tested and documented ability to swap factors with ISAM2
Alex Cunningham
parent
99971df559
commit
cb017fee80
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@ -346,8 +346,11 @@ boost::shared_ptr<FastSet<Index> > ISAM2::recalculate(
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lastAffectedFactorCount = linearFactors_.size();
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// Reeliminated keys for detailed results
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if(params_.enableDetailedResults)
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BOOST_FOREACH(Key key, theta_.keys()) { result.detail->variableStatus[key].isReeliminated = true; }
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if(params_.enableDetailedResults) {
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BOOST_FOREACH(Key key, theta_.keys()) {
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result.detail->variableStatus[key].isReeliminated = true;
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}
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}
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toc(3,"batch");
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@ -367,8 +370,11 @@ boost::shared_ptr<FastSet<Index> > ISAM2::recalculate(
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if(debug) { cout << "Affected keys: "; BOOST_FOREACH(const Index key, affectedKeys) { cout << key << " "; } cout << endl; }
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// Reeliminated keys for detailed results
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if(params_.enableDetailedResults)
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BOOST_FOREACH(Index index, affectedAndNewKeys) { result.detail->variableStatus[inverseOrdering_->at(index)].isReeliminated = true; }
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if(params_.enableDetailedResults) {
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BOOST_FOREACH(Index index, affectedAndNewKeys) {
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result.detail->variableStatus[inverseOrdering_->at(index)].isReeliminated = true;
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}
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}
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result.variablesReeliminated = affectedAndNewKeys.size();
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lastAffectedMarkedCount = markedKeys.size();
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@ -477,8 +483,11 @@ boost::shared_ptr<FastSet<Index> > ISAM2::recalculate(
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}
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// Root clique variables for detailed results
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if(params_.enableDetailedResults)
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BOOST_FOREACH(Index index, this->root()->conditional()->frontals()) { result.detail->variableStatus[inverseOrdering_->at(index)].inRootClique = true; }
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if(params_.enableDetailedResults) {
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BOOST_FOREACH(Index index, this->root()->conditional()->frontals()) {
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result.detail->variableStatus[inverseOrdering_->at(index)].inRootClique = true;
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}
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}
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return affectedKeysSet;
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}
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@ -561,8 +570,11 @@ ISAM2Result ISAM2::update(
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markedKeys.insert(markedRemoveKeys.begin(), markedRemoveKeys.end()); // Add to the overall set of marked keys
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}
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// Observed keys for detailed results
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if(params_.enableDetailedResults)
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BOOST_FOREACH(Index index, markedKeys) { result.detail->variableStatus[inverseOrdering_->at(index)].isObserved = true; }
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if(params_.enableDetailedResults) {
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BOOST_FOREACH(Index index, markedKeys) {
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result.detail->variableStatus[inverseOrdering_->at(index)].isObserved = true;
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}
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}
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// NOTE: we use assign instead of the iterator constructor here because this
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// is a vector of size_t, so the constructor unintentionally resolves to
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// vector(size_t count, Index value) instead of the iterator constructor.
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@ -429,6 +429,9 @@ public:
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/**
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* Add new factors, updating the solution and relinearizing as needed.
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*
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* Optionally, this function remove existing factors from the system to enable
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* behaviors such as swapping existing factors with new ones.
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*
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* Add new measurements, and optionally new variables, to the current system.
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* This runs a full step of the ISAM2 algorithm, relinearizing and updating
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* the solution as needed, according to the wildfire and relinearize
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@ -439,6 +442,7 @@ public:
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* You must include here all new variables occuring in newFactors (which were not already
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* in the system). There must not be any variables here that do not occur in newFactors,
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* and additionally, variables that were already in the system must not be included here.
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* @param removeFactorIndices Indices of factors to remove from system
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* @param force_relinearize Relinearize any variables whose delta magnitude is sufficiently
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* large (Params::relinearizeThreshold), regardless of the relinearization interval
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* (Params::relinearizeSkip).
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@ -28,7 +28,10 @@ using boost::shared_ptr;
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const double tol = 1e-4;
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ISAM2 createSlamlikeISAM2() {
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ISAM2 createSlamlikeISAM2(
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boost::optional<Values&> init_values = boost::none,
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boost::optional<planarSLAM::Graph&> full_graph = boost::none,
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const ISAM2Params& params = ISAM2Params(ISAM2GaussNewtonParams(0.001), 0.0, 0, false, true)) {
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// Pose and landmark key types from planarSLAM
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using planarSLAM::PoseKey;
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@ -39,7 +42,8 @@ ISAM2 createSlamlikeISAM2() {
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SharedDiagonal brNoise = sharedSigmas(Vector_(2, M_PI/100.0, 0.1));
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// These variables will be reused and accumulate factors and values
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ISAM2 isam(ISAM2Params(ISAM2GaussNewtonParams(0.001), 0.0, 0, false, true));
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ISAM2 isam(params);
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// ISAM2 isam(ISAM2Params(ISAM2GaussNewtonParams(0.001), 0.0, 0, false, true));
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Values fullinit;
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planarSLAM::Graph fullgraph;
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@ -121,6 +125,12 @@ ISAM2 createSlamlikeISAM2() {
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++ i;
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}
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if (full_graph)
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*full_graph = fullgraph;
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if (init_values)
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*init_values = fullinit;
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return isam;
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}
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@ -1071,6 +1081,7 @@ TEST(ISAM2, removeFactors)
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// Remove the measurement on landmark 0
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FastVector<size_t> toRemove;
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EXPECT_LONGS_EQUAL(isam.getFactorsUnsafe().size()-2, result.newFactorsIndices[1]);
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toRemove.push_back(result.newFactorsIndices[1]);
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isam.update(planarSLAM::Graph(), Values(), toRemove);
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}
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@ -1107,6 +1118,76 @@ TEST(ISAM2, removeFactors)
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EXPECT(assert_equal(expectedGradient, actualGradient));
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}
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/* ************************************************************************* */
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TEST(ISAM2, swapFactors)
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{
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// SETDEBUG("ISAM2 update", true);
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// SETDEBUG("ISAM2 update verbose", true);
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// SETDEBUG("ISAM2 recalculate", true);
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// This test builds a graph in the same way as the "slamlike" test above, but
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// then swaps the 2nd-to-last landmark measurement with a different one
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// Pose and landmark key types from planarSLAM
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using planarSLAM::PoseKey;
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using planarSLAM::PointKey;
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// Set up parameters
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SharedDiagonal odoNoise = sharedSigmas(Vector_(3, 0.1, 0.1, M_PI/100.0));
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SharedDiagonal brNoise = sharedSigmas(Vector_(2, M_PI/100.0, 0.1));
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Values fullinit;
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planarSLAM::Graph fullgraph;
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ISAM2 isam = createSlamlikeISAM2(fullinit, fullgraph);
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// Remove the measurement on landmark 0 and replace with a different one
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{
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size_t swap_idx = isam.getFactorsUnsafe().size()-2;
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FastVector<size_t> toRemove;
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toRemove.push_back(swap_idx);
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fullgraph.remove(swap_idx);
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planarSLAM::Graph swapfactors;
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// swapfactors.addBearingRange(10, 0, Rot2::fromAngle(M_PI/4.0 + M_PI/16.0), 4.5, brNoise); // original factor
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swapfactors.addBearingRange(10, 0, Rot2::fromAngle(M_PI/4.0 + M_PI/16.0), 5.0, brNoise);
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fullgraph.push_back(swapfactors);
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isam.update(swapfactors, Values(), toRemove);
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}
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// Compare solutions
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EXPECT(assert_equal(fullgraph, planarSLAM::Graph(isam.getFactorsUnsafe())));
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EXPECT(isam_check(fullgraph, fullinit, isam));
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// Check gradient at each node
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typedef ISAM2::sharedClique sharedClique;
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BOOST_FOREACH(const sharedClique& clique, isam.nodes()) {
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// Compute expected gradient
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FactorGraph<JacobianFactor> jfg;
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jfg.push_back(JacobianFactor::shared_ptr(new JacobianFactor(*clique->conditional())));
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VectorValues expectedGradient(*allocateVectorValues(isam));
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gradientAtZero(jfg, expectedGradient);
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// Compare with actual gradients
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int variablePosition = 0;
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for(GaussianConditional::const_iterator jit = clique->conditional()->begin(); jit != clique->conditional()->end(); ++jit) {
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const int dim = clique->conditional()->dim(jit);
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Vector actual = clique->gradientContribution().segment(variablePosition, dim);
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EXPECT(assert_equal(expectedGradient[*jit], actual));
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variablePosition += dim;
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}
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EXPECT_LONGS_EQUAL(clique->gradientContribution().rows(), variablePosition);
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}
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// Check gradient
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VectorValues expectedGradient(*allocateVectorValues(isam));
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gradientAtZero(FactorGraph<JacobianFactor>(isam), expectedGradient);
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VectorValues expectedGradient2(gradient(FactorGraph<JacobianFactor>(isam), VectorValues::Zero(expectedGradient)));
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VectorValues actualGradient(*allocateVectorValues(isam));
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gradientAtZero(isam, actualGradient);
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EXPECT(assert_equal(expectedGradient2, expectedGradient));
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EXPECT(assert_equal(expectedGradient, actualGradient));
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}
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/* ************************************************************************* */
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TEST(ISAM2, constrained_ordering)
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{
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