/* Defines the interface functions for the Krylov subspace accelerators. */ #ifndef __PETSCKSP_H #define __PETSCKSP_H #include "petscpc.h" PETSC_EXTERN_CXX_BEGIN EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPInitializePackage(const char[]); /*S KSP - Abstract PETSc object that manages all Krylov methods Level: beginner Concepts: Krylov methods .seealso: KSPCreate(), KSPSetType(), KSPType, SNES, TS, PC, KSP S*/ typedef struct _p_KSP* KSP; /*E KSPType - String with the name of a PETSc Krylov method or the creation function with an optional dynamic library name, for example http://www.mcs.anl.gov/petsc/lib.a:mykspcreate() Level: beginner .seealso: KSPSetType(), KSP E*/ #define KSPType const char* #define KSPRICHARDSON "richardson" #define KSPCHEBYCHEV "chebychev" #define KSPCG "cg" #define KSPCGNE "cgne" #define KSPSTCG "stcg" #define KSPGLTR "gltr" #define KSPGMRES "gmres" #define KSPFGMRES "fgmres" #define KSPLGMRES "lgmres" #define KSPTCQMR "tcqmr" #define KSPBCGS "bcgs" #define KSPBCGSL "bcgsl" #define KSPCGS "cgs" #define KSPTFQMR "tfqmr" #define KSPCR "cr" #define KSPLSQR "lsqr" #define KSPPREONLY "preonly" #define KSPQCG "qcg" #define KSPBICG "bicg" #define KSPMINRES "minres" #define KSPSYMMLQ "symmlq" #define KSPLCD "lcd" /* Logging support */ extern PetscCookie PETSCKSP_DLLEXPORT KSP_COOKIE; EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPCreate(MPI_Comm,KSP *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetType(KSP,KSPType); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetUp(KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetUpOnBlocks(KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSolve(KSP,Vec,Vec); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSolveTranspose(KSP,Vec,Vec); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPDestroy(KSP); extern PetscFList KSPList; EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPRegisterAll(const char[]); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPRegisterDestroy(void); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPRegister(const char[],const char[],const char[],PetscErrorCode (*)(KSP)); /*MC KSPRegisterDynamic - Adds a method to the Krylov subspace solver package. Synopsis: PetscErrorCode KSPRegisterDynamic(char *name_solver,char *path,char *name_create,PetscErrorCode (*routine_create)(KSP)) Not Collective Input Parameters: + name_solver - name of a new user-defined solver . path - path (either absolute or relative) the library containing this solver . name_create - name of routine to create method context - routine_create - routine to create method context Notes: KSPRegisterDynamic() may be called multiple times to add several user-defined solvers. If dynamic libraries are used, then the fourth input argument (routine_create) is ignored. Sample usage: .vb KSPRegisterDynamic("my_solver",/home/username/my_lib/lib/libO/solaris/mylib.a, "MySolverCreate",MySolverCreate); .ve Then, your solver can be chosen with the procedural interface via $ KSPSetType(ksp,"my_solver") or at runtime via the option $ -ksp_type my_solver Level: advanced Notes: Environmental variables such as ${PETSC_ARCH}, ${PETSC_DIR}, ${PETSC_LIB_DIR}, and others of the form ${any_environmental_variable} occuring in pathname will be replaced with appropriate values. If your function is not being put into a shared library then use KSPRegister() instead .keywords: KSP, register .seealso: KSPRegisterAll(), KSPRegisterDestroy() M*/ #if defined(PETSC_USE_DYNAMIC_LIBRARIES) #define KSPRegisterDynamic(a,b,c,d) KSPRegister(a,b,c,0) #else #define KSPRegisterDynamic(a,b,c,d) KSPRegister(a,b,c,d) #endif EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetType(KSP,KSPType *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetPreconditionerSide(KSP,PCSide); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetPreconditionerSide(KSP,PCSide*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetTolerances(KSP,PetscReal*,PetscReal*,PetscReal*,PetscInt*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetTolerances(KSP,PetscReal,PetscReal,PetscReal,PetscInt); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetInitialGuessNonzero(KSP,PetscTruth); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetInitialGuessNonzero(KSP,PetscTruth *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetInitialGuessKnoll(KSP,PetscTruth); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetInitialGuessKnoll(KSP,PetscTruth*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetComputeEigenvalues(KSP,PetscTruth*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetComputeEigenvalues(KSP,PetscTruth); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetComputeSingularValues(KSP,PetscTruth*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetComputeSingularValues(KSP,PetscTruth); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetRhs(KSP,Vec *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetSolution(KSP,Vec *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetResidualNorm(KSP,PetscReal*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetIterationNumber(KSP,PetscInt*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetNullSpace(KSP,MatNullSpace); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetNullSpace(KSP,MatNullSpace*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetVecs(KSP,PetscInt,Vec**,PetscInt,Vec**); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetPC(KSP,PC); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetPC(KSP,PC*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorSet(KSP,PetscErrorCode (*)(KSP,PetscInt,PetscReal,void*),void *,PetscErrorCode (*)(void*)); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorCancel(KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetMonitorContext(KSP,void **); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetResidualHistory(KSP,PetscReal*[],PetscInt *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetResidualHistory(KSP,PetscReal[],PetscInt,PetscTruth); /* not sure where to put this */ EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCKSPGetKSP(PC,KSP*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCBJacobiGetSubKSP(PC,PetscInt*,PetscInt*,KSP*[]); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCASMGetSubKSP(PC,PetscInt*,PetscInt*,KSP*[]); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCFieldSplitGetSubKSP(PC,PetscInt*,KSP*[]); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCGalerkinGetKSP(PC,KSP *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPBuildSolution(KSP,Vec,Vec *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPBuildResidual(KSP,Vec,Vec,Vec *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPRichardsonSetScale(KSP,PetscReal); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPChebychevSetEigenvalues(KSP,PetscReal,PetscReal); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPComputeExtremeSingularValues(KSP,PetscReal*,PetscReal*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPComputeEigenvalues(KSP,PetscInt,PetscReal*,PetscReal*,PetscInt *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPComputeEigenvaluesExplicitly(KSP,PetscInt,PetscReal*,PetscReal*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESSetRestart(KSP, PetscInt); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESSetHapTol(KSP,PetscReal); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESSetPreAllocateVectors(KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESSetOrthogonalization(KSP,PetscErrorCode (*)(KSP,PetscInt)); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESModifiedGramSchmidtOrthogonalization(KSP,PetscInt); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESClassicalGramSchmidtOrthogonalization(KSP,PetscInt); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPLGMRESSetAugDim(KSP,PetscInt); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPLGMRESSetConstant(KSP); /*E KSPGMRESCGSRefinementType - How the classical (unmodified) Gram-Schmidt is performed. Level: advanced .seealso: KSPGMRESClassicalGramSchmidtOrthogonalization(), KSPGMRESSetOrthogonalization(), KSPGMRESSetCGSRefinementType(), KSPGMRESModifiedGramSchmidtOrthogonalization() E*/ typedef enum {KSP_GMRES_CGS_REFINE_NEVER, KSP_GMRES_CGS_REFINE_IFNEEDED, KSP_GMRES_CGS_REFINE_ALWAYS} KSPGMRESCGSRefinementType; extern const char *KSPGMRESCGSRefinementTypes[]; /*MC KSP_GMRES_CGS_REFINE_NEVER - Just do the classical (unmodified) Gram-Schmidt process Level: advanced Note: Possible unstable, but the fastest to compute .seealso: KSPGMRESClassicalGramSchmidtOrthogonalization(), KSPGMRESSetOrthogonalization(), KSPGMRESSetCGSRefinementType(), KSP_GMRES_CGS_REFINE_IFNEEDED, KSP_GMRES_CGS_REFINE_ALWAYS, KSPGMRESModifiedGramSchmidtOrthogonalization() M*/ /*MC KSP_GMRES_CGS_REFINE_IFNEEDED - Do the classical (unmodified) Gram-Schmidt process and one step of iterative refinement if an estimate of the orthogonality of the resulting vectors indicates poor orthogonality. Level: advanced Note: This is slower than KSP_GMRES_CGS_REFINE_NEVER because it requires an extra norm computation to estimate the orthogonality but is more stable. .seealso: KSPGMRESClassicalGramSchmidtOrthogonalization(), KSPGMRESSetOrthogonalization(), KSPGMRESSetCGSRefinementType(), KSP_GMRES_CGS_REFINE_NEVER, KSP_GMRES_CGS_REFINE_ALWAYS, KSPGMRESModifiedGramSchmidtOrthogonalization() M*/ /*MC KSP_GMRES_CGS_REFINE_NEVER - Do two steps of the classical (unmodified) Gram-Schmidt process. Level: advanced Note: This is roughly twice the cost of KSP_GMRES_CGS_REFINE_NEVER because it performs the process twice but it saves the extra norm calculation needed by KSP_GMRES_CGS_REFINE_IFNEEDED. You should only use this if you absolutely know that the iterative refinement is needed. .seealso: KSPGMRESClassicalGramSchmidtOrthogonalization(), KSPGMRESSetOrthogonalization(), KSPGMRESSetCGSRefinementType(), KSP_GMRES_CGS_REFINE_IFNEEDED, KSP_GMRES_CGS_REFINE_ALWAYS, KSPGMRESModifiedGramSchmidtOrthogonalization() M*/ EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESSetCGSRefinementType(KSP,KSPGMRESCGSRefinementType); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPFGMRESModifyPCNoChange(KSP,PetscInt,PetscInt,PetscReal,void*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPFGMRESModifyPCKSP(KSP,PetscInt,PetscInt,PetscReal,void*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPFGMRESSetModifyPC(KSP,PetscErrorCode (*)(KSP,PetscInt,PetscInt,PetscReal,void*),void*,PetscErrorCode(*)(void*)); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPQCGSetTrustRegionRadius(KSP,PetscReal); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPQCGGetQuadratic(KSP,PetscReal*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPQCGGetTrialStepNorm(KSP,PetscReal*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPBCGSLSetXRes(KSP,PetscReal); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPBCGSLSetPol(KSP,PetscTruth); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPBCGSLSetEll(KSP,int); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetFromOptions(KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPAddOptionsChecker(PetscErrorCode (*)(KSP)); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorSingularValue(KSP,PetscInt,PetscReal,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorDefault(KSP,PetscInt,PetscReal,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorTrueResidualNorm(KSP,PetscInt,PetscReal,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorDefaultShort(KSP,PetscInt,PetscReal,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorSolution(KSP,PetscInt,PetscReal,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGMRESMonitorKrylov(KSP,PetscInt,PetscReal,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPUnwindPreconditioner(KSP,Vec,Vec); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPDefaultBuildSolution(KSP,Vec,Vec*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPDefaultBuildResidual(KSP,Vec,Vec,Vec *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPInitialResidual(KSP,Vec,Vec,Vec,Vec,Vec); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetOperators(KSP,Mat,Mat,MatStructure); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetOperators(KSP,Mat*,Mat*,MatStructure*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetOperatorsSet(KSP,PetscTruth*,PetscTruth*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetOptionsPrefix(KSP,const char[]); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPAppendOptionsPrefix(KSP,const char[]); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetOptionsPrefix(KSP,const char*[]); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetDiagonalScale(KSP,PetscTruth); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetDiagonalScale(KSP,PetscTruth*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetDiagonalScaleFix(KSP,PetscTruth); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetDiagonalScaleFix(KSP,PetscTruth*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPView(KSP,PetscViewer); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPLSQRSetStandardErrorVec(KSP,Vec); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPLSQRGetStandardErrorVec(KSP,Vec*); /*E KSPNormType - Norm that is passed in the Krylov convergence test routines. Level: advanced Notes: this must match finclude/petscksp.h .seealso: KSPSolve(), KSPGetConvergedReason(), KSPSetNormType(), KSPSetConvergenceTest() E*/ typedef enum {KSP_NORM_NO = 0,KSP_NORM_PRECONDITIONED = 1,KSP_NORM_UNPRECONDITIONED = 2,KSP_NORM_NATURAL = 3} KSPNormType; extern const char *KSPNormTypes[]; /*MC KSP_NORM_NO - Do not compute a norm during the Krylov process. This will possibly save some computation but means the convergence test cannot be based on a norm of a residual etc. Level: advanced Note: Some Krylov methods need to compute a residual norm and then this option is ignored .seealso: KSPNormType, KSPSetNormType(), KSP_NORM_PRECONDITIONED, KSP_NORM_UNPRECONDITIONED, KSP_NORM_NATURAL M*/ /*MC KSP_NORM_PRECONDITIONED - Compute the norm of the preconditioned residual and pass that to the convergence test routine. Level: advanced .seealso: KSPNormType, KSPSetNormType(), KSP_NORM_NO, KSP_NORM_UNPRECONDITIONED, KSP_NORM_NATURAL, KSPSetConvergenceTest() M*/ /*MC KSP_NORM_UNPRECONDITIONED - Compute the norm of the true residual (b - A*x) and pass that to the convergence test routine. Level: advanced .seealso: KSPNormType, KSPSetNormType(), KSP_NORM_NO, KSP_NORM_PRECONDITIONED, KSP_NORM_NATURAL, KSPSetConvergenceTest() M*/ /*MC KSP_NORM_NATURAL - Compute the 'natural norm' of residual sqrt((b - A*x)*B*(b - A*x)) and pass that to the convergence test routine. Level: advanced .seealso: KSPNormType, KSPSetNormType(), KSP_NORM_NO, KSP_NORM_PRECONDITIONED, KSP_NORM_UNPRECONDITIONED, KSPSetConvergenceTest() M*/ EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetNormType(KSP,KSPNormType); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetNormType(KSP,KSPNormType*); /*E KSPConvergedReason - reason a Krylov method was said to have converged or diverged Level: beginner Notes: this must match finclude/petscksp.h Developer note: The string versions of these are in src/ksp/ksp/interface/itfunc.c called convergedreasons. If these enums are changed you must change those. .seealso: KSPSolve(), KSPGetConvergedReason(), KSPSetTolerances() E*/ typedef enum {/* converged */ KSP_CONVERGED_RTOL = 2, KSP_CONVERGED_ATOL = 3, KSP_CONVERGED_ITS = 4, KSP_CONVERGED_CG_NEG_CURVE = 5, KSP_CONVERGED_CG_CONSTRAINED = 6, KSP_CONVERGED_STEP_LENGTH = 7, KSP_CONVERGED_HAPPY_BREAKDOWN = 8, /* diverged */ KSP_DIVERGED_NULL = -2, KSP_DIVERGED_ITS = -3, KSP_DIVERGED_DTOL = -4, KSP_DIVERGED_BREAKDOWN = -5, KSP_DIVERGED_BREAKDOWN_BICG = -6, KSP_DIVERGED_NONSYMMETRIC = -7, KSP_DIVERGED_INDEFINITE_PC = -8, KSP_DIVERGED_NAN = -9, KSP_DIVERGED_INDEFINITE_MAT = -10, KSP_CONVERGED_ITERATING = 0} KSPConvergedReason; extern const char **KSPConvergedReasons; /*MC KSP_CONVERGED_RTOL - norm(r) <= rtol*norm(b) Level: beginner See KSPNormType and KSPSetNormType() for possible norms that may be used. By default for left preconditioning it is the 2-norm of the preconditioned residual, and the 2-norm of the residual for right preconditioning .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_CONVERGED_ATOL - norm(r) <= atol Level: beginner See KSPNormType and KSPSetNormType() for possible norms that may be used. By default for left preconditioning it is the 2-norm of the preconditioned residual, and the 2-norm of the residual for right preconditioning Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_DIVERGED_DTOL - norm(r) >= dtol*norm(b) Level: beginner See KSPNormType and KSPSetNormType() for possible norms that may be used. By default for left preconditioning it is the 2-norm of the preconditioned residual, and the 2-norm of the residual for right preconditioning Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_DIVERGED_ITS - Ran out of iterations before any convergence criteria was reached Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_CONVERGED_ITS - Used by the KSPPREONLY solver after the single iteration of the preconditioner is applied. Also used when the KSPSkipConverged() convergence test rutine is set in KSP. Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_DIVERGED_BREAKDOWN - A breakdown in the Krylov method was detected so the method could not continue to enlarge the Krylov space. Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_DIVERGED_BREAKDOWN_BICG - A breakdown in the KSPBICG method was detected so the method could not continue to enlarge the Krylov space. Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_DIVERGED_NONSYMMETRIC - It appears the operator or preconditioner is not symmetric and this Krylov method (KSPCG, KSPMINRES, KSPCR) requires symmetry Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_DIVERGED_INDEFINITE_PC - It appears the preconditioner is indefinite (has both positive and negative eigenvalues) and this Krylov method (KSPCG) requires it to be positive definite Level: beginner Notes: This can happen with the PCICC preconditioner, use -pc_factor_shift_positive_definite to force the PCICC preconditioner to generate a positive definite preconditioner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ /*MC KSP_CONVERGED_ITERATING - This flag is returned if you call KSPGetConvergedReason() while the KSPSolve() is still running. Level: beginner .seealso: KSPSolve(), KSPGetConvergedReason(), KSPConvergedReason, KSPSetTolerances() M*/ EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSetConvergenceTest(KSP,PetscErrorCode (*)(KSP,PetscInt,PetscReal,KSPConvergedReason*,void*),void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetConvergenceContext(KSP,void **); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPDefaultConverged(KSP,PetscInt,PetscReal,KSPConvergedReason*,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPDefaultConvergedSetUIRNorm(KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPDefaultConvergedSetUMIRNorm(KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSkipConverged(KSP,PetscInt,PetscReal,KSPConvergedReason*,void *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGetConvergedReason(KSP,KSPConvergedReason *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPComputeExplicitOperator(KSP,Mat *); /*E KSPCGType - Determines what type of CG to use Level: beginner .seealso: KSPCGSetType() E*/ typedef enum {KSP_CG_SYMMETRIC=0,KSP_CG_HERMITIAN=1} KSPCGType; extern const char *KSPCGTypes[]; EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPCGSetType(KSP,KSPCGType); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSTCGSetRadius(KSP,PetscReal); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSTCGGetNormD(KSP,PetscReal *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPSTCGGetObjFcn(KSP,PetscReal *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGLTRSetRadius(KSP,PetscReal); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGLTRGetNormD(KSP,PetscReal *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGLTRGetObjFcn(KSP,PetscReal *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGLTRGetMinEig(KSP,PetscReal *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPGLTRGetLambda(KSP,PetscReal *); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCPreSolve(PC,KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCPostSolve(PC,KSP); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorLGCreate(const char[],const char[],int,int,int,int,PetscDrawLG*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorLG(KSP,PetscInt,PetscReal,void*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorLGDestroy(PetscDrawLG); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorLGTrueResidualNormCreate(MPI_Comm,const char[],const char[],int,int,int,int,PetscDrawLG*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorLGTrueResidualNorm(KSP,PetscInt,PetscReal,void*); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT KSPMonitorLGTrueResidualNormDestroy(PetscDrawLG); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCShellSetPreSolve(PC,PetscErrorCode (*)(void*,KSP,Vec,Vec)); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT PCShellSetPostSolve(PC,PetscErrorCode (*)(void*,KSP,Vec,Vec)); EXTERN PetscErrorCode PETSCKSP_DLLEXPORT MatMFFDKSPMonitor(KSP,PetscInt,PetscReal,void *); PETSC_EXTERN_CXX_END #endif