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model.py
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model.py
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import torch
import torch.nn as nn
from embed_regularize import embedded_dropout
from locked_dropout import LockedDropout
from weight_drop import WeightDrop
class RNNModel(nn.Module):
"""Container module with an encoder, a recurrent module, and a decoder."""
def __init__(self, rnn_type, ntoken, ninp, nhid, nlayers, dropout=0.5, dropouth=0.5, dropouti=0.5, dropoute=0.1, wdrop=0, tie_weights=False):
super(RNNModel, self).__init__()
self.lockdrop = LockedDropout()
self.idrop = nn.Dropout(dropouti)
self.hdrop = nn.Dropout(dropouth)
self.drop = nn.Dropout(dropout)
self.encoder = nn.Embedding(ntoken, ninp)
assert rnn_type in ['LSTM', 'QRNN', 'GRU'], 'RNN type is not supported'
if rnn_type == 'LSTM':
self.rnns = [torch.nn.LSTM(ninp if l == 0 else nhid, nhid if l != nlayers - 1 else (ninp if tie_weights else nhid), 1, dropout=0) for l in range(nlayers)]
if wdrop:
self.rnns = [WeightDrop(rnn, ['weight_hh_l0'], dropout=wdrop) for rnn in self.rnns]
if rnn_type == 'GRU':
self.rnns = [torch.nn.GRU(ninp if l == 0 else nhid, nhid if l != nlayers - 1 else ninp, 1, dropout=0) for l in range(nlayers)]
if wdrop:
self.rnns = [WeightDrop(rnn, ['weight_hh_l0'], dropout=wdrop) for rnn in self.rnns]
elif rnn_type == 'QRNN':
from torchqrnn import QRNNLayer
self.rnns = [QRNNLayer(input_size=ninp if l == 0 else nhid, hidden_size=nhid if l != nlayers - 1 else (ninp if tie_weights else nhid), save_prev_x=True, zoneout=0, window=2 if l == 0 else 1, output_gate=True) for l in range(nlayers)]
for rnn in self.rnns:
rnn.linear = WeightDrop(rnn.linear, ['weight'], dropout=wdrop)
print(self.rnns)
self.rnns = torch.nn.ModuleList(self.rnns)
self.decoder = nn.Linear(nhid, ntoken)
# Optionally tie weights as in:
# "Using the Output Embedding to Improve Language Models" (Press & Wolf 2016)
# https://arxiv.org/abs/1608.05859
# and
# "Tying Word Vectors and Word Classifiers: A Loss Framework for Language Modeling" (Inan et al. 2016)
# https://arxiv.org/abs/1611.01462
if tie_weights:
#if nhid != ninp:
# raise ValueError('When using the tied flag, nhid must be equal to emsize')
self.decoder.weight = self.encoder.weight
self.init_weights()
self.rnn_type = rnn_type
self.ninp = ninp
self.nhid = nhid
self.nlayers = nlayers
self.dropout = dropout
self.dropouti = dropouti
self.dropouth = dropouth
self.dropoute = dropoute
self.tie_weights = tie_weights
def reset(self):
if self.rnn_type == 'QRNN': [r.reset() for r in self.rnns]
def init_weights(self):
initrange = 0.1
self.encoder.weight.data.uniform_(-initrange, initrange)
self.decoder.bias.data.fill_(0)
self.decoder.weight.data.uniform_(-initrange, initrange)
def forward(self, input, hidden, return_h=False):
emb = embedded_dropout(self.encoder, input, dropout=self.dropoute if self.training else 0)
#emb = self.idrop(emb)
emb = self.lockdrop(emb, self.dropouti)
raw_output = emb
new_hidden = []
#raw_output, hidden = self.rnn(emb, hidden)
raw_outputs = []
outputs = []
for l, rnn in enumerate(self.rnns):
current_input = raw_output
raw_output, new_h = rnn(raw_output, hidden[l])
new_hidden.append(new_h)
raw_outputs.append(raw_output)
if l != self.nlayers - 1:
#self.hdrop(raw_output)
raw_output = self.lockdrop(raw_output, self.dropouth)
outputs.append(raw_output)
hidden = new_hidden
output = self.lockdrop(raw_output, self.dropout)
outputs.append(output)
result = output.view(output.size(0)*output.size(1), output.size(2))
if return_h:
return result, hidden, raw_outputs, outputs
return result, hidden
def init_hidden(self, bsz):
weight = next(self.parameters()).data
if self.rnn_type == 'LSTM':
return [(weight.new(1, bsz, self.nhid if l != self.nlayers - 1 else (self.ninp if self.tie_weights else self.nhid)).zero_(),
weight.new(1, bsz, self.nhid if l != self.nlayers - 1 else (self.ninp if self.tie_weights else self.nhid)).zero_())
for l in range(self.nlayers)]
elif self.rnn_type == 'QRNN' or self.rnn_type == 'GRU':
return [weight.new(1, bsz, self.nhid if l != self.nlayers - 1 else (self.ninp if self.tie_weights else self.nhid)).zero_()
for l in range(self.nlayers)]