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369 行
15 KiB
369 行
15 KiB
using System;
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using System.Collections.Generic;
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using System.Linq;
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using Google.Protobuf;
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using Unity.MLAgents.CommunicatorObjects;
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using UnityEngine;
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using System.Runtime.CompilerServices;
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using Unity.MLAgents.Actuators;
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using Unity.MLAgents.Sensors;
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using Unity.MLAgents.Demonstrations;
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using Unity.MLAgents.Policies;
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[assembly: InternalsVisibleTo("Unity.ML-Agents.Editor")]
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[assembly: InternalsVisibleTo("Unity.ML-Agents.Editor.Tests")]
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namespace Unity.MLAgents
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{
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internal static class GrpcExtensions
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{
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#region AgentInfo
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/// <summary>
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/// Converts a AgentInfo to a protobuf generated AgentInfoActionPairProto
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/// </summary>
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/// <returns>The protobuf version of the AgentInfoActionPairProto.</returns>
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public static AgentInfoActionPairProto ToInfoActionPairProto(this AgentInfo ai)
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{
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var agentInfoProto = ai.ToAgentInfoProto();
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var agentActionProto = new AgentActionProto();
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if (ai.storedVectorActions != null)
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{
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agentActionProto.VectorActions.AddRange(ai.storedVectorActions);
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}
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return new AgentInfoActionPairProto
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{
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AgentInfo = agentInfoProto,
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ActionInfo = agentActionProto
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};
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}
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/// <summary>
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/// Converts a AgentInfo to a protobuf generated AgentInfoProto
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/// </summary>
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/// <returns>The protobuf version of the AgentInfo.</returns>
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public static AgentInfoProto ToAgentInfoProto(this AgentInfo ai)
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{
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var agentInfoProto = new AgentInfoProto
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{
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Reward = ai.reward,
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MaxStepReached = ai.maxStepReached,
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Done = ai.done,
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Id = ai.episodeId,
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};
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if (ai.discreteActionMasks != null)
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{
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agentInfoProto.ActionMask.AddRange(ai.discreteActionMasks);
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}
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return agentInfoProto;
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}
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/// <summary>
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/// Get summaries for the observations in the AgentInfo part of the AgentInfoActionPairProto.
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/// </summary>
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/// <param name="infoActionPair"></param>
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/// <returns></returns>
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public static List<ObservationSummary> GetObservationSummaries(this AgentInfoActionPairProto infoActionPair)
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{
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List<ObservationSummary> summariesOut = new List<ObservationSummary>();
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var agentInfo = infoActionPair.AgentInfo;
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foreach (var obs in agentInfo.Observations)
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{
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var summary = new ObservationSummary();
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summary.shape = obs.Shape.ToArray();
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summariesOut.Add(summary);
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}
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return summariesOut;
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}
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#endregion
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#region BrainParameters
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/// <summary>
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/// Converts a BrainParameters into to a BrainParametersProto so it can be sent.
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/// </summary>
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/// <returns>The BrainInfoProto generated.</returns>
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/// <param name="bp">The instance of BrainParameter to extend.</param>
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/// <param name="name">The name of the brain.</param>
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/// <param name="isTraining">Whether or not the Brain is training.</param>
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public static BrainParametersProto ToProto(this BrainParameters bp, string name, bool isTraining)
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{
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var brainParametersProto = new BrainParametersProto
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{
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VectorActionSize = { bp.VectorActionSize },
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VectorActionSpaceType = (SpaceTypeProto)bp.VectorActionSpaceType,
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BrainName = name,
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IsTraining = isTraining
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};
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if (bp.VectorActionDescriptions != null)
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{
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brainParametersProto.VectorActionDescriptions.AddRange(bp.VectorActionDescriptions);
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}
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return brainParametersProto;
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}
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/// <summary>
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/// Converts an ActionSpec into to a Protobuf BrainInfoProto so it can be sent.
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/// </summary>
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/// <returns>The BrainInfoProto generated.</returns>
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/// <param name="actionSpec"> Description of the action spaces for the Agent.</param>
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/// <param name="name">The name of the brain.</param>
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/// <param name="isTraining">Whether or not the Brain is training.</param>
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public static BrainParametersProto ToBrainParametersProto(this ActionSpec actionSpec, string name, bool isTraining)
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{
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actionSpec.CheckNotHybrid();
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var brainParametersProto = new BrainParametersProto
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{
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BrainName = name,
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IsTraining = isTraining
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};
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if (actionSpec.NumContinuousActions > 0)
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{
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brainParametersProto.VectorActionSize.Add(actionSpec.NumContinuousActions);
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brainParametersProto.VectorActionSpaceType = SpaceTypeProto.Continuous;
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}
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else if (actionSpec.NumDiscreteActions > 0)
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{
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brainParametersProto.VectorActionSize.AddRange(actionSpec.BranchSizes);
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brainParametersProto.VectorActionSpaceType = SpaceTypeProto.Discrete;
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}
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// TODO handle ActionDescriptions?
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return brainParametersProto;
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}
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/// <summary>
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/// Convert a BrainParametersProto to a BrainParameters struct.
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/// </summary>
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/// <param name="bpp">An instance of a brain parameters protobuf object.</param>
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/// <returns>A BrainParameters struct.</returns>
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public static BrainParameters ToBrainParameters(this BrainParametersProto bpp)
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{
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var bp = new BrainParameters
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{
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VectorActionSize = bpp.VectorActionSize.ToArray(),
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VectorActionDescriptions = bpp.VectorActionDescriptions.ToArray(),
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VectorActionSpaceType = (SpaceType)bpp.VectorActionSpaceType
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};
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return bp;
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}
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#endregion
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#region DemonstrationMetaData
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/// <summary>
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/// Convert metadata object to proto object.
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/// </summary>
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public static DemonstrationMetaProto ToProto(this DemonstrationMetaData dm)
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{
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var demonstrationName = dm.demonstrationName ?? "";
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var demoProto = new DemonstrationMetaProto
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{
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ApiVersion = DemonstrationMetaData.ApiVersion,
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MeanReward = dm.meanReward,
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NumberSteps = dm.numberSteps,
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NumberEpisodes = dm.numberEpisodes,
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DemonstrationName = demonstrationName
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};
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return demoProto;
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}
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/// <summary>
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/// Initialize metadata values based on proto object.
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/// </summary>
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public static DemonstrationMetaData ToDemonstrationMetaData(this DemonstrationMetaProto demoProto)
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{
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var dm = new DemonstrationMetaData
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{
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numberEpisodes = demoProto.NumberEpisodes,
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numberSteps = demoProto.NumberSteps,
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meanReward = demoProto.MeanReward,
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demonstrationName = demoProto.DemonstrationName
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};
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if (demoProto.ApiVersion != DemonstrationMetaData.ApiVersion)
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{
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throw new Exception("API versions of demonstration are incompatible.");
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}
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return dm;
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}
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#endregion
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public static UnityRLInitParameters ToUnityRLInitParameters(this UnityRLInitializationInputProto inputProto)
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{
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return new UnityRLInitParameters
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{
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seed = inputProto.Seed,
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pythonLibraryVersion = inputProto.PackageVersion,
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pythonCommunicationVersion = inputProto.CommunicationVersion,
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TrainerCapabilities = inputProto.Capabilities.ToRLCapabilities()
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};
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}
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#region AgentAction
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public static List<float[]> ToAgentActionList(this UnityRLInputProto.Types.ListAgentActionProto proto)
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{
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var agentActions = new List<float[]>(proto.Value.Count);
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foreach (var ap in proto.Value)
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{
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agentActions.Add(ap.VectorActions.ToArray());
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}
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return agentActions;
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}
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#endregion
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#region Observations
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/// <summary>
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/// Static flag to make sure that we only fire the warning once.
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/// </summary>
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private static bool s_HaveWarnedTrainerCapabilitiesMultiPng = false;
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private static bool s_HaveWarnedTrainerCapabilitiesMapping = false;
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/// <summary>
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/// Generate an ObservationProto for the sensor using the provided ObservationWriter.
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/// This is equivalent to producing an Observation and calling Observation.ToProto(),
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/// but avoid some intermediate memory allocations.
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/// </summary>
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/// <param name="sensor"></param>
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/// <param name="observationWriter"></param>
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/// <returns></returns>
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public static ObservationProto GetObservationProto(this ISensor sensor, ObservationWriter observationWriter)
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{
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var shape = sensor.GetObservationShape();
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ObservationProto observationProto = null;
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var compressionType = sensor.GetCompressionType();
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// Check capabilities if we need to concatenate PNGs
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if (compressionType == SensorCompressionType.PNG && shape.Length == 3 && shape[2] > 3)
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{
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var trainerCanHandle = Academy.Instance.TrainerCapabilities == null || Academy.Instance.TrainerCapabilities.ConcatenatedPngObservations;
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if (!trainerCanHandle)
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{
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if (!s_HaveWarnedTrainerCapabilitiesMultiPng)
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{
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Debug.LogWarning($"Attached trainer doesn't support multiple PNGs. Switching to uncompressed observations for sensor {sensor.GetName()}.");
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s_HaveWarnedTrainerCapabilitiesMultiPng = true;
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}
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compressionType = SensorCompressionType.None;
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}
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}
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// Check capabilities if we need mapping for compressed observations
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if (compressionType != SensorCompressionType.None && shape.Length == 3 && shape[2] > 3)
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{
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var trainerCanHandleMapping = Academy.Instance.TrainerCapabilities == null || Academy.Instance.TrainerCapabilities.CompressedChannelMapping;
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var isTrivialMapping = IsTrivialMapping(sensor);
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if (!trainerCanHandleMapping && !isTrivialMapping)
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{
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if (!s_HaveWarnedTrainerCapabilitiesMapping)
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{
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Debug.LogWarning($"The sensor {sensor.GetName()} is using non-trivial mapping and " +
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"the attached trainer doesn't support compression mapping. " +
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"Switching to uncompressed observations.");
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s_HaveWarnedTrainerCapabilitiesMapping = true;
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}
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compressionType = SensorCompressionType.None;
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}
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}
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if (compressionType == SensorCompressionType.None)
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{
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var numFloats = sensor.ObservationSize();
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var floatDataProto = new ObservationProto.Types.FloatData();
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// Resize the float array
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// TODO upgrade protobuf versions so that we can set the Capacity directly - see https://github.com/protocolbuffers/protobuf/pull/6530
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for (var i = 0; i < numFloats; i++)
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{
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floatDataProto.Data.Add(0.0f);
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}
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observationWriter.SetTarget(floatDataProto.Data, sensor.GetObservationShape(), 0);
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sensor.Write(observationWriter);
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observationProto = new ObservationProto
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{
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FloatData = floatDataProto,
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CompressionType = (CompressionTypeProto)SensorCompressionType.None,
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};
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}
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else
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{
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var compressedObs = sensor.GetCompressedObservation();
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if (compressedObs == null)
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{
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throw new UnityAgentsException(
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$"GetCompressedObservation() returned null data for sensor named {sensor.GetName()}. " +
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"You must return a byte[]. If you don't want to use compressed observations, " +
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"return SensorCompressionType.None from GetCompressionType()."
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);
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}
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observationProto = new ObservationProto
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{
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CompressedData = ByteString.CopyFrom(compressedObs),
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CompressionType = (CompressionTypeProto)sensor.GetCompressionType(),
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};
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var compressibleSensor = sensor as ISparseChannelSensor;
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if (compressibleSensor != null)
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{
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observationProto.CompressedChannelMapping.AddRange(compressibleSensor.GetCompressedChannelMapping());
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}
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}
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observationProto.SensorType = (SensorTypeProto)sensor.GetSensorType();
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observationProto.Shape.AddRange(shape);
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return observationProto;
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}
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#endregion
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public static UnityRLCapabilities ToRLCapabilities(this UnityRLCapabilitiesProto proto)
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{
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return new UnityRLCapabilities
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{
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BaseRLCapabilities = proto.BaseRLCapabilities,
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ConcatenatedPngObservations = proto.ConcatenatedPngObservations,
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CompressedChannelMapping = proto.CompressedChannelMapping,
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};
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}
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public static UnityRLCapabilitiesProto ToProto(this UnityRLCapabilities rlCaps)
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{
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return new UnityRLCapabilitiesProto
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{
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BaseRLCapabilities = rlCaps.BaseRLCapabilities,
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ConcatenatedPngObservations = rlCaps.ConcatenatedPngObservations,
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CompressedChannelMapping = rlCaps.CompressedChannelMapping,
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};
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}
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internal static bool IsTrivialMapping(ISensor sensor)
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{
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var compressibleSensor = sensor as ISparseChannelSensor;
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if (compressibleSensor is null)
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{
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return true;
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}
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var mapping = compressibleSensor.GetCompressedChannelMapping();
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if (mapping == null)
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{
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return true;
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}
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// check if mapping equals zero mapping
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if (mapping.Length == 3 && mapping.All(m => m == 0))
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{
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return true;
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}
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// check if mapping equals identity mapping
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for (var i = 0; i < mapping.Length; i++)
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{
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if (mapping[i] != i)
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{
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return false;
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}
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}
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return true;
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}
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}
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}
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