require 'image' local gm = require 'graphicsmagick' local iproc = require 'iproc' local data_augmentation = require 'data_augmentation' local pairwise_transform = {} local function random_half(src, p) if torch.uniform() < p then local filter = ({"Box","Box","Blackman","Sinc","Lanczos", "Catrom"})[torch.random(1, 6)] return iproc.scale(src, src:size(3) * 0.5, src:size(2) * 0.5, filter) else return src end end local function crop_if_large(src, max_size) local tries = 4 if src:size(2) > max_size and src:size(3) > max_size then local rect for i = 1, tries do local yi = torch.random(0, src:size(2) - max_size) local xi = torch.random(0, src:size(3) - max_size) rect = iproc.crop(src, xi, yi, xi + max_size, yi + max_size) -- ignore simple background if rect:float():std() >= 0 then break end end return rect else return src end end local function preprocess(src, crop_size, options) local dest = src dest = random_half(dest, options.random_half_rate) dest = crop_if_large(dest, math.max(crop_size * 2, options.max_size)) dest = data_augmentation.flip(dest) dest = data_augmentation.color_noise(dest, options.random_color_noise_rate) dest = data_augmentation.overlay(dest, options.random_overlay_rate) dest = data_augmentation.unsharp_mask(dest, options.random_unsharp_mask_rate) dest = data_augmentation.shift_1px(dest) return dest end local function active_cropping(x, y, size, p, tries) assert("x:size == y:size", x:size(2) == y:size(2) and x:size(3) == y:size(3)) local r = torch.uniform() if p < r then local xi = torch.random(0, y:size(3) - (size + 1)) local yi = torch.random(0, y:size(2) - (size + 1)) local xc = iproc.crop(x, xi, yi, xi + size, yi + size) local yc = iproc.crop(y, xi, yi, xi + size, yi + size) return xc, yc else local best_se = 0.0 local best_xc, best_yc local m = torch.FloatTensor(x:size(1), size, size) for i = 1, tries do local xi = torch.random(0, y:size(3) - (size + 1)) local yi = torch.random(0, y:size(2) - (size + 1)) local xc = iproc.crop(x, xi, yi, xi + size, yi + size) local yc = iproc.crop(y, xi, yi, xi + size, yi + size) local xcf = iproc.byte2float(xc) local ycf = iproc.byte2float(yc) local se = m:copy(xcf):add(-1.0, ycf):pow(2):sum() if se >= best_se then best_xc = xcf best_yc = ycf best_se = se end end return best_xc, best_yc end end function pairwise_transform.scale(src, scale, size, offset, n, options) local filters; if options.style == "photo" then filters = { "Box", "lanczos", "Catrom" } else filters = { "Box","Box", -- 0.012756949974688 "Blackman", -- 0.013191924552285 --"Catrom", -- 0.013753536746706 --"Hanning", -- 0.013761314529647 --"Hermite", -- 0.013850225205266 "Sinc", -- 0.014095824314306 "Lanczos", -- 0.014244299255442 } end local unstable_region_offset = 8 local downscale_filter = filters[torch.random(1, #filters)] local y = preprocess(src, size, options) assert(y:size(2) % 4 == 0 and y:size(3) % 4 == 0) local down_scale = 1.0 / scale local x = iproc.scale(iproc.scale(y, y:size(3) * down_scale, y:size(2) * down_scale, downscale_filter), y:size(3), y:size(2)) x = iproc.crop(x, unstable_region_offset, unstable_region_offset, x:size(3) - unstable_region_offset, x:size(2) - unstable_region_offset) y = iproc.crop(y, unstable_region_offset, unstable_region_offset, y:size(3) - unstable_region_offset, y:size(2) - unstable_region_offset) assert(x:size(2) % 4 == 0 and x:size(3) % 4 == 0) assert(x:size(1) == y:size(1) and x:size(2) == y:size(2) and x:size(3) == y:size(3)) local batch = {} for i = 1, n do local xc, yc = active_cropping(x, y, size, options.active_cropping_rate, options.active_cropping_tries) xc = iproc.byte2float(xc) yc = iproc.byte2float(yc) if options.rgb then else yc = image.rgb2yuv(yc)[1]:reshape(1, yc:size(2), yc:size(3)) xc = image.rgb2yuv(xc)[1]:reshape(1, xc:size(2), xc:size(3)) end table.insert(batch, {xc, iproc.crop(yc, offset, offset, size - offset, size - offset)}) end return batch end function pairwise_transform.jpeg_(src, quality, size, offset, n, options) local unstable_region_offset = 8 local y = preprocess(src, size, options) local x = y for i = 1, #quality do x = gm.Image(x, "RGB", "DHW") x:format("jpeg"):depth(8) if torch.uniform() < options.jpeg_chroma_subsampling_rate then -- YUV 420 x:samplingFactors({2.0, 1.0, 1.0}) else -- YUV 444 x:samplingFactors({1.0, 1.0, 1.0}) end local blob, len = x:toBlob(quality[i]) x:fromBlob(blob, len) x = x:toTensor("byte", "RGB", "DHW") end x = iproc.crop(x, unstable_region_offset, unstable_region_offset, x:size(3) - unstable_region_offset, x:size(2) - unstable_region_offset) y = iproc.crop(y, unstable_region_offset, unstable_region_offset, y:size(3) - unstable_region_offset, y:size(2) - unstable_region_offset) assert(x:size(2) % 4 == 0 and x:size(3) % 4 == 0) assert(x:size(1) == y:size(1) and x:size(2) == y:size(2) and x:size(3) == y:size(3)) local batch = {} for i = 1, n do local xc, yc = active_cropping(x, y, size, options.active_cropping_rate, options.active_cropping_tries) xc = iproc.byte2float(xc) yc = iproc.byte2float(yc) if options.rgb then else yc = image.rgb2yuv(yc)[1]:reshape(1, yc:size(2), yc:size(3)) xc = image.rgb2yuv(xc)[1]:reshape(1, xc:size(2), xc:size(3)) end if torch.uniform() < options.nr_rate then -- reducing noise table.insert(batch, {xc, iproc.crop(yc, offset, offset, size - offset, size - offset)}) else -- ratain useful details table.insert(batch, {yc, iproc.crop(yc, offset, offset, size - offset, size - offset)}) end end return batch end function pairwise_transform.jpeg(src, style, level, size, offset, n, options) if style == "art" then if level == 1 then return pairwise_transform.jpeg_(src, {torch.random(65, 85)}, size, offset, n, options) elseif level == 2 then local r = torch.uniform() if r > 0.6 then return pairwise_transform.jpeg_(src, {torch.random(27, 70)}, size, offset, n, options) elseif r > 0.3 then local quality1 = torch.random(37, 70) local quality2 = quality1 - torch.random(5, 10) return pairwise_transform.jpeg_(src, {quality1, quality2}, size, offset, n, options) else local quality1 = torch.random(52, 70) local quality2 = quality1 - torch.random(5, 15) local quality3 = quality1 - torch.random(15, 25) return pairwise_transform.jpeg_(src, {quality1, quality2, quality3}, size, offset, n, options) end else error("unknown noise level: " .. level) end elseif style == "photo" then if level == 1 then return pairwise_transform.jpeg_(src, {torch.random(70, 90)}, size, offset, n, options) elseif level == 2 then return pairwise_transform.jpeg_(src, {torch.random(50, 70)}, size, offset, n, options) else error("unknown noise level: " .. level) end else error("unknown style: " .. style) end end function pairwise_transform.test_jpeg(src) torch.setdefaulttensortype("torch.FloatTensor") local options = {random_color_noise_rate = 0.5, random_half_rate = 0.5, random_overlay_rate = 0.5, random_unsharp_mask_rate = 0.5, jpeg_chroma_subsampling_rate = 0.5, nr_rate = 1.0, active_cropping_rate = 0.5, active_cropping_tries = 10, max_size = 256, rgb = true } local image = require 'image' local src = image.lena() for i = 1, 9 do local xy = pairwise_transform.jpeg(src, "art", torch.random(1, 2), 128, 7, 1, options) image.display({image = xy[1][1], legend = "y:" .. (i * 10), min=0, max=1}) image.display({image = xy[1][2], legend = "x:" .. (i * 10), min=0, max=1}) end end function pairwise_transform.test_scale(src) torch.setdefaulttensortype("torch.FloatTensor") local options = {random_color_noise_rate = 0.5, random_half_rate = 0.5, random_overlay_rate = 0.5, random_unsharp_mask_rate = 0.5, active_cropping_rate = 0.5, active_cropping_tries = 10, max_size = 256, rgb = true } local image = require 'image' local src = image.lena() for i = 1, 10 do local xy = pairwise_transform.scale(src, 2.0, 128, 7, 1, options) image.display({image = xy[1][1], legend = "y:" .. (i * 10), min = 0, max = 1}) image.display({image = xy[1][2], legend = "x:" .. (i * 10), min = 0, max = 1}) end end return pairwise_transform