Why forward-declare is necessary in C++
The compiler wants to ensure you haven't made spelling mistakes or passed the wrong number of arguments to the function. So, it insists that it first sees a declaration of 'add' (or any other types, classes, or functions) before it is used.
This really just allows the compiler to do a better job of validating the code and allows it to tidy up loose ends so it can produce a neat-looking object file. If you didn't have to forward declare things, the compiler would produce an object file that would have to contain information about all the possible guesses as to what the function
add might be. And the linker would have to contain very clever logic to try and work out which
add you actually intended to call, when the
add function may live in a different object file the linker is joining with the one that uses add to produce a
exe. It's possible that the linker may get the wrong
add. Say you wanted to use
int add(int a, float b), but accidentally forgot to write it, but the linker found an already existing
int add(int a, int b) and thought that was the right one and used that instead. Your code would compile, but wouldn't be doing what you expected.
So, just to keep things explicit and avoid guessing, etc, the compiler insists you declare everything before it is used.
Difference between declaration and definition
As an aside, it's important to know the difference between a declaration and a definition. A declaration just gives enough code to show what something looks like, so for a function, this is the return type, calling convention, method name, arguments, and their types. However, the code for the method isn't required. For a definition, you need the declaration and then also the code for the function too.
How forward-declarations can significantly reduce build times
You can get the declaration of a function into your current
.h file by #includ'ing the header that already contains a declaration of the function. However, this can slow down your compile, especially if you
#include a header into a
.h instead of
.cpp of your program, as everything that #includes the
.h you're writing would end up #include'ing all the headers you wrote #includes for too. Suddenly, the compiler has #included pages and pages of code that it needs to compile even when you only wanted to use one or two functions. To avoid this, you can use a forward-declaration and just type the declaration of the function yourself at the top of the file. If you're only using a few functions, this can really make your compiles quicker compared to always #including the header. For really large projects, the difference could be an hour or more of compile time bought down to a few minutes.
Break cyclic references where two definitions both use each other
Additionally, forward-declarations can help you break cycles. This is where two functions both try to use each other. When this happens (and it is a perfectly valid thing to do), you may
#include one header file, but that header file tries to
#include the header file you're currently writing... which then #includes the other header, which #includes the one you're writing. You're stuck in a chicken and egg situation with each header file trying to re #include the other. To solve this, you can forward-declare the parts you need in one of the files and leave the #include out of that file.
#include "Wheel.h" // Include Wheel's definition so it can be used in Car.
Hmm... the declaration of
Car is required here as
Wheel has a pointer to a
Car.h can't be included here as it would result in a compiler error. If
Car.h was included, that would then try to include
Wheel.h which would include
Car.h which would include
Wheel.h and this would go on forever, so instead the compiler raises an error. The solution is to forward declare
class Car; // forward declaration
Wheel had methods which need to call methods of
Car, those methods could be defined in
Wheel.cpp is now able to include
Car.h without causing a cycle.