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My problem is the following - I have this lines of code:

// allocate a new vector
        Vector3I *theVector = (Vector3I*)calloc(1,sizeof(Vector3I));

        // write face's points to this vector
        *theVector[0] = a3dsFace->points[0];
        *theVector[1] = a3dsFace->points[1];
        *theVector[2] = a3dsFace->points[2];

In the points[] array are the values {0,1,2}. When I write them to the Vector3I at which I am pointing to I get {0,0,0}. Do you have any suggestions about what I am doing wrong?

EDIT: Some more details:

This is from lib3ds at: http://code.google.com/p/lib3ds/

struct Lib3dsFace {
    Lib3dsUserData user;    /*! Arbitrary user data */
    char material[64];      /*! Material name */
    Lib3dsWord points[3];   /*! Indices into mesh points list */
    Lib3dsWord flags;       /*! See Lib3dsFaceFlag, below */
    Lib3dsDword smoothing;  /*! Bitmask; each bit identifies a group */
    Lib3dsVector normal;
};

The a3dsFace is a Lib3dsFace struct.

And the points array is from this type:

 typedef unsigned __int16 Lib3dsWord

And my Pointer:

Vector3I* theVector

is

typedef int Vector3I[3];

I hope this will bring some light to the problem.

With kind regards.

  • What is Vector3I ? What is a3dsFace->points ? – cnicutar Dec 6 '11 at 20:39
  • Hi, Vector3I is: typedef int Vector3I[3]; and points: Lib3dsWord points[3]; where typedef unsigned __int16 typedef unsigned __int16 Lib3dsWord; – Knut Dec 6 '11 at 20:47
  • add the definitions of both typedefs to your question please. I can't make out the definitions from your comment. – DwB Dec 6 '11 at 21:01
  • @Knut: Post a working code example, that also includes the definition of a3dsFace also. – AusCBloke Dec 6 '11 at 21:03
2

The below code does work and is a test of your code snippet. If something isn't working, it could be a good idea to create a test like this, with hard-coded values for *a3dsFace, in order to narrow down your problem.

#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>

typedef int Vector3I[3];
typedef uint16_t Lib3dsWord;

struct Lib3dsFace {
   /* ... */
   Lib3dsWord points[3];   /*! Indices into mesh points list */
   /* ... */
};

/* ... */
struct Lib3dsFace some_face = { {0, 1, 2} };
struct Lib3dsFace *a3dsFace = &some_face;
/* ... */

int main(void)
{
   Vector3I *theVector = (Vector3I*)calloc(1,sizeof(Vector3I));

   (*theVector)[0] = a3dsFace->points[0];
   (*theVector)[1] = a3dsFace->points[1];
   (*theVector)[2] = a3dsFace->points[2];

   printf("theVector: %p, *theVector: %p, &(*theVector)[0]: %p\n", theVector, *theVector, &(*theVector)[0]);

   printf("RIGHT Addresses: %p, %p, %p\n", &(*theVector)[0], &(*theVector)[1], &(*theVector)[2]);
   printf("WRONG Addresses: %p, %p, %p\n", &*theVector[0], &*theVector[1], &*theVector[2]);

   printf("Values: %d, %d, %d\n", (*theVector)[0], (*theVector)[1], (*theVector)[2]);

   free(theVector);

   return 0;
}

Output:

theVector: 0x1cd3010, *theVector: 0x1cd3010, &(*theVector)[0]: 0x1cd3010
RIGHT Addresses: 0x1cd3010, 0x1cd3014, 0x1cd3018
WRONG Addresses: 0x1cd3010, 0x1cd301c, 0x1cd3028
Values: 0, 1, 2

I put the addresses there so that you can see (*theVector)[0] is a valid way of accessing the first element of your dynamically allocated Vector3I.

Perhaps you haven't set a3dsFace->points properly and that's why {0, 0, 0} is being copied. Note also that you have each element of a Vector3I as type int, and each point is of type uint16_t. You also don't need to use calloc to zero the allocated memory, since you're immediately after assigning values to them; you could just use malloc.

Bottom line is you still haven't provided enough code to find your exact problem, and you should add code to debug your code inside your code.

EDIT: I accidentally had *theVector[0] which should have been and is now (*theVector)[0], since [] has higher precedence than *. Otherwise it'd cause undefined behaviour due to the fact you're going past the bounds of the array, my bad. I don't know how I forgot that when it was one of the main reasons I was going to post an answer before you made your edit. It worked, but if you ran it through a program like valgrind it'd tell you that something wasn't quite right (even if it may have ran as expected).

As you can see by the addresses outputted above, there's quite a difference. For example having *theVector[1], which because of operator precedence is the same as *(theVector[1]), will mean that it'll increment the address pointed to by theVector by 3 * sizeof(int) bytes (aka sizeof(Vector3I)), instead of just 1 * sizeof(int) in the (correct) case of (*theVector)[1]).

  • What you are doing is undefined. You are allocating space for an array of size of 3 ints, and are accessing way beyond that. Operator precedence is [] and then *. – Milan Dec 6 '11 at 21:47
  • @Milan: Woops it is too - I actually had that in the example I was going to post before he made his edit and missed that in the new example. It seemed to work in this case, but as you say it's not right (should've run this example in valgrind as well to catch that). I knew I was forgetting something when I posted, thanks for catching that. – AusCBloke Dec 6 '11 at 21:56
  • Oh the braces! I didnt know that. Thank you! – Knut Dec 7 '11 at 6:16
2

try this (note allocate 3 elements and access with just array notation):

Vectore3I *theVector = (Vector3I*)calloc(3, sizeof(Vector3I));

theVector[0] = a3dsFace->points[0];
theVector[1] = a3dsFace->points[1];
theVector[2] = a3dsFace->points[2];
1

How about this:

// allocate a new vector
        Vector3I *theVector = calloc(1,sizeof(Vector3I));

        // write face's points to this vector
        (*theVector)[0] = a3dsFace->points[0];
        (*theVector)[1] = a3dsFace->points[1];
        (*theVector)[2] = a3dsFace->points[2];

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