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ray/rllib/models/torch/fcnet.py
Eric Liang 7ce138a6dc
[rllib] Support free_log_std in ModelV2 (#8380) 
* update

* factor

* update

* fix test failures

* fix torch net
2020-05-12 10:14:05 -07:00

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import logging
import numpy as np
from ray.rllib.models.torch.torch_modelv2 import TorchModelV2
from ray.rllib.models.torch.misc import SlimFC, AppendBiasLayer, \
normc_initializer
from ray.rllib.utils.annotations import override
from ray.rllib.utils.framework import get_activation_fn
from ray.rllib.utils import try_import_torch
torch, nn = try_import_torch()
logger = logging.getLogger(__name__)
class FullyConnectedNetwork(TorchModelV2, nn.Module):
"""Generic fully connected network."""
def __init__(self, obs_space, action_space, num_outputs, model_config,
name):
TorchModelV2.__init__(self, obs_space, action_space, num_outputs,
model_config, name)
nn.Module.__init__(self)
activation = get_activation_fn(
model_config.get("fcnet_activation"), framework="torch")
hiddens = model_config.get("fcnet_hiddens")
no_final_linear = model_config.get("no_final_linear")
self.free_log_std = model_config.get("free_log_std")
# TODO(sven): implement case: vf_shared_layers = False.
# vf_share_layers = model_config.get("vf_share_layers")
logger.debug("Constructing fcnet {} {}".format(hiddens, activation))
layers = []
prev_layer_size = int(np.product(obs_space.shape))
self._logits = None
# Maybe generate free-floating bias variables for the second half of
# the outputs.
if self.free_log_std:
assert num_outputs % 2 == 0, (
"num_outputs must be divisible by two", num_outputs)
num_outputs = num_outputs // 2
# Create layers 0 to second-last.
for size in hiddens[:-1]:
layers.append(
SlimFC(
in_size=prev_layer_size,
out_size=size,
initializer=normc_initializer(1.0),
activation_fn=activation))
prev_layer_size = size
# The last layer is adjusted to be of size num_outputs, but it's a
# layer with activation.
if no_final_linear and num_outputs:
layers.append(
SlimFC(
in_size=prev_layer_size,
out_size=num_outputs,
initializer=normc_initializer(1.0),
activation_fn=activation))
prev_layer_size = num_outputs
# Finish the layers with the provided sizes (`hiddens`), plus -
# iff num_outputs > 0 - a last linear layer of size num_outputs.
else:
if len(hiddens) > 0:
layers.append(
SlimFC(
in_size=prev_layer_size,
out_size=hiddens[-1],
initializer=normc_initializer(1.0),
activation_fn=activation))
prev_layer_size = hiddens[-1]
if num_outputs:
self._logits = SlimFC(
in_size=prev_layer_size,
out_size=num_outputs,
initializer=normc_initializer(0.01),
activation_fn=None)
else:
self.num_outputs = (
[np.product(obs_space.shape)] + hiddens[-1:-1])[-1]
# Layer to add the log std vars to the state-dependent means.
if self.free_log_std:
self._append_free_log_std = AppendBiasLayer(num_outputs)
self._hidden_layers = nn.Sequential(*layers)
# TODO(sven): Implement non-shared value branch.
self._value_branch = SlimFC(
in_size=prev_layer_size,
out_size=1,
initializer=normc_initializer(1.0),
activation_fn=None)
# Holds the current value output.
self._cur_value = None
@override(TorchModelV2)
def forward(self, input_dict, state, seq_lens):
obs = input_dict["obs_flat"].float()
features = self._hidden_layers(obs.reshape(obs.shape[0], -1))
logits = self._logits(features) if self._logits else features
if self.free_log_std:
logits = self._append_free_log_std(logits)
self._cur_value = self._value_branch(features).squeeze(1)
return logits, state
@override(TorchModelV2)
def value_function(self):
assert self._cur_value is not None, "must call forward() first"
return self._cur_value
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