issacdataengine/workflows/simbox/core/skills/failpick.py

# pylint: skip-file
import os
from copy import deepcopy

import numpy as np
from core.skills.base_skill import BaseSkill, register_skill
from omegaconf import DictConfig
from omni.isaac.core.controllers import BaseController
from omni.isaac.core.robots.robot import Robot
from omni.isaac.core.tasks import BaseTask
from omni.isaac.core.utils.prims import get_prim_at_path
from omni.isaac.core.utils.transformations import (
    get_relative_transform,
    pose_from_tf_matrix,
    tf_matrix_from_pose,
)


# pylint: disable=unused-argument
@register_skill
class FailPick(BaseSkill):
    def __init__(self, robot: Robot, controller: BaseController, task: BaseTask, cfg: DictConfig, *args, **kwargs):
        super().__init__()
        self.robot = robot
        self.controller = controller
        self.task = task
        self.skill_cfg = cfg
        object_name = self.skill_cfg["objects"][0]
        self.object = task.objects[object_name]

        # Get grasp annotation
        usd_path = [obj["path"] for obj in task.cfg["objects"] if obj["name"] == object_name][0]
        usd_path = os.path.join(self.task.asset_root, usd_path)
        grasp_pose_path = usd_path.replace("Aligned_obj.usd", "Aligned_grasp_sparse.npy")
        sparse_grasp_poses = np.load(grasp_pose_path)
        lr_arm = "right" if "right" in self.controller.robot_file else "left"
        self.T_ee2o, self.scores = self.robot.pose_post_process_fn(sparse_grasp_poses, lr_arm=lr_arm)

        # !!! keyposes should be generated after previous skill is done
        self.manip_list = []
        self.process_valid = True
        self.obj_init_trans = deepcopy(self.object.get_local_pose()[0])

    def simple_generate_manip_cmds(self):
        manip_list = []

        # Update
        ignore_substring = deepcopy(self.controller.ignore_substring + self.skill_cfg.get("ignore_substring", []))
        ignore_substring.append(self.object.name)

        # Pre grasp
        poses = self.sample_ee_pose()
        self.controller.update_specific(
            ignore_substring=ignore_substring, reference_prim_path=self.controller.reference_prim_path
        )
        for pose in poses:
            grasp_trans, grasp_ori = pose_from_tf_matrix(pose)
            x_offset = np.random.choice(
                [
                    np.random.uniform(
                        self.skill_cfg.get("grasp_x_offset_min", 0.05), self.skill_cfg.get("grasp_x_offset_max", 0.1)
                    ),
                    np.random.uniform(
                        -self.skill_cfg.get("grasp_x_offset_max", 0.1), -self.skill_cfg.get("grasp_x_offset_min", 0.05)
                    ),
                ],
            )
            y_offset = np.random.choice(
                [
                    np.random.uniform(
                        self.skill_cfg.get("grasp_y_offset_min", 0.05), self.skill_cfg.get("grasp_y_offset_max", 0.1)
                    ),
                    np.random.uniform(
                        -self.skill_cfg.get("grasp_y_offset_max", 0.1), -self.skill_cfg.get("grasp_y_offset_min", 0.05)
                    ),
                ],
            )
            grasp_trans[0] += x_offset
            grasp_trans[1] += y_offset

            test_mode = self.skill_cfg.get("test_mode", "forward")
            if test_mode == "forward":
                result = self.controller.test_single_forward(grasp_trans, grasp_ori)
            elif test_mode == "ik":
                result = self.controller.test_single_ik(grasp_trans, grasp_ori)
            else:
                raise NotImplementedError
            if result == 1:
                print("pick plan success")
                break

        cmd = (grasp_trans, grasp_ori, "close_gripper", {})
        manip_list.append(cmd)

        # Grasp
        manip_list.extend([cmd] * self.skill_cfg.get("gripper_change_steps", 10))

        # Post grasp
        post_grasp_pose = pose.copy()
        post_grasp_pose[2, 3] += np.random.uniform(
            self.skill_cfg.get("post_grasp_offset_min", 0.05), self.skill_cfg.get("post_grasp_offset_max", 0.05)
        )
        cmd = (*pose_from_tf_matrix(post_grasp_pose), "close_gripper", {})
        manip_list.append(cmd)

        # cmd = (*pose_from_tf_matrix(post_grasp_pose), 'open_gripper', {})
        # manip_list.extend([cmd] * self.skill_cfg.get("gripper_change_steps", 10))

        self.manip_list = manip_list

    def sample_ee_pose(self, max_length=30):
        T_ee2r = self.get_ee_poses("robot")

        num_pose = T_ee2r.shape[0]
        flags = {
            "x": np.ones(num_pose, dtype=bool),
            "y": np.ones(num_pose, dtype=bool),
            "z": np.ones(num_pose, dtype=bool),
            "direction_to_obj": np.ones(num_pose, dtype=bool),
        }
        filter_conditions = {
            "x": {
                "forward": (0, 0, 1),  # (row, col, direction)
                "backward": (0, 0, -1),
                "upward": (2, 0, 1),
                "downward": (2, 0, -1),
            },
            "y": {"forward": (0, 1, 1), "backward": (0, 1, -1), "downward": (2, 1, -1), "upward": (2, 1, 1)},
            "z": {"forward": (0, 2, 1), "backward": (0, 2, -1), "downward": (2, 2, -1), "upward": (2, 2, 1)},
        }
        for axis in ["x", "y", "z"]:
            filter_list = self.skill_cfg.get(f"filter_{axis}_dir", None)
            if filter_list is not None:
                # direction, value = filter_list
                direction = filter_list[0]
                row, col, sign = filter_conditions[axis][direction]
                if len(filter_list) == 2:
                    value = filter_list[1]
                    cos_val = np.cos(np.deg2rad(value))
                    flags[axis] = T_ee2r[:, row, col] >= cos_val if sign > 0 else T_ee2r[:, row, col] <= cos_val
                elif len(filter_list) == 3:
                    value1, value2 = filter_list[1:]
                    cos_val1 = np.cos(np.deg2rad(value1))
                    cos_val2 = np.cos(np.deg2rad(value2))
                    if sign > 0:
                        # flags[axis] = T_ee2r[:, row, col] >= cos_val1 and T_ee2r[:, row, col] <= cos_val2
                        flags[axis] = np.logical_and(T_ee2r[:, row, col] >= cos_val1, T_ee2r[:, row, col] <= cos_val2)
                    else:
                        # flags[axis] = T_ee2r[:, row, col] <= cos_val1 and T_ee2r[:, row, col] >= cos_val2
                        flags[axis] = np.logical_and(T_ee2r[:, row, col] <= cos_val1, T_ee2r[:, row, col] >= cos_val2)
        if self.skill_cfg.get("direction_to_obj", None) is not None:
            direction_to_obj = self.skill_cfg.direction_to_obj
            T_o2w = tf_matrix_from_pose(*self.object.get_local_pose())
            T_w2r = get_relative_transform(
                get_prim_at_path(self.task.root_prim_path), get_prim_at_path(self.controller.reference_prim_path)
            )
            T_o2r = T_w2r @ T_o2w
            if direction_to_obj == "right":
                flags["direction_to_obj"] = T_ee2r[:, 1, 3] <= T_o2r[1, 3]
            elif direction_to_obj == "left":
                flags["direction_to_obj"] = T_ee2r[:, 1, 3] > T_o2r[1, 3]
            else:
                raise NotImplementedError

        combined_flag = np.logical_and.reduce(list(flags.values()))
        if sum(combined_flag) == 0:
            # idx = np.random.choice(np.arange(num_pose), size=max_length, replace=True)
            idx = [0]
        else:
            tmp_scores = self.scores[combined_flag]
            tmp_idxs = np.arange(num_pose)[combined_flag]
            combined = list(zip(tmp_scores, tmp_idxs))
            combined.sort()
            idx = [idx for (score, idx) in combined[:max_length]]
            # idx = np.random.choice(np.arange(num_pose)[combined_flag], size=max_length, replace=True)
        return T_ee2r[idx]

    def get_ee_poses(self, frame: str = "world"):
        # get grasp poses at specific frame
        if frame not in ["world", "body", "armbase"]:
            raise ValueError(
                f"poses in {frame} frame is not supported: accepted values are [world, body, armbase] only"
            )

        if frame == "body":
            return self.T_ee2o

        T_o2w = tf_matrix_from_pose(*self.object.get_local_pose())
        T_ee2w = T_o2w[None] @ self.T_ee2o

        if frame == "world":
            return T_ee2w

        if frame == "robot":  # robot base frame
            T_r2w = get_relative_transform(
                get_prim_at_path(self.controller.reference_prim_path), get_prim_at_path(self.task.root_prim_path)
            )
            T_w2r = np.linalg.inv(T_r2w)
            T_ee2r = T_w2r[None] @ T_ee2w
            return T_ee2r

    def is_subtask_done(self, t_eps=1e-3, o_eps=5e-3):
        assert len(self.manip_list) != 0
        curr_ee_trans, curr_ee_ori = self.controller.get_ee_pose()
        ee_trans, ee_ori, *_ = self.manip_list[0]
        diff_trans = np.linalg.norm(curr_ee_trans - ee_trans)
        diff_ori = 2 * np.arccos(min(abs(np.dot(curr_ee_ori, ee_ori)), 1.0))
        pose_flag = np.logical_and(
            diff_trans < t_eps,
            diff_ori < o_eps,
        )
        self.plan_flag = self.controller.num_last_cmd > 10
        # self.plan_flag = False
        return np.logical_or(pose_flag, self.plan_flag)

    def is_record(self):
        return len(self.manip_list) < (1 * self.skill_cfg.get("gripper_change_steps", 10) + 2)

    def is_success(self):
        return True

    def is_done(self):
        if len(self.manip_list) == 0:
            return True
        if self.is_subtask_done(t_eps=self.skill_cfg.get("t_eps", 1e-3), o_eps=self.skill_cfg.get("o_eps", 5e-3)):
            # set_trace()
            self.manip_list.pop(0)
        return len(self.manip_list) == 0

    def is_feasible(self, th=5):
        return self.controller.num_plan_failed <= th