//============================================================================== // // Copyright (c) 2002- // Authors: // * Dave Parker (University of Oxford, formerly University of Birmingham) // * Joachim Klein (TU Dresden) // //------------------------------------------------------------------------------ // // This file is part of PRISM. // // PRISM is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // PRISM is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with PRISM; if not, write to the Free Software Foundation, // Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // //============================================================================== // includes #include "PrismMTBDD.h" #include #include #include #include #include #include "PrismMTBDDGlob.h" #include "IntervalIteration.h" #include "jnipointer.h" //------------------------------------------------------------------------------ JNIEXPORT jlong __jlongpointer JNICALL Java_mtbdd_PrismMTBDD_PM_1ProbReachRewardInterval ( JNIEnv *env, jclass cls, jlong __jlongpointer t, // trans matrix jlong __jlongpointer sr, // state rewards jlong __jlongpointer trr, // transition rewards jlong __jlongpointer od, // odd jlong __jlongpointer rv, // row vars jint num_rvars, jlong __jlongpointer cv, // col vars jint num_cvars, jlong __jlongpointer g, // 'goal' states jlong __jlongpointer in, // 'inf' states jlong __jlongpointer m, // 'maybe' states jlong __jlongpointer l, // lower bound jlong __jlongpointer u, // upper bound jint flags ) { // cast function parameters DdNode *trans = jlong_to_DdNode(t); // trans matrix DdNode *state_rewards = jlong_to_DdNode(sr); // state rewards DdNode *trans_rewards = jlong_to_DdNode(trr); // transition rewards ODDNode *odd = jlong_to_ODDNode(od); // odd DdNode **rvars = jlong_to_DdNode_array(rv); // row vars DdNode **cvars = jlong_to_DdNode_array(cv); // col vars DdNode *goal = jlong_to_DdNode(g); // 'goal' states DdNode *inf = jlong_to_DdNode(in); // 'inf' states DdNode *maybe = jlong_to_DdNode(m); // 'maybe' states DdNode *lower = jlong_to_DdNode(l); // lower bound DdNode *upper = jlong_to_DdNode(u); // upper bound // mtbdds DdNode *reach, *a, *sol, *tmp; // get reachable states reach = odd->dd; // filter out rows (goal states and infinity states) from matrix Cudd_Ref(trans); Cudd_Ref(maybe); a = DD_Apply(ddman, APPLY_TIMES, trans, maybe); // take copy of state/trans rewards Cudd_Ref(state_rewards); Cudd_Ref(trans_rewards); // also remove goal and infinity states from state rewards vector Cudd_Ref(maybe); state_rewards = DD_Apply(ddman, APPLY_TIMES, state_rewards, maybe); // multiply transition rewards by transition probs and sum rows // (note also filters out unwanted states at the same time) Cudd_Ref(a); trans_rewards = DD_Apply(ddman, APPLY_TIMES, trans_rewards, a); trans_rewards = DD_SumAbstract(ddman, trans_rewards, cvars, num_cvars); // combine state and transition rewards Cudd_Ref(trans_rewards); state_rewards = DD_Apply(ddman, APPLY_PLUS, state_rewards, trans_rewards); // subtract a from identity (unless we are going to solve with the power method) if (lin_eq_method != LIN_EQ_METHOD_POWER) { tmp = DD_Identity(ddman, rvars, cvars, num_rvars); Cudd_Ref(reach); tmp = DD_And(ddman, tmp, reach); a = DD_Apply(ddman, APPLY_MINUS, tmp, a); } IntervalIteration helper(flags); if (!helper.flag_ensure_monotonic_from_above()) { PM_PrintToMainLog(env, "Note: Interval iteration is configured to not enforce monotonicity from above.\n"); } if (!helper.flag_ensure_monotonic_from_below()) { PM_PrintToMainLog(env, "Note: Interval iteration is configured to not enforce monotonicity from below.\n"); } // call iterative method sol = NULL; switch (lin_eq_method) { case LIN_EQ_METHOD_POWER: sol = jlong_to_DdNode(Java_mtbdd_PrismMTBDD_PM_1PowerInterval(env, cls, ptr_to_jlong(odd), ptr_to_jlong(rvars), num_rvars, ptr_to_jlong(cvars), num_cvars, ptr_to_jlong(a), ptr_to_jlong(state_rewards), ptr_to_jlong(lower), ptr_to_jlong(upper), false, flags)); break; case LIN_EQ_METHOD_JACOBI: sol = jlong_to_DdNode(Java_mtbdd_PrismMTBDD_PM_1JORInterval(env, cls, ptr_to_jlong(odd), ptr_to_jlong(rvars), num_rvars, ptr_to_jlong(cvars), num_cvars, ptr_to_jlong(a), ptr_to_jlong(state_rewards), ptr_to_jlong(lower), ptr_to_jlong(upper), false, 1.0, flags)); break; case LIN_EQ_METHOD_JOR: sol = jlong_to_DdNode(Java_mtbdd_PrismMTBDD_PM_1JORInterval(env, cls, ptr_to_jlong(odd), ptr_to_jlong(rvars), num_rvars, ptr_to_jlong(cvars), num_cvars, ptr_to_jlong(a), ptr_to_jlong(state_rewards), ptr_to_jlong(lower), ptr_to_jlong(upper), false, lin_eq_method_param, flags)); break; default: // set error message and return NULL pointer after cleanup, below PM_SetErrorMessage("Gauss-Seidel and its variants are currently not supported by the MTBDD engine"); break; } // set reward for infinity states to infinity if (sol != NULL) { Cudd_Ref(inf); sol = DD_ITE(ddman, inf, DD_PlusInfinity(ddman), sol); } // free memory Cudd_RecursiveDeref(ddman, a); Cudd_RecursiveDeref(ddman, state_rewards); Cudd_RecursiveDeref(ddman, trans_rewards); return ptr_to_jlong(sol); } //------------------------------------------------------------------------------