It is a set which is known as the co-domain (or range).
The range is the set of all possible outputs values for the function when given inputs from the domain.
output
The range of the function.
There are two sets for any given function, the domain and the range. The range is the set of outputs and the set of inputs is the domain.
They are called the arguments of the function.
The set of all values that a function will return as outputs is called the *range* of the function.
RANGE -----> apex
The range is the set of all possible outputs values for the function when given inputs from the domain.
It is generally referred to as "a table of values"
output
Classes cannot return values, only functions can return values. But you cannot return a function from a function, you can only return a function pointer -- a pointer variable holding the address of the function you wish to return. All possible return values must be of the same type, therefore all function signatures and return types must be exactly the same -- only the name of the functions can differ.
output
The range of the function.
Not all functions return values. If you take a function which is of type void, you get a function which is does not return anything. The only functions which should return values are those which are used as a right side of expressions (so called rvalues).
There are two sets for any given function, the domain and the range. The range is the set of outputs and the set of inputs is the domain.
There are two sets for any given function, the domain and the range. The range is the set of outputs and the set of inputs is the domain.
If the function is inline expanded then it is not invoked at all -- there is no function call. However, if the function is not or cannot be inline expanded, a procedure call is invoked. This pushes the calling function's local values onto the stack, followed by the return address, followed by the callee's argument values in reverse order. Control is then passed to the address of the function. The function then pops the arguments off the stack and assigns them to its local parameters (parameters that are passed by value will automatically invoke the copy constructors of those parameters). The function then executes. When a return statement is encountered, the return address is popped from the stack, the return value (if any) is pushed onto the stack, and control is passed to the return address. When a function returns, the return value (if any) and the local values are popped from the stack, and execution continues from where it left off.