/************************************************************************ * * 22.locale.money.put.mt.cpp * * test exercising the thread safety of the money_put facet * * $Id: 22.locale.money.put.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 ios #include // for ostreambuf_iterator #include // for locale, money_put #include // for strlen() #include #include #include #include // for rw_strncmp () // maximum number of threads allowed by the command line interface #define MAX_THREADS 32 #define MAX_LOOPS 100000 // 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 = 100000; #if !defined (_RWSTD_OS_HP_UX) || defined (_ILP32) // number of locales to use int opt_nlocales = MAX_THREADS; #else // HP-UX in LP64 mode // work around a small locale cache on HP-UX in LP64 mode // (see STDCXX-812) int opt_nlocales = 9; #endif // HP-UX 32/64 bit mode // should all threads share the same set of locale objects instead // of creating their own? int opt_shared_locale; /**************************************************************************/ // 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; /**************************************************************************/ static const char n_money_vals[][20] = { "1", "12", "123", "1234", "12345", "123456", "1234567", "12345678", "-9", "-98", "-987", "-9876", "-98765", "-987654", "-9876543", "1.9", "-12.89", "123.789", "-1234.6789", "-12345.56789" }; #ifndef _RWSTD_NO_WCHAR_T static const wchar_t w_money_vals[][20] = { L"1", L"12", L"123", L"1234", L"12345", L"123456", L"1234567", L"-9", L"-98", L"-987", L"-9876", L"-98765", L"-987654", L"-9876543", L"1.9", L"-12.89", L"123.789", L"-1234.6789", L"-12345.56789" }; #endif // _RWSTD_NO_WCHAR_T // struct MyMoneyData { enum { BufferSize = 16 }; enum PutId { put_ldbl, put_string, put_max }; // name of the locale the data corresponds to const char* locale_name_; // optionally set to the named locale for threads to share std::locale locale_; // international or domestic format flag bool intl_; // the time struct used to generate strings below double money_value_; // type of the data we created string from PutId type_; // index into string array [n,w]_money_vals unsigned money_index_; // narrow representations of money_ char ncs_ [BufferSize]; #ifndef _RWSTD_NO_WCHAR_T // wide representations of money_ wchar_t wcs_ [BufferSize]; #endif // _RWSTD_NO_WCHAR_T } my_money_data [MAX_THREADS]; template struct MyIos: std::basic_ios { MyIos () { this->init (0); } }; template struct MyStreambuf: std::basic_streambuf { typedef std::basic_streambuf Base; MyStreambuf () : Base () { } void pubsetp (charT *pbeg, std::streamsize n) { this->setp (pbeg, pbeg + n); } }; extern "C" { bool test_char; // exercise money_put bool test_wchar; // exercise money_put static void* thread_func (void*) { char ncs [MyMoneyData::BufferSize]; MyIos > nio; MyStreambuf > nsb; nio.rdbuf (&nsb); #ifndef _RWSTD_NO_WCHAR_T wchar_t wcs [MyMoneyData::BufferSize]; MyIos > wio; MyStreambuf > wsb; wio.rdbuf (&wsb); #endif // _RWSTD_NO_WCHAR_T for (int i = 0; i != opt_nloops; ++i) { // save the name of the locale const MyMoneyData& data = my_money_data [i % nlocales]; // construct a named locale, get a reference to the money_put // facet from it and use it to format a random money value const std::locale loc = opt_shared_locale ? data.locale_ : std::locale (data.locale_name_); if (test_char) { // exercise the narrow char specialization of the facet const std::money_put &np = std::use_facet >(loc); nio.imbue (loc); nsb.pubsetp (ncs, RW_COUNT_OF (ncs)); switch (data.type_) { case MyMoneyData::put_ldbl: *np.put (std::ostreambuf_iterator(&nsb), data.intl_, nio, ' ', data.money_value_) = '\0'; break; case MyMoneyData::put_string: *np.put (std::ostreambuf_iterator(&nsb), data.intl_, nio, ' ', n_money_vals [data.money_index_]) = '\0'; break; case MyMoneyData::put_max: // avoid enumeration value `put_max' not handled in switch // this case should never happen break; } RW_ASSERT (!nio.fail ()); RW_ASSERT (!rw_strncmp (ncs, data.ncs_)); } // both specializations may be tested at the same time if (test_wchar) { // exercise the wide char specialization of the facet #ifndef _RWSTD_NO_WCHAR_T const std::money_put &wp = std::use_facet >(loc); wio.imbue (loc); wsb.pubsetp (wcs, RW_COUNT_OF (wcs)); switch (data.type_) { case MyMoneyData::put_ldbl: *wp.put (std::ostreambuf_iterator(&wsb), data.intl_, wio, ' ', data.money_value_) = L'\0'; break; case MyMoneyData::put_string: *wp.put (std::ostreambuf_iterator(&wsb), data.intl_, wio, ' ', w_money_vals [data.money_index_]) = L'\0'; break; case MyMoneyData::put_max: // avoid enumeration value `put_max' not handled in switch // this case should never happen break; } RW_ASSERT (!wio.fail ()); RW_ASSERT (!rw_strncmp (wcs, data.wcs_)); #endif // _RWSTD_NO_WCHAR_T } } return 0; } } // extern "C" /**************************************************************************/ static int run_test (int, char**) { MyIos > nio; MyStreambuf > nsb; nio.rdbuf (&nsb); #ifndef _RWSTD_NO_WCHAR_T MyIos > wio; MyStreambuf > wsb; wio.rdbuf (&wsb); #endif // _RWSTD_NO_WCHAR_T // 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 = RW_COUNT_OF (locales); for (const char* name = locale_list; *name; name += std::strlen (name) + 1) { const std::size_t inx = nlocales; locales [inx] = name; // fill in the money and results for this locale MyMoneyData& data = my_money_data [inx]; data.locale_name_ = name; try { const std::locale loc (data.locale_name_); // initialize with random but valid values data.money_value_ = inx; data.type_ = MyMoneyData::PutId (nlocales % MyMoneyData::put_max); data.money_index_ = inx % RW_COUNT_OF (n_money_vals); // exercise domestic formats every other iteration // and international formats the rest data.intl_ = 0 == (inx & 1); // exercise postive and negative values if (inx & 1) data.money_value_ *= -1.; // add some random fractional digits if (inx & 2) data.money_value_ += data.money_value_ / 3.14; const std::money_put &np = std::use_facet >(loc); nio.imbue (loc); nsb.pubsetp (data.ncs_, RW_COUNT_OF (data.ncs_)); switch (data.type_) { case MyMoneyData::put_ldbl: *np.put (std::ostreambuf_iterator(&nsb), data.intl_, nio, ' ', data.money_value_) = '\0'; break; case MyMoneyData::put_string: *np.put (std::ostreambuf_iterator(&nsb), data.intl_, nio, ' ', n_money_vals [data.money_index_]) = '\0'; break; case MyMoneyData::put_max: // avoid enumeration value `put_max' not handled in switch // this case should never happen break; } rw_assert (!nio.fail (), __FILE__, __LINE__, "money_put::put(...) " "failed for locale(%#s)", data.locale_name_); #ifndef _RWSTD_NO_WCHAR_T const std::money_put &wp = std::use_facet >(loc); wio.imbue (loc); wsb.pubsetp (data.wcs_, RW_COUNT_OF (data.wcs_)); switch (data.type_) { case MyMoneyData::put_ldbl: *wp.put (std::ostreambuf_iterator(&wsb), data.intl_, wio, L' ', data.money_value_) = '\0'; break; case MyMoneyData::put_string: *wp.put (std::ostreambuf_iterator(&wsb), data.intl_, wio, L' ', w_money_vals [data.money_index_]) = L'\0'; break; case MyMoneyData::put_max: // avoid enumeration value `put_max' not handled in switch // this case should never happen break; } rw_assert (!nio.fail (), __FILE__, __LINE__, "money_put::put(...) " "failed for locale(%#s)", data.locale_name_); #endif // _RWSTD_NO_WCHAR_T if (opt_shared_locale) data.locale_ = loc; nlocales += 1; } catch (...) { rw_warn (!rw_opt_locales, 0, __LINE__, "failed to create locale(%#s)", name); } if (nlocales == maxinx || nlocales == std::size_t (opt_nlocales)) break; } // avoid divide by zero in thread if there are no locales to test rw_fatal (nlocales != 0, 0, __LINE__, "failed to create one or more usable locales!"); rw_info (0, 0, 0, "testing std::money_put 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); rw_info (0, 0, 0, "exercising std::money_put"); test_char = true; test_wchar = false; // create and start a pool of threads and wait for them to finish int result = rw_thread_pool (0, std::size_t (opt_nthreads), 0, thread_func, 0); rw_error (result == 0, 0, __LINE__, "rw_thread_pool(0, %d, 0, %{#f}, 0) failed", opt_nthreads, thread_func); #ifndef _RWSTD_NO_WCHAR_T rw_info (0, 0, 0, "exercising std::money_put"); test_char = false; test_wchar = true; // start a pool of threads to exercise wstring thread safety result = rw_thread_pool (0, std::size_t (opt_nthreads), 0, thread_func, 0); rw_error (result == 0, 0, __LINE__, "rw_thread_pool(0, %d, 0, %{#f}, 0) failed", opt_nthreads, thread_func); // exercise both the char and the wchar_t specializations // at the same time rw_info (0, 0, 0, "exercising both std::money_put " "and std::money_put"); test_char = true; test_wchar = true; // start a pool of threads to exercise wstring thread safety result = rw_thread_pool (0, std::size_t (opt_nthreads), 0, thread_func, 0); rw_error (result == 0, 0, __LINE__, "rw_thread_pool(0, %d, 0, %{#f}, 0) failed", opt_nthreads, thread_func); #endif // _RWSTD_NO_WCHAR_T 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.money.put", "thread safety", run_test, "|-nloops#0 " // must be non-negative "|-nthreads#0-* " // must be in [0, MAX_THREADS] "|-nlocales#0 " // arg must be non-negative "|-locales= " // must be provided "|-shared-locale# ", &opt_nloops, int (MAX_THREADS), &opt_nthreads, &opt_nlocales, &rw_opt_setlocales, &opt_shared_locale); }