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demo_cub_txt2img.lua
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demo_cub_txt2img.lua
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require 'image'
require 'nn'
require 'nngraph'
require 'cunn'
require 'cudnn'
require 'cutorch'
require 'lfs'
require 'stn'
util = paths.dofile('util.lua')
torch.setdefaulttensortype('torch.FloatTensor')
local alphabet = "abcdefghijklmnopqrstuvwxyz0123456789-,;.!?:'\"/\\|_@#$%^&*~`+-=<>()[]{} "
local dict = {}
for i = 1,#alphabet do
dict[alphabet:sub(i,i)] = i
end
ivocab = {}
for k,v in pairs(dict) do
ivocab[v] = k
end
opt = {
name = '',
zero_kp = 0,
gen_kp = 1,
dataset = 'cub',
doc_length = 201,
prefix = 'move',
batchSize = 16, -- number of samples to produce
noisetype = 'normal', -- type of noise distribution (uniform / normal).
imsize = 1, -- used to produce larger images. 1 = 64px. 2 = 80px, 3 = 96px, ...
noisemode = 'random', -- random / line / linefull1d / linefull
gpu = 1, -- gpu mode. 0 = CPU, 1 = GPU
display = 0, -- Display image: 0 = false, 1 = true
nz = 100,
net_gen = '/home/reedscot/checkpoints/cub_part_stn_kd16_bs16_ngf128_ndf128_600_net_G.t7',
net_txt = '../multimodal/cv/lm_sje_nc4_cub_hybrid_gru18_a1_c512_0.00070_1_10_trainvalids.txt_iter30000.t7',
net_kp = '/home/reedscot/checkpoints/cub_kptxt2kp_large_bs64_ngf128_ndf128_200_net_G.t7',
loadSize = 150,
fineSize = 128,
txtSize = 1024,
txt = 'this is a bright red bird',
demo = 'kptxt2kp',
num_elt = 15,
keypoint_dim = 16,
data_root = '/mnt/brain3/datasets/txt2img/cub_ex_part',
img_dir = '/mnt/brain1/scratch/reedscot/nx/reedscot/data/gutenbirds/CUB_200_2011/images',
t7file = '',
}
dofile('data/donkey_folder_cub_keypoint.lua')
for k,v in pairs(opt) do opt[k] = tonumber(os.getenv(k)) or os.getenv(k) or opt[k] end
print(opt)
if opt.display == 0 then opt.display = false end
net_gen = torch.load(opt.net_gen)
net_txt = torch.load(opt.net_txt).protos.enc_doc
net_kp = torch.load(opt.net_kp)
net_gen:evaluate()
net_txt:evaluate()
net_kp:evaluate()
function decode(txt)
local str = ''
for w_ix = 1,txt:size(1) do
local ch_ix = txt[w_ix]
local ch = ivocab[ch_ix]
if (ch ~= nil) then
str = str .. ch
end
end
return str
end
local html = '<html><body><h1>Generated Images</h1><table border="1" style="width=100%"><tr><td>Caption</td><td>Image</td></tr>'
-- prepare noise
noise = torch.Tensor(opt.batchSize, opt.nz)
if opt.noisetype == 'uniform' then
noise:uniform(-1, 1)
elseif opt.noisetype == 'normal' then
noise:normal(0, 1)
end
noise = noise:cuda()
-- prepare text.
local query_str = string.lower(opt.txt)
local txt_mat = torch.zeros(1,opt.doc_length,#alphabet)
for i = 1,#query_str do
local ch = query_str:sub(i,i)
local on_ix = dict[ch]
if (on_ix ~= 0) and (on_ix ~= nil) then
txt_mat[{1, i, on_ix}] = 1
end
end
txt_mat = txt_mat:float():cuda()
local fea_txt = net_txt:forward(txt_mat)
fea_txt = torch.repeatTensor(fea_txt, opt.batchSize, 1)
local data_loc
local locs_raw
if opt.gen_kp == 1 then
-- prepare keypoints
local fea_loc_inp = torch.zeros(opt.batchSize, opt.num_elt, 3)
fea_loc_inp = fea_loc_inp:cuda()
locs = net_kp:forward{noise, fea_txt, fea_loc_inp}:clone()
fea_loc = locs:clone()
if opt.zero_kp == 1 then
fea_loc:fill(0)
end
data_loc = torch.zeros(opt.batchSize, opt.num_elt,
opt.keypoint_dim, opt.keypoint_dim)
for b = 1,opt.batchSize do
for s = 1,opt.num_elt do
local point = fea_loc[{b,s,{}}]
if point[3] > 0.5 then
local x = math.min(opt.keypoint_dim,
math.max(1,torch.round(point[1] * opt.keypoint_dim)))
local y = math.min(opt.keypoint_dim,
math.max(1,torch.round(point[2] * opt.keypoint_dim)))
data_loc[{b,s,y,x}] = 1
end
end
end
data_loc = data_loc:cuda()
else
-- load keypoints from file.
local info = torch.load(opt.data_root .. '/' .. opt.t7file)
local img_file = opt.img_dir .. '/' .. info.img
img, locs, _ = trainHook(img_file, info.parts:clone():double())
img:add(1):mul(0.5)
image.save('tmp_bird.png', img)
-- prepare keypoints
local fea_loc = torch.zeros(1, opt.num_elt, opt.keypoint_dim, opt.keypoint_dim)
for s = 1,opt.num_elt do
local point = locs[s]
if point[3] > 0.1 then
local x = math.min(opt.keypoint_dim,
math.max(1,torch.round(point[1] * opt.keypoint_dim)))
local y = math.min(opt.keypoint_dim,
math.max(1,torch.round(point[2] * opt.keypoint_dim)))
fea_loc[{1,s,y,x}] = 1
end
end
fea_loc = torch.repeatTensor(fea_loc, opt.batchSize, 1, 1, 1)
fea_loc = fea_loc:cuda()
data_loc = fea_loc
locs = locs:view(1,opt.num_elt,3)
locs = torch.repeatTensor(locs, opt.batchSize, 1, 1)
end
local images = net_gen:forward({ { noise, fea_txt }, data_loc }):clone()
images:add(1):mul(0.5)
locs_tmp = locs:clone()
locs_tmp:narrow(3,1,2):mul(opt.fineSize)
images = torch.repeatTensor(images, 2, 1, 1, 1)
for b = 1,opt.batchSize do
images[b] = util.draw_keypoints(images[b], locs_tmp[b])
end
--local visdir = 'results_cub_paper'
local visdir = 'results_cub_supp'
lfs.mkdir(visdir)
local fname = string.format('%s/cub_g%d_%s_%s', visdir, opt.gen_kp, opt.demo, opt.name)
local fname_png = fname .. '.png'
local fname_txt = fname .. '.txt'
image.save(fname_png, image.toDisplayTensor(images, 0, opt.batchSize))
html = html .. string.format('\n<tr><td>%s</td><td><img src=\"%s\"></td></tr>',
query_str, fname_png)
os.execute(string.format('echo "%s" > %s', opt.txt, fname_txt))
html = html .. '</html>'
fname_html = string.format('%s_%s_%s.html', opt.dataset, opt.demo, opt.name)
os.execute(string.format('echo "%s" > %s', html, fname_html))