syntax = "proto3";
package robotics.reinforcement_learning.minitaur.envs;

import "timestamp.proto";
import "vector.proto";

message MinitaurEpisode {
  // The state-action pair at each step of the log.
  repeated MinitaurStateAction state_action = 1;
}

message MinitaurMotorState {
  // The current angle of the motor.
  double angle = 1;
  // The current velocity of the motor.
  double velocity = 2;
  // The current torque exerted at this motor.
  double torque = 3;
  // The action directed to this motor. The action is the desired motor angle.
  double action = 4;
}

message MinitaurStateAction {
  // Whether the state/action information is valid. It is always true if the
  // proto is from simulation. It might be false when communication error
  // happens on minitaur hardware.
  bool info_valid = 6;
  // The time stamp of this step. It is computed since the reset of the
  // environment.
  google.protobuf.Timestamp time = 1;
  // The position of the base of the minitaur.
  robotics.messages.Vector3d base_position = 2;
  // The orientation of the base of the minitaur. It is represented as (roll,
  // pitch, yaw).
  robotics.messages.Vector3d base_orientation = 3;
  // The angular velocity of the base of the minitaur. It is the time derivative
  // of (roll, pitch, yaw).
  robotics.messages.Vector3d base_angular_vel = 4;
  // The motor states (angle, velocity, torque, action) of eight motors.
  repeated MinitaurMotorState motor_states = 5;
}