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Why don't the print statements in the function match the top level prints?

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

void bar(float **foo)
{
  printf(" &foo[0][0]    %f \n", &foo[0][0]);
}

int main()
{
  float mat[5][5], **ptr;
  mat[0][0] = 3.0f;
  ptr = (float **)mat;
  printf("  mat[0][0]    %f \n",  mat[0][0]);
  printf(" &ptr[0][0]    %f \n", &ptr[0][0]);
  bar(ptr);
}

the results:

 mat[0][0]     3.000000 
 &ptr[0][0]    3.000000 
 &foo[0][0]    -0.005548 
share|improve this question
    
Why are you using &foo and &ptr? –  John3136 Feb 9 '12 at 0:09
    
I'm obviously doing this completely wrong... All I'm trying to do is figure out how to pass a 2D float array to my function... –  tbischel Feb 9 '12 at 0:24
    
Read section 6 of the comp.lang.c FAQ. –  Keith Thompson Feb 9 '12 at 0:28
    
Do it so: void bar(float foo[5][]) –  asaelr Feb 9 '12 at 0:28

2 Answers 2

You should print pointers using %p. not %f. Also, the cast (float**)mat doesn't make any sense.

When you say &((float**)mat)[0][0], you actually look for a pointer in the address of mat. if pointers are wider than floats, you will read from some other bytes in the stack, and they can changed when you call functions.

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Several others have gotten you for what looks like confusion between mat[0][0] being of type float and &ptr[0][0] being of type float *, but you have another more subtle problem: ARRAYS ARE NOT POINTERS.

Normally arrays are a lot like pointers, but for very subtle reasons, float [][] is not compatible with float ** the way float [] and float * are.

In many contexts (such as being passed to a function), an array decays to a pointer to its first element. Thus, mat decays to &mat[0]. The type of an array T [] decays to a pointer T *, which means that the type mat decays to (and the type of &mat[0]) is float (*)[] - that is, a pointer to an array of fixed size.

Here is the difference between a float * and a float[]:

float *     float[]
+-----+     +-----+-----+
| ptr | --> | 0.0 | 1.0 |
+-----+     +-----+-----+

Now here is the difference between a float ** and a float[][]:

float **    float *[]   float[][]         float (*)[]
+-----+     +-----+     +-----+-----+     +-----+     (imagine this
| ptr | --> | ptr | --> | 0.0 | 1.0 | <-- | ptr |     pointing to
+-----+     +-----+     +-----+-----+     +-----+     the 0.0 cell)
            | ptr | --> | 2.0 | 3.0 |
            +-----+     +-----+-----+

Those types are, from left to right, pointer-to-pointer-to-float, array-of-pointers-to-float, array-of-arrays-of-floats, and pointer-to-array-offloats. The address of &float[0], converted to a float **, gets dereferenced twice as a pointer even though there is only one pointer - the pointer to float[0] (and thus, the rest of the array). Any value you get through this is garbage.

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