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I have an idea for a simple program to make that will help me with operator precedence in languages like C. The most difficult part of this is parenthesizing the expression. For example, I want this:

*a.x++ = *b.x++

Converted to this:

((*(((a).(x))++)) = (*(((b).(x))++)))

Which I did manually in these steps:

           *a.x++ = *b.x++
       *(a).(x)++ = *(b).(x)++
     *((a).(x))++ = *((b).(x))++
   *(((a).(x))++) = *(((b).(x))++)
 (*(((a).(x))++)) = (*(((b).(x))++))
((*(((a).(x))++)) = (*(((b).(x))++)))

What is the best way to accomplish this programmatically? Is there already a solution out there that I could use? I'd prefer to do this in either PHP, C, C++, Python, or Ruby.

(This isn't the whole idea of my program, it is only the first step.)

share|improve this question
You say this is only the first step of your program - do you actually need to add parentheses to the text representation of the expression, or do you simply need to construct an AST (an in-memory representation of the expression)? – Nick Johnson Nov 2 '11 at 23:34

10 Answers 10

up vote 2 down vote accepted

Just pick up a parser for your selected language, for instance C parser, parse the expression/source code and print the AST back in the way you want.


void main(void){
    int c = 2;


$ python
>>> import pycparser
>>> test = pycparser.parse_file('test.c')
    Decl: main, [], []
          Typename: []
            TypeDecl: None, []
              IdentifierType: ['void']
        TypeDecl: main, []
          IdentifierType: ['void']
      Decl: c, [], []
        TypeDecl: c, []
          IdentifierType: ['int']
        Constant: int, 2
>>> for node in test.ext:
...     print node
<pycparser.c_ast.FuncDef object at 0x7fe1436db750>
share|improve this answer

You're going to need a parser of some sort that understands operator precendence. The usual version for C is Lexx/Yacc or flex/bison, and the easiest way to do it is construct a parse tree. Once you've done that, just walk the parse tree in the "preorder" order and emit parens as you enter and leave a node.

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The most reliable way will be to parse the expression (taking into account precedence rules, of course) and then process the resulting AST (Abstract Syntax Tree) in a top-down manner, adding parenthesis as you move along

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How about converting to postfix and evaluating. Can you try if the following approach works. Lets take *a.x++

Operator    Precedence 	Arguments Needed
.           3               2
++          2               1
*           1               1

So now convert the expression to postfix notation. This should give you

a x . ++ *

Now evaluation of postfix is as simple as pushing things into a stack, when you hit an operator, pop the top n (as needed by operator) elements and pass them as arguments, store results back onto the stack. In your case, instead of evaluating, you'd return a textual representation of the operation

Read a  	a
Read x  	x
Read .  	(a.x)
Read ++ 	((a.x)++)
Read *  	(*((a.x)++))

if it helps, you may want to look at:
Bart de smet's DynCalc series of posts
My attempt at TDDing a similar solution

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You could create a binary expression tree from the operators.

I believe there are several algorithms available online to create such tree already.

One simple way I could think of, is by sorting the operator by precedence, and then split the string into 2 parts by the operator with the lowest precedence first, then continue recursively splitting the other 2 parts down over and over and then eventually, you'll have the expression in binary tree form.

And then when you have the expression in binary tree form, you can then "parenthesize" up from the tree's leaves up to the root.

And of course, you could compile a full-fledged parser via yacc/bison.

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As a simple example:

Exp = Term | Exp, AddOp, Term 
Term = Factor | Term, MulOp, Factor
Factor = Number | Ident | PreOp, Factor | (, Exp, ) | Factor, PostOp

You can uses the grammar to write the translations:

Exp    = Term                    -> Term
       | Exp, AddOp, Term        -> (, Exp, AddOp, Term, )
Term   = Factor                  -> Factor
       | Term, MulOp, Factor     -> (, Term, MulOp, Factor, )
Factor = Number                  -> Number
       | Ident                   -> Ident
       | PreOp, Factor           -> (, PreOp, Factor, )
       | (, Exp, )               -> (, Exp, )
       | Factor, PostOp          -> (, Factor, PostOp, )

In which case:

a-- + b * (a+b)

Translates to:

((a--) + (b * ((a+b))))
share|improve this answer

Parsing is a huge topic. Since you just want to use it to solve a specific problem, try not to get immersed in all these specific parsing algorithms that people are suggesting. Rather, there are numerous parser generators, such as antler or bison which, given an appropriate grammar, will parse text and allow you to perform programmatic operations on the components -- such as put parentheses around them. Some of these systems come with grammars for C, or have such grammars available.

antlr can generate parsers in any of the languages you mentioned; see

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You can find "cparen" in the archives of the old net.sources newsgroup.

If you search (Google) for 'cparen', you get too much noise, but if you search for net.sources and 'cparen.c' that narrows the search enough to be useful.

Here is one website:

It is not a shell archive, as I would have expected. It looks like a pure ASCII text tar file. There are few enough files that you could just unpack it by hand.

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There is a very old (1980's) open source program to do exactly this. It's called "cparen", but I'm damned if I can find it on the net. Only enthusiastic mentions of it, e.g.

If you have more luck than me in finding it, do write

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I wrote a program in Python to parenthesize an expression string.

def pref(op):
    print "called with op", op
    ret = -1
    if op == '+':
        print "matched +"
        ret = 1
    if op == '-':
        print "matched -"
        ret = 2
    if op == '*':
        print "matched *"
        ret = 3
    if op == '/':
        print "matched /"
        ret = 4

    return ret

def evaluate(expr, operand_stack, operator_stack):
    print "**In evaluate**"
    print operator_stack
    print operand_stack

    expr1 = operand_stack.pop()
    expr2 = operand_stack.pop()
    op    = operator_stack.pop()

    # Parenthesize the expression
    expr = "(" + expr2 + op + expr1 + ")"
    print "expr1", expr1
    print "expr2", expr2
    print "expr", expr

    # Push the result back on the stack

    print operator_stack
    print operand_stack
    print "**Out evaluate**"
    return expr

def looper(str, expr, operator_stack, operand_stack):
    l = 0
    cnt = len(str)

    # Loop over the input string
    while  l < cnt:
        if str[l] in ('+', '-', '*', '/'):
            print "operator found: op, index", str[l], l
            print operator_stack, len(operator_stack)

            x = len(operator_stack) - 1
            if x > 0:
                print "Comparing:", operator_stack[x], str[l]

                # If op on stack has higher preference than the op in question
                if (pref(operator_stack[x]) > pref(str[l])):
                    expr = evaluate(expr, operand_stack, operator_stack)
            # Add the operand to operand stack
        l += 1

    print operator_stack
    print operand_stack

    print "Take care of last elements"
    op_cnt = len(operator_stack)
    while op_cnt:
        expr = evaluate(expr, operand_stack, operator_stack)
        op_cnt -= 1

    print operator_stack
    print operand_stack

if __name__ == '__main__':
    str = "a+c*d-e/w*x+a-s"
    cnt = len(str)

    operand_stack  = []
    operator_stack  = []
    expr = ""
    looper(str, expr, operator_stack, operand_stack)

    print "Output=>", operand_stack[0]
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