/* An example of Creating dynamically an array Populating the array Displaying the contents Freeing up the memory Version 4 : Check memory has been assigned Read and Write values using pointers Pass array data to a function */ #include #include int Sum ( int *Data, int n ) /* Define our function */ { int Sum = 0,i; /* Define working variables */ for ( i = 0 ; i < n ; i++ ) { printf("Item %d=%d\n", i, Data[i]); Sum += Data[i]; /* This means Sum = Sum + Data[i] */ } return Sum; /* Return the value */ } int main(void) { int *ipArray = NULL; /* Create the pointer and set */ /* to null to start with */ int *ipStartValue = NULL; /* A place to store ipArray's */ /* initial value ,ie ipArray[0] */ int iSize = 0; /* Define our 'size' variable */ int i; /* A Loop variables */ /* Prompt for array size */ printf("\nHow big is the array to be ? "); scanf("%d",&iSize); /* Allocate the memory */ ipArray = (int *)calloc(iSize, sizeof(int)); if ( ipArray == NULL ) { printf("\nUnable to allocate the memory requested"); printf("\n ** Program terminating ** \n"); exit (1); } /* Store the base memory address for use later */ ipStartValue = ipArray; /* Populate the array ( Use Pointers: This is much faster !) */ for ( i = 0 ; i < iSize ; i++ ) *ipArray++ = i; // Reset ipArray to start ipArray = ipStartValue; /* Display the sum of the values in the array */ printf("\nThe sum of the array values is %d ",Sum(ipArray,iSize) ); /* free memory : Again, reset ipArray to its origin */ ipArray = ipStartValue; free(ipArray); /* The above two lines could be replaced with free (ipStartValue) */ return 0; }