# Tutorials of CallbackList
## Table Of Contents
- [Tutorial 1 -- Basic usage](#tutorial1)
- [Tutorial 2 -- Callback with parameters](#tutorial2)
- [Tutorial 3 -- Remove](#tutorial3)
- [Tutorial 4 -- For each](#tutorial4)
## Tutorials
### CallbackList tutorial 1, basic
**Code**
```c++
// The namespace is eventpp
// the first parameter is the prototype of the listener.
eventpp::CallbackList callbackList;
// Add a callback.
// []() {} is the callback.
// Lambda is not required, any function or std::function
// or whatever function object with the required prototype is fine.
callbackList.append([]() {
std::cout << "Got callback 1." << std::endl;
});
callbackList.append([]() {
std::cout << "Got callback 2." << std::endl;
});
// Invoke the callback list
callbackList();
```
**Output**
> Got callback 1.
> Got callback 2.
**Remarks**
First let's define a callback list.
```c++
eventpp::CallbackList callbackList;
```
class CallbackList takes at least one template arguments. It is the *prototype* of the callback.
The *prototype* is C++ function type, such as `void (int)`, `void (const std::string &, const MyClass &, int, bool)`.
Now let's add a callback.
```c++
callbackList.append([]() {
std::cout << "Got callback 1." << std::endl;
});
```
Function `append` takes one arguments, the *callback*.
The *callback* can be any callback target -- functions, pointers to functions, , pointers to member functions, lambda expressions, and function objects. It must be able to be called with the *prototype* declared in `callbackList`.
In the tutorial, we also add another callback.
Now let's invoke the callbackList.
```c++
callbackList();
```
During the invoking, all callbacks will be invoked one by one in the order of they were added.
### CallbackList tutorial 2, callback with parameters
**Code**
```c++
// The callback list prototype has two parameters.
eventpp::CallbackList callbackList;
callbackList.append([](const std::string & s, const bool b) {
std::cout << std::boolalpha << "Got callback 1, s is " << s << " b is " << b << std::endl;
});
// The callback prototype doesn't need to be exactly same as the callback list.
// It would be find as long as the arguments is compatible with the callbacklist.
callbackList.append([](std::string s, int b) {
std::cout << std::boolalpha << "Got callback 2, s is " << s << " b is " << b << std::endl;
});
// Invoke the callback list
callbackList("Hello world", true);
```
**Output**
> Got callback 1, s is Hello world b is true
> Got callback 2, s is Hello world b is 1
**Remarks**
Now the callback list prototype takes two parameters, `const std::string &` and `const bool`.
The callback's prototype is not required to be same as the callback list, it's fine as long as the prototype is compatible with the callback list. See the second callback, `[](std::string s, int b)`, its prototype is not same as the callback list.
### CallbackList tutorial 3, remove
**Code**
```c++
using CL = eventpp::CallbackList;
CL callbackList;
CL::Handle handle2;
// Add some callbacks.
callbackList.append([]() {
std::cout << "Got callback 1." << std::endl;
});
handle2 = callbackList.append([]() {
std::cout << "Got callback 2." << std::endl;
});
callbackList.append([]() {
std::cout << "Got callback 3." << std::endl;
});
callbackList.remove(handle2);
// Invoke the callback list
// The "Got callback 2" callback should not be triggered.
callbackList();
```
**Output**
> Got callback 1.
> Got callback 3.
**Remarks**
### CallbackList tutorial 4, for each
**Code**
```c++
using CL = eventpp::CallbackList;
CL callbackList;
// Add some callbacks.
callbackList.append([]() {
std::cout << "Got callback 1." << std::endl;
});
callbackList.append([]() {
std::cout << "Got callback 2." << std::endl;
});
callbackList.append([]() {
std::cout << "Got callback 3." << std::endl;
});
// Now call forEach to remove the second callback
// The forEach callback prototype is void(const CallbackList::Handle & handle, const CallbackList::Callback & callback)
int index = 0;
callbackList.forEach([&callbackList, &index](const CL::Handle & handle, const CL::Callback & callback) {
std::cout << "forEach(Handle, Callback), invoked " << index << std::endl;
if(index == 1) {
callbackList.remove(handle);
std::cout << "forEach(Handle, Callback), removed second callback" << std::endl;
}
++index;
});
// The forEach callback prototype can also be void(const CallbackList::Handle & handle)
callbackList.forEach([&callbackList, &index](const CL::Handle & handle) {
std::cout << "forEach(Handle), invoked" << std::endl;
});
// The forEach callback prototype can also be void(const CallbackList::Callback & callback)
callbackList.forEach([&callbackList, &index](const CL::Callback & callback) {
std::cout << "forEach(Callback), invoked" << std::endl;
});
// Invoke the callback list
// The "Got callback 2" callback should not be triggered.
callbackList();
```
**Output**
> Got callback 1.
> Got callback 3.
**Remarks**