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@ -257,6 +257,84 @@ private: |
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} |
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} |
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/**
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* Chooses the initial centers in a way inspired by Gonzales (by Pierre-Emmanuel Viel): |
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* select the first point of the list as a candidate, then parse the points list. If another |
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* point is further than current candidate from the other centers, test if it is a good center |
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* of a local aggregation. If it is, replace current candidate by this point. And so on... |
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* |
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* Used with KMeansIndex that computes centers coordinates by averaging positions of clusters points, |
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* this doesn't make a real difference with previous methods. But used with HierarchicalClusteringIndex |
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* class that pick centers among existing points instead of computing the barycenters, there is a real |
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* improvement. |
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* |
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* Params: |
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* k = number of centers |
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* vecs = the dataset of points |
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* indices = indices in the dataset |
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* Returns: |
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*/ |
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void GroupWiseCenterChooser(int k, int* dsindices, int indices_length, int* centers, int& centers_length) |
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{ |
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const float kSpeedUpFactor = 1.3f; |
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int n = indices_length; |
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DistanceType* closestDistSq = new DistanceType[n]; |
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// Choose one random center and set the closestDistSq values
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int index = rand_int(n); |
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assert(index >=0 && index < n); |
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centers[0] = dsindices[index]; |
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for (int i = 0; i < n; i++) { |
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closestDistSq[i] = distance(dataset[dsindices[i]], dataset[dsindices[index]], dataset.cols); |
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} |
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// Choose each center
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int centerCount; |
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for (centerCount = 1; centerCount < k; centerCount++) { |
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// Repeat several trials
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double bestNewPot = -1; |
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int bestNewIndex = 0; |
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DistanceType furthest = 0; |
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for (index = 0; index < n; index++) { |
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// We will test only the potential of the points further than current candidate
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if( closestDistSq[index] > kSpeedUpFactor * (float)furthest ) { |
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// Compute the new potential
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double newPot = 0; |
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for (int i = 0; i < n; i++) { |
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newPot += std::min( distance(dataset[dsindices[i]], dataset[dsindices[index]], dataset.cols) |
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, closestDistSq[i] ); |
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} |
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// Store the best result
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if ((bestNewPot < 0)||(newPot <= bestNewPot)) { |
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bestNewPot = newPot; |
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bestNewIndex = index; |
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furthest = closestDistSq[index]; |
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} |
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} |
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} |
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// Add the appropriate center
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centers[centerCount] = dsindices[bestNewIndex]; |
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for (int i = 0; i < n; i++) { |
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closestDistSq[i] = std::min( distance(dataset[dsindices[i]], dataset[dsindices[bestNewIndex]], dataset.cols) |
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, closestDistSq[i] ); |
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} |
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} |
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centers_length = centerCount; |
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delete[] closestDistSq; |
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} |
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public: |
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public: |
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@ -290,6 +368,9 @@ public: |
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else if (centers_init_==FLANN_CENTERS_KMEANSPP) { |
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else if (centers_init_==FLANN_CENTERS_KMEANSPP) { |
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chooseCenters = &HierarchicalClusteringIndex::chooseCentersKMeanspp; |
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chooseCenters = &HierarchicalClusteringIndex::chooseCentersKMeanspp; |
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} |
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} |
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else if (centers_init_==FLANN_CENTERS_GROUPWISE) { |
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chooseCenters = &HierarchicalClusteringIndex::GroupWiseCenterChooser; |
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} |
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else { |
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else { |
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throw FLANNException("Unknown algorithm for choosing initial centers."); |
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throw FLANNException("Unknown algorithm for choosing initial centers."); |
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} |
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} |
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