public static Counter PersonalizedPageRank(Counter seedVector, SparseMatrix transitionMat) { double trimEps = 0.0; int iterLimit = 200; transitionMat = transitionMat.stochasticizeRows(); double beta = 0.85; long start; long end; Counter vector = new Counter(seedVector); double svCard = 0; for (int i : seedVector.keySet()) { svCard += seedVector.get(i); } Counter oldVector = new Counter(vector); vector = transitionMat.multiply(vector); double diff = 1; int t = 0; start = System.currentTimeMillis(); while (diff > Math.pow(10.0, -10.0) && (diff < 3.99999 || diff > 4.00001) && t < iterLimit) { t += 1; vector.trimKeys(trimEps); vector = transitionMat.multiply(vector); Set<Integer> vecSeedUnion = vector.concreteKeySet(); vecSeedUnion.addAll(seedVector.concreteKeySet()); for (int i : vecSeedUnion) { // vector.set(i, // beta*vector.get(i)/norm+(1-beta)*seedVector.get(i));///Math.max(norm,1.0)); vector.set( i, beta * vector.get(i) + (1 - beta) * seedVector.get(i) / svCard); // /Math.max(norm,1.0)); } double norm = 0; for (int i : vector.keySet()) { // norm += vector.get(i)*vector.get(i); // norm += Math.abs(vector.get(i)); norm += vector.get(i); } // norm = Math.sqrt(norm); diff = 0; Set<Integer> vecOldUnion = vector.concreteKeySet(); vecOldUnion.addAll(oldVector.concreteKeySet()); for (int i : vecOldUnion) { diff += (oldVector.get(i) - vector.get(i)) * (oldVector.get(i) - vector.get(i)); } System.out.println(diff + " " + norm); // System.out.println(vector.toString()); // System.out.println(oldVector.toString()); oldVector = new Counter(vector); } // System.out.println(transitionMat.toStringValues()); end = System.currentTimeMillis(); System.out.println("Time: " + (end - start) + " iterations: " + t); return vector; }
public static Counter ConstrainedEig(SparseMatrix mat, SparseMatrix orthogMat) { double trimEps = 0; int iterLimit = 10000; long start; long end; Counter vector = new Counter(); int vecLen = mat.colDim; for (int i = 0; i < vecLen; i++) { // vector.add(i, 1.0/Math.sqrt(vecLen)); vector.add(i, Math.random() - 0.5); } Counter oldVector = new Counter(); // vector = mat.multiply(vector); // for(int r: orthogMat.rows){ // Counter orthogRow = orthogMat.getRow(r); // vector.orthogonalize(orthogRow); //// System.out.println(vector.dot(orthogRow)); // } double norm = 0; double sim = 0; double diff = 1.0; double diffNeg = 1.0; int t = 0; start = System.currentTimeMillis(); while (diff > Math.pow(10.0, -16.0) && diffNeg > Math.pow(10.0, -16.0) && t < iterLimit) { t += 1; // vector.trimKeys(trimEps); oldVector = new Counter(vector); vector = mat.multiply(vector); for (int r : orthogMat.rows) { Counter orthogRow = orthogMat.getRow(r); // System.out.println("before: "+vector.dot(orthogRow)); vector.orthogonalize(orthogRow); // System.out.println("after: "+vector.dot(orthogRow)); } norm = 0; norm = vector.norm(); vector.multiply(1.0 / norm); diff = 0; diffNeg = 0; Set<Integer> vecOldUnion = vector.concreteKeySet(); vecOldUnion.addAll(oldVector.concreteKeySet()); for (int i : vecOldUnion) { // for(int i = 0; i < mat.colDim; i++){ diff += (oldVector.get(i) - vector.get(i)) * (oldVector.get(i) - vector.get(i)); diffNeg += (oldVector.get(i) + vector.get(i)) * (oldVector.get(i) + vector.get(i)); } sim = vector.dot(oldVector); // System.out.println(diff+" "+diffNeg+" "+sim+" "+norm+" // "+vector.dot(orthogMat.getRow(0))); // System.out.println(vector.toString()); // System.out.println(oldVector.toString()); } System.out.println(norm + " " + orthogMat.rows.size() + " " + sim); // System.out.println(mat.toStringValues()); end = System.currentTimeMillis(); System.out.println("Time: " + (end - start) + " iterations: " + t); return vector; }
public static Counter TopEig(SparseMatrix mat) { double trimEps = 0.0; int iterLimit = 1000; long start; long end; Counter vector = new Counter(); int vecLen = mat.colDim; // for(int i = 0; i < vecLen; i++){ // vector.add(i, Math.random()-0.5); // } for (int i = 0; i < vecLen; i++) { vector.add(i, 1.0 / (double) vecLen); } Counter oldVector = new Counter(vector); vector = mat.multiply(vector); double diff = 1; int t = 0; start = System.currentTimeMillis(); while (diff > Math.pow(10.0, -10.0) && (diff < 3.99999 || diff > 4.00001) && t < iterLimit) { t += 1; vector.trimKeys(trimEps); vector = mat.multiply(vector); double norm = 0; for (int i : vector.keySet()) { norm += vector.get(i) * vector.get(i); // norm += Math.abs(vector.get(i)); } norm = Math.sqrt(norm); vector.multiply(1.0 / norm); diff = 0; Set<Integer> vecOldUnion = vector.concreteKeySet(); vecOldUnion.addAll(oldVector.concreteKeySet()); for (int i : vecOldUnion) { diff += (oldVector.get(i) - vector.get(i)) * (oldVector.get(i) - vector.get(i)); } System.out.println(diff + " " + norm); // System.out.println(vector.toString()); // System.out.println(oldVector.toString()); oldVector = new Counter(vector); } // System.out.println(mat.toStringValues()); end = System.currentTimeMillis(); System.out.println("Time: " + (end - start) + " iterations: " + t); return vector; }
public SparseMatrix getRedundant() { SparseMatrix redMat = new SparseMatrix(this).multiply(this); int oldCard = 0; int card = redMat.cardinality(); int i = 0; // for(int r = 0; r < rowDim; r++){ // if(true){//transMat.hasRow(r)){ // transMat.add(r, r, 1.0); // } // if(true){//tcMat.hasRow(r)){ // tcMat.add(r, r, 1.0); // } // } while (card > oldCard) { // System.out.println("iter: "+i); i++; oldCard = card; redMat = redMat.add(redMat.multiply(this)); card = redMat.cardinality(); // System.out.println(tcMat.toString()); } return redMat; }
public SparseMatrix transitiveClosure() { SparseMatrix tcMat = new SparseMatrix(this); SparseMatrix transMat = new SparseMatrix(this); int oldCard = 0; int card = tcMat.cardinality(); int i = 0; // for(int r = 0; r < rowDim; r++){ // if(true){//transMat.hasRow(r)){ // transMat.add(r, r, 1.0); // } // if(true){//tcMat.hasRow(r)){ // tcMat.add(r, r, 1.0); // } // } while (card > oldCard) { // System.out.println("iter: "+i); i++; oldCard = card; tcMat = tcMat.add(tcMat.multiply(transMat)); card = tcMat.cardinality(); // System.out.println(tcMat.toString()); } return tcMat; }