X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/e6f836d79ad3def5358ceafe9c4640fbf163cc42..05d69cbf14984ef021bc8b746c7fdf1f91316648:/teshsuite/surf/maxmin_bench/maxmin_bench.cpp diff --git a/teshsuite/surf/maxmin_bench/maxmin_bench.cpp b/teshsuite/surf/maxmin_bench/maxmin_bench.cpp index a8a0086250..59bff100d7 100644 --- a/teshsuite/surf/maxmin_bench/maxmin_bench.cpp +++ b/teshsuite/surf/maxmin_bench/maxmin_bench.cpp @@ -20,15 +20,14 @@ static double test(int nb_cnst, int nb_var, int nb_elem, unsigned int pw_base_limit, unsigned int pw_max_limit, double rate_no_limit, int max_share, int mode) { - auto* cnst = new simgrid::kernel::lmm::Constraint*[nb_cnst]; - auto* var = new simgrid::kernel::lmm::Variable*[nb_var]; - auto* used = new int[nb_cnst]; + std::vector constraints(nb_cnst); + std::vector variables(nb_var); /* We cannot activate the selective update as we pass nullptr as an Action when creating the variables */ - auto* Sys = new simgrid::kernel::lmm::System(false); + simgrid::kernel::lmm::System Sys(false); - for (int i = 0; i < nb_cnst; i++) { - cnst[i] = Sys->constraint_new(nullptr, simgrid::xbt::random::uniform_real(0.0, 10.0)); + for (auto& cnst : constraints) { + cnst = Sys.constraint_new(nullptr, simgrid::xbt::random::uniform_real(0.0, 10.0)); int l; if (rate_no_limit > simgrid::xbt::random::uniform_real(0.0, 1.0)) { // Look at what happens when there is no concurrency limit @@ -37,59 +36,54 @@ static double test(int nb_cnst, int nb_var, int nb_elem, unsigned int pw_base_li // Badly logarithmically random concurrency limit in [2^pw_base_limit+1,2^pw_base_limit+2^pw_max_limit] l = (1 << pw_base_limit) + (1 << simgrid::xbt::random::uniform_int(0, pw_max_limit - 1)); } - cnst[i]->set_concurrency_limit(l); + cnst->set_concurrency_limit(l); } - for (int i = 0; i < nb_var; i++) { - var[i] = Sys->variable_new(nullptr, 1.0, -1.0, nb_elem); + for (auto& var : variables) { + var = Sys.variable_new(nullptr, 1.0, -1.0, nb_elem); //Have a few variables with a concurrency share of two (e.g. cross-traffic in some cases) short concurrency_share = 1 + static_cast(simgrid::xbt::random::uniform_int(0, max_share - 1)); - var[i]->set_concurrency_share(concurrency_share); + var->set_concurrency_share(concurrency_share); - for (int j = 0; j < nb_cnst; j++) - used[j] = 0; + std::vector used(nb_cnst, 0); for (int j = 0; j < nb_elem; j++) { int k; do { k = simgrid::xbt::random::uniform_int(0, nb_cnst - 1); } while (used[k] >= concurrency_share); - Sys->expand(cnst[k], var[i], simgrid::xbt::random::uniform_real(0.0, 1.5)); - Sys->expand_add(cnst[k], var[i], simgrid::xbt::random::uniform_real(0.0, 1.5)); + Sys.expand(constraints[k], var, simgrid::xbt::random::uniform_real(0.0, 1.5)); + Sys.expand_add(constraints[k], var, simgrid::xbt::random::uniform_real(0.0, 1.5)); used[k]++; } } fprintf(stderr, "Starting to solve(%i)\n", simgrid::xbt::random::uniform_int(0, 999)); double date = xbt_os_time(); - Sys->solve(); + Sys.solve(); date = (xbt_os_time() - date) * 1e6; if(mode==2){ fprintf(stderr,"Max concurrency:\n"); int l=0; for (int i = 0; i < nb_cnst; i++) { - int j = cnst[i]->get_concurrency_maximum(); - int k = cnst[i]->get_concurrency_limit(); + int j = constraints[i]->get_concurrency_maximum(); + int k = constraints[i]->get_concurrency_limit(); xbt_assert(k<0 || j<=k); if(j>l) l=j; fprintf(stderr,"(%i):%i/%i ",i,j,k); - cnst[i]->reset_concurrency_maximum(); - xbt_assert(not cnst[i]->get_concurrency_maximum()); + constraints[i]->reset_concurrency_maximum(); + xbt_assert(not constraints[i]->get_concurrency_maximum()); if(i%10==9) fprintf(stderr,"\n"); } fprintf(stderr,"\nTotal maximum concurrency is %i\n",l); - Sys->print(); + Sys.print(); } - for (int i = 0; i < nb_var; i++) - Sys->variable_free(var[i]); - delete Sys; - delete[] cnst; - delete[] var; - delete[] used; + for (auto const& var : variables) + Sys.variable_free(var); return date; }