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F_U1BiDiag Member List

This is the complete list of members for F_U1BiDiag, including all inherited members.
add(float value) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
add(AFloatMatrix &m) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
add_A_B(AFSymMatrix *B, AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
add_B_A(AFSymMatrix *B, AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
AFSymMatrix(int w) (defined in AFSymMatrix)AFSymMatrix [inline]
apinv(int iterOuter, int iterInner) (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
choleskyUDUt(AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
copy() (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
copyAnn() (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
copyDiagonal() (defined in AFSymMatrix)AFSymMatrix [virtual]
copyFull() (defined in AFSymMatrix)AFSymMatrix [virtual]
copyL() (defined in AFSymMatrix)AFSymMatrix [virtual]
copyL0() (defined in AFSymMatrix)AFSymMatrix [virtual]
copyL1() (defined in AFSymMatrix)AFSymMatrix [virtual]
copyU() (defined in AFSymMatrix)AFSymMatrix [virtual]
copyU0() (defined in AFSymMatrix)AFSymMatrix [virtual]
copyU1() (defined in AFSymMatrix)AFSymMatrix [virtual]
det() (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
div(float value) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
F_U1BiDiag(int asize, float val=0.0) (defined in F_U1BiDiag)F_U1BiDiag
F_U1BiDiag(const F_U1BiDiag &v) (defined in F_U1BiDiag)F_U1BiDiag
factorisationL0U1() (defined in AFSymMatrix)AFSymMatrix [virtual]
factorisationL1DL1t() (defined in AFSymMatrix)AFSymMatrix [virtual]
factorisationL1U0() (defined in AFSymMatrix)AFSymMatrix [virtual]
factorisationLLt() (defined in AFSymMatrix)AFSymMatrix [virtual]
factorisationU1DU1t() (defined in AFSymMatrix)AFSymMatrix [virtual]
factorisationUUt() (defined in AFSymMatrix)AFSymMatrix [virtual]
gadd_A_B(AFloatMatrix *B, bool aT=false, bool bT=false, AFloatMatrix *result=0) (defined in AFloatMatrix)AFloatMatrix [virtual]
gadd_B_A(AFloatMatrix *B, bool aT=false, bool bT=false, AFloatMatrix *result=0) (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
gaussSeidel(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
gaussSeidelLS(int iterMax, FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
get(int i, int j) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
get0(int i, int j) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
getD(int i) const (defined in F_U1BiDiag)F_U1BiDiag [inline]
getD0(int i) const (defined in F_U1BiDiag)F_U1BiDiag [inline]
getHeight() const (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
getU(int i) const (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
getU0(int i) const (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
getUvalues() (defined in F_U1BiDiag)F_U1BiDiag [inline]
getWidth() const (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
gmult_A_B(AFloatMatrix *B, bool aT=false, bool bT=false, AFloatMatrix *result=0) (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
gmult_B_A(AFloatMatrix *B, bool aT=false, bool bT=false, AFloatMatrix *result=0) (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
gsubst_A_B(AFloatMatrix *B, bool aT=false, bool bT=false, AFloatMatrix *result=0) (defined in AFloatMatrix)AFloatMatrix [virtual]
gsubst_B_A(AFloatMatrix *B, bool aT=false, bool bT=false, AFloatMatrix *result=0) (defined in AFloatMatrix)AFloatMatrix [virtual]
icf() (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
ildlt() (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
ilu0() (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
ilut(int p, double eps) (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
iluth(double threshold=0.001) (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
indexesInCol(int k, Simple1DIndexList *oldCol=0) (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
indexesInCol0(int k, Simple1DIndexList *oldCol=0) (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
indexesInRow(int k, Simple1DIndexList *oldRow=0) (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
indexesInRow0(int k, Simple1DIndexList *oldRow=0) (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
inverseIteration(double eigenvalue, int nmax=3, FloatVector *ev=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
inverseSPD(AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
inverseUDUt(AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
invert() (defined in F_U1BiDiag)F_U1BiDiag [virtual]
jacobi(FloatVector *b, FloatVector *x=0, FloatVector *dest=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
jacobiLS(int iterMax, FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
jacobiMatrix() (defined in AFSymMatrix)AFSymMatrix [virtual]
jacobiPrecond(FDiagonalMatrix *S=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
jacobiVector(FloatVector *b) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverL0(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverL0U1(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverL1(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverL1DL1t(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverL1U0(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverLLt(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverU0(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverU0(FloatVector *b, int k, FloatVector *x) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverU1(FloatVector *b, FloatVector *x=0) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
linearSolverU1DU1t(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
linearSolverUUt(FloatVector *b, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
load(F_U1BiDiag *m) (defined in F_U1BiDiag)F_U1BiDiag
load(FloatVector *anU) (defined in F_U1BiDiag)F_U1BiDiag
maximum() (defined in F_U1BiDiag)F_U1BiDiag [virtual]
mean() (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
milu0() (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
minimum() (defined in F_U1BiDiag)F_U1BiDiag [virtual]
mult(float value) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
mult_A_B(AFSymMatrix *B, AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
mult_ATv(FloatVector *v, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
mult_ATv(FloatVector *v, int col0, int row0, bool incremental=false, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
mult_Av(FloatVector *v, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
mult_Av(FloatVector *v, int col0, int row0, bool incremental=false, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
mult_B_A(AFSymMatrix *B, AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
mult_vA(FloatVector *v, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
mult_vA(FloatVector *v, int row0, int col0, bool incremental=false, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
mult_vAT(FloatVector *vt, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
mult_vAT(FloatVector *vt, int row0, int col0, bool incremental=false, FloatVector *result=0) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
norme2() (defined in F_U1BiDiag)F_U1BiDiag [virtual]
operator *=(float value) (defined in F_U1BiDiag)F_U1BiDiag
operator+=(F_U1BiDiag &m) (defined in F_U1BiDiag)F_U1BiDiag
operator-=(F_U1BiDiag &m) (defined in F_U1BiDiag)F_U1BiDiag
operator/=(float value) (defined in F_U1BiDiag)F_U1BiDiag
operator=(const F_U1BiDiag &v) (defined in F_U1BiDiag)F_U1BiDiag
output() (defined in F_U1BiDiag)F_U1BiDiag [virtual]
output(FILE *file) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
power(int nmax, float *firstEigenValue, FloatVector *evMax0=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
rayleighQuotient(FloatVector *ev=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
rilu0(float omega=0.95) (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
set(int i, int j, float value) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
set0(int i, int j, float value) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
setAll(float value=0.0) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
setAll(AFloatMatrix *from, bool t=false) (defined in AFSymMatrix)AFSymMatrix [virtual]
setD(int i, float value) (defined in F_U1BiDiag)F_U1BiDiag [inline]
setD0(int i, float value) (defined in F_U1BiDiag)F_U1BiDiag [inline]
setU(int i, float value) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
setU0(int i, float value) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
sigma() (defined in F_U1BiDiag)F_U1BiDiag [virtual]
size() const (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
solve(FloatVector *b, FloatVector *x=0) (defined in F_U1BiDiag)F_U1BiDiag [virtual]
sor(double omega, AFSymMatrix **R=0, AFSymMatrix **T=0) (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
sor(FloatVector *b, float omega=1.0, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
sorLS(int iterMax, FloatVector *b, float omega=1.0, FloatVector *x=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
ssor(double omega, AFSymMatrix **R=0, FDiagonalMatrix **S=0, AFSymMatrix **T=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
ssorFactorisation() (defined in AFSymMatrix)AFSymMatrix [virtual]
ssorScaled(double omega, float *cste, AFSymMatrix **R=0, AFSymMatrix **T=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
ssorScaledSPD(double omega, float *cste, AFSymMatrix **R=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
ssorSPD(double omega, AFSymMatrix **R=0, FDiagonalMatrix **S=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
subst(float value) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
subst(AFloatMatrix &m) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
subst_A_B(AFSymMatrix *B, AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
subst_B_A(AFSymMatrix *B, AFSymMatrix *result=0) (defined in AFSymMatrix)AFSymMatrix [virtual]
sum() (defined in F_U1BiDiag)F_U1BiDiag [virtual]
t(AFloatMatrix *result=0) (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
trace() (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
u (defined in F_U1BiDiag)F_U1BiDiag [private]
width (defined in AFSymMatrix)AFSymMatrix [protected]
~AFloatMatrix() (defined in AFloatMatrix)AFloatMatrix [inline, virtual]
~AFSymMatrix() (defined in AFSymMatrix)AFSymMatrix [inline, virtual]
~F_U1BiDiag() (defined in F_U1BiDiag)F_U1BiDiag [inline, virtual]
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Bernard De Cuyper: Open Project Leader: Concept, design and development.
Bernard De Cuyper & Eddy Fraiha 2002, 2003. Bernard De Cuyper 2004. Open and free, for friendly usage only.
Modifications on Belgium ground of this piece of artistic work, by governement institutions or companies, must be notified to Bernard De Cuyper.
bern_bdc@hotmail.com