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Let's say I wish to conform to a memory model laid out in the following structure (as binary data in some file):

typedef struct fileSection_s {

    unsigned int a[ 3 ];

    unsigned int b[ 3 ]; 

} fileSection_t;

There is an arbitrary amount of fileSection_t structs, and using C, I'd like to know of an efficient and non-error-prone means of:

  • Allocating an arbitrary amount of fileSection_t structs as a buffer, without resorting to something error-prone(?) such as:
    fileSection_t** buf = (fileSection_t**) malloc( sizeof( fileSection_t* ) * count);
    (i.e., avoiding use of double pointers where possible)
  • Using memcpy to take a uint8_t* pre-computed segment of binary data read from the file into said buffer, which is meant to hold n amount of fileSection_t struct instances.
  • Accessing said fileSection_t instances later on (on a one-by-one basis), not as some generic buffer type (e.g., void* or uint8_t*) but as fileSection_t* (pointer arithmetic/conversion maybe?).

Explanations of common methodologies or well-known "best-practices" would be appreciated as well.

My main goal is to essentially define some kind of common C-like interface which will allow me to allocate some arbitrary buffer-like object and store whatever kind of struct memory I wish inside of it, without losing the flexibility of iteration and what not...and also having a similar effect of what is gained via using a pointer-to-pointer mechanism, albeit without that second pointer.

For example,

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

typedef struct fileSection_s {

    unsigned int a[ 3 ];

    unsigned int b[ 3 ]; 

} fileSection_t;

typedef struct buffer_s {

    size_t       elementSize;

    unsigned int currentLength;

    unsigned int maxLength;

    void*        mem; // or uint8_t*? 

} buffer_t;

int main( void ) {

    buffer_t* a = ( buffer_t* ) malloc( sizeof( buffer_t ) );
    a->mem = malloc( sizeof( fileSection_t ) * count );
    a->maxLength = count;
    a->currentLength = 0;
    a->elementSize = sizeof( fileSection_t );

    FILE* f = fopen( "some_binary_data", "rb");


    uint8_t* fileMemory = ( uint8_t* )malloc( size( uint8_t ) * fileSize ); // assume fileSize is obtained via ftell

    fread( fileMemory, fileSize, sizeof( uint8_t ) );


    // someOffset is obtained earlier
    memcpy( a->mem, fileMemory + someOffset, sizeof( fileSection_t ) ); 


    // now somehwere, we need to grab a section of our buffer and cast to fileSection_t. 

    return 0;

So, what I'd like to be able to do is get a section of the buffer and cast to a pointer to fileSection_t in a safe manner. The functionality is exactly like an array, but the means of obtaining said functionality (at least, AFAIK) in this case involve using pointer arithmetic and byte casting instead.

share|improve this question
Why would you use double pointers for allocating a bunch of fileSection_ts? fileSection_t * buf = malloc(sizeof(fileSection_t) * count); should work just fine, and doesn't require you to malloc all the individual fileSection_ts as well. –  Kninnug Oct 10 '13 at 16:22
That's why I'm asking this question in the first place: to understand the semantics, advantages, and disadvantages for these methods. The point is not why do this?, the point is what can I do as an alternative, and WHY is it better? If you down voted me for not explaining this clearly enough, do tell so I can at least correct that in the actual post. –  zeboidlund Oct 10 '13 at 16:33

1 Answer 1

I'm not sure if this answers your question but on StackOverflow, it seems the accepted practice for using malloc is

type *ptr = malloc(sizeof(*p))


type *array = malloc(sizeof(*array) * n)

No types in the sizeof() and no cast. This is the least error prone way to use malloc.

share|improve this answer
I added some more detail towards the bottom; I hope this helps. Thanks. –  zeboidlund Oct 10 '13 at 16:48
If you are reading the entire file at once, why not just read directly into a->mem and then index that when you want to extract the sections? –  Charlie Burns Oct 10 '13 at 17:05

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