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- require 'image'
- local iproc = require 'iproc'
- local function reconstruct_y(model, x, offset, block_size)
- if x:dim() == 2 then
- x = x:reshape(1, x:size(1), x:size(2))
- end
- local new_x = torch.Tensor():resizeAs(x):zero()
- local output_size = block_size - offset * 2
- local input = torch.CudaTensor(1, 1, block_size, block_size)
-
- for i = 1, x:size(2), output_size do
- for j = 1, x:size(3), output_size do
- if i + block_size - 1 <= x:size(2) and j + block_size - 1 <= x:size(3) then
- local index = {{},
- {i, i + block_size - 1},
- {j, j + block_size - 1}}
- input:copy(x[index])
- local output = model:forward(input):float():view(1, output_size, output_size)
- local output_index = {{},
- {i + offset, offset + i + output_size - 1},
- {offset + j, offset + j + output_size - 1}}
- new_x[output_index]:copy(output)
- end
- end
- end
- return new_x
- end
- local function reconstruct_rgb(model, x, offset, block_size)
- local new_x = torch.Tensor():resizeAs(x):zero()
- local output_size = block_size - offset * 2
- local input = torch.CudaTensor(1, 3, block_size, block_size)
-
- for i = 1, x:size(2), output_size do
- for j = 1, x:size(3), output_size do
- if i + block_size - 1 <= x:size(2) and j + block_size - 1 <= x:size(3) then
- local index = {{},
- {i, i + block_size - 1},
- {j, j + block_size - 1}}
- input:copy(x[index])
- local output = model:forward(input):float():view(3, output_size, output_size)
- local output_index = {{},
- {i + offset, offset + i + output_size - 1},
- {offset + j, offset + j + output_size - 1}}
- new_x[output_index]:copy(output)
- end
- end
- end
- return new_x
- end
- local reconstruct = {}
- function reconstruct.is_rgb(model)
- if model:get(model:size() - 1).weight:size(1) == 3 then
- -- 3ch RGB
- return true
- else
- -- 1ch Y
- return false
- end
- end
- function reconstruct.offset_size(model)
- local conv = model:findModules("nn.SpatialConvolutionMM")
- if #conv > 0 then
- local offset = 0
- for i = 1, #conv do
- offset = offset + (conv[i].kW - 1) / 2
- end
- return math.floor(offset)
- else
- conv = model:findModules("cudnn.SpatialConvolution")
- local offset = 0
- for i = 1, #conv do
- offset = offset + (conv[i].kW - 1) / 2
- end
- return math.floor(offset)
- end
- end
- function reconstruct.image_y(model, x, offset, block_size)
- block_size = block_size or 128
- local output_size = block_size - offset * 2
- local h_blocks = math.floor(x:size(2) / output_size) +
- ((x:size(2) % output_size == 0 and 0) or 1)
- local w_blocks = math.floor(x:size(3) / output_size) +
- ((x:size(3) % output_size == 0 and 0) or 1)
-
- local h = offset + h_blocks * output_size + offset
- local w = offset + w_blocks * output_size + offset
- local pad_h1 = offset
- local pad_w1 = offset
- local pad_h2 = (h - offset) - x:size(2)
- local pad_w2 = (w - offset) - x:size(3)
- local yuv = image.rgb2yuv(iproc.padding(x, pad_w1, pad_w2, pad_h1, pad_h2))
- local y = reconstruct_y(model, yuv[1], offset, block_size)
- y[torch.lt(y, 0)] = 0
- y[torch.gt(y, 1)] = 1
- yuv[1]:copy(y)
- local output = image.yuv2rgb(image.crop(yuv,
- pad_w1, pad_h1,
- yuv:size(3) - pad_w2, yuv:size(2) - pad_h2))
- output[torch.lt(output, 0)] = 0
- output[torch.gt(output, 1)] = 1
- collectgarbage()
-
- return output
- end
- function reconstruct.scale_y(model, scale, x, offset, block_size)
- block_size = block_size or 128
- local x_jinc = iproc.scale(x, x:size(3) * scale, x:size(2) * scale, "Jinc")
- x = iproc.scale(x, x:size(3) * scale, x:size(2) * scale, "Box")
- local output_size = block_size - offset * 2
- local h_blocks = math.floor(x:size(2) / output_size) +
- ((x:size(2) % output_size == 0 and 0) or 1)
- local w_blocks = math.floor(x:size(3) / output_size) +
- ((x:size(3) % output_size == 0 and 0) or 1)
-
- local h = offset + h_blocks * output_size + offset
- local w = offset + w_blocks * output_size + offset
- local pad_h1 = offset
- local pad_w1 = offset
- local pad_h2 = (h - offset) - x:size(2)
- local pad_w2 = (w - offset) - x:size(3)
- local yuv_nn = image.rgb2yuv(iproc.padding(x, pad_w1, pad_w2, pad_h1, pad_h2))
- local yuv_jinc = image.rgb2yuv(iproc.padding(x_jinc, pad_w1, pad_w2, pad_h1, pad_h2))
- local y = reconstruct_y(model, yuv_nn[1], offset, block_size)
- y[torch.lt(y, 0)] = 0
- y[torch.gt(y, 1)] = 1
- yuv_jinc[1]:copy(y)
- local output = image.yuv2rgb(image.crop(yuv_jinc,
- pad_w1, pad_h1,
- yuv_jinc:size(3) - pad_w2, yuv_jinc:size(2) - pad_h2))
- output[torch.lt(output, 0)] = 0
- output[torch.gt(output, 1)] = 1
- collectgarbage()
-
- return output
- end
- function reconstruct.image_rgb(model, x, offset, block_size)
- block_size = block_size or 128
- local output_size = block_size - offset * 2
- local h_blocks = math.floor(x:size(2) / output_size) +
- ((x:size(2) % output_size == 0 and 0) or 1)
- local w_blocks = math.floor(x:size(3) / output_size) +
- ((x:size(3) % output_size == 0 and 0) or 1)
-
- local h = offset + h_blocks * output_size + offset
- local w = offset + w_blocks * output_size + offset
- local pad_h1 = offset
- local pad_w1 = offset
- local pad_h2 = (h - offset) - x:size(2)
- local pad_w2 = (w - offset) - x:size(3)
- local input = iproc.padding(x, pad_w1, pad_w2, pad_h1, pad_h2)
- local y = reconstruct_rgb(model, input, offset, block_size)
- local output = image.crop(y,
- pad_w1, pad_h1,
- y:size(3) - pad_w2, y:size(2) - pad_h2)
- collectgarbage()
- output[torch.lt(output, 0)] = 0
- output[torch.gt(output, 1)] = 1
-
- return output
- end
- function reconstruct.scale_rgb(model, scale, x, offset, block_size)
- block_size = block_size or 128
- x = iproc.scale(x, x:size(3) * scale, x:size(2) * scale, "Box")
- local output_size = block_size - offset * 2
- local h_blocks = math.floor(x:size(2) / output_size) +
- ((x:size(2) % output_size == 0 and 0) or 1)
- local w_blocks = math.floor(x:size(3) / output_size) +
- ((x:size(3) % output_size == 0 and 0) or 1)
-
- local h = offset + h_blocks * output_size + offset
- local w = offset + w_blocks * output_size + offset
- local pad_h1 = offset
- local pad_w1 = offset
- local pad_h2 = (h - offset) - x:size(2)
- local pad_w2 = (w - offset) - x:size(3)
- local input = iproc.padding(x, pad_w1, pad_w2, pad_h1, pad_h2)
- local y = reconstruct_rgb(model, input, offset, block_size)
- local output = image.crop(y,
- pad_w1, pad_h1,
- y:size(3) - pad_w2, y:size(2) - pad_h2)
- output[torch.lt(output, 0)] = 0
- output[torch.gt(output, 1)] = 1
- collectgarbage()
-
- return output
- end
- function reconstruct.image(model, x, block_size)
- if reconstruct.is_rgb(model) then
- return reconstruct.image_rgb(model, x,
- reconstruct.offset_size(model), block_size)
- else
- return reconstruct.image_y(model, x,
- reconstruct.offset_size(model), block_size)
- end
- end
- function reconstruct.scale(model, scale, x, block_size)
- if reconstruct.is_rgb(model) then
- return reconstruct.scale_rgb(model, scale, x,
- reconstruct.offset_size(model), block_size)
- else
- return reconstruct.scale_y(model, scale, x,
- reconstruct.offset_size(model), block_size)
- end
- end
- return reconstruct
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