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i'm trying to write an equation parser for equations like: 4*sin(1+cos(10/2)) I use lex to get the tokens and yacc as the parser module.

My actual problem now is that i dont know how to define the grammar for functions. A function is usually constructed like this FunctionName( Expression) so for the parser grammar it would be function : FUNCTION LPAREN expression RPAREN (i hope).

But how im going to treat functions that are build like that sin(3+cos(0)*10). This woulde a function within a function, not forgetting to care about 3+ and *10. Hope i've pointed out my problem good enough.

Here's my code:

import ply.lex as lex
import ply.yacc as yacc
import math

tokens = (

t_PLUS = r'\+'
t_MINUS = r'-'
t_TIMES = r'\*'
t_DIV = r'/'
t_LPAREN = r'\('
t_RPAREN = r'\)'

t_ignore = ' '

def t_NUMBER(t):
    t.value = float(t.value)
    return t

def t_FUNCTION(t):
    return t

def t_error(t):
    print("Illegal character '%s'" % t.value[0])

# Parser
Here i need some help
def p_function_exp(p):
    'function : expression PLUS function'
    p[0] = p[1] + p[3]

def p_function(p):
    'function : FUNCTION LPAREN expression RPAREN'
    if p[1] == 'sin':
        p[0] = math.sin(p[3])

def p_expression_minus(p):
    'expression : expression MINUS term'
    p[0] = p[1] - p[3]

def p_expression_plus(p):
    'expression : expression PLUS term'
    p[0] = p[1] + p[3]

def p_expression_term(p):
    'expression : term'
    p[0] = p[1]

def p_term_div(p):
    'term : term DIV factor'
    p[0] = p[1] / p[3]

def p_term_times(p):
    'term : term TIMES factor'
    p[0] = p[1] * p[3]

def p_term_factor(p):
    'term : factor'
    p[0] = p[1]

def p_factor(p):
    'factor : NUMBER'
    p[0] = p[1]

def p_factor_exp(p):
    'factor : LPAREN expression RPAREN'
    p[0] = p[2]

# Error rule for syntax errors
def p_error(p):
    print("Syntax error in input!")

# Build the parser
parser = yacc.yacc()

while True:
        s = input('>> ')
        equation = lex.lex()
        while True:
            tok = equation.token()
            if not tok: break
    except EOFError:
    if not s: continue
    result = parser.parse(s)

Thanks in advance! John

share|improve this question
If you re-arrange the parser so that a function call is just a part of the expression then it will solve itself. – Joachim Pileborg Sep 1 '12 at 12:15
You mean like this? def p_expression_func(p): 'expression : FUNCTION LPAREN expression RPAREN' – Sean M. Sep 1 '12 at 12:20

1 Answer 1

up vote 2 down vote accepted

A traditional Yacc-grammar for simple expressions usually looks something like this:

    : add_sub_expr

    : mul_div_expr
    | mul_div_expr '+' add_sub_expr
    | mul_div_expr '-' add_sub_expr

    : funcall_expr
    | funcall_expr '*' mul_div_expr
    | funcall_expr '/' mul_div_expr

    : prim_expr
    | FUNCTION_NAME '(' expression_list ')'

    : NUMBER
    | '(' expression ')'

    : expression
    | expression ','  expression_list

The above grammar will make function calls a direct part of the expression, with higher precedence than multiplication and division.

For FUNCTION_NAME you can either have one line each for each function (if you list of functions is short) or a non-terminal that contains a list of the function identifiers, or a special terminal (like in my grammar) or just a generic identifier terminal.

share|improve this answer
Okay, thanks! I'll give it a try now. What does the comma in the expression_list stand for? – Sean M. Sep 1 '12 at 12:41
@JohnSmith Just comma... :) So you can have functions with multiple arguments. – Joachim Pileborg Sep 1 '12 at 12:46
Awesome, works just great! – Sean M. Sep 1 '12 at 13:03

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