8d9254fc8a
From-SVN: r279813
290 lines
9.2 KiB
C++
290 lines
9.2 KiB
C++
/* Rich information on why an optimization wasn't possible.
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Copyright (C) 2018-2020 Free Software Foundation, Inc.
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Contributed by David Malcolm <dmalcolm@redhat.com>.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING3. If not see
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<http://www.gnu.org/licenses/>. */
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#ifndef GCC_OPT_PROBLEM_H
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#define GCC_OPT_PROBLEM_H
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#include "diagnostic-core.h" /* for ATTRIBUTE_GCC_DIAG. */
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#include "optinfo.h" /* for optinfo. */
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/* This header declares a family of wrapper classes for tracking a
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success/failure value, while optionally supporting propagating an
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opt_problem * describing any failure back up the call stack.
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For instance, at the deepest point of the callstack where the failure
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happens, rather than:
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if (!check_something ())
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{
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if (dump_enabled_p ())
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dump_printf_loc (MSG_MISSED_OPTIMIZATION, vect_location,
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"foo is unsupported.\n");
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return false;
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}
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// [...more checks...]
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// All checks passed:
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return true;
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we can capture the cause of the failure via:
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if (!check_something ())
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return opt_result::failure_at (stmt, "foo is unsupported");
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// [...more checks...]
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// All checks passed:
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return opt_result::success ();
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which effectively returns true or false, whilst recording any problem.
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opt_result::success and opt_result::failure return opt_result values
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which "looks like" true/false respectively, via operator bool().
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If dump_enabled_p, then opt_result::failure also creates an opt_problem *,
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capturing the pertinent data (here, "foo is unsupported " and "stmt").
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If dumps are disabled, then opt_problem instances aren't
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created, and it's equivalent to just returning a bool.
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The opt_problem can be propagated via opt_result values back up
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the call stack to where it makes most sense to the user.
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For instance, rather than:
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bool ok = try_something_that_might_fail ();
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if (!ok)
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{
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if (dump_enabled_p ())
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dump_printf_loc (MSG_MISSED_OPTIMIZATION, vect_location,
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"some message.\n");
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return false;
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}
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we can replace the bool with an opt_result, so if dump_enabled_p, we
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assume that if try_something_that_might_fail, an opt_problem * will be
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created, and we can propagate it up the call chain:
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opt_result ok = try_something_that_might_fail ();
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if (!ok)
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{
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if (dump_enabled_p ())
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dump_printf_loc (MSG_MISSED_OPTIMIZATION, vect_location,
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"some message.\n");
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return ok; // propagating the opt_result
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}
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opt_result is an opt_wrapper<bool>, where opt_wrapper<T> is a base
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class for wrapping a T, optionally propagating an opt_problem in
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case of failure_at (when dumps are enabled). Similarly,
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opt_pointer_wrapper<T> can be used to wrap pointer types (where non-NULL
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signifies success, NULL signifies failure).
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In all cases, opt_wrapper<T> acts as if the opt_problem were one of its
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fields, but the opt_problem is actually stored in a global, so that when
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compiled, an opt_wrapper<T> is effectively just a T, so that we're
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still just passing e.g. a bool around; the opt_wrapper<T> classes
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simply provide type-checking and an API to ensure that we provide
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error-messages deep in the callstack at the places where problems
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occur, and that we propagate them. This also avoids having
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to manage the ownership of the opt_problem instances.
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Using opt_result and opt_wrapper<T> documents the intent of the code
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for the places where we represent success values, and allows the C++ type
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system to track where the deepest points in the callstack are where we
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need to emit the failure messages from. */
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/* A bundle of information about why an optimization failed (e.g.
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vectorization), and the location in both the user's code and
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in GCC itself where the problem occurred.
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Instances are created by static member functions in opt_wrapper
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subclasses, such as opt_result::failure.
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Instances are only created when dump_enabled_p (). */
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class opt_problem
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{
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public:
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static opt_problem *get_singleton () { return s_the_problem; }
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opt_problem (const dump_location_t &loc,
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const char *fmt, va_list *ap)
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ATTRIBUTE_GCC_DUMP_PRINTF (3, 0);
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const dump_location_t &
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get_dump_location () const { return m_optinfo.get_dump_location (); }
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const optinfo & get_optinfo () const { return m_optinfo; }
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void emit_and_clear ();
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private:
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optinfo m_optinfo;
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static opt_problem *s_the_problem;
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};
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/* A base class for wrapper classes that track a success/failure value, while
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optionally supporting propagating an opt_problem * describing any
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failure back up the call stack. */
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template <typename T>
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class opt_wrapper
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{
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public:
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typedef T wrapped_t;
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/* Be accessible as the wrapped type. */
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operator wrapped_t () const { return m_result; }
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/* No public ctor. */
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wrapped_t get_result () const { return m_result; }
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opt_problem *get_problem () const { return opt_problem::get_singleton (); }
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protected:
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opt_wrapper (wrapped_t result, opt_problem */*problem*/)
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: m_result (result)
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{
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/* "problem" is ignored: although it looks like a field, we
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actually just use the opt_problem singleton, so that
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opt_wrapper<T> in memory is just a T. */
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}
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private:
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wrapped_t m_result;
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};
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/* Subclass of opt_wrapper<T> for bool, where
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- true signifies "success", and
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- false signifies "failure"
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whilst effectively propagating an opt_problem * describing any failure
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back up the call stack. */
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class opt_result : public opt_wrapper <bool>
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{
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public:
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/* Generate a "success" value: a wrapper around "true". */
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static opt_result success () { return opt_result (true, NULL); }
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/* Generate a "failure" value: a wrapper around "false", and,
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if dump_enabled_p, an opt_problem. */
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static opt_result failure_at (const dump_location_t &loc,
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const char *fmt, ...)
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ATTRIBUTE_GCC_DUMP_PRINTF (2, 3)
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{
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opt_problem *problem = NULL;
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if (dump_enabled_p ())
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{
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va_list ap;
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va_start (ap, fmt);
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problem = new opt_problem (loc, fmt, &ap);
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va_end (ap);
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}
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return opt_result (false, problem);
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}
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/* Given a failure wrapper of some other kind, make an opt_result failure
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object, for propagating the opt_problem up the call stack. */
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template <typename S>
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static opt_result
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propagate_failure (opt_wrapper <S> other)
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{
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return opt_result (false, other.get_problem ());
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}
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private:
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/* Private ctor. Instances should be created by the success and failure
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static member functions. */
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opt_result (wrapped_t result, opt_problem *problem)
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: opt_wrapper <bool> (result, problem)
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{}
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};
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/* Subclass of opt_wrapper<T> where T is a pointer type, for tracking
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success/failure, where:
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- a non-NULL value signifies "success", and
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- a NULL value signifies "failure",
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whilst effectively propagating an opt_problem * describing any failure
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back up the call stack. */
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template <typename PtrType_t>
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class opt_pointer_wrapper : public opt_wrapper <PtrType_t>
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{
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public:
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typedef PtrType_t wrapped_pointer_t;
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/* Given a non-NULL pointer, make a success object wrapping it. */
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static opt_pointer_wrapper <wrapped_pointer_t>
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success (wrapped_pointer_t ptr)
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{
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return opt_pointer_wrapper <wrapped_pointer_t> (ptr, NULL);
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}
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/* Make a NULL pointer failure object, with the given message
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(if dump_enabled_p). */
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static opt_pointer_wrapper <wrapped_pointer_t>
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failure_at (const dump_location_t &loc,
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const char *fmt, ...)
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ATTRIBUTE_GCC_DUMP_PRINTF (2, 3)
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{
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opt_problem *problem = NULL;
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if (dump_enabled_p ())
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{
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va_list ap;
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va_start (ap, fmt);
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problem = new opt_problem (loc, fmt, &ap);
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va_end (ap);
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}
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return opt_pointer_wrapper <wrapped_pointer_t> (NULL, problem);
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}
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/* Given a failure wrapper of some other kind, make a NULL pointer
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failure object, propagating the problem. */
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template <typename S>
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static opt_pointer_wrapper <wrapped_pointer_t>
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propagate_failure (opt_wrapper <S> other)
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{
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return opt_pointer_wrapper <wrapped_pointer_t> (NULL,
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other.get_problem ());
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}
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/* Support accessing the underlying pointer via ->. */
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wrapped_pointer_t operator-> () const { return this->get_result (); }
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private:
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/* Private ctor. Instances should be built using the static member
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functions "success" and "failure". */
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opt_pointer_wrapper (wrapped_pointer_t result, opt_problem *problem)
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: opt_wrapper<PtrType_t> (result, problem)
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{}
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};
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/* A typedef for wrapping "tree" so that NULL_TREE can carry an
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opt_problem describing the failure (if dump_enabled_p). */
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typedef opt_pointer_wrapper<tree> opt_tree;
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#endif /* #ifndef GCC_OPT_PROBLEM_H */
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