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529 行
18 KiB
529 行
18 KiB
using System;
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using UnityEngine;
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using System.Collections.Generic;
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#if UNITY_EDITOR
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using UnityEditor;
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#endif
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using MLAgents.Inference;
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using MLAgents.Policies;
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using MLAgents.SideChannels;
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using Barracuda;
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/**
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* Welcome to Unity Machine Learning Agents (ML-Agents).
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*
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* The ML-Agents toolkit contains four entities: Academy, Agent, Communicator and
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* Python API. The academy and connected agents live within
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* a learning environment (herein called Environment), while the communicator
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* manages the communication between the learning environment and the Python
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* API. For more information on each of these entities, in addition to how to
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* set-up a learning environment and train the behavior of characters in a
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* Unity scene, please browse our documentation pages on GitHub:
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* https://github.com/Unity-Technologies/ml-agents/blob/master/docs/
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*/
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namespace MLAgents
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{
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/// <summary>
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/// Helper class to step the Academy during FixedUpdate phase.
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/// </summary>
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internal class AcademyFixedUpdateStepper : MonoBehaviour
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{
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void FixedUpdate()
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{
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Academy.Instance.EnvironmentStep();
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}
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}
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/// <summary>
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/// An Academy is where Agent objects go to train their behaviors.
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/// </summary>
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/// <remarks>
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/// When an academy is run, it can either be in inference or training mode.
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/// The mode is determined by the presence or absence of a Communicator. In
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/// the presence of a communicator, the academy is run in training mode where
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/// the states and observations of each agent are sent through the
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/// communicator. In the absence of a communicator, the academy is run in
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/// inference mode where the agent behavior is determined by the Policy
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/// attached to it.
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/// </remarks>
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[HelpURL("https://github.com/Unity-Technologies/ml-agents/blob/master/" +
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"docs/Learning-Environment-Design.md")]
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public class Academy : IDisposable
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{
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/// <summary>
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/// Communication protocol version.
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/// When connecting to python, this must match UnityEnvironment.API_VERSION.
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/// Currently we require strict equality between the communication protocol
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/// on each side, although we may allow some flexibility in the future.
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/// This should be incremented whenever a change is made to the communication protocol.
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/// </summary>
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const string k_ApiVersion = "0.16.0";
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/// <summary>
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/// Unity package version of com.unity.ml-agents.
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/// This must match the version string in package.json and is checked in a unit test.
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/// </summary>
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internal const string k_PackageVersion = "0.15.1-preview";
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const int k_EditorTrainingPort = 5004;
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const string k_portCommandLineFlag = "--mlagents-port";
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// Lazy initializer pattern, see https://csharpindepth.com/articles/singleton#lazy
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static Lazy<Academy> s_Lazy = new Lazy<Academy>(() => new Academy());
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/// <summary>
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/// True if the Academy is initialized, false otherwise.
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/// </summary>
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public static bool IsInitialized
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{
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get { return s_Lazy.IsValueCreated; }
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}
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/// <summary>
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/// The singleton Academy object.
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/// </summary>
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public static Academy Instance { get { return s_Lazy.Value; } }
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// Fields not provided in the Inspector.
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/// <summary>
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/// Returns whether or not the communicator is on.
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/// </summary>
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/// <returns>
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/// <c>true</c>, if communicator is on, <c>false</c> otherwise.
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/// </returns>
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public bool IsCommunicatorOn
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{
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get { return Communicator != null; }
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}
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/// The number of episodes completed by the environment. Incremented
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/// each time the environment is reset.
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int m_EpisodeCount;
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/// The number of steps completed within the current episode. Incremented
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/// each time a step is taken in the environment. Is reset to 0 during
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/// <see cref="EnvironmentReset"/>.
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int m_StepCount;
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/// The number of total number of steps completed during the whole simulation. Incremented
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/// each time a step is taken in the environment.
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int m_TotalStepCount;
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/// Pointer to the communicator currently in use by the Academy.
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internal ICommunicator Communicator;
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bool m_Initialized;
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List<ModelRunner> m_ModelRunners = new List<ModelRunner>();
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// Flag used to keep track of the first time the Academy is reset.
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bool m_HadFirstReset;
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// The Academy uses a series of events to communicate with agents
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// to facilitate synchronization. More specifically, it ensure
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// that all the agents performs their steps in a consistent order (i.e. no
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// agent can act based on a decision before another agent has had a chance
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// to request a decision).
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// Signals to all the Agents at each environment step so they can use
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// their Policy to decide on their next action.
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internal event Action DecideAction;
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// Signals to all the listeners that the academy is being destroyed
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internal event Action DestroyAction;
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// Signals the Agent that a new step is about to start.
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// This will mark the Agent as Done if it has reached its maxSteps.
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internal event Action AgentIncrementStep;
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/// <summary>
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/// Signals to all of the <see cref="Agent"/>s that their step is about to begin.
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/// This is a good time for an <see cref="Agent"/> to decide if it would like to
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/// call <see cref="Agent.RequestDecision"/> or <see cref="Agent.RequestAction"/>
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/// for this step. Any other pre-step setup could be done during this even as well.
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/// </summary>
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public event Action<int> AgentPreStep;
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// Signals to all the agents at each environment step so they can send
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// their state to their Policy if they have requested a decision.
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internal event Action AgentSendState;
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// Signals to all the agents at each environment step so they can act if
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// they have requested a decision.
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internal event Action AgentAct;
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// Signals to all the agents each time the Academy force resets.
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internal event Action AgentForceReset;
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/// <summary>
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/// Signals that the Academy has been reset by the training process.
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/// </summary>
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public event Action OnEnvironmentReset;
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AcademyFixedUpdateStepper m_FixedUpdateStepper;
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GameObject m_StepperObject;
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/// <summary>
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/// Private constructor called the first time the Academy is used.
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/// Academy uses this time to initialize internal data
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/// structures, initialize the environment and check for the existence
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/// of a communicator.
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/// </summary>
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Academy()
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{
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Application.quitting += Dispose;
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LazyInitialize();
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}
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/// <summary>
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/// Initialize the Academy if it hasn't already been initialized.
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/// This method is always safe to call; it will have no effect if the Academy is already
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/// initialized.
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/// </summary>
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internal void LazyInitialize()
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{
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if (!m_Initialized)
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{
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InitializeEnvironment();
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m_Initialized = true;
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}
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}
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/// <summary>
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/// Enable stepping of the Academy during the FixedUpdate phase. This is done by creating
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/// a temporary GameObject with a MonoBehaviour that calls Academy.EnvironmentStep().
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/// </summary>
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void EnableAutomaticStepping()
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{
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if (m_FixedUpdateStepper != null)
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{
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return;
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}
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m_StepperObject = new GameObject("AcademyFixedUpdateStepper");
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// Don't show this object in the hierarchy
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m_StepperObject.hideFlags = HideFlags.HideInHierarchy;
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m_FixedUpdateStepper = m_StepperObject.AddComponent<AcademyFixedUpdateStepper>();
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}
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/// <summary>
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/// Disable stepping of the Academy during the FixedUpdate phase. If this is called, the Academy must be
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/// stepped manually by the user by calling Academy.EnvironmentStep().
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/// </summary>
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void DisableAutomaticStepping()
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{
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if (m_FixedUpdateStepper == null)
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{
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return;
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}
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m_FixedUpdateStepper = null;
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if (Application.isEditor)
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{
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UnityEngine.Object.DestroyImmediate(m_StepperObject);
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}
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else
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{
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UnityEngine.Object.Destroy(m_StepperObject);
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}
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m_StepperObject = null;
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}
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/// <summary>
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/// Determines whether or not the Academy is automatically stepped during the FixedUpdate phase.
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/// </summary>
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public bool AutomaticSteppingEnabled
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{
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get { return m_FixedUpdateStepper != null; }
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set
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{
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if (value)
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{
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EnableAutomaticStepping();
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}
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else
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{
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DisableAutomaticStepping();
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}
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}
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}
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// Used to read Python-provided environment parameters
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static int ReadPortFromArgs()
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{
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var args = Environment.GetCommandLineArgs();
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var inputPort = "";
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for (var i = 0; i < args.Length; i++)
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{
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if (args[i] == k_portCommandLineFlag)
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{
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inputPort = args[i + 1];
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}
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}
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try
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{
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return int.Parse(inputPort);
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}
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catch
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{
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// No arg passed, or malformed port number.
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#if UNITY_EDITOR
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// Try connecting on the default editor port
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return k_EditorTrainingPort;
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#else
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// This is an executable, so we don't try to connect.
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return -1;
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#endif
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}
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}
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/// <summary>
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/// Initializes the environment, configures it and initialized the Academy.
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/// </summary>
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void InitializeEnvironment()
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{
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TimerStack.Instance.AddMetadata("communication_protocol_version", k_ApiVersion);
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TimerStack.Instance.AddMetadata("com.unity.ml-agents_version", k_PackageVersion);
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EnableAutomaticStepping();
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SideChannelUtils.RegisterSideChannel(new EngineConfigurationChannel());
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SideChannelUtils.RegisterSideChannel(new FloatPropertiesChannel());
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SideChannelUtils.RegisterSideChannel(new StatsSideChannel());
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// Try to launch the communicator by using the arguments passed at launch
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var port = ReadPortFromArgs();
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if (port > 0)
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{
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Communicator = new RpcCommunicator(
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new CommunicatorInitParameters
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{
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port = port
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}
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);
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}
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if (Communicator != null)
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{
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// We try to exchange the first message with Python. If this fails, it means
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// no Python Process is ready to train the environment. In this case, the
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//environment must use Inference.
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try
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{
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var unityRlInitParameters = Communicator.Initialize(
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new CommunicatorInitParameters
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{
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unityCommunicationVersion = k_ApiVersion,
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unityPackageVersion = k_PackageVersion,
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name = "AcademySingleton",
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});
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UnityEngine.Random.InitState(unityRlInitParameters.seed);
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}
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catch
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{
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Debug.Log($"" +
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$"Couldn't connect to trainer on port {port} using API version {k_ApiVersion}. " +
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"Will perform inference instead."
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);
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Communicator = null;
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}
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if (Communicator != null)
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{
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Communicator.QuitCommandReceived += OnQuitCommandReceived;
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Communicator.ResetCommandReceived += OnResetCommand;
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}
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}
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// If a communicator is enabled/provided, then we assume we are in
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// training mode. In the absence of a communicator, we assume we are
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// in inference mode.
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ResetActions();
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}
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void ResetActions()
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{
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DecideAction = () => {};
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DestroyAction = () => {};
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AgentPreStep = i => {};
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AgentSendState = () => {};
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AgentAct = () => {};
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AgentForceReset = () => {};
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OnEnvironmentReset = () => {};
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}
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static void OnQuitCommandReceived()
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{
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#if UNITY_EDITOR
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EditorApplication.isPlaying = false;
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#endif
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Application.Quit();
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}
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void OnResetCommand()
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{
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ForcedFullReset();
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}
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/// <summary>
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/// Returns the current episode counter.
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/// </summary>
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/// <returns>
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/// Current episode number.
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/// </returns>
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public int EpisodeCount
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{
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get { return m_EpisodeCount; }
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}
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/// <summary>
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/// Returns the current step counter (within the current episode).
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/// </summary>
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/// <returns>
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/// Current step count.
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/// </returns>
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public int StepCount
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{
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get { return m_StepCount; }
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}
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/// <summary>
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/// Returns the total step counter.
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/// </summary>
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/// <returns>
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/// Total step count.
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/// </returns>
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public int TotalStepCount
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{
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get { return m_TotalStepCount; }
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}
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/// <summary>
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/// Forces the full reset. The done flags are not affected. Is either
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/// called the first reset at inference and every external reset
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/// at training.
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/// </summary>
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void ForcedFullReset()
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{
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EnvironmentReset();
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AgentForceReset?.Invoke();
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m_HadFirstReset = true;
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}
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/// <summary>
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/// Performs a single environment update to the Academy, and Agent
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/// objects within the environment.
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/// </summary>
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public void EnvironmentStep()
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{
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if (!m_HadFirstReset)
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{
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ForcedFullReset();
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}
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AgentPreStep?.Invoke(m_StepCount);
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m_StepCount += 1;
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m_TotalStepCount += 1;
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AgentIncrementStep?.Invoke();
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using (TimerStack.Instance.Scoped("AgentSendState"))
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{
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AgentSendState?.Invoke();
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}
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using (TimerStack.Instance.Scoped("DecideAction"))
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{
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DecideAction?.Invoke();
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}
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// If the communicator is not on, we need to clear the SideChannel sending queue
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if (!IsCommunicatorOn)
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{
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SideChannelUtils.GetSideChannelMessage();
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}
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using (TimerStack.Instance.Scoped("AgentAct"))
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{
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AgentAct?.Invoke();
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}
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}
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/// <summary>
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/// Resets the environment, including the Academy.
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/// </summary>
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void EnvironmentReset()
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{
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m_StepCount = 0;
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m_EpisodeCount++;
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OnEnvironmentReset?.Invoke();
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}
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/// <summary>
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/// Creates or retrieves an existing ModelRunner that uses the same
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/// NNModel and the InferenceDevice as provided.
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/// </summary>
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/// <param name="model">The NNModel the ModelRunner must use.</param>
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/// <param name="brainParameters">The brainParameters used to create the ModelRunner.</param>
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/// <param name="inferenceDevice">
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/// The inference device (CPU or GPU) the ModelRunner will use.
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/// </param>
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/// <returns> The ModelRunner compatible with the input settings.</returns>
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internal ModelRunner GetOrCreateModelRunner(
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NNModel model, BrainParameters brainParameters, InferenceDevice inferenceDevice)
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{
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var modelRunner = m_ModelRunners.Find(x => x.HasModel(model, inferenceDevice));
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if (modelRunner == null)
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{
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modelRunner = new ModelRunner(
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model, brainParameters, inferenceDevice);
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m_ModelRunners.Add(modelRunner);
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}
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return modelRunner;
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}
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/// <summary>
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/// Shut down the Academy.
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/// </summary>
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public void Dispose()
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{
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DisableAutomaticStepping();
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// Signal to listeners that the academy is being destroyed now
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DestroyAction?.Invoke();
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Communicator?.Dispose();
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Communicator = null;
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SideChannelUtils.UnregisterAllSideChannels();
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if (m_ModelRunners != null)
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{
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foreach (var mr in m_ModelRunners)
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{
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mr.Dispose();
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}
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m_ModelRunners = null;
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}
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// Clear out the actions so we're not keeping references to any old objects
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ResetActions();
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// TODO - Pass worker ID or some other identifier,
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// so that multiple envs won't overwrite each others stats.
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TimerStack.Instance.SaveJsonTimers();
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m_Initialized = false;
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// Reset the Lazy instance
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s_Lazy = new Lazy<Academy>(() => new Academy());
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}
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}
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}
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