1. 2.1. T HE G AME L OOP Central game update and render processes

2. Identifying commonality between different game types

3. Select one of the shown genre of game (assuming a 2D game). Think about the game in terms of how it looks, the features that it has, the things that it does. Try to identify common aspects that most games in the genre will share in terms of features and behaviour. Start 10 mins9 mins8 mins7 mins6 mins5 mins4 mins3 mins2 mins 1 min 30 secFinished Easy: Hard: Puzzle game Adventure game Racing game Platform game Rhythm game

4. Things most 2D game have... Front-end (titles, menus) Assets Graphical assets (animations, backgrounds) Sound assets (sfx, background music) Objects In-game objects (sprites, platforms, etc.) HUD objects (score, lives, time, etc.) Object Containers Levels, Areas, Maps Input Events {other things as needed} Things most 2D games do... Once per game/per level Load assets Construct objects Populate containers Lots of times / second Consider input events Update objects Draw graphics Consider sounds {other things as needed} Note: There is no correct answer. Each model will impose a certain set of assumptions, suiting some types of game but not others.

5. Game Container construct { Build objects() } update { Update objects() } draw { Draw objects() } object Game Object construct { Load assets() Build containers() } Game Engine run { loop { Update active layers() Draw visible layers() } Game consists of objects (player, collectables, score, etc.). Assets are loaded at runtime and can be managed via an asset manager Input events may be ‘consumed’ by the main game loop, layers and/or objects Objects reside within a container (front-end, game level, config screen, etc.) Asset Manager Input Events There may be separate update/draw management for game containers

6. The central mechanism to evolve and render game objects

7. Timers ● Most games require a timer to manage the game loop ● Early games used the machine as the timer ○ the update/render loop would run as fast as possible (tied to processor speed) ○ used as typically no spare CPU resource and common platform hardware ○ Approach does not scale to varied platforms or increased hardware capabilities

8. Early Approaches ● Early solution was to use a fixed frame rate as the timer (with one update/render tick every frame) set up fixed rate ticker ( 30/s ) when( tick event ) { update() render() } while( running ) { record tStart update() render() record tEnd if( tEnd-tStart < tickPeriod ) wait( tickPeriod – (tEnd-tStart)) } Why is this problematic? ● UPS reduced if update and draw take too long ● game runs slower, not just displayed with lower FPS

9. Assume you have access to the following methods ● update() – update all game objects ● render() – draw all game objects ● time() – get the current time (ms) ● sleep(ms) – sleep for specified number of ms And the following constraint and target: ● ups –number of update/s (constraint) ● fps – equal to ups (target) Develop an algorithm that adapts to different update and render loads. Hint: The fps should be reduced to ensure the ups remain on target. Optional: Produce an algorithm that compensates for timing/sleep inaccuracies (see SleepTimerTest in the Java Code Repository) Start 10 mins9 mins8 mins7 mins6 mins5 mins4 mins3 mins2 mins 1 min 30 secFinished

10. while( running ) { tBefore = time() update() render() tAfter = time() sleepTime = updatePeriod - (tAfter - tBefore) - overTime if( sleepTime > 0 ) { sleep( sleepTime) overTime = time() - tAfter - sleepTime } else { timeBeyondPeriod = timeBeyondPeriod - sleepTime overTime = 0 while( timeBeyondPeriod > updatePeriod ) { update() timeBeyondPeriod = - updatePeriod }}}}}} updatePeriod = 1000 / UPS timeBeyondPeriod = 0 overTime = 0 Period Loop 1 Loop 2 s o r u Period Loop n Loop m

11. ● Previous slide can be viewed as a form of semi-decoupling ● The AI (update) runs at a fixed rate as before, but the frame (draw) rate just runs as fast as it possibly can (however, no real point running faster than the update loop).

12. ● “Full” decoupling runs the update loop as fast as possible ● A variable interval duration and delta (change) value are used: ○ on faster machines more AI ticks/s with a smaller delta value ○ on slower machines ticks take longer and the delta value will be larger

13. Issues and aspects you should consider as part of your game loop

14. When designing game objects decouple the update and render behaviours. Ask two separate questions: ‘how will I update this’ and ‘how will I draw this’ e.g. for an animation, select the animation to be display in the update phase and render it in the draw phase The draw phase should not change the game state (i.e. properties, etc. of objects, it should simply visualise the game state)

15. XNA provides good control over how the update/draw loop performs For Java: explore game.engine.GameEngine.run() GraphicsDeviceManager class SynchronizeWithVerticalRetrace property – get/set if the maximum draw rate will be limited by the screen refresh rate Game class IsFixedTimeStep property – controls if a fixed update time should be used TargetElapsedTime property – get/set the target fixed time step duration GameTime class Has methods to determine the actual ellapsed time (needed if not using a fixed time step) IsRunningSlowly property – true if the target fixed update time step cannot be obtained

16. The update/draw game loop increasingly involves aspects of concurrency In the most basic sense, the CPU/GPU run in parallel, i.e. CPU tells GPU what to render and lets it get on with it Aside: The graphics pipeline can be stalled (forcing the CPU to wait for the GPU to ‘catch-up’) in various situations (sometimes unavoidable, e.g. getting render target data) Multi-core CPUs, e.g. current gen consoles, PCs, etc. can have numerous concurrent update threads. This will likely require synchronization.

17. To do: Finalise initial game idea, team/no-team, development language Read section to be completed in Project Development Report Think about game idea in terms of game objects, layers, updating, drawing Today we explored: Core game components and actions The update / draw loop and the different ways of managing time Things to keep in mind about the update / draw loop