public void ResetCalculationState() { const double Increase = 0.5; const int Iterations = 10; var criterium = new DivergenceStopCriterium(Increase, Iterations); // Add residuals. Blow it up instantly var status = criterium.DetermineStatus( 1, new DenseVector(new[] {1.0f}), new DenseVector(new[] {1.0f}), new DenseVector(new[] {float.NaN})); Assert.AreEqual(IterationStatus.Diverged, status, "Status check fail."); // Reset the state criterium.ResetToPrecalculationState(); Assert.AreEqual(Increase, criterium.MaximumRelativeIncrease, "Incorrect maximum"); Assert.AreEqual(Iterations, criterium.MinimumNumberOfIterations, "Incorrect iteration count"); Assert.AreEqual(IterationStatus.Indetermined, criterium.Status, "Status check fail."); }
public void DetermineStatusWithTooFewIterations() { const float Increase = 0.5f; const int Iterations = 10; var criterium = new DivergenceStopCriterium(Increase, Iterations); // Add residuals. We should not diverge because we'll have to few iterations for (var i = 0; i < Iterations - 1; i++) { var status = criterium.DetermineStatus( i, new DenseVector(new[] {1.0f}), new DenseVector(new[] {1.0f}), new DenseVector(new[] {(i + 1)*(Increase + 0.1f)})); Assert.AreEqual(IterationStatus.Running, status, "Status check fail."); } }
public void DetermineStatusWithNoDivergence() { const float Increase = 0.5f; const int Iterations = 10; var criterium = new DivergenceStopCriterium(Increase, Iterations); // Add residuals. We should not diverge because we won't have enough increase for (var i = 0; i < Iterations*2; i++) { var status = criterium.DetermineStatus( i, new DenseVector(new[] {1.0f}), new DenseVector(new[] {1.0f}), new DenseVector(new[] {(i + 1)*(Increase - 0.01f)})); Assert.AreEqual(IterationStatus.Running, status, "Status check fail."); } }
public void DetermineStatusWithIllegalIterationNumberThrowsArgumentOutOfRangeException() { var criterium = new DivergenceStopCriterium(0.5, 15); Assert.Throws<ArgumentOutOfRangeException>(() => criterium.DetermineStatus( -1, DenseVector.Create(3, i => 4), DenseVector.Create(3, i => 5), DenseVector.Create(3, i => 6))); }
public void DetermineStatusWithDivergenceThroughNaN() { const float Increase = 0.5f; const int Iterations = 10; var criterium = new DivergenceStopCriterium(Increase, Iterations); // Add residuals. We should not diverge because we'll have to few iterations for (var i = 0; i < Iterations - 5; i++) { var status = criterium.DetermineStatus( i, new DenseVector(new[] {1.0f}), new DenseVector(new[] {1.0f}), new DenseVector(new[] {(i + 1)*(Increase - 0.01f)})); Assert.AreEqual(IterationStatus.Running, status, "Status check fail."); } // Now make it fail by throwing in a NaN var status2 = criterium.DetermineStatus( Iterations, new DenseVector(new[] {1.0f}), new DenseVector(new[] {1.0f}), new DenseVector(new[] {float.NaN})); Assert.AreEqual(IterationStatus.Diverged, status2, "Status check fail."); }
public void DetermineStatusWithDivergence() { const float Increase = 0.5f; const int Iterations = 10; var criterium = new DivergenceStopCriterium(Increase, Iterations); // Add residuals. We should not diverge because we'll have one to few iterations float previous = 1; for (var i = 0; i < Iterations - 1; i++) { previous *= 1 + Increase + 0.01f; var status = criterium.DetermineStatus( i, new DenseVector(new[] {1.0f}), new DenseVector(new[] {1.0f}), new DenseVector(new[] {previous})); Assert.AreEqual(IterationStatus.Running, status, "Status check fail."); } // Add the final residual. Now we should have divergence previous *= 1 + Increase + 0.01f; var status2 = criterium.DetermineStatus( Iterations - 1, new DenseVector(new[] {1.0f}), new DenseVector(new[] {1.0f}), new DenseVector(new[] {previous})); Assert.AreEqual(IterationStatus.Diverged, status2, "Status check fail."); }