/* Self tests for ptid_t for GDB, the GNU debugger. Copyright (C) 2017-2021 Free Software Foundation, Inc. This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "defs.h" #include "gdbsupport/ptid.h" #include namespace selftests { namespace ptid { /* Check that the ptid_t class is POD. This is a requirement for as long as we have ptids embedded in structures allocated with malloc. */ static_assert (std::is_pod::value, "ptid_t is POD"); /* We want to avoid implicit conversion from int to ptid_t. */ static_assert (!std::is_convertible::value, "constructor is explicit"); /* Build some useful ptids. */ static constexpr ptid_t pid = ptid_t (1); static constexpr ptid_t lwp = ptid_t (1, 2, 0); static constexpr ptid_t tid = ptid_t (1, 0, 2); static constexpr ptid_t both = ptid_t (1, 2, 2); /* Build some constexpr version of null_ptid and minus_one_ptid to use in static_assert. Once the real ones are made constexpr, we can get rid of these. */ static constexpr ptid_t null = ptid_t::make_null (); static constexpr ptid_t minus_one = ptid_t::make_minus_one (); /* Verify pid. */ static_assert (pid.pid () == 1, "pid's pid is right"); static_assert (lwp.pid () == 1, "lwp's pid is right"); static_assert (tid.pid () == 1, "tid's pid is right"); static_assert (both.pid () == 1, "both's pid is right"); /* Verify lwp_p. */ static_assert (!pid.lwp_p (), "pid's lwp_p is right"); static_assert (lwp.lwp_p (), "lwp's lwp_p is right"); static_assert (!tid.lwp_p (), "tid's lwp_p is right"); static_assert (both.lwp_p (), "both's lwp_p is right"); /* Verify lwp. */ static_assert (pid.lwp () == 0, "pid's lwp is right"); static_assert (lwp.lwp () == 2, "lwp's lwp is right"); static_assert (tid.lwp () == 0, "tid's lwp is right"); static_assert (both.lwp () == 2, "both's lwp is right"); /* Verify tid_p. */ static_assert (!pid.tid_p (), "pid's tid_p is right"); static_assert (!lwp.tid_p (), "lwp's tid_p is right"); static_assert (tid.tid_p (), "tid's tid_p is right"); static_assert (both.tid_p (), "both's tid_p is right"); /* Verify tid. */ static_assert (pid.tid () == 0, "pid's tid is right"); static_assert (lwp.tid () == 0, "lwp's tid is right"); static_assert (tid.tid () == 2, "tid's tid is right"); static_assert (both.tid () == 2, "both's tid is right"); /* Verify is_pid. */ static_assert (pid.is_pid (), "pid is a pid"); static_assert (!lwp.is_pid (), "lwp isn't a pid"); static_assert (!tid.is_pid (), "tid isn't a pid"); static_assert (!both.is_pid (), "both isn't a pid"); static_assert (!null.is_pid (), "null ptid isn't a pid"); static_assert (!minus_one.is_pid (), "minus one ptid isn't a pid"); /* Verify operator ==. */ static_assert (pid == ptid_t (1, 0, 0), "pid operator== is right"); static_assert (lwp == ptid_t (1, 2, 0), "lwp operator== is right"); static_assert (tid == ptid_t (1, 0, 2), "tid operator== is right"); static_assert (both == ptid_t (1, 2, 2), "both operator== is right"); /* Verify operator !=. */ static_assert (pid != ptid_t (2, 0, 0), "pid isn't equal to a different pid"); static_assert (pid != lwp, "pid isn't equal to one of its thread"); static_assert (lwp != tid, "lwp isn't equal to tid"); static_assert (both != lwp, "both isn't equal to lwp"); static_assert (both != tid, "both isn't equal to tid"); /* Verify matches against minus_one. */ static_assert (pid.matches (minus_one), "pid matches minus one"); static_assert (lwp.matches (minus_one), "lwp matches minus one"); static_assert (tid.matches (minus_one), "tid matches minus one"); static_assert (both.matches (minus_one), "both matches minus one"); /* Verify matches against pid. */ static_assert (pid.matches (pid), "pid matches pid"); static_assert (lwp.matches (pid), "lwp matches pid"); static_assert (tid.matches (pid), "tid matches pid"); static_assert (both.matches (pid), "both matches pid"); static_assert (!ptid_t (2, 0, 0).matches (pid), "other pid doesn't match pid"); static_assert (!ptid_t (2, 2, 0).matches (pid), "other lwp doesn't match pid"); static_assert (!ptid_t (2, 0, 2).matches (pid), "other tid doesn't match pid"); static_assert (!ptid_t (2, 2, 2).matches (pid), "other both doesn't match pid"); /* Verify matches against exact matches. */ static_assert (!pid.matches (lwp), "pid doesn't match lwp"); static_assert (lwp.matches (lwp), "lwp matches lwp"); static_assert (!tid.matches (lwp), "tid doesn't match lwp"); static_assert (!both.matches (lwp), "both doesn't match lwp"); static_assert (!ptid_t (2, 2, 0).matches (lwp), "other lwp doesn't match lwp"); static_assert (!pid.matches (tid), "pid doesn't match tid"); static_assert (!lwp.matches (tid), "lwp doesn't match tid"); static_assert (tid.matches (tid), "tid matches tid"); static_assert (!both.matches (tid), "both doesn't match tid"); static_assert (!ptid_t (2, 0, 2).matches (tid), "other tid doesn't match tid"); static_assert (!pid.matches (both), "pid doesn't match both"); static_assert (!lwp.matches (both), "lwp doesn't match both"); static_assert (!tid.matches (both), "tid doesn't match both"); static_assert (both.matches (both), "both matches both"); static_assert (!ptid_t (2, 2, 2).matches (both), "other both doesn't match both"); } /* namespace ptid */ } /* namespace selftests */