224 lines
10 KiB
Mathematica
224 lines
10 KiB
Mathematica
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function [patches] = Load_Patch_Experts( col_patch_dir, col_patch_file, depth_patch_dir, depth_patch_file, clmParams)
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%LOAD_PATCH_EXPERTS Summary of this function goes here
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% Detailed explanation goes here
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colourPatchFiles = dir([col_patch_dir col_patch_file]);
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% load all of the pathes
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for i=1:numel(colourPatchFiles)
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load([col_patch_dir, colourPatchFiles(i).name]);
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% determine patch type (slightly hacky but SVR patch experts don't
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% CCNF ratio variable)
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if(isfield(normalisationOptions, 'ccnf_ratio'))
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patch = struct;
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patch.centers = centers;
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patch.trainingScale = trainingScale;
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patch.visibilities = visiIndex;
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patch.patch_experts = patch_experts.patch_experts;
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patch.correlations = patch_experts.correlations;
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patch.rms_errors = patch_experts.rms_errors;
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patch.modalities = patch_experts.types;
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patch.multi_modal_types = patch_experts.types;
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patch.type = 'CCNF';
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% Knowing what normalisation was performed during training is
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% important for fitting
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patch.normalisationOptionsCol = normalisationOptions;
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% As the similarity inverses will depend on the window size
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% and alphas and betas, but not actual data, precalculate
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% them here
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% create the similarity inverses
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window_sizes = unique(clmParams.window_size(:));
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for s=1:size(window_sizes,1)
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for view=1:size(patch.patch_experts,1)
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for lmk=1:size(patch.patch_experts,2)
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if(visiIndex(view, lmk))
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num_modalities = size(patch.patch_experts{view,lmk}.thetas,3);
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num_hls = size(patch.patch_experts{view,lmk}.thetas,1);
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patchSize = sqrt(size( patch.patch_experts{view,lmk}.thetas,2)-1);
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patchSize = [patchSize, patchSize];
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% normalisation so that patch expert can be
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% applied using convolution
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w = cell(num_hls, num_modalities);
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norm_w = cell(num_hls, num_modalities);
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for hl=1:num_hls
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for p=1:num_modalities
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w_c = patch.patch_experts{view,lmk}.thetas(hl, 2:end, p);
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norm_w_c = norm(w_c);
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w_c = w_c/norm(w_c);
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w_c = reshape(w_c, patchSize);
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w{hl,p} = w_c;
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norm_w{hl,p} = norm_w_c;
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end
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end
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patch.patch_experts{view,lmk}.w = w;
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patch.patch_experts{view,lmk}.norm_w = norm_w;
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similarities = {};
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response_side_length = window_sizes(s) - 11 + 1;
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for st=1:size(patch.patch_experts{view,lmk}.similarity_types, 1)
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type_sim = patch.patch_experts{view,lmk}.similarity_types{st};
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neighFn = @(x) similarity_neighbor_grid(x, response_side_length(1), type_sim);
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similarities = [similarities; {neighFn}];
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end
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sparsities = {};
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for st=1:size(patch.patch_experts{view,lmk}.sparsity_types, 1)
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spFn = @(x) sparsity_grid(x, response_side_length(1), patch.patch_experts{view,lmk}.sparsity_types(st,1), patch.patch_experts{view,lmk}.sparsity_types(st,2));
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sparsities = [sparsities; {spFn}];
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end
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region_length = response_side_length^2;
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[ ~, ~, PrecalcQ2sFlat, ~ ] = CalculateSimilarities_sparsity( 1, {zeros(region_length,1)}, similarities, sparsities);
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PrecalcQ2flat = PrecalcQ2sFlat{1};
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SigmaInv = CalcSigmaCCNFflat(patch.patch_experts{view,lmk}.alphas, patch.patch_experts{view,lmk}.betas, region_length, PrecalcQ2flat, eye(region_length), zeros(region_length));
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if(s == 1)
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patch.patch_experts{view,lmk}.Sigma = {inv(SigmaInv)};
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else
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patch.patch_experts{view,lmk}.Sigma = cat(1, patch.patch_experts{view,lmk}.Sigma, {inv(SigmaInv)});
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end
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end
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end
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end
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end
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if(i==1)
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patches = patch;
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else
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patches = [patches; patch];
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end
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else
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% creating the struct
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patch = struct;
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patch.centers = centers;
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patch.trainingScale = trainingScale;
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patch.visibilities = visiIndex;
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patch.type = 'SVR';
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% if the normalisation options present in the loaded patch use
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% them, if not we use default values
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if(exist('normalisationOptions', 'var'))
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patch.normalisationOptionsCol = normalisationOptions;
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else
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patch.normalisationOptionsCol = normalisationColour;
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end
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% default for depth uses normalised-cross-corr per each sample,
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% rather than in a broad area
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if(~isfield(patch.normalisationOptionsCol, 'useZeroMeanPerPatch'))
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patch.normalisationOptionsCol.zscore = 0;
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patch.normalisationOptionsCol.useNormalisedCrossCorr = 1;
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patch.normalisationOptionsCol.useZeroMeanPerPatch = 1;
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end
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% Multi-modal section
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patch.patch_experts = cell(size(visiIndex,1), size(visiIndex,2));
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for view=1:size(visiIndex,1)
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for landmark=1:size(visiIndex,2)
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patch.patch_experts{view, landmark} = struct;
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multi_modal_types = patch_experts.types;
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for p=1:numel(patch_experts.types)
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patch.patch_experts{view, landmark}(p).type = patch_experts.types(p);
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patch.patch_experts{view, landmark}(p).correlations = patch_experts.correlations(p);
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patch.patch_experts{view, landmark}(p).rms_errors = patch_experts.rms_errors(p);
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patch.patch_experts{view,landmark}(p).scaling = patch_experts.patch_experts{p}(view, landmark, 1);
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patch.patch_experts{view,landmark}(p).bias = patch_experts.patch_experts{p}(view, landmark, 2);
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patch.patch_experts{view,landmark}(p).w = reshape(patch_experts.patch_experts{p}(view, landmark, 3:end),11,11);
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end
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end
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end
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patch.multi_modal_types = multi_modal_types;
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if(i==1)
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patches = patch;
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else
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patches = [patches; patch];
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end
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end
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clear 'normalisationOptions, centers, trainingScale, visiIndex, correlations, rmsErrors';
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end
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if(~isempty(depth_patch_file))
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depthPatchFiles = dir([depth_patch_dir depth_patch_file]);
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% load all of the depth patches
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for i=1:numel(depthPatchFiles)
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load([depth_patch_dir, depthPatchFiles(i).name]);
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% assuming that same view seen in depth and intensity
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% if the normalisation options present in the loaded patch use
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% them, if not we use default values
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if(exist('normalisationOptions', 'var'))
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patches(i).normalisationOptionsDepth = normalisationOptions;
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else
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patches(i).normalisationOptionsDepth = normalisationDepth;
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end
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% Multi-modal section
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patches(i).patch_experts_depth = cell(size(visiIndex,1), size(visiIndex,2));
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for view=1:size(visiIndex,1)
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for landmark=1:size(visiIndex,2)
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patches(i).patch_experts_depth{view, landmark} = struct;
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if(exist('patch_m', 'var'))
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multi_modal_types = patch_m.types;
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for p=1:numel(patch_m.types)
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patches(i).patch_experts_depth{view, landmark}(p).type = patch_m.types(p);
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patches(i).patch_experts_depth{view, landmark}(p).correlations = patch_m.correlations(p);
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patches(i).patch_experts_depth{view, landmark}(p).rms_errors = patch_m.rms_errors(p);
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patches(i).patch_experts_depth{view,landmark}(p).scaling = patch_m.patch_experts{p}(view, landmark, 1);
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patches(i).patch_experts_depth{view,landmark}(p).bias = patch_m.patch_experts{p}(view, landmark, 2);
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patches(i).patch_experts_depth{view,landmark}(p).w = reshape(patch_m.patch_experts{p}(view, landmark, 3:end),11,11);
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end
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else
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multi_modal_types = {'reg'};
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% for backward compatibility
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patches(i).patch_experts_depth{view, landmark}(1).type = {'reg'};
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patches(i).patch_experts_depth{view, landmark}(1).correlations = correlations;
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patches(i).patch_experts_depth{view, landmark}(1).rms_errors = rmsErrors;
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patches(i).patch_experts_depth{view,landmark}(1).scaling = patchExperts(view, landmark, 1);
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patches(i).patch_experts_depth{view,landmark}(1).bias = patchExperts(view, landmark, 2);
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patches(i).patch_experts_depth{view,landmark}(1).w = reshape(patchExperts(view, landmark, 3:end), 11,11);
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end
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end
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end
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clear 'normalisationOptions, centers, trainingScale, visiIndex, correlations, rmsErrors';
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end
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end
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end
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