Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I was wondering if my dynamic allocation has been done correctly as I’m currently getting these errors:

and

I wanted an array of structures and each structure is holding four elements.

struct train
{
    char* start;
    char* destination;
    int start_time;
    int arrival_time;
};

int i = 0, j, file, time_depature, time_arrival, rows = 0;
char temp_station[20], temp_destination[20];
FILE* times;
struct train *train_array;

        do
        {
            /*Take in four elements from the file and measure how many rows there are in the file from dynamic allocation*/
            file = fscanf(times, "%s %s %d %d", temp_station, temp_destination, &time_depature, &time_arrival);
            rows++;

        } while (file != EOF);

    /*Array of structs using dynamic allocation*/
    train_array = (struct train*)malloc(sizeof(struct train_array)*rows);

    do
    {
        /*Take in four elements from the file*/
        file = fscanf(times, "%s %s %d %d", temp_station, temp_destination, &time_depature, &time_arrival);
        /*makes sure does not go to the end of file*/
        if (file != EOF)
        {
            /*allocates the element in the array*/
            train_array[i] = (struct train*)malloc(sizeof(struct person_array));
            /*copies the string into the array*/
            strcpy(train_array[i].start, temp_station);
            i++;
        }
    } while (file != EOF);

    /*closes the file*/
    fclose(times);
share|improve this question
2  
In your malloc, you multiple sizeof(struct train_array) by rows. And 5 lines before, you set rows = 0. Since zero times anything is still zero, you're malloc()'ing zero bytes. That can't be good, I think. –  Travis Griggs Mar 11 at 1:12
    
What is the person_array type? –  rfernandes Mar 11 at 1:16
    
Sorry, I have not included it here but rows is a measurement of the number of rows in the file. It goes through the file and increments rows. –  Hamoudy Mar 11 at 1:16
    
@rfernandes struct train *train_array; –  Hamoudy Mar 11 at 1:17
    
Compulsory note - don't cast the return value of malloc. –  Dukeling Mar 11 at 7:17

3 Answers 3

up vote 1 down vote accepted

You code has a number of issues, but let's back off of that for a minute and talk about memory management in general.

A common (and my preferred) idiom for allocating memory is something like

T *p = malloc( sizeof *p * N ); 

or

T *p = NULL;
...
p = malloc( sizeof *p * N );

which will allocate enough space to hold N elements of type T. Note that there is no cast on the result of malloc; as of the 1989 standard, the cast is no longer necessary1, and under C89 compilers it will suppress a diagnostic if you don't have a declaration for malloc in scope (i.e., you forgot to include stdlib.h). C99 got rid of implicit int declarations, so that's not as big of an issue anymore, but a lot of compilers default to the 1989 standard.

Note that I also use sizeof *p to get the size of each element; the expression *p has type T, so it follows that sizeof *p is equivalent to sizeof (T)2. Not only does this reduce visual clutter, it saves you a minor maintenance headache of the type of *p ever changes, say from int to long or float to double.

C isn't your mother and won't clean up after you; you are responsible for deallocating any memory you allocated when you are done with it.

Note that you can resize a dynamically-allocated buffer with the realloc library function. Here's a typical usage:

#define INITIAL_SIZE ... // some initial value
...
size_t arraysize = INITIAL_SIZE;
size_t counter = 0;
T *array = malloc( sizeof *array * arraysize );
...
while ( we_need_to_store_more_data )
{
  if ( counter == arraysize )
  {
    /**
     * We've run out of room to store new things, so
     * we need to extend the array; one common
     * strategy is to double the size of the array
     * each time.
     */
    T *tmp = realloc( sizeof *array * (2 * arraysize) );
    if ( tmp ) 
    {
      array = tmp;
      arraysize *= 2;
    }
  }
  array[counter++] = new_value;
}

Note that for a type like

struct foo
{
  char *name;
  char *address;
  int value;
};

you have to allocate space for name and number separately from the instance of struct foo itself:

struct foo *farr = malloc( sizeof *farr * N );
...
farr[i].name    = malloc( sizeof *farr[i].name * name_length );
farr[i].address = malloc( sizeof *farr[i].address * address_length);

You have to be really careful when you get into multiple allocation and deallocation steps like this; it's a really good idea to abstract these operations out into their own functions, like:

if ( !add_data( &foo[i], newName, newAddress, newValue ))
  // report error

which would look something like

int add_data( struct foo *elem, const char *name, const char *addr, int val )
{
  assert( elem != NULL );
  elem->name = malloc( strlen( name ) + 1 );
  elem->address = malloc( strlen( addr ) + 1 );

  if ( !elem->name || !elem->address ) // Make sure memory allocation
  {                                    // succeeded before trying to
    free( elem->name );                // use name or address; malloc returns
    free( elem->address );             // NULL on failure, and free(NULL)
    return 0;                          // is a no-op.  We want to undo any
  }                                    // partial allocation before returning
                                       // an error.
  strcpy( elem->name, name );
  strcpy( elem->address, addr );
  elem->value = val;

  return 1;
}

Now let's look at the specific issues in your code:

train_array = (struct train*)malloc(sizeof(struct train_array)*rows);
                                           ^^^^^^^^^^^^^^^^^^^

The name of the type is struct train; the name of the object you're trying to allocate is train_array. You've crossed the two, which is a problem. Going by my advice above, rewrite that to

train_array = malloc( sizeof *train_array * rows );

This line

train_array[i] = (struct train*)malloc(sizeof(struct person_array));

has two problems. You've already allocated train_array[i]; what you need to allocate is space for the start and destination elements within each train_array[i]. Secondly, you haven't defined person_array anywhere in your code, which is why the compiler is complaining about a non-existent type.

You don't need to loop through the file twice; you can extend your array as you go as I demonstrated above. Here's an example of how you could restructure your code:

int done = 0;
...
size_t rows = 0;
size_t totalRows = 16;  // initial array size
train_array = malloc( sizeof *train_array * totalRows ); // initial allocation

while ( scanf( "%s %s %d %d", temp_station, 
                              temp_destination, 
                              &time_depature, 
                              &time_arrival) == 4 )
{
  if ( rows == totalRows )
  {
    struct train *tmp = realloc( sizeof *train_array * ( 2 * totalRows ));
    if ( tmp )
    {
      train_array = tmp;
      totalRows *= 2;
    }
    else
    {
      fprintf( stderr, "could not extend train_array past %zu elements\n", totalRows);
      break;
    }
  }
  train_array[rows].start_time = time_departure;
  train_array[rows].arrival_time = time_arrival;
  train_array[rows].start = malloc( strlen( temp_station ) + 1 );
  if ( train_array[rows].start )
    strcpy( train_array[rows].start, temp_station );

  train_array[rows].end = malloc( strlen( temp_destination ) + 1 );
  if ( train_array[rows].end )
    strcpy( train_array[rows].destination, temp_destination );
}

Note that when you're done with this memory, you'd deallocate it as follows:

for ( size_t i = 0; i < totalRows; i++ )
{
  free( train_array[i].start );
  free( train_array[i].end );
}
free( train_array );


1. In C, values of type void * can be assigned to any other pointer type without a cast. This is not true in C++; under a C++ compiler a cast would be required, but if you're writing C++ you should be using new and delete instead of malloc and free.
2. sizeof is an operator, not a function; you only need to use parentheses if the operand is a type name like int or float *.

share|improve this answer
  1. You should call rewind(times); before the second do {} while(); to set the file position to its begin.

  2. This

    train_array = (struct train*)malloc(sizeof(struct train_array)*rows);
    

    is wrong, because you does not have a struct train_array, change it to

    train_array = (struct train*)malloc(sizeof(*train_array)*rows);
    

    or

    train_array = (struct train*)malloc(sizeof(struct train)*rows);
    
  3. This

    train_array[i] = (struct train*)malloc(sizeof(struct person_array));
    

    is wrong, because train_array[i] is a struct train, why do you try to assign a struct train * to it? This line should be deleted.

share|improve this answer

The first error looks to be because you're dereferencing your pointer to a struct type before the assignment. Also, you're allocating a "person_array" on that line, but type casting it to a "train_array" pointer, which I don't think is what you want to do.

Maybe this is what you meant to do?

train_array[i].start = (char*)malloc(sizeof(struct person_array));

The second error looks like you didn't declare the person_array struct. The code you posted doesn't have a definition, so if you don't have it defined elsewhere, that's probably the problem.

Along the same lines, I don't think your first malloc is doing what you want it to do either. Maybe try this:

train_array = (struct train*)malloc(sizeof(struct train)*rows);

"train_array" is a pointer, so it will only be size_t bytes. "struct train" is your data type that has the number of bytes you want to allocate, I think.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.