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Cosine.lua
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Cosine.lua
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local Cosine, parent = torch.class('nn.Cosine', 'nn.Module')
function Cosine:__init(inputSize,outputSize)
parent.__init(self)
self.weight = torch.Tensor(outputSize,inputSize)
self.gradWeight = torch.Tensor(outputSize,inputSize)
self:reset()
end
function Cosine:reset(stdv)
if stdv then
stdv = stdv * math.sqrt(3)
else
stdv = 1./math.sqrt(self.weight:size(1))
end
self.weight:uniform(-stdv, stdv)
end
function Cosine:updateOutput(input)
local inputSize = self.weight:size(2)
local outputSize = self.weight:size(1)
self._weightNorm = self._weightNorm or self.weight.new()
self._inputNorm = self._inputNorm or self.weight.new()
-- y_j = (w_j * x) / ( || w_j || * || x || )
self._weightNorm:norm(self.weight,2,2):add(1e-12)
if input:dim() == 1 then
self.output:resize(outputSize):zero()
self.output:addmv(1, self.weight, input)
self.__norm = input:norm()+1e-12
self.output:cdiv(self._weightNorm:view(outputSize)):div(self.__norm)
elseif input:dim() == 2 then
local batchSize = input:size(1)
local nElement = self.output:nElement()
self.output:resize(batchSize, outputSize)
if self.output:nElement() ~= nElement then
self.output:zero()
end
self.output:addmm(0, self.output, 1, input, self.weight:t())
self._inputNorm:norm(input,2,2):add(1e-12)
self.output:cdiv(self._weightNorm:view(1,outputSize):expandAs(self.output))
self.output:cdiv(self._inputNorm:expandAs(self.output))
else
error('input must be vector or matrix')
end
return self.output
end
function Cosine:updateGradInput(input, gradOutput)
if not self.gradInput then
return
end
local inputSize = self.weight:size(2)
local outputSize = self.weight:size(1)
--[[
dy_j w_ji x_i
---- = ------------------- - y_j ---------
dx_i || w_j || * || x || || x ||^2
--]]
local nElement = self.gradInput:nElement()
self.gradInput:resizeAs(input)
if self.gradInput:nElement() ~= nElement then
self.gradInput:zero()
end
if input:dim() == 1 then
self._weight = self._weight or input.new()
self._weight:resizeAs(self.weight):copy(self.weight)
self._weight:cdiv(self._weightNorm:expandAs(self.weight))
self._weight:div(self.__norm)
self._weight:addr(1, self._weight, -1/(self.__norm*self.__norm), self.output, input)
self.gradInput:addmv(0, 1, self._weight:t(), gradOutput)
elseif input:dim() == 2 then
local inputNorm = self._inputNorm:expandAs(input)
local weightNorm = self._weightNorm:view(1,outputSize):expandAs(gradOutput)
self.gradInput:copy(input):cdiv(inputNorm)
self._gradOutput = self._gradOutput or gradOutput.new()
self._gradOutput:resizeAs(gradOutput):copy(gradOutput)
self._gradOutput:cmul(self.output)
self._sum = self._sum or input.new()
self._sum:sum(self._gradOutput, 2)
self.gradInput:cmul(self._sum:expandAs(input))
self._gradOutput:resizeAs(gradOutput):copy(gradOutput)
self._gradOutput:cdiv(weightNorm)
self.gradInput:addmm(-1, self.gradInput, 1, self._gradOutput, self.weight)
self.gradInput:cdiv(inputNorm)
end
return self.gradInput
end
function Cosine:accGradParameters(input, gradOutput, scale)
scale = scale or 1
local inputSize = self.weight:size(2)
local outputSize = self.weight:size(1)
--[[
dy_j x_i w_ji
----- = ------------------- - y_j -----------
dw_ji || w_j || * || x || || w_j ||^2
--]]
if input:dim() == 1 then
self._gradOutput = self._gradOutput or gradOutput.new()
self._gradOutput:resizeAs(gradOutput):copy(gradOutput)
local weightNorm = self._weightNorm:view(outputSize)
self._gradOutput:cdiv(weightNorm)
self.gradWeight:addr(scale/self.__norm, self._gradOutput, input)
self._gradOutput:cdiv(weightNorm)
self._gradOutput:cmul(self.output)
self._weight = self._weight or self.weight.new()
self._weight:resizeAs(self._weight):copy(self.weight)
self._weight:cmul(self._gradOutput:view(outputSize, 1):expandAs(self.weight))
self.gradWeight:add(-1, self._weight)
elseif input:dim() == 2 then
self._weight = self._weight or self.weight.new()
self._weight:resizeAs(self.weight):copy(self.weight)
self._gradOutput = self._gradOutput or gradOutput.new()
self._gradOutput:resizeAs(gradOutput):copy(gradOutput)
self._gradOutput:cmul(self.output)
self._sum = self._sum or input.new()
self._sum:sum(self._gradOutput, 1)
local grad = self._sum[1]
grad:cdiv(self._weightNorm:select(2,1))
self._weight:cmul(grad:view(outputSize,1):expandAs(self._weight))
local input_ = self._gradOutput
input_:resizeAs(input):copy(input)
input_:cdiv(self._inputNorm:expandAs(input))
self._weight:addmm(-1, self._weight, 1, gradOutput:t(), input_)
self._weight:cdiv(self._weightNorm:expandAs(self._weight))
self.gradWeight:add(self._weight)
else
error"1D or 2D input expected"
end
end
function Cosine:type(type, tensorCache)
if type then
-- prevent premature memory allocations
self._input = nil
self._weight = nil
self._inputNorm = nil
self._weightNorm = nil
self._gradOutput = nil
self._sum = nil
end
return parent.type(self, type, tensorCache)
end
function Cosine:clearState()
nn.utils.clear(self, {
'_input',
'_weight',
'_gradOutput',
'_sum',
'_inputNorm',
'_weightNorm',
})
return parent.clearState(self)
end