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I was looking through the forums and saw a question about counting the numbers of each letter in a string. I am teaching myself and have done some research and am now starting to do projects. Here I have printed the elements of the array. But I do so without pointers. I know I can use a pointer to an array and have it increment for each value, but I need some help doing so.

Here is my code without the pointer:

code main() {
    char alph [] = {'a', 'b', 'c'};
    int i, o;
    o = 0;
    for(i=0; i < 3; i++)
        { cout << alph[i] << ' '; };

Here is my bad code that doesn't work trying to get the pointer to work.

main() {
    char alph [] = {'a', 'b', 'c'};
    char *p;
    p = alph;

    for (; p<=3; p++);
        cout << *p;

    return 0;

I hope that it's not too obvious of an answer; I don't mean to waste anyone's time. Also this is my first post so if anyone wants to give me advice, thank you.

share|improve this question
The second doesn't compile because you've not specified a return type for main(). The first only compiles if you've got a typedef for code that maps to an int type. Welcome to StackOverflow. Please read the FAQ and note that questions where the code does not compile (but is supposed to) is usually frowned upon. –  Jonathan Leffler Feb 1 '12 at 5:10
oh ok thanks, i didnt know that it didn't compile for the first. It worked for me so i just assumed it was right. thanks –  Patrick Kennedy Feb 1 '12 at 5:14

5 Answers 5

up vote 4 down vote accepted

Very good try. There's just one tiny thing wrong, which is this:

p <= 3

Pointers are just some number which represents a memory address. When you do p = alph, you're not setting p to 0, you're setting it to point to the same address as alph. When looping over an array with pointers, you have to compare the current pointer with a pointer that is one past the end of the array. To get a pointer to one element past the end of the array, you add the number of elements to the array:

alph + 3 // is a pointer to one past the end of the array

Then your loop becomes

for (; p < alph + 3; ++p)

You may think that getting a pointer to one past the end of the array is going out of bounds of the array. However, you're free to get a pointer to anywhere in memory, as long as you don't dereference it. Since the pointer alph + 3 is never dereferenced - you only use it as a marker for the end of the array - and everything is fine.

Here are some rough correlations for the different versions:

| Pointer Version |   Index Version |
|  p              |              i  |
|  p = alph       |          i = 0  |
|  *p             |        alph[i]  |
|  alph + 3       |              3  |
|  p < alph + 3   |          i < 3  |

Also note that instead of doing alph + 3, you may want to use sizeof. sizeof gives you the number of bytes that an object occupies in memory. For arrays, it gives you the number of bytes the whole array takes up (but it doesn't work with pointers, so you can do it with alph but not with p, for example). The advantage of using sizeof to get the size of the array is that if you change the size later, you do not have to go and find all the places where you wrote alph + 3 and change them. You can do that like this:

for (; p < alph + sizeof(alph); ++p)

Additional note: because the size of char is defined to be 1 byte, this works. If you change the array to an array of int, for example (or any other type that is bigger than 1 byte) it will not work any more. To remedy this, you divide the total size in bytes of the array with the size of a single element:

for (; p < alph + sizeof(alph) / sizeof(*alph); ++p)

This may be a little complicated to understand, but all you're doing is taking the total number of bytes of the array and dividing it by the size of a single element to find the number of elements in the array. Note that you are adding the number of elements in the array, not the size in bytes of the array. This is a consequence of how pointer arithmetic works (C++ automatically multiplies the number you add to a pointer by the size of the type that the pointer points to).

For example, if you have

int alph[3];

Then sizeof(alph) == 12 because each int is 4 bytes big. sizeof(*alph) == 4 because *alph is the first element of the array. Then sizeof(alph) / sizeof(alph) is equal to 12 / 4 which is 3, which is the number of elements in the array. Then by doing

for (; p < alph + sizeof(alph) / sizeof(*alph); ++p)

that is equivalent to

for (; p < alph + 12 / 4; ++p)

which is the same as

for (; p < alph + 3; ++p)

Which is correct.

This has the good advantage that if you change the array size to 50 and change the type to short (or any other combination of type and array size), the code will still work correctly.

When you get more advanced (and hopefully understand arrays enough to stop using them...) then you will learn how to use std::end to do all this work for you:

for (; p < std::end(alph); ++p)

Or you can just use the range-based for loop introduced in C++11:

for (char c : alph)

Which is even easier. I recommend understanding pointers and pointer arithmetic well before reclining on the convenient tools of the Standard Library though.

Also good job SO, you properly syntax-highlighted my ASCII-Art-Chart.

share|improve this answer
ahhh thanks that makes a lot of sense. –  Patrick Kennedy Feb 1 '12 at 5:15
+1 for your 20k. :) –  Mysticial Feb 1 '12 at 5:27
@Mysticial "You are now a trusted user" Thanks :) –  Seth Carnegie Feb 1 '12 at 5:34
Haha thanks Seth, i keep thinking you are finished teaching but you keep surprising me :D im happy to see so many people being so helpful, i have learned more right now than reading couple hours in my book. –  Patrick Kennedy Feb 1 '12 at 5:46
@user1177261 yes, SO is a cool place. Good luck with learning C++. And I really am done now :) (unless you have further questions). –  Seth Carnegie Feb 1 '12 at 5:51

The pointer loop should be:

for (char * p = alph; p != alph + 3; ++p)
    std::cout << *p << std::endl;

You can get a bit more fancy by hoisting the end of the array out of the loop, and by inferring the array size automatically:

for (char * p = alph, * end = alph + sizeof(alph)/sizeof(alph[0]); p != end; ++p)

In C++11, you can do even better:

for (char c : alph) { std::cout << c << std::endl; }
share|improve this answer
just a question i understand that there is a difference btw ++p and p++ but is it important in this case and if so why? –  Patrick Kennedy Feb 1 '12 at 5:12
@user1177261: Use the one that you mean. In this case, you only mean to increment the pointer, so use ++p. In some rare cases (like erasing iterators) you need to increment but return a value of the original, in which case you use it++. But those occasions are not all that frequent. –  Kerrek SB Feb 1 '12 at 5:14
In this context, there's no real difference. In more complex circumstances, with iterators and things, pre-increment is preferred to post-increment. It becomes an efficiency issue. (Unreformed C programmers like me tend to use the post-increment most of the time; it is not a good habit to have in C++.) –  Jonathan Leffler Feb 1 '12 at 5:16
thanks for clarifying that for me –  Patrick Kennedy Feb 1 '12 at 5:21

Your problem (apart from compilation issues noted in my comment to the question) is that pointers are not as small as 3. You need:

for (p = alph; p < alph + sizeof(alph); p++)

for the loop. Note that sizeof() generates a compile-time constant. (In C99 or C2011, that is not always the case; in C++, it is always the case, AFAIK). In this context, sizeof() is a fancy way of writing 3, but if you add new characters to the array, it adjusts automatically, whereas if you write 3 and change things, you have to remember to change the 3 to the new value too.

Ruminations on the use of sizeof()

As Kerrek SB points out, sizeof() returns the size of an array in bytes. By definition, sizeof(char) == 1, so in this context, it was safe to use sizeof() on the array. There are also times when it is not safe - or you have to do some extra work. If you had an array of some other type, you can use:

SomeType array[] = { 2, 3, 5, 7, 11, 13 };

then the number of elements in the array is (sizeof(array)/sizeof(array[0])). That is, the number of elements is the total size of the array, in bytes, divided by the size of one element (also in bytes).

The other big gotcha is that if you 'pass an array' as a function argument, you can't use sizeof() on it to get the correct size - you get the size of a pointer instead. This is a good reason for not using C-style strings or C-style arrays: use std::string and std::vector<SomeType> instead, not least because you can find their actual size reliably with a member function call.

share|improve this answer
It's worth noting (especially for a beginner) that sizeof does not return the array size, but rather the total memory size. It only so happens that the size of one unit is 1. –  Kerrek SB Feb 1 '12 at 5:16
cool, now i know about sizeof() :D, so this is an example of implementing dynamic memory –  Patrick Kennedy Feb 1 '12 at 5:19
@user1177261 no, dynamic memory would be allocated with new. sizeof(alph) is just a way for the compiler to calculate the size of an array for you. It happens to be 3 in this case (because it holds 3 chars and each one is 1 byte), so alph + sizeof(alph) is just like alph + 3. The advantage of using sizeof is that when you change the size of your array, you don't have to go back and redo all the numbers. –  Seth Carnegie Feb 1 '12 at 5:25
ok, i see since we aren't actually allocating memory –  Patrick Kennedy Feb 1 '12 at 5:28
Bold Consolas looks really good. –  Seth Carnegie Feb 1 '12 at 5:50

I recommand you the following revised code.

char alph [] = {'a', 'b', 'c', 0};
char *p;
p = alph;

    std::cout << *p++;
share|improve this answer
this seems to work and is very short :) –  Patrick Kennedy Feb 1 '12 at 5:39
@user1177261 it will work as long as your array ends with a 0 and has no 0s before the last element. –  Seth Carnegie Feb 1 '12 at 5:40
ah i see... so it wouldn't work very well with an array of numbers that contains a zero somewhere other than at the end. –  Patrick Kennedy Feb 1 '12 at 5:42
I think it's nonsense about a string that has a zero('0') in the middle of in C/C++. –  Kyokook Hwang Jun 13 '12 at 7:46

0 marks the end of a string in both c and c++.

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