Ejemplo n.º 1
0
    def parse_expr(self):
        """ Expression ::=  primary-Expression (Operator primary-Expression)* """
        token = self.token_current()
        token_lookahead = self.token_lookahead()
        if token_lookahead.type == scanner.TK_LPAREN:
            """ Identifier '(' Param ')' """
            ident = token.val  # save ident name
            self.token_accept(scanner.TK_IDENTIFIER)  # scan the token
            self.token_accept(scanner.TK_LPAREN)  # accept left paren
            expr = self.parse_param_expr()
            self.token_accept(scanner.TK_RPAREN)

            e1 = ast.CallCommand(ident, expr)
        else:
            e1 = self.parse_secexpr()
            token = self.token_current()

            while token.type == scanner.TK_OPERATOR and token.val in [
                    '+', '-', '<', '>', '='
            ]:
                oper = token.val
                self.token_accept_any()
                e2 = self.parse_secexpr()
                e1 = ast.BinaryExpression(e1, oper, e2)
                token = self.token_current()

        return e1
Ejemplo n.º 2
0
    def parse_add_expression(self):
        e1 = self.parse_mul_expression()
        token = self.token_current()

        while token.type == scanner.TK_OPERATOR and token.val in ['+', '-']:
            oper = token.val
            self.token_accept_any()
            e2 = self.parse_mul_expression()
            token = self.token_current()
            e1 = ast.BinaryExpression(e1, oper, e2)
        return e1
Ejemplo n.º 3
0
 def p_expression_math(self, p):
     """
     expression : expression PLUS expression
                | expression MINUS expression
                | expression TIMES expression
                | expression DIVIDE expression
                | expression MPLUS expression
                | expression MMINUS expression
                | expression MTIMES expression
                | expression MDIVIDE expression
     """
     p[0] = ast.BinaryExpression(p[1], p[2], p[3], p.lexer.lexer.lineno)
    def parse_tertiary_expression(self):
        """ Sec-Expression ( Oper-Sec Sec-Expression )* """

        e1 = self.parse_secondary_expression()
        token = self.token_current()
        while token.type == scanner.TK_OPERATOR and token.val in ['+', '-']:
            oper = token.val
            self.token_accept_any()
            e2 = self.parse_secondary_expression()
            token = self.token_current()
            e1 = ast.BinaryExpression(e1, oper, e2)
        return e1
Ejemplo n.º 5
0
    def parse_expr(self):
        """ Expression ::= primary-Expression (operator primary-Expression)* """
        e1 = self.parse_pri_expr()
        token = self.token_current()

        while (token.type == scanner.TK_OPERATOR):
            op = token.val
            self.token_accept(scanner.TK_OPERATOR)
            e2 = self.parse_pri_expr()
            token = self.token_current()
            e1 = ast.BinaryExpression(e1, op, e2)

        return e1
Ejemplo n.º 6
0
 def parse_secexpr(self):
     """ SecExpr :== PriExpr (OPER_PRI PriExpr)*"""
     e1 = self.parse_priexpr()
     token = self.token_current()
     while token.type == scanner.TK_OPERATOR and token.val in [
             '*', '/', '\\'
     ]:
         oper = token.val
         self.token_accept_any()
         e2 = self.parse_priexpr()
         token = self.token_current()
         e1 = ast.BinaryExpression(e1, oper, e2)
     return e1
Ejemplo n.º 7
0
    def parse_expression(self):
        """ Expression ::=  primary-Expression (Operator primary-Expression)* """

        e1 = self.parse_add_expression()
        token = self.token_current()
        while token.type == scanner.TK_OPERATOR and token.val in [
                '<', '=', '>'
        ]:
            oper = token.val
            self.token_accept_any()
            e2 = self.parse_add_expression()
            token = self.token_current()
            e1 = ast.BinaryExpression(e1, oper, e2)
        return e1
    def parse_secondary_expression(self):
        """ Pri-Expression ( Oper-Pri Pri-Expression )* """

        e1 = self.parse_primary_expression()
        token = self.token_current()
        while token.type == scanner.TK_OPERATOR and token.val in [
                '*', '/', ''
        ]:
            oper = token.val
            self.token_accept_any()
            e2 = self.parse_primary_expression()
            token = self.token_current()
            e1 = ast.BinaryExpression(e1, oper, e2)
        return e1
Ejemplo n.º 9
0
 def p_relation(self, p):
     """relation : expression comparison_operator expression"""
     p[0] = ast.BinaryExpression(p[1], p[2], p[3], p.lexer.lexer.lineno)