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import torch
import torch.nn as nn
import torch.nn.functional as F
from torch.autograd import Variable
from torch.distributions.categorical import Categorical
from torch.nn.utils.rnn import pack_padded_sequence, pad_packed_sequence
from utils.babyai_utils.supervised_losses import required_heads
import torch_ac
# From https://github.com/ikostrikov/pytorch-a2c-ppo-acktr/blob/master/model.py
def initialize_parameters(m):
classname = m.__class__.__name__
if classname.find('Linear') != -1:
m.weight.data.normal_(0, 1)
m.weight.data *= 1 / torch.sqrt(m.weight.data.pow(2).sum(1, keepdim=True))
if m.bias is not None:
m.bias.data.fill_(0)
# Inspired by FiLMedBlock from https://arxiv.org/abs/1709.07871
class FiLM(nn.Module):
def __init__(self, in_features, out_features, in_channels, imm_channels):
super().__init__()
self.conv1 = nn.Conv2d(
in_channels=in_channels, out_channels=imm_channels,
kernel_size=(3, 3), padding=1)
self.bn1 = nn.BatchNorm2d(imm_channels)
self.conv2 = nn.Conv2d(
in_channels=imm_channels, out_channels=out_features,
kernel_size=(3, 3), padding=1)
self.bn2 = nn.BatchNorm2d(out_features)
self.weight = nn.Linear(in_features, out_features)
self.bias = nn.Linear(in_features, out_features)
self.apply(initialize_parameters)
def forward(self, x, y):
x = F.relu(self.bn1(self.conv1(x)))
x = self.conv2(x)
weight = self.weight(y).unsqueeze(2).unsqueeze(3)
bias = self.bias(y).unsqueeze(2).unsqueeze(3)
out = x * weight + bias
return F.relu(self.bn2(out))
class ImageBOWEmbedding(nn.Module):
def __init__(self, max_value, embedding_dim):
super().__init__()
self.max_value = max_value
self.embedding_dim = embedding_dim
self.embedding = nn.Embedding(3 * max_value, embedding_dim)
self.apply(initialize_parameters)
def forward(self, inputs):
offsets = torch.Tensor([0, self.max_value, 2 * self.max_value]).to(inputs.device)
inputs = (inputs + offsets[None, :, None, None]).long()
return self.embedding(inputs).sum(1).permute(0, 3, 1, 2)
#notes: what they call instr is what we call text
#class ACModel(nn.Module, babyai.rl.RecurrentACModel):
# instr (them) == text (us)
class MultiHeadedBaby11ACModel(nn.Module, torch_ac.RecurrentACModel):
def __init__(self, obs_space, action_space,
image_dim=128, memory_dim=128, text_dim=128, dialog_dim=128,
use_text=False, use_dialogue=False, use_current_dialogue_only=False, lang_model="gru", use_memory=False,
arch="bow_endpool_res", aux_info=None):
super().__init__()
# store config
self.config = locals()
if use_current_dialogue_only:
raise NotImplementedError("current dialogue only")
# multi dim
if action_space.shape == ():
raise ValueError("The action space is not multi modal. Use ACModel instead.")
if use_text: # for now we do not consider goal conditioned policies
raise ValueError("You should not use text but dialogue. --text is cheating.")
endpool = 'endpool' in arch
use_bow = 'bow' in arch
pixel = 'pixel' in arch
self.res = 'res' in arch
# Decide which components are enabled
self.use_text = use_text
self.use_dialogue = use_dialogue
self.use_memory = use_memory
self.arch = arch
self.lang_model = lang_model
self.aux_info = aux_info
if self.res and image_dim != 128:
raise ValueError(f"image_dim is {image_dim}, expected 128")
self.image_dim = image_dim
self.memory_dim = memory_dim
self.text_dim = text_dim
self.dialog_dim = dialog_dim
# multi dim
if action_space.shape == ():
raise ValueError("The action space is not multi modal. Use ACModel instead.")
self.n_primitive_actions = action_space.nvec[0] + 1 # for talk
self.talk_action = int(self.n_primitive_actions) - 1
self.n_utterance_actions = action_space.nvec[1:]
self.env_action_space = action_space
self.model_raw_action_space = spaces.MultiDiscrete([self.n_primitive_actions, *self.n_utterance_actions])
self.obs_space = obs_space
# transform given 3d obs_space into what babyai11 baseline uses, i.e. 1d embedding size
n = obs_space["image"][0]
m = obs_space["image"][1]
self.obs_space = ((n-1)//2-2)*((m-1)//2-2)*64
for part in self.arch.split('_'):
if part not in ['original', 'bow', 'pixels', 'endpool', 'res']:
raise ValueError("Incorrect architecture name: {}".format(self.arch))
# if not self.use_text:
# raise ValueError("FiLM architecture can be used when textuctions are enabled")
self.image_conv = nn.Sequential(*[
*([ImageBOWEmbedding(obs_space['image'], 128)] if use_bow else []),
*([nn.Conv2d(
in_channels=3, out_channels=128, kernel_size=(8, 8),
stride=8, padding=0)] if pixel else []),
nn.Conv2d(
in_channels=128 if use_bow or pixel else 3, out_channels=128,
kernel_size=(3, 3) if endpool else (2, 2), stride=1, padding=1),
nn.BatchNorm2d(128),
nn.ReLU(),
*([] if endpool else [nn.MaxPool2d(kernel_size=(2, 2), stride=2)]),
nn.Conv2d(in_channels=128, out_channels=128, kernel_size=(3, 3), padding=1),
nn.BatchNorm2d(128),
nn.ReLU(),
*([] if endpool else [nn.MaxPool2d(kernel_size=(2, 2), stride=2)])
])
self.film_pool = nn.MaxPool2d(kernel_size=(7, 7) if endpool else (2, 2), stride=2)
# Define DIALOGUE embedding
if self.use_dialogue:
if self.lang_model in ['gru', 'bigru', 'attgru']:
#self.word_embedding = nn.Embedding(obs_space["instr"], self.dialog_dim)
self.word_embedding = nn.Embedding(obs_space["text"], self.dialog_dim)
if self.lang_model in ['gru', 'bigru', 'attgru']:
gru_dim = self.dialog_dim
if self.lang_model in ['bigru', 'attgru']:
gru_dim //= 2
self.dialog_rnn = nn.GRU(
self.dialog_dim, gru_dim, batch_first=True,
bidirectional=(self.lang_model in ['bigru', 'attgru']))
self.final_dialog_dim = self.dialog_dim
else:
kernel_dim = 64
kernel_sizes = [3, 4]
self.dialog_convs = nn.ModuleList([
nn.Conv2d(1, kernel_dim, (K, self.dialog_dim)) for K in kernel_sizes])
self.final_dialog_dim = kernel_dim * len(kernel_sizes)
if self.lang_model == 'attgru':
self.memory2key = nn.Linear(self.memory_size, self.final_dialog_dim)
num_module = 2
self.controllers = []
for ni in range(num_module):
mod = FiLM(
in_features=self.final_dialog_dim,
out_features=128 if ni < num_module-1 else self.image_dim,
in_channels=128, imm_channels=128)
self.controllers.append(mod)
self.add_module('FiLM_' + str(ni), mod)
# Define memory and resize image embedding
self.embedding_size = self.image_dim
if self.use_memory:
self.memory_rnn = nn.LSTMCell(self.image_dim, self.memory_dim)
self.embedding_size = self.semi_memory_size
# Define actor's model
self.actor = nn.Sequential(
nn.Linear(self.embedding_size, 64),
nn.Tanh(),
nn.Linear(64, self.n_primitive_actions)
)
self.talker = nn.ModuleList([
nn.Sequential(
nn.Linear(self.embedding_size, 64),
nn.Tanh(),
nn.Linear(64, n)
) for n in self.n_utterance_actions])
# Define critic's model
self.critic = nn.Sequential(
nn.Linear(self.embedding_size, 64),
nn.Tanh(),
nn.Linear(64, 1)
)
# Initialize parameters correctly
self.apply(initialize_parameters)
# Define head for extra info
if self.aux_info:
self.extra_heads = None
self.add_heads()
def add_heads(self):
'''
When using auxiliary tasks, the environment yields at each step some binary, continous, or multiclass
information. The agent needs to predict those information. This function add extra heads to the model
that output the predictions. There is a head per extra information (the head type depends on the extra
information type).
'''
self.extra_heads = nn.ModuleDict()
for info in self.aux_info:
if required_heads[info] == 'binary':
self.extra_heads[info] = nn.Linear(self.embedding_size, 1)
elif required_heads[info].startswith('multiclass'):
n_classes = int(required_heads[info].split('multiclass')[-1])
self.extra_heads[info] = nn.Linear(self.embedding_size, n_classes)
elif required_heads[info].startswith('continuous'):
if required_heads[info].endswith('01'):
self.extra_heads[info] = nn.Sequential(nn.Linear(self.embedding_size, 1), nn.Sigmoid())
else:
raise ValueError('Only continous01 is implemented')
else:
raise ValueError('Type not supported')
# initializing these parameters independently is done in order to have consistency of results when using
# supervised-loss-coef = 0 and when not using any extra binary information
self.extra_heads[info].apply(initialize_parameters)
def add_extra_heads_if_necessary(self, aux_info):
'''
This function allows using a pre-trained model without aux_info and add aux_info to it and still make
it possible to finetune.
'''
try:
if not hasattr(self, 'aux_info') or not set(self.aux_info) == set(aux_info):
self.aux_info = aux_info
self.add_heads()
except Exception:
raise ValueError('Could not add extra heads')
@property
def memory_size(self):
return 2 * self.semi_memory_size
@property
def semi_memory_size(self):
return self.memory_dim
def forward(self, obs, memory, dialog_embedding=None):
if self.use_dialogue and dialog_embedding is None:
#instr_embedding = self._get_instr_embedding(obs.instr)
if not hasattr(obs, "utterance_history"):
raise ValueError("The environment need's to be updated to 'utterance' and 'utterance_history' keys'")
dialog_embedding = self._get_dialog_embedding(obs.utterance_history)
if self.use_dialogue and self.lang_model == "attgru":
# outputs: B x L x D
# memory: B x M
#mask = (obs.instr != 0).float()
mask = (obs.utterance_history != 0).float()
# The mask tensor has the same length as obs.instr, and
# thus can be both shorter and longer than instr_embedding.
# It can be longer if instr_embedding is computed
# for a subbatch of obs.instr.
# It can be shorter if obs.instr is a subbatch of
# the batch that instr_embeddings was computed for.
# Here, we make sure that mask and instr_embeddings
# have equal length along dimension 1.
mask = mask[:, :dialog_embedding.shape[1]]
dialog_embedding = dialog_embedding[:, :mask.shape[1]]
keys = self.memory2key(memory)
pre_softmax = (keys[:, None, :] * dialog_embedding).sum(2) + 1000 * mask
attention = F.softmax(pre_softmax, dim=1)
dialog_embedding = (dialog_embedding * attention[:, :, None]).sum(1)
x = torch.transpose(torch.transpose(obs.image, 1, 3), 2, 3)
if 'pixel' in self.arch:
x /= 256.0
x = self.image_conv(x)
if self.use_dialogue:
for controller in self.controllers:
out = controller(x, dialog_embedding)
if self.res:
out += x
x = out
x = F.relu(self.film_pool(x))
x = x.reshape(x.shape[0], -1)
if self.use_memory:
hidden = (memory[:, :self.semi_memory_size], memory[:, self.semi_memory_size:])
hidden = self.memory_rnn(x, hidden)
embedding = hidden[0]
memory = torch.cat(hidden, dim=1)
else:
embedding = x
if hasattr(self, 'aux_info') and self.aux_info:
extra_predictions = {info: self.extra_heads[info](embedding) for info in self.extra_heads}
else:
extra_predictions = dict()
# x = self.actor(embedding)
# dist = Categorical(logits=F.log_softmax(x, dim=1))
x = self.actor(embedding)
primitive_actions_dist = Categorical(logits=F.log_softmax(x, dim=1))
x = self.critic(embedding)
value = x.squeeze(1)
utterance_actions_dists = [
Categorical(logits=F.log_softmax(
tal(embedding),
dim=1,
)) for tal in self.talker
]
dist = [primitive_actions_dist] + utterance_actions_dists
#return {'dist': dist, 'value': value, 'memory': memory, 'extra_predictions': extra_predictions}
return dist, value, memory
def _get_dialog_embedding(self, dialog):
lengths = (dialog != 0).sum(1).long()
if self.lang_model == 'gru':
out, _ = self.dialog_rnn(self.word_embedding(dialog))
hidden = out[range(len(lengths)), lengths-1, :]
return hidden
elif self.lang_model in ['bigru', 'attgru']:
masks = (dialog != 0).float()
if lengths.shape[0] > 1:
seq_lengths, perm_idx = lengths.sort(0, descending=True)
iperm_idx = torch.LongTensor(perm_idx.shape).fill_(0)
if dialog.is_cuda: iperm_idx = iperm_idx.cuda()
for i, v in enumerate(perm_idx):
iperm_idx[v.data] = i
inputs = self.word_embedding(dialog)
inputs = inputs[perm_idx]
inputs = pack_padded_sequence(inputs, seq_lengths.data.cpu().numpy(), batch_first=True)
outputs, final_states = self.dialog_rnn(inputs)
else:
dialog = dialog[:, 0:lengths[0]]
outputs, final_states = self.dialog_rnn(self.word_embedding(dialog))
iperm_idx = None
final_states = final_states.transpose(0, 1).contiguous()
final_states = final_states.view(final_states.shape[0], -1)
if iperm_idx is not None:
outputs, _ = pad_packed_sequence(outputs, batch_first=True)
outputs = outputs[iperm_idx]
final_states = final_states[iperm_idx]
return outputs if self.lang_model == 'attgru' else final_states
else:
ValueError("Undefined dialoguction architecture: {}".format(self.use_dialogue))
# add action sampling to fit our interaction pipeline
## baby ai [[Categorical(logits: torch.Size([16, 8])), Categorical(logits: torch.Size([16, 2])), Categorical(logits: torch.Size([16, 2]))]]
## mh ac [Categorical(logits: torch.Size([16, 8])), Categorical(logits: torch.Size([16, 2])), Categorical(logits: torch.Size([16, 2]))]
def sample_action(self, dist):
# print(dist)
# raise
return torch.stack([d.sample() for d in dist], dim=1)
# # add construct final action to fit our interaction pipeline
# def construct_final_action(self, action):
# return action
def construct_final_action(self, action):
act_mask = action[:, 0] != self.n_primitive_actions - 1
nan_mask = np.array([
np.array([1, np.nan, np.nan]) if t else np.array([np.nan, 1, 1]) for t in act_mask
])
action = nan_mask*action
return action
# add calculate log probs to fit our interaction pipeline
def calculate_log_probs(self, dist, action):
return torch.stack([d.log_prob(action[:, i]) for i, d in enumerate(dist)], dim=1)
# add calculate action masks to fit our interaction pipeline
def calculate_action_masks(self, action):
talk_mask = action[:, 0] == self.talk_action
mask = torch.stack(
(torch.ones_like(talk_mask), talk_mask, talk_mask),
dim=1).detach()
assert action.shape == mask.shape
return mask
# def calculate_action_masks(self, action):
# mask = torch.ones_like(action)
# assert action.shape == mask.shape
# return mask
def get_config_dict(self):
del self.config['__class__']
self.config['self'] = str(self.config['self'])
self.config['action_space'] = self.config['action_space'].nvec.tolist()
return self.config
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