X-Git-Url: https://www.fleuret.org/cgi-bin/gitweb/gitweb.cgi?p=dagnn.git;a=blobdiff_plain;f=test-dagnn.lua;h=b390a29a5b7b412c6ff019e44f51ef5ef5e2a6de;hp=262ea6fe3111830ab1f8270118b608725e124881;hb=HEAD;hpb=452781856eafd237579e5c90b6e345354df91b42 diff --git a/test-dagnn.lua b/test-dagnn.lua index 262ea6f..b390a29 100755 --- a/test-dagnn.lua +++ b/test-dagnn.lua @@ -1,43 +1,143 @@ #!/usr/bin/env luajit +--[[ + + Copyright (c) 2016 Idiap Research Institute, http://www.idiap.ch/ + Written by Francois Fleuret + + This file is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License version 3 as + published by the Free Software Foundation. + + It is distributed in the hope that it will be useful, but WITHOUT + ANY WARRANTY; without even the implied warranty of MERCHANTABILITY + or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public + License for more details. + + You should have received a copy of the GNU General Public License + along with this file. If not, see . + +]]-- + require 'torch' require 'nn' +-- require 'cunn' + require 'dagnn' -a = nn.Linear(10, 10) +torch.setdefaulttensortype('torch.DoubleTensor') +torch.manualSeed(1) + +function checkGrad(model, criterion, input, target, epsilon) + local params, gradParams = model:getParameters() + + local epsilon = epsilon or 1e-5 + + local output = model:forward(input) + local loss = criterion:forward(output, target) + local gradOutput = criterion:backward(output, target) + gradParams:zero() + model:backward(input, gradOutput) + local analyticalGradParam = gradParams:clone() + + local err = 0 + + for i = 1, params:size(1) do + local x = params[i] + + params[i] = x - epsilon + local output0 = model:forward(input) + local loss0 = criterion:forward(output0, target) + + params[i] = x + epsilon + local output1 = model:forward(input) + local loss1 = criterion:forward(output1, target) + + params[i] = x + + local ana = analyticalGradParam[i] + local num = (loss1 - loss0) / (2 * epsilon) + + if num ~= ana then + err = math.max(err, math.abs(num - ana) / math.max(epsilon, math.abs(num))) + end + end + + return err +end + +function printTensorTable(t) + if torch.type(t) == 'table' then + for i, t in pairs(t) do + print('-- ELEMENT [' .. i .. '] --') + printTensorTable(t) + end + else + print(tostring(t)) + end +end + +-- +-- Linear(10, 10) --> ReLU --> d --> +-- / / +-- / / +-- --> a --> b -----------> c ---------------+ +-- \ +-- \ +-- +--------------- e --> + +dag = nn.DAG() + +a = nn.Linear(50, 10) b = nn.ReLU() -c = nn.Linear(10, 3) -d = nn.Linear(10, 3) -e = nn.CMulTable() -f = nn.Linear(3, 2) +c = nn.Linear(10, 15) +d = nn.CMulTable() +e = nn.Mul(-1) ---[[ +dag:connect(a, b, c) +dag:connect(b, nn.Linear(10, 15), nn.ReLU(), d) +dag:connect(c, d) +dag:connect(c, e) - a -----> b ---> c ----> e --- - \ / - \--> d ---/ - \ - \---> f --- -]]-- +dag:setLabel(a, 'first module') + +dag:setInput(a) +dag:setOutput({ d, e }) + +-- Check the output of the dot file. Generate a pdf with: +-- +-- dot ./graph.dot -Lg -T pdf -o ./graph.pdf +-- +print('Writing ./graph.dot') +dag:saveDot('./graph.dot') -g = nn.DAG:new() +-- Let's make a model where the dag is inside another nn.Container. +model = nn.Sequential() + :add(nn.Linear(50, 50)) + :add(dag) + :add(nn.CAddTable()) -g:setInput(a) -g:setOutput({ e, f }) +criterion = nn.MSECriterion() -g:addEdge(c, e) -g:addEdge(a, b) -g:addEdge(d, e) -g:addEdge(b, c) -g:addEdge(b, d) -g:addEdge(d, f) +if cunn then + print("Using CUDA") + model:cuda() + criterion:cuda() + torch.setdefaulttensortype('torch.CudaTensor') + epsilon = 1e-3 +end -g:print() +local input = torch.Tensor(30, 50):uniform() +local output = model:updateOutput(input):clone() +output:uniform() -input = torch.Tensor(3, 10):uniform() +-- Check that DAG:accGradParameters and friends work okay +print('Gradient estimate error ' .. checkGrad(model, criterion, input, output, epsilon)) -output = g:updateOutput(input) +-- Check that we can save and reload the model +model:clearState() +torch.save('./test.t7', model) +local otherModel = torch.load('./test.t7') +print('Gradient estimate error ' .. checkGrad(otherModel, criterion, input, output, epsilon)) -print(output[1]) -print(output[2]) +dag:print()