gcc/rtl-ssa/change-utils.h - gcc - Git at Google

 // RTL SSA utility functions for changing instructions              -*- C++ -*-
 // Copyright (C) 2020-2021 Free Software Foundation, Inc.
 //
 // 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
 // <http://www.gnu.org/licenses/>.

 namespace rtl_ssa {

 // Return true if INSN is one of the instructions being changed by CHANGES.
 inline bool
 insn_is_changing (array_slice<insn_change *const> changes,
 		  const insn_info *insn)
 {
   for (const insn_change *change : changes)
     if (change->insn () == insn)
       return true;
   return false;
 }

 // Return a closure of insn_is_changing, for use as a predicate.
 // This could be done using local lambdas instead, but the predicate is
 // used often enough that having a class should be more convenient and allow
 // reuse of template instantiations.
 //
 // We don't use std::bind because it would involve an indirect function call,
 // whereas this function is used in relatively performance-critical code.
 inline insn_is_changing_closure
 insn_is_changing (array_slice<insn_change *const> changes)
 {
   return insn_is_changing_closure (changes);
 }

 // Restrict CHANGE.move_range so that the changed instruction can perform
 // all its definitions and uses.  Assume that if:
 //
 // - CHANGE contains an access A1 of resource R;
 // - an instruction I2 contains another access A2 to R; and
 // - IGNORE (I2) is true
 //
 // then either:
 //
 // - A2 will be removed; or
 // - something will ensure that A1 and A2 maintain their current order,
 //   without this having to be enforced by CHANGE's move range.
 //
 // IGNORE should return true for CHANGE.insn ().
 //
 // Return true on success, otherwise leave CHANGE.move_range in an invalid
 // state.
 //
 // This function only works correctly for instructions that remain within
 // the same extended basic block.
 template<typename IgnorePredicate>
 bool
 restrict_movement_ignoring (insn_change &change, IgnorePredicate ignore)
 {
   // Uses generally lead to failure quicker, so test those first.
   return (restrict_movement_for_uses_ignoring (change.move_range,
 					       change.new_uses, ignore)
 	  && restrict_movement_for_defs_ignoring (change.move_range,
 						  change.new_defs, ignore)
 	  && canonicalize_move_range (change.move_range, change.insn ()));
 }

 // Like restrict_movement_ignoring, but ignore only the instruction
 // that is being changed.
 inline bool
 restrict_movement (insn_change &change)
 {
   return restrict_movement_ignoring (change, insn_is (change.insn ()));
 }

 using add_regno_clobber_fn = std::function<bool (insn_change &,
 						 unsigned int)>;
 bool recog_internal (insn_change &, add_regno_clobber_fn);

 // Try to recognize the new instruction pattern for CHANGE, potentially
 // tweaking the pattern or adding extra clobbers in order to make it match.
 //
 // When adding an extra clobber for register R, restrict CHANGE.move_range
 // to a range of instructions for which R is not live.  When determining
 // whether R is live, ignore accesses made by an instruction I if
 // IGNORE (I) is true.  The caller then assumes the responsibility
 // of ensuring that CHANGE and I are placed in a valid order.
 //
 // IGNORE should return true for CHANGE.insn ().
 //
 // Return true on success.  Leave CHANGE unmodified on failure.
 template<typename IgnorePredicate>
 inline bool
 recog_ignoring (obstack_watermark &watermark, insn_change &change,
 		IgnorePredicate ignore)
 {
   auto add_regno_clobber = [&](insn_change &change, unsigned int regno)
     {
       return crtl->ssa->add_regno_clobber (watermark, change, regno, ignore);
     };
   return recog_internal (change, add_regno_clobber);
 }

 // As for recog_ignoring, but ignore only the instruction that is being
 // changed.
 inline bool
 recog (obstack_watermark &watermark, insn_change &change)
 {
   return recog_ignoring (watermark, change, insn_is (change.insn ()));
 }

 // Check whether insn costs indicate that the net effect of the changes
 // in CHANGES is worthwhile.  Require a strict improvement if STRICT_P,
 // otherwise allow the new instructions to be the same cost as the old
 // instructions.
 bool changes_are_worthwhile (array_slice<insn_change *const> changes,
 			     bool strict_p = false);

 // Like changes_are_worthwhile, but for a single change.
 inline bool
 change_is_worthwhile (insn_change &change, bool strict_p = false)
 {
   insn_change *changes[] = { &change };
   return changes_are_worthwhile (changes, strict_p);
 }

 }
	// RTL SSA utility functions for changing instructions -- C++ --
	// Copyright (C) 2020-2021 Free Software Foundation, Inc.
	//
	// 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
	// <http://www.gnu.org/licenses/>.

	namespace rtl_ssa {

	// Return true if INSN is one of the instructions being changed by CHANGES.
	inline bool
	insn_is_changing (array_slice<insn_change *const> changes,
	const insn_info *insn)
	{
	for (const insn_change *change : changes)
	if (change->insn () == insn)
	return true;
	return false;
	}

	// Return a closure of insn_is_changing, for use as a predicate.
	// This could be done using local lambdas instead, but the predicate is
	// used often enough that having a class should be more convenient and allow
	// reuse of template instantiations.
	//
	// We don't use std::bind because it would involve an indirect function call,
	// whereas this function is used in relatively performance-critical code.
	inline insn_is_changing_closure
	insn_is_changing (array_slice<insn_change *const> changes)
	{
	return insn_is_changing_closure (changes);
	}

	// Restrict CHANGE.move_range so that the changed instruction can perform
	// all its definitions and uses. Assume that if:
	//
	// - CHANGE contains an access A1 of resource R;
	// - an instruction I2 contains another access A2 to R; and
	// - IGNORE (I2) is true
	//
	// then either:
	//
	// - A2 will be removed; or
	// - something will ensure that A1 and A2 maintain their current order,
	// without this having to be enforced by CHANGE's move range.
	//
	// IGNORE should return true for CHANGE.insn ().
	//
	// Return true on success, otherwise leave CHANGE.move_range in an invalid
	// state.
	//
	// This function only works correctly for instructions that remain within
	// the same extended basic block.
	template<typename IgnorePredicate>
	bool
	restrict_movement_ignoring (insn_change &change, IgnorePredicate ignore)
	{
	// Uses generally lead to failure quicker, so test those first.
	return (restrict_movement_for_uses_ignoring (change.move_range,
	change.new_uses, ignore)
	&& restrict_movement_for_defs_ignoring (change.move_range,
	change.new_defs, ignore)
	&& canonicalize_move_range (change.move_range, change.insn ()));
	}

	// Like restrict_movement_ignoring, but ignore only the instruction
	// that is being changed.
	inline bool
	restrict_movement (insn_change &change)
	{
	return restrict_movement_ignoring (change, insn_is (change.insn ()));
	}

	using add_regno_clobber_fn = std::function<bool (insn_change &,
	unsigned int)>;
	bool recog_internal (insn_change &, add_regno_clobber_fn);

	// Try to recognize the new instruction pattern for CHANGE, potentially
	// tweaking the pattern or adding extra clobbers in order to make it match.
	//
	// When adding an extra clobber for register R, restrict CHANGE.move_range
	// to a range of instructions for which R is not live. When determining
	// whether R is live, ignore accesses made by an instruction I if
	// IGNORE (I) is true. The caller then assumes the responsibility
	// of ensuring that CHANGE and I are placed in a valid order.
	//
	// IGNORE should return true for CHANGE.insn ().
	//
	// Return true on success. Leave CHANGE unmodified on failure.
	template<typename IgnorePredicate>
	inline bool
	recog_ignoring (obstack_watermark &watermark, insn_change &change,
	IgnorePredicate ignore)
	{
	auto add_regno_clobber = [&](insn_change &change, unsigned int regno)
	{
	return crtl->ssa->add_regno_clobber (watermark, change, regno, ignore);
	};
	return recog_internal (change, add_regno_clobber);
	}

	// As for recog_ignoring, but ignore only the instruction that is being
	// changed.
	inline bool
	recog (obstack_watermark &watermark, insn_change &change)
	{
	return recog_ignoring (watermark, change, insn_is (change.insn ()));
	}

	// Check whether insn costs indicate that the net effect of the changes
	// in CHANGES is worthwhile. Require a strict improvement if STRICT_P,
	// otherwise allow the new instructions to be the same cost as the old
	// instructions.
	bool changes_are_worthwhile (array_slice<insn_change *const> changes,
	bool strict_p = false);

	// Like changes_are_worthwhile, but for a single change.
	inline bool
	change_is_worthwhile (insn_change &change, bool strict_p = false)
	{
	insn_change *changes[] = { &change };
	return changes_are_worthwhile (changes, strict_p);
	}

	}