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- function [ data, attData, missing_nodes_mapping ] = RemoveRandomNodesWithImages( data, attData, totalAttNum, num_missing_nodes, missing_nodes_mapping, numImagesProfiles, non_neighbors_distance, missingNodesInput )
- %RemoveRandomNodes Remove num_missing_nodes from data. If some nodes are
- %removed already, provide missing_nodes_mapping
- % Detailed explanation goes here
-
- if nargin < 7
- non_neighbors_distance = 0;
- end
- if nargin >= 8 % i.e. getting missingNodesInput
- missing_nodes = missingNodesInput;
- else
- %%data_orig = data;
- numAttPerPH = 0;
-
- % if the mapping is larger than the number of nodes we want to remove, empty
- % it and start a new mapping. This can happen if we finished looping over
- % the number of missing nodes and started a new iteration of an outer loop.
- if size(missing_nodes_mapping,2) > num_missing_nodes
- missing_nodes_mapping = [];
- num_nodes_to_remove = num_missing_nodes;
- else
- num_nodes_to_remove = num_missing_nodes - size(missing_nodes_mapping,2);
- end
-
- % randomly choose missing nodes
- %missing_nodes = ChooseMissingNodes_old(num_nodes_to_remove, data, missing_nodes_mapping, non_neighbors_distance);
- missing_nodes = ChooseMissingNodes(num_nodes_to_remove, data, attData, totalAttNum, numAttPerPH, missing_nodes_mapping, numImagesProfiles);
-
- %sort the list and create a list of the new nodes that each missing node is mapped to - each link
- %to a missing node is replaced by a link to a new, "UNK" node
-
- %Sigal 23.1.14 - missing_nodes is now matrix with two rows:
- % first the removed node and second the selected profile)
- % no need to call unique as validation is already done in ChooseMissingNodes
- %missing_nodes = sort( unique(missing_nodes), 'descend');
- %missing_nodes = sort( missing_nodes , 2, 'descend');
- missing_nodes_mapping = missing_nodes;
- missing_nodes_list = sort(missing_nodes(1,:),'descend');
-
- %replace each link to a missing node with a link to a new node
- %find all missing node neighbors
- missing_nodes_all_neighbors = zeros(1, size(data,2));
- for curr_nissing_node = missing_nodes_list
- missing_nodes_all_neighbors = missing_nodes_all_neighbors | data(curr_nissing_node,:);
- end
- missing_nodes_all_neighbors = find(missing_nodes_all_neighbors);
- %for each node in missing_nodes_all_neighbors add edges to placeholder
- for i = missing_nodes_all_neighbors
- neighbors = find(data(i,:));
- missing_neighbors = intersect(neighbors, missing_nodes_list);
- missing_neighbors = sort(missing_neighbors, 'descend');
- for curr_missing_neighbor = missing_neighbors
- if data(i,curr_missing_neighbor) == 1
- % append col & row for the placeholder
- data = ExpandDataByOne(data, i, non_neighbors_distance);
- % sigal 31.1.14 - support remove without attributes
- if totalAttNum > 0
- attData = ExpandAttByOne(attData, curr_missing_neighbor, non_neighbors_distance, totalAttNum, numAttPerPH);
- end
- %add the new UNK node to the missing nodes mapping j is the index of the missing node
- %look for the first zero in column j of the missing nodes mapping and put the new node
- %index there
- added_node = 0;
- %add it in the first position which equals zero
- %sigal 23.1.14 - find index according to actual structure (not sorted)
- j = find( missing_nodes_mapping(1,:) == curr_missing_neighbor, 1);
- for k = 1 : size(missing_nodes_mapping,1)
- if missing_nodes_mapping(k, j) == 0
- %if we start with 1000 nodes, and we have 5 missing nodes, after
- %adding one node at this point, the size of the graph is 1001. 5 nodes
- %will be removed so the correct index of the new node will be 1001 - 5 = 996.
- %The next one is 997 and so on.
- missing_nodes_mapping(k, j) = size(data,1) - num_missing_nodes;
- added_node = 1;
- break;
- end
- end
- %if all the column is non-zero, add a new row and put it there
- if added_node == 0
- missing_nodes_mapping = [missing_nodes_mapping; zeros(1, size(missing_nodes_mapping,2))];
- missing_nodes_mapping(size(missing_nodes_mapping,1), j) = size(data,1) - num_missing_nodes;
- end
- end %if friend
- end %missing_neighbors
- end %missing_nodes_all_neighbors
- end % if getting missingNodesInput
-
-
- %remove the missing nodes from the matrix (missing nodes MUST be sorted in descending order!!
- %so that removing one does not affect the index of the others)
- for j = 1:size(missing_nodes_list,2)
- missing_node_idx = missing_nodes_list(j);
- %remove column
- data(:, missing_node_idx) = [];
- %remove row
- data(missing_node_idx, :) = [];
- % sigal 31.1.14 - support remove without attributes
- if totalAttNum > 0
- attData(missing_node_idx, :) = [];
- end
- end
-
- end %function RemoveRandomNodes3
-
- %sigal - move old implementation to function
- function [missing_nodes] = ChooseMissingNodes(num_nodes_to_remove, data, attData, totalAttNum, numAttPerPH, missing_nodes_mapping, numImagesProfiles)
- missing_nodes_all_neighbors = zeros(1, size(data,2));
-
- %randomize a list of nodes to remove and sort it
- if size(missing_nodes_mapping,1)> 0
- %Sigal 23.1.14 - second row is the profile mapping
- missing_nodes = missing_nodes_mapping(1:2,:); %%sort(missing_nodes_mapping(1,:) , 2, 'descend');
- %find all missing node neighbors
- for curr_missing_node = missing_nodes(1,:) % first row is the removed nodes
- missing_nodes_all_neighbors = missing_nodes_all_neighbors | data(curr_missing_node,:);
- missing_nodes_all_neighbors(1,curr_missing_node)=1;
- end
- else
- missing_nodes = [];
- end
-
- % outlier1 - nodes with only one edge
- numEdges = sum(data,1);
- invalidNodes1a = (numEdges==1); %%numEdges<3); %%(numEdges==1);
- missing_nodes_all_neighbors(1,invalidNodes1a) = 1;
- %invalidNodes1b = (numEdges>7); %% 6.13 (mem issues) use 7
- %invalidNodes1b = (numEdges>15); %%25); %%(numEdges==1); %% sigal - 6.2.13 max=15 (sarit)
- invalidNodes1b = (numEdges>8); %%15); %% sigal/sarit - 9.12.13 max=8
- missing_nodes_all_neighbors(1,invalidNodes1b) = 1;
- % outlier2 - nodes with less than numAttPerPH attributes
- % sigal 31.1.14 - support remove without attributes
- if totalAttNum > 0 && numAttPerPH > 0
- numAttr = sum(attData,2)';
- invalidNodes2 = (numAttr<numAttPerPH);
- missing_nodes_all_neighbors(1,invalidNodes2) = 1;
- else
- invalidNodes2 = zeros(1,size(invalidNodes1a,2));
- end
- % outlier statistics
- count = nnz(invalidNodes1a|invalidNodes1b|invalidNodes2);
- if count*1.5 > size(data,2)
- fprintf('RemoveRandomNodes2: too many outliers nodes %d.\n',count);
- end
-
- %sigal - 23.1.14 - choose image profile
- imagesProfiles = 1:1:numImagesProfiles;
- if size(missing_nodes,1)> 0
- usedProfiles = missing_nodes(2,:);
- imagesProfiles(usedProfiles)=[];
- end
-
- for i=1:num_nodes_to_remove
- valid_nodes = find(missing_nodes_all_neighbors~=1);
- inx = ceil(rand(1)*size(valid_nodes,2));
- node = valid_nodes(inx);
- %sigal - 23.1.14 - choose image profile
- profile = ceil(rand(1)*size(imagesProfiles,2));
- newNode = [node;imagesProfiles(profile)];
- imagesProfiles(profile) = [];
- % add selected node to missing_nodes list and update the all neighbors list
- missing_nodes = [missing_nodes newNode];
- missing_nodes_all_neighbors(1,node)=1;
- missing_nodes_all_neighbors = missing_nodes_all_neighbors | data(node,:);
- end
-
- end %ChooseMissingNodes
-
-
- % sigal - append col & row for the placeholder
- function [data] = ExpandDataByOne(data, friend, non_neighbors_distance)
- new_col = ones(size(data, 1), 1) * non_neighbors_distance;
- new_col(friend) = 1;
- data = [data new_col];
- new_row = ones(1,size(data, 2)) * non_neighbors_distance;
- new_row(friend) = 1;
- data = [data; new_row];
- data(size(data, 1), size(data,2)) = 0;
- end %ExpandDataByOne
-
- % sigal - append row for the placeholder
- function [attData] = ExpandAttByOne(attData, orgNode, non_neighbors_distance, totalAttNum, numAttPerPH)
- if totalAttNum>0 && numAttPerPH>0
- attIndices = find(attData(orgNode, :)==1);
- while size(attIndices,2) > numAttPerPH
- inx = ceil(rand(1)*size(attIndices,2));
- attIndices(:,inx) = [];
- end
- else
- attIndices=[];
- end
- new_row = ones(1,size(attData, 2)) * non_neighbors_distance;
- for i=1:size(attIndices,2)
- new_row(i)=1;
- end
- attData = [attData; new_row];
- end %ExpandAttByOne
-
-
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