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train.lua
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train.lua
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require 'torch'
require 'nn'
require 'image'
require 'optim'
require 'cudnn'
require 'src/utils'
require 'src/descriptor_net'
require 'src/preprocess_criterion'
local DataLoader = require 'dataloader'
use_display, display = pcall(require, 'display')
if not use_display then
print('torch.display not found. unable to plot')
end
function nn.MultiCriterion:replace(f)
for i=1,#self.criterions do
self.criterions[i] = self.criterions[i]:replace(f)
end
return self
end
function printCriterion(criterion)
if (type(criterion) == 'nn.MultiCriterion') then
for i=1,#self.criterions do
printCriterion(self.criterions[i])
end
elseif (type(criterion) == 'nn.PreprocessCriterion') then
print(criterion.preprocessing)
print(criterion.criterion)
else
print(criterion)
end
end
----------------------------------------------------------
-- Parameters
----------------------------------------------------------
local cmd = torch.CmdLine()
cmd:option('-content_layers', 'relu4_2', 'Layer to attach content loss.')
cmd:option('-style_layers', 'relu1_1,relu2_1,relu3_1,relu4_1', 'Layer to attach style loss.')
cmd:option('-learning_rate', 1e-3)
cmd:option('-num_iterations', 50000, 'Number of steps to perform.')
cmd:option('-save_every', 1000, 'Save model every N iterations.')
cmd:option('-batch_size', 1)
cmd:option('-image_size', 256, 'Training images size')
cmd:option('-content_weight', 1)
cmd:option('-style_weight', 1)
cmd:option('-tv_weight', 0, 'Total variation weight.')
cmd:option('-style_image', '', 'Path to style image')
cmd:option('-style_size', 256, 'Resize style image to this size, no resize if 0.')
cmd:option('-mode', 'style', 'style|texture')
cmd:option('-checkpoints_path', 'data/checkpoints/', 'Directory to store intermediate results.')
cmd:option('-model', 'pyramid', 'Path to generator model description file.')
cmd:option('-vgg_no_pad', 'false')
cmd:option('-normalization', 'instance', 'batch|instance')
cmd:option('-proto_file', 'data/pretrained/VGG_ILSVRC_19_layers_deploy.prototxt', 'Pretrained')
cmd:option('-model_file', 'data/pretrained/VGG_ILSVRC_19_layers.caffemodel')
cmd:option('-backend', 'cudnn', 'nn|cudnn')
-- Dataloader
cmd:option('-dataset', 'style')
cmd:option('-data', '', 'Path to dataset. Structure like in fb.resnet.torch repo.')
cmd:option('-manualSeed', 0)
cmd:option('-nThreads', 4, 'Data loading threads.')
cmd:option('-cpu', false, 'use this flag to run on CPU')
cmd:option('-gpu', 0, 'specify which GPU to use')
cmd:option('-display_port', 8000, 'specify port to show graphs')
cmd:option('-pyramid_loss', 1, 'number of pyramidal downscales in the loss function')
cmd:option('-pyramid_decay', 0.9, 'weight decay of pyramidal downscales in the loss function')
params = cmd:parse(arg)
if params.cpu then
dtype = 'torch.FloatTensor'
params.backend = 'nn'
backend = nn
else
dtype = 'torch.CudaTensor'
require 'cutorch'
require 'cunn'
cutorch.setDevice(params.gpu)
torch.CudaTensor.add_dummy = torch.FloatTensor.add_dummy
if params.backend == 'cudnn' then
cudnn.fastest = true
cudnn.benchmark = true
backend = cudnn
else
backend = nn
end
end
assert(params.mode == 'style', 'Only stylization is implemented in master branch. You can find texture generation in texture_nets_v1 branch.')
if use_display then
display.configure({port=params.display_port})
end
params.normalize_gradients = params.normalize_gradients ~= 'false'
params.vgg_no_pad = params.vgg_no_pad ~= 'false'
params.circular_padding = params.circular_padding ~= 'false'
-- For compatibility with Justin Johnsons code
params.texture_weight = params.style_weight
params.texture_layers = params.style_layers
params.texture = params.style_image
if params.normalization == 'instance' then
require 'InstanceNormalization'
normalization = nn.InstanceNormalization
elseif params.normalization == 'batch' then
normalization = nn.SpatialBatchNormalization
end
if params.mode == 'texture' then
params.content_layers = ''
pad = nn.SpatialCircularPadding
-- Use circular padding
conv = convc
else
pad = nn.SpatialReplicationPadding
end
trainLoader, valLoader = DataLoader.create(params)
-- load network
local cnn = loadcaffe.load(params.proto_file, params.model_file, 'nn')
cnn = cudnn.convert(cnn, nn):float()
-- load texture
local texture_image = image.load(params.texture, 3)
if params.style_size > 0 then
texture_image = image.scale(texture_image, params.style_size, 'bicubic')
end
texture_image = texture_image:float()
local texture_image = preprocess(texture_image)
-- Define model
local net = require('models/' .. params.model):type(dtype)
local criterion = nil
if params.pyramid_loss > 1 then
criterion = nn.MultiCriterion()
local w = 1.0
local s = 1.0
criterion:add(nn.ArtisticCriterion(params, cnn:clone(), texture_image:clone()), w)
for i = 2,params.pyramid_loss do
w = w * params.pyramid_decay
s = s * 2
local local_texture_image = image.scale(texture_image, texture_image:size(3)/s, texture_image:size(2)/s, 'bicubic'):float()
criterion:add(nn.PreprocessCriterion(nn.ArtisticCriterion(params, cnn:clone(), local_texture_image:clone()), nn.SpatialAveragePooling(s, s, s, s)), w)
end
else
criterion = nn.ArtisticCriterion(params, cnn, texture_image)
end
if not params.cpu then
criterion = cudnn.convert(criterion, cudnn):cuda()
printCriterion(criterion)
--criterion:cuda():type(dtype)
end
----------------------------------------------------------
-- feval
----------------------------------------------------------
local iteration = 0
local parameters, gradParameters = net:getParameters()
local loss_history = {}
function feval(x)
iteration = iteration + 1
if x ~= parameters then
parameters:copy(x)
end
gradParameters:zero()
local loss = 0
-- Get batch
local images = trainLoader:get()
target_for_display = images.target
local images_target = preprocess_many(images.target):type(dtype)
local images_input = images.input:type(dtype)
-- Forward
local out = net:forward(images_input)
loss = loss + criterion:forward(out, images_target)
-- Backward
local grad = criterion:backward(out, images_target)
net:backward(images_input, grad)
loss = loss/params.batch_size
table.insert(loss_history, {iteration,loss})
print('#it: ', iteration, 'loss: ', loss)
return loss, gradParameters
end
----------------------------------------------------------
-- Optimize
----------------------------------------------------------
print(' Optimize ')
style_weight_cur = params.style_weight
content_weight_cur = params.content_weight
local optim_method = optim.adam
local state = {
learningRate = params.learning_rate,
}
for it = 1, params.num_iterations do
-- Optimization step
optim_method(feval, parameters, state)
-- Visualize
if it%50 == 0 then
collectgarbage()
local output = net.output:double()
local imgs = {}
for i = 1, output:size(1) do
local img = deprocess(output[i])
table.insert(imgs, torch.clamp(img,0,1))
end
if use_display then
display.image(target_for_display, {win=1, width=512,title = 'Target'})
display.image(imgs, {win=0, width=512})
display.plot(loss_history, {win=2, labels={'iteration', 'Loss'}})
end
end
if it%2000 == 0 then
state.learningRate = state.learningRate*0.8
end
-- Dump net
if it%params.save_every == 0 or it == params.num_iterations then
net:clearState()
local net_to_save = deepCopy(net):float():clearState()
if params.backend == 'cudnn' then
net_to_save = cudnn.convert(net_to_save, nn)
end
torch.save(paths.concat(params.checkpoints_path, 'model_' .. it .. '.t7'), net_to_save)
end
end