1aaa7dc30SBarry Smith #include <../src/tao/complementarity/impls/ssls/ssls.h> 2a7e14dcfSSatish Balay /* 3a7e14dcfSSatish Balay Context for ASXLS 4a7e14dcfSSatish Balay -- active-set - reduced matrices formed 5a7e14dcfSSatish Balay - inherit properties of original system 6a7e14dcfSSatish Balay -- semismooth (S) - function not differentiable 7a7e14dcfSSatish Balay - merit function continuously differentiable 8a7e14dcfSSatish Balay - Fischer-Burmeister reformulation of complementarity 9a7e14dcfSSatish Balay - Billups composition for two finite bounds 10a7e14dcfSSatish Balay -- infeasible (I) - iterates not guaranteed to remain within bounds 11a7e14dcfSSatish Balay -- feasible (F) - iterates guaranteed to remain within bounds 12a7e14dcfSSatish Balay -- linesearch (LS) - Armijo rule on direction 13a7e14dcfSSatish Balay 14a7e14dcfSSatish Balay Many other reformulations are possible and combinations of 15a7e14dcfSSatish Balay feasible/infeasible and linesearch/trust region are possible. 16a7e14dcfSSatish Balay 17a7e14dcfSSatish Balay Basic theory 18a7e14dcfSSatish Balay Fischer-Burmeister reformulation is semismooth with a continuously 19a7e14dcfSSatish Balay differentiable merit function and strongly semismooth if the F has 20a7e14dcfSSatish Balay lipschitz continuous derivatives. 21a7e14dcfSSatish Balay 22a7e14dcfSSatish Balay Every accumulation point generated by the algorithm is a stationary 23a7e14dcfSSatish Balay point for the merit function. Stationary points of the merit function 24a7e14dcfSSatish Balay are solutions of the complementarity problem if 25a7e14dcfSSatish Balay a. the stationary point has a BD-regular subdifferential, or 26a7e14dcfSSatish Balay b. the Schur complement F'/F'_ff is a P_0-matrix where ff is the 27a7e14dcfSSatish Balay index set corresponding to the free variables. 28a7e14dcfSSatish Balay 29a7e14dcfSSatish Balay If one of the accumulation points has a BD-regular subdifferential then 30a7e14dcfSSatish Balay a. the entire sequence converges to this accumulation point at 31a7e14dcfSSatish Balay a local q-superlinear rate 32a7e14dcfSSatish Balay b. if in addition the reformulation is strongly semismooth near 33a7e14dcfSSatish Balay this accumulation point, then the algorithm converges at a 34a7e14dcfSSatish Balay local q-quadratic rate. 35a7e14dcfSSatish Balay 36a7e14dcfSSatish Balay The theory for the feasible version follows from the feasible descent 37a7e14dcfSSatish Balay algorithm framework. 38a7e14dcfSSatish Balay 39a7e14dcfSSatish Balay References: 40a7e14dcfSSatish Balay Billups, "Algorithms for Complementarity Problems and Generalized 4196a0c994SBarry Smith Equations," Ph.D thesis, University of Wisconsin Madison, 1995. 42a7e14dcfSSatish Balay De Luca, Facchinei, Kanzow, "A Semismooth Equation Approach to the 43a7e14dcfSSatish Balay Solution of Nonlinear Complementarity Problems," Mathematical 4496a0c994SBarry Smith Programming, 75, pages 407439, 1996. 45a7e14dcfSSatish Balay Ferris, Kanzow, Munson, "Feasible Descent Algorithms for Mixed 46a7e14dcfSSatish Balay Complementarity Problems," Mathematical Programming, 86, 4796a0c994SBarry Smith pages 475497, 1999. 4896a0c994SBarry Smith Fischer, "A Special Newton type Optimization Method," Optimization, 4996a0c994SBarry Smith 24, 1992 50a7e14dcfSSatish Balay Munson, Facchinei, Ferris, Fischer, Kanzow, "The Semismooth Algorithm 5196a0c994SBarry Smith for Large Scale Complementarity Problems," Technical Report, 5296a0c994SBarry Smith University of Wisconsin Madison, 1999. 53a7e14dcfSSatish Balay */ 54a7e14dcfSSatish Balay 55a7e14dcfSSatish Balay 56e0877f53SBarry Smith static PetscErrorCode TaoSetUp_ASFLS(Tao tao) 57a7e14dcfSSatish Balay { 58a7e14dcfSSatish Balay TAO_SSLS *asls = (TAO_SSLS *)tao->data; 59a7e14dcfSSatish Balay PetscErrorCode ierr; 60a7e14dcfSSatish Balay 61a7e14dcfSSatish Balay PetscFunctionBegin; 62a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&tao->gradient);CHKERRQ(ierr); 63a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&tao->stepdirection);CHKERRQ(ierr); 64a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&asls->ff);CHKERRQ(ierr); 65a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&asls->dpsi);CHKERRQ(ierr); 66a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&asls->da);CHKERRQ(ierr); 67a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&asls->db);CHKERRQ(ierr); 68a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&asls->t1);CHKERRQ(ierr); 69a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution,&asls->t2);CHKERRQ(ierr); 70a7e14dcfSSatish Balay ierr = VecDuplicate(tao->solution, &asls->w);CHKERRQ(ierr); 716c23d075SBarry Smith asls->fixed = NULL; 726c23d075SBarry Smith asls->free = NULL; 736c23d075SBarry Smith asls->J_sub = NULL; 746c23d075SBarry Smith asls->Jpre_sub = NULL; 756c23d075SBarry Smith asls->r1 = NULL; 766c23d075SBarry Smith asls->r2 = NULL; 776c23d075SBarry Smith asls->r3 = NULL; 786c23d075SBarry Smith asls->dxfree = NULL; 79a7e14dcfSSatish Balay PetscFunctionReturn(0); 80a7e14dcfSSatish Balay } 81a7e14dcfSSatish Balay 82a7e14dcfSSatish Balay static PetscErrorCode Tao_ASLS_FunctionGradient(TaoLineSearch ls, Vec X, PetscReal *fcn, Vec G, void *ptr) 83a7e14dcfSSatish Balay { 84441846f8SBarry Smith Tao tao = (Tao)ptr; 85a7e14dcfSSatish Balay TAO_SSLS *asls = (TAO_SSLS *)tao->data; 86a7e14dcfSSatish Balay PetscErrorCode ierr; 87a7e14dcfSSatish Balay 88a7e14dcfSSatish Balay PetscFunctionBegin; 89a7e14dcfSSatish Balay ierr = TaoComputeConstraints(tao, X, tao->constraints);CHKERRQ(ierr); 90a7e14dcfSSatish Balay ierr = VecFischer(X,tao->constraints,tao->XL,tao->XU,asls->ff);CHKERRQ(ierr); 91a7e14dcfSSatish Balay ierr = VecNorm(asls->ff,NORM_2,&asls->merit);CHKERRQ(ierr); 92a7e14dcfSSatish Balay *fcn = 0.5*asls->merit*asls->merit; 93ffad9901SBarry Smith ierr = TaoComputeJacobian(tao,tao->solution,tao->jacobian,tao->jacobian_pre);CHKERRQ(ierr); 94a7e14dcfSSatish Balay 95235fd6e6SBarry Smith ierr = MatDFischer(tao->jacobian, tao->solution, tao->constraints,tao->XL, tao->XU, asls->t1, asls->t2,asls->da, asls->db);CHKERRQ(ierr); 96a7e14dcfSSatish Balay ierr = VecPointwiseMult(asls->t1, asls->ff, asls->db);CHKERRQ(ierr); 97a7e14dcfSSatish Balay ierr = MatMultTranspose(tao->jacobian,asls->t1,G);CHKERRQ(ierr); 98a7e14dcfSSatish Balay ierr = VecPointwiseMult(asls->t1, asls->ff, asls->da);CHKERRQ(ierr); 99a7e14dcfSSatish Balay ierr = VecAXPY(G,1.0,asls->t1);CHKERRQ(ierr); 100a7e14dcfSSatish Balay PetscFunctionReturn(0); 101a7e14dcfSSatish Balay } 102a7e14dcfSSatish Balay 103441846f8SBarry Smith static PetscErrorCode TaoDestroy_ASFLS(Tao tao) 104a7e14dcfSSatish Balay { 105a7e14dcfSSatish Balay TAO_SSLS *ssls = (TAO_SSLS *)tao->data; 106a7e14dcfSSatish Balay PetscErrorCode ierr; 107a7e14dcfSSatish Balay 108a7e14dcfSSatish Balay PetscFunctionBegin; 109a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->ff);CHKERRQ(ierr); 110a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->dpsi);CHKERRQ(ierr); 111a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->da);CHKERRQ(ierr); 112a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->db);CHKERRQ(ierr); 113a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->w);CHKERRQ(ierr); 114a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->t1);CHKERRQ(ierr); 115a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->t2);CHKERRQ(ierr); 116a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->r1);CHKERRQ(ierr); 117a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->r2);CHKERRQ(ierr); 118a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->r3);CHKERRQ(ierr); 119a7e14dcfSSatish Balay ierr = VecDestroy(&ssls->dxfree);CHKERRQ(ierr); 120a7e14dcfSSatish Balay ierr = MatDestroy(&ssls->J_sub);CHKERRQ(ierr); 121a7e14dcfSSatish Balay ierr = MatDestroy(&ssls->Jpre_sub);CHKERRQ(ierr); 122a7e14dcfSSatish Balay ierr = ISDestroy(&ssls->fixed);CHKERRQ(ierr); 123a7e14dcfSSatish Balay ierr = ISDestroy(&ssls->free);CHKERRQ(ierr); 124a7e14dcfSSatish Balay ierr = PetscFree(tao->data);CHKERRQ(ierr); 1256c23d075SBarry Smith tao->data = NULL; 126a7e14dcfSSatish Balay PetscFunctionReturn(0); 127a7e14dcfSSatish Balay } 12847a47007SBarry Smith 129441846f8SBarry Smith static PetscErrorCode TaoSolve_ASFLS(Tao tao) 130a7e14dcfSSatish Balay { 131a7e14dcfSSatish Balay TAO_SSLS *asls = (TAO_SSLS *)tao->data; 132a7e14dcfSSatish Balay PetscReal psi,ndpsi, normd, innerd, t=0; 1338931d482SJason Sarich PetscInt nf; 134a7e14dcfSSatish Balay PetscErrorCode ierr; 135e4cb33bbSBarry Smith TaoConvergedReason reason; 136e4cb33bbSBarry Smith TaoLineSearchConvergedReason ls_reason; 137a7e14dcfSSatish Balay 138a7e14dcfSSatish Balay PetscFunctionBegin; 139a7e14dcfSSatish Balay /* Assume that Setup has been called! 140a7e14dcfSSatish Balay Set the structure for the Jacobian and create a linear solver. */ 141a7e14dcfSSatish Balay 142a7e14dcfSSatish Balay ierr = TaoComputeVariableBounds(tao);CHKERRQ(ierr); 143a7e14dcfSSatish Balay ierr = TaoLineSearchSetObjectiveAndGradientRoutine(tao->linesearch,Tao_ASLS_FunctionGradient,tao);CHKERRQ(ierr); 144a7e14dcfSSatish Balay ierr = TaoLineSearchSetObjectiveRoutine(tao->linesearch,Tao_SSLS_Function,tao);CHKERRQ(ierr); 145a7e14dcfSSatish Balay ierr = TaoLineSearchSetVariableBounds(tao->linesearch,tao->XL,tao->XU);CHKERRQ(ierr); 146a7e14dcfSSatish Balay 147a7e14dcfSSatish Balay ierr = VecMedian(tao->XL, tao->solution, tao->XU, tao->solution);CHKERRQ(ierr); 148a7e14dcfSSatish Balay 149a7e14dcfSSatish Balay /* Calculate the function value and fischer function value at the 150a7e14dcfSSatish Balay current iterate */ 151a7e14dcfSSatish Balay ierr = TaoLineSearchComputeObjectiveAndGradient(tao->linesearch,tao->solution,&psi,asls->dpsi);CHKERRQ(ierr); 152a7e14dcfSSatish Balay ierr = VecNorm(asls->dpsi,NORM_2,&ndpsi);CHKERRQ(ierr); 153a7e14dcfSSatish Balay 154a7e14dcfSSatish Balay while (1) { 155e4cb33bbSBarry Smith /* Check the converged criteria */ 1568931d482SJason Sarich ierr = PetscInfo3(tao,"iter %D, merit: %g, ||dpsi||: %g\n",tao->niter,(double)asls->merit,(double)ndpsi);CHKERRQ(ierr); 1578931d482SJason Sarich ierr = TaoMonitor(tao,tao->niter,asls->merit,ndpsi,0.0,t,&reason);CHKERRQ(ierr); 158a7e14dcfSSatish Balay if (TAO_CONTINUE_ITERATING != reason) break; 159e6d4cb7fSJason Sarich tao->niter++; 160a7e14dcfSSatish Balay 161a7e14dcfSSatish Balay /* We are going to solve a linear system of equations. We need to 162a7e14dcfSSatish Balay set the tolerances for the solve so that we maintain an asymptotic 163a7e14dcfSSatish Balay rate of convergence that is superlinear. 164a7e14dcfSSatish Balay Note: these tolerances are for the reduced system. We really need 165a7e14dcfSSatish Balay to make sure that the full system satisfies the full-space conditions. 166a7e14dcfSSatish Balay 167a7e14dcfSSatish Balay This rule gives superlinear asymptotic convergence 168a7e14dcfSSatish Balay asls->atol = min(0.5, asls->merit*sqrt(asls->merit)); 169a7e14dcfSSatish Balay asls->rtol = 0.0; 170a7e14dcfSSatish Balay 171a7e14dcfSSatish Balay This rule gives quadratic asymptotic convergence 172a7e14dcfSSatish Balay asls->atol = min(0.5, asls->merit*asls->merit); 173a7e14dcfSSatish Balay asls->rtol = 0.0; 174a7e14dcfSSatish Balay 175a7e14dcfSSatish Balay Calculate a free and fixed set of variables. The fixed set of 176a7e14dcfSSatish Balay variables are those for the d_b is approximately equal to zero. 177a7e14dcfSSatish Balay The definition of approximately changes as we approach the solution 178a7e14dcfSSatish Balay to the problem. 179a7e14dcfSSatish Balay 180a7e14dcfSSatish Balay No one rule is guaranteed to work in all cases. The following 181a7e14dcfSSatish Balay definition is based on the norm of the Jacobian matrix. If the 182a7e14dcfSSatish Balay norm is large, the tolerance becomes smaller. */ 183a7e14dcfSSatish Balay ierr = MatNorm(tao->jacobian,NORM_1,&asls->identifier);CHKERRQ(ierr); 184a7e14dcfSSatish Balay asls->identifier = PetscMin(asls->merit, 1e-2) / (1 + asls->identifier); 185a7e14dcfSSatish Balay 186a7e14dcfSSatish Balay ierr = VecSet(asls->t1,-asls->identifier);CHKERRQ(ierr); 187a7e14dcfSSatish Balay ierr = VecSet(asls->t2, asls->identifier);CHKERRQ(ierr); 188a7e14dcfSSatish Balay 189a7e14dcfSSatish Balay ierr = ISDestroy(&asls->fixed);CHKERRQ(ierr); 190a7e14dcfSSatish Balay ierr = ISDestroy(&asls->free);CHKERRQ(ierr); 191a7e14dcfSSatish Balay ierr = VecWhichBetweenOrEqual(asls->t1, asls->db, asls->t2, &asls->fixed);CHKERRQ(ierr); 1924473680cSBarry Smith ierr = ISComplementVec(asls->fixed,asls->t1, &asls->free);CHKERRQ(ierr); 193a7e14dcfSSatish Balay 194a7e14dcfSSatish Balay ierr = ISGetSize(asls->fixed,&nf);CHKERRQ(ierr); 195335036cbSBarry Smith ierr = PetscInfo1(tao,"Number of fixed variables: %D\n", nf);CHKERRQ(ierr); 196a7e14dcfSSatish Balay 197a7e14dcfSSatish Balay /* We now have our partition. Now calculate the direction in the 198a7e14dcfSSatish Balay fixed variable space. */ 199302440fdSBarry Smith ierr = TaoVecGetSubVec(asls->ff, asls->fixed, tao->subset_type, 0.0, &asls->r1);CHKERRQ(ierr); 200302440fdSBarry Smith ierr = TaoVecGetSubVec(asls->da, asls->fixed, tao->subset_type, 1.0, &asls->r2);CHKERRQ(ierr); 201a7e14dcfSSatish Balay ierr = VecPointwiseDivide(asls->r1,asls->r1,asls->r2);CHKERRQ(ierr); 202a7e14dcfSSatish Balay ierr = VecSet(tao->stepdirection,0.0);CHKERRQ(ierr); 2034473680cSBarry Smith ierr = VecISAXPY(tao->stepdirection, asls->fixed, 1.0,asls->r1);CHKERRQ(ierr); 204a7e14dcfSSatish Balay 205a7e14dcfSSatish Balay /* Our direction in the Fixed Variable Set is fixed. Calculate the 206a7e14dcfSSatish Balay information needed for the step in the Free Variable Set. To 207a7e14dcfSSatish Balay do this, we need to know the diagonal perturbation and the 208a7e14dcfSSatish Balay right hand side. */ 209a7e14dcfSSatish Balay 210b98f30f2SJason Sarich ierr = TaoVecGetSubVec(asls->da, asls->free, tao->subset_type, 0.0, &asls->r1);CHKERRQ(ierr); 211b98f30f2SJason Sarich ierr = TaoVecGetSubVec(asls->ff, asls->free, tao->subset_type, 0.0, &asls->r2);CHKERRQ(ierr); 212b98f30f2SJason Sarich ierr = TaoVecGetSubVec(asls->db, asls->free, tao->subset_type, 1.0, &asls->r3);CHKERRQ(ierr); 213a7e14dcfSSatish Balay ierr = VecPointwiseDivide(asls->r1,asls->r1, asls->r3);CHKERRQ(ierr); 214a7e14dcfSSatish Balay ierr = VecPointwiseDivide(asls->r2,asls->r2, asls->r3);CHKERRQ(ierr); 215a7e14dcfSSatish Balay 216a7e14dcfSSatish Balay /* r1 is the diagonal perturbation 217a7e14dcfSSatish Balay r2 is the right hand side 218a7e14dcfSSatish Balay r3 is no longer needed 219a7e14dcfSSatish Balay 220a7e14dcfSSatish Balay Now need to modify r2 for our direction choice in the fixed 221a7e14dcfSSatish Balay variable set: calculate t1 = J*d, take the reduced vector 222a7e14dcfSSatish Balay of t1 and modify r2. */ 223a7e14dcfSSatish Balay 224a7e14dcfSSatish Balay ierr = MatMult(tao->jacobian, tao->stepdirection, asls->t1);CHKERRQ(ierr); 225b98f30f2SJason Sarich ierr = TaoVecGetSubVec(asls->t1,asls->free,tao->subset_type,0.0,&asls->r3);CHKERRQ(ierr); 226a7e14dcfSSatish Balay ierr = VecAXPY(asls->r2, -1.0, asls->r3);CHKERRQ(ierr); 227a7e14dcfSSatish Balay 228a7e14dcfSSatish Balay /* Calculate the reduced problem matrix and the direction */ 229b98f30f2SJason Sarich ierr = TaoMatGetSubMat(tao->jacobian, asls->free, asls->w, tao->subset_type,&asls->J_sub);CHKERRQ(ierr); 230a7e14dcfSSatish Balay if (tao->jacobian != tao->jacobian_pre) { 231b98f30f2SJason Sarich ierr = TaoMatGetSubMat(tao->jacobian_pre, asls->free, asls->w, tao->subset_type, &asls->Jpre_sub);CHKERRQ(ierr); 232a7e14dcfSSatish Balay } else { 233a7e14dcfSSatish Balay ierr = MatDestroy(&asls->Jpre_sub);CHKERRQ(ierr); 234a7e14dcfSSatish Balay asls->Jpre_sub = asls->J_sub; 235a7e14dcfSSatish Balay ierr = PetscObjectReference((PetscObject)(asls->Jpre_sub));CHKERRQ(ierr); 236a7e14dcfSSatish Balay } 237a7e14dcfSSatish Balay ierr = MatDiagonalSet(asls->J_sub, asls->r1,ADD_VALUES);CHKERRQ(ierr); 238b98f30f2SJason Sarich ierr = TaoVecGetSubVec(tao->stepdirection, asls->free, tao->subset_type, 0.0, &asls->dxfree);CHKERRQ(ierr); 239a7e14dcfSSatish Balay ierr = VecSet(asls->dxfree, 0.0);CHKERRQ(ierr); 240a7e14dcfSSatish Balay 241a7e14dcfSSatish Balay /* Calculate the reduced direction. (Really negative of Newton 242a7e14dcfSSatish Balay direction. Therefore, rest of the code uses -d.) */ 243a7e14dcfSSatish Balay ierr = KSPReset(tao->ksp);CHKERRQ(ierr); 24423ee1639SBarry Smith ierr = KSPSetOperators(tao->ksp, asls->J_sub, asls->Jpre_sub);CHKERRQ(ierr); 245a7e14dcfSSatish Balay ierr = KSPSolve(tao->ksp, asls->r2, asls->dxfree);CHKERRQ(ierr); 246b0026674SJason Sarich ierr = KSPGetIterationNumber(tao->ksp,&tao->ksp_its);CHKERRQ(ierr); 247b0026674SJason Sarich tao->ksp_tot_its+=tao->ksp_its; 248a7e14dcfSSatish Balay 249a7e14dcfSSatish Balay /* Add the direction in the free variables back into the real direction. */ 2504473680cSBarry Smith ierr = VecISAXPY(tao->stepdirection, asls->free, 1.0,asls->dxfree);CHKERRQ(ierr); 251a7e14dcfSSatish Balay 252a7e14dcfSSatish Balay 253a7e14dcfSSatish Balay /* Check the projected real direction for descent and if not, use the negative 254a7e14dcfSSatish Balay gradient direction. */ 255a7e14dcfSSatish Balay ierr = VecCopy(tao->stepdirection, asls->w);CHKERRQ(ierr); 256a7e14dcfSSatish Balay ierr = VecScale(asls->w, -1.0);CHKERRQ(ierr); 257a7e14dcfSSatish Balay ierr = VecBoundGradientProjection(asls->w, tao->solution, tao->XL, tao->XU, asls->w);CHKERRQ(ierr); 258a7e14dcfSSatish Balay ierr = VecNorm(asls->w, NORM_2, &normd);CHKERRQ(ierr); 259a7e14dcfSSatish Balay ierr = VecDot(asls->w, asls->dpsi, &innerd);CHKERRQ(ierr); 260a7e14dcfSSatish Balay 261d90ca52eSBarry Smith if (innerd >= -asls->delta*PetscPowReal(normd, asls->rho)) { 262335036cbSBarry Smith ierr = PetscInfo1(tao,"Gradient direction: %5.4e.\n", (double)innerd);CHKERRQ(ierr); 2638931d482SJason Sarich ierr = PetscInfo1(tao, "Iteration %D: newton direction not descent\n", tao->niter);CHKERRQ(ierr); 264a7e14dcfSSatish Balay ierr = VecCopy(asls->dpsi, tao->stepdirection);CHKERRQ(ierr); 265a7e14dcfSSatish Balay ierr = VecDot(asls->dpsi, tao->stepdirection, &innerd);CHKERRQ(ierr); 266a7e14dcfSSatish Balay } 267a7e14dcfSSatish Balay 268a7e14dcfSSatish Balay ierr = VecScale(tao->stepdirection, -1.0);CHKERRQ(ierr); 269a7e14dcfSSatish Balay innerd = -innerd; 270a7e14dcfSSatish Balay 271a7e14dcfSSatish Balay /* We now have a correct descent direction. Apply a linesearch to 272a7e14dcfSSatish Balay find the new iterate. */ 273a7e14dcfSSatish Balay ierr = TaoLineSearchSetInitialStepLength(tao->linesearch, 1.0);CHKERRQ(ierr); 274d90ca52eSBarry Smith ierr = TaoLineSearchApply(tao->linesearch, tao->solution, &psi,asls->dpsi, tao->stepdirection, &t, &ls_reason);CHKERRQ(ierr); 275a7e14dcfSSatish Balay ierr = VecNorm(asls->dpsi, NORM_2, &ndpsi);CHKERRQ(ierr); 276a7e14dcfSSatish Balay } 277a7e14dcfSSatish Balay PetscFunctionReturn(0); 278a7e14dcfSSatish Balay } 279a7e14dcfSSatish Balay 280a7e14dcfSSatish Balay /* ---------------------------------------------------------- */ 2811522df2eSJason Sarich /*MC 2821522df2eSJason Sarich TAOASFLS - Active-set feasible linesearch algorithm for solving 2831522df2eSJason Sarich complementarity constraints 2841522df2eSJason Sarich 2851522df2eSJason Sarich Options Database Keys: 2861522df2eSJason Sarich + -tao_ssls_delta - descent test fraction 2871522df2eSJason Sarich - -tao_ssls_rho - descent test power 2881522df2eSJason Sarich 2891eb8069cSJason Sarich Level: beginner 2901522df2eSJason Sarich M*/ 291728e0ed0SBarry Smith PETSC_EXTERN PetscErrorCode TaoCreate_ASFLS(Tao tao) 292a7e14dcfSSatish Balay { 293a7e14dcfSSatish Balay TAO_SSLS *asls; 294a7e14dcfSSatish Balay PetscErrorCode ierr; 2958caf6e8cSBarry Smith const char *armijo_type = TAOLINESEARCHARMIJO; 296a7e14dcfSSatish Balay 297a7e14dcfSSatish Balay PetscFunctionBegin; 2983c9e27cfSGeoffrey Irving ierr = PetscNewLog(tao,&asls);CHKERRQ(ierr); 299a7e14dcfSSatish Balay tao->data = (void*)asls; 300a7e14dcfSSatish Balay tao->ops->solve = TaoSolve_ASFLS; 301a7e14dcfSSatish Balay tao->ops->setup = TaoSetUp_ASFLS; 302a7e14dcfSSatish Balay tao->ops->view = TaoView_SSLS; 303a7e14dcfSSatish Balay tao->ops->setfromoptions = TaoSetFromOptions_SSLS; 304a7e14dcfSSatish Balay tao->ops->destroy = TaoDestroy_ASFLS; 305a7e14dcfSSatish Balay tao->subset_type = TAO_SUBSET_SUBVEC; 306a7e14dcfSSatish Balay asls->delta = 1e-10; 307a7e14dcfSSatish Balay asls->rho = 2.1; 3086c23d075SBarry Smith asls->fixed = NULL; 3096c23d075SBarry Smith asls->free = NULL; 3106c23d075SBarry Smith asls->J_sub = NULL; 3116c23d075SBarry Smith asls->Jpre_sub = NULL; 3126c23d075SBarry Smith asls->w = NULL; 3136c23d075SBarry Smith asls->r1 = NULL; 3146c23d075SBarry Smith asls->r2 = NULL; 3156c23d075SBarry Smith asls->r3 = NULL; 3166c23d075SBarry Smith asls->t1 = NULL; 3176c23d075SBarry Smith asls->t2 = NULL; 3186c23d075SBarry Smith asls->dxfree = NULL; 319a7e14dcfSSatish Balay asls->identifier = 1e-5; 320a7e14dcfSSatish Balay 321a7e14dcfSSatish Balay ierr = TaoLineSearchCreate(((PetscObject)tao)->comm, &tao->linesearch);CHKERRQ(ierr); 322*63b15415SAlp Dener ierr = PetscObjectIncrementTabLevel((PetscObject)tao->linesearch, (PetscObject)tao, 1);CHKERRQ(ierr); 323a7e14dcfSSatish Balay ierr = TaoLineSearchSetType(tao->linesearch, armijo_type);CHKERRQ(ierr); 3245d527766SPatrick Farrell ierr = TaoLineSearchSetOptionsPrefix(tao->linesearch,tao->hdr.prefix);CHKERRQ(ierr); 325a7e14dcfSSatish Balay ierr = TaoLineSearchSetFromOptions(tao->linesearch);CHKERRQ(ierr); 326a7e14dcfSSatish Balay 327a7e14dcfSSatish Balay ierr = KSPCreate(((PetscObject)tao)->comm, &tao->ksp);CHKERRQ(ierr); 328*63b15415SAlp Dener ierr = PetscObjectIncrementTabLevel((PetscObject)tao->ksp, (PetscObject)tao, 1);CHKERRQ(ierr); 3295d527766SPatrick Farrell ierr = KSPSetOptionsPrefix(tao->ksp,tao->hdr.prefix);CHKERRQ(ierr); 330a7e14dcfSSatish Balay ierr = KSPSetFromOptions(tao->ksp);CHKERRQ(ierr); 3316552cf8aSJason Sarich 3326552cf8aSJason Sarich /* Override default settings (unless already changed) */ 3336552cf8aSJason Sarich if (!tao->max_it_changed) tao->max_it = 2000; 3346552cf8aSJason Sarich if (!tao->max_funcs_changed) tao->max_funcs = 4000; 3356552cf8aSJason Sarich if (!tao->gttol_changed) tao->gttol = 0; 3366552cf8aSJason Sarich if (!tao->grtol_changed) tao->grtol = 0; 3376f4723b1SBarry Smith #if defined(PETSC_USE_REAL_SINGLE) 3386552cf8aSJason Sarich if (!tao->gatol_changed) tao->gatol = 1.0e-6; 3396552cf8aSJason Sarich if (!tao->fmin_changed) tao->fmin = 1.0e-4; 3406f4723b1SBarry Smith #else 3416552cf8aSJason Sarich if (!tao->gatol_changed) tao->gatol = 1.0e-16; 3426552cf8aSJason Sarich if (!tao->fmin_changed) tao->fmin = 1.0e-8; 3436f4723b1SBarry Smith #endif 344a7e14dcfSSatish Balay PetscFunctionReturn(0); 345a7e14dcfSSatish Balay } 346