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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.

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4  
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. –  blissfreak 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))

and

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

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

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I added some more detail towards the bottom; I hope this helps. Thanks. –  blissfreak 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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