bullet3/examples/pybullet/gym/pybullet_envs/deep_mimic/env/goals.py

from enum import Enum
import random
import math
import pybullet as pb
import numpy

def randomVal(lowerBound, upperbound):
    difference = upperbound - lowerBound
    return lowerBound + random.random() * difference

class GoalType(Enum):
    NoGoal = 0
    Strike = 1
    TargetHeading = 2
    Throw = 3
    TerrainTraversal = 4

    @staticmethod
    def from_str(goal_type_str):
        if goal_type_str == '':
            return GoalType.NoGoal
        else:
            try:
                return GoalType[goal_type_str]
            except:
                raise NotImplementedError

class Goal:
    def __init__(self, goal_type: GoalType):
        self.goal_type = goal_type
        self.follow_rot = True
        self.is_hit_prev = False

        self.generateGoalData()

    def generateGoalData(self, modelPos=[0,0,0], modelOrient=[0,0,0,1]):
        if self.goal_type == GoalType.NoGoal:
            self.goal_data = []

        elif self.goal_type == GoalType.Strike:
            # distance, height, rot
            distance = randomVal(0.6, 0.8)
            height = randomVal(0.8, 1.25)
            rot = randomVal(-1, 1) # radians
            
            self.is_hit = False
            
            # The max distance from the target counting as a hit
            self.hit_range = 0.2

            # Transform to xyz coordinates for placement in environment
            x = distance * math.cos(rot)
            y = distance * math.sin(rot)
            z = height

            # Y axis up, z axis in different direction
            self.goal_data = [-x, z, y]

            if self.follow_rot:
                # Take rotation of human model into account
                eulerAngles = pb.getEulerFromQuaternion(modelOrient)
                # Only Y angle matters
                eulerAngles = [0, eulerAngles[1], 0]
                yQuat = pb.getQuaternionFromEuler(eulerAngles)
                rotMatList = pb.getMatrixFromQuaternion(yQuat)
                rotMat = numpy.array([rotMatList[0:3], rotMatList[3:6], rotMatList[6:9]])
                vec = numpy.array(self.goal_data)
                rotatedVec = numpy.dot(rotMat, vec)
                self.world_pos = rotatedVec.tolist()

                self.world_pos =    [   self.world_pos[0] + modelPos[0],
                                        self.world_pos[1],
                                        self.world_pos[2] + modelPos[2]]
            else:
                self.world_pos = [-x + modelPos[0], z, y + modelPos[2]]

        elif self.goal_type == GoalType.TargetHeading:
            # Direction: 2D unit vector
            # speed: max speed
            random_rot = random.random() * 2 * math.pi
            x = math.cos(random_rot)
            y = math.sin(random_rot)
            velocity = randomVal(0, 0.5)
            self.goal_data = [x, y, velocity]

        elif self.goal_type == GoalType.Throw:
            # TODO
            raise NotImplementedError
        elif self.goal_type == GoalType.TerrainTraversal:
            # TODO
            raise NotImplementedError

    def getTFData(self):
        if self.goal_type == GoalType.Strike:
            x = 0.0
            if self.is_hit:
                x = 1.0
            return [x] + self.goal_data