1af0996ceSBarry Smith #include <petsc/private/taolinesearchimpl.h> 2aaa7dc30SBarry Smith #include <../src/tao/linesearch/impls/morethuente/morethuente.h> 3a7e14dcfSSatish Balay 4a7e14dcfSSatish Balay /* 5a7e14dcfSSatish Balay This algorithm is taken from More' and Thuente, "Line search algorithms 6a7e14dcfSSatish Balay with guaranteed sufficient decrease", Argonne National Laboratory, 7a7e14dcfSSatish Balay Technical Report MCS-P330-1092. 8a7e14dcfSSatish Balay */ 9a7e14dcfSSatish Balay 1053506e15SBarry Smith static PetscErrorCode Tao_mcstep(TaoLineSearch ls,PetscReal *stx,PetscReal *fx,PetscReal *dx,PetscReal *sty,PetscReal *fy,PetscReal *dy,PetscReal *stp,PetscReal *fp,PetscReal *dp); 11a7e14dcfSSatish Balay 12a7e14dcfSSatish Balay static PetscErrorCode TaoLineSearchDestroy_MT(TaoLineSearch ls) 13a7e14dcfSSatish Balay { 1497ab8e72SStefano Zampini TaoLineSearch_MT *mt = (TaoLineSearch_MT*)(ls->data); 1553506e15SBarry Smith 16a7e14dcfSSatish Balay PetscFunctionBegin; 17*9566063dSJacob Faibussowitsch PetscCall(PetscObjectDereference((PetscObject)mt->x)); 18*9566063dSJacob Faibussowitsch PetscCall(VecDestroy(&mt->work)); 19*9566063dSJacob Faibussowitsch PetscCall(PetscFree(ls->data)); 20a7e14dcfSSatish Balay PetscFunctionReturn(0); 21a7e14dcfSSatish Balay } 22a7e14dcfSSatish Balay 234416b707SBarry Smith static PetscErrorCode TaoLineSearchSetFromOptions_MT(PetscOptionItems *PetscOptionsObject,TaoLineSearch ls) 24a7e14dcfSSatish Balay { 25a7e14dcfSSatish Balay PetscFunctionBegin; 26a7e14dcfSSatish Balay PetscFunctionReturn(0); 27a7e14dcfSSatish Balay } 28a7e14dcfSSatish Balay 292a0dac07SAlp Dener static PetscErrorCode TaoLineSearchMonitor_MT(TaoLineSearch ls) 302a0dac07SAlp Dener { 312a0dac07SAlp Dener TaoLineSearch_MT *mt = (TaoLineSearch_MT*)ls->data; 322a0dac07SAlp Dener 332a0dac07SAlp Dener PetscFunctionBegin; 34*9566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(ls->viewer, "stx: %g, fx: %g, dgx: %g\n", (double)mt->stx, (double)mt->fx, (double)mt->dgx)); 35*9566063dSJacob Faibussowitsch PetscCall(PetscViewerASCIIPrintf(ls->viewer, "sty: %g, fy: %g, dgy: %g\n", (double)mt->sty, (double)mt->fy, (double)mt->dgy)); 362a0dac07SAlp Dener PetscFunctionReturn(0); 372a0dac07SAlp Dener } 38a7e14dcfSSatish Balay 39a7e14dcfSSatish Balay static PetscErrorCode TaoLineSearchApply_MT(TaoLineSearch ls, Vec x, PetscReal *f, Vec g, Vec s) 40a7e14dcfSSatish Balay { 4197ab8e72SStefano Zampini TaoLineSearch_MT *mt = (TaoLineSearch_MT*)(ls->data); 42a7e14dcfSSatish Balay PetscReal xtrapf = 4.0; 43a7e14dcfSSatish Balay PetscReal finit, width, width1, dginit, fm, fxm, fym, dgm, dgxm, dgym; 44a7e14dcfSSatish Balay PetscReal dgx, dgy, dg, dg2, fx, fy, stx, sty, dgtest; 45a7e14dcfSSatish Balay PetscReal ftest1=0.0, ftest2=0.0; 46a7e14dcfSSatish Balay PetscInt i, stage1,n1,n2,nn1,nn2; 47a7e14dcfSSatish Balay PetscReal bstepmin1, bstepmin2, bstepmax; 4853506e15SBarry Smith PetscBool g_computed = PETSC_FALSE; /* to prevent extra gradient computation */ 49a7e14dcfSSatish Balay 50a7e14dcfSSatish Balay PetscFunctionBegin; 51a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_CONTINUE_ITERATING; 52*9566063dSJacob Faibussowitsch PetscCall(TaoLineSearchMonitor(ls, 0, *f, 0.0)); 53a7e14dcfSSatish Balay /* Check work vector */ 54a7e14dcfSSatish Balay if (!mt->work) { 55*9566063dSJacob Faibussowitsch PetscCall(VecDuplicate(x,&mt->work)); 56a7e14dcfSSatish Balay mt->x = x; 57*9566063dSJacob Faibussowitsch PetscCall(PetscObjectReference((PetscObject)mt->x)); 5853506e15SBarry Smith } else if (x != mt->x) { 59*9566063dSJacob Faibussowitsch PetscCall(VecDestroy(&mt->work)); 60*9566063dSJacob Faibussowitsch PetscCall(VecDuplicate(x,&mt->work)); 61*9566063dSJacob Faibussowitsch PetscCall(PetscObjectDereference((PetscObject)mt->x)); 62a7e14dcfSSatish Balay mt->x = x; 63*9566063dSJacob Faibussowitsch PetscCall(PetscObjectReference((PetscObject)mt->x)); 64a7e14dcfSSatish Balay } 65a7e14dcfSSatish Balay 66a7e14dcfSSatish Balay if (ls->bounded) { 67a7e14dcfSSatish Balay /* Compute step length needed to make all variables equal a bound */ 68a7e14dcfSSatish Balay /* Compute the smallest steplength that will make one nonbinding variable 69a7e14dcfSSatish Balay equal the bound */ 70*9566063dSJacob Faibussowitsch PetscCall(VecGetLocalSize(ls->upper,&n1)); 71*9566063dSJacob Faibussowitsch PetscCall(VecGetLocalSize(mt->x, &n2)); 72*9566063dSJacob Faibussowitsch PetscCall(VecGetSize(ls->upper,&nn1)); 73*9566063dSJacob Faibussowitsch PetscCall(VecGetSize(mt->x,&nn2)); 743c859ba3SBarry Smith PetscCheck(n1 == n2 && nn1 == nn2,PETSC_COMM_SELF,PETSC_ERR_ARG_SIZ,"Variable vector not compatible with bounds vector"); 75*9566063dSJacob Faibussowitsch PetscCall(VecScale(s,-1.0)); 76*9566063dSJacob Faibussowitsch PetscCall(VecBoundGradientProjection(s,x,ls->lower,ls->upper,s)); 77*9566063dSJacob Faibussowitsch PetscCall(VecScale(s,-1.0)); 78*9566063dSJacob Faibussowitsch PetscCall(VecStepBoundInfo(x,s,ls->lower,ls->upper,&bstepmin1,&bstepmin2,&bstepmax)); 79a7e14dcfSSatish Balay ls->stepmax = PetscMin(bstepmax,1.0e15); 80a7e14dcfSSatish Balay } 81a7e14dcfSSatish Balay 82*9566063dSJacob Faibussowitsch PetscCall(VecDot(g,s,&dginit)); 83a7e14dcfSSatish Balay if (PetscIsInfOrNanReal(dginit)) { 84*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Initial Line Search step * g is Inf or Nan (%g)\n",(double)dginit)); 85a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_FAILED_INFORNAN; 86a7e14dcfSSatish Balay PetscFunctionReturn(0); 87a7e14dcfSSatish Balay } 88a7e14dcfSSatish Balay if (dginit >= 0.0) { 89*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Initial Line Search step * g is not descent direction (%g)\n",(double)dginit)); 90a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_FAILED_ASCENT; 91a7e14dcfSSatish Balay PetscFunctionReturn(0); 92a7e14dcfSSatish Balay } 93a7e14dcfSSatish Balay 94a7e14dcfSSatish Balay /* Initialization */ 95a7e14dcfSSatish Balay mt->bracket = 0; 96a7e14dcfSSatish Balay stage1 = 1; 97a7e14dcfSSatish Balay finit = *f; 98a7e14dcfSSatish Balay dgtest = ls->ftol * dginit; 99a7e14dcfSSatish Balay width = ls->stepmax - ls->stepmin; 100a7e14dcfSSatish Balay width1 = width * 2.0; 101*9566063dSJacob Faibussowitsch PetscCall(VecCopy(x,mt->work)); 102a7e14dcfSSatish Balay /* Variable dictionary: 103a7e14dcfSSatish Balay stx, fx, dgx - the step, function, and derivative at the best step 104a7e14dcfSSatish Balay sty, fy, dgy - the step, function, and derivative at the other endpoint 105a7e14dcfSSatish Balay of the interval of uncertainty 106a7e14dcfSSatish Balay step, f, dg - the step, function, and derivative at the current step */ 107a7e14dcfSSatish Balay 108a7e14dcfSSatish Balay stx = 0.0; 109a7e14dcfSSatish Balay fx = finit; 110a7e14dcfSSatish Balay dgx = dginit; 111a7e14dcfSSatish Balay sty = 0.0; 112a7e14dcfSSatish Balay fy = finit; 113a7e14dcfSSatish Balay dgy = dginit; 114a7e14dcfSSatish Balay 115a7e14dcfSSatish Balay ls->step = ls->initstep; 116a7e14dcfSSatish Balay for (i=0; i< ls->max_funcs; i++) { 117a7e14dcfSSatish Balay /* Set min and max steps to correspond to the interval of uncertainty */ 118a7e14dcfSSatish Balay if (mt->bracket) { 119a7e14dcfSSatish Balay ls->stepmin = PetscMin(stx,sty); 120a7e14dcfSSatish Balay ls->stepmax = PetscMax(stx,sty); 12153506e15SBarry Smith } else { 122a7e14dcfSSatish Balay ls->stepmin = stx; 123a7e14dcfSSatish Balay ls->stepmax = ls->step + xtrapf * (ls->step - stx); 124a7e14dcfSSatish Balay } 125a7e14dcfSSatish Balay 126a7e14dcfSSatish Balay /* Force the step to be within the bounds */ 127a7e14dcfSSatish Balay ls->step = PetscMax(ls->step,ls->stepmin); 128a7e14dcfSSatish Balay ls->step = PetscMin(ls->step,ls->stepmax); 129a7e14dcfSSatish Balay 130a7e14dcfSSatish Balay /* If an unusual termination is to occur, then let step be the lowest 131a7e14dcfSSatish Balay point obtained thus far */ 13253506e15SBarry Smith if ((stx!=0) && (((mt->bracket) && (ls->step <= ls->stepmin || ls->step >= ls->stepmax)) || ((mt->bracket) && (ls->stepmax - ls->stepmin <= ls->rtol * ls->stepmax)) || 133a7e14dcfSSatish Balay ((ls->nfeval+ls->nfgeval) >= ls->max_funcs - 1) || (mt->infoc == 0))) { 134a7e14dcfSSatish Balay ls->step = stx; 135a7e14dcfSSatish Balay } 136a7e14dcfSSatish Balay 137*9566063dSJacob Faibussowitsch PetscCall(VecCopy(x,mt->work)); 138*9566063dSJacob Faibussowitsch PetscCall(VecAXPY(mt->work,ls->step,s)); /* W = X + step*S */ 139a7e14dcfSSatish Balay 140a7e14dcfSSatish Balay if (ls->bounded) { 141*9566063dSJacob Faibussowitsch PetscCall(VecMedian(ls->lower, mt->work, ls->upper, mt->work)); 142a7e14dcfSSatish Balay } 143a7e14dcfSSatish Balay if (ls->usegts) { 144*9566063dSJacob Faibussowitsch PetscCall(TaoLineSearchComputeObjectiveAndGTS(ls,mt->work,f,&dg)); 145a7e14dcfSSatish Balay g_computed = PETSC_FALSE; 146a7e14dcfSSatish Balay } else { 147*9566063dSJacob Faibussowitsch PetscCall(TaoLineSearchComputeObjectiveAndGradient(ls,mt->work,f,g)); 148a7e14dcfSSatish Balay g_computed = PETSC_TRUE; 149a7e14dcfSSatish Balay if (ls->bounded) { 150*9566063dSJacob Faibussowitsch PetscCall(VecDot(g,x,&dg)); 151*9566063dSJacob Faibussowitsch PetscCall(VecDot(g,mt->work,&dg2)); 152a7e14dcfSSatish Balay dg = (dg2 - dg)/ls->step; 153a7e14dcfSSatish Balay } else { 154*9566063dSJacob Faibussowitsch PetscCall(VecDot(g,s,&dg)); 155a7e14dcfSSatish Balay } 156a7e14dcfSSatish Balay } 157a7e14dcfSSatish Balay 158e7709889SAlp Dener /* update bracketing parameters in the MT context for printouts in monitor */ 1592a0dac07SAlp Dener mt->stx = stx; 1602a0dac07SAlp Dener mt->fx = fx; 1612a0dac07SAlp Dener mt->dgx = dgx; 1622a0dac07SAlp Dener mt->sty = sty; 1632a0dac07SAlp Dener mt->fy = fy; 1642a0dac07SAlp Dener mt->dgy = dgy; 165*9566063dSJacob Faibussowitsch PetscCall(TaoLineSearchMonitor(ls, i+1, *f, ls->step)); 1662a0dac07SAlp Dener 16797ab8e72SStefano Zampini if (i == 0) ls->f_fullstep=*f; 168a7e14dcfSSatish Balay 169a7e14dcfSSatish Balay if (PetscIsInfOrNanReal(*f) || PetscIsInfOrNanReal(dg)) { 170a7e14dcfSSatish Balay /* User provided compute function generated Not-a-Number, assume 171a7e14dcfSSatish Balay domain violation and set function value and directional 172a7e14dcfSSatish Balay derivative to infinity. */ 173e270355aSBarry Smith *f = PETSC_INFINITY; 174e270355aSBarry Smith dg = PETSC_INFINITY; 175a7e14dcfSSatish Balay } 176a7e14dcfSSatish Balay 177a7e14dcfSSatish Balay ftest1 = finit + ls->step * dgtest; 17897ab8e72SStefano Zampini if (ls->bounded) ftest2 = finit + ls->step * dgtest * ls->ftol; 17997ab8e72SStefano Zampini 180a7e14dcfSSatish Balay /* Convergence testing */ 18153506e15SBarry Smith if (((*f - ftest1 <= 1.0e-10 * PetscAbsReal(finit)) && (PetscAbsReal(dg) + ls->gtol*dginit <= 0.0))) { 182*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls, "Line search success: Sufficient decrease and directional deriv conditions hold\n")); 183a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_SUCCESS; 184a7e14dcfSSatish Balay break; 185a7e14dcfSSatish Balay } 186a7e14dcfSSatish Balay 187a7e14dcfSSatish Balay /* Check Armijo if beyond the first breakpoint */ 188a7e14dcfSSatish Balay if (ls->bounded && (*f <= ftest2) && (ls->step >= bstepmin2)) { 189*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Line search success: Sufficient decrease.\n")); 1904e6ef68fSJason Sarich ls->reason = TAOLINESEARCH_SUCCESS; 191a7e14dcfSSatish Balay break; 192a7e14dcfSSatish Balay } 193a7e14dcfSSatish Balay 194a7e14dcfSSatish Balay /* Checks for bad cases */ 195a7e14dcfSSatish Balay if (((mt->bracket) && (ls->step <= ls->stepmin||ls->step >= ls->stepmax)) || (!mt->infoc)) { 196*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Rounding errors may prevent further progress. May not be a step satisfying\n")); 197*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"sufficient decrease and curvature conditions. Tolerances may be too small.\n")); 198a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_HALTED_OTHER; 199a7e14dcfSSatish Balay break; 200a7e14dcfSSatish Balay } 201a7e14dcfSSatish Balay if ((ls->step == ls->stepmax) && (*f <= ftest1) && (dg <= dgtest)) { 202*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Step is at the upper bound, stepmax (%g)\n",(double)ls->stepmax)); 203a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_HALTED_UPPERBOUND; 204a7e14dcfSSatish Balay break; 205a7e14dcfSSatish Balay } 206a7e14dcfSSatish Balay if ((ls->step == ls->stepmin) && (*f >= ftest1) && (dg >= dgtest)) { 207*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Step is at the lower bound, stepmin (%g)\n",(double)ls->stepmin)); 208a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_HALTED_LOWERBOUND; 209a7e14dcfSSatish Balay break; 210a7e14dcfSSatish Balay } 211a7e14dcfSSatish Balay if ((mt->bracket) && (ls->stepmax - ls->stepmin <= ls->rtol*ls->stepmax)) { 212*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Relative width of interval of uncertainty is at most rtol (%g)\n",(double)ls->rtol)); 213a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_HALTED_RTOL; 214a7e14dcfSSatish Balay break; 215a7e14dcfSSatish Balay } 216a7e14dcfSSatish Balay 217a7e14dcfSSatish Balay /* In the first stage, we seek a step for which the modified function 218a7e14dcfSSatish Balay has a nonpositive value and nonnegative derivative */ 21997ab8e72SStefano Zampini if ((stage1) && (*f <= ftest1) && (dg >= dginit * PetscMin(ls->ftol, ls->gtol))) stage1 = 0; 220a7e14dcfSSatish Balay 221a7e14dcfSSatish Balay /* A modified function is used to predict the step only if we 222a7e14dcfSSatish Balay have not obtained a step for which the modified function has a 223a7e14dcfSSatish Balay nonpositive function value and nonnegative derivative, and if a 224a7e14dcfSSatish Balay lower function value has been obtained but the decrease is not 225a7e14dcfSSatish Balay sufficient */ 226a7e14dcfSSatish Balay 227a7e14dcfSSatish Balay if ((stage1) && (*f <= fx) && (*f > ftest1)) { 228a7e14dcfSSatish Balay fm = *f - ls->step * dgtest; /* Define modified function */ 229a7e14dcfSSatish Balay fxm = fx - stx * dgtest; /* and derivatives */ 230a7e14dcfSSatish Balay fym = fy - sty * dgtest; 231a7e14dcfSSatish Balay dgm = dg - dgtest; 232a7e14dcfSSatish Balay dgxm = dgx - dgtest; 233a7e14dcfSSatish Balay dgym = dgy - dgtest; 234a7e14dcfSSatish Balay 235a7e14dcfSSatish Balay /* if (dgxm * (ls->step - stx) >= 0.0) */ 236a7e14dcfSSatish Balay /* Update the interval of uncertainty and compute the new step */ 237*9566063dSJacob Faibussowitsch PetscCall(Tao_mcstep(ls,&stx,&fxm,&dgxm,&sty,&fym,&dgym,&ls->step,&fm,&dgm)); 238a7e14dcfSSatish Balay 239a7e14dcfSSatish Balay fx = fxm + stx * dgtest; /* Reset the function and */ 240a7e14dcfSSatish Balay fy = fym + sty * dgtest; /* gradient values */ 241a7e14dcfSSatish Balay dgx = dgxm + dgtest; 242a7e14dcfSSatish Balay dgy = dgym + dgtest; 24353506e15SBarry Smith } else { 244a7e14dcfSSatish Balay /* Update the interval of uncertainty and compute the new step */ 245*9566063dSJacob Faibussowitsch PetscCall(Tao_mcstep(ls,&stx,&fx,&dgx,&sty,&fy,&dgy,&ls->step,f,&dg)); 246a7e14dcfSSatish Balay } 247a7e14dcfSSatish Balay 248a7e14dcfSSatish Balay /* Force a sufficient decrease in the interval of uncertainty */ 249a7e14dcfSSatish Balay if (mt->bracket) { 250a7e14dcfSSatish Balay if (PetscAbsReal(sty - stx) >= 0.66 * width1) ls->step = stx + 0.5*(sty - stx); 251a7e14dcfSSatish Balay width1 = width; 252a7e14dcfSSatish Balay width = PetscAbsReal(sty - stx); 253a7e14dcfSSatish Balay } 254a7e14dcfSSatish Balay } 255a7e14dcfSSatish Balay if ((ls->nfeval+ls->nfgeval) > ls->max_funcs) { 256*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"Number of line search function evals (%D) > maximum (%D)\n",(ls->nfeval+ls->nfgeval),ls->max_funcs)); 257a7e14dcfSSatish Balay ls->reason = TAOLINESEARCH_HALTED_MAXFCN; 258a7e14dcfSSatish Balay } 259a7e14dcfSSatish Balay 260a7e14dcfSSatish Balay /* Finish computations */ 261*9566063dSJacob Faibussowitsch PetscCall(PetscInfo(ls,"%D function evals in line search, step = %g\n",(ls->nfeval+ls->nfgeval),(double)ls->step)); 262a7e14dcfSSatish Balay 263a7e14dcfSSatish Balay /* Set new solution vector and compute gradient if needed */ 264*9566063dSJacob Faibussowitsch PetscCall(VecCopy(mt->work,x)); 265a7e14dcfSSatish Balay if (!g_computed) { 266*9566063dSJacob Faibussowitsch PetscCall(TaoLineSearchComputeGradient(ls,mt->work,g)); 267a7e14dcfSSatish Balay } 268a7e14dcfSSatish Balay PetscFunctionReturn(0); 269a7e14dcfSSatish Balay } 270a7e14dcfSSatish Balay 27190b6438dSAlp Dener /*MC 27290b6438dSAlp Dener TAOLINESEARCHMT - Line-search type with cubic interpolation that satisfies both the sufficient decrease and 2734c991b12SBarryFSmith curvature conditions. This method can take step lengths greater than 1. 27490b6438dSAlp Dener 27590b6438dSAlp Dener More-Thuente line-search can be selected with "-tao_ls_type more-thuente". 27690b6438dSAlp Dener 27790b6438dSAlp Dener References: 278606c0280SSatish Balay . * - JORGE J. MORE AND DAVID J. THUENTE, LINE SEARCH ALGORITHMS WITH GUARANTEED SUFFICIENT DECREASE. 27990b6438dSAlp Dener ACM Trans. Math. Software 20, no. 3 (1994): 286-307. 28090b6438dSAlp Dener 28190b6438dSAlp Dener Level: developer 28290b6438dSAlp Dener 28390b6438dSAlp Dener .seealso: TaoLineSearchCreate(), TaoLineSearchSetType(), TaoLineSearchApply() 28490b6438dSAlp Dener 28590b6438dSAlp Dener .keywords: Tao, linesearch 28690b6438dSAlp Dener M*/ 287728e0ed0SBarry Smith PETSC_EXTERN PetscErrorCode TaoLineSearchCreate_MT(TaoLineSearch ls) 288a7e14dcfSSatish Balay { 2898caf6e8cSBarry Smith TaoLineSearch_MT *ctx; 29053506e15SBarry Smith 291a7e14dcfSSatish Balay PetscFunctionBegin; 292a7e14dcfSSatish Balay PetscValidHeaderSpecific(ls,TAOLINESEARCH_CLASSID,1); 293*9566063dSJacob Faibussowitsch PetscCall(PetscNewLog(ls,&ctx)); 294a7e14dcfSSatish Balay ctx->bracket = 0; 295a7e14dcfSSatish Balay ctx->infoc = 1; 296a7e14dcfSSatish Balay ls->data = (void*)ctx; 297a7e14dcfSSatish Balay ls->initstep = 1.0; 29883c8fe1dSLisandro Dalcin ls->ops->setup = NULL; 29983c8fe1dSLisandro Dalcin ls->ops->reset = NULL; 300a7e14dcfSSatish Balay ls->ops->apply = TaoLineSearchApply_MT; 301a7e14dcfSSatish Balay ls->ops->destroy = TaoLineSearchDestroy_MT; 302a7e14dcfSSatish Balay ls->ops->setfromoptions = TaoLineSearchSetFromOptions_MT; 3032a0dac07SAlp Dener ls->ops->monitor = TaoLineSearchMonitor_MT; 304a7e14dcfSSatish Balay PetscFunctionReturn(0); 305a7e14dcfSSatish Balay } 306a7e14dcfSSatish Balay 307a7e14dcfSSatish Balay /* 308a7e14dcfSSatish Balay The subroutine mcstep is taken from the work of Jorge Nocedal. 309a7e14dcfSSatish Balay this is a variant of More' and Thuente's routine. 310a7e14dcfSSatish Balay 311a7e14dcfSSatish Balay subroutine mcstep 312a7e14dcfSSatish Balay 313a7e14dcfSSatish Balay the purpose of mcstep is to compute a safeguarded step for 314a7e14dcfSSatish Balay a linesearch and to update an interval of uncertainty for 315a7e14dcfSSatish Balay a minimizer of the function. 316a7e14dcfSSatish Balay 317a7e14dcfSSatish Balay the parameter stx contains the step with the least function 318a7e14dcfSSatish Balay value. the parameter stp contains the current step. it is 319a7e14dcfSSatish Balay assumed that the derivative at stx is negative in the 320a7e14dcfSSatish Balay direction of the step. if bracket is set true then a 321a7e14dcfSSatish Balay minimizer has been bracketed in an interval of uncertainty 322a7e14dcfSSatish Balay with endpoints stx and sty. 323a7e14dcfSSatish Balay 324a7e14dcfSSatish Balay the subroutine statement is 325a7e14dcfSSatish Balay 326a7e14dcfSSatish Balay subroutine mcstep(stx,fx,dx,sty,fy,dy,stp,fp,dp,bracket, 327a7e14dcfSSatish Balay stpmin,stpmax,info) 328a7e14dcfSSatish Balay 329a7e14dcfSSatish Balay where 330a7e14dcfSSatish Balay 331a7e14dcfSSatish Balay stx, fx, and dx are variables which specify the step, 332a7e14dcfSSatish Balay the function, and the derivative at the best step obtained 333a7e14dcfSSatish Balay so far. The derivative must be negative in the direction 334a7e14dcfSSatish Balay of the step, that is, dx and stp-stx must have opposite 335a7e14dcfSSatish Balay signs. On output these parameters are updated appropriately. 336a7e14dcfSSatish Balay 337a7e14dcfSSatish Balay sty, fy, and dy are variables which specify the step, 338a7e14dcfSSatish Balay the function, and the derivative at the other endpoint of 339a7e14dcfSSatish Balay the interval of uncertainty. On output these parameters are 340a7e14dcfSSatish Balay updated appropriately. 341a7e14dcfSSatish Balay 342a7e14dcfSSatish Balay stp, fp, and dp are variables which specify the step, 343a7e14dcfSSatish Balay the function, and the derivative at the current step. 344a7e14dcfSSatish Balay If bracket is set true then on input stp must be 345a7e14dcfSSatish Balay between stx and sty. On output stp is set to the new step. 346a7e14dcfSSatish Balay 347a7e14dcfSSatish Balay bracket is a logical variable which specifies if a minimizer 348a7e14dcfSSatish Balay has been bracketed. If the minimizer has not been bracketed 349a7e14dcfSSatish Balay then on input bracket must be set false. If the minimizer 350a7e14dcfSSatish Balay is bracketed then on output bracket is set true. 351a7e14dcfSSatish Balay 352a7e14dcfSSatish Balay stpmin and stpmax are input variables which specify lower 353a7e14dcfSSatish Balay and upper bounds for the step. 354a7e14dcfSSatish Balay 355a7e14dcfSSatish Balay info is an integer output variable set as follows: 356a7e14dcfSSatish Balay if info = 1,2,3,4,5, then the step has been computed 357a7e14dcfSSatish Balay according to one of the five cases below. otherwise 358a7e14dcfSSatish Balay info = 0, and this indicates improper input parameters. 359a7e14dcfSSatish Balay 360a7e14dcfSSatish Balay subprograms called 361a7e14dcfSSatish Balay 362a7e14dcfSSatish Balay fortran-supplied ... abs,max,min,sqrt 363a7e14dcfSSatish Balay 364a7e14dcfSSatish Balay argonne national laboratory. minpack project. june 1983 365a7e14dcfSSatish Balay jorge j. more', david j. thuente 366a7e14dcfSSatish Balay 367a7e14dcfSSatish Balay */ 368a7e14dcfSSatish Balay 36953506e15SBarry Smith static PetscErrorCode Tao_mcstep(TaoLineSearch ls,PetscReal *stx,PetscReal *fx,PetscReal *dx,PetscReal *sty,PetscReal *fy,PetscReal *dy,PetscReal *stp,PetscReal *fp,PetscReal *dp) 370a7e14dcfSSatish Balay { 3718caf6e8cSBarry Smith TaoLineSearch_MT *mtP = (TaoLineSearch_MT *) ls->data; 372a7e14dcfSSatish Balay PetscReal gamma1, p, q, r, s, sgnd, stpc, stpf, stpq, theta; 373a7e14dcfSSatish Balay PetscInt bound; 374a7e14dcfSSatish Balay 375a7e14dcfSSatish Balay PetscFunctionBegin; 376a7e14dcfSSatish Balay /* Check the input parameters for errors */ 377a7e14dcfSSatish Balay mtP->infoc = 0; 3783c859ba3SBarry Smith PetscCheck(!mtP->bracket || (*stp > PetscMin(*stx,*sty) && (*stp < PetscMax(*stx,*sty))),PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"bad stp in bracket"); 3793c859ba3SBarry Smith PetscCheck(*dx * (*stp-*stx) < 0.0,PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"dx * (stp-stx) >= 0.0"); 3803c859ba3SBarry Smith PetscCheck(ls->stepmax >= ls->stepmin,PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"stepmax > stepmin"); 381a7e14dcfSSatish Balay 382a7e14dcfSSatish Balay /* Determine if the derivatives have opposite sign */ 383a7e14dcfSSatish Balay sgnd = *dp * (*dx / PetscAbsReal(*dx)); 384a7e14dcfSSatish Balay 385a7e14dcfSSatish Balay if (*fp > *fx) { 386a7e14dcfSSatish Balay /* Case 1: a higher function value. 387a7e14dcfSSatish Balay The minimum is bracketed. If the cubic step is closer 388a7e14dcfSSatish Balay to stx than the quadratic step, the cubic step is taken, 389a7e14dcfSSatish Balay else the average of the cubic and quadratic steps is taken. */ 390a7e14dcfSSatish Balay 391a7e14dcfSSatish Balay mtP->infoc = 1; 392a7e14dcfSSatish Balay bound = 1; 393a7e14dcfSSatish Balay theta = 3 * (*fx - *fp) / (*stp - *stx) + *dx + *dp; 394a7e14dcfSSatish Balay s = PetscMax(PetscAbsReal(theta),PetscAbsReal(*dx)); 395a7e14dcfSSatish Balay s = PetscMax(s,PetscAbsReal(*dp)); 396a7e14dcfSSatish Balay gamma1 = s*PetscSqrtScalar(PetscPowScalar(theta/s,2.0) - (*dx/s)*(*dp/s)); 397a7e14dcfSSatish Balay if (*stp < *stx) gamma1 = -gamma1; 398a7e14dcfSSatish Balay /* Can p be 0? Check */ 399a7e14dcfSSatish Balay p = (gamma1 - *dx) + theta; 400a7e14dcfSSatish Balay q = ((gamma1 - *dx) + gamma1) + *dp; 401a7e14dcfSSatish Balay r = p/q; 402a7e14dcfSSatish Balay stpc = *stx + r*(*stp - *stx); 403a7e14dcfSSatish Balay stpq = *stx + ((*dx/((*fx-*fp)/(*stp-*stx)+*dx))*0.5) * (*stp - *stx); 404a7e14dcfSSatish Balay 405a7e14dcfSSatish Balay if (PetscAbsReal(stpc-*stx) < PetscAbsReal(stpq-*stx)) { 406a7e14dcfSSatish Balay stpf = stpc; 40753506e15SBarry Smith } else { 408a7e14dcfSSatish Balay stpf = stpc + 0.5*(stpq - stpc); 409a7e14dcfSSatish Balay } 410a7e14dcfSSatish Balay mtP->bracket = 1; 41153506e15SBarry Smith } else if (sgnd < 0.0) { 412a7e14dcfSSatish Balay /* Case 2: A lower function value and derivatives of 413a7e14dcfSSatish Balay opposite sign. The minimum is bracketed. If the cubic 414a7e14dcfSSatish Balay step is closer to stx than the quadratic (secant) step, 415a7e14dcfSSatish Balay the cubic step is taken, else the quadratic step is taken. */ 416a7e14dcfSSatish Balay 417a7e14dcfSSatish Balay mtP->infoc = 2; 418a7e14dcfSSatish Balay bound = 0; 419a7e14dcfSSatish Balay theta = 3*(*fx - *fp)/(*stp - *stx) + *dx + *dp; 420a7e14dcfSSatish Balay s = PetscMax(PetscAbsReal(theta),PetscAbsReal(*dx)); 421a7e14dcfSSatish Balay s = PetscMax(s,PetscAbsReal(*dp)); 422a7e14dcfSSatish Balay gamma1 = s*PetscSqrtScalar(PetscPowScalar(theta/s,2.0) - (*dx/s)*(*dp/s)); 423a7e14dcfSSatish Balay if (*stp > *stx) gamma1 = -gamma1; 424a7e14dcfSSatish Balay p = (gamma1 - *dp) + theta; 425a7e14dcfSSatish Balay q = ((gamma1 - *dp) + gamma1) + *dx; 426a7e14dcfSSatish Balay r = p/q; 427a7e14dcfSSatish Balay stpc = *stp + r*(*stx - *stp); 428a7e14dcfSSatish Balay stpq = *stp + (*dp/(*dp-*dx))*(*stx - *stp); 429a7e14dcfSSatish Balay 430a7e14dcfSSatish Balay if (PetscAbsReal(stpc-*stp) > PetscAbsReal(stpq-*stp)) { 431a7e14dcfSSatish Balay stpf = stpc; 43253506e15SBarry Smith } else { 433a7e14dcfSSatish Balay stpf = stpq; 434a7e14dcfSSatish Balay } 435a7e14dcfSSatish Balay mtP->bracket = 1; 43653506e15SBarry Smith } else if (PetscAbsReal(*dp) < PetscAbsReal(*dx)) { 437a7e14dcfSSatish Balay /* Case 3: A lower function value, derivatives of the 438a7e14dcfSSatish Balay same sign, and the magnitude of the derivative decreases. 439a7e14dcfSSatish Balay The cubic step is only used if the cubic tends to infinity 440a7e14dcfSSatish Balay in the direction of the step or if the minimum of the cubic 441a7e14dcfSSatish Balay is beyond stp. Otherwise the cubic step is defined to be 442a7e14dcfSSatish Balay either stepmin or stepmax. The quadratic (secant) step is also 443df3898eeSBarry Smith computed and if the minimum is bracketed then the step 444a7e14dcfSSatish Balay closest to stx is taken, else the step farthest away is taken. */ 445a7e14dcfSSatish Balay 446a7e14dcfSSatish Balay mtP->infoc = 3; 447a7e14dcfSSatish Balay bound = 1; 448a7e14dcfSSatish Balay theta = 3*(*fx - *fp)/(*stp - *stx) + *dx + *dp; 449a7e14dcfSSatish Balay s = PetscMax(PetscAbsReal(theta),PetscAbsReal(*dx)); 450a7e14dcfSSatish Balay s = PetscMax(s,PetscAbsReal(*dp)); 451a7e14dcfSSatish Balay 452a7e14dcfSSatish Balay /* The case gamma1 = 0 only arises if the cubic does not tend 453a7e14dcfSSatish Balay to infinity in the direction of the step. */ 454a7e14dcfSSatish Balay gamma1 = s*PetscSqrtScalar(PetscMax(0.0,PetscPowScalar(theta/s,2.0) - (*dx/s)*(*dp/s))); 455a7e14dcfSSatish Balay if (*stp > *stx) gamma1 = -gamma1; 456a7e14dcfSSatish Balay p = (gamma1 - *dp) + theta; 457a7e14dcfSSatish Balay q = (gamma1 + (*dx - *dp)) + gamma1; 458a7e14dcfSSatish Balay r = p/q; 459a7e14dcfSSatish Balay if (r < 0.0 && gamma1 != 0.0) stpc = *stp + r*(*stx - *stp); 460a7e14dcfSSatish Balay else if (*stp > *stx) stpc = ls->stepmax; 461a7e14dcfSSatish Balay else stpc = ls->stepmin; 462a7e14dcfSSatish Balay stpq = *stp + (*dp/(*dp-*dx)) * (*stx - *stp); 463a7e14dcfSSatish Balay 464a7e14dcfSSatish Balay if (mtP->bracket) { 465a7e14dcfSSatish Balay if (PetscAbsReal(*stp-stpc) < PetscAbsReal(*stp-stpq)) { 466a7e14dcfSSatish Balay stpf = stpc; 46753506e15SBarry Smith } else { 468a7e14dcfSSatish Balay stpf = stpq; 469a7e14dcfSSatish Balay } 47053506e15SBarry Smith } else { 471a7e14dcfSSatish Balay if (PetscAbsReal(*stp-stpc) > PetscAbsReal(*stp-stpq)) { 472a7e14dcfSSatish Balay stpf = stpc; 47353506e15SBarry Smith } else { 474a7e14dcfSSatish Balay stpf = stpq; 475a7e14dcfSSatish Balay } 476a7e14dcfSSatish Balay } 47753506e15SBarry Smith } else { 478a7e14dcfSSatish Balay /* Case 4: A lower function value, derivatives of the 479a7e14dcfSSatish Balay same sign, and the magnitude of the derivative does 480a7e14dcfSSatish Balay not decrease. If the minimum is not bracketed, the step 481a7e14dcfSSatish Balay is either stpmin or stpmax, else the cubic step is taken. */ 482a7e14dcfSSatish Balay 483a7e14dcfSSatish Balay mtP->infoc = 4; 484a7e14dcfSSatish Balay bound = 0; 485a7e14dcfSSatish Balay if (mtP->bracket) { 486a7e14dcfSSatish Balay theta = 3*(*fp - *fy)/(*sty - *stp) + *dy + *dp; 487a7e14dcfSSatish Balay s = PetscMax(PetscAbsReal(theta),PetscAbsReal(*dy)); 488a7e14dcfSSatish Balay s = PetscMax(s,PetscAbsReal(*dp)); 489a7e14dcfSSatish Balay gamma1 = s*PetscSqrtScalar(PetscPowScalar(theta/s,2.0) - (*dy/s)*(*dp/s)); 490a7e14dcfSSatish Balay if (*stp > *sty) gamma1 = -gamma1; 491a7e14dcfSSatish Balay p = (gamma1 - *dp) + theta; 492a7e14dcfSSatish Balay q = ((gamma1 - *dp) + gamma1) + *dy; 493a7e14dcfSSatish Balay r = p/q; 494a7e14dcfSSatish Balay stpc = *stp + r*(*sty - *stp); 495a7e14dcfSSatish Balay stpf = stpc; 49653506e15SBarry Smith } else if (*stp > *stx) { 497a7e14dcfSSatish Balay stpf = ls->stepmax; 49853506e15SBarry Smith } else { 499a7e14dcfSSatish Balay stpf = ls->stepmin; 500a7e14dcfSSatish Balay } 501a7e14dcfSSatish Balay } 502a7e14dcfSSatish Balay 503a7e14dcfSSatish Balay /* Update the interval of uncertainty. This update does not 504a7e14dcfSSatish Balay depend on the new step or the case analysis above. */ 505a7e14dcfSSatish Balay 506a7e14dcfSSatish Balay if (*fp > *fx) { 507a7e14dcfSSatish Balay *sty = *stp; 508a7e14dcfSSatish Balay *fy = *fp; 509a7e14dcfSSatish Balay *dy = *dp; 51053506e15SBarry Smith } else { 511a7e14dcfSSatish Balay if (sgnd < 0.0) { 512a7e14dcfSSatish Balay *sty = *stx; 513a7e14dcfSSatish Balay *fy = *fx; 514a7e14dcfSSatish Balay *dy = *dx; 515a7e14dcfSSatish Balay } 516a7e14dcfSSatish Balay *stx = *stp; 517a7e14dcfSSatish Balay *fx = *fp; 518a7e14dcfSSatish Balay *dx = *dp; 519a7e14dcfSSatish Balay } 520a7e14dcfSSatish Balay 521a7e14dcfSSatish Balay /* Compute the new step and safeguard it. */ 522a7e14dcfSSatish Balay stpf = PetscMin(ls->stepmax,stpf); 523a7e14dcfSSatish Balay stpf = PetscMax(ls->stepmin,stpf); 524a7e14dcfSSatish Balay *stp = stpf; 525a7e14dcfSSatish Balay if (mtP->bracket && bound) { 526a7e14dcfSSatish Balay if (*sty > *stx) { 527a7e14dcfSSatish Balay *stp = PetscMin(*stx+0.66*(*sty-*stx),*stp); 52853506e15SBarry Smith } else { 529a7e14dcfSSatish Balay *stp = PetscMax(*stx+0.66*(*sty-*stx),*stp); 530a7e14dcfSSatish Balay } 531a7e14dcfSSatish Balay } 532a7e14dcfSSatish Balay PetscFunctionReturn(0); 533a7e14dcfSSatish Balay } 534