Canon/Canon.Core/LexicalParser/Lexer.cs

774 lines
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C#
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using System.Numerics;
using System.Text;
using Canon.Core.Enums;
using Canon.Core.Exceptions;
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namespace Canon.Core.LexicalParser;
public class Lexer(string source)
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{
// 保留关键字
private readonly string[] _keywords =
[
"Program", "Const", "Var", "Procedure",
"Function", "Begin", "End", "Array",
"Of", "If", "Then", "Else",
"For", "To", "Do", "Integer",
"Real", "Boolean", "Character", "Divide",
"Not", "Mod", "And", "Or"
];
private readonly string[] _delimiter = [";", ",", ":", ".", "(", ")", "[", "]", "'", "\"", ".."];
private readonly string[] _operator = ["=", "<>", "<", "<=", ">", ">=", "+", "-", "*", "/", ":="];
// 状态机
private StateType _state;
private char _ch;
private LinkedList<char> _token = new LinkedList<char>();
// bool save;
// int saved_state;
bool _finish;
//缓冲区
private readonly char[] _buffer = new char[2048];
// int start_pos;
private int _fwdPos;
// 计数器
private uint _line = 1;
private uint _chPos;
private readonly Dictionary<SemanticTokenType, int> _tokenCount = new Dictionary<SemanticTokenType, int>
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{
{ SemanticTokenType.Keyword, 0 },
{ SemanticTokenType.Number, 0 },
{ SemanticTokenType.Operator, 0 },
{ SemanticTokenType.Delimiter, 0 },
{ SemanticTokenType.Identifier, 0 },
{ SemanticTokenType.Character, 0 },
{ SemanticTokenType.Error, 0 },
{ SemanticTokenType.End, 0 }
};
private readonly List<SemanticToken> _tokens = [];
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public List<SemanticToken> Tokenize()
{
// 缓冲区
// start_pos = 0;
_fwdPos = 0;
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// 状态机
_finish = false;
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while (!_finish)
{
GetChar();
GetNbc();
if (_finish) break;
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_token = new LinkedList<char>();
if (IsLetter())
{
_state = StateType.Word;
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}
else if(_ch == '.')
{
char next = PeekNextChar();
if (next >= '0' && next <= '9')
{
_state = StateType.Digit;
}
else
{
_state = StateType.Delimiter;
}
}
else if (IsDigit() || _ch == '$')
{
_state = StateType.Digit;
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}
else if (IsDelimiter())
{
_state = StateType.Delimiter;
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}
else if (_ch == '{')
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{
while (_ch != '}')
{
GetChar();
if (_ch == '\n')
{
_line++;
_chPos = 0;
}
if (_finish)
{
throw new LexemeException(LexemeErrorType.UnclosedComment, _line, _chPos, "The comment is not closed.");
}
}
continue;
}
else
{
_state = StateType.Operator;
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}
switch (_state)
{
case StateType.Word:
while (IsDigit() || IsLetter())
{
Cat();
GetChar();
}
Retract();
if (IsKeyword())
{
KeywordType keywordType =
KeywordSemanticToken.GetKeywordTypeByKeyword(LinkedListToString(_token.First));
MakeToken(keywordType);
}
else
{
MakeToken(SemanticTokenType.Identifier);
}
break;
case StateType.Digit:
DealNumber();
break;
case StateType.Delimiter:
Cat();
switch (_ch)
{
case '.':
{
GetChar();
if (_ch == '.')
{
Cat();
MakeToken(DelimiterType.DoubleDots);
break;
}
Retract();
if (IsDot())
{
MakeToken(DelimiterType.Dot);
}
else
{
MakeToken(DelimiterType.Period);
}
}
break;
case '\'':
case '\"':
{
// 重置_token准备收集字符串内容
_token = new LinkedList<char>();
GetChar(); // 移动到下一个字符,即字符串的第一个字符
while (_ch != '\'' && _ch != '\"')
{
Cat(); // 收集字符
GetChar(); // 移动到下一个字符
if (_ch == '\n' || _finish)
{
throw new LexemeException(LexemeErrorType.UnclosedStringLiteral, _line, _chPos, "The String is not closed.");
}
}
MakeToken(SemanticTokenType.Character); // 或其它适用于字符串字面量的SemanticTokenType
_token = new LinkedList<char>(); // 重置_token
if (!(_ch == '\'' || _ch == '\"'))
{
throw new LexemeException(LexemeErrorType.UnclosedStringLiteral, _line, _chPos, "The String is not closed.");
}
}
break;
case ',':
MakeToken(DelimiterType.Comma);
break;
case ':':
char nextChar = PeekNextChar();
if (nextChar == '=')
{
GetChar();
Cat();
MakeToken(OperatorType.Assign);
}
else
{
MakeToken(DelimiterType.Colon);
}
break;
case ';':
MakeToken(DelimiterType.Semicolon);
break;
case '(':
char next = PeekNextChar();
if (next == '*')
{
GetChar();
bool commentClosed = false;
while (!commentClosed)
{
GetNbc();
GetChar();
while (_ch != '*')
{
GetNbc();
GetChar();
if (_finish)
{
throw new LexemeException(LexemeErrorType.UnclosedComment, _line, _chPos, "The comment is not closed.");
}
}
GetChar();
if (_finish)
{
throw new LexemeException(LexemeErrorType.UnclosedComment, _line, _chPos, "The comment is not closed.");
}
if (_ch == ')') commentClosed = true;
}
}
else
{
MakeToken(DelimiterType.LeftParenthesis);
}
break;
case ')':
MakeToken(DelimiterType.RightParenthesis);
break;
case '[':
MakeToken(DelimiterType.LeftSquareBracket);
break;
case ']':
MakeToken(DelimiterType.RightSquareBracket);
break;
}
break;
case StateType.Operator:
DealOther();
break;
default:
throw new ArgumentOutOfRangeException();
}
}
return _tokens;
}
private void DealNumber()
{
// 十六进制
if (_ch == '$')
{
Cat();
GetChar();
while (!NumberShouldBreak())
{
// 假设IsHexDigit方法能够识别十六进制数字
if (IsHexDigit())
{
Cat();
GetChar();
}
else if(NumberShouldBreak())
{
break;
}
else
{
throw new LexemeException(LexemeErrorType.IllegalNumberFormat, _line, _chPos, "Illegal hex numbers!");
}
}
MakeToken(NumberType.Hex);
return;
}
// 非十六进制
if(IsDigit() || _ch == '.')
{
while (!NumberShouldBreak())
{
// 含小数部分
if (_ch == '.')
{
// 检查是否是符号 “..”
char next = PeekNextChar();
if (next == '.')
{
Retract();
break;
}
// 不是符号 “..”,进入小数点后的判断
Cat(); // 记录“.”
// “.”后不应为空,至少应该有一位小数
GetChar();
if (NumberShouldBreak())
{
throw new LexemeException(LexemeErrorType.IllegalNumberFormat, _line, _chPos, "Illegal numbers!");
}
// 读取小数点后的数字
while (!NumberShouldBreak())
{
if (IsDigit())
{
Cat();
GetChar();
}
else if (_ch == 'e' || _ch == 'E')
{
DealE();
break;
}
else if(NumberShouldBreak())
{
break;
}
else
{
throw new LexemeException(LexemeErrorType.IllegalNumberFormat, _line, _chPos, "Illegal number.");
}
}
MakeToken(NumberType.Real);
return;
}
// 不含小数部分,含科学计数法
if (_ch == 'e' || _ch == 'E')
{
DealE();
MakeToken(NumberType.Real);
return;
}
// 暂时为整数
if (IsDigit())
{
Cat();
GetChar();
}
else if(NumberShouldBreak())
{
break;
}
else
{
throw new LexemeException(LexemeErrorType.IllegalNumberFormat, _line, _chPos, "Illegal number.");
}
}
MakeToken(NumberType.Integer);
}
}
private void DealE()
{
Cat();
GetChar();
if (IsDigit() || _ch == '+' || _ch == '-')
{
Cat();
}
else
{
throw new LexemeException(LexemeErrorType.IllegalNumberFormat, _line, _chPos, "Illegal number.");
}
// 读取e后的数字
GetChar();
while (!NumberShouldBreak())
{
if (IsDigit())
{
Cat();
GetChar();
}
else
{
throw new LexemeException(LexemeErrorType.IllegalNumberFormat, _line, _chPos, "Illegal number.");
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}
}
}
bool NumberShouldBreak()
{
if (_ch == ' ' || _ch == '\n' || _ch == '\t' || _ch == '\r' || (IsDelimiter() && _ch!='.') || IsOperator() || _finish)
{
Retract();
return true;
}
return false;
}
private bool IsOperator()
{
foreach (var o in _operator)
{
if (o.Contains(_ch))
{
return true;
}
}
return false;
}
private bool IsDot()
{
if (_tokens.Count != 0)
{
SemanticToken tokenBefore = _tokens.Last();
if (tokenBefore.TokenType == SemanticTokenType.Identifier) return true;
}
return false;
}
private void DealOther()
{
switch (_ch)
{
case '+': // 识别 +
Cat();
MakeToken(OperatorType.Plus);
break;
case '-': // 识别 -
Cat();
MakeToken(OperatorType.Minus);
break;
case '*': // 识别 *
Cat();
MakeToken(OperatorType.Multiply);
break;
case '/': // 识别 /
Cat();
MakeToken(OperatorType.Divide);
break;
case '=':
Cat();
MakeToken(OperatorType.Equal);
break;
case '<':
Cat();
GetChar();
if (_ch == '=')
{
// 识别 <=
Cat();
MakeToken(OperatorType.LessEqual);
}
else if(_ch == '>')
{
// 识别 <>
Cat();
MakeToken(OperatorType.NotEqual);
}
else
{
// 识别 <
Retract();
MakeToken(OperatorType.Less);
}
break;
case '>':
Cat();
GetChar();
if (_ch == '=')
{
// 识别 >=
Cat();
MakeToken(OperatorType.GreaterEqual);
}
else
{
// 识别 >
Retract();
MakeToken(OperatorType.Greater);
}
break;
default:
throw new LexemeException(LexemeErrorType.UnknownCharacterOrString, _line, _chPos, "Illegal lexeme.");
}
}
private void MakeToken(SemanticTokenType tokenType)
{
SemanticToken? token;
if (_token.First == null)
{
Console.WriteLine("11");
}
switch (tokenType)
{
case SemanticTokenType.Character:
CharacterSemanticToken characterSemanticToken = new CharacterSemanticToken()
{
LinePos = _line, CharacterPos = _chPos, LiteralValue = LinkedListToString(_token.First),
};
token = characterSemanticToken;
break;
case SemanticTokenType.Identifier:
IdentifierSemanticToken identifierSemanticToken = new IdentifierSemanticToken()
{
LinePos = _line, CharacterPos = _chPos, LiteralValue = LinkedListToString(_token.First),
};
token = identifierSemanticToken;
break;
default:
throw new ArgumentOutOfRangeException(nameof(tokenType), tokenType, null);
}
if (token != null)
{
_tokens.Add(token);
_tokenCount[tokenType]++;
Console.WriteLine($"<{tokenType}>");
Console.WriteLine(LinkedListToString(_token.First));
}
}
private void MakeToken(KeywordType keywordType)
{
KeywordSemanticToken keywordSemanticToken = new KeywordSemanticToken
{
LinePos = _line,
CharacterPos = _chPos,
LiteralValue = LinkedListToString(_token.First),
KeywordType = keywordType
};
_tokens.Add(keywordSemanticToken);
_tokenCount[SemanticTokenType.Keyword]++;
Console.WriteLine($"<{SemanticTokenType.Keyword}> <{keywordType}>");
Console.WriteLine(LinkedListToString(_token.First));
}
private void MakeToken(DelimiterType delimiterType)
{
DelimiterSemanticToken delimiterSemanticToken = new DelimiterSemanticToken()
{
LinePos = _line,
CharacterPos = _chPos,
LiteralValue = LinkedListToString(_token.First),
DelimiterType = delimiterType
};
_tokens.Add(delimiterSemanticToken);
_tokenCount[SemanticTokenType.Delimiter]++;
Console.WriteLine($"<{SemanticTokenType.Delimiter}> <{delimiterType}>");
Console.WriteLine(LinkedListToString(_token.First));
}
private void MakeToken(NumberType numberType)
{
string temp = LinkedListToString(_token.First);
string result;
if (numberType == NumberType.Hex)
{
result = string.Concat("0x", temp.AsSpan(1, temp.Length - 1));
}
else
{
result = temp;
}
NumberSemanticToken numberSemanticToken = new NumberSemanticToken()
{
LinePos = _line,
CharacterPos = _chPos,
LiteralValue = result,
NumberType = numberType
};
_tokens.Add(numberSemanticToken);
_tokenCount[SemanticTokenType.Number]++;
Console.WriteLine($"<{SemanticTokenType.Number}> <{numberType}>");
Console.WriteLine(LinkedListToString(_token.First));
}
private void MakeToken(OperatorType operatorType)
{
OperatorSemanticToken operatorSemanticToken = new OperatorSemanticToken()
{
LinePos = _line,
CharacterPos = _chPos,
LiteralValue = LinkedListToString(_token.First),
OperatorType = operatorType
};
_tokens.Add(operatorSemanticToken);
_tokenCount[SemanticTokenType.Operator]++;
Console.WriteLine($"<{SemanticTokenType.Operator}> <{operatorType}>");
Console.WriteLine(LinkedListToString(_token.First));
}
// 读取字符操作
void GetChar() {
if (_fwdPos >= 0 && _fwdPos < source.Length)
{
_ch = source[_fwdPos];
_chPos++;
_fwdPos++;
}
else if (_fwdPos == source.Length)
{
_ch = '\0';
_chPos++;
_finish = true;
}
}
private void GetNbc() {
while (_ch == ' ' || _ch == '\n' || _ch == '\t' || _ch == '\r') {
if (_ch == '\n') {
_line++;
_chPos = 0;
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}
GetChar();
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}
}
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private void Retract() {
_fwdPos -= 2;
_chPos -= 2;
GetChar();
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}
private void Cat()
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{
_token.AddLast(_ch);
// cout << "加入" << ch << endl;
}
private string LinkedListToString(LinkedListNode<char> first)
{
// 使用 StringBuilder 来构建字符串
StringBuilder sb = new StringBuilder();
for (LinkedListNode<char> node = first; node != null; node = node.Next)
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{
sb.Append(node.Value);
}
// 将 StringBuilder 的内容转换为字符串
string result = sb.ToString();
return result;
}
// 判断字符
private bool IsDigit() {
if (_ch >= '0' && _ch <= '9') return true;
return false;
}
private bool IsHexDigit()
{
if ((_ch >= '0' && _ch <= '9') || (_ch<= 'F' && _ch >= 'A')) return true;
return false;
}
private bool IsLetter() {
if ((_ch >= 'A' && _ch <= 'Z') || (_ch >= 'a' && _ch <= 'z' || _ch == '_')) {
return true;
}
return false;
}
private bool IsKeyword()
{
string tokenString = LinkedListToString(_token.First);
foreach (var t in _keywords)
{
if (string.Equals(tokenString, t, StringComparison.OrdinalIgnoreCase)) return true;
}
return false;
}
private bool IsDelimiter()
{
foreach (var delimiter in _delimiter)
{
if (delimiter.Contains(_ch))
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{
return true;
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}
}
return false;
}
private char PeekNextChar()
{
// 确认下一个位置是否仍在buffer的范围内
if (_fwdPos < source.Length)
{
return source[_fwdPos];
}
return '\0';
}
private void PrintToken(SemanticTokenType type, LinkedListNode<char> token, uint line)
{
string tokenString = LinkedListToString(token);
string typeName = Enum.GetName(typeof(SemanticTokenType), type) ?? "Unknown";
Console.WriteLine($"{line} <{typeName.ToUpperInvariant()},{tokenString}>");
}
// PrintToken(SemanticTokenType.Keyword, "if", 42); // 假设'if'是token42是行号
private void PrintError(int type, LinkedListNode<char> token, uint line)
{
string tokenString = LinkedListToString(token);
switch (type)
{
case 0:
Console.WriteLine($"{line} <ERROR,{tokenString}>");
break;
case 1:
Console.WriteLine($"{line} <ERROR,@>");
break;
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}
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}
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// PrintError(0, "unexpected symbol", 42); // 假设 "unexpected symbol" 是错误的 token42 是行号
private void PrintResult()
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{
Console.WriteLine(_line);
foreach (var pair in _tokenCount)
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{
Console.WriteLine($"{pair.Key}: {pair.Value}");
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}
}
}