def main(): numAgents = 2 stateDim = numAgents * 2 actionLow = -1 actionHigh = 1 actionBound = (actionHigh - actionLow) / 2 actionDim = 2 buildActorModel = BuildActorModel(stateDim, actionDim, actionBound) actorLayerWidths = [64] actorWriter, actorModel = buildActorModel(actorLayerWidths) buildCriticModel = BuildCriticModel(stateDim, actionDim) criticLayerWidths = [64] criticWriter, criticModel = buildCriticModel(criticLayerWidths) trainCriticBySASRQ = TrainCriticBySASRQ(learningRateCritic, gamma, criticWriter) trainCritic = TrainCritic(actByPolicyTarget, evaluateCriticTarget, trainCriticBySASRQ) trainActorFromGradients = TrainActorFromGradients(learningRateActor, actorWriter) trainActorOneStep = TrainActorOneStep(actByPolicyTrain, trainActorFromGradients, getActionGradients) trainActor = TrainActor(trainActorOneStep) paramUpdateInterval = 1 updateParameters = UpdateParameters(paramUpdateInterval, tau) modelList = [actorModel, criticModel] actorModel, criticModel = resetTargetParamToTrainParam(modelList) trainModels = TrainDDPGModels(updateParameters, trainActor, trainCritic, actorModel, criticModel) noiseInitVariance = 1 varianceDiscount = .9995 getNoise = GetExponentialDecayGaussNoise(noiseInitVariance, varianceDiscount, noiseDecayStartStep) actOneStepWithNoise = ActDDPGOneStep(actionLow, actionHigh, actByPolicyTrain, actorModel, getNoise) sampleFromMemory = SampleFromMemory(minibatchSize) learnFromBuffer = LearnFromBuffer(learningStartBufferSize, sampleFromMemory, trainModels) sheepId = 0 wolfId = 1 getSheepPos = GetAgentPosFromState(sheepId) getWolfPos = GetAgentPosFromState(wolfId) wolfSpeed = 1 wolfPolicy = HeatSeekingContinuousDeterministicPolicy( getWolfPos, getSheepPos, wolfSpeed) # wolfPolicy = lambda state: (0, 0) xBoundary = (0, 20) yBoundary = (0, 20) stayWithinBoundary = StayWithinBoundary(xBoundary, yBoundary) physicalTransition = TransitForNoPhysics(getIntendedNextState, stayWithinBoundary) transit = TransitWithSingleWolf(physicalTransition, wolfPolicy) sheepAliveBonus = 1 / maxTimeStep sheepTerminalPenalty = 20 killzoneRadius = 1 isTerminal = IsTerminal(getWolfPos, getSheepPos, killzoneRadius) getBoundaryPunishment = GetBoundaryPunishment(xBoundary, yBoundary, sheepIndex=0, punishmentVal=10) rewardSheep = RewardFunctionCompete(sheepAliveBonus, sheepTerminalPenalty, isTerminal) getReward = RewardSheepWithBoundaryHeuristics(rewardSheep, getIntendedNextState, getBoundaryPunishment, getSheepPos) sampleOneStep = SampleOneStep(transit, getReward) runDDPGTimeStep = RunTimeStep(actOneStepWithNoise, sampleOneStep, learnFromBuffer) # reset = Reset(xBoundary, yBoundary, numAgents) # reset = lambda: np.array([10, 3, 15, 8]) #all [-1, -1] action # reset = lambda: np.array([15, 8, 10, 3]) # all [1. 1.] # reset = lambda: np.array([15, 10, 10, 10]) reset = lambda: np.array([10, 10, 15, 5]) runEpisode = RunEpisode(reset, runDDPGTimeStep, maxTimeStep, isTerminal) ddpg = RunAlgorithm(runEpisode, maxEpisode) replayBuffer = deque(maxlen=int(bufferSize)) meanRewardList, trajectory = ddpg(replayBuffer) trainedActorModel, trainedCriticModel = trainModels.getTrainedModels() modelIndex = 0 actorFixedParam = {'actorModel': modelIndex} criticFixedParam = {'criticModel': modelIndex} parameters = { 'wolfSpeed': wolfSpeed, 'dimension': actionDim, 'maxEpisode': maxEpisode, 'maxTimeStep': maxTimeStep, 'minibatchSize': minibatchSize, 'gamma': gamma, 'learningRateActor': learningRateActor, 'learningRateCritic': learningRateCritic } modelSaveDirectory = "../trainedDDPGModels" modelSaveExtension = '.ckpt' getActorSavePath = GetSavePath(modelSaveDirectory, modelSaveExtension, actorFixedParam) getCriticSavePath = GetSavePath(modelSaveDirectory, modelSaveExtension, criticFixedParam) savePathActor = getActorSavePath(parameters) savePathCritic = getCriticSavePath(parameters) with actorModel.as_default(): saveVariables(trainedActorModel, savePathActor) with criticModel.as_default(): saveVariables(trainedCriticModel, savePathCritic) plotResult = True if plotResult: plt.plot(list(range(maxEpisode)), meanRewardList) plt.show()
def __call__(self, df): varianceDiscount = df.index.get_level_values('varianceDiscount')[0] bufferSize = df.index.get_level_values('bufferSize')[0] layerWidth = df.index.get_level_values('layerWidth')[0] print('buffer: ', bufferSize, ', layers: ', layerWidth, ', varDiscount: ', varianceDiscount) buildActorModel = BuildActorModel(stateDim, actionDim, actionBound) actorWriter, actorModel = buildActorModel(layerWidth) buildCriticModel = BuildCriticModel(stateDim, actionDim) criticWriter, criticModel = buildCriticModel(layerWidth) trainCriticBySASRQ = TrainCriticBySASRQ(learningRateCritic, gamma, criticWriter) trainCritic = TrainCritic(actByPolicyTarget, evaluateCriticTarget, trainCriticBySASRQ) trainActorFromGradients = TrainActorFromGradients( learningRateActor, actorWriter) trainActorOneStep = TrainActorOneStep(actByPolicyTrain, trainActorFromGradients, getActionGradients) trainActor = TrainActor(trainActorOneStep) paramUpdateInterval = 1 updateParameters = UpdateParameters(paramUpdateInterval, tau) modelList = [actorModel, criticModel] actorModel, criticModel = resetTargetParamToTrainParam(modelList) trainModels = TrainDDPGModels(updateParameters, trainActor, trainCritic, actorModel, criticModel) noiseInitVariance = 1 noiseDecayStartStep = bufferSize getNoise = GetExponentialDecayGaussNoise(noiseInitVariance, varianceDiscount, noiseDecayStartStep) actOneStepWithNoise = ActDDPGOneStep(actionLow, actionHigh, actByPolicyTrain, actorModel, getNoise) learningStartBufferSize = minibatchSize sampleFromMemory = SampleFromMemory(minibatchSize) learnFromBuffer = LearnFromBuffer(learningStartBufferSize, sampleFromMemory, trainModels) sheepId = 0 wolfId = 1 getSheepXPos = GetAgentPosFromState(sheepId) getWolfXPos = GetAgentPosFromState(wolfId) wolfSpeed = 2 wolfPolicy = HeatSeekingContinuousDeterministicPolicy( getWolfXPos, getSheepXPos, wolfSpeed) xBoundary = (0, 20) yBoundary = (0, 20) stayWithinBoundary = StayWithinBoundary(xBoundary, yBoundary) physicalTransition = TransitForNoPhysics(getIntendedNextState, stayWithinBoundary) transit = TransitWithSingleWolf(physicalTransition, wolfPolicy) sheepAliveBonus = 0 / maxTimeStep sheepTerminalPenalty = -20 killzoneRadius = 1 isTerminal = IsTerminal(getWolfXPos, getSheepXPos, killzoneRadius) getBoundaryPunishment = GetBoundaryPunishment(xBoundary, yBoundary, sheepIndex=0, punishmentVal=10) rewardSheep = RewardFunctionCompete(sheepAliveBonus, sheepTerminalPenalty, isTerminal) getReward = RewardSheepWithBoundaryHeuristics(rewardSheep, getIntendedNextState, getBoundaryPunishment, getSheepXPos) sampleOneStep = SampleOneStep(transit, getReward) runDDPGTimeStep = RunTimeStep(actOneStepWithNoise, sampleOneStep, learnFromBuffer) reset = Reset(xBoundary, yBoundary, numAgents) runEpisode = RunEpisode(reset, runDDPGTimeStep, maxTimeStep, isTerminal) ddpg = RunAlgorithm(runEpisode, maxEpisode) replayBuffer = deque(maxlen=int(bufferSize)) meanRewardList, trajectory = ddpg(replayBuffer) timeStep = list(range(len(meanRewardList))) resultSe = pd.Series( {time: reward for time, reward in zip(timeStep, meanRewardList)}) return resultSe
def __call__(self, df): actionDim = df.index.get_level_values('actionDim')[0] epsilonIncrease = df.index.get_level_values('epsilonIncrease')[0] stateDim = env.observation_space.shape[0] buildModel = BuildModel(stateDim, actionDim) layersWidths = [30] writer, model = buildModel(layersWidths) learningRate = 0.001 gamma = 0.99 trainModelBySASRQ = TrainModelBySASRQ(learningRate, gamma, writer) paramUpdateInterval = 300 updateParameters = UpdateParameters(paramUpdateInterval) model = resetTargetParamToTrainParam([model])[0] trainModels = TrainDQNModel(getTargetQValue, trainModelBySASRQ, updateParameters, model) epsilonMax = 0.9 epsilonMin = 0 bufferSize = 10000 decayStartStep = bufferSize getEpsilon = GetEpsilon(epsilonMax, epsilonMin, epsilonIncrease, decayStartStep) actGreedyByModel = ActGreedyByModel(getTrainQValue, model) actRandom = ActRandom(actionDim) actByTrainNetEpsilonGreedy = ActByTrainNetEpsilonGreedy( getEpsilon, actGreedyByModel, actRandom) minibatchSize = 128 learningStartBufferSize = minibatchSize sampleFromMemory = SampleFromMemory(minibatchSize) learnFromBuffer = LearnFromBuffer(learningStartBufferSize, sampleFromMemory, trainModels) processAction = ProcessDiscretePendulumAction(actionDim) transit = TransitGymPendulum(processAction) getReward = RewardGymPendulum(angle_normalize, processAction) sampleOneStep = SampleOneStep(transit, getReward) runDQNTimeStep = RunTimeStep(actByTrainNetEpsilonGreedy, sampleOneStep, learnFromBuffer, observe) reset = ResetGymPendulum(seed) maxTimeStep = 200 runEpisode = RunEpisode(reset, runDQNTimeStep, maxTimeStep, isTerminalGymPendulum) maxEpisode = 400 dqn = RunAlgorithm(runEpisode, maxEpisode) replayBuffer = deque(maxlen=int(bufferSize)) meanRewardList, trajectory = dqn(replayBuffer) timeStep = list(range(len(meanRewardList))) resultSe = pd.Series( {time: reward for time, reward in zip(timeStep, meanRewardList)}) return resultSe
def __call__(self, df): noiseVariance = df.index.get_level_values('noiseInitVariance')[0] memorySize = df.index.get_level_values('memorySize')[0] buildActorModel = BuildActorModel(self.fixedParameters['stateDim'], self.fixedParameters['actionDim'], self.fixedParameters['actionBound']) actorWriter, actorModel = buildActorModel( self.fixedParameters['actorLayerWidths']) buildCriticModel = BuildCriticModel(self.fixedParameters['stateDim'], self.fixedParameters['actionDim']) criticWriter, criticModel = buildCriticModel( self.fixedParameters['criticLayerWidths']) trainCriticBySASRQ = TrainCriticBySASRQ( self.fixedParameters['learningRateCritic'], self.fixedParameters['gamma'], criticWriter) trainCritic = TrainCritic(actByPolicyTarget, evaluateCriticTarget, trainCriticBySASRQ) trainActorFromGradients = TrainActorFromGradients( self.fixedParameters['learningRateActor'], actorWriter) trainActorOneStep = TrainActorOneStep(actByPolicyTrain, trainActorFromGradients, getActionGradients) trainActor = TrainActor(trainActorOneStep) updateParameters = UpdateParameters( self.fixedParameters['paramUpdateInterval'], self.fixedParameters['tau']) modelList = [actorModel, criticModel] actorModel, criticModel = resetTargetParamToTrainParam(modelList) trainModels = TrainDDPGModels(updateParameters, trainActor, trainCritic, actorModel, criticModel) getNoise = GetExponentialDecayGaussNoise( noiseVariance, self.fixedParameters['varianceDiscount'], self.fixedParameters['noiseDecayStartStep']) actOneStepWithNoise = ActDDPGOneStep( self.fixedParameters['actionLow'], self.fixedParameters['actionHigh'], actByPolicyTrain, actorModel, getNoise) sampleFromMemory = SampleFromMemory(self.fixedParameters['batchSize']) learnFromBuffer = LearnFromBuffer( self.fixedParameters['learningStartStep'], sampleFromMemory, trainModels) transit = TransitGymPendulum() getReward = RewardGymPendulum(angle_normalize) sampleOneStep = SampleOneStep(transit, getReward) runDDPGTimeStep = RunTimeStep(actOneStepWithNoise, sampleOneStep, learnFromBuffer, observe) reset = ResetGymPendulum(seed) runEpisode = RunEpisode(reset, runDDPGTimeStep, self.fixedParameters['maxRunSteps'], isTerminalGymPendulum) ddpg = RunAlgorithm(runEpisode, self.fixedParameters['maxEpisode']) replayBuffer = deque(maxlen=int(memorySize)) meanRewardList, trajectory = ddpg(replayBuffer) trainedActorModel, trainedCriticModel = trainModels.getTrainedModels() timeStep = list(range(len(meanRewardList))) resultSe = pd.Series( {time: reward for time, reward in zip(timeStep, meanRewardList)}) if self.saveModel: actorParameters = { 'ActorMemorySize': memorySize, 'NoiseVariance': noiseVariance } criticParameters = { 'CriticMemorySize': memorySize, 'NoiseVariance': noiseVariance } actorPath = self.getSavePath(actorParameters) criticPath = self.getSavePath(criticParameters) with trainedActorModel.as_default(): saveVariables(trainedActorModel, actorPath) with trainedCriticModel.as_default(): saveVariables(trainedCriticModel, criticPath) return resultSe
def main(): stateDim = env.observation_space.shape[0] actionDim = env.action_space.shape[0] actionHigh = env.action_space.high actionLow = env.action_space.low actionBound = (actionHigh - actionLow) / 2 buildActorModel = BuildActorModel(stateDim, actionDim, actionBound) actorLayerWidths = [30] actorWriter, actorModel = buildActorModel(actorLayerWidths) buildCriticModel = BuildCriticModel(stateDim, actionDim) criticLayerWidths = [30] criticWriter, criticModel = buildCriticModel(criticLayerWidths) trainCriticBySASRQ = TrainCriticBySASRQ(learningRateCritic, gamma, criticWriter) trainCritic = TrainCritic(actByPolicyTarget, evaluateCriticTarget, trainCriticBySASRQ) trainActorFromGradients = TrainActorFromGradients(learningRateActor, actorWriter) trainActorOneStep = TrainActorOneStep(actByPolicyTrain, trainActorFromGradients, getActionGradients) trainActor = TrainActor(trainActorOneStep) paramUpdateInterval = 1 updateParameters = UpdateParameters(paramUpdateInterval, tau) modelList = [actorModel, criticModel] actorModel, criticModel = resetTargetParamToTrainParam(modelList) trainModels = TrainDDPGModels(updateParameters, trainActor, trainCritic, actorModel, criticModel) noiseInitVariance = 3 varianceDiscount = .9995 noiseDecayStartStep = bufferSize getNoise = GetExponentialDecayGaussNoise(noiseInitVariance, varianceDiscount, noiseDecayStartStep) actOneStepWithNoise = ActDDPGOneStep(actionLow, actionHigh, actByPolicyTrain, actorModel, getNoise) learningStartBufferSize = minibatchSize sampleFromMemory = SampleFromMemory(minibatchSize) learnFromBuffer = LearnFromBuffer(learningStartBufferSize, sampleFromMemory, trainModels) sampleOneStep = SampleOneStepUsingGym(env) runDDPGTimeStep = RunTimeStep(actOneStepWithNoise, sampleOneStep, learnFromBuffer) reset = lambda: env.reset() runEpisode = RunEpisode(reset, runDDPGTimeStep, maxTimeStep, isTerminalGymPendulum) ddpg = RunAlgorithm(runEpisode, maxEpisode) replayBuffer = deque(maxlen=int(bufferSize)) meanRewardList, trajectory = ddpg(replayBuffer) trainedActorModel, trainedCriticModel = trainModels.getTrainedModels() env.close() plotResult = True if plotResult: plt.plot(list(range(maxEpisode)), meanRewardList) plt.show()
def main(): stateDim = env.observation_space.shape[0] actionDim = env.action_space.shape[0] actionHigh = env.action_space.high actionLow = env.action_space.low actionBound = (actionHigh - actionLow) / 2 buildActorModel = BuildActorModel(stateDim, actionDim, actionBound) actorLayerWidths = [30] actorWriter, actorModel = buildActorModel(actorLayerWidths) buildCriticModel = BuildCriticModel(stateDim, actionDim) criticLayerWidths = [30] criticWriter, criticModel = buildCriticModel(criticLayerWidths) trainCriticBySASRQ = TrainCriticBySASRQ(learningRateCritic, gamma, criticWriter) trainCritic = TrainCritic(actByPolicyTarget, evaluateCriticTarget, trainCriticBySASRQ) trainActorFromGradients = TrainActorFromGradients(learningRateActor, actorWriter) trainActorOneStep = TrainActorOneStep(actByPolicyTrain, trainActorFromGradients, getActionGradients) trainActor = TrainActor(trainActorOneStep) paramUpdateInterval = 1 updateParameters = UpdateParameters(paramUpdateInterval, tau) modelList = [actorModel, criticModel] actorModel, criticModel = resetTargetParamToTrainParam(modelList) trainModels = TrainDDPGModels(updateParameters, trainActor, trainCritic, actorModel, criticModel) noiseInitVariance = 1 # control exploration varianceDiscount = .99995 noiseDecayStartStep = bufferSize minVar = .1 getNoise = GetExponentialDecayGaussNoise(noiseInitVariance, varianceDiscount, noiseDecayStartStep, minVar) actOneStepWithNoise = ActDDPGOneStep(actionLow, actionHigh, actByPolicyTrain, actorModel, getNoise) learningStartBufferSize = minibatchSize sampleFromMemory = SampleFromMemory(minibatchSize) learnFromBuffer = LearnFromBuffer(learningStartBufferSize, sampleFromMemory, trainModels) transit = TransitGymMountCarContinuous() isTerminal = IsTerminalMountCarContin() getReward = RewardMountCarContin(isTerminal) sampleOneStep = SampleOneStep(transit, getReward) runDDPGTimeStep = RunTimeStep(actOneStepWithNoise, sampleOneStep, learnFromBuffer) resetLow = -1 resetHigh = 0.4 reset = ResetMountCarContin(seed=None) runEpisode = RunEpisode(reset, runDDPGTimeStep, maxTimeStep, isTerminal) ddpg = RunAlgorithm(runEpisode, maxEpisode) replayBuffer = deque(maxlen=int(bufferSize)) meanRewardList, trajectory = ddpg(replayBuffer) trainedActorModel, trainedCriticModel = trainModels.getTrainedModels() # save Model modelIndex = 0 actorFixedParam = {'actorModel': modelIndex} criticFixedParam = {'criticModel': modelIndex} parameters = { 'env': ENV_NAME, 'Eps': maxEpisode, 'timeStep': maxTimeStep, 'batch': minibatchSize, 'gam': gamma, 'lrActor': learningRateActor, 'lrCritic': learningRateCritic, 'noiseVar': noiseInitVariance, 'varDiscout': varianceDiscount, 'resetLow': resetLow, 'High': resetHigh } modelSaveDirectory = "../trainedDDPGModels" modelSaveExtension = '.ckpt' getActorSavePath = GetSavePath(modelSaveDirectory, modelSaveExtension, actorFixedParam) getCriticSavePath = GetSavePath(modelSaveDirectory, modelSaveExtension, criticFixedParam) savePathActor = getActorSavePath(parameters) savePathCritic = getCriticSavePath(parameters) with actorModel.as_default(): saveVariables(trainedActorModel, savePathActor) with criticModel.as_default(): saveVariables(trainedCriticModel, savePathCritic) dirName = os.path.dirname(__file__) trajectoryPath = os.path.join(dirName, '..', 'trajectory', 'mountCarTrajectoryOriginalReset1.pickle') saveToPickle(trajectory, trajectoryPath) # plots& plot showDemo = False if showDemo: visualize = VisualizeMountCarContin() visualize(trajectory) plotResult = True if plotResult: plt.plot(list(range(maxEpisode)), meanRewardList) plt.show()
def main(): stateDim = env.observation_space.shape[0] actionDim = 7 buildModel = BuildModel(stateDim, actionDim) layersWidths = [30] writer, model = buildModel(layersWidths) learningRate = 0.001 gamma = 0.99 trainModelBySASRQ = TrainModelBySASRQ(learningRate, gamma, writer) paramUpdateInterval = 300 updateParameters = UpdateParameters(paramUpdateInterval) model = resetTargetParamToTrainParam([model])[0] trainModels = TrainDQNModel(getTargetQValue, trainModelBySASRQ, updateParameters, model) epsilonMax = 0.9 epsilonIncrease = 0.0001 epsilonMin = 0 bufferSize = 10000 decayStartStep = bufferSize getEpsilon = GetEpsilon(epsilonMax, epsilonMin, epsilonIncrease, decayStartStep) actGreedyByModel = ActGreedyByModel(getTrainQValue, model) actRandom = ActRandom(actionDim) actByTrainNetEpsilonGreedy = ActByTrainNetEpsilonGreedy(getEpsilon, actGreedyByModel, actRandom) minibatchSize = 128 learningStartBufferSize = minibatchSize sampleFromMemory = SampleFromMemory(minibatchSize) learnFromBuffer = LearnFromBuffer(learningStartBufferSize, sampleFromMemory, trainModels) processAction = ProcessDiscretePendulumAction(actionDim) transit = TransitGymPendulum(processAction) getReward = RewardGymPendulum(angle_normalize, processAction) sampleOneStep = SampleOneStep(transit, getReward) runDQNTimeStep = RunTimeStep(actByTrainNetEpsilonGreedy, sampleOneStep, learnFromBuffer, observe) reset = ResetGymPendulum(seed) maxTimeStep = 200 runEpisode = RunEpisode(reset, runDQNTimeStep, maxTimeStep, isTerminalGymPendulum) maxEpisode = 400 dqn = RunAlgorithm(runEpisode, maxEpisode) replayBuffer = deque(maxlen=int(bufferSize)) meanRewardList, trajectory = dqn(replayBuffer) trainedModel = trainModels.getTrainedModels() # save Model parameters = {'maxEpisode': maxEpisode, 'maxTimeStep': maxTimeStep, 'minibatchSize': minibatchSize, 'gamma': gamma, 'learningRate': learningRate, 'epsilonIncrease': epsilonIncrease , 'epsilonMin': epsilonMin} modelSaveDirectory = "../trainedDQNModels" modelSaveExtension = '.ckpt' getSavePath = GetSavePath(modelSaveDirectory, modelSaveExtension) savePath = getSavePath(parameters) with trainedModel.as_default(): saveVariables(trainedModel, savePath) dirName = os.path.dirname(__file__) trajectoryPath = os.path.join(dirName, '..', 'trajectory', 'pendulumDQNTrajectory.pickle') saveToPickle(trajectory, trajectoryPath) plotResult = True if plotResult: plt.plot(list(range(maxEpisode)), meanRewardList) plt.show() showDemo = False if showDemo: visualize = VisualizeGymPendulum() visualize(trajectory)