If I create a struct in C and want to add them to an array that is not set to a fixed size, how is the array created?
Can one create a tempStruct which is used on ev
When the size is unknown at compile time, you'll need to allocate the memory on the heap, rather than in the data segment (where global variables are stored) or on the stack (where function parameters and local variables are stored). In C, you can do this by calling functions like malloc.
MyStructType *myArray = (MyStructType *)malloc(numElements * sizeof(MyStructType)
... do something ...
free(myArray)
If you're actully using C++, it's generally better to use new[] and delete[], e.g.
MyStructType *myArray = new MyStructType[numElements]
... do something ...
delete [] myArray
Note that new[] must be paired with delete[]. If you're allocating a single instance, use new and delete (without "[]"). delete[] and delete are not equivalent.
Also, if you're using C++, it's generally easier and safer to use an STL vector.
Yes, you can use a tempStruct during input which you add later to the array.
If the size of the array is unknown, then you are in trouble. You must keep track of the array's size somewhere. Just have an integer variable that you change every time you change your array to keep track of your array's size.
If the size of the struct is not known at compile time it is even more complicated. You either just store Pointers in the array which point to your actual struct elements in memory, or you have to keep track of the sizes of every struct in the array. In the later case you would have to do addressing in the array completely manually calculating a lot. While this is very memory efficient, it is also error prone and extremely hard to debug.
OK. sample to create an array that hold your struct using pointers:
struct MyStruct
{
/* code */
}
main()
{
counter = 0;
struct MyStruct** array = malloc(counter);
// Create new Element
struct MyStruct myElement;
myElement.someData = someValue;
// Add element to array:
array = realloc(array, sizeof(struct MyStruct*) * (counter + 1);
array[counter] = &myElement;
counter++;
// Create yet another new Element
struct MyStruct myElement;
myElement.someData = someOtherValue;
array = realloc(array, sizeof(struct MyStruct*) * (counter + 1);
array[counter] = &myElement;
counter++;
// Now remove the last element
free(array[counter -1]); // may have something more complicated than that, depending on your struct
array = realloc(array, sizeof(struct MyStruct*) * (counter - 1);
counter--;
}
this code is not tested!
If you are using the older C89 standard compiler, you cannot use variable length arrays. If you use C99 then you can create variable length array. For clarification: variable-lenght doesnt mean that the array lenght can change during execution. It just means that you can set it during execution instead of fixing a value during compile time.
For eg:
CreateArray(const int numberOfElements)
{
struct MyStruct arrayOfStructs[numberOfElements];
}
This is valid in C99 but not in C89. Check your compiler documentaion.
the C array must be with fixed size this is what we have learned years ago but memory allocation functions may help you to find a solution
in c++ you can use the operator new
int num=0;
cout<<"please enter the number"<<endl;
cin>>num;
int *x=new int[num];
for(int i=0;i<num;i++)
{
cout<<"enter element "<<(i+1)<<endl;
cin>>x[i];
}
//do your work
and as
Mr Fooz
mentioned delete[] is used to free the memory allocated by new[] and this is a general example