// Copyright (c) 2007-2017 ppy Pty Ltd . // Licensed under the MIT Licence - https://raw.githubusercontent.com/ppy/osu/master/LICENCE using System; using System.Collections.Generic; using osu.Framework.Extensions.IEnumerableExtensions; using osu.Framework.Input; using osu.Framework.MathUtils; using osu.Game.Input.Handlers; using OpenTK; using OpenTK.Input; using KeyboardState = osu.Framework.Input.KeyboardState; using MouseState = osu.Framework.Input.MouseState; namespace osu.Game.Modes.Replays { /// /// The ReplayHandler will take a replay and handle the propagation of updates to the input stack. /// It handles logic of any frames which *must* be executed. /// public class FramedReplayInputHandler : ReplayInputHandler { private readonly Replay replay; protected List Frames => replay.Frames; public ReplayFrame CurrentFrame => !hasFrames ? null : Frames[currentFrameIndex]; public ReplayFrame NextFrame => !hasFrames ? null : Frames[nextFrameIndex]; private int currentFrameIndex; private int nextFrameIndex => MathHelper.Clamp(currentFrameIndex + (currentDirection > 0 ? 1 : -1), 0, Frames.Count - 1); public FramedReplayInputHandler(Replay replay) { this.replay = replay; } private bool advanceFrame() { int newFrame = nextFrameIndex; //ensure we aren't at an extent. if (newFrame == currentFrameIndex) return false; currentFrameIndex = newFrame; return true; } public void SetPosition(Vector2 pos) { } private Vector2? position { get { if (!hasFrames) return null; return Interpolation.ValueAt(currentTime, CurrentFrame.Position, NextFrame.Position, CurrentFrame.Time, NextFrame.Time); } } public override List GetPendingStates() { var buttons = new HashSet(); if (CurrentFrame?.MouseLeft ?? false) buttons.Add(MouseButton.Left); if (CurrentFrame?.MouseRight ?? false) buttons.Add(MouseButton.Right); return new List { new InputState { Mouse = new ReplayMouseState(ToScreenSpace(position ?? Vector2.Zero), buttons), Keyboard = new ReplayKeyboardState(new List()) } }; } public bool AtLastFrame => currentFrameIndex == Frames.Count - 1; public bool AtFirstFrame => currentFrameIndex == 0; public Vector2 Size => new Vector2(512, 384); private const double sixty_frame_time = 1000.0 / 60; private double currentTime; private int currentDirection; /// /// When set, we will ensure frames executed by nested drawables are frame-accurate to replay data. /// Disabling this can make replay playback smoother (useful for autoplay, currently). /// public bool FrameAccuratePlayback = true; private bool hasFrames => Frames.Count > 0; private bool inImportantSection => FrameAccuratePlayback && //a button is in a pressed state ((currentDirection > 0 ? CurrentFrame : NextFrame)?.IsImportant ?? false) && //the next frame is within an allowable time span Math.Abs(currentTime - NextFrame?.Time ?? 0) <= sixty_frame_time * 1.2; /// /// Update the current frame based on an incoming time value. /// There are cases where we return a "must-use" time value that is different from the input. /// This is to ensure accurate playback of replay data. /// /// The time which we should use for finding the current frame. /// The usable time value. If null, we should not advance time as we do not have enough data. public override double? SetFrameFromTime(double time) { currentDirection = time.CompareTo(currentTime); if (currentDirection == 0) currentDirection = 1; if (hasFrames) { //if we changed frames, we want to execute once *exactly* on the frame's time. if (currentDirection == time.CompareTo(NextFrame.Time) && advanceFrame()) return currentTime = CurrentFrame.Time; //if we didn't change frames, we need to ensure we are allowed to run frames in between, else return null. if (inImportantSection) return null; } return currentTime = time; } protected class ReplayMouseState : MouseState { public ReplayMouseState(Vector2 position, IEnumerable list) { Position = position; list.ForEach(b => SetPressed(b, true)); } } protected class ReplayKeyboardState : KeyboardState { public ReplayKeyboardState(List keys) { Keys = keys; } } } }