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I am new to C, and this struct, representing an image, is confusing to me. It's used in this Graphics Gem.

Can someone explain the proper instantiation and use of the struct, especially with regard to the scanline pointer array?

typedef unsigned char Pixel;

typedef struct {
    short Hres;  /* no. pixels in x direction */
    short Vres;  /* no. pixels in y direction */
    int   Size;  /* size in bytes */
    Pixel *i;    /* pixel array */
    Pixel *p[1]; /* scanline pointer array; position (x,y) given by image->p[y][x] */
}   Image;

Also: is the point to avoid the multiplication implicit when indexing a 2D array? Should it not then be **p which can be allocated to Vres * sizeof(size_t) and populated with the appropriate row pointers?

I think I understand. Is this example block valid?

int m, n, y, x; /* Vres, Hres, index variables */
Image *image;    
image = malloc(sizeof(Image) + (m - 1) * sizeof(Pixel*));
image->Hres = n;
image->Vres = m;
image->Size = m*n*sizeof(Pixel);
image->i = malloc(image->Size);

for (y=0; y<m; y++)
    image->p[y] = image->i + (y * n);
    for (x=0; x<n; x++)
        image->p[y][x] = 0; /* or imageSource[y][x] */
/* use image */

Finally, on modern computers (with lots of memory), does it make sense to use such a scanline pointer array rather than a 2D array? In this case the only difference would be the implicit pointer multiplication.

share|improve this question
At the time Graphics Gems was written, computers had lots less memory than they do today. It might have been difficult or impossible to get an entire image worth of contiguous memory, so allocating a scanline at a time was more practical. Saving a multiply was just a side benefit. – Mark Ransom Jan 12 '12 at 20:10
OK, but then why have the i pixel array member? Just in case there is room? – reve_etrange Jan 12 '12 at 21:36
Ah, I missed that! In that case the array does 2 things - it saves the multiply, and it allows the double bracket syntax. – Mark Ransom Jan 12 '12 at 22:16
Your update looks OK, except that the malloc needs sizeof(Pixel*) rather than sizeof(Pixel) and i * n should be y * n * sizeof(Pixel). – Mark Ransom Jan 12 '12 at 22:30
I fixed those problems; thanks a lot! – reve_etrange Jan 12 '12 at 23:30
up vote 4 down vote accepted

The last member, p, of the structure Image is used as a C89 flexible array member.

Flexible array member is a C99 feature and before C99, people sometimes used what was called the struct hack to achieve a similar behavior with C89.

Here is how to dynamically allocate a Image structure object with only one array element:

Image *bla1, *bla2;
bla1 = malloc(sizeof *bla1);

and here is how to allocate a structure object with n array elements:

bla2 = malloc(sizeof *bla2 + (n - 1) * sizeof bla2->p[0]);

After correct initialization of the Pixel * pointers in the p array, you can access the Pixel values like this:


Regarding the conformity of the struct hack, C99 Rationale says that

the validity of this construct has always been questionable.

while a C Defect Report (DR #051) says that

The idiom, while common, is not strictly conforming.

share|improve this answer
Shouldn't the second example be bla2 = malloc(sizeof *bla2 + n * sizeof bla2->p[0]); ? (of course that actually give space for one extra element, since sizeof *blah2 includes space for one already) – Dmitri Jan 12 '12 at 20:16
@Dmitri thanks updated – ouah Jan 12 '12 at 20:18

Pixel *p[1] is most probably what is called a "flexible" array.

The trick is to put such arrays at the end of a struct and then allocate a block that is the size of the struct plus the total size of the additional array entries at the end. This relieves you from having to know the exact size of the array when defining the struct, you rather specify it at runtime:

Image *img = malloc(sizeof(Image) + 5 * sizeof(Pixel *));
/* img->p[5] is the last element of the array now */

Strictly speaking, you will be accessing the array beyond its bounds, but you make this operation safe by knowing that you have manually reserved enough additional memory past the end of the struct.

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