sustaining_gazes/matlab_version/face_validation/WriteOutFaceCheckersCNNbinary.m

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Mathematica
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function WriteOutFaceCheckersCNNbinary(locationTxt, faceCheckers)
addpath('../PDM_helpers\');
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% use little-endian
faceCheckerFile = fopen(locationTxt, 'w', 'l');
views = numel(faceCheckers);
% Type 0 - linear SVR, 1 - feed forward neural net, 2 - CNN, 3 - new
% CNN
fwrite(faceCheckerFile, 3, 'uint'); % 4 bytes
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% Number of face checkers
fwrite(faceCheckerFile, views, 'uint'); % 4 bytes
% Matrices representing view orientations
for i=1:views
% this indicates that we're writing a 3x1 double matrix
writeMatrixBin(faceCheckerFile, faceCheckers(i).centres', 6);
end
for i = 1:views
% The normalisation models
% Mean of images
writeMatrixBin(faceCheckerFile, faceCheckers(i).mean_ex, 6);
% Standard deviation of images
writeMatrixBin(faceCheckerFile, faceCheckers(i).std_ex, 6);
cnn = faceCheckers(i).cnn;
num_depth_layers = size(cnn.layers,2);
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% Get the number of layers
fwrite(faceCheckerFile, num_depth_layers, 'uint'); % 4 bytes
% For disambiguation between FC and conv layers
res = vl_simplenn(cnn, single(faceCheckers(i).mask), [], []);
for layers=1:num_depth_layers
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% write layer type: 0 - convolutional, 1 - max pooling (2x2 stride 2), 2 -
% fully connected, 3 - relu, 4 - sigmoid
if(cnn.layers{layers}.type == 'conv')
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% First check if it is an FC layer (they are represented
% like that in matconvnet)
if(numel(res(layers).x) == numel(cnn.layers{layers}.weights{1}(:,:,:,1)))
% This is the fully connected layer
fwrite(faceCheckerFile, 2, 'uint'); % 4 bytes
% the bias term
writeMatrixBin(faceCheckerFile, cnn.layers{layers}.weights{2}(:), 5);
% the weights
% Convert the filters to a matrix
weights_c = cnn.layers{layers}.weights{1};
size_w = size(weights_c);
weights = zeros(size_w(1)*size_w(2)*size_w(3), size_w(4));
weights(:) = weights_c;
writeMatrixBin(faceCheckerFile, weights, 5);
else
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% write the type (convolutional)
fwrite(faceCheckerFile, 0, 'uint'); % 4 bytes
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num_in_map = size(cnn.layers{layers}.weights{1},3);
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% write the number of input maps
fwrite(faceCheckerFile, num_in_map, 'uint'); % 4 bytes
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num_out_kerns = size(cnn.layers{layers}.weights{1},4);
% write the number of kernels for each output map
fwrite(faceCheckerFile, num_out_kerns, 'uint'); % 4 bytes
% Write output map bias terms
for k2=1:num_out_kerns
fwrite(faceCheckerFile, cnn.layers{layers}.weights{2}(k2), 'float32'); % 4 bytes
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end
for k=1:num_in_map
for k2=1:num_out_kerns
% Write out the bias term
W = squeeze(cnn.layers{layers}.weights{1}(:,:,k,k2));
writeMatrixBin(faceCheckerFile, W, 5);
end
end
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end
elseif(cnn.layers{layers}.type == 'pool')
fwrite(faceCheckerFile, 1, 'uint'); % 4 bytes, indicate max pooling layer, no params, assume (2x2 stride 2)
elseif(cnn.layers{layers}.type == 'relu')
fwrite(faceCheckerFile, 3, 'uint'); % 4 bytes, indicate relu layer, no params
end
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end
% Piecewise affine warp
nPix = faceCheckers(i).nPix;
minX = faceCheckers(i).minX;
minY = faceCheckers(i).minY;
destination = reshape(faceCheckers(i).destination, numel(faceCheckers(i).destination), 1);
triangulation = faceCheckers(i).triangulation;
triX = faceCheckers(i).triX;
mask = faceCheckers(i).mask;
alphas = faceCheckers(i).alphas;
betas = faceCheckers(i).betas;
fwrite(faceCheckerFile, nPix, 'uint'); % 4 bytes
fwrite(faceCheckerFile, minX, 'float64'); % 8 bytes
fwrite(faceCheckerFile, minY, 'float64'); % 8 bytes
% Destination shape
writeMatrixBin(faceCheckerFile, destination, 6);
% Triangulation
writeMatrixBin(faceCheckerFile, triangulation, 4);
% Triangle map
writeMatrixBin(faceCheckerFile, triX, 4);
% Mask
writeMatrixBin(faceCheckerFile, mask, 4);
% Alphas
writeMatrixBin(faceCheckerFile, alphas, 6);
% Betas
writeMatrixBin(faceCheckerFile, betas, 6);
end
fclose(faceCheckerFile);
end