/************************************************************************ * * 22.locale.cons.mt.cpp * * test exercising the thread safety of locale ctors * * $Id: 22.locale.cons.mt.cpp 648752 2008-04-16 17:01:56Z faridz $ * *************************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. See the License for the specific language governing * permissions and limitations under the License. * **************************************************************************/ #include // for locale #include // for strlen() #include #include // for rw_get_processors (), rw_thread_pool() #include // maximum number of threads allowed by the command line interface #define MAX_THREADS 32 // default number of threads (will be adjusted to the number // of processors/cores later) int opt_nthreads = 1; // the number of times each thread should iterate (unless specified // otherwise on the command line) int opt_nloops = 20000; // tristate flag set in response to the --no-combine/--enable-combine // command line option int opt_combine; /**************************************************************************/ // array of locale names to use for testing static const char* locales [MAX_THREADS]; // number of locale names in the array static std::size_t nlocales; /**************************************************************************/ extern "C" { static void* test_ctors (void*) { static const std::locale::category cats[] = { std::locale::all, std::locale::collate, std::locale::ctype, std::locale::messages, std::locale::monetary, std::locale::numeric, std::locale::time, std::locale::none }; static const std::size_t ncats = sizeof cats / sizeof *cats; // the next locale "advanced" in each iteration of the loop std::locale next (locales [0]); for (int i = 0; i != opt_nloops; ++i) { // compute an index into the array of locales const std::size_t linx = i % nlocales; // create two locale objects from the same name and verify // they are equal const std::locale first (next.name ().c_str ()); const std::locale second (next.name ().c_str ()); RW_ASSERT (first == second); // create another locale object as a copy of one of the two // above and verify it's equal to the other const std::locale third (first); RW_ASSERT (second == third); // compute the next index into the array of locales const std::size_t ninx = (i + 1) % nlocales; const char* const next_name = locales [ninx]; // create the next locale from a name next = std::locale (next_name); if (0 <= opt_combine) { // compute an index into the array of categories const std::size_t cinx = i % ncats; const std::locale::category cat = cats [cinx]; // create a locale from another object and the name of yet // another locale, combining some (none, one, or all) of their // categories const std::locale combined (first, next_name, cat); // verify that the locales were created correctly if ( std::locale::none == cat #ifdef _MSC_VER || std::locale::messages == cat #endif || first == next) { RW_ASSERT (combined == first); } else if (std::locale::all == cat) RW_ASSERT (combined == next); else RW_ASSERT (combined != first && combined != next); // repeat the step above but with a locale object const std::locale combined_2 (first, next, cat); if ( std::locale::none == cat #ifdef _MSC_VER || std::locale::messages == cat #endif || first == next) { RW_ASSERT (combined_2 == first); } else if (std::locale::all == cat) RW_ASSERT (combined_2 == next); else RW_ASSERT (combined_2 != first && combined_2 != next); } } return 0; } } // extern "C" /**************************************************************************/ static int run_test (int, char**) { // find all installed locales for which setlocale(LC_ALL) succeeds const char* const locale_list = rw_opt_locales ? rw_opt_locales : rw_locales (_RWSTD_LC_ALL); const std::size_t maxinx = sizeof locales / sizeof *locales; for (const char *name = locale_list; *name; name += std::strlen (name) +1) { locales [nlocales++] = name; if (nlocales == maxinx) break; } int result; rw_info (0, 0, 0, "testing std::locale ctors with %d thread%{?}s%{;}, " "%d iteration%{?}s%{;} each, in %zu locales { %{ .*A@} }", opt_nthreads, 1 != opt_nthreads, opt_nloops, 1 != opt_nloops, nlocales, int (nlocales), "%#s", locales); // create and start a pool of threads and wait for them to finish result = rw_thread_pool (0, std::size_t (opt_nthreads), 0, test_ctors, 0); rw_error (result == 0, 0, __LINE__, "rw_thread_pool(0, %d, 0, %{#f}, 0) failed", opt_nthreads, test_ctors); return result; } /**************************************************************************/ int main (int argc, char *argv[]) { #ifdef _RWSTD_REENTRANT // set nthreads to the greater of the number of processors // and 2 (for uniprocessor systems) by default opt_nthreads = rw_get_cpus (); if (opt_nthreads < 2) opt_nthreads = 2; #endif // _RWSTD_REENTRANT return rw_test (argc, argv, __FILE__, "lib.locale.cons", "thread safety", run_test, "|-combine~ " "|-nloops#0 " // must be non-negative "|-nthreads#0-* " // must be in [0, MAX_THREADS] "|-locales=", // must be provided &opt_combine, &opt_nloops, int (MAX_THREADS), &opt_nthreads, &rw_opt_setlocales); }