If you want to write your own code, the best way is to define your expression in form of a grammar. To easily parse the grammar, it's best to make it simple.

For example, to parse expressions in the form like this (1+(3*4+x)*y)+1, you could write such a grammar:

```
Expression -> Addition | null
Addition -> Multiplication RestOfAddition
RestOfAddition -> null | + Addition
Multiplication -> Element RestOfMultiplication
RestOfMultiplication -> null | * Element
Element -> number | variable | ( Expression )
```

Then in your program, for every non-terminal in this grammar (the ones on the left of ->), you write one function, like this:

```
ExpTree *Expression(char *exp, int *position)
{
if (exp[*position])
{
ExpTree *node = malloc(sizeof(*node));
node->type = LAMBDA;
node->value = 0;
return node;
}
else
return Addition(exp, position);
}
ExpTree *Addition(char *exp, int *position)
{
ExpTree *node = malloc(sizeof(*node));
node->type = ADDITION;
node->left = Multiplication(exp, position);
node->right = RestOfAddition(exp, position);
return node;
}
ExpTree *RestOfAddition(char *exp, int *position)
{
ExpTree *node;
if (exp[*position] == '+')
{
++*position;
return Addition(exp, position);
}
else
{
ExpTree *node = malloc(sizeof(*node));
node->type = LAMBDA;
node->value = 0;
return node;
}
}
```

Similarly, `Multiplication`

and `RestOfMultiplication`

would be written as functions.

```
ExpTree *Element(char *exp, int *position)
{
if (exp[*position] == '(')
{
ExpTree *node;
++*position;
node = Expression(exp, position);
if (!exp[*position] != ')')
printf("Expected ) at position %d\n", *position);
else
++*position;
return node;
}
else if (exp[*position] == ')')
{
printf("Unexpected ) at position %d\n", *position);
return NULL;
}
else if (exp[*position] >= '0' && exp[*position] <= '9')
{
ExpTree *node = malloc(sizeof(*node));
node->type = INTEGER;
node->value = extract_int(exp, position);
return node;
}
else if ((exp[*position] >= 'a' && exp[*position] <= 'z') ||
(exp[*position] >= 'A' && exp[*position] <= 'Z') ||
exp[*position] == '_')
{
ExpTree *node = malloc(sizeof(*node));
node->type = VARIABLE;
node->value = extract_variable(exp, position);
return node;
}
else
{
printf("Warning: unexpected character %c in location %d\n", exp[*position], *position);
return NULL;
}
}
```

Where `extract_int`

and `extract_variable`

are two functions that take the expression and the position on it, go ahead while they are seeing a number (or a letter in the `extract_variable`

function) they build the number (variable) from the expression string and return it, setting position to after where they finished.

Note: This is not code for copy paste. It is not complete and lacks sufficient error checking. Some details have been omitted and is offered as a solution to teach how simple parsing is done rather than easiest solution.

`scanf`

here. You will probably need a custom lexer and parser. – Oliver Charlesworth Sep 13 '11 at 14:39`fgets`

:`char raw_input[1000]; fgets(raw_input, sizeof raw_input, stdin);`

. Verify the last character written in`raw-input`

was a`'\n'`

or deal with extra-long lines otherwise – pmg Sep 13 '11 at 14:42