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ReinforceCriterion.lua
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ReinforceCriterion.lua
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--
-- Copyright (c) 2015, Facebook, Inc.
-- All rights reserved.
--
-- This source code is licensed under the BSD-style license found in the
-- LICENSE file in the root directory of this source tree. An additional grant
-- of patent rights can be found in the PATENTS file in the same directory.
--
-- Author: Marc'Aurelio Ranzato <ranzato@fb.com>
-- Sumit Chopra <spchopra@fb.com>
-- Michael Auli <michaelauli@fb.com>
-- Wojciech Zaremba <zaremba@cs.nyu.edu>
--
local ReinforceCriterion, parent = torch.class('nn.ReinforceCriterion',
'nn.Criterion')
-- This criterion implements the REINFORCE algorithm under the assumption that
-- the reward does not depend on the model parameters.
-- The constructor takes as input a function which is used to compute the reward
-- given the ground truth input sequence, the generated sequence and the current
-- time step.
-- The input to the criterion is a table whose entries are the output of the
-- RNN at a certain time step, namely:
-- (chosen_word, predicted_cumulative_reward)_t
-- It computes the total reward and bprop the derivative
-- w.r.t. the above provided inputs.
-- reward_func: user provided function to compute the reward
-- given ground truth, current sequence and current time step.
-- seq_length is the length of the sequence we use
-- skips is the number of time steps we skip from the input and target (init)
-- weight is the weight on the loss produced by this criterion
-- weight_predictive_reward is the weight on the gradient of the cumulative
-- reward predictor (only)
function ReinforceCriterion:__init(reward_func, seq_length, eos_index,
padding_index, skips, weight,
weight_predictive_reward)
parent.__init(self)
self.gradInput = {}
self.seq_length = seq_length
for tt = 1, seq_length do
self.gradInput[tt] = {}
self.gradInput[tt][1] = torch.Tensor()
self.gradInput[tt][2] = torch.Tensor()
end
self.sizeAverage = false
self.reward_func = reward_func
self.reward = torch.Tensor()
self.cumreward = torch.Tensor()
self.skips = (skips == nil) and 1 or skips
assert(self.skips <= seq_length)
assert(seq_length >= self.skips)
-- by default, update the cumulative reward predictor
-- at a slower pace.
self.weight_predictive_reward =
(weight_predictive_reward == nil) and 0.01 or weight_predictive_reward
self.weight = (weight == nil) and 1 or weight
self.num_samples = 0
self.normalizing_coeff = 1
self.eos = eos_index
self.padding = padding_index
self.reset = torch.Tensor()
end
function ReinforceCriterion:type(tp)
parent.type(self, tp)
for tt = 1, self.seq_length do
self.gradInput[tt][1] = self.gradInput[tt][1]:type(tp)
self.gradInput[tt][2] = self.gradInput[tt][2]:type(tp)
end
self.reward = self.reward:type(tp)
self.cumreward = self.cumreward:type(tp)
return self
end
function ReinforceCriterion:set_weight(ww)
self.weight = ww
end
function ReinforceCriterion:set_skips(ss)
self.skips = ss
self.reward_func:set_start(ss)
end
-- input is a table storing the tuple:
-- (chosen_word, predicted_cumulative_reward)_t, t=1..T
-- target is also a table storing the labels at each time step.
function ReinforceCriterion:updateOutput(input, target)
-- compute the reward at each time step
local mbsz = target[1]:size(1)
local num_steps = self.seq_length - self.skips + 1
self.reward:resize(mbsz, num_steps)
self.cumreward:resize(mbsz, num_steps)
self.num_samples = 0
for tt = self.seq_length, self.skips, -1 do
local shifted_tt = tt - self.skips + 1
self.reward:select(2, shifted_tt):copy(
self.reward_func:get_reward(target, input, tt))
if tt == self.seq_length then
self.cumreward:select(2, shifted_tt):copy(
self.reward:select(2, shifted_tt))
else
self.cumreward:select(2, shifted_tt):add(
self.cumreward:select(2, shifted_tt + 1),
self.reward:select(2, shifted_tt))
end
end
self.num_samples = self.reward_func:num_samples(target, input)
self.normalizing_coeff =
self.weight / (self.sizeAverage and self.num_samples or 1)
-- here there is a "-" because we minimize
self.output = - self.cumreward:select(2,1):sum() * self.normalizing_coeff
return self.output, self.num_samples
end
-- bprop through input at each time step.
-- derivative through chosen action is:
-- (predicted_cumulative_reward - actual_cumulative_reward)_t.
function ReinforceCriterion:updateGradInput(input, target)
local mbsz = target[1]:size(1)
for tt = self.seq_length, self.skips, -1 do
local shifted_tt = tt - self.skips + 1
-- derivative w.r.t. chosen action
self.gradInput[tt][1]:resizeAs(input[tt][1])
self.gradInput[tt][1]:add(
input[tt][2]:squeeze(), -1, self.cumreward:select(2, shifted_tt))
self.gradInput[tt][1]:mul(self.normalizing_coeff)
-- reset gradient to 0 if input (at any time) has PAD
self.reset:resize(mbsz)
self.reset:ne(input[tt][1], self.padding) -- set in RNNreinforce
self.gradInput[tt][1]:cmul(self.reset)
-- copy over to the other input gradient as well
self.gradInput[tt][2]:resizeAs(input[tt][2])
self.gradInput[tt][2]:copy(self.gradInput[tt][1])
self.gradInput[tt][2]:mul(self.weight_predictive_reward)
end
-- fill the remaining (skipped) steps with 0s
for tt = self.skips - 1, 1, -1 do
self.gradInput[tt][1]:resizeAs(input[tt][1])
self.gradInput[tt][1]:fill(0)
self.gradInput[tt][2]:resizeAs(input[tt][2])
self.gradInput[tt][2]:fill(0)
end
return self.gradInput
end
function ReinforceCriterion:get_num_samples(input, target)
return self.reward_func:num_samples(target, input)
end
function ReinforceCriterion:reset_reward()
return self.reward_func:reset_vars()
end
function ReinforceCriterion:get_corpus_score()
return self.reward_func:get_corpus_score()
end
function ReinforceCriterion:get_counts_corpus(target, pred)
return self.reward_func:get_counts_corpus(target, pred)
end
function ReinforceCriterion:training_mode()
self.reward_func:training_mode()
end
function ReinforceCriterion:test_mode()
self.reward_func:test_mode()
end