/* Rich optional information on why an optimization wasn't possible. Copyright (C) 2018-2020 Free Software Foundation, Inc. Contributed by David Malcolm . This file is part of GCC. GCC 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, or (at your option) any later version. GCC 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 GCC; see the file COPYING3. If not see . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "backend.h" #include "tree.h" #include "gimple.h" #include "pretty-print.h" #include "opt-problem.h" #include "dump-context.h" #include "tree-pass.h" #include "selftest.h" /* opt_problem's ctor. Use FMT and AP to emit a message to the "immediate" dump destinations as if via: dump_printf_loc (MSG_MISSED_OPTIMIZATION, loc, ...) The optinfo_item instances are not emitted yet. Instead, they are retained internally so that the message can be replayed and emitted when this problem is handled, higher up the call stack. */ opt_problem::opt_problem (const dump_location_t &loc, const char *fmt, va_list *ap) : m_optinfo (loc, OPTINFO_KIND_FAILURE, current_pass) { /* We shouldn't be bothering to construct these objects if dumping isn't enabled. */ gcc_assert (dump_enabled_p ()); /* Update the singleton. */ delete s_the_problem; s_the_problem = this; /* Print the location to the "immediate" dump destinations. */ dump_context &dc = dump_context::get (); dc.dump_loc (MSG_MISSED_OPTIMIZATION, loc.get_user_location ()); /* Print the formatted string to this opt_problem's optinfo, dumping the items to the "immediate" dump destinations, and storing items for later retrieval. */ { dump_pretty_printer pp (&dump_context::get (), MSG_MISSED_OPTIMIZATION); text_info text; text.err_no = errno; text.args_ptr = ap; text.format_spec = fmt; /* No i18n is performed. */ /* Phases 1 and 2, using pp_format. */ pp_format (&pp, &text); /* Phase 3: dump the items to the "immediate" dump destinations, and storing them into m_optinfo for later retrieval. */ pp.emit_items (&m_optinfo); } } /* Emit this problem and delete it, clearing the current opt_problem. */ void opt_problem::emit_and_clear () { gcc_assert (this == s_the_problem); m_optinfo.emit_for_opt_problem (); delete this; s_the_problem = NULL; } /* The singleton opt_problem *. */ opt_problem *opt_problem::s_the_problem; #if CHECKING_P namespace selftest { static opt_result function_that_succeeds () { return opt_result::success (); } /* Verify that opt_result::success works. */ static void test_opt_result_success () { /* Run all tests twice, with and then without dumping enabled. */ for (int i = 0 ; i < 2; i++) { bool with_dumping = (i == 0); temp_dump_context tmp (with_dumping, with_dumping, MSG_ALL_KINDS | MSG_ALL_PRIORITIES); if (with_dumping) gcc_assert (dump_enabled_p ()); else gcc_assert (!dump_enabled_p ()); opt_result res = function_that_succeeds (); /* Verify that "success" can be used as a "true" boolean. */ ASSERT_TRUE (res); /* Verify the underlying opt_wrapper. */ ASSERT_TRUE (res.get_result ()); ASSERT_EQ (res.get_problem (), NULL); /* Nothing should have been dumped. */ ASSERT_DUMPED_TEXT_EQ (tmp, ""); optinfo *info = tmp.get_pending_optinfo (); ASSERT_EQ (info, NULL); } } /* Example of a function that fails, with a non-trivial pre-canned error message. */ static opt_result function_that_fails (const greturn *stmt) { gcc_assert (stmt); gcc_assert (gimple_return_retval (stmt)); AUTO_DUMP_SCOPE ("function_that_fails", stmt); return opt_result::failure_at (stmt, "can't handle return type: %T for stmt: %G", TREE_TYPE (gimple_return_retval (stmt)), static_cast (stmt)); } /* Example of a function that indirectly fails. */ static opt_result function_that_indirectly_fails (const greturn *stmt) { AUTO_DUMP_SCOPE ("function_that_indirectly_fails", stmt); opt_result res = function_that_fails (stmt); if (!res) return res; return opt_result::success (); } /* Verify that opt_result::failure_at works. Simulate a failure handling a stmt at one location whilst considering an optimization that's notionally at another location (as a microcosm of e.g. a problematic statement within a loop that prevents loop vectorization). */ static void test_opt_result_failure_at (const line_table_case &case_) { /* Generate a location_t for testing. */ line_table_test ltt (case_); const line_map_ordinary *ord_map = linemap_check_ordinary (linemap_add (line_table, LC_ENTER, false, "test.c", 0)); linemap_line_start (line_table, 5, 100); /* A test location: "test.c:5:10". */ const location_t line_5 = linemap_position_for_column (line_table, 10); /* Another test location: "test.c:6:12". */ const location_t line_6 = linemap_position_for_line_and_column (line_table, ord_map, 6, 12); if (line_6 > LINE_MAP_MAX_LOCATION_WITH_COLS) return; /* Generate statements using "line_5" and "line_6" for testing. */ greturn *stmt_at_5 = gimple_build_return (integer_one_node); gimple_set_location (stmt_at_5, line_5); greturn *stmt_at_6 = gimple_build_return (integer_zero_node); gimple_set_location (stmt_at_6, line_6); /* Run with and then without dumping enabled. */ for (int i = 0; i < 2; i++) { bool with_dumping = (i == 0); /* Run with all 4 combinations of with and without MSG_PRIORITY_INTERNALS and with and without MSG_PRIORITY_REEMITTED. */ for (int j = 0; j < 4; j++) { dump_flags_t filter = MSG_ALL_KINDS | MSG_PRIORITY_USER_FACING; if (j / 2) filter |= MSG_PRIORITY_INTERNALS; if (j % 2) filter |= MSG_PRIORITY_REEMITTED; temp_dump_context tmp (with_dumping, with_dumping, filter); if (with_dumping) gcc_assert (dump_enabled_p ()); else gcc_assert (!dump_enabled_p ()); /* Simulate attempting to optimize "stmt_at_6". */ opt_result res = function_that_indirectly_fails (stmt_at_6); /* Verify that "failure" can be used as a "false" boolean. */ ASSERT_FALSE (res); /* Verify the underlying opt_wrapper. */ ASSERT_FALSE (res.get_result ()); opt_problem *problem = res.get_problem (); if (with_dumping) { ASSERT_NE (problem, NULL); ASSERT_EQ (problem->get_dump_location ().get_location_t (), line_6); #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8) /* Verify that the problem captures the implementation location it was emitted from. */ const dump_impl_location_t &impl_location = problem->get_dump_location ().get_impl_location (); ASSERT_STR_CONTAINS (impl_location.m_function, "function_that_fails"); #endif /* Verify that the underlying dump items are retained in the opt_problem. */ const optinfo &info = problem->get_optinfo (); ASSERT_EQ (info.get_dump_location ().get_location_t (), line_6); ASSERT_EQ (info.num_items (), 4); ASSERT_IS_TEXT (info.get_item (0), "can't handle return type: "); ASSERT_IS_TREE (info.get_item (1), UNKNOWN_LOCATION, "int"); ASSERT_IS_TEXT (info.get_item (2), " for stmt: "); ASSERT_IS_GIMPLE (info.get_item (3), line_6, "return 0;\n"); /* ...but not in the dump_context's pending_optinfo. */ ASSERT_EQ (tmp.get_pending_optinfo (), NULL); /* Simulate emitting a high-level summary message, followed by the problem. */ dump_printf_loc (MSG_MISSED_OPTIMIZATION, stmt_at_5, "can't optimize loop\n"); problem->emit_and_clear (); ASSERT_EQ (res.get_problem (), NULL); /* Verify that the error message was dumped (when the failure occurred). We can't use a switch here as not all of the values are const expressions (using C++98). */ dump_flags_t effective_filter = filter & (MSG_PRIORITY_INTERNALS | MSG_PRIORITY_REEMITTED); if (effective_filter == (MSG_PRIORITY_INTERNALS | MSG_PRIORITY_REEMITTED)) /* The -fopt-info-internals case. */ ASSERT_DUMPED_TEXT_EQ (tmp, "test.c:6:12: note: === function_that_indirectly_fails" " ===\n" "test.c:6:12: note: === function_that_fails ===\n" "test.c:6:12: missed: can't handle return type: int" " for stmt: return 0;\n" "test.c:5:10: missed: can't optimize loop\n" "test.c:6:12: missed: can't handle return type: int" " for stmt: return 0;\n"); else if (effective_filter == MSG_PRIORITY_INTERNALS) /* The default for dump files. */ ASSERT_DUMPED_TEXT_EQ (tmp, "test.c:6:12: note: === function_that_indirectly_fails" " ===\n" "test.c:6:12: note: === function_that_fails ===\n" "test.c:6:12: missed: can't handle return type: int" " for stmt: return 0;\n" "test.c:5:10: missed: can't optimize loop\n"); else if (effective_filter == MSG_PRIORITY_REEMITTED) /* The default when -fopt-info is enabled. */ ASSERT_DUMPED_TEXT_EQ (tmp, "test.c:5:10: missed: can't optimize loop\n" "test.c:6:12: missed: can't handle return type: int" " for stmt: return 0;\n"); else { gcc_assert (effective_filter == 0); ASSERT_DUMPED_TEXT_EQ (tmp, "test.c:5:10: missed: can't optimize loop\n"); } } else { /* If dumping was disabled, then no problem should have been created, and nothing should have been dumped. */ ASSERT_EQ (problem, NULL); ASSERT_DUMPED_TEXT_EQ (tmp, ""); } } } } /* Run all of the selftests within this file. */ void opt_problem_cc_tests () { test_opt_result_success (); for_each_line_table_case (test_opt_result_failure_at); } } // namespace selftest #endif /* CHECKING_P */