GenSim / cliport /tasks /stack_block_pyramid.py
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import numpy as np
from cliport.tasks.task import Task
from cliport.utils import utils
import pybullet as p
class StackBlockPyramid(Task):
"""Build a pyramid of colored blocks in a color sequence"""
def __init__(self):
super().__init__()
self.max_steps = 12
self.lang_template = "make the {row} row with {blocks}"
self.task_completed_desc = "done stacking block pyramid."
self.additional_reset()
def reset(self, env):
super().reset(env)
# Add base.
base_size = (0.05, 0.15, 0.005)
base_urdf = 'stacking/stand.urdf'
base_pose = self.get_random_pose(env, base_size)
env.add_object(base_urdf, base_pose, category='fixed')
# Block colors.
colors = [
utils.COLORS['purple'], utils.COLORS['blue'], utils.COLORS['green'],
utils.COLORS['yellow'], utils.COLORS['orange'], utils.COLORS['red']
]
# Add blocks.
block_size = (0.04, 0.04, 0.04)
block_urdf = 'stacking/block.urdf'
objs = []
for i in range(6):
block_pose = self.get_random_pose(env, block_size)
block_id = env.add_object(block_urdf, block_pose, color=colors[i])
objs.append(block_id)
# IMPORTANT Associate placement locations for goals.
place_pos = [(0, -0.05, 0.03), (0, 0, 0.03),
(0, 0.05, 0.03), (0, -0.025, 0.08),
(0, 0.025, 0.08), (0, 0, 0.13)]
targs = [(utils.apply(base_pose, i), base_pose[1]) for i in place_pos]
# Goal: blocks are stacked in a pyramid (bottom row: green, blue, purple).
self.add_goal(objs=objs[:3], matches=np.ones((3, 3)), targ_poses=targs[:3], replace=False,
rotations=True, metric='pose', params=None, step_max_reward=1 / 2, symmetries=[np.pi/2]*3)
self.lang_goals.append(self.lang_template.format(blocks="the green, blue and purple blocks",
row="bottom"))
# Goal: blocks are stacked in a pyramid (middle row: yellow, orange).
self.add_goal(objs=objs[3:5], matches=np.ones((2, 2)), targ_poses=targs[3:5], replace=False,
rotations=True, metric='pose', params=None, step_max_reward=1 / 3, symmetries=[np.pi/2]*2)
self.lang_goals.append(self.lang_template.format(blocks="the yellow and orange blocks",
row="middle"))
# Goal: blocks are stacked in a pyramid (top row: red).
self.add_goal(objs=objs[5:], matches=np.ones((1, 1)), targ_poses=targs[5:], replace=False,
rotations=True, metric='pose', params=None, step_max_reward=1 / 6, symmetries=[np.pi/2]*1)
self.lang_goals.append(self.lang_template.format(blocks="the red block",
row="top"))