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import numpy as np
from gym import utils
from gym.envs.mujoco import mujoco_env
from jinja2 import Template
import os
class ManyAgentAntEnv(mujoco_env.MujocoEnv, utils.EzPickle):
def __init__(self, **kwargs):
agent_conf = kwargs.get("agent_conf")
n_agents = int(agent_conf.split("x")[0])
n_segs_per_agents = int(agent_conf.split("x")[1])
n_segs = n_agents * n_segs_per_agents
# Check whether asset file exists already, otherwise create it
asset_path = os.path.join(
os.path.dirname(os.path.abspath(__file__)), 'assets',
'manyagent_ant_{}_agents_each_{}_segments.auto.xml'.format(n_agents, n_segs_per_agents)
)
#if not os.path.exists(asset_path):
print("Auto-Generating Manyagent Ant asset with {} segments at {}.".format(n_segs, asset_path))
self._generate_asset(n_segs=n_segs, asset_path=asset_path)
#asset_path = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'assets',git p
# 'manyagent_swimmer.xml')
mujoco_env.MujocoEnv.__init__(self, asset_path, 4)
utils.EzPickle.__init__(self)
def _generate_asset(self, n_segs, asset_path):
template_path = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'assets', 'manyagent_ant.xml.template')
with open(template_path, "r") as f:
t = Template(f.read())
body_str_template = """
<body name="torso_{:d}" pos="-1 0 0">
<!--<joint axis="0 1 0" name="nnn_{:d}" pos="0.0 0.0 0.0" range="-1 1" type="hinge"/>-->
<geom density="100" fromto="1 0 0 0 0 0" size="0.1" type="capsule"/>
<body name="front_right_leg_{:d}" pos="0 0 0">
<geom fromto="0.0 0.0 0.0 0.0 0.2 0.0" name="aux1_geom_{:d}" size="0.08" type="capsule"/>
<body name="aux_2_{:d}" pos="0.0 0.2 0">
<joint axis="0 0 1" name="hip1_{:d}" pos="0.0 0.0 0.0" range="-30 30" type="hinge"/>
<geom fromto="0.0 0.0 0.0 -0.2 0.2 0.0" name="right_leg_geom_{:d}" size="0.08" type="capsule"/>
<body pos="-0.2 0.2 0">
<joint axis="1 1 0" name="ankle1_{:d}" pos="0.0 0.0 0.0" range="-70 -30" type="hinge"/>
<geom fromto="0.0 0.0 0.0 -0.4 0.4 0.0" name="right_ankle_geom_{:d}" size="0.08" type="capsule"/>
</body>
</body>
</body>
<body name="back_leg_{:d}" pos="0 0 0">
<geom fromto="0.0 0.0 0.0 0.0 -0.2 0.0" name="aux2_geom_{:d}" size="0.08" type="capsule"/>
<body name="aux2_{:d}" pos="0.0 -0.2 0">
<joint axis="0 0 1" name="hip2_{:d}" pos="0.0 0.0 0.0" range="-30 30" type="hinge"/>
<geom fromto="0.0 0.0 0.0 -0.2 -0.2 0.0" name="back_leg_geom_{:d}" size="0.08" type="capsule"/>
<body pos="-0.2 -0.2 0">
<joint axis="-1 1 0" name="ankle2_{:d}" pos="0.0 0.0 0.0" range="-70 -30" type="hinge"/>
<geom fromto="0.0 0.0 0.0 -0.4 -0.4 0.0" name="third_ankle_geom_{:d}" size="0.08" type="capsule"/>
</body>
</body>
</body>
"""
body_close_str_template = "</body>\n"
actuator_str_template = """\t <motor ctrllimited="true" ctrlrange="-1.0 1.0" joint="hip1_{:d}" gear="150"/>
<motor ctrllimited="true" ctrlrange="-1.0 1.0" joint="ankle1_{:d}" gear="150"/>
<motor ctrllimited="true" ctrlrange="-1.0 1.0" joint="hip2_{:d}" gear="150"/>
<motor ctrllimited="true" ctrlrange="-1.0 1.0" joint="ankle2_{:d}" gear="150"/>\n"""
body_str = ""
for i in range(1, n_segs):
body_str += body_str_template.format(*([i] * 16))
body_str += body_close_str_template * (n_segs - 1)
actuator_str = ""
for i in range(n_segs):
actuator_str += actuator_str_template.format(*([i] * 8))
rt = t.render(body=body_str, actuators=actuator_str)
with open(asset_path, "w") as f:
f.write(rt)
pass
def step(self, a):
xposbefore = self.get_body_com("torso_0")[0]
self.do_simulation(a, self.frame_skip)
xposafter = self.get_body_com("torso_0")[0]
forward_reward = (xposafter - xposbefore) / self.dt
ctrl_cost = .5 * np.square(a).sum()
contact_cost = 0.5 * 1e-3 * np.sum(np.square(np.clip(self.sim.data.cfrc_ext, -1, 1)))
survive_reward = 1.0
reward = forward_reward - ctrl_cost - contact_cost + survive_reward
state = self.state_vector()
notdone = np.isfinite(state).all() \
and state[2] >= 0.2 and state[2] <= 1.0
done = not notdone
ob = self._get_obs()
return ob, reward, done, dict(
reward_forward=forward_reward,
reward_ctrl=-ctrl_cost,
reward_contact=-contact_cost,
reward_survive=survive_reward
)
def _get_obs(self):
return np.concatenate(
[
self.sim.data.qpos.flat[2:],
self.sim.data.qvel.flat,
np.clip(self.sim.data.cfrc_ext, -1, 1).flat,
]
)
def reset_model(self):
qpos = self.init_qpos + self.np_random.uniform(size=self.model.nq, low=-.1, high=.1)
qvel = self.init_qvel + self.np_random.randn(self.model.nv) * .1
self.set_state(qpos, qvel)
return self._get_obs()
def viewer_setup(self):
self.viewer.cam.distance = self.model.stat.extent * 0.5