Example #1
0
static int
run_test (int, char**)
{
    int result = 0;

    if (rw_note (0 <= opt_classic, 0, __LINE__,
                 "std::locale::classic() test disabled")) {

        rw_info (0, 0, 0,
                 "testing std::locale::classic() with %d thread%{?}s%{;}",
                 opt_nthreads, 1 != opt_nthreads);

        // 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_classic, 0);
    }

    if (rw_note (0 <= opt_global, 0, __LINE__,
                 "std::locale::global(const std::locale&) test disabled")) {


        // 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;

        const char* locale_names [MAX_THREADS];

        for (const char *name = locale_list;
                *name;
                name += std::strlen (name) + 1) {

            locale_names [nlocales] = name;
            locales [nlocales++]    = std::locale (name);

            if (nlocales == maxinx)
                break;
        }

        rw_info (0, 0, 0,
                 "testing std::locale::global(const std::locale&) 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", locale_names);

        // 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_global, 0);
    }

    return result;
}
Example #2
0
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;
}
static int
run_test (int, char**)
{
    MyIos<char, std::char_traits<char> >       nio;
    MyStreambuf<char, std::char_traits<char> > nsb;
    nio.rdbuf (&nsb);

#ifndef _RWSTD_NO_WCHAR_T
    MyIos<wchar_t, std::char_traits<wchar_t> >       wio;
    MyStreambuf<wchar_t, std::char_traits<wchar_t> > 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<char> &np =
                std::use_facet<std::money_put<char> >(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<char>(&nsb),
                         data.intl_, nio, ' ', data.money_value_) = '\0';
                break;
            case MyMoneyData::put_string:
                *np.put (std::ostreambuf_iterator<char>(&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<char>::put(...) "
                       "failed for locale(%#s)",
                       data.locale_name_);

#ifndef _RWSTD_NO_WCHAR_T

            const std::money_put<wchar_t> &wp =
                std::use_facet<std::money_put<wchar_t> >(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<wchar_t>(&wsb),
                         data.intl_, wio, L' ', data.money_value_) = '\0';
                break;
            case MyMoneyData::put_string:
                *wp.put (std::ostreambuf_iterator<wchar_t>(&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<wchar_t>::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<charT> 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<char>");

    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, std::size_t (opt_timeout));

    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<wchar_t>");

    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, std::size_t (opt_timeout));

    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<char> "
             "and std::money_put<wchar_t>");

    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, std::size_t (opt_timeout));

    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;
}
Example #4
0
static int
run_test (int, char**)
{
    for (std::size_t i = 0; i != opt_nfacets; ++i) {
        if (0 < opt_facets [i]) {
            for (std::size_t j = 0; j != opt_nfacets; ++j) {
                if (opt_facets [j] == 0)
                    opt_facets [j] = -1;
            }
            break;
        }
    }

    rw_note (0 <= opt_facets [opt_inx_codecvt], 0, __LINE__,
             "std::codecvt tests disabled");

    rw_note (0 <= opt_facets [opt_inx_collate], 0, __LINE__,
             "std::collate tests disabled");

    rw_note (0 <= opt_facets [opt_inx_ctype], 0, __LINE__,
             "std::ctype tests disabled");

    rw_note (0 <= opt_facets [opt_inx_messages], 0, __LINE__,
             "std::messages tests disabled");

    rw_note (0 <= opt_facets [opt_inx_moneypunct], 0, __LINE__,
             "std::moneypunct<charT, false> tests disabled");

    rw_note (0 <= opt_facets [opt_inx_moneypunct_intl], 0, __LINE__,
             "std::moneypunct<charT, true> tests disabled");

    rw_note (0 <= opt_facets [opt_inx_money_get], 0, __LINE__,
             "std::money_get tests disabled");

    rw_note (0 <= opt_facets [opt_inx_money_put], 0, __LINE__,
             "std::money_put tests disabled");

    rw_note (0 <= opt_facets [opt_inx_numpunct], 0, __LINE__,
             "std::numpunct tests disabled");

    rw_note (0 <= opt_facets [opt_inx_num_get], 0, __LINE__,
             "std::num_get tests disabled");

    rw_note (0 <= opt_facets [opt_inx_num_put], 0, __LINE__,
             "std::num_put tests disabled");

    rw_note (0 <= opt_facets [opt_inx_time_get], 0, __LINE__,
             "std::time_get tests disabled");

    rw_note (0 <= opt_facets [opt_inx_time_put], 0, __LINE__,
             "std::time_put tests disabled");

    rw_note (0 == opt_no_exceptions, 0, __LINE__,
             "tests involving exceptions disabled");

    // 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;

    // set to true if the classic "C" locale is on the lost
    bool has_classic = false;

    for (const char *name = locale_list; *name; name += std::strlen (name) +1) {

        locales [nlocales++] = name;

        if (!has_classic && 0 == std::strcmp ("C", name))
            has_classic = true;

        if (nlocales == maxinx)
            break;
    }

    // when the classic "C" locale isn't on the list put it there
    // unless the list was explicitly specified on the command line
    if (1 < nlocales && !has_classic && 0 == rw_opt_locales)
        locales [0] = "C";

    int result;

    rw_info (0, 0, 0,
             "testing std::locale globals 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);

    if (opt_has_facet >= 0) {
        rw_info (0, 0, 0,
                 "template <class T> bool std::has_facet (const locale&)");

        // 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_has_facet, 0);

        rw_error (result == 0, 0, __LINE__,
                  "rw_thread_pool(0, %d, 0, %{#f}, 0) failed",
                  opt_nthreads, test_has_facet);
    }
    else {
        rw_note (0, 0, 0, "std::has_facet test disabled");
    }

    if (opt_use_facet >= 0) {
        rw_info (0, 0, 0,
                 "template <class T> const T& std::use_facet (const locale&)");

#ifdef _RWSTD_NO_DYNAMIC_CAST

        // if dynamic_cast isn't supported, then [has,use]_facet()
        // can't reliably detect if a facet is installed or not.
        rw_warn (0 != opt_no_exceptions, 0, __LINE__,
                 "dynamic_cast not supported "
                 "(macro _RWSTD_NO_DYNAMIC_CAST is #defined), "
                 "disabling exceptions tests");

        opt_no_exceptions = 1;

#endif   // _RWSTD_NO_DYNAMIC_CAST


#ifdef _RWSTD_NO_THREAD_SAFE_EXCEPTIONS

        // avoid exercising exceptions (triggered by use_facet) if
        // their implementation in the runtime isn't thread-safe
        rw_warn (0, 0, 0,
                 "exceptions not thread safe (macro "
                 "_RWSTD_NO_THREAD_SAFE_EXCEPTIONS is #defined), "
                 "disabling exceptions tests");

        opt_no_exceptions = 1;

#endif   // _RWSTD_NO_THREAD_SAFE_EXCEPTIONS


        // 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_use_facet, 0);

        rw_error (result == 0, 0, __LINE__,
                  "rw_thread_pool(0, %d, 0, %{#f}, 0) failed",
                  opt_nthreads, test_use_facet);
    }
    else {
        rw_note (0, 0, 0, "std::use_facet test disabled");
    }

    return result;
}
Example #5
0
static int
run_test (int, char**)
{
    MyIos<char, std::char_traits<char> >       nio;
    MyStreambuf<char, std::char_traits<char> > nsb;
    nio.rdbuf (&nsb);

#ifndef _RWSTD_NO_WCHAR_T
    MyIos<wchar_t, std::char_traits<wchar_t> >       wio;
    MyStreambuf<wchar_t, std::char_traits<wchar_t> > 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 value and results for this locale
        MyNumData& data = my_num_data [nlocales];
        data.locale_name_ = name;

        try {
            const std::locale loc (data.locale_name_);

            data.value_ = nlocales & 1 ? -1 * nlocales : nlocales;
            data.type_ = MyNumData::PutId (nlocales % MyNumData::put_max);

            // format data into buffers
            const std::num_put<char> &np =
                std::use_facet<std::num_put<char> >(loc);

            nio.imbue (loc);
            nsb.pubsetp (data.ncs_, RW_COUNT_OF (data.ncs_));

            put_data (data, np, std::ostreambuf_iterator<char>(&nsb),
                      nio, ' ', '\0');

            rw_fatal (!nio.fail (), __FILE__, __LINE__,
                      "num_put<char>::put(...) failed for locale(%#s)",
                      data.locale_name_);

#ifndef _RWSTD_NO_WCHAR_T

            const std::num_put<wchar_t> &wp =
                std::use_facet<std::num_put<wchar_t> >(loc);

            wio.imbue (loc);
            wsb.pubsetp (data.wcs_, RW_COUNT_OF (data.wcs_));

            put_data (data, wp, std::ostreambuf_iterator<wchar_t>(&wsb),
                      wio, L' ', L'\0');

            rw_fatal (!wio.fail (), __FILE__, __LINE__,
                      "num_put<wchar_t>::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::num_put<charT> 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::num_put<char>");

    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::num_put<wchar_t>");

    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::num_put<char> and std::num_put<wchar_t>");

    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;
}
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);

    // array of locale names to use for testing
    const char* locales [sizeof punct_data / sizeof *punct_data];

    const std::size_t maxinx = sizeof locales / sizeof *locales;

    // iterate over locales, initializing a global punct_data array
    for (const char *name = locale_list; *name; name += std::strlen (name) +1) {

        std::locale loc;

        MoneypunctData* const pdata = punct_data + nlocales;

        pdata->locale_name_ = name;
        locales [nlocales]  = name;

        try {
            loc = std::locale (name);

            typedef std::moneypunct<char, false> Punct;

            const Punct &mp = std::use_facet<Punct>(loc);

            const char           dp  = mp.decimal_point ();
            const char           ts  = mp.thousands_sep ();
            const std::string    grp = mp.grouping ();
            const std::string    cur = mp.curr_symbol ();
            const std::string    pos = mp.positive_sign ();
            const std::string    neg = mp.negative_sign ();
            const int            fd  = mp.frac_digits ();
            const Punct::pattern pfm = mp.pos_format ();
            const Punct::pattern nfm = mp.neg_format ();

            pdata->decimal_point_ = dp;
            pdata->thousands_sep_ = ts;
            pdata->frac_digits_   = fd;

            std::strcpy (pdata->grouping_, grp.c_str ());
            std::strcpy (pdata->curr_symbol_, cur.c_str ());
            std::strcpy (pdata->positive_sign_, pos.c_str ());
            std::strcpy (pdata->negative_sign_, neg.c_str ());
            std::memcpy (pdata->pos_format_, &pfm, sizeof pfm);
            std::memcpy (pdata->neg_format_, &nfm, sizeof nfm);
        }
        catch (...) {
            rw_warn (0, 0, __LINE__,
                     "std::locale(%#s) threw an exception, skipping", name);
            continue;
        }

        try {
            typedef std::moneypunct<char, true> Punct;

            const Punct &mp = std::use_facet<Punct>(loc);

            const std::string    cur = mp.curr_symbol ();
            const int            fd  = mp.frac_digits ();
            const Punct::pattern pfm = mp.pos_format ();
            const Punct::pattern nfm = mp.neg_format ();

            pdata->int_frac_digits_ = fd;

            std::strcpy (pdata->int_curr_symbol_, cur.c_str ());
            std::memcpy (pdata->int_pos_format_, &pfm, sizeof pfm);
            std::memcpy (pdata->int_neg_format_, &nfm, sizeof nfm);
        }
        catch (...) {
            rw_warn (0, 0, __LINE__,
                     "std::locale(%#s) threw an exception, skipping", name);
            continue;
        }

#ifndef _RWSTD_NO_WCHAR_T

        try {
            typedef std::moneypunct<wchar_t, false> Punct;

            const Punct &mp = std::use_facet<Punct>(loc);

            const wchar_t      dp  = mp.decimal_point ();
            const wchar_t      ts  = mp.thousands_sep ();
            const std::wstring cur = mp.curr_symbol ();
            const std::wstring pos = mp.positive_sign ();
            const std::wstring neg = mp.negative_sign ();

            pdata->wdecimal_point_ = dp;
            pdata->wthousands_sep_ = ts;

            typedef std::wstring::traits_type Traits;

            Traits::copy (pdata->wcurr_symbol_,   cur.data (), cur.size ());
            Traits::copy (pdata->wpositive_sign_, pos.data (), pos.size ());
            Traits::copy (pdata->wnegative_sign_, neg.data (), neg.size ());
        }
        catch (...) {
            rw_warn (0, 0, __LINE__,
                     "std::locale(%#s) threw an exception, skipping", name);
            continue;
        }

        try {
            typedef std::moneypunct<wchar_t, true> Punct;

            const Punct &mp = std::use_facet<Punct>(loc);

            const std::wstring cur = mp.curr_symbol ();
            const std::wstring pos = mp.positive_sign ();
            const std::wstring neg = mp.negative_sign ();

            typedef std::wstring::traits_type Traits;

            Traits::copy (pdata->wint_curr_symbol_, cur.data (), cur.size ());
        }
        catch (...) {
            rw_warn (0, 0, __LINE__,
                     "std::locale(%#s) threw an exception, skipping", name);
            continue;
        }

#endif   // _RWSTD_NO_WCHAR_T

        ++nlocales;

        if (nlocales == maxinx)
            break;
    }

    // unless the number of iterations was explicitly specified
    // on the command line, decrease the number to equal the number
    // of excericsed locales when only one thread is being tested
    if (1 == opt_nthreads && opt_nloops < 0)
        opt_nloops = int (nlocales);

    // when the number of iterations wasn't explicitly specified
    // on the command line set it to the default value
    if (opt_nloops < 0)
        opt_nloops = DFLT_LOOPS;

    rw_fatal (0 < nlocales, 0, __LINE__,
              "must have at least one valid locale to test");

    rw_info (0, 0, 0,
             "testing std::moneypunct<charT> 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::moneypunct<char>");

    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, std::size_t (opt_timeout));

    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::moneypunct<wchar_t>");

    test_char  = false;
    test_wchar = true;

    // start a pool of threads to exercise the thread safety
    // of the wchar_t specialization
    result =
        rw_thread_pool (0, std::size_t (opt_nthreads), 0,
                        thread_func, 0, std::size_t (opt_timeout));

    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::moneypunct<char> "
             "and std::moneypunct<wchar_t>");

    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, std::size_t (opt_timeout));

    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;
}
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 punct_data / sizeof *punct_data;

    // iterate over locales, initializing a global punct_data array
    for (const char *name = locale_list;
         *name;
         name += std::strlen (name) +1) {

        const std::size_t inx = nlocales;
        locales [inx] = name;

        NumPunctData& data = punct_data [inx];

        try {
            std::locale loc(name);
            data.locale_name_ = name;

            const std::numpunct<char> &np =
                std::use_facet<std::numpunct<char> >(loc);

            data.grouping_ = np.grouping ();

            data.decimal_point_ = np.decimal_point ();
            data.thousands_sep_ = np.thousands_sep ();

            data.truename_  = np.truename ();
            data.falsename_ = np.falsename ();

#ifndef _RWSTD_NO_WCHAR_T

            const std::numpunct<wchar_t> &wp =
                std::use_facet<std::numpunct<wchar_t> >(loc);

            data.wdecimal_point_ = wp.decimal_point ();
            data.wthousands_sep_ = wp.thousands_sep ();

            data.wtruename_  = wp.truename ();
            data.wfalsename_ = wp.falsename ();

#endif

            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::numpunct<charT> 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::numpunct<char>");

    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, std::size_t (opt_timeout));

    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::numpunct<wchar_t>");

    test_char  = false;
    test_wchar = true;

    // start a pool of threads to exercise the thread safety
    // of the wchar_t specialization
    result =
        rw_thread_pool (0, std::size_t (opt_nthreads), 0,
                        thread_func, 0, std::size_t (opt_timeout));

    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::numpunct<char> and std::numpunct<wchar_t>");

    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, std::size_t (opt_timeout));

    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;
}