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this with m-1 this m-1 *.
this with m-1 this m-1 *.
this to a ComplexProjective1.
this to a ComplexProjective1.
c1 equal to c2
c1 equal to c2
this by prescribing its fixed points and the
eigenvalues lambda, 1/lambda of the
corresponding 2×2-matrix.
this with real and imag entry.
this with v.
this with re.
this with the given entries.
this this with the given vector.
a
a
this with t this t*.
this with t this t*.
- assignAdjoinedWith(AbstractComplex2By2) -
Method in class mfc.matrix.HermitianComplex2By2
- Assign
this with t this t*.
- assignAdjugate(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the adjugate of
a
- assignAdjugate() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with its own adjugate
- assignAdjugate(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the adjugate of
a
- assignAdjugate() -
Method in class mfc.matrix.Complex2By2
- assigns this with its own adjugate
- assignAllCapitalPhi(double) -
Method in class circlePattern.variational.GenericData
-
- assignAllRho(double) -
Method in class circlePattern.variational.GenericData
-
- assignAllTheta(double) -
Method in class circlePattern.variational.GenericData
-
- assignAsEigenvectorMatrixOf(HermitianComplex2By2) -
Method in class mfc.matrix.Complex2By2
-
- assignByColumn(Complex2, Complex2) -
Method in class mfc.matrix.AbstractComplex2By2
- Assign
this by column.
- assignByColumn(Complex2, Complex2) -
Method in class mfc.matrix.Complex2By2
- Assign
this by column.
- assignByEigenvectors(double, double, Complex2, double, double, Complex2) -
Method in class mfc.matrix.AbstractComplex2By2
- Assign
this by prescribing eigenvectors and
eigenvalues.
- assignByEigenvectors(Complex, Complex2, Complex, Complex2) -
Method in class mfc.matrix.AbstractComplex2By2
- Assign
this by prescribing eigenvectors and
eigenvalues.
- assignByEigenvectors(double, double, Complex2, double, double, Complex2) -
Method in class mfc.matrix.Complex2By2
- Assign
this by prescribing eigenvectors and
eigenvalues.
- assignByEigenvectors(Complex, Complex2, Complex, Complex2) -
Method in class mfc.matrix.Complex2By2
- Assign
this by prescribing eigenvectors and
eigenvalues.
- assignCircle(HermitianCircle, ComplexProjective1, double) -
Method in class circlePattern.variational.EuclideanLayout
-
- assignCircle(HermitianCircle, ComplexProjective1, double) -
Method in class circlePattern.variational.HyperbolicLayout
-
- assignCircle(HermitianCircle, ComplexProjective1, double) -
Method in class circlePattern.variational.SphericalLayout
-
- assignConjugate(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the conjugateative of
a
- assignConjugate() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with its own conjugate
- assignConjugate(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the conjugateative of
a
- assignConjugate() -
Method in class mfc.matrix.Complex2By2
- assigns this with its own conjugate
- assignConjugate() -
Method in class mfc.number.Complex
- Conjugates
this.
- assignConjugate(Complex) -
Method in class mfc.number.Complex
- Assigns
this with conjugation of u.
- assignConjugateWith(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- Assign
this with t this t-1.
- assignConjugateWith(AbstractComplex2By2) -
Method in class mfc.matrix.HermitianComplex2By2
- Assign
this with t this t-1.
- assignCoords(ComplexProjective1[]) -
Method in class moebiusViewer.shape.AbstractPointSet
- assign all coords at once
- assignCoords(Complex[]) -
Method in class moebiusViewer.shape.AbstractPointSet
- assign all complex coords at once
- assignCoords(double[]) -
Method in class moebiusViewer.shape.AbstractPointSet
- assign all euclidean coords at once
- assignCoords(ComplexProjective1[]) -
Method in class moebiusViewer.shape.PointSet
-
- assignCoords(Complex[]) -
Method in class moebiusViewer.shape.PointSet
-
- assignCoords(double[]) -
Method in class moebiusViewer.shape.PointSet
-
- assignCoords(ComplexProjective1[]) -
Method in class moebiusViewer.shape.QuadMesh
- assign all coords at once
- assignCoords(ComplexProjective1[], int, int) -
Method in class moebiusViewer.shape.QuadMesh
-
- assignCoords(Complex[]) -
Method in class moebiusViewer.shape.QuadMesh
- assign all complex coords at once
- assignCoords(Complex[], int, int) -
Method in class moebiusViewer.shape.QuadMesh
-
- assignCoords(double[]) -
Method in class moebiusViewer.shape.QuadMesh
- assign all euclidean coords at once
- assignCoords(double[], int, int) -
Method in class moebiusViewer.shape.QuadMesh
-
- assignCos() -
Method in class mfc.number.Complex
- Assigns
this with cosinus this.
- assignCos(Complex) -
Method in class mfc.number.Complex
- Assigns
this with cosinus u.
- assignCosh() -
Method in class mfc.number.Complex
- Assigns
this with cosinushyperbolicus this.
- assignCosh(Complex) -
Method in class mfc.number.Complex
- Assigns
this with cosinushyperbolicus u.
- assignCrossProduct(Real3, Real3) -
Method in class mfc.vector.Real3
- Assign
this with cross product of two vectors.
- assignCrossRatio(Complex, Complex, Complex, Complex) -
Method in class mfc.number.Complex
- Returns (a-b)/(b-c)*(c-d)/(d-a).
- assignCube() -
Method in class mfc.number.Complex
- Assigns
this with cube of this
this = this^3.
- assignCube(Complex) -
Method in class mfc.number.Complex
- Assigns this cube of
u
this = u^3.
- assignDivide(Moebius) -
Method in class mfc.group.Moebius
- Assign this with the product of itself and the inverse of
m.
- assignDivide(Complex) -
Method in class mfc.group.Moebius
- Assign this with the product of itself and the inverse of
c.
- assignDivide(Moebius, Moebius) -
Method in class mfc.group.Moebius
- Assign this with the product of
a and the inverse of
b.
- assignDivide(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of itself and inverse of
m
- assignDivide(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
a and inverse of b
- assignDivide(double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of itself and
1/r
- assignDivide(AbstractComplex2By2, double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
m and 1/r
- assignDivide(double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of itself and
1/(x+iy)
- assignDivide(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
m and 1/(x+iy)
- assignDivide(Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of itself and
1/z
- assignDivide(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
m and 1/z
- assignDivide(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of itself and inverse of
m
- assignDivide(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of
a and inverse of b
- assignDivide(double) -
Method in class mfc.matrix.Complex2By2
- assigns this with product of itself and
1/r
- assignDivide(AbstractComplex2By2, double) -
Method in class mfc.matrix.Complex2By2
- assigns this with product of
m and 1/r
- assignDivide(double, double) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of itself and
1/(x+iy)
- assignDivide(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of
m and 1/(x+iy)
- assignDivide(Complex) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of itself and
1/z
- assignDivide(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of
m and 1/z
- assignDivide(double, double) -
Method in class mfc.number.Complex
- Assigns
this with product of division between this and x,y: this /= x+i*y.
- assignDivide(Complex) -
Method in class mfc.number.Complex
- Assigns
this with product of division between this and v.
- assignDivide(double) -
Method in class mfc.number.Complex
- Assigns
this with product of division between this and r:this /= r.
- assignDivide(Complex, Complex) -
Method in class mfc.number.Complex
- assigns
this with product of division between u and v: this = u / v.
- assignDivide(Complex, double) -
Method in class mfc.number.Complex
- assigns
this with product of division between u and r: this = u / r.
- assignDivide(double) -
Method in class mfc.vector.Real3
- Divide by a scalar.
- assignDivideI() -
Method in class mfc.number.Complex
- Divides
this with i.
- assignDivideI(Complex) -
Method in class mfc.number.Complex
- Assigns
this with the quotient of v and i.
- assignEuclidean(ComplexProjective1, double) -
Method in class mfc.geometry.HermitianCircle
- Assign by euclidean center and euclidean radius.
- assignEuclidean(double, double, double) -
Method in class mfc.geometry.HermitianCircle
- Assign by euclidean center and euclidean radius.
- assignEuclideanLogScaleRotation(ComplexProjective1, double, double) -
Method in class mfc.group.Moebius
- Assign
this with a Euclidean scale-rotation.
- assignExp() -
Method in class mfc.number.Complex
- Assigns
this with exponent of this.
- assignExp(double, double) -
Method in class mfc.number.Complex
- Assigns
this with exponent of x+iy.
- assignExp(Complex) -
Method in class mfc.number.Complex
- Assigns
this with exponent of u.
- assignFromPolar(double, double) -
Method in class mfc.number.Complex
- Assigns
this = r*exp(i*phi).
- assignHyperbolic(double, double, double) -
Method in class mfc.geometry.HermitianCircle
- Assign by hyperbolic center and hyperbolic radius.
- assignHyperbolic(Complex, double) -
Method in class mfc.geometry.HermitianCircle
- Assign by hyperbolic center and hyperbolic radius.
- assignHyperbolic(ComplexProjective1, double) -
Method in class mfc.geometry.HermitianCircle
- Assign by hyperbolic center and hyperbolic radius.
- assignIdentity() -
Method in class mfc.group.Moebius
- Assign this with the identity transformation
- assignIdentity() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the identity matrix
- assignIdentity() -
Method in class mfc.matrix.Complex2By2
- assigns this with the identity matrix
- assignInvert(Moebius) -
Method in class mfc.group.Moebius
- Assign this with the inverse of
m.
- assignInvert() -
Method in class mfc.group.Moebius
- Assign this with its own inverse.
- assignInvert(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the inverse of
m
- assignInvert() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with its own inverse
- assignInvert(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the inverse of
m
- assignInvert() -
Method in class mfc.matrix.Complex2By2
- assigns this with its own inverse
- assignInvert() -
Method in class mfc.number.Complex
- u = 1./u.
- assignInvert(Complex) -
Method in class mfc.number.Complex
- Assigns
this with inverse of u.
- assignLinearCombination(double, Real3, double, Real3) -
Method in class mfc.vector.Real3
- Assign
this with a linear combination of two vectors.
- assignLog() -
Method in class mfc.number.Complex
- Assigns
this with log(this).
- assignLog(Complex) -
Method in class mfc.number.Complex
- Assigns
this with log(u).
- assignLorentzVector(double, double, double, double) -
Method in class mfc.geometry.HermitianCircle
- Assign by Lorentz vector.
- assignLorentzVector(double, double, double, double) -
Method in class mfc.matrix.HermitianComplex2By2
- Assign hermitian matrix by a Lorentz vector.
- assignMinus(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
a from this
- assignMinus(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
b from a and stores the result it this
- assignMinus(double) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
x from all entries of this
- assignMinus(AbstractComplex2By2, double) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
x from all entries of m and
and assigns this with the result.
- assignMinus(double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
x+iy to all entries of this
- assignMinus(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
x+iy to all entries of m and
and assigns this with the result.
- assignMinus(Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
z from all entries of this
- assignMinus(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- subtracts
z to all entries of m and
and assigns this with the result.
- assignMinus(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- subtracts
a from this
- assignMinus(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- subtracts
b from a and stores the result it this
- assignMinus(double) -
Method in class mfc.matrix.Complex2By2
- subtracts
x from all entries of this
- assignMinus(AbstractComplex2By2, double) -
Method in class mfc.matrix.Complex2By2
- subtracts
x from all entries of m and
and assigns this with the result.
- assignMinus(double, double) -
Method in class mfc.matrix.Complex2By2
- subtracts
x+iy to all entries of this
- assignMinus(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.Complex2By2
- subtracts
x+iy to all entries of m and
and assigns this with the result.
- assignMinus(Complex) -
Method in class mfc.matrix.Complex2By2
- subtracts
z from all entries of this
- assignMinus(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.Complex2By2
- subtracts
z to all entries of m and
and assigns this with the result.
- assignMinus(double, double) -
Method in class mfc.number.Complex
- Assigns
this with product of substraction between this and x,y.
- assignMinus(Complex) -
Method in class mfc.number.Complex
- Assigns
this with product of substraction between this and v.
- assignMinus(double) -
Method in class mfc.number.Complex
- Assigns
this with product of substraction between this and r.
- assignMinus(Complex, Complex) -
Method in class mfc.number.Complex
- Assigns
this with product of substraction between tu and v.
- assignMinus(Complex, double) -
Method in class mfc.number.Complex
- Assigns
this with product of substraction between tu and r.
- assignMinus(Real3) -
Method in class mfc.vector.Real3
- Subtract a vector.
- assignNeg(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the negative of
a
- assignNeg() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with its own negative
- assignNeg(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the negative of
a
- assignNeg() -
Method in class mfc.matrix.Complex2By2
- assigns this with its own negative
- assignNeg() -
Method in class mfc.number.Complex
- Assigns
this with negative sign.
- assignNeg(Complex) -
Method in class mfc.number.Complex
- Assigns
this with negative u.
- assignNormalizeDeterminant(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with
m and normalizes (determinant equals 1) it
- assignNormalizeDeterminant() -
Method in class mfc.matrix.AbstractComplex2By2
- normalizes (determinant equals 1) this
- assignNormalizeDeterminant(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with
m and normalizes (determinant equals 1) it
- assignNormalizeDeterminant() -
Method in class mfc.matrix.Complex2By2
- normalizes (determinant equals 1) this
- assignPlus(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the sum of itself and a
- assignPlus(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the sum of
a and b
- assignPlus(double) -
Method in class mfc.matrix.AbstractComplex2By2
- adds
x to all entries of this
- assignPlus(AbstractComplex2By2, double) -
Method in class mfc.matrix.AbstractComplex2By2
- adds
x to all entries of m and
and assigns this with the result.
- assignPlus(double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- adds
x+iy to all entries of this
- assignPlus(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- adds
x+iy to all entries of m and
and assigns this with the result.
- assignPlus(Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- adds
z to all entries of this
- assignPlus(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- adds
z to all entries of m and
and assigns this with the result.
- assignPlus(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the sum of itself and a
- assignPlus(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the sum of
a and b
- assignPlus(double) -
Method in class mfc.matrix.Complex2By2
- adds
x to all entries of this
- assignPlus(AbstractComplex2By2, double) -
Method in class mfc.matrix.Complex2By2
- adds
x to all entries of m and
and assigns this with the result.
- assignPlus(double, double) -
Method in class mfc.matrix.Complex2By2
- adds
x+iy to all entries of this
- assignPlus(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.Complex2By2
- adds
x+iy to all entries of m and
and assigns this with the result.
- assignPlus(Complex) -
Method in class mfc.matrix.Complex2By2
- adds
z to all entries of this
- assignPlus(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.Complex2By2
- adds
z to all entries of m and
and assigns this with the result.
- assignPlus(double, double) -
Method in class mfc.number.Complex
- Assigns
this with sum of this and x,y.
- assignPlus(Complex) -
Method in class mfc.number.Complex
- Assigns
this with sum of this and v.
- assignPlus(Complex, double) -
Method in class mfc.number.Complex
- Assigns
this with sum of u and r.
- assignPlus(double) -
Method in class mfc.number.Complex
- Assigns
this with sum of this and r.
- assignPlus(Complex, Complex) -
Method in class mfc.number.Complex
- Assigns
this with sum of u and v.
- assignPlus(Real3) -
Method in class mfc.vector.Real3
- Add a vector.
- assignPow(Complex) -
Method in class mfc.number.Complex
- Assigns
this with product of this^v.
- assignPow(Complex, Complex) -
Method in class mfc.number.Complex
- Assigns
this with product of u^v.
- assignPow(double) -
Method in class mfc.number.Complex
- Assigns
this with this to the pow of r.
- assignPow(Complex, double) -
Method in class mfc.number.Complex
- Assigns
this with u to the pow of r.
- assignPow(Complex, int) -
Method in class mfc.number.Complex
- Assigns
this with u to the pow of r.
- assignPow(int) -
Method in class mfc.number.Complex
- Assigns
this with this to the pow of r.
- assignRandom() -
Method in class mfc.number.Complex
- Assigns
this=random().
- assignSin() -
Method in class mfc.number.Complex
- Assigns
this with sinus this.
- assignSin(Complex) -
Method in class mfc.number.Complex
- Assigns
this with sinus u.
- assignSinh() -
Method in class mfc.number.Complex
- Assigns
this with sinushyperbolicus this.
- assignSinh(Complex) -
Method in class mfc.number.Complex
- Assigns
this with sinushyperbolicus u.
- assignSpherical(ComplexProjective1, double) -
Method in class mfc.geometry.HermitianCircle
- Assign by spherical center and spherical radius.
- assignSphericalLogScaleRotation(ComplexProjective1, double, double) -
Method in class mfc.group.Moebius
- Assign
this with a sperical scale-rotation.
- assignSqr() -
Method in class mfc.number.Complex
- Assigns
this with root of this.
- assignSqr(Complex) -
Method in class mfc.number.Complex
- Assigns
this with root of u.
- assignSqrt() -
Method in class mfc.number.Complex
- Assigns
this with sqrt(this).
- assignSqrt(Complex) -
Method in class mfc.number.Complex
- Assigns
this with sqrt(u).
- assignSquareGrid(int, int) -
Method in class moebiusViewer.shape.QuadMesh
-
- assignStar(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the transposed and conjugated of
a
- assignStar() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with its own transposed and conjugated
- assignStar(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the transposed and conjugated of
a
- assignStar() -
Method in class mfc.matrix.Complex2By2
- assigns this with its own transposed and conjugated
- assignThrough(ComplexProjective1, ComplexProjective1, ComplexProjective1) -
Method in class mfc.geometry.HermitianCircle
- Assign by prescribing 3 points on the circle.
- assignTimes(Moebius) -
Method in class mfc.group.Moebius
- Assign this with the product of itself and a.
- assignTimes(Moebius, Moebius) -
Method in class mfc.group.Moebius
- Assign this with the product of
a and b.
- assignTimes(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of itself and a
- assignTimes(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
a and b
- assignTimes(double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of itself and
r
- assignTimes(AbstractComplex2By2, double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
m and r
- assignTimes(double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of itself and
x+iy
- assignTimes(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
m and x+iy
- assignTimes(Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- returns product of this and
z
- assignTimes(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the product of
m and z
- assignTimes(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of itself and a
- assignTimes(AbstractComplex2By2, AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of
a and b
- assignTimes(double) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of itself and
r
- assignTimes(AbstractComplex2By2, double) -
Method in class mfc.matrix.Complex2By2
- assigns this with product of
m and r
- assignTimes(double, double) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of itself and
x+iy
- assignTimes(AbstractComplex2By2, double, double) -
Method in class mfc.matrix.Complex2By2
- assigns this with the product of
m and x+iy
- assignTimes(Complex) -
Method in class mfc.matrix.Complex2By2
- returns the product of this and
z
- assignTimes(AbstractComplex2By2, Complex) -
Method in class mfc.matrix.Complex2By2
- assigns this with product of
m and z
- assignTimes(double, double) -
Method in class mfc.number.Complex
- Assigns
this with product of mltiplication between this with x,y.
- assignTimes(Complex) -
Method in class mfc.number.Complex
- Assigns
this with product of mltiplication between this with v
- assignTimes(double) -
Method in class mfc.number.Complex
- Assigns
this with product of mltiplication between this with r
- assignTimes(Complex, Complex) -
Method in class mfc.number.Complex
- Assigns
this with product of mltiplication between u with v.
- assignTimes(Complex, double) -
Method in class mfc.number.Complex
- Assigns
this with product of mltiplication between u with r.
- assignTimes(AbstractComplex2By2, Complex2) -
Method in class mfc.vector.Complex2
- assign this with product of matrix
m and vector
v.
- assignTimes(Complex, Complex2) -
Method in class mfc.vector.Complex2
- Assign
this with the product of a complex number and a
complex 2-vector.
- assignTimes(double) -
Method in class mfc.vector.Real3
- Multiply by a scalar.
- assignTimesI() -
Method in class mfc.number.Complex
- Multiplies
this with i.
- assignTimesI(Complex) -
Method in class mfc.number.Complex
- Assigns
this with the product of v and i.
- assignTranspose(AbstractComplex2By2) -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the transposed of
a
- assignTranspose() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with its own transposed
- assignTranspose(AbstractComplex2By2) -
Method in class mfc.matrix.Complex2By2
- assigns this with the transposed of
a
- assignTranspose() -
Method in class mfc.matrix.Complex2By2
- assigns this with its own transposed
- assignZero() -
Method in class mfc.matrix.AbstractComplex2By2
- assigns this with the zero matrix
- assignZero() -
Method in class mfc.matrix.Complex2By2
- assigns this with the zero matrix
- assignZero() -
Method in class mfc.vector.Complex2
- assigns this with zero
- assignZero() -
Method in class mfc.vector.Real3
- Assign
this with zero.
- attributes -
Variable in class moebiusViewer.MoebiusGraphics
-
this be the Poincare dual of a give surface.
G.
CellularSurface object with no edges, faces, or
vertices.
this with re = aReal.
this which is equal to u
this with real and imag entry.
(1,0).
(a, b).
(a, b),
where a = theARe + i theAIm and b = theBRe + i
theBIm.
Cl2.
- clean() -
Static method in class numericalMethods.calculus.minimizing.ConjugateGradient
-
- clean() -
Static method in class numericalMethods.calculus.minimizing.Powell
-
- clear() -
Method in class moebiusViewer.GenericPicker
-
- clear() -
Method in class moebiusViewer.MoebiusGraphics
-
- clear() -
Method in class moebiusViewer.shape.ShapeSet
- Makes the shapeset empty.
- clear() -
Method in class moebiusViewer.util.MoebiusShapeStack
-
- clear() -
Method in class moebiusViewer.util.MoebiusTransformStack
-
- clearPickPath() -
Method in class moebiusViewer.AbstractPicker
-
- clearShapeSet() -
Method in class moebiusViewer.viewer.AbstractViewer
-
- clone() -
Method in class mfc.number.Complex
- Clones
this to new Complex.
- clone() -
Method in class moebiusViewer.Attributes
-
- clone() -
Method in class moebiusViewer.MoebiusGraphics
-
- clone() -
Method in interface moebiusViewer.MoebiusTool
-
- clone() -
Method in class moebiusViewer.shape.AbstractShape
-
- clone() -
Method in class moebiusViewer.tool.AbstractTool
-
- clone() -
Method in class moebiusViewer.util.MoebiusShapeStack
-
- clone() -
Method in class moebiusViewer.util.MoebiusTransformStack
-
- close() -
Method in class moebiusViewer.shape.IndexedLineSet
-
- closed -
Variable in class moebiusViewer.shape.Polygon
-
- color -
Variable in class moebiusViewer.Attributes
-
- color -
Variable in class render.Material
- Holds the color information ( Diffuse color R,G,B, Specular
Color R,G,B, Specular exponent).
- colorLight(int, double, double, double) -
Method in class render.Renderer
- Assigns new color values to the light i.
- compute(double[][], double) -
Static method in class moebiusViewer.util.LevelLines
-
- computeMeshNormals() -
Method in class render.Geometry
- Computes normals for the wireframe mesh.
- computePolyhedronNormals() -
Method in class render.Geometry
- Computes normals for each vertex of each face of the polyhedron shape.
- computedMeshNormals() -
Method in class render.Geometry
- Returns whether or nor the mesh normals have been computed yet.
- concatenate(MoebiusTransform) -
Method in class moebiusViewer.MoebiusTransform
-
- conjugate() -
Method in class mfc.matrix.Complex2By2
- returns conjugate of this
- conjugate(Complex) -
Static method in class mfc.number.Complex
- Returns conjugation of
u.
- conjugate() -
Method in class mfc.number.Complex
- Returns conjugation of
this.
- consistent -
Variable in class moebiusViewer.shape.AbstractPointSet
-
- contains(MoebiusShape, MoebiusShape) -
Static method in class moebiusViewer.RenderTreeInfo
-
- contains(MoebiusShape) -
Method in class moebiusViewer.viewer.AbstractViewer
-
- contains(MoebiusShape) -
Method in class moebiusViewer.viewer.JViewerCanvas
-
- contains(MoebiusShape) -
Method in class moebiusViewer.viewer.ViewerCanvas
-
- context -
Variable in class moebiusViewer.tool.AbstractMoebiusTransformerTool
-
- context -
Variable in class moebiusViewer.tool.AbstractTool
-
- contextTransform -
Variable in class moebiusViewer.tool.AbstractTool
-
- contractEdge(int) -
Method in class cellularSurface.CellularSurface
- Contract an edge.
- copy(CellularSurface) -
Method in class cellularSurface.CellularSurface
-
- copy() -
Method in class mfc.matrix.Complex2By2
- returns copy of this
- copy() -
Method in class mfc.number.Complex
- Creates a new
Complex that is copy of this.
- copy() -
Method in class mfc.vector.Complex2
- returns copy of this
- copy() -
Method in class mfc.vector.Real3
- Create a copy of
this and return it.
- copy(Matrix) -
Method in class render.Matrix
- Copies contents from matrix src to the object matrix.
- copy(double[], double[]) -
Static method in class render.Vec
- Copies contents of the src vector to the dst vector.
- copyVertex(double[], double[]) -
Method in class render.Geometry
- Copies the coordinates and normal values of the original vertex
to the target vertex.
- copyVertices(double[][]) -
Method in class render.Geometry
- Returns a new 2-d array with a copy of vertices passed as the
parameter.
- copyVertices(double[][], double[][]) -
Method in class render.Geometry
- Copies and returns the contents of vertex array src to dst.
- cos(Complex) -
Static method in class mfc.number.Complex
- Returns cosinus of
u.
- cos() -
Method in class mfc.number.Complex
- Returns cosinus of
this.
- cosh(Complex) -
Static method in class mfc.number.Complex
- Returns cosinushyperbolicus of
u.
- cosh() -
Method in class mfc.number.Complex
- Returns cosinushyperbolicus of
this.
- countTable() -
Method in class render.Material
- Counts the non-zero entries in the lookup table.
- cp1 -
Variable in class circlePattern.variational.GenericLayout
-
- cross(double[], double[], double[]) -
Static method in class render.Vec
- Computes the cross-product of two vectors a and b and stores the result in dst.
- crossRatio(Complex, Complex, Complex, Complex) -
Static method in class mfc.number.Complex
- Returns (a-b)/(b-c)*(c-d)/(d-a).
- cube(Complex) -
Static method in class mfc.number.Complex
- Returns cube of
u.
- cube() -
Method in class mfc.number.Complex
- Returns cube of
this.
- cube() -
Method in class render.Geometry
- Sets the current shape geometry to a unit cube.
- currentTime -
Variable in class render.RenderApplet
- Holds current system time.
- currentTransform -
Variable in class moebiusViewer.tool.AbstractMoebiusTransformerTool
-
- cylinder(int) -
Method in class render.Geometry
- Creates a k-sided polygon approximation to a cylinder.
double
array parameter.double array valued
functions.double
parameter.double valued functions.det with the determinant of this
s
s
a.
a and inverse of b and stores
the result in c.
a
1/r
1/(x+iy)
1/z
this and v.
this and r.
c[j] of a Chebyshev series which
sums to a function f(x) with f(0) = 0,
returns with c holding the coefficients of the Chebyshev
expansion of f(x)/x.
Complex which is assigned with the
the quotient of this and i.
r = _R^2.
r = _R^2 .
AbstractComplex2By2.EPS
o if
their euclidean distance is smaller than AbstractComplex2By2.EPS
c equal to this
rho are shifted by an additive constant
logScale.
cj.
u.
this.
cj, with n =
c.length, for the function implemented by p and
v.
w = r*exp(i*phi).
a of this
a with entry a of this
a of this
a with entry a of this
b of this
b with entry b of this
b of this
b with entry b of this
c of this
c with entry c of this
d of this
d with entry d of this
double array parameter.
double array value into a
double[].
double array value.
double value.
smallEV with the smaller eigenvalue of this
and bigEV with the bigger;
both, smallEV and bigEV, may be null.
ev to the
eigenvalues of the this;
the first entry contains the eigenvalue with the smaller euclidean norm.
CellularSurface.initialVertex(int).
CellularSurface.leftFace(int).
#nextEdge.
#previousEdge.
this.
2×2-matrices.Noise.CellularSurface.NO_ELEMENT if no such vertex exists.
integate(c, cInt, factor) with double factor = 1.0.
c[j] of a Chebyshev series
approximating some function f(x), calculates the
coefficients cInt[j] of a Chebyshev series approximating
factor × ∫ f(x)dxthis.
u.
true if face is boundary face and
false otherwise.
this has any infinite entries.
this has any Not-a-Number(NaN) entries
CellularSurface.NO_ELEMENT.
this has only zero entries.
CellularSurface.NO_ELEMENT if
no such edge exists.
CellularSurface.NO_ELEMENT
if no such edge exists.
CellularSurface.NO_ELEMENT if no such face exists.
u.
this.
x0-component of the Lorentz vector
corresponding to this.
x1-component of the Lorentz vector
corresponding to this.
x2-component of the Lorentz vector
corresponding to this.
x3-component of the Lorentz vector
corresponding to this.
stdout, which are to be
pasted into the code.
b from a and stores
the result in c.
a from this and returns the result
x from all entries of this and returns the result
x+iy from all entries of this and returns the result
z from all entries of this and returns the result
Complex C which is product of substraction v from this.
Complex which is product of substraction r from this.
u.
this.
CellularSurface.NO_ELEMENT
if no such edge exists.
CellularSurface.NO_ELEMENT
if no such edge exists.
this.
this.
this.
a and b and stores
the result in c.
x to all entries of this and returns the result
x+iy to all entries of this and returns the result
z to all entries of this and returns the result
v
Creates new Complex w = this + v .
Complex C which is sum of this and r.
u to the pow of v.
this to the pow of v.
u to the pow of r.
this to the pow of r.
u to the pow of r.
this to the pow of r.
CellularSurface.NO_ELEMENT if no such edge exists.
CellularSurface.NO_ELEMENT if no such edge exists.
this
surface.
(x, y, z).Renderer.u.
this.
Renderer object
CellularSurface.NO_ELEMENT
if no such edge exists.
CellularSurface.NO_ELEMENT if no such edge exists.
CellularSurface.NO_ELEMENT if no such face exists.
a of this with a
a of this with a
a of this with a
b of this with b
b of this with b
b of this with b
c of this with c
c of this with c
Material.setDS(double, double, double, double, double, double, double).
Material.setDiffuse(double, double, double).
Material.setDS(double, double, double, double, double, double, double).
Material.setDSA(double, double, double, double, double, double, double, double, double, double).
d of this with d
d of this with d
double array parameter by the values in a
double[].
double parameter.
Material.setAmbient(double, double, double)
Material.setAmbient(double, double, double)
this.
this.
c1 equal to c2 as sets.
c1 equal to c2 as sets.
u.
this.
u.
this.
u.
this.
w = sqrt(u).
w = sqrt(this).
ChebyshevApproximation.Clausen.cl2(double x) and
Clausen.CATALAN with the
corresponding values obtained with a computer algebra system.Complex2By2.EuclideanFunctional.HermitianCircle.SphericalFunctional.CellularSurface.NO_ELEMENT if no such vertex exists.
a and b and store
the result in c.
a.
a and b and stores
the result in c.
m with v and stores the result
in w.
a
r
x+iy
z
Complex C which is product of mltiplication between this with v.
Complex C which is product of mltiplication between this with r.
Complex which is assigned with the
the product of this and i.
this as string
String representation of this.
trace with the trace of this
Geometry s.
Geometry
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