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[< Back](../README.md)
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2021-10-05 11:00:57 +00:00
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# Exercise: Refactor out GhostState from GameState
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In this exercise we will create a class that abstracts away common functionality.
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## Visibility
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The main difference between `class` and `struct` is the default visibility. All members of a struct are publicly
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accessible by default. A class on the other hand is private by default, so some sort of `public:` access is needed to
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give users access to things like constructors and functions.
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Everything can be made private in a C++ class, even constructors.
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## Default behavior
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If possible, we want to rely on the default behavior of the member variables of a class. This simplifies the design of
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your class and reduces the things you need to worry about.
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```cpp
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struct Position {
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double x = 0;
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double y = 0;
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};
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struct GridPosition {
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size_t x;
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size_t y;
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GridPosition(size_t x, size_t y)
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: x(x), y(y)
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{}
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};
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```
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When someone creates an instance of `Position` the x and y variables are always set to 0 and there is no other way to
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create the class.
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When someone wants to create an instance of `GridPosition`, they need to give the constructor the x and y values. You
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could set them to 0, but they still need to be given. Trying to create an instance of `GridPosition` with no values
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given will not compile.
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## Game State
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`GameState` is a class that holds the instances of all the game objects (ghosts, pacman, pellets, etc). Roughly every 16
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milliseconds the `step()` function inside of `GameState` will be called.
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`GameState` will call each member's `update()` function with the current delta time, this allows each object to know
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that it should update and how much time has passed since last it updated. The class also does some checks like if any
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pellets have been eaten and if any of the member objects are colliding.
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## Exercise
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The ghost functions within `GameState` are usually grouped together. So lets abstract the ghost updating code into its
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own class.
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1. Create files called `GhostState.hpp` and `GhostState.cpp` and run CMake so they are visible within the project.
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2. Create a class called `GhostState` within the `.hpp` file.
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3. Move all of the ghosts from the `GameState` class into the `GhostState` class. Then create a member variable
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within `GameState` that is of type `GhostState`.
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4. Move all of the ghost functionality from `GameState` into the `GhostState` class. Create functions for this behavior
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and call those functions from their respective locations within `GameState` (update, checkCollision, reset, frighten)
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5. Compile and run the game, check if everything is working correctly.
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