tighten game loop timing

2021-07-23 15:47:02 -07:00 · 2021-07-23 15:47:02 -07:00 · 9f588d389b
parent ae45aa9ff2
commit 9f588d389b
1 changed files with 108 additions and 20 deletions
--- a/src/Game.cs
+++ b/src/Game.cs
@ -5,19 +5,29 @@ using MoonWorks.Graphics;
 using MoonWorks.Input;
 using MoonWorks.Window;
 using System.Text;
 using System;
 using System.Diagnostics;
 namespace MoonWorks
 {
    public abstract class Game
    {
-        public const double MAX_DELTA_TIME = 0.1;
+        public TimeSpan MAX_DELTA_TIME = TimeSpan.FromMilliseconds(100);
        private bool quit = false;
        private double timestep;
        ulong currentTime = SDL.SDL_GetPerformanceCounter();
        double accumulator = 0;
        bool debugMode;
 		private Stopwatch gameTimer;
        private TimeSpan timestep;
 		private long previousTicks = 0;
        TimeSpan accumulatedElapsedTime = TimeSpan.Zero;
 		// must be a power of 2 so we can do a bitmask optimization when checking worst case
 		private const int PREVIOUS_SLEEP_TIME_COUNT = 128;
 		private const int SLEEP_TIME_MASK = PREVIOUS_SLEEP_TIME_COUNT - 1;
 		private TimeSpan[] previousSleepTimes = new TimeSpan[PREVIOUS_SLEEP_TIME_COUNT];
 		private int sleepTimeIndex = 0;
 		private TimeSpan worstCaseSleepPrecision = TimeSpan.FromMilliseconds(1);
        public OSWindow Window { get; }
        public GraphicsDevice GraphicsDevice { get; }
        public AudioDevice AudioDevice { get; }
@ -37,7 +47,13 @@ namespace MoonWorks
            int targetTimestep = 60,
            bool debugMode = false
        ) {
-            timestep = 1.0 / targetTimestep;
+            timestep = TimeSpan.FromTicks(TimeSpan.TicksPerSecond / targetTimestep);
 			gameTimer = Stopwatch.StartNew();
 			for (int i = 0; i < previousSleepTimes.Length; i += 1)
 			{
 				previousSleepTimes[i] = TimeSpan.FromMilliseconds(1);
 			}
            if (SDL.SDL_Init(SDL.SDL_INIT_VIDEO | SDL.SDL_INIT_TIMER | SDL.SDL_INIT_GAMECONTROLLER) < 0)
            {
@ -66,35 +82,55 @@ namespace MoonWorks
        {
            while (!quit)
            {
-                var newTime = SDL.SDL_GetPerformanceCounter();
+				AdvanceElapsedTime();
                double frameTime = (newTime - currentTime) / (double)SDL.SDL_GetPerformanceFrequency();
-                if (frameTime > MAX_DELTA_TIME)
+				/* We want to wait until the next frame,
 				 * but we don't want to oversleep. Requesting repeated 1ms sleeps and
 				 * seeing how long we actually slept for lets us estimate the worst case
 				 * sleep precision so we don't oversleep the next frame.
 				 */
 				while (accumulatedElapsedTime + worstCaseSleepPrecision < timestep)
 				{
-                    frameTime = MAX_DELTA_TIME;
+					System.Threading.Thread.Sleep(1);
 					TimeSpan timeAdvancedSinceSleeping = AdvanceElapsedTime();
 					UpdateEstimatedSleepPrecision(timeAdvancedSinceSleeping);
 				}
-                currentTime = newTime;
+				/* Now that we have slept into the sleep precision threshold, we need to wait
 				 * for just a little bit longer until the target elapsed time has been reached.
 				 * SpinWait(1) works by pausing the thread for very short intervals, so it is
 				 * an efficient and time-accurate way to wait out the rest of the time.
 				 */
 				while (accumulatedElapsedTime < timestep)
 				{
 					System.Threading.Thread.SpinWait(1);
 					AdvanceElapsedTime();
 				}
-                accumulator += frameTime;
+				// Now that we are going to perform an update, let's handle SDL events.
 				HandleSDLEvents();
 				// Do not let any step take longer than our maximum.
                if (accumulatedElapsedTime > MAX_DELTA_TIME)
                {
                    accumulatedElapsedTime = MAX_DELTA_TIME;
                }
                if (!quit)
                {
-                    while (accumulator >= timestep)
+                    while (accumulatedElapsedTime >= timestep)
                    {
                        Inputs.Mouse.Wheel = 0;
                        HandleSDLEvents();
                        Inputs.Update();
                        AudioDevice.Update();
                        Update(timestep);
-                        accumulator -= timestep;
+                        accumulatedElapsedTime -= timestep;
                    }
-                    double alpha = accumulator / timestep;
+                    var alpha = accumulatedElapsedTime / timestep;
                    Draw(timestep, alpha);
                }
@ -122,9 +158,10 @@ namespace MoonWorks
            }
        }
-        protected abstract void Update(double dt);
+        protected abstract void Update(TimeSpan dt);
-        protected abstract void Draw(double dt, double alpha);
+		// alpha refers to a percentage value between the current and next state
        protected abstract void Draw(TimeSpan dt, double alpha);
        private void HandleTextInput(SDL2.SDL.SDL_Event evt)
        {
@ -154,6 +191,57 @@ namespace MoonWorks
            }
        }
 		private TimeSpan AdvanceElapsedTime()
 		{
 			long currentTicks = gameTimer.Elapsed.Ticks;
 			TimeSpan timeAdvanced = TimeSpan.FromTicks(currentTicks - previousTicks);
 			accumulatedElapsedTime += timeAdvanced;
 			previousTicks = currentTicks;
 			return timeAdvanced;
 		}
 		/* To calculate the sleep precision of the OS, we take the worst case
 		 * time spent sleeping over the results of previous requests to sleep 1ms.
 		 */
 		private void UpdateEstimatedSleepPrecision(TimeSpan timeSpentSleeping)
 		{
 			/* It is unlikely that the scheduler will actually be more imprecise than
 			 * 4ms and we don't want to get wrecked by a single long sleep so we cap this
 			 * value at 4ms for sanity.
 			 */
 			var upperTimeBound = TimeSpan.FromMilliseconds(4);
 			if (timeSpentSleeping > upperTimeBound)
 			{
 				timeSpentSleeping = upperTimeBound;
 			}
 			/* We know the previous worst case - it's saved in worstCaseSleepPrecision.
 			 * We also know the current index. So the only way the worst case changes
 			 * is if we either 1) just got a new worst case, or 2) the worst case was
 			 * the oldest entry on the list.
 			 */
 			if (timeSpentSleeping >= worstCaseSleepPrecision)
 			{
 				worstCaseSleepPrecision = timeSpentSleeping;
 			}
 			else if (previousSleepTimes[sleepTimeIndex] == worstCaseSleepPrecision)
 			{
 				var maxSleepTime = TimeSpan.MinValue;
 				for (int i = 0; i < previousSleepTimes.Length; i++)
 				{
 					if (previousSleepTimes[i] > maxSleepTime)
 					{
 						maxSleepTime = previousSleepTimes[i];
 					}
 				}
 				worstCaseSleepPrecision = maxSleepTime;
 			}
 			previousSleepTimes[sleepTimeIndex] = timeSpentSleeping;
 			sleepTimeIndex = (sleepTimeIndex + 1) & SLEEP_TIME_MASK;
 		}
 		private unsafe static int MeasureStringLength(byte* ptr)
 		{
 			int bytes;