#include <../src/tao/bound/impls/bqnk/bqnk.h> static const char *BNK_AS[64] = {"none", "bertsekas"}; static PetscErrorCode TaoBQNLSComputeHessian(Tao tao) { TAO_BNK *bnk = (TAO_BNK *)tao->data; TAO_BQNK *bqnk = (TAO_BQNK*)bnk->ctx; PetscErrorCode ierr; PetscReal gnorm2, delta; PetscFunctionBegin; /* Compute the initial scaling and update the approximation */ gnorm2 = bnk->gnorm*bnk->gnorm; if (gnorm2 == 0.0) gnorm2 = PETSC_MACHINE_EPSILON; if (bnk->f == 0.0) { delta = 2.0 / gnorm2; } else { delta = 2.0 * PetscAbsScalar(bnk->f) / gnorm2; } ierr = MatSymBrdnSetDelta(bqnk->B, delta);CHKERRQ(ierr); ierr = MatLMVMUpdate(bqnk->B, tao->solution, bnk->unprojected_gradient);CHKERRQ(ierr); PetscFunctionReturn(0); } static PetscErrorCode TaoBQNLSComputeStep(Tao tao, PetscBool shift, KSPConvergedReason *ksp_reason, PetscInt *step_type) { TAO_BNK *bnk = (TAO_BNK *)tao->data; TAO_BQNK *bqnk = (TAO_BQNK*)bnk->ctx; PetscErrorCode ierr; PetscInt nupdates; PetscFunctionBegin; ierr = MatSolve(bqnk->B, tao->gradient, tao->stepdirection);CHKERRQ(ierr); ierr = VecScale(tao->stepdirection, -1.0);CHKERRQ(ierr); ierr = TaoBNKBoundStep(tao, bnk->as_type, tao->stepdirection);CHKERRQ(ierr); *ksp_reason = KSP_CONVERGED_ATOL; ierr = MatLMVMGetUpdateCount(bqnk->B, &nupdates);CHKERRQ(ierr); if (nupdates == 0) { *step_type = BNK_SCALED_GRADIENT; } else { *step_type = BNK_BFGS; } PetscFunctionReturn(0); } static PetscErrorCode TaoSetFromOptions_BQNLS(PetscOptionItems *PetscOptionsObject,Tao tao) { TAO_BNK *bnk = (TAO_BNK *)tao->data; TAO_BQNK *bqnk = (TAO_BQNK*)bnk->ctx; PetscErrorCode ierr; KSPType ksp_type; PetscBool is_spd; PetscFunctionBegin; ierr = PetscOptionsHead(PetscOptionsObject,"Quasi-Newton-Krylov method for bound constrained optimization");CHKERRQ(ierr); ierr = PetscOptionsEList("-tao_bqnls_as_type", "active set estimation method", "", BNK_AS, BNK_AS_TYPES, BNK_AS[bnk->as_type], &bnk->as_type, 0);CHKERRQ(ierr); ierr = PetscOptionsReal("-tao_bqnls_epsilon", "(developer) tolerance used when computing actual and predicted reduction", "", bnk->epsilon, &bnk->epsilon,NULL);CHKERRQ(ierr); ierr = PetscOptionsReal("-tao_bqnls_as_tol", "(developer) initial tolerance used when estimating actively bounded variables", "", bnk->as_tol, &bnk->as_tol,NULL);CHKERRQ(ierr); ierr = PetscOptionsReal("-tao_bqnls_as_step", "(developer) step length used when estimating actively bounded variables", "", bnk->as_step, &bnk->as_step,NULL);CHKERRQ(ierr); ierr = PetscOptionsInt("-tao_bqnls_max_cg_its", "number of BNCG iterations to take for each Newton step", "", bnk->max_cg_its, &bnk->max_cg_its,NULL);CHKERRQ(ierr); ierr = PetscOptionsTail();CHKERRQ(ierr); ierr = TaoSetFromOptions(bnk->bncg);CHKERRQ(ierr); ierr = TaoLineSearchSetFromOptions(tao->linesearch);CHKERRQ(ierr); ierr = KSPSetFromOptions(tao->ksp);CHKERRQ(ierr); ierr = KSPGetType(tao->ksp,&ksp_type);CHKERRQ(ierr); bnk->is_nash = bnk->is_gltr = bnk->is_stcg = PETSC_FALSE; ierr = MatSetFromOptions(bqnk->B);CHKERRQ(ierr); ierr = MatGetOption(bqnk->B, MAT_SPD, &is_spd);CHKERRQ(ierr); if (!is_spd) SETERRQ(PetscObjectComm((PetscObject)tao), PETSC_ERR_ARG_INCOMP, "LMVM matrix must be symmetric positive-definite"); PetscFunctionReturn(0); } PETSC_EXTERN PetscErrorCode TaoCreate_BQNLS(Tao tao) { TAO_BNK *bnk; TAO_BQNK *bqnk; PetscErrorCode ierr; PetscFunctionBegin; ierr = TaoCreate_BQNK(tao);CHKERRQ(ierr); ierr = KSPSetOptionsPrefix(tao->ksp, "unused");CHKERRQ(ierr); tao->ops->solve = TaoSolve_BNLS; tao->ops->setfromoptions = TaoSetFromOptions_BQNLS; bnk = (TAO_BNK*)tao->data; bnk->update_type = BNK_UPDATE_STEP; bnk->computehessian = TaoBQNLSComputeHessian; bnk->computestep = TaoBQNLSComputeStep; bqnk = (TAO_BQNK*)bnk->ctx; ierr = MatSetOptionsPrefix(bqnk->B, "tao_bqnls_");CHKERRQ(ierr); ierr = MatSetType(bqnk->B, MATLMVMBFGS);CHKERRQ(ierr); PetscFunctionReturn(0); }