin")
            from statements in StatementParser().SeparatedOrEndBy(Delimiter(";"))
            from _2 in Keyword("end")
            select new BlockNode(statements);
    }
    public static IParser<LexicalToken, SyntaxNodeBase> ConstValueParser()
    {
        return Choice(
            from _ in Operator("-")
            from num in NumberParser()
            select new UnaryOperatorNode(UnaryOperatorType.Minus, num),
            from _ in Operator("+")
            from num in NumberParser()
            select new UnaryOperatorNode(UnaryOperatorType.Plus, num),
            NumberParser(),
            CharParser(),
            TrueParser(),
            FalseParser()
        );
    }
    public static IParser<LexicalToken, SyntaxNodeBase> ConstDeclarationParser()
    {
        return from identifier in Satisfy<LexicalToken>(token =>
                token.TokenType == LexicalTokenType.Identifier)
            from _ in Operator("=")
            from node in ConstValueParser()
            select new ConstantNode(identifier, node);
    }
    public static IParser<LexicalToken, BlockNode> ConstDeclarationsParser()
    {
        return (from _ in Keyword("const")
            from tokens in ConstDeclarationParser().SeparatedOrEndBy1(Delimiter(";"))
            select new BlockNode(tokens)).Try(new BlockNode([]));
    }
    public static IParser<LexicalToken, TypeNode> ArrayTypeParser()
    {
        IParser<LexicalToken, IEnumerable<ArrayRange>> arrayRangeParser = (
            from left in IntegerParser()
            from _ in Delimiter("..")
            from right in IntegerParser()
            select new ArrayRange(left.Value, right.Value)).SeparatedBy1(Delimiter(","));
        return from _ in Keyword("array")
            from _1 in Delimiter("[")
            from ranges in arrayRangeParser
            from _2 in Delimiter("]")
            from _3 in Keyword("of")
            from typeToken in BasicTypeParser()
            select new TypeNode(typeToken, ranges);
    }
    public static IParser<LexicalToken, SyntaxNodeBase> TypeParser()
    {
        return Choice(ArrayTypeParser(),
            from token in BasicTypeParser()
            select new TypeNode(token));
    }
    public static IParser<LexicalToken, VariableDeclarationNode> VariableDeclarationParser()
    {
        return from tokens in Satisfy<LexicalToken>(
                token => token.TokenType == LexicalTokenType.Identifier).SeparatedBy1(Delimiter(","))
            from _1 in Delimiter(":")
            from type in TypeParser()
            select new VariableDeclarationNode(tokens, type.Convert<TypeNode>());
    }
    public static IParser<LexicalToken, BlockNode> VariableDeclarationsParser()
    {
        return (from _ in Keyword("var")
            from nodes in VariableDeclarationParser().SeparatedOrEndBy1(Delimiter(";"))
            select new BlockNode(nodes)).Try(new BlockNode([]));
    }
    public static IParser<LexicalToken, IEnumerable<Parameter>> ParameterParser()
    {
        return Choice(
            from _ in Keyword("var")
            from tokens in IdentifierParser().SeparatedBy1(Delimiter(","))
            from _1 in Delimiter(":")
            from typeToken in TypeParser()
            select tokens.Select(x => new Parameter(true, x, typeToken)),
            from tokens in IdentifierParser().SeparatedBy1(Delimiter(","))
            from _ in Delimiter(":")
            from typeToken in TypeParser()
            select tokens.Select(x => new Parameter(false, x, typeToken))
        );
    }
    public static IParser<LexicalToken, IEnumerable<Parameter>> FormalParameterParser()
    {
        return (from _ in Delimiter("(")
            from parameters in ParameterParser().SeparatedBy(Delimiter(";"))
            from _1 in Delimiter(")")
            select parameters.Aggregate(new List<Parameter>(), (result, array) =>
            {
                result.AddRange(array);
                return result;
            })).Try([]);
    }
    public static IParser<LexicalToken, SubprogramHead> SubprogramHeadParser()
    {
        return Choice(
            from _ in Keyword("procedure")
            from identifier in IdentifierParser()
            from parameters in FormalParameterParser()
            select new SubprogramHead(identifier, parameters),
            from _ in Keyword("function")
            from identifier in IdentifierParser()
            from parameters in FormalParameterParser()
            from _1 in Delimiter(":")
            from typeToken in TypeParser()
            select new SubprogramHead(identifier, parameters, typeToken)
        );
    }
    public static IParser<LexicalToken, SubprogramBody> SubprogramBodyParser()
    {
        return from constant in ConstDeclarationsParser()
            from variables in VariableDeclarationsParser()
            from block in CompoundStatementParser()
            select new SubprogramBody(constant, variables, block);
    }
    public static IParser<LexicalToken, Subprogram> SubprogramParser()
    {
        return from head in SubprogramHeadParser()
            from _ in Delimiter(";")
            from body in SubprogramBodyParser()
            select new Subprogram(head, body);
    }
    public static IParser<LexicalToken, ProgramBody> ProgramBodyParser()
    {
        return from constant in ConstDeclarationsParser()
            from variables in VariableDeclarationsParser()
            from subprograms in SubprogramParser().SeparatedOrEndBy(Delimiter(";"))
                .Map(x => new BlockNode(x))
            from block in CompoundStatementParser()
            select new ProgramBody(constant, variables, subprograms, block);
    }
    public static IParser<LexicalToken, ProgramHead> ProgramHeadParser()
    {
        return from _ in Keyword("program")
            from token in Satisfy<LexicalToken>(token => token.TokenType == LexicalTokenType.Identifier)
            select new ProgramHead(token);
    }
    public static IParser<LexicalToken, Program> ProgramParser()
    {
        return from head in ProgramHeadParser()
            from _1 in Delimiter(";")
            from body in ProgramBodyParser()
            from _2 in Delimiter(".")
            select new Program(head, body);
    }
 }
--- a/CanonSharp.Pascal/Parser/GrammarParserBase.cs
+++ b/CanonSharp.Pascal/Parser/GrammarParserBase.cs
@ -0,0 +1,70 @@
 using CanonSharp.Combinator.Abstractions;
 using CanonSharp.Combinator.Extensions;
 using CanonSharp.Pascal.Scanner;
 using CanonSharp.Pascal.SyntaxTree;
 using static CanonSharp.Combinator.ParserBuilder;
 namespace CanonSharp.Pascal.Parser;
 public abstract class GrammarParserBuilder
 {
    protected static IParser<LexicalToken, LexicalToken> Keyword(string value)
        => Satisfy<LexicalToken>(token =>
            token.TokenType == LexicalTokenType.Keyword &&
            token.LiteralValue.Equals(value, StringComparison.OrdinalIgnoreCase));
    protected static IParser<LexicalToken, LexicalToken> Operator(string value)
        => Satisfy<LexicalToken>(token => token.TokenType == LexicalTokenType.Operator && token.LiteralValue == value);
    protected static IParser<LexicalToken, LexicalToken> Delimiter(string value)
        => Satisfy<LexicalToken>(token => token.TokenType == LexicalTokenType.Delimiter && token.LiteralValue == value);
    protected static IParser<LexicalToken, BooleanValueNode> TrueParser()
    {
        return from _ in Keyword("true")
            select new BooleanValueNode(true);
    }
    protected static IParser<LexicalToken, BooleanValueNode> FalseParser()
    {
        return from _ in Keyword("false")
            select new BooleanValueNode(false);
    }
    protected static IParser<LexicalToken, IntegerValueNode> IntegerParser()
    {
        return from token in Satisfy<LexicalToken>(token => token.TokenType == LexicalTokenType.ConstInteger)
            select new IntegerValueNode(int.Parse(token.LiteralValue));
    }
    protected static IParser<LexicalToken, SyntaxNodeBase> NumberParser()
    {
        return Choice<LexicalToken, SyntaxNodeBase>(
            from token in Satisfy<LexicalToken>(x => x.TokenType == LexicalTokenType.ConstInteger)
            select new IntegerValueNode(int.Parse(token.LiteralValue)),
            from token in Satisfy<LexicalToken>(x => x.TokenType == LexicalTokenType.ConstFloat)
            select new FloatValueNode(double.Parse(token.LiteralValue))
        );
    }
    protected static IParser<LexicalToken, CharValueNode> CharParser()
    {
        return Satisfy<LexicalToken>(token => token.TokenType == LexicalTokenType.Character)
            .Map(x => new CharValueNode(char.Parse(x.LiteralValue)));
    }
    protected static IParser<LexicalToken, LexicalToken> BasicTypeParser()
    {
        return Choice(
            Keyword("integer"),
            Keyword("real"),
            Keyword("boolean"),
            Keyword("char")
        );
    }
    protected static IParser<LexicalToken, LexicalToken> IdentifierParser()
    {
        return Satisfy<LexicalToken>(token => token.TokenType == LexicalTokenType.Identifier);
    }
 }
--- a/CanonSharp.Pascal/Parser/LexicalTokenReadState.cs
+++ b/CanonSharp.Pascal/Parser/LexicalTokenReadState.cs
@ -0,0 +1,53 @@
 using CanonSharp.Combinator.Abstractions;
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.Parser;
 public sealed class LexicalTokenReadState : IReadState<LexicalToken, LexicalTokenReadState>
 {
    private readonly List<LexicalToken> _tokens;
    private readonly int _pos;
    public LexicalToken Current => _tokens[_pos];
    public bool HasValue => _pos < _tokens.Count;
    public LexicalTokenReadState Next => new(_tokens, _pos + 1);
    private LexicalTokenReadState(List<LexicalToken> tokens, int pos)
    {
        _tokens = tokens;
        _pos = pos;
    }
    public LexicalTokenReadState(IEnumerable<LexicalToken> tokens)
    {
        _tokens = tokens.ToList();
        _pos = 0;
    }
    public bool Equals(LexicalTokenReadState? other)
    {
        if (other is null)
        {
            return false;
        }
        if (_tokens.Count != other._tokens.Count)
        {
            return false;
        }
        foreach ((LexicalToken first, LexicalToken second) in _tokens.Zip(other._tokens))
        {
            if (!first.Equals(second))
            {
                return false;
            }
        }
        return _pos == other._pos;
    }
    public override string ToString() => HasValue ? Current.ToString() : "End of input stream.";
 }
--- a/CanonSharp.Pascal/Scanner/LexicalScanner.cs
+++ b/CanonSharp.Pascal/Scanner/LexicalScanner.cs
@ -4,11 +4,11 @@ using CanonSharp.Combinator.Extensions;
 using static CanonSharp.Combinator.Text.TextParserBuilder;
 using static CanonSharp.Combinator.ParserBuilder;
-namespace CanonSharp.Common.Scanner;
+namespace CanonSharp.Pascal.Scanner;
 public sealed class LexicalScanner
 {
-    private readonly Parser<char, IEnumerable<LexicalToken>> _parser = PascalParser();
+    private readonly IParser<char, IEnumerable<LexicalToken>> _parser = PascalParser();
    public IEnumerable<LexicalToken> Tokenize<TState>(TState state)
        where TState : IReadState<char, TState>
@ -16,7 +16,7 @@ public sealed class LexicalScanner
        return _parser.Parse(state).Value;
    }
-    public static Parser<char, LexicalToken> KeywordParser()
+    public static IParser<char, LexicalToken> KeywordParser()
    {
        return from value in Choice(StringIgnoreCase("program"),
                StringIgnoreCase("const"),
@ -37,7 +37,7 @@ public sealed class LexicalScanner
                StringIgnoreCase("real"),
                StringIgnoreCase("boolean"),
                StringIgnoreCase("char"),
-                StringIgnoreCase("divide"),
+                StringIgnoreCase("div"),
                StringIgnoreCase("not"),
                StringIgnoreCase("mod"),
                StringIgnoreCase("and"),
@ -49,16 +49,16 @@ public sealed class LexicalScanner
            select new LexicalToken(LexicalTokenType.Keyword, value);
    }
-    public static Parser<char, LexicalToken> DelimiterParser()
+    public static IParser<char, LexicalToken> DelimiterParser()
    {
-        Parser<char, LexicalToken> semicolonParser = from token in Char(':')
+        IParser<char, LexicalToken> semicolonParser = from token in Char(':')
            from _ in Char('=').LookAhead().Not()
            select new LexicalToken(LexicalTokenType.Delimiter, token.ToString());
-        Parser<char, LexicalToken> periodParser = from token in Char('.')
+        IParser<char, LexicalToken> periodParser = from token in Char('.')
            from _ in Char('.').LookAhead().Not()
            select new LexicalToken(LexicalTokenType.Delimiter, ".");
-        Parser<char, LexicalToken> singleCharTokenParser = from token in Choice(
+        IParser<char, LexicalToken> singleCharTokenParser = from token in Choice(
                String(","),
                String(";"),
                String("("),
@ -71,17 +71,17 @@ public sealed class LexicalScanner
        return singleCharTokenParser | semicolonParser | periodParser;
    }
-    public static Parser<char, LexicalToken> OperatorParser()
+    public static IParser<char, LexicalToken> OperatorParser()
    {
-        Parser<char, LexicalToken> lessParser = from token in Char('<')
+        IParser<char, LexicalToken> lessParser = from token in Char('<')
            from _ in Char('=').LookAhead().Not()
            select new LexicalToken(LexicalTokenType.Operator, "<");
-        Parser<char, LexicalToken> greaterParser = from token in Char('>')
+        IParser<char, LexicalToken> greaterParser = from token in Char('>')
            from _ in Char('=').LookAhead().Not()
            select new LexicalToken(LexicalTokenType.Operator, ">");
-        Parser<char, LexicalToken> otherParsers = from token in Choice(
+        IParser<char, LexicalToken> otherParsers = from token in Choice(
                String("="),
                String("!="),
                String("<="),
@ -96,14 +96,19 @@ public sealed class LexicalScanner
        return otherParsers | lessParser | greaterParser;
    }
-    public static Parser<char, LexicalToken> ConstIntegerParser()
+    public static IParser<char, LexicalToken> ConstIntegerParser()
    {
-        return from nums in AsciiDigit().Many1()
+        return Choice(
            from nums in AsciiDigit().Many1()
            from _ in String("..").LookAhead()
            select new LexicalToken(LexicalTokenType.ConstInteger, new string(nums.ToArray())),
            from nums in AsciiDigit().Many1()
            from _ in Char('.').LookAhead().Not()
-            select new LexicalToken(LexicalTokenType.ConstInteger, new string(nums.ToArray()));
+            select new LexicalToken(LexicalTokenType.ConstInteger, new string(nums.ToArray()))
        );
    }
-    public static Parser<char, LexicalToken> ConstFloatParser()
+    public static IParser<char, LexicalToken> ConstFloatParser()
    {
        return from integer in AsciiDigit().Many1()
            from _ in Char('.')
@ -112,24 +117,24 @@ public sealed class LexicalScanner
                new string(integer.ToArray()) + '.' + new string(fraction.ToArray()));
    }
-    public static Parser<char, LexicalToken> IdentifierParser()
+    public static IParser<char, LexicalToken> IdentifierParser()
    {
        return from first in AsciiLetter() | Char('_')
            from second in (AsciiLetter() | AsciiDigit() | Char('_')).Many()
            select new LexicalToken(LexicalTokenType.Identifier, first + new string(second.ToArray()));
    }
-    public static Parser<char, Unit> CommentParser()
+    public static IParser<char, Unit> CommentParser()
    {
        return Any<char>().Quote(Char('{'), Char('}')).Map(_ => Unit.Instance);
    }
-    public static Parser<char, Unit> JunkParser()
+    public static IParser<char, Unit> JunkParser()
    {
        return Space().Map(_ => Unit.Instance) | LineBreak().Map(_ => Unit.Instance) | CommentParser();
    }
-    public static Parser<char, LexicalToken> CharParser()
+    public static IParser<char, LexicalToken> CharParser()
    {
        return from str in Any<char>().Quote(Char('\'')).Map(x => new string(x.ToArray()))
            select str.Length <= 1
@ -137,13 +142,13 @@ public sealed class LexicalScanner
                : new LexicalToken(LexicalTokenType.String, str);
    }
-    public static Parser<char, IEnumerable<LexicalToken>> PascalParser()
+    public static IParser<char, IEnumerable<LexicalToken>> PascalParser()
    {
        return JunkParser().SkipTill(Choice(KeywordParser(),
            DelimiterParser(),
            OperatorParser(),
            ConstIntegerParser(),
            ConstFloatParser(),
            ConstIntegerParser(),
            CharParser(),
            IdentifierParser())).Many();
    }
--- a/CanonSharp.Pascal/Scanner/LexicalToken.cs
+++ b/CanonSharp.Pascal/Scanner/LexicalToken.cs
@ -1,4 +1,4 @@
-namespace CanonSharp.Common.Scanner;
+namespace CanonSharp.Pascal.Scanner;
 public enum LexicalTokenType
 {
--- a/CanonSharp.Pascal/Scanner/StringReadState.cs
+++ b/CanonSharp.Pascal/Scanner/StringReadState.cs
@ -1,6 +1,6 @@
 using CanonSharp.Combinator.Abstractions;
-namespace CanonSharp.Common.Scanner;
+namespace CanonSharp.Pascal.Scanner;
 /// <summary>
 /// 字符串输入流状态
--- a/CanonSharp.Pascal/SyntaxTree/AssignNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/AssignNode.cs
@ -0,0 +1,10 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class AssignNode(VariableNode variable, SyntaxNodeBase expression) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.Assign;
    public VariableNode Variable => variable;
    public SyntaxNodeBase Expression => expression;
 }
--- a/CanonSharp.Pascal/SyntaxTree/BinaryOperatorNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/BinaryOperatorNode.cs
@ -0,0 +1,33 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public enum BinaryOperatorType
 {
    Add,
    Subtract,
    Multiply,
    // Pascal特有的整数除法关键词div
    IntegerDivide,
    Divide,
    Mod,
    And,
    Or,
    Equal,
    NotEqual,
    Greater,
    GreaterEqual,
    Less,
    LessEqual
 }
 public sealed class BinaryOperatorNode(BinaryOperatorType operatorType, SyntaxNodeBase left, SyntaxNodeBase right)
    : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.BinaryOperator;
    public BinaryOperatorType OperatorType => operatorType;
    public SyntaxNodeBase Left => left;
    public SyntaxNodeBase Right => right;
 }
--- a/CanonSharp.Pascal/SyntaxTree/BlockNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/BlockNode.cs
@ -0,0 +1,8 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class BlockNode(IEnumerable<SyntaxNodeBase> statements) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.Block;
    public IList<SyntaxNodeBase> Statements => statements.ToList();
 }
--- a/CanonSharp.Pascal/SyntaxTree/BooleanValueNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/BooleanValueNode.cs
@ -0,0 +1,8 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class BooleanValueNode(bool value) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.BooleanValue;
    public bool Value => value;
 }
--- a/CanonSharp.Pascal/SyntaxTree/CharValueNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/CharValueNode.cs
@ -0,0 +1,8 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class CharValueNode(char value) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.CharValue;
    public char Value => value;
 }
--- a/CanonSharp.Pascal/SyntaxTree/ConstantNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/ConstantNode.cs
@ -0,0 +1,12 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class ConstantNode(LexicalToken identifier, SyntaxNodeBase value) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.Constant;
    public LexicalToken Identifier = identifier;
    public SyntaxNodeBase Value = value;
 }
--- a/CanonSharp.Pascal/SyntaxTree/FloatValueNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/FloatValueNode.cs
@ -0,0 +1,8 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class FloatValueNode(double value) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.FloatValue;
    public double Value => value;
 }
--- a/CanonSharp.Pascal/SyntaxTree/ForNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/ForNode.cs
@ -0,0 +1,20 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class ForNode(
    LexicalToken identifier,
    SyntaxNodeBase leftCondition,
    SyntaxNodeBase rightCondition,
    SyntaxNodeBase statement) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.For;
    public LexicalToken Identifier => identifier;
    public SyntaxNodeBase LeftCondition => leftCondition;
    public SyntaxNodeBase RightCondition => rightCondition;
    public SyntaxNodeBase Statement => statement;
 }
--- a/CanonSharp.Pascal/SyntaxTree/IfNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/IfNode.cs
@ -0,0 +1,26 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class IfNode : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.If;
    public SyntaxNodeBase Condition { get; }
    public SyntaxNodeBase Statement { get; }
    public SyntaxNodeBase? ElseStatement { get; }
    public IfNode(SyntaxNodeBase condition, SyntaxNodeBase statement)
    {
        Condition = condition;
        Statement = statement;
        ElseStatement = null;
    }
    public IfNode(SyntaxNodeBase condition, SyntaxNodeBase statement, SyntaxNodeBase elseStatement)
    {
        Condition = condition;
        Statement = statement;
        ElseStatement = elseStatement;
    }
 }
--- a/CanonSharp.Pascal/SyntaxTree/IntegerValueNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/IntegerValueNode.cs
@ -0,0 +1,8 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class IntegerValueNode(int value) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.IntegerValue;
    public int Value => value;
 }
--- a/CanonSharp.Pascal/SyntaxTree/Parameter.cs
+++ b/CanonSharp.Pascal/SyntaxTree/Parameter.cs
@ -0,0 +1,14 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class Parameter(bool isReference, LexicalToken identifier, SyntaxNodeBase typeNode) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.Parameter;
    public bool IsReference => isReference;
    public LexicalToken Identifier => identifier;
    public SyntaxNodeBase TypeNode => typeNode;
 }
--- a/CanonSharp.Pascal/SyntaxTree/ProcedureCallNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/ProcedureCallNode.cs
@ -0,0 +1,18 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class ProcedureCallNode : SyntaxNodeBase
 {
    public ProcedureCallNode(LexicalToken identifier, IEnumerable<SyntaxNodeBase> parameters)
    {
        Identifier = identifier;
        Parameters.AddRange(parameters);
    }
    public override SyntaxNodeType NodeType => SyntaxNodeType.ProcedureCall;
    public LexicalToken Identifier { get; }
    public List<SyntaxNodeBase> Parameters { get; } = [];
 }
--- a/CanonSharp.Pascal/SyntaxTree/Program.cs
+++ b/CanonSharp.Pascal/SyntaxTree/Program.cs
@ -0,0 +1,10 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class Program(ProgramHead head, ProgramBody body) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.Program;
    public ProgramHead Head => head;
    public ProgramBody Body => body;
 }
--- a/CanonSharp.Pascal/SyntaxTree/ProgramBody.cs
+++ b/CanonSharp.Pascal/SyntaxTree/ProgramBody.cs
@ -0,0 +1,17 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class ProgramBody(BlockNode constantDeclarations, BlockNode variableDeclarations,
    BlockNode subprograms,
    BlockNode mainBlock)
    : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.ProgramBody;
    public BlockNode ConstantDeclarations => constantDeclarations;
    public BlockNode VariableDeclarations => variableDeclarations;
    public BlockNode Subprograms => subprograms;
    public BlockNode MainBlock => mainBlock;
 }
--- a/CanonSharp.Pascal/SyntaxTree/ProgramHead.cs
+++ b/CanonSharp.Pascal/SyntaxTree/ProgramHead.cs
@ -0,0 +1,10 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class ProgramHead(LexicalToken programName) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.ProgramHead;
    public LexicalToken ProgramName => programName;
 }
--- a/CanonSharp.Pascal/SyntaxTree/Subprogram.cs
+++ b/CanonSharp.Pascal/SyntaxTree/Subprogram.cs
@ -0,0 +1,10 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class Subprogram(SubprogramHead subprogramHead, SubprogramBody subprogramBody) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.SubProgram;
    public SubprogramHead Head => subprogramHead;
    public SubprogramBody Body => subprogramBody;
 }
--- a/CanonSharp.Pascal/SyntaxTree/SubprogramBody.cs
+++ b/CanonSharp.Pascal/SyntaxTree/SubprogramBody.cs
@ -0,0 +1,12 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class SubprogramBody(BlockNode constDeclarations, BlockNode variableDeclarations, BlockNode mainBlock) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.SubprogramBody;
    public BlockNode ConstDeclarations => constDeclarations;
    public BlockNode VariableDeclarations => variableDeclarations;
    public BlockNode MainBlock => mainBlock;
 }
--- a/CanonSharp.Pascal/SyntaxTree/SubprogramHead.cs
+++ b/CanonSharp.Pascal/SyntaxTree/SubprogramHead.cs
@ -0,0 +1,28 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class SubprogramHead : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.SubprogramHead;
    public LexicalToken Identifier { get; }
    public List<Parameter> Parameters { get; } = [];
    public SyntaxNodeBase? TypeToken { get; }
    public SubprogramHead(LexicalToken identifier, IEnumerable<Parameter> parameters)
    {
        Identifier = identifier;
        Parameters.AddRange(parameters);
        TypeToken = null;
    }
    public SubprogramHead(LexicalToken identifier, IEnumerable<Parameter> parameters, SyntaxNodeBase typeToken) : this(
        identifier, parameters)
    {
        TypeToken = typeToken;
    }
 }
--- a/CanonSharp.Pascal/SyntaxTree/SyntaxNodeBase.cs
+++ b/CanonSharp.Pascal/SyntaxTree/SyntaxNodeBase.cs
@ -0,0 +1,43 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public enum SyntaxNodeType
 {
    BinaryOperator,
    UnaryOperator,
    IntegerValue,
    FloatValue,
    BooleanValue,
    CharValue,
    Variable,
    Type,
    Assign,
    Block,
    Constant,
    VariableDeclaration,
    If,
    While,
    For,
    ProcedureCall,
    Parameter,
    SubprogramHead,
    SubprogramBody,
    SubProgram,
    ProgramBody,
    ProgramHead,
    Program
 }
 public abstract class SyntaxNodeBase
 {
    public abstract SyntaxNodeType NodeType { get; }
    public T Convert<T>() where T : SyntaxNodeBase
    {
        if (this is not T result)
        {
            throw new InvalidCastException($"Can't convert {NodeType} to target node.");
        }
        return result;
    }
 }
--- a/CanonSharp.Pascal/SyntaxTree/TypeNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/TypeNode.cs
@ -0,0 +1,24 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public record struct ArrayRange(int Left, int Right);
 public sealed class TypeNode : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.Type;
    public LexicalToken TypeToken { get; }
    public List<ArrayRange> ArrayRanges { get; } = [];
    public TypeNode(LexicalToken typeToken)
    {
        TypeToken = typeToken;
    }
    public TypeNode(LexicalToken typeToken, IEnumerable<ArrayRange> arrayRanges) : this(typeToken)
    {
        ArrayRanges.AddRange(arrayRanges);
    }
 }
--- a/CanonSharp.Pascal/SyntaxTree/UnaryOperatorNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/UnaryOperatorNode.cs
@ -0,0 +1,17 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public enum UnaryOperatorType
 {
    Plus,
    Minus,
    Not
 }
 public sealed class UnaryOperatorNode(UnaryOperatorType operatorType, SyntaxNodeBase node) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.UnaryOperator;
    public UnaryOperatorType OperatorType => operatorType;
    public SyntaxNodeBase Node => node;
 }
--- a/CanonSharp.Pascal/SyntaxTree/VariableDeclarationNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/VariableDeclarationNode.cs
@ -0,0 +1,12 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class VariableDeclarationNode(IEnumerable<LexicalToken> identifiers, TypeNode typeNode) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.VariableDeclaration;
    public IList<LexicalToken> Identifiers => identifiers.ToList();
    public TypeNode TypeNode => typeNode;
 }
--- a/CanonSharp.Pascal/SyntaxTree/VariableNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/VariableNode.cs
@ -0,0 +1,23 @@
 using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class VariableNode : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.Variable;
    public LexicalToken Identifier { get; }
    public List<SyntaxNodeBase> Indexers { get; } = [];
    public VariableNode(LexicalToken identifier)
    {
        Identifier = identifier;
    }
    public VariableNode(LexicalToken identifier, IEnumerable<SyntaxNodeBase> expressions)
    {
        Identifier = identifier;
        Indexers.AddRange(expressions);
    }
 }
--- a/CanonSharp.Pascal/SyntaxTree/WhileNode.cs
+++ b/CanonSharp.Pascal/SyntaxTree/WhileNode.cs
@ -0,0 +1,10 @@
 namespace CanonSharp.Pascal.SyntaxTree;
 public sealed class WhileNode(SyntaxNodeBase condition, SyntaxNodeBase statement) : SyntaxNodeBase
 {
    public override SyntaxNodeType NodeType => SyntaxNodeType.While;
    public SyntaxNodeBase Condition => condition;
    public SyntaxNodeBase Statement => statement;
 }
--- a/CanonSharp.Tests/CanonSharp.Tests.csproj
+++ b/CanonSharp.Tests/CanonSharp.Tests.csproj
@ -23,7 +23,7 @@
  </ItemGroup>
  <ItemGroup>
-    <ProjectReference Include="..\CanonSharp.Common\CanonSharp.Common.csproj" />
+    <ProjectReference Include="..\CanonSharp.Pascal\CanonSharp.Pascal.csproj" />
  </ItemGroup>
 </Project>
--- a/CanonSharp.Tests/CombinatorsTests/BasicParsersTests.cs
+++ b/CanonSharp.Tests/CombinatorsTests/BasicParsersTests.cs
@ -11,7 +11,7 @@ public class BasicParsersTests : ParserTestsBase
    [Fact]
    public void AlternativeTest()
    {
-        Parser<char, char> parser = Token('a') | Token('b');
+        IParser<char, char> parser = Token('a') | Token('b');
        ValidateSuccessfulResult(parser, 'a', "abc");
        ValidateSuccessfulResult(parser, 'b', "bcd");
@ -26,7 +26,7 @@ public class BasicParsersTests : ParserTestsBase
    [Fact]
    public void BindTest()
    {
-        Parser<char, char> parser = Token('a').Bind(_ => Token('b')).Bind(_ => Token('c'));
+        IParser<char, char> parser = Token('a').Bind(_ => Token('b')).Bind(_ => Token('c'));
        ValidateSuccessfulResult(parser, 'c', "abc");
        ValidateFailedResult(parser, "acd");
@ -36,7 +36,7 @@ public class BasicParsersTests : ParserTestsBase
    [Fact]
    public void MapTest()
    {
-        Parser<char, string> parser = Token('a').Map(c => $"{c}");
+        IParser<char, string> parser = Token('a').Map(c => $"{c}");
        ValidateSuccessfulResult(parser, "a", "abc");
        parser = Token('a').Map("test");
@ -46,7 +46,7 @@ public class BasicParsersTests : ParserTestsBase
    [Fact]
    public void NextTest()
    {
-        Parser<char, char> parser = Token('a').Next(_ => Token('a'), _ => Token('b'));
+        IParser<char, char> parser = Token('a').Next(_ => Token('a'), _ => Token('b'));
        ValidateSuccessfulResult(parser, 'a', "aaa");
        ValidateSuccessfulResult(parser, 'b', "bbb");
@ -61,7 +61,7 @@ public class BasicParsersTests : ParserTestsBase
    [Fact]
    public void NextTest2()
    {
-        Parser<char, string> parser = Token('a').Next(_ => "123", _ => Pure<char, string>("456"));
+        IParser<char, string> parser = Token('a').Next(_ => "123", _ => Pure<char, string>("456"));
        ValidateSuccessfulResult(parser, "123", "aaa");
        ValidateSuccessfulResult(parser, "456", "bbb");
@ -77,7 +77,7 @@ public class BasicParsersTests : ParserTestsBase
    [Fact]
    public void FixTest()
    {
-        Parser<char, char> parser = Fix<char, Unit>(self => Token('a').Next(_ => self, Unit.Instance))
+        IParser<char, char> parser = Fix<char, Unit>(self => Token('a').Next(_ => self, Unit.Instance))
            .Bind(_ => Token('b'));
        ValidateSuccessfulResult(parser, 'b', "aaaaab");
    }
--- a/CanonSharp.Tests/CombinatorsTests/CombinatorParserTests.cs
+++ b/CanonSharp.Tests/CombinatorsTests/CombinatorParserTests.cs
@ -11,7 +11,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void ChoiceTest()
    {
-        Parser<char, char> parser = Choice(Token('a'), Token('b'), Token('c'));
+        IParser<char, char> parser = Choice(Token('a'), Token('b'), Token('c'));
        ValidateSuccessfulResult(parser, 'a', "abc");
        ValidateSuccessfulResult(parser, 'b', "bcd");
        ValidateSuccessfulResult(parser, 'c', "cde");
@ -25,17 +25,18 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void SequenceTest()
    {
-        Parser<char, IEnumerable<char>> parser = Sequence(Token('a'), Token('b'), Token('c'));
+        IParser<char, IEnumerable<char>> parser = Sequence(Token('a'), Token('b'), Token('c'));
        ValidateSuccessfulResult(parser, ['a', 'b', 'c'], "abc");
-        parser = Sequence([Token('a'), Token('b'), Token('c')]);
+        IEnumerable<IParser<char, char>> parsers = [Token('a'), Token('b'), Token('c')];
        parser = Sequence(parsers);
        ValidateSuccessfulResult(parser, ['a', 'b', 'c'], "abc");
    }
    [Fact]
    public void LeftRightTest()
    {
-        Parser<char, char> parser = Token('a').Left(Token('b'));
+        IParser<char, char> parser = Token('a').Left(Token('b'));
        ValidateSuccessfulResult(parser, 'a', "ab");
        parser = Token('a').Right(Token('b'));
@ -45,7 +46,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void ManyTest()
    {
-        Parser<char, IEnumerable<char>> parser = Token('a').Many();
+        IParser<char, IEnumerable<char>> parser = Token('a').Many();
        ValidateSuccessfulResult(parser, [], "bbb");
        ValidateSuccessfulResult(parser, ['a', 'a', 'a'], "aaa");
@ -57,7 +58,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void SkipManyTest()
    {
-        Parser<char, char> parser = Token('a').SkipMany().Right(Token('b'));
+        IParser<char, char> parser = Token('a').SkipMany().Right(Token('b'));
        ValidateSuccessfulResult(parser, 'b', "aaaab");
        ValidateSuccessfulResult(parser, 'b', "bbbb");
@ -71,7 +72,7 @@ public class CombinatorParserTests : ParserTestsBase
    {
        // 等效于Many1
        // 但是不返回中间结果
-        Parser<char, char> parser = Token('a').Chain(Token);
+        IParser<char, char> parser = Token('a').Chain(Token);
        ValidateSuccessfulResult(parser, 'a', "aa");
        ValidateFailedResult(parser, "bb");
@ -83,7 +84,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void ManyTillTest()
    {
-        Parser<char, IEnumerable<char>> parser = Token('a').ManyTill(Token('b').LookAhead());
+        IParser<char, IEnumerable<char>> parser = Token('a').ManyTill(Token('b').LookAhead());
        ValidateSuccessfulResult(parser, ['a', 'a', 'a'], "aaab");
        ValidateSuccessfulResult(parser, [], "b");
@ -95,19 +96,33 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void SkipTillTest()
    {
-        Parser<char, char> parser = Token('a').SkipTill(Token('b'));
+        IParser<char, char> parser = Token('a').SkipTill(Token('b'));
        ValidateSuccessfulResult(parser, 'b', "aaab");
        ValidateSuccessfulResult(parser, 'b', "b");
        parser = Token('a').Skip1Till(Token('b'));
        ValidateSuccessfulResult(parser, 'b', "aaab");
        ValidateFailedResult(parser, "b");
        parser = Token('a').SkipTill(Choice(
            Token('b'), Token('c')));
        ValidateSuccessfulResult(parser, 'b', "aaab");
        ValidateSuccessfulResult(parser, 'c', "ac");
    }
    [Fact]
    public void SkipTillManyTest()
    {
        IParser<char, IEnumerable<char>> parser = Token('a').SkipTill(Token('b')).Many();
        ValidateSuccessfulResult(parser, ['b', 'b'], "aaabaab");
    }
    [Fact]
    public void TakeTillTest()
    {
-        Parser<char, IEnumerable<char>> parser = TakeTill(Token('b').LookAhead());
+        IParser<char, IEnumerable<char>> parser = TakeTill(Token('b').LookAhead());
        ValidateSuccessfulResult(parser, ['a', 'a'], "aab");
        ValidateSuccessfulResult(parser, [], "b");
@ -119,7 +134,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void MatchTest()
    {
-        Parser<char, char> parser = Token('b').Match();
+        IParser<char, char> parser = Token('b').Match();
        ValidateSuccessfulResult(parser, 'b', "asdfasdfasdfasdfb");
        ValidateSuccessfulResult(parser, 'b', "b");
    }
@ -127,7 +142,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void QuoteTest()
    {
-        Parser<char, IEnumerable<char>> parser = Any<char>().Quote(Token('['), Token(']'));
+        IParser<char, IEnumerable<char>> parser = Any<char>().Quote(Token('['), Token(']'));
        ValidateSuccessfulResult(parser, ['1', '2', '3'], "[123]");
        parser = Any<char>().Quote(Token('\''));
@ -137,7 +152,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void SeparatedByTest()
    {
-        Parser<char, IEnumerable<char>> parser = Token('a').SeparatedBy(Token(','));
+        IParser<char, IEnumerable<char>> parser = Token('a').SeparatedBy(Token(','));
        ValidateSuccessfulResult(parser, ['a', 'a', 'a'], "a,a,a");
        ValidateSuccessfulResult(parser, ['a'], "a");
        ValidateSuccessfulResult(parser, [], "");
@ -151,7 +166,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void EndByTest()
    {
-        Parser<char, IEnumerable<char>> parser = Satisfy<char>(char.IsLetter).EndBy(Token('.'));
+        IParser<char, IEnumerable<char>> parser = Satisfy<char>(char.IsLetter).EndBy(Token('.'));
        ValidateSuccessfulResult(parser, ['a', 'b', 'c'], "abc.");
        ValidateSuccessfulResult(parser, [], ".");
@ -163,7 +178,7 @@ public class CombinatorParserTests : ParserTestsBase
    [Fact]
    public void SeparatedOrEndByTest()
    {
-        Parser<char, IEnumerable<char>> parser = Satisfy<char>(char.IsLetter).SeparatedOrEndBy1(Token(','));
+        IParser<char, IEnumerable<char>> parser = Satisfy<char>(char.IsLetter).SeparatedOrEndBy1(Token(','));
        ValidateSuccessfulResult(parser, ['a', 'b', 'c'], "a,b,c,");
        ValidateSuccessfulResult(parser, ['a', 'b', 'c'], "a,b,c");
        ValidateFailedResult(parser, "");
--- a/CanonSharp.Tests/CombinatorsTests/LinqTests.cs
+++ b/CanonSharp.Tests/CombinatorsTests/LinqTests.cs
@ -10,7 +10,7 @@ public class LinqTests : ParserTestsBase
    [Fact]
    public void SelectTest1()
    {
-        Parser<char, string> parser = from token in Char('a')
+        IParser<char, string> parser = from token in Char('a')
            select token.ToString();
        ValidateSuccessfulResult(parser, "a", "a");
        ValidateFailedResult(parser, "b");
@ -19,7 +19,7 @@ public class LinqTests : ParserTestsBase
    [Fact]
    public void SelectManyTest1()
    {
-        Parser<char, int> parser = from _1 in Char('a')
+        IParser<char, int> parser = from _1 in Char('a')
            from _2 in Char('b')
            from _3 in Char('c')
            select 123;
--- a/CanonSharp.Tests/CombinatorsTests/ModifierParserTests.cs
+++ b/CanonSharp.Tests/CombinatorsTests/ModifierParserTests.cs
@ -12,7 +12,7 @@ public class ModifierParserTests : ParserTestsBase
    [Fact]
    public void DoTest()
    {
-        Parser<char, char> parser = Token('a').Do(x => Assert.Equal('a', x)).Do(x => Assert.Equal('a', x),
+        IParser<char, char> parser = Token('a').Do(x => Assert.Equal('a', x)).Do(x => Assert.Equal('a', x),
            failedResult => Assert.ThrowsAny<ParseException>(() => failedResult.Value));
        ValidateSuccessfulResult(parser, 'a', "abc");
@ -22,7 +22,7 @@ public class ModifierParserTests : ParserTestsBase
    [Fact]
    public void LookAheadTest()
    {
-        Parser<char, char> parser = Token('a').LookAhead().Next(_ => Token('a'), _ => Token('b'));
+        IParser<char, char> parser = Token('a').LookAhead().Next(_ => Token('a'), _ => Token('b'));
        ValidateSuccessfulResult(parser, 'a', "abc");
        ValidateSuccessfulResult(parser, 'b', "bcd");
    }
@ -30,7 +30,7 @@ public class ModifierParserTests : ParserTestsBase
    [Fact]
    public void NotTest()
    {
-        Parser<char, char> parser = Token('a').Not('b');
+        IParser<char, char> parser = Token('a').Not('b');
        ValidateSuccessfulResult(parser, 'b', "bcd");
        parser = Token('a').Not().Bind(_ => Token('b'));
@ -40,7 +40,7 @@ public class ModifierParserTests : ParserTestsBase
    [Fact]
    public void TryTest()
    {
-        Parser<char, string> parser = String("abc").Try("cde");
+        IParser<char, string> parser = String("abc").Try("cde");
        ValidateSuccessfulResult(parser, "abc", "abc");
        ValidateSuccessfulResult(parser, "cde", "cde");
--- a/CanonSharp.Tests/CombinatorsTests/PrimitiveParserTests.cs
+++ b/CanonSharp.Tests/CombinatorsTests/PrimitiveParserTests.cs
@ -11,7 +11,7 @@ public class PrimitiveParserTests : ParserTestsBase
    [Fact]
    public void PureTest()
    {
-        Parser<char, char> parser = Pure<char, char>('a');
+        IParser<char, char> parser = Pure<char, char>('a');
        ValidateSuccessfulResult(parser, 'a', "abc");
        parser = Pure<char, char>(_ => 'a');
@ -21,18 +21,18 @@ public class PrimitiveParserTests : ParserTestsBase
    [Fact]
    public void NullTest()
    {
-        Parser<char, Unit> parser = Null<char>();
+        IParser<char, Unit> parser = Null<char>();
        ValidateSuccessfulResult(parser, Unit.Instance, "abc");
    }
    [Fact]
    public void FailTest()
    {
-        Parser<char, char> parser = Fail<char, char>();
+        IParser<char, char> parser = Fail<char, char>();
        ValidateFailedResult(parser, "abc");
        parser = Fail<char, char>("Failed message");
-        FailedResult<char, char> result = ValidateFailedResult(parser, "abc");
+        IFailedResult<char, char> result = ValidateFailedResult(parser, "abc");
        Assert.Equal("Failed message", result.Message);
        parser = Fail<char, char>(x => $"{x}");
@ -47,29 +47,36 @@ public class PrimitiveParserTests : ParserTestsBase
    [Fact]
    public void SatisfyTest()
    {
-        Parser<char, char> parser = Satisfy<char>(char.IsLetter);
+        IParser<char, char> parser = Satisfy<char>(char.IsLetter);
        ValidateSuccessfulResult(parser, 'a', "abc");
        ValidateFailedResult(parser, "123");
    }
    [Fact]
    public void SatisfyFailedTest()
    {
        IParser<char, char> parser = Satisfy<char>(char.IsLetter);
        ValidateFailedResult(parser, "");
    }
    [Fact]
    public void AnyTest()
    {
-        Parser<char, char> parser = Any<char>();
+        IParser<char, char> parser = Any<char>();
        ValidateSuccessfulResult(parser, '1', "123");
    }
    [Fact]
    public void TokenTest()
    {
-        Parser<char, char> parser = Token('a');
+        IParser<char, char> parser = Token('a');
        ValidateSuccessfulResult(parser, 'a', "abc");
    }
    [Fact]
    public void TakeTest()
    {
-        Parser<char, IEnumerable<char>> parser = Take<char>(5);
+        IParser<char, IEnumerable<char>> parser = Take<char>(5);
        ValidateSuccessfulResult(parser, ['h', 'e', 'l', 'l', 'o'], "hello");
        ValidateFailedResult(parser, "abc");
    }
@ -77,7 +84,7 @@ public class PrimitiveParserTests : ParserTestsBase
    [Fact]
    public void SkipTest()
    {
-        Parser<char, char> parser = Skip<char>(5).Bind(_ => Token(','));
+        IParser<char, char> parser = Skip<char>(5).Bind(_ => Token(','));
        ValidateSuccessfulResult(parser, ',', "hello,world.");
        ValidateFailedResult(parser, "abc");
    }
--- a/CanonSharp.Tests/ParserTests/ConstDeclarationTests.cs
+++ b/CanonSharp.Tests/ParserTests/ConstDeclarationTests.cs
@ -0,0 +1,62 @@
 using CanonSharp.Pascal.Parser;
 using CanonSharp.Pascal.SyntaxTree;
 using CanonSharp.Tests.Utils;
 namespace CanonSharp.Tests.ParserTests;
 public class ConstDeclarationTests : GrammarParserTestBase
 {
    [Fact]
    public void BooleanConstValueTest()
    {
        BooleanValueNode node = RunParser<BooleanValueNode>(GrammarParser.ConstValueParser(), "true");
        Assert.True(node.Value);
        node = RunParser<BooleanValueNode>(GrammarParser.ConstValueParser(), "false");
        Assert.False(node.Value);
    }
    [Fact]
    public void CharConstValueTest()
    {
        CharValueNode node = RunParser<CharValueNode>(GrammarParser.ConstValueParser(), "'a'");
        Assert.Equal('a', node.Value);
    }
    [Fact]
    public void NumberConstValueTest()
    {
        IntegerValueNode integerValueNode = RunParser<IntegerValueNode>(GrammarParser.ConstValueParser(), "250");
        Assert.Equal(250, integerValueNode.Value);
        FloatValueNode floatValueNode = RunParser<FloatValueNode>(GrammarParser.ConstValueParser(), "100.5");
        Assert.Equal(100.5, floatValueNode.Value);
        UnaryOperatorNode node = RunParser<UnaryOperatorNode>(GrammarParser.ConstValueParser(), "+250");
        Assert.Equal(UnaryOperatorType.Plus, node.OperatorType);
        node = RunParser<UnaryOperatorNode>(GrammarParser.ConstValueParser(), "-100.5");
        Assert.Equal(UnaryOperatorType.Minus, node.OperatorType);
    }
    [Fact]
    public void ConstDeclarationTest()
    {
        ConstantNode node = RunParser<ConstantNode>(GrammarParser.ConstDeclarationParser(), "a = true");
        Assert.Equal("a", node.Identifier.LiteralValue);
        Assert.True(node.Value.Convert<BooleanValueNode>().Value);
    }
    [Theory]
    [InlineData("", 0)]
    [InlineData("const INFINITE = 100;", 1)]
    [InlineData("const a = true; b = false", 2)]
    [InlineData("const code1 = 100.4;code2 = 'a'", 2)]
    public void ConstDeclarationsCountTest(string input, int count)
    {
        BlockNode blockNode = RunParser<BlockNode>(GrammarParser.ConstDeclarationsParser(), input);
        List<ConstantNode> constantNodes = blockNode.Statements.Select(node => node.Convert<ConstantNode>()).ToList();
        Assert.Equal(count, constantNodes.Count);
    }
 }
--- a/CanonSharp.Tests/ParserTests/ExpressionParserTests.cs
+++ b/CanonSharp.Tests/ParserTests/ExpressionParserTests.cs
@ -0,0 +1,297 @@
 using CanonSharp.Pascal.Parser;
 using CanonSharp.Pascal.SyntaxTree;
 using CanonSharp.Tests.Utils;
 namespace CanonSharp.Tests.ParserTests;
 public sealed class ExpressionParserTests : GrammarParserTestBase
 {
    [Fact]
    public void BoolTest()
    {
        BooleanValueNode node = RunParser<BooleanValueNode>(GrammarParser.FactorParser(), "false");
        Assert.False(node.Value);
        node = RunParser<BooleanValueNode>(GrammarParser.FactorParser(), "true");
        Assert.True(node.Value);
    }
    [Fact]
    public void NumberTest()
    {
        IntegerValueNode integerValueNode = RunParser<IntegerValueNode>(GrammarParser.FactorParser(), "123456");
        Assert.Equal(123456, integerValueNode.Value);
        FloatValueNode floatValueNode = RunParser<FloatValueNode>(GrammarParser.FactorParser(), "123.456");
        Assert.Equal(123.456, floatValueNode.Value);
    }
    [Fact]
    public void UnaryOperatorTest()
    {
        UnaryOperatorNode node = RunParser<UnaryOperatorNode>(GrammarParser.FactorParser(), "- 123");
        Assert.Equal(UnaryOperatorType.Minus, node.OperatorType);
        Assert.Equal(123, node.Node.Convert<IntegerValueNode>().Value);
        node = RunParser<UnaryOperatorNode>(GrammarParser.FactorParser(), "+ 100.5");
        Assert.Equal(UnaryOperatorType.Plus, node.OperatorType);
        Assert.Equal(100.5, node.Node.Convert<FloatValueNode>().Value);
    }
    [Fact]
    public void IdentifierTest()
    {
        VariableNode node = RunParser<VariableNode>(GrammarParser.VariableParser(), "temp");
        Assert.Equal("temp", node.Identifier.LiteralValue);
    }
    [Fact]
    public void ArrayIdentifierTest()
    {
        VariableNode node = RunParser<VariableNode>(GrammarParser.VariableParser(), "a[0]");
        Assert.Equal("a", node.Identifier.LiteralValue);
        Assert.Single(node.Indexers);
        Assert.Equal(0, node.Indexers.First().Convert<IntegerValueNode>().Value);
        node = RunParser<VariableNode>(GrammarParser.VariableParser(), "a[i + 1]");
        Assert.Equal("a", node.Identifier.LiteralValue);
        Assert.Single(node.Indexers);
        BinaryOperatorNode binaryOperatorNode = node.Indexers.First().Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Add, binaryOperatorNode.OperatorType);
        Assert.Equal("i", binaryOperatorNode.Left.Convert<VariableNode>().Identifier.LiteralValue);
        Assert.Equal(1, binaryOperatorNode.Right.Convert<IntegerValueNode>().Value);
        node = RunParser<VariableNode>(GrammarParser.VariableParser(), "a[b[i + 1] - 10, c]");
        Assert.Equal("a", node.Identifier.LiteralValue);
        Assert.Equal(2, node.Indexers.Count);
        VariableNode secondNode = node.Indexers[1].Convert<VariableNode>();
        Assert.Equal("c", secondNode.Identifier.LiteralValue);
        Assert.Empty(secondNode.Indexers);
        BinaryOperatorNode firstNode = node.Indexers[0].Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Subtract, firstNode.OperatorType);
        Assert.Equal(10, firstNode.Right.Convert<IntegerValueNode>().Value);
        VariableNode variableNode = firstNode.Left.Convert<VariableNode>();
        Assert.Equal("b", variableNode.Identifier.LiteralValue);
        Assert.Single(variableNode.Indexers);
        binaryOperatorNode = variableNode.Indexers[0].Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Add, binaryOperatorNode.OperatorType);
        Assert.Equal("i", binaryOperatorNode.Left.Convert<VariableNode>().Identifier.LiteralValue);
        Assert.Equal(1, binaryOperatorNode.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void ProcedureCallTest()
    {
        ProcedureCallNode node = RunParser<ProcedureCallNode>(GrammarParser.FactorParser(), "test(1)");
        Assert.Equal("test", node.Identifier.LiteralValue);
        Assert.Single(node.Parameters);
        Assert.Equal(1, node.Parameters[0].Convert<IntegerValueNode>().Value);
        node = RunParser<ProcedureCallNode>(GrammarParser.FactorParser(), "test()");
        Assert.Equal("test", node.Identifier.LiteralValue);
        Assert.Empty(node.Parameters);
        VariableNode variableNode = RunParser<VariableNode>(GrammarParser.FactorParser(), "test");
        Assert.Equal("test", variableNode.Identifier.LiteralValue);
        Assert.Empty(variableNode.Indexers);
    }
    [Fact]
    public void SingleTermTest()
    {
        VariableNode node = RunParser<VariableNode>(GrammarParser.TermParser(), "temp");
        Assert.Equal("temp", node.Identifier.LiteralValue);
        UnaryOperatorNode unaryOperatorNode = RunParser<UnaryOperatorNode>(GrammarParser.TermParser(), "- 123");
        Assert.Equal(UnaryOperatorType.Minus, unaryOperatorNode.OperatorType);
        Assert.Equal(123, unaryOperatorNode.Node.Convert<IntegerValueNode>().Value);
        unaryOperatorNode = RunParser<UnaryOperatorNode>(GrammarParser.TermParser(), "+ 100.5");
        Assert.Equal(UnaryOperatorType.Plus, unaryOperatorNode.OperatorType);
        Assert.Equal(100.5, unaryOperatorNode.Node.Convert<FloatValueNode>().Value);
    }
    [Fact]
    public void MultiplyTermTest1()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.TermParser(), "10 / 2");
        Assert.Equal(BinaryOperatorType.Divide, node.OperatorType);
        Assert.Equal(10, node.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(2, node.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void MultiplyTermTest2()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.TermParser(), "10 div 2");
        Assert.Equal(BinaryOperatorType.IntegerDivide, node.OperatorType);
        Assert.Equal(10, node.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(2, node.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void MultiplyTermTest3()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.TermParser(), "temp * 2 div 3");
        Assert.Equal(BinaryOperatorType.IntegerDivide, node.OperatorType);
        Assert.Equal(3, node.Right.Convert<IntegerValueNode>().Value);
        BinaryOperatorNode leftNode = node.Left.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Multiply, leftNode.OperatorType);
        Assert.Equal("temp", leftNode.Left.Convert<VariableNode>().Identifier.LiteralValue);
        Assert.Equal(2, leftNode.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void SimpleExpressionTest1()
    {
        VariableNode node = RunParser<VariableNode>(GrammarParser.SimpleExpressionParser(), "temp");
        Assert.Equal("temp", node.Identifier.LiteralValue);
        UnaryOperatorNode unaryOperatorNode =
            RunParser<UnaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "- 123");
        Assert.Equal(UnaryOperatorType.Minus, unaryOperatorNode.OperatorType);
        Assert.Equal(123, unaryOperatorNode.Node.Convert<IntegerValueNode>().Value);
        unaryOperatorNode = RunParser<UnaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "+ 100.5");
        Assert.Equal(UnaryOperatorType.Plus, unaryOperatorNode.OperatorType);
        Assert.Equal(100.5, unaryOperatorNode.Node.Convert<FloatValueNode>().Value);
    }
    [Fact]
    public void SimpleExpressionTest2()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "1 + 1");
        Assert.Equal(BinaryOperatorType.Add, node.OperatorType);
        Assert.Equal(1, node.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(1, node.Right.Convert<IntegerValueNode>().Value);
        node = RunParser<BinaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "1 + 1 - 2");
        Assert.Equal(BinaryOperatorType.Subtract, node.OperatorType);
        Assert.Equal(2, node.Right.Convert<IntegerValueNode>().Value);
        BinaryOperatorNode leftNode = node.Left.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Add, leftNode.OperatorType);
        Assert.Equal(1, leftNode.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(1, leftNode.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void SimpleExpressionTest3()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "1 - 2 * 5");
        Assert.Equal(BinaryOperatorType.Subtract, node.OperatorType);
        Assert.Equal(1, node.Left.Convert<IntegerValueNode>().Value);
        BinaryOperatorNode rightNode = node.Right.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Multiply, rightNode.OperatorType);
        Assert.Equal(2, rightNode.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(5, rightNode.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void SimpleExpressionTest4()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "1 + +1");
        Assert.Equal(BinaryOperatorType.Add, node.OperatorType);
        Assert.Equal(1, node.Left.Convert<IntegerValueNode>().Value);
        UnaryOperatorNode unaryOperatorNode = node.Right.Convert<UnaryOperatorNode>();
        Assert.Equal(UnaryOperatorType.Plus, unaryOperatorNode.OperatorType);
        Assert.Equal(1, unaryOperatorNode.Node.Convert<IntegerValueNode>().Value);
        node = RunParser<BinaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "1 - -1");
        Assert.Equal(BinaryOperatorType.Subtract, node.OperatorType);
        Assert.Equal(1, node.Left.Convert<IntegerValueNode>().Value);
        unaryOperatorNode = node.Right.Convert<UnaryOperatorNode>();
        Assert.Equal(UnaryOperatorType.Minus, unaryOperatorNode.OperatorType);
        Assert.Equal(1, unaryOperatorNode.Node.Convert<IntegerValueNode>().Value);
        node = RunParser<BinaryOperatorNode>(GrammarParser.SimpleExpressionParser(), "+ 1 - - 1");
        Assert.Equal(BinaryOperatorType.Subtract, node.OperatorType);
        unaryOperatorNode = node.Left.Convert<UnaryOperatorNode>();
        Assert.Equal(UnaryOperatorType.Plus, unaryOperatorNode.OperatorType);
        Assert.Equal(1, unaryOperatorNode.Node.Convert<IntegerValueNode>().Value);
        unaryOperatorNode = node.Right.Convert<UnaryOperatorNode>();
        Assert.Equal(UnaryOperatorType.Minus, unaryOperatorNode.OperatorType);
        Assert.Equal(1, unaryOperatorNode.Node.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void SimpleExpressionTest5()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.SimpleExpressionParser(),
            "true and temp or temp and false");
        Assert.Equal(BinaryOperatorType.Or, node.OperatorType);
        BinaryOperatorNode left = node.Left.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.And, left.OperatorType);
        BinaryOperatorNode right = node.Right.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.And, right.OperatorType);
    }
    [Fact]
    public void ExpressionTest1()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.ExpressionParser(),
            "true and temp or temp and false");
        Assert.Equal(BinaryOperatorType.Or, node.OperatorType);
        BinaryOperatorNode left = node.Left.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.And, left.OperatorType);
        BinaryOperatorNode right = node.Right.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.And, right.OperatorType);
    }
    [Fact]
    public void ExpressionTest2()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.ExpressionParser(), "2 >= 1");
        Assert.Equal(BinaryOperatorType.GreaterEqual, node.OperatorType);
        Assert.Equal(2, node.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(1, node.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void ExpressionTest3()
    {
        BinaryOperatorNode node = RunParser<BinaryOperatorNode>(GrammarParser.ExpressionParser(), "(1 + 1) * 2");
        Assert.Equal(BinaryOperatorType.Multiply, node.OperatorType);
        Assert.Equal(2, node.Right.Convert<IntegerValueNode>().Value);
        node = node.Left.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Add, node.OperatorType);
        Assert.Equal(1, node.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(1, node.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void ExpressionsTest1()
    {
        List<BinaryOperatorNode> nodes =
            RunParser<BinaryOperatorNode>(GrammarParser.ExpressionsParser(), "1 + 1, 2 * 3");
        Assert.Equal(BinaryOperatorType.Add, nodes[0].OperatorType);
        Assert.Equal(BinaryOperatorType.Multiply, nodes[1].OperatorType);
    }
    [Fact]
    public void VariableTest1()
    {
        VariableNode node = RunParser<VariableNode>(GrammarParser.VariableParser(), "temp");
        Assert.Equal("temp", node.Identifier.LiteralValue);
    }
 }
--- a/CanonSharp.Tests/ParserTests/ProgramParserTests.cs
+++ b/CanonSharp.Tests/ParserTests/ProgramParserTests.cs
@ -0,0 +1,229 @@
 using CanonSharp.Pascal.SyntaxTree;
 using CanonSharp.Tests.Utils;
 namespace CanonSharp.Tests.ParserTests;
 public class ProgramParserTests : GrammarParserTestBase
 {
    [Fact]
    public void ProgramParseTest1()
    {
        Program program = ProgramParse("""
                                       program main;
                                       begin
                                       end.
                                       """);
        Assert.Equal("main", program.Head.ProgramName.LiteralValue);
        Assert.Empty(program.Body.MainBlock.Statements);
    }
    [Fact]
    public void ProgramParseTest2()
    {
        Program program = ProgramParse("""
                                       program main;
                                       begin
                                       temp := 1 + 1;
                                       end.
                                       """);
        Assert.Equal("main", program.Head.ProgramName.LiteralValue);
        AssignNode assignNode = program.Body.MainBlock.Statements[0].Convert<AssignNode>();
        Assert.Equal("temp", assignNode.Variable.Identifier.LiteralValue);
        BinaryOperatorNode binaryOperatorNode = assignNode.Expression.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Add, binaryOperatorNode.OperatorType);
        Assert.Equal(1, binaryOperatorNode.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(1, binaryOperatorNode.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void ProgramParseTest3()
    {
        Program program = ProgramParse("""
                                       program main;
                                       const a = 1; b = true;
                                       begin
                                       temp := 1 + 1;
                                       end.
                                       """);
        Assert.Equal("main", program.Head.ProgramName.LiteralValue);
        List<ConstantNode> constantNodes = program.Body.ConstantDeclarations.Statements
            .Select(x => x.Convert<ConstantNode>()).ToList();
        Assert.Equal(2, constantNodes.Count);
        Assert.Equal("a", constantNodes[0].Identifier.LiteralValue);
        Assert.Equal("b", constantNodes[1].Identifier.LiteralValue);
        AssignNode assignNode = program.Body.MainBlock.Statements[0].Convert<AssignNode>();
        Assert.Equal("temp", assignNode.Variable.Identifier.LiteralValue);
        BinaryOperatorNode binaryOperatorNode = assignNode.Expression.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Add, binaryOperatorNode.OperatorType);
        Assert.Equal(1, binaryOperatorNode.Left.Convert<IntegerValueNode>().Value);
        Assert.Equal(1, binaryOperatorNode.Right.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void ProgramParseTest4()
    {
        Program program = ProgramParse("""
                                       program main;
                                       var a : integer;
                                       begin
                                        a := 1 + 1;
                                       end.
                                       """);
        IList<VariableDeclarationNode> variableDeclarationNodes = program.Body.VariableDeclarations.Statements
            .Select(x => x.Convert<VariableDeclarationNode>()).ToList();
        Assert.Single(variableDeclarationNodes);
        Assert.Single(variableDeclarationNodes.First().Identifiers);
        Assert.Equal("a", variableDeclarationNodes.First().Identifiers.First().LiteralValue);
    }
    [Theory]
    [InlineData("""
                program DoNothing;
                begin
                end.
                """)]
    [InlineData("""
                program Add;
                var a : Integer;
                begin
                a := 1 + 1
                end.
                """)]
    [InlineData("""
                program varTest;
                var a : integer;
                begin
                a := 9 div 1;
                end.
                """)]
    [InlineData("""
                program main;
                var a : integer;
                begin
                a := 1 + +1;
                a := 1 - -1;
                a := 1 + -1;
                a := 1 - +1;
                end.
                """)]
    [InlineData("""
                program main;
                const a = true; b = false;
                var c, d : boolean;
                begin
                c := true;
                d := false;
                end.
                """)]
    [InlineData("""
                program arrayTest;
                var a : array [0..10] of integer;
                begin
                a[0] := 1;
                end.
                """)]
    [InlineData("""
                program arrayTest;
                var a : array [10..100, 0..10] of integer;
                begin
                a[10,0] := 1;
                end.
                """)]
    [InlineData("""
                program main;
                begin
                begin
                end
                end.
                """)]
    [InlineData("""
                program main;
                var i : integer;
                begin
                while i < 10 do
                i := i + 1;
                end.
                """)]
    [InlineData("""
                program main;
                procedure test;
                begin
                end;
                begin
                end.
                """)]
    [InlineData("""
                program main;
                               function test(a, b : integer) : integer;
                               begin
                               test := 1;
                               end;
                               begin
                               end.
                """)]
    [InlineData("""
                program main;
                var i : integer;
                begin
                for i := 1 to 100 do
                begin
                doSomething(i);
                end;
                end.
                """)]
    [InlineData("""
                program main;
                begin
                if 1 = 2 then
                begin
                test1;
                test2 := a;
                end
                else
                begin
                doSomething;
                end;
                end.
                """)]
    [InlineData("""
                program main;
                var a : integer;
                function test : integer;
                begin
                end;
                begin
                test;
                a := test;
                test();
                a := test();
                end.
                """)]
    [InlineData("""
                program main;
                procedure test();
                begin
                end;
                begin
                test();
                end.
                """)]
    [InlineData("""
                program main;
                begin
                test
                end.
                """)]
    public void ProgramParseTest(string input)
    {
        ProgramParse(input);
    }
 }
--- a/CanonSharp.Tests/ParserTests/StatementParserTests.cs
+++ b/CanonSharp.Tests/ParserTests/StatementParserTests.cs
@ -0,0 +1,190 @@
 using CanonSharp.Pascal.Parser;
 using CanonSharp.Pascal.SyntaxTree;
 using CanonSharp.Tests.Utils;
 namespace CanonSharp.Tests.ParserTests;
 public class StatementParserTests : GrammarParserTestBase
 {
    [Fact]
    public void StatementTest1()
    {
        AssignNode node = RunParser<AssignNode>(GrammarParser.StatementParser(), "temp := 1");
        Assert.Equal("temp", node.Variable.Identifier.LiteralValue);
        Assert.Equal(1, node.Expression.Convert<IntegerValueNode>().Value);
    }
    [Fact]
    public void IfTest1()
    {
        IfNode node = RunParser<IfNode>(GrammarParser.IfParser(), """
                                                                  if i = 1 then
                                                                    a := a + 1
                                                                  else
                                                                    a := a + 2
                                                                  """);
        Assert.NotNull(node.ElseStatement);
        BinaryOperatorNode condition = node.Condition.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Equal, condition.OperatorType);
        AssignNode statement = node.Statement.Convert<AssignNode>();
        Assert.Equal("a", statement.Variable.Identifier.LiteralValue);
        AssignNode elseStatement = node.Statement.Convert<AssignNode>();
        Assert.Equal("a", elseStatement.Variable.Identifier.LiteralValue);
    }
    [Fact]
    public void IfTest2()
    {
        IfNode node = RunParser<IfNode>(GrammarParser.IfParser(), """
                                                                  if i = 1 then
                                                                    if i = 2 then
                                                                        a := a + 1
                                                                    else
                                                                        a := a + 2
                                                                  """);
        Assert.Null(node.ElseStatement);
        IfNode subIfNode = node.Statement.Convert<IfNode>();
        Assert.NotNull(subIfNode.ElseStatement);
    }
    [Fact]
    public void ForTest1()
    {
        ForNode node = RunParser<ForNode>(GrammarParser.ForParser(), """
                                                                     for i := 1 to 10 do
                                                                        a := a + i
                                                                     """);
        Assert.Equal("i", node.Identifier.LiteralValue);
        Assert.Equal(1, node.LeftCondition.Convert<IntegerValueNode>().Value);
        Assert.Equal(10, node.RightCondition.Convert<IntegerValueNode>().Value);
        AssignNode assignNode = node.Statement.Convert<AssignNode>();
        Assert.Equal("a", assignNode.Variable.Identifier.LiteralValue);
    }
    [Fact]
    public void WhileTest1()
    {
        WhileNode node = RunParser<WhileNode>(GrammarParser.WhileParser(), """
                                                                           while c >= 1 do
                                                                            a := a + 1;
                                                                           """);
        BinaryOperatorNode binaryOperatorNode = node.Condition.Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.GreaterEqual, binaryOperatorNode.OperatorType);
        AssignNode assignNode = node.Statement.Convert<AssignNode>();
        Assert.Equal("a", assignNode.Variable.Identifier.LiteralValue);
    }
    [Fact]
    public void ProcedureCallTest1()
    {
        ProcedureCallNode node = RunParser<ProcedureCallNode>(GrammarParser.ProcedureCallParser(), "test()");
        Assert.Equal("test", node.Identifier.LiteralValue);
        Assert.Empty(node.Parameters);
        node = RunParser<ProcedureCallNode>(GrammarParser.ProcedureCallParser(), "test");
        Assert.Equal("test", node.Identifier.LiteralValue);
        Assert.Empty(node.Parameters);
    }
    [Fact]
    public void ProcedureCallTest2()
    {
        ProcedureCallNode node = RunParser<ProcedureCallNode>(GrammarParser.ProcedureCallParser(),
            "test(1 + 1, true)");
        Assert.Equal(2, node.Parameters.Count);
        BinaryOperatorNode firstParameter = node.Parameters[0].Convert<BinaryOperatorNode>();
        Assert.Equal(BinaryOperatorType.Add, firstParameter.OperatorType);
        BooleanValueNode secondParameter = node.Parameters[1].Convert<BooleanValueNode>();
        Assert.True(secondParameter.Value);
    }
    [Fact]
    public void ProcedureCallTest3()
    {
        ProcedureCallNode node =
            RunParser<ProcedureCallNode>(GrammarParser.ProcedureCallParser(), "test(1 * + 1, test2[0])");
        Assert.Equal(2, node.Parameters.Count);
        VariableNode secondParameter = node.Parameters[1].Convert<VariableNode>();
        Assert.Equal("test2", secondParameter.Identifier.LiteralValue);
        Assert.Single(secondParameter.Indexers);
    }
    [Theory]
    [InlineData("""
                begin
                temp := 1 + 1;
                flag := true and false;
                end
                """)]
    [InlineData("""
                begin
                temp := 1 + 1;
                flag := true and false
                end
                """)]
    public void CompoundStatementTest1(string input)
    {
        BlockNode node = RunParser<BlockNode>(GrammarParser.CompoundStatementParser(), input);
        Assert.Equal(2, node.Statements.Count);
        AssignNode assignNode = node.Statements[0].Convert<AssignNode>();
        Assert.Equal("temp", assignNode.Variable.Identifier.LiteralValue);
        assignNode = node.Statements[1].Convert<AssignNode>();
        Assert.Equal("flag", assignNode.Variable.Identifier.LiteralValue);
    }
    [Fact]
    public void CompoundStatementTest2()
    {
        BlockNode node = RunParser<BlockNode>(GrammarParser.CompoundStatementParser(), "begin end");
        Assert.Empty(node.Statements);
    }
    [Fact]
    public void ProgramHeadTest1()
    {
        ProgramHead head = RunParser<ProgramHead>(GrammarParser.ProgramHeadParser(), "program main");
        Assert.Equal("main", head.ProgramName.LiteralValue);
    }
    [Theory]
    [InlineData("""
                begin
                temp := 1 + 1;
                flag := true and false;
                end
                """)]
    [InlineData("""
                begin
                temp := 1 + 1;
                flag := true and false
                end
                """)]
    public void ProgramBodyTest1(string input)
    {
        BlockNode node = RunParser<ProgramBody>(GrammarParser.ProgramBodyParser(), input).MainBlock;
        Assert.Equal(2, node.Statements.Count);
        AssignNode assignNode = node.Statements[0].Convert<AssignNode>();
        Assert.Equal("temp", assignNode.Variable.Identifier.LiteralValue);
        assignNode = node.Statements[1].Convert<AssignNode>();
        Assert.Equal("flag", assignNode.Variable.Identifier.LiteralValue);
    }
 }
--- a/CanonSharp.Tests/ParserTests/SubprogramParserTests.cs
+++ b/CanonSharp.Tests/ParserTests/SubprogramParserTests.cs
@ -0,0 +1,83 @@
 using CanonSharp.Pascal.Parser;
 using CanonSharp.Pascal.SyntaxTree;
 using CanonSharp.Tests.Utils;
 namespace CanonSharp.Tests.ParserTests;
 public class SubprogramParserTests : GrammarParserTestBase
 {
    [Fact]
    public void ParameterTest1()
    {
        List<Parameter> parameters = RunParser<Parameter>(GrammarParser.ParameterParser(), "a ,b : integer");
        Assert.Equal(2, parameters.Count);
        Assert.All(parameters, p =>
        {
            Assert.False(p.IsReference);
            Assert.Equal("integer", p.TypeNode.Convert<TypeNode>().TypeToken.LiteralValue);
        });
        parameters = RunParser<Parameter>(GrammarParser.ParameterParser(), "var a, b,c: real");
        Assert.Equal(3, parameters.Count);
        Assert.All(parameters, p =>
        {
            Assert.True(p.IsReference);
            Assert.Equal("real", p.TypeNode.Convert<TypeNode>().TypeToken.LiteralValue);
        });
    }
    [Theory]
    [InlineData("(var a, b : integer; c, d : real)", 4)]
    [InlineData("(a : boolean; var c, d, e : char)", 4)]
    [InlineData("(a : integer)", 1)]
    [InlineData("(var b ,c : real)", 2)]
    public void FormalParameterTest(string input, int count)
    {
        List<Parameter> parameters = RunParser<Parameter>(GrammarParser.FormalParameterParser(), input);
        Assert.Equal(count, parameters.Count);
    }
    [Theory]
    [InlineData("procedure test", 0)]
    [InlineData("procedure test()", 0)]
    [InlineData("procedure test(a : integer; var b : real)", 2)]
    [InlineData("procedure test(a,b, c : real; var e, f : boolean)", 5)]
    [InlineData("function test : integer", 0)]
    [InlineData("function test() : real", 0)]
    [InlineData("function test(a : integer; var b : real) : boolean", 2)]
    [InlineData("function test(a,b, c : real; var e, f : boolean) : char", 5)]
    public void SubprogramHeadTest(string input, int count)
    {
        SubprogramHead head = RunParser<SubprogramHead>(GrammarParser.SubprogramHeadParser(), input);
        Assert.Equal(count, head.Parameters.Count);
    }
    [Fact]
    public void SubprogramHeadTest1()
    {
        SubprogramHead head =
            RunParser<SubprogramHead>(GrammarParser.SubprogramHeadParser(), "function test(a : integer) : real");
        Assert.Equal("test", head.Identifier.LiteralValue);
        Assert.Single(head.Parameters);
        Assert.NotNull(head.TypeToken);
        Assert.Equal("real", head.TypeToken.Convert<TypeNode>().TypeToken.LiteralValue);
    }
    [Fact]
    public void SubprogramBodyTest1()
    {
        SubprogramBody body = RunParser<SubprogramBody>(GrammarParser.SubprogramBodyParser(), """
            const a = 3;
            var c, d : integer; e, f :real;
            begin
                c := a + d;
            end
            """);
        Assert.Single(body.ConstDeclarations.Statements);
        Assert.Equal(2, body.VariableDeclarations.Statements.Count);
        Assert.Equal(1, body.MainBlock.Statements.Count);
    }
 }
--- a/CanonSharp.Tests/ParserTests/VariableDeclarationTests.cs
+++ b/CanonSharp.Tests/ParserTests/VariableDeclarationTests.cs
@ -0,0 +1,82 @@
 using CanonSharp.Pascal.Parser;
 using CanonSharp.Pascal.SyntaxTree;
 using CanonSharp.Tests.Utils;
 namespace CanonSharp.Tests.ParserTests;
 public class VariableDeclarationTests : GrammarParserTestBase
 {
    [Theory]
    [InlineData("boolean", "boolean")]
    [InlineData("integer", "integer")]
    [InlineData("char", "char")]
    [InlineData("real", "real")]
    public void BasicTypeParseTest(string input, string value)
    {
        TypeNode node = RunParser<TypeNode>(GrammarParser.TypeParser(), input);
        Assert.Equal(value, node.TypeToken.LiteralValue);
    }
    [Fact]
    public void ArrayTypeParseTest()
    {
        TypeNode node = RunParser<TypeNode>(GrammarParser.ArrayTypeParser(), "array [0..9] of integer");
        Assert.Equal("integer", node.TypeToken.LiteralValue);
        Assert.Single(node.ArrayRanges);
        Assert.Equal(new ArrayRange(0, 9), node.ArrayRanges.First());
        node = RunParser<TypeNode>(GrammarParser.ArrayTypeParser(), "array [0..10,0..10] of char");
        Assert.Equal("char", node.TypeToken.LiteralValue);
        Assert.Equal(2, node.ArrayRanges.Count);
        Assert.Equal(new ArrayRange(0, 10),  node.ArrayRanges[0]);
        Assert.Equal(new ArrayRange(0, 10), node.ArrayRanges[1]);
    }
    [Fact]
    public void VariableDeclarationTest()
    {
        VariableDeclarationNode node = RunParser<VariableDeclarationNode>(GrammarParser.VariableDeclarationParser(),
            "a : integer");
        Assert.Contains(node.Identifiers, token => token.LiteralValue == "a");
        Assert.Equal("integer", node.TypeNode.TypeToken.LiteralValue);
        node = RunParser<VariableDeclarationNode>(GrammarParser.VariableDeclarationParser(),
            "a, b, c : boolean");
        Assert.Contains(node.Identifiers, token => token.LiteralValue == "a");
        Assert.Contains(node.Identifiers, token => token.LiteralValue == "b");
        Assert.Contains(node.Identifiers, token => token.LiteralValue == "c");
        Assert.Equal("boolean", node.TypeNode.TypeToken.LiteralValue);
    }
    [Fact]
    public void ArrayVariableDeclarationTest()
    {
        VariableDeclarationNode node = RunParser<VariableDeclarationNode>(GrammarParser.VariableDeclarationParser(),
            "test_array: array [0..9,10..20] of real");
        Assert.Single(node.Identifiers);
        Assert.Contains(node.Identifiers, token => token.LiteralValue == "test_array");
        Assert.Equal("real", node.TypeNode.TypeToken.LiteralValue);
        Assert.Equal(2, node.TypeNode.ArrayRanges.Count);
        Assert.Equal(new ArrayRange(0, 9), node.TypeNode.ArrayRanges[0]);
        Assert.Equal(new ArrayRange(10, 20), node.TypeNode.ArrayRanges[1]);
    }
    [Theory]
    [InlineData("var a : integer;", 1)]
    [InlineData("var a : integer; b : boolean;", 2)]
    [InlineData("var a : integer; b,c : boolean;" +
                "d : char", 3)]
    [InlineData("var a,d,e : integer; b : boolean; c: real;", 3)]
    [InlineData("var a : array [0..5] of integer", 1)]
    [InlineData("var a,b,c: array [0..9,10..20] of integer; c,d : boolean", 2)]
    public void VariableDeclarationsTest(string input, int count)
    {
        BlockNode node = RunParser<BlockNode>(GrammarParser.VariableDeclarationsParser(), input);
        Assert.Equal(count, node.Statements.Count);
    }
 }
--- a/CanonSharp.Tests/ReaderTests/StringReadStateTests.cs
+++ b/CanonSharp.Tests/ReaderTests/StringReadStateTests.cs
@ -1,7 +1,7 @@
 using CanonSharp.Combinator.Extensions;
-using CanonSharp.Common.Scanner;
+using CanonSharp.Pascal.Scanner;
-namespace CanonSharp.Tests.LexicalAnalyzerTests;
+namespace CanonSharp.Tests.ReaderTests;
 public class StringReadStateTests
 {
--- a/CanonSharp.Tests/ScannerTests/LexicalParserTests.cs
+++ b/CanonSharp.Tests/ScannerTests/LexicalParserTests.cs
@ -1,7 +1,7 @@
-using CanonSharp.Common.Scanner;
+using CanonSharp.Pascal.Scanner;
 using CanonSharp.Tests.Utils;
-namespace CanonSharp.Tests.ScannerTest;
+namespace CanonSharp.Tests.ScannerTests;
 public class LexicalParserTests : LexicalTestBase
 {
@ -131,6 +131,21 @@ public class LexicalParserTests : LexicalTestBase
        ]);
    }
    [Fact]
    public void LexicalParserTest4()
    {
        ValidateLexicalTokens(LexicalScanner.PascalParser(), "array [0..9] of integer", [
            (LexicalTokenType.Keyword, "array"),
            (LexicalTokenType.Delimiter, "["),
            (LexicalTokenType.ConstInteger, "0"),
            (LexicalTokenType.Delimiter, ".."),
            (LexicalTokenType.ConstInteger, "9"),
            (LexicalTokenType.Delimiter, "]"),
            (LexicalTokenType.Keyword, "of"),
            (LexicalTokenType.Keyword, "integer")
        ]);
    }
    [Theory]
    [InlineData("""
                program exFunction;
--- a/CanonSharp.Tests/ScannerTests/LexicalTokenParserTest.cs
+++ b/CanonSharp.Tests/ScannerTests/LexicalTokenParserTest.cs
@ -1,10 +1,10 @@
 using CanonSharp.Combinator;
 using CanonSharp.Combinator.Abstractions;
 using CanonSharp.Combinator.Extensions;
-using CanonSharp.Common.Scanner;
+using CanonSharp.Pascal.Scanner;
 using CanonSharp.Tests.Utils;
-namespace CanonSharp.Tests.ScannerTest;
+namespace CanonSharp.Tests.ScannerTests;
 public class LexicalTokenParserTest : LexicalTestBase
 {
@ -27,9 +27,14 @@ public class LexicalTokenParserTest : LexicalTestBase
    [InlineData("true")]
    [InlineData("false")]
    [InlineData("while")]
    [InlineData("div")]
    [InlineData("not")]
    [InlineData("mod")]
    [InlineData("and")]
    [InlineData("or")]
    public void KeywordParserTest(string literalValue)
    {
-        Parser<char, LexicalToken> keyword = LexicalScanner.KeywordParser();
+        IParser<char, LexicalToken> keyword = LexicalScanner.KeywordParser();
        ValidateSuccessfulParser(keyword, LexicalTokenType.Keyword, literalValue, literalValue);
    }
@ -39,7 +44,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    [InlineData("todo")]
    public void FailedKeywordParserTest(string input)
    {
-        Parser<char, LexicalToken> keyword = LexicalScanner.KeywordParser();
+        IParser<char, LexicalToken> keyword = LexicalScanner.KeywordParser();
        ValidateFailedParser(keyword, input);
    }
@ -55,7 +60,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    [InlineData("..")]
    public void DelimiterParserTest(string literalValue)
    {
-        Parser<char, LexicalToken> delimiter = LexicalScanner.DelimiterParser();
+        IParser<char, LexicalToken> delimiter = LexicalScanner.DelimiterParser();
        ValidateSuccessfulParser(delimiter, LexicalTokenType.Delimiter, literalValue, literalValue);
    }
@ -63,7 +68,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    [InlineData(":=")]
    public void FailedDelimiterParserTest(string input)
    {
-        Parser<char, LexicalToken> delimiter = LexicalScanner.DelimiterParser();
+        IParser<char, LexicalToken> delimiter = LexicalScanner.DelimiterParser();
        ValidateFailedParser(delimiter, input);
    }
@ -81,7 +86,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    [InlineData(":=")]
    public void OperatorParserTest(string literalValue)
    {
-        Parser<char, LexicalToken> operatorParser = LexicalScanner.OperatorParser();
+        IParser<char, LexicalToken> operatorParser = LexicalScanner.OperatorParser();
        ValidateSuccessfulParser(operatorParser, LexicalTokenType.Operator, literalValue, literalValue);
    }
@ -94,7 +99,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    [InlineData("andand")]
    public void IdentifierParserTest(string literalValue)
    {
-        Parser<char, LexicalToken> identifier = LexicalScanner.IdentifierParser();
+        IParser<char, LexicalToken> identifier = LexicalScanner.IdentifierParser();
        ValidateSuccessfulParser(identifier, LexicalTokenType.Identifier, literalValue, literalValue);
    }
@ -102,10 +107,11 @@ public class LexicalTokenParserTest : LexicalTestBase
    [Theory]
    [InlineData(123, "123")]
    [InlineData(0, "0")]
    [InlineData(10, "10..20")]
    public void ConstIntegerTest(int value, string input)
    {
        StringReadState state = new(input);
-        ParseResult<char, LexicalToken> result = LexicalScanner.ConstIntegerParser().Parse(state);
+        IParseResult<char, LexicalToken> result = LexicalScanner.ConstIntegerParser().Parse(state);
        Assert.Equal(LexicalTokenType.ConstInteger, result.Value.TokenType);
        Assert.Equal(value, int.Parse(result.Value.LiteralValue));
@ -117,7 +123,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    public void ConstFloatTest(double value, string input)
    {
        StringReadState state = new(input);
-        ParseResult<char, LexicalToken> result = LexicalScanner.ConstFloatParser().Parse(state);
+        IParseResult<char, LexicalToken> result = LexicalScanner.ConstFloatParser().Parse(state);
        Assert.Equal(LexicalTokenType.ConstFloat, result.Value.TokenType);
        Assert.Equal(value, double.Parse(result.Value.LiteralValue));
@ -129,7 +135,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    public void CharTest(char value, string input)
    {
        StringReadState state = new(input);
-        ParseResult<char, LexicalToken> result = LexicalScanner.CharParser().Parse(state);
+        IParseResult<char, LexicalToken> result = LexicalScanner.CharParser().Parse(state);
        Assert.Equal(LexicalTokenType.Character, result.Value.TokenType);
        Assert.Equal(value, char.Parse(result.Value.LiteralValue));
@ -140,7 +146,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    public void StringTest(string value, string input)
    {
        StringReadState state = new(input);
-        ParseResult<char, LexicalToken> result = LexicalScanner.CharParser().Parse(state);
+        IParseResult<char, LexicalToken> result = LexicalScanner.CharParser().Parse(state);
        Assert.Equal(LexicalTokenType.String, result.Value.TokenType);
        Assert.Equal(value, result.Value.LiteralValue);
@ -152,7 +158,7 @@ public class LexicalTokenParserTest : LexicalTestBase
    public void CommentTest(string input)
    {
        StringReadState state = new(input);
-        ParseResult<char, Unit> result = LexicalScanner.CommentParser().Parse(state);
+        IParseResult<char, Unit> result = LexicalScanner.CommentParser().Parse(state);
        Assert.Equal(Unit.Instance, result.Value);
    }
@ -168,8 +174,8 @@ public class LexicalTokenParserTest : LexicalTestBase
    public void JunkTest(string input)
    {
        StringReadState state = new(input);
-        Parser<char, LexicalToken> parser = LexicalScanner.JunkParser().SkipTill(LexicalScanner.KeywordParser());
+        IParser<char, LexicalToken> parser = LexicalScanner.JunkParser().SkipTill(LexicalScanner.KeywordParser());
-        ParseResult<char, LexicalToken> result = parser.Parse(state);
+        IParseResult<char, LexicalToken> result = parser.Parse(state);
        Assert.Equal(LexicalTokenType.Keyword, result.Value.TokenType);
        Assert.Equal("program", result.Value.LiteralValue);
--- a/CanonSharp.Tests/TextTests/TextParserTests.cs
+++ b/CanonSharp.Tests/TextTests/TextParserTests.cs
@ -1,7 +1,7 @@
 using CanonSharp.Combinator.Abstractions;
 using CanonSharp.Combinator.Extensions;
 using CanonSharp.Combinator.Text;
-using CanonSharp.Common.Scanner;
+using CanonSharp.Pascal.Scanner;
 using CanonSharp.Tests.Utils;
 using static CanonSharp.Combinator.Text.TextParserBuilder;
@ -24,7 +24,7 @@ public class TextParserTests : ParserTestsBase
    [InlineData('d', "d")]
    public void OneOfTest(char except, string input)
    {
-        Parser<char, char> parser = OneOf("abcd");
+        IParser<char, char> parser = OneOf("abcd");
        ValidateSuccessfulResult(parser, except, input);
    }
@ -39,7 +39,7 @@ public class TextParserTests : ParserTestsBase
    [InlineData('D', "D")]
    public void OneOfIgnoreCaseTest(char except, string input)
    {
-        Parser<char, char> parser = OneOfIgnoreCase("abcd");
+        IParser<char, char> parser = OneOfIgnoreCase("abcd");
        ValidateSuccessfulResult(parser, except, input);
    }
@ -50,7 +50,7 @@ public class TextParserTests : ParserTestsBase
    [InlineData("Hello,World.")]
    public void StringIgnoreCaseTest(string literalValue)
    {
-        Parser<char, string> parser = StringIgnoreCase("hello,world.");
+        IParser<char, string> parser = StringIgnoreCase("hello,world.");
        ValidateSuccessfulResult(parser, literalValue, literalValue);
    }
@ -60,7 +60,7 @@ public class TextParserTests : ParserTestsBase
    [InlineData('9')]
    public void RangeTest(char except)
    {
-        Parser<char, char> parser = Range('0', '9');
+        IParser<char, char> parser = Range('0', '9');
        ValidateSuccessfulResult(parser, except, except.ToString());
        ValidateFailedResult(parser, "abc");
@ -161,8 +161,8 @@ public class TextParserTests : ParserTestsBase
                                    test
                                    """);
-        Parser<char, IEnumerable<string>> parser = StringIgnoreCase("test").SkipSpaceAndLineBreak().Many();
+        IParser<char, IEnumerable<string>> parser = StringIgnoreCase("test").SkipSpaceAndLineBreak().Many();
-        ParseResult<char, IEnumerable<string>> result = parser.Parse(state);
+        IParseResult<char, IEnumerable<string>> result = parser.Parse(state);
        Assert.All(result.Value, x => Assert.Equal("test", x.ToLower()));
    }
--- a/CanonSharp.Tests/Utils/GrammarParserTestBase.cs
+++ b/CanonSharp.Tests/Utils/GrammarParserTestBase.cs
@ -0,0 +1,31 @@
 using CanonSharp.Combinator.Abstractions;
 using CanonSharp.Pascal.Parser;
 using CanonSharp.Pascal.Scanner;
 using CanonSharp.Pascal.SyntaxTree;
 namespace CanonSharp.Tests.Utils;
 public abstract class GrammarParserTestBase
 {
    protected static T RunParser<T>(IParser<LexicalToken, SyntaxNodeBase> parser, string input) where T : SyntaxNodeBase
    {
        LexicalScanner scanner = new();
        LexicalTokenReadState state = new(scanner.Tokenize(new StringReadState(input)));
        IParseResult<LexicalToken, SyntaxNodeBase> parseResult = parser.Parse(state);
        return parseResult.Value.Convert<T>();
    }
    protected static List<T> RunParser<T>(IParser<LexicalToken, IEnumerable<SyntaxNodeBase>> parser,
        string input) where T : SyntaxNodeBase
    {
        LexicalScanner scanner = new();
        LexicalTokenReadState state = new(scanner.Tokenize(new StringReadState(input)));
        IParseResult<LexicalToken, IEnumerable<SyntaxNodeBase>> parseResult = parser.Parse(state);
        return parseResult.Value.Select(node => node.Convert<T>()).ToList();
    }
    protected static Program ProgramParse(string input)
        => RunParser<Program>(GrammarParser.ProgramParser(), input);
 }
--- a/CanonSharp.Tests/Utils/LexicalTestBase.cs
+++ b/CanonSharp.Tests/Utils/LexicalTestBase.cs
@ -1,36 +1,38 @@
 using CanonSharp.Combinator;
 using CanonSharp.Combinator.Abstractions;
-using CanonSharp.Common.Scanner;
+using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Tests.Utils;
 public abstract class LexicalTestBase
 {
-    protected static void ValidateSuccessfulParser(Parser<char, LexicalToken> parser, LexicalTokenType exceptedType,
+    protected static void ValidateSuccessfulParser(IParser<char, LexicalToken> parser, LexicalTokenType exceptedType,
        string literalValue, string input)
    {
        StringReadState state = new(input);
-        ParseResult<char, LexicalToken> result = parser.Parse(state);
+        IParseResult<char, LexicalToken> result = parser.Parse(state);
        Assert.Equal(exceptedType, result.Value.TokenType);
        Assert.Equal(literalValue, result.Value.LiteralValue);
    }
-    protected static void ValidateFailedParser(Parser<char, LexicalToken> parser, string input)
+    protected static void ValidateFailedParser(IParser<char, LexicalToken> parser, string input)
    {
        StringReadState state = new(input);
-        ParseResult<char, LexicalToken> result = parser.Parse(state);
+        IParseResult<char, LexicalToken> result = parser.Parse(state);
        Assert.ThrowsAny<ParseException>(() => result.Value);
    }
-    protected static void ValidateLexicalTokens(Parser<char, IEnumerable<LexicalToken>> parser, string input,
+    protected static void ValidateLexicalTokens(IParser<char, IEnumerable<LexicalToken>> parser, string input,
-        IEnumerable<(LexicalTokenType, string)> exceptedResult)
+        List<(LexicalTokenType, string)> exceptedResult)
    {
        StringReadState state = new(input);
-        ParseResult<char, IEnumerable<LexicalToken>> result = parser.Parse(state);
+        IParseResult<char, IEnumerable<LexicalToken>> result = parser.Parse(state);
        List<LexicalToken> actualResult = result.Value.ToList();
        Assert.Equal(exceptedResult.Count, actualResult.Count);
        foreach (((LexicalTokenType exceptedType, string exceptedValue), LexicalToken token) in exceptedResult.Zip(
-                     result.Value))
+                     actualResult))
        {
            Assert.Equal(exceptedType, token.TokenType);
            Assert.Equal(exceptedValue, token.LiteralValue);
--- a/CanonSharp.Tests/Utils/ParserTestsBase.cs
+++ b/CanonSharp.Tests/Utils/ParserTestsBase.cs
@ -1,26 +1,26 @@
 using CanonSharp.Combinator;
 using CanonSharp.Combinator.Abstractions;
-using CanonSharp.Common.Scanner;
+using CanonSharp.Pascal.Scanner;
 namespace CanonSharp.Tests.Utils;
 public abstract class ParserTestsBase
 {
-    protected static void ValidateSuccessfulResult<T>(Parser<char, T> parser, T value, string source)
+    protected static void ValidateSuccessfulResult<T>(IParser<char, T> parser, T value, string source)
    {
        StringReadState state = new(source);
-        ParseResult<char, T> result = parser.Parse(state);
+        IParseResult<char, T> result = parser.Parse(state);
        Assert.Equal(value, result.Value);
    }
    protected static void ValidateSuccessfulResult<T>(
-        Parser<char, IEnumerable<T>> parser,
+        IParser<char, IEnumerable<T>> parser,
        IEnumerable<T> values, string source)
    {
        StringReadState state = new(source);
-        ParseResult<char, IEnumerable<T>> result = parser.Parse(state);
+        IParseResult<char, IEnumerable<T>> result = parser.Parse(state);
        foreach ((T actual, T except) in result.Value.Zip(values))
        {
@ -28,16 +28,16 @@ public abstract class ParserTestsBase
        }
    }
-    protected static FailedResult<char, T> ValidateFailedResult<T>(Parser<char, T> parser, string source)
+    protected static IFailedResult<char, T> ValidateFailedResult<T>(IParser<char, T> parser, string source)
    {
        StringReadState state = new(source);
-        ParseResult<char, T> result = parser.Parse(state);
+        IParseResult<char, T> result = parser.Parse(state);
        Assert.ThrowsAny<ParseException>(() =>
        {
            _ = result.Value;
        });
-        return (FailedResult<char, T>)result;
+        return (IFailedResult<char, T>)result;
    }
 }
--- a/CanonSharp.sln
+++ b/CanonSharp.sln
@ -5,7 +5,7 @@ VisualStudioVersion = 17.0.31903.59
 MinimumVisualStudioVersion = 10.0.40219.1
 Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "CanonSharp.Tests", "CanonSharp.Tests\CanonSharp.Tests.csproj", "{5A28EF92-805F-44E9-8E13-EA9A5BB623BB}"
 EndProject
-Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "CanonSharp.Common", "CanonSharp.Common\CanonSharp.Common.csproj", "{288943FE-E3E6-49E2-8C6F-9B5B9242266C}"
+Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "CanonSharp.Pascal", "CanonSharp.Pascal\CanonSharp.Pascal.csproj", "{288943FE-E3E6-49E2-8C6F-9B5B9242266C}"
 EndProject
 Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = ".gitea", ".gitea", "{B97A35A0-4616-4B3F-8F73-A66827BC98BA}"
 EndProject