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test 0 : default constructor and string converter
triangularMatrix0 = class=TriangularComplexMatrix dimension=0 implementation=class=ComplexMatrixImplementation name=Unnamed rows=0 columns=0 values=[]
test 1: constructor with size, operator() and string converter
triangularMatrix1 = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(1,0),(3,1),(0,0),(4,0)]
is triangular lower ? true
test 2 : copy constructor and string converter
triangularMatrix2 = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(1,0),(3,1),(0,0),(4,0)]
test 3 : get dimensions methods
triangularMatrix1's nbRows = 2
triangularMatrix1's nbColumns = 2
test 4 : assignment method
triangularMatrix3 = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(1,0),(3,1),(0,0),(4,0)]
test 5 : transpose and conjugate method
triangularMatrix1 transpose = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(1,0),(0,0),(3,1),(4,0)]
is transpose triangular lower ? false
triangularMatrix1 conjugate = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(1,-0),(3,-1),(0,-0),(4,-0)]
is conjugate triangular lower ? true
triangularMatrix1 conjugate transpose = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(1,-0),(0,-0),(3,-1),(4,-0)]
is conjugate/transpose triangular lower ? false
test number 6 : addition method
sum1 = class=SquareComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(2,0),(3,1),(3,-1),(8,0)]
sum2 = class=SquareComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(2,0),(3,1),(3,-1),(8,0)]
sum1 equals sum2 = true
test 7 : subtraction method
diff = class=SquareComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(0,0),(3,1),(-3,1),(0,0)]
test 8 : matrix multiplication method
prod = class=SquareComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(1,0),(3,1),(3,-1),(26,0)]
test 9 : multiplication with a numerical point method
pt = class=Point name=Unnamed dimension=2 values=[1,2]
ptResult = [(1,0),(11,1)]
test 10 : multiplication with a numerical complex collection method
ptComplexe = [(1,5),(0,1)]
ptResult2 = [(1,5),(-2,20)]
test 11 : multiplication and division by a numerical scalar methods
scalprod1 = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(3,2),(7,9),(0,0),(12,8)]
scalprod2 = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(3,2),(7,9),(0,0),(12,8)]
scalprod1 equals scalprod2 = true
scaldiv1 = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(0.230769,-0.153846),(0.846154,-0.230769),(0,0),(0.923077,-0.615385)]
scaldiv2 = class=TriangularComplexMatrix dimension=2 implementation=class=ComplexMatrixImplementation name=Unnamed rows=2 columns=2 values=[(0.230769,-0.153846),(0.846154,-0.230769),(0,0),(0.923077,-0.615385)]
scaldiv1 equals scaldiv2 = true
test 12 : isEmpty method
triangularMatrix0 is empty = true
triangularMatrix1 is empty = false
triangularMatrix5 is empty = true
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