Purpose of the code in question
Your code seems to be entirely wrong as it increments the target of var2
pointer, which also serves for ending the loop. You cannot expect an incrementing value to reach zero. I will assume that (1) you wanted to increment the temporary pointer to iterate over a list (technically an array) of character strings and (2) that you expect a NULL pointer as a sentinel.
Detailed explanation of the pointer incrementation issue
So what is the logic of the code we are writing? It takes an array of strings (lines in a file, list of names, etc...), counts the items, and then does whatever else you need to do. The input argument is represented by a pointer to pointer to char, which can be a bit confusing for the beginner. Pointers are used for multiple purposes in C and one is to point to the first item of a list (technically array). This is the case of the list
pointer (type char **
) which points to an array of pointers (type char *
each) which in turn point to an array of byte/character values (type char
each).
Therefore you need to increment a local char **
pointer to iterate over the items and a temporary char *
pointer to iterate over characters of an item. If you just want to read data, you must never increment anything else than local (temporary) variables. Incrementing *item
is nonsense and would alter the data in a bad way (the pointer would point to the second character instead of the first one), and checking the incremented pointer for being NULL is a double nonsense.
In other words, the idiom of iterating over an array using a temporary pointer requires the following actions:
- Increment the temporary pointer (and nothing else) at each step.
- Check the target of the pointer (and not the address it points to) for the sentinel value.
Corrected code examples
Using C99 syntax, you probably wanted to do something like:
void method1(char **list) {
size_t count = 0;
for (char **item = list; *item; item++)
count++;
...
}
The older syntax is forcing you to do:
void method1(char **list) {
char **item;
size_t count = 0;
for (item = list; *item; item++)
count++;
...
}
A more intuitive version for people not fluent in pointers:
void method1(char **list) {
size_t count = 0;
for (size_t i = 0; list[i]; i++)
count++;
...
}
Note: The count
is redundant as its value is kept the same as the value of i
, so you could just do for (; list[count]; count++)
with an empty body or while (list[count]) count++;
.
A real function to just count the items would be:
size_t get_size(char **list)
{
int count = 0;
for (char **item = list; *item; item++)
count++;
return count;
}
Of course it could be simplified to (borrowing from other answer):
size_t get_size(char **list)
{
int count = 0;
for (; *list; list++)
count++;
return count;
}
Thanks to very specific circumstances where (1) it's easy to merge the condition and the increment and (2) you're not using the current item in the body, it can be turned to:
size_t get_size(char **list)
{
int count = 0;
while (*list++)
count++;
return count;
}
Attempt to answer the for
versus while
dilemma
While technically the while
and for
loops are equivalent, the for
loop expresses the iteration idiom way better, as it keeps the iteration logic separate from the rest of the code and thus also makes it more reusable, i.e. you can use the same for
header with a different body for any other iterative action on the list.
Bad usage of the for
loop in the original code
There are a number of things that should be considered discouraged:
1) Don't modify the object from the for loop header.
for (... ; ...; (*item)++)
...
Any code matching the above patter modifies the target object instead of performing the looping logic, whenever item
is a temporary pointer to the actual data.
2) Don't decouple any non-looping code from the for loop header.
char **item = list;
...
for (; *item; *item++)
count++;
The assignment before the for loop seems out of place. If you copy-pasted the header of the for loop to iterate again over all list items, the list would seem empty because of the omitted initialization.
3) Don't perform any per-item actions in the increment of the for loop header.
for (char **item = list; *item++, count++)
;
The count++
here doesn't help the looping at all, instead it performs an actual action (counting one item). If you copy-pasted the header of the for loop and added an actual body, the count
would get modified.
4) Don't use non-descriptive for arguments, use simple names for temporary variables.
for (char **var2 = var1; *var2; var2++)
count++;
The two variables differ in their purpose, yet their names are almost the same, only distinguished by a number. How exactly you name them is a matter of context and preference.
Note: Some people also prefer explicit comparison to NULL instead of relying on boolean evaluation of pointers. I'm not one of them, though. Stack Exchange seems to highlight list
as a keyword but I don't think there's such a keyword in C or C++.
(var2)++
instead of(*var2)++
var1[0]
until it overflows to zero?