using System; using System.Collections.Generic; using Unity.Simulation; using UnityEngine; using UnityEngine.Experimental.Perception.Randomization.Randomizers; using UnityEngine.Experimental.Perception.Randomization.Samplers; using UnityEngine.Perception.GroundTruth; namespace UnityEngine.Experimental.Perception.Randomization.Scenarios { /// /// Derive ScenarioBase to implement a custom scenario /// [DefaultExecutionOrder(-1)] public abstract class ScenarioBase : MonoBehaviour { static ScenarioBase s_ActiveScenario; bool m_SkipFrame = true; bool m_FirstScenarioFrame = true; bool m_WaitingForFinalUploads; RandomizerTagManager m_TagManager = new RandomizerTagManager(); IEnumerable activeRandomizers { get { foreach (var randomizer in m_Randomizers) if (randomizer.enabled) yield return randomizer; } } // ReSharper disable once InconsistentNaming [SerializeReference] internal List m_Randomizers = new List(); /// /// The RandomizerTagManager attached to this scenario /// public RandomizerTagManager tagManager => m_TagManager; /// /// Return the list of randomizers attached to this scenario /// public IReadOnlyList randomizers => m_Randomizers.AsReadOnly(); /// /// If true, this scenario will quit the Unity application when it's finished executing /// [HideInInspector] public bool quitOnComplete = true; /// /// The name of the Json file this scenario's constants are serialized to/from. /// [HideInInspector] public string serializedConstantsFileName = "constants"; /// /// Returns the active parameter scenario in the scene /// public static ScenarioBase activeScenario { get => s_ActiveScenario; private set { if (value != null && s_ActiveScenario != null && value != s_ActiveScenario) throw new ScenarioException("There cannot be more than one active Scenario"); s_ActiveScenario = value; } } /// /// Returns the file location of the JSON serialized constants /// public string serializedConstantsFilePath => Application.dataPath + "/StreamingAssets/" + serializedConstantsFileName + ".json"; /// /// Returns this scenario's non-typed serialized constants /// public abstract object genericConstants { get; } /// /// The number of frames that have elapsed since the current scenario iteration was Setup /// public int currentIterationFrame { get; private set; } /// /// The number of frames that have elapsed since the scenario was initialized /// public int framesSinceInitialization { get; private set; } /// /// The current iteration index of the scenario /// public int currentIteration { get; protected set; } /// /// Returns whether the current scenario iteration has completed /// public abstract bool isIterationComplete { get; } /// /// Returns whether the entire scenario has completed /// public abstract bool isScenarioComplete { get; } /// /// Progresses the current scenario iteration /// protected virtual void IncrementIteration() { currentIteration++; } /// /// Serializes the scenario's constants to a JSON file located at serializedConstantsFilePath /// public abstract void Serialize(); /// /// Deserializes constants saved in a JSON file located at serializedConstantsFilePath /// public abstract void Deserialize(); /// /// This method executed directly after this scenario has been registered and initialized /// protected virtual void OnAwake() { } void Awake() { activeScenario = this; OnAwake(); foreach (var randomizer in m_Randomizers) randomizer.Initialize(this, tagManager); foreach (var randomizer in m_Randomizers) randomizer.Create(); ValidateParameters(); // Don't skip the first frame if executing on Unity Simulation if (Configuration.Instance.IsSimulationRunningInCloud()) m_SkipFrame = false; } void OnEnable() { activeScenario = this; } void OnDisable() { s_ActiveScenario = null; } void Start() { Deserialize(); } void Update() { // TODO: remove this check when the perception camera can capture the first frame of output if (m_SkipFrame) { m_SkipFrame = false; return; } // Wait for any final uploads before exiting quitting if (m_WaitingForFinalUploads && quitOnComplete) { Manager.Instance.Shutdown(); if (!Manager.FinalUploadsDone) return; #if UNITY_EDITOR UnityEditor.EditorApplication.ExitPlaymode(); #else Application.Quit(); #endif return; } // Iterate Scenario if (m_FirstScenarioFrame) { m_FirstScenarioFrame = false; } else { currentIterationFrame++; framesSinceInitialization++; if (isIterationComplete) { IncrementIteration(); currentIterationFrame = 0; foreach (var randomizer in activeRandomizers) randomizer.IterationEnd(); } } // Quit if scenario is complete if (isScenarioComplete) { foreach (var randomizer in activeRandomizers) randomizer.ScenarioComplete(); DatasetCapture.ResetSimulation(); m_WaitingForFinalUploads = true; return; } // Perform new iteration tasks if (currentIterationFrame == 0) { DatasetCapture.StartNewSequence(); IterateParameterStates(); foreach (var randomizer in activeRandomizers) randomizer.IterationStart(); } // Perform new frame tasks foreach (var randomizer in activeRandomizers) randomizer.Update(); } /// /// Finds and returns a randomizer attached to this scenario of the specified Randomizer type /// /// The type of randomizer to find /// A randomizer of the specified type /// public T GetRandomizer() where T : Randomizer { foreach (var randomizer in m_Randomizers) if (randomizer is T typedRandomizer) return typedRandomizer; throw new ScenarioException($"A Randomizer of type {typeof(T).Name} was not added to this scenario"); } /// /// Creates a new randomizer and adds it to this scenario /// /// The type of randomizer to create /// The newly created randomizer public T CreateRandomizer() where T : Randomizer, new() { return (T)CreateRandomizer(typeof(T)); } internal Randomizer CreateRandomizer(Type randomizerType) { if (!randomizerType.IsSubclassOf(typeof(Randomizer))) throw new ScenarioException( $"Cannot add non-randomizer type {randomizerType.Name} to randomizer list"); foreach (var randomizer in m_Randomizers) if (randomizer.GetType() == randomizerType) throw new ScenarioException( $"Two Randomizers of the same type ({randomizerType.Name}) cannot both be active simultaneously"); var newRandomizer = (Randomizer)Activator.CreateInstance(randomizerType); m_Randomizers.Add(newRandomizer); newRandomizer.Initialize(this, tagManager); newRandomizer.Create(); return newRandomizer; } /// /// Removes a randomizer of the specified type from this scenario /// /// The type of scenario to remove public void RemoveRandomizer() where T : Randomizer, new() { RemoveRandomizer(typeof(T)); } internal void RemoveRandomizer(Type randomizerType) { if (!randomizerType.IsSubclassOf(typeof(Randomizer))) throw new ScenarioException( $"Cannot add non-randomizer type {randomizerType.Name} to randomizer list"); var removed = false; for (var i = 0; i < m_Randomizers.Count; i++) { if (m_Randomizers[i].GetType() == randomizerType) { m_Randomizers.RemoveAt(i); removed = true; break; } } if (!removed) throw new ScenarioException( $"No active Randomizer of type {randomizerType.Name} could be removed"); } /// /// Returns the execution order index of a randomizer of the given type /// /// The type of randomizer to index /// The randomizer index /// public int GetRandomizerIndex() where T : Randomizer, new() { for (var i = 0; i < m_Randomizers.Count; i++) { var randomizer = m_Randomizers[i]; if (randomizer is T) return i; } throw new ScenarioException($"A Randomizer of type {typeof(T).Name} was not added to this scenario"); } /// /// Moves a randomizer from one index to another /// /// The index of the randomizer to move /// The index to move the randomizer to public void ReorderRandomizer(int currentIndex, int nextIndex) { if (currentIndex == nextIndex) return; if (nextIndex > currentIndex) nextIndex--; var randomizer = m_Randomizers[currentIndex]; m_Randomizers.RemoveAt(currentIndex); m_Randomizers.Insert(nextIndex, randomizer); } /// /// Generates a random seed by hashing the current scenario iteration with a given base random seed /// /// Used to offset the seed generator /// The generated random seed public uint GenerateRandomSeed(uint baseSeed = SamplerUtility.largePrime) { var seed = SamplerUtility.IterateSeed((uint)currentIteration, baseSeed); return SamplerUtility.IterateSeed((uint)currentIteration, seed); } /// /// Generates a random seed by hashing three values together: an arbitrary iteration value, /// the current scenario iteration, and a base random seed /// /// An offset value hashed inside the seed generator /// An offset value hashed inside the seed generator /// The generated random seed public uint GenerateIterativeRandomSeed(int iteration, uint baseSeed = SamplerUtility.largePrime) { return SamplerUtility.IterateSeed((uint)iteration, baseSeed); } void ValidateParameters() { foreach (var randomizer in m_Randomizers) foreach (var parameter in randomizer.parameters) parameter.Validate(); } void IterateParameterStates() { foreach (var randomizer in m_Randomizers) { foreach (var parameter in randomizer.parameters) { parameter.ResetState(); parameter.IterateState(currentIteration); } } } } }