public void GetInverseSingularTest() { ComplexFloatMatrix a = new ComplexFloatMatrix(3, 3); ComplexFloatLUDecomp dlu = new ComplexFloatLUDecomp(a); dlu.GetInverse(); }
public void IsSingularTest() { Assert.IsFalse(lu.IsSingular); ComplexFloatMatrix b = new ComplexFloatMatrix(3); ComplexFloatLUDecomp dlu = new ComplexFloatLUDecomp(b); Assert.IsTrue(dlu.IsSingular); }
static ComplexFloatLUDecompTest() { ComplexFloatMatrix a = new ComplexFloatMatrix(3); a[0,0] = new ComplexFloat(-1,1); a[0,1] = 5; a[0,2] = 6; a[1,0] = 3; a[1,1] = -6; a[1,2] = 1; a[2,0] = 6; a[2,1] = 8; a[2,2] = 9; lu = new ComplexFloatLUDecomp(a); }
static ComplexFloatLUDecompTest() { ComplexFloatMatrix a = new ComplexFloatMatrix(3); a[0, 0] = new ComplexFloat(-1, 1); a[0, 1] = 5; a[0, 2] = 6; a[1, 0] = 3; a[1, 1] = -6; a[1, 2] = 1; a[2, 0] = 6; a[2, 1] = 8; a[2, 2] = 9; lu = new ComplexFloatLUDecomp(a); }
public void LULong() { ComplexFloatMatrix lm = new ComplexFloatMatrix(3, 2); ComplexFloatLUDecomp llu = new ComplexFloatLUDecomp(lm); }
public void LUWide() { ComplexFloatMatrix wm = new ComplexFloatMatrix(2, 3); ComplexFloatLUDecomp wlu = new ComplexFloatLUDecomp(wm); }
public void LULong() { ComplexFloatMatrix lm = new ComplexFloatMatrix(3,2); ComplexFloatLUDecomp llu = new ComplexFloatLUDecomp(lm); }
public void LUWide() { ComplexFloatMatrix wm = new ComplexFloatMatrix(2,3); ComplexFloatLUDecomp wlu = new ComplexFloatLUDecomp(wm); }
public void GetInverseSingularTest() { ComplexFloatMatrix a = new ComplexFloatMatrix(3,3); ComplexFloatLUDecomp dlu = new ComplexFloatLUDecomp(a); dlu.GetInverse(); }