Esempio n. 1
0
        private string GenerateCode(string file)
        {
            StreamReader?sr;

            try
            {
                sr = new StreamReader(file);
            }
            catch (Exception ex) when(
                ex is DirectoryNotFoundException ||
                ex is FileNotFoundException)
            {
                throw new Exception($"Run: Could not find input file -> {file}", ex);
            }
            string uncompiledCode = sr.ReadToEnd();

            Log.Here().Verbose($"Uncompiled code -> \n{uncompiledCode}");
            TokenList tokens = Tokenize(uncompiledCode);

            Parser      parser;
            List <Stmt>?tree;

            try
            {
                parser = new Parser(tokens);
                tree   = parser.Tree;
            }
            catch (Exception ex)
            {
                throw new Exception($"Could not parse code -> Parser: {tokens}", ex);
            }
            Log.Here().Verbose($"Statement Tree -> {JsonSerializer.Serialize(tree)}");

            Compiler compiler     = new Compiler(tree);
            string   compiledCode = compiler.GetCode();

            compiledCode += LoadImports(parser.Imports);
            return(compiledCode);
        }
Esempio n. 2
0
 public static Return Parse(TokenList _tokens)
 {
     return(new Return(Expr.Parse(_tokens)));
 }
Esempio n. 3
0
        public static Expr Parse(TokenList _tokens)
        {
            Expr? ret = null;
            Token t   = _tokens.GetToken();

            if (_tokens.PeekToken().TokenName == Lexer.Tokens.LeftParan)
            {
                string ident = "";

                if (t.TokenName == Lexer.Tokens.Ident)
                {
                    ident = t.TokenValue.ToString();
                }

                _tokens.Pos++;

                if (_tokens.PeekToken().TokenName == Lexer.Tokens.RightParan)
                {
                    ret = new CallExpr(ident, new List <Expr>());
                }
                else
                {
                    ret = new CallExpr(ident, Call.ParseArgs(_tokens));
                }
            }
            else if (t.TokenName == Lexer.Tokens.IntLiteral)
            {
                string originalStr = t.TokenValue.ToString().BinaryStrToStr()
                                     .Replace(ITokens.IPartial.INT_LITERAL, ""); // remove int-literals to parse to number
                IntLiteral i = new IntLiteral(
                    Convert.ToInt32(
                        originalStr
                        )
                    );
                ret = i;
            }
            else if (t.TokenName == Lexer.Tokens.StringLiteral)
            {
                StringLiteral s = new StringLiteral(t.TokenValue.ToString());
                ret = s;
            }
            else if (t.TokenName == Lexer.Tokens.Ident)
            {
                string ident = t.TokenValue.ToString();

                Ident i = new Ident(ident);
                ret = i;
            }
            else if (t.TokenName == Lexer.Tokens.LeftParan)
            {
                Expr e = Expr.Parse(_tokens);

                if (_tokens.PeekToken().TokenName == Lexer.Tokens.RightParan)
                {
                    _tokens.Pos++;
                }

                ParanExpr p = new ParanExpr(e);

                if (_tokens.PeekToken().TokenName == Lexer.Tokens.Add)
                {
                    _tokens.Pos++;
                    Expr expr = Expr.Parse(_tokens);
                    ret = new MathExpr(p, Symbol.add, expr);
                }
                else if (_tokens.PeekToken().TokenName == Lexer.Tokens.Sub)
                {
                    _tokens.Pos++;
                    Expr expr = Expr.Parse(_tokens);
                    ret = new MathExpr(p, Symbol.sub, expr);
                }
                else if (_tokens.PeekToken().TokenName == Lexer.Tokens.Mul)
                {
                    _tokens.Pos++;
                    Expr expr = Expr.Parse(_tokens);
                    ret = new MathExpr(p, Symbol.mul, expr);
                }
                else if (_tokens.PeekToken().TokenName == Lexer.Tokens.Div)
                {
                    _tokens.Pos++;
                    Expr expr = Expr.Parse(_tokens);
                    ret = new MathExpr(p, Symbol.div, expr);
                }
                else
                {
                    ret = p;
                }
            }

            if (_tokens.PeekToken().TokenName == Lexer.Tokens.Add ||
                _tokens.PeekToken().TokenName == Lexer.Tokens.Sub ||
                _tokens.PeekToken().TokenName == Lexer.Tokens.Mul ||
                _tokens.PeekToken().TokenName == Lexer.Tokens.Div)
            {
                Expr?  lexpr = ret;
                Symbol op    = 0;

                if (_tokens.PeekToken().TokenName == Lexer.Tokens.Add)
                {
                    op = Symbol.add;
                }
                else if (_tokens.PeekToken().TokenName == Lexer.Tokens.Sub)
                {
                    op = Symbol.sub;
                }
                else if (_tokens.PeekToken().TokenName == Lexer.Tokens.Mul)
                {
                    op = Symbol.mul;
                }
                else if (_tokens.PeekToken().TokenName == Lexer.Tokens.Div)
                {
                    op = Symbol.div;
                }

                _tokens.Pos++;

                Expr rexpr = Expr.Parse(_tokens);

                ret = new MathExpr(
                    lexpr ?? throw new Exception($"Left expression of mathematical expression is missing: '{op}'->'{rexpr}'"),
                    op,
                    rexpr);
            }

            if (ret == null)
            {
                throw new Exception($"Caught unexpected expression -> '{t.TokenName}':'{t.TokenValue}' at position '{_tokens.Pos}', total-length: '{_tokens.Tokens.Count}'");
            }
            return(ret);
        }