std::size_t handle_num_threads(util::manage_config& cfgmap,
            boost::program_options::variables_map& vm,
            util::batch_environment& env, bool using_nodelist)
        {
            std::size_t batch_threads = env.retrieve_number_of_threads();
            if(batch_threads == std::size_t(-1)) { batch_threads = 1; }
            std::string threads_str = cfgmap.get_value<std::string>(
                "hpx.os_threads", "");

            if ("all" == threads_str) {
                cfgmap.config_["hpx.os_threads"] =
                    boost::lexical_cast<std::string>(
                        thread::hardware_concurrency());
            }

            std::size_t threads = cfgmap.get_value<std::size_t>(
                "hpx.os_threads", batch_threads);

            if ((env.run_with_pbs() || env.run_with_slurm()) &&
                using_nodelist && (threads > batch_threads))
            {
                detail::report_thread_warning(env.get_batch_name(),
                    threads, batch_threads);
            }

            if (vm.count("hpx:threads")) {
                threads_str = vm["hpx:threads"].as<std::string>();
                if ("all" == threads_str)
                    threads = thread::hardware_concurrency(); //-V101
                else
                    threads = boost::lexical_cast<std::size_t>(threads_str);

                if (threads == 0)
                {
                    throw std::logic_error("Number of --hpx:threads "
                        "must be greater than 0");
                }

                if ((env.run_with_pbs() || env.run_with_slurm()) &&
                    using_nodelist && (threads > batch_threads))
                {
                    detail::report_thread_warning(env.get_batch_name(),
                        threads, batch_threads);
                }

#if defined(HPX_MAX_CPU_COUNT)
                if (threads > HPX_MAX_CPU_COUNT) {
                    throw std::logic_error("Requested more than "
                        BOOST_PP_STRINGIZE(HPX_MAX_CPU_COUNT)" --hpx:threads "
                        "to use for this application, use the option "
                        "-DHPX_MAX_CPU_COUNT=<N> when configuring HPX.");
                }
#endif
            }
            return threads;
        }
Exemple #2
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        std::size_t handle_num_localities(util::manage_config& cfgmap,
            boost::program_options::variables_map& vm,
            util::batch_environment& env, bool using_nodelist,
            std::size_t num_localities)
        {
            std::size_t batch_localities = env.retrieve_number_of_localities();
            if (num_localities == 1)
            {
                std::size_t cfg_num_localities = cfgmap.get_value<std::size_t>(
                    "hpx.localities", batch_localities);
                if (cfg_num_localities > 1)
                    num_localities = cfg_num_localities;
            }

            if ((env.run_with_pbs() || env.run_with_slurm()) &&
                using_nodelist && (batch_localities != num_localities) &&
                (num_localities != 1))
            {
                detail::report_locality_warning_batch(env.get_batch_name(),
                    batch_localities, num_localities);
            }

            if (vm.count("hpx:localities")) {
                std::size_t localities = vm["hpx:localities"].as<std::size_t>();

                if (localities == 0)
                {
                    throw std::logic_error("Number of --hpx:localities "
                        "must be greater than 0");
                }

                if ((env.run_with_pbs() || env.run_with_slurm()) &&
                    using_nodelist && (localities != num_localities) &&
                    (num_localities != 1))
                {
                    detail::report_locality_warning(env.get_batch_name(),
                        localities, num_localities);
                }
                num_localities = localities;
            }
            return num_localities;
        }