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I'm working on a problem that uses pointer arithmetic and I have found this small snippet of code that works. I don't understand exactly what it's doing though. To me it looks like it is assigning the address of buffer + the value of ix3 to the array element a[i]. I don't know why that would be relevant to my program though. Can someone please tell me exactly what is happening in this loop?

int *buffer=new int[5*3];

for (i=0;i<5;i++)
    a[i] = buffer+i*3;
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In what way does it "work" ? What's so unusual ? –  cnicutar Apr 3 '12 at 17:59
You should add the type of the variable a. It should be array of pointer to an integer. This in mind, it may help to understand more of the program. If the type of a is not something like an array of interger pointers, you may show more of the code. –  harper Apr 3 '12 at 18:03
@harper a is defined in the variables list as int** a; and will serve as a 2D array later in the program. –  adohertyd Apr 3 '12 at 18:04

3 Answers 3

up vote 2 down vote accepted

The expression


is identical to


so your assumption is correct, and I hope that a[] is an array of pointers.

Note that pointer arithmetic like buffer+k does not take the address value contained in buffer and add k to it: instead, it's equal to the value of &buffer[k], which should equal the address value contained in buffer + k * sizeof(the type being pointed to by buffer ).

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Yes a is defined as int** a; in my variables list and acts as a 2D array later in the program. I want to write all the values of a into a contiguous block of memory (buffer). This was the only line of code I didn't understand in the solution I seen. I'm not 100% sure how this works though –  adohertyd Apr 3 '12 at 18:03
The values a points to are already in a contiguous block of memory, the one allocated with new. –  Kleist Apr 3 '12 at 18:14
No, I meant that I hope that the type of a is an array of pointers, as adohertyd clarified. –  Jason S Apr 3 '12 at 18:48

It does exactly what you said. The array a (whose definiton you didn't show) probably has the type int* [5].

The purpose of this is to enable normal double-indexing (i.e. without constantly doing index arithmetic). To see that, consider what happens if you access a[1][2]. After the above loop, a[1] contains the value buffer + 3, i.e. it points at the fourth element of buffer (adding n to a pointer moves the pointer n elements forward). So a[1][2] is the same as (buffer+3)[2] which accesses the value which is two elements further than where buffer+3 points, in other words, it's equivalent to buffer[5].

More generally, after this initialization a[i][k] accesses the same element as buffer[3*i+k] (well, unless i is larger than 4, of course).

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buffer+i*3; is just a roundabout way of doing &buffer[i*3];.

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