gcc/range-op.h - gcc - Git at Google

 /* Header file for range operator class.
    Copyright (C) 2017-2021 Free Software Foundation, Inc.
    Contributed by Andrew MacLeod <amacleod@redhat.com>
    and Aldy Hernandez <aldyh@redhat.com>.

 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/>.  */

 #ifndef GCC_RANGE_OP_H
 #define GCC_RANGE_OP_H

 // This class is implemented for each kind of operator supported by
 // the range generator.  It serves various purposes.
 //
 // 1 - Generates range information for the specific operation between
 //     two ranges.  This provides the ability to fold ranges for an
 //     expression.
 //
 // 2 - Performs range algebra on the expression such that a range can be
 //     adjusted in terms of one of the operands:
 //
 //       def = op1 + op2
 //
 //     Given a range for def, we can adjust the range so that it is in
 //     terms of either operand.
 //
 //     op1_range (def_range, op2) will adjust the range in place so it
 //     is in terms of op1.  Since op1 = def - op2, it will subtract
 //     op2 from each element of the range.
 //
 // 3 - Creates a range for an operand based on whether the result is 0 or
 //     non-zero.  This is mostly for logical true false, but can serve other
 //     purposes.
 //       ie   0 = op1 - op2 implies op2 has the same range as op1.

 class range_operator
 {
 public:
   // Perform an operation between 2 ranges and return it.
   virtual bool fold_range (irange &r, tree type,
 			   const irange &lh,
 			   const irange &rh,
 			   relation_kind rel = VREL_NONE) const;

   // Return the range for op[12] in the general case.  LHS is the range for
   // the LHS of the expression, OP[12]is the range for the other
   //
   // The operand and the result is returned in R.
   //
   // TYPE is the expected type of the range.
   //
   // Return TRUE if the operation is performed and a valid range is available.
   //
   // i.e.  [LHS] = ??? + OP2
   // is re-formed as R = [LHS] - OP2.
   virtual bool op1_range (irange &r, tree type,
 			  const irange &lhs,
 			  const irange &op2,
 			  relation_kind rel = VREL_NONE) const;
   virtual bool op2_range (irange &r, tree type,
 			  const irange &lhs,
 			  const irange &op1,
 			  relation_kind rel = VREL_NONE) const;

   // The following routines are used to represent relations between the
   // various operations.  If the caller knows where the symbolics are,
   // it can query for relationships between them given known ranges.
   virtual enum tree_code lhs_op1_relation (const irange &lhs,
 					   const irange &op1,
 					   const irange &op2) const;
   virtual enum tree_code lhs_op2_relation (const irange &lhs,
 					   const irange &op1,
 					   const irange &op2) const;
   virtual enum tree_code op1_op2_relation (const irange &lhs) const;
 protected:
   // Perform an integral operation between 2 sub-ranges and return it.
   virtual void wi_fold (irange &r, tree type,
 		        const wide_int &lh_lb,
 		        const wide_int &lh_ub,
 		        const wide_int &rh_lb,
 		        const wide_int &rh_ub) const;
   // Side effect of relation for generic fold_range clients.
   virtual bool op1_op2_relation_effect (irange &lhs_range, tree type,
 					const irange &op1_range,
 					const irange &op2_range,
 					relation_kind rel) const;
   // Called by fold range to split small subranges into parts.
   void wi_fold_in_parts (irange &r, tree type,
 			 const wide_int &lh_lb,
 			 const wide_int &lh_ub,
 			 const wide_int &rh_lb,
 			 const wide_int &rh_ub) const;
 };

 extern range_operator *range_op_handler (enum tree_code code, tree type);
 extern void range_cast (irange &, tree type);
 extern void wi_set_zero_nonzero_bits (tree type,
 				      const wide_int &, const wide_int &,
 				      wide_int &maybe_nonzero,
 				      wide_int &mustbe_nonzero);

 #endif // GCC_RANGE_OP_H
	/* Header file for range operator class.
	Copyright (C) 2017-2021 Free Software Foundation, Inc.
	Contributed by Andrew MacLeod <amacleod@redhat.com>
	and Aldy Hernandez <aldyh@redhat.com>.

	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/>. */

	#ifndef GCC_RANGE_OP_H
	#define GCC_RANGE_OP_H

	// This class is implemented for each kind of operator supported by
	// the range generator. It serves various purposes.
	//
	// 1 - Generates range information for the specific operation between
	// two ranges. This provides the ability to fold ranges for an
	// expression.
	//
	// 2 - Performs range algebra on the expression such that a range can be
	// adjusted in terms of one of the operands:
	//
	// def = op1 + op2
	//
	// Given a range for def, we can adjust the range so that it is in
	// terms of either operand.
	//
	// op1_range (def_range, op2) will adjust the range in place so it
	// is in terms of op1. Since op1 = def - op2, it will subtract
	// op2 from each element of the range.
	//
	// 3 - Creates a range for an operand based on whether the result is 0 or
	// non-zero. This is mostly for logical true false, but can serve other
	// purposes.
	// ie 0 = op1 - op2 implies op2 has the same range as op1.

	class range_operator
	{
	public:
	// Perform an operation between 2 ranges and return it.
	virtual bool fold_range (irange &r, tree type,
	const irange &lh,
	const irange &rh,
	relation_kind rel = VREL_NONE) const;

	// Return the range for op[12] in the general case. LHS is the range for
	// the LHS of the expression, OP[12]is the range for the other
	//
	// The operand and the result is returned in R.
	//
	// TYPE is the expected type of the range.
	//
	// Return TRUE if the operation is performed and a valid range is available.
	//
	// i.e. [LHS] = ??? + OP2
	// is re-formed as R = [LHS] - OP2.
	virtual bool op1_range (irange &r, tree type,
	const irange &lhs,
	const irange &op2,
	relation_kind rel = VREL_NONE) const;
	virtual bool op2_range (irange &r, tree type,
	const irange &lhs,
	const irange &op1,
	relation_kind rel = VREL_NONE) const;

	// The following routines are used to represent relations between the
	// various operations. If the caller knows where the symbolics are,
	// it can query for relationships between them given known ranges.
	virtual enum tree_code lhs_op1_relation (const irange &lhs,
	const irange &op1,
	const irange &op2) const;
	virtual enum tree_code lhs_op2_relation (const irange &lhs,
	const irange &op1,
	const irange &op2) const;
	virtual enum tree_code op1_op2_relation (const irange &lhs) const;
	protected:
	// Perform an integral operation between 2 sub-ranges and return it.
	virtual void wi_fold (irange &r, tree type,
	const wide_int &lh_lb,
	const wide_int &lh_ub,
	const wide_int &rh_lb,
	const wide_int &rh_ub) const;
	// Side effect of relation for generic fold_range clients.
	virtual bool op1_op2_relation_effect (irange &lhs_range, tree type,
	const irange &op1_range,
	const irange &op2_range,
	relation_kind rel) const;
	// Called by fold range to split small subranges into parts.
	void wi_fold_in_parts (irange &r, tree type,
	const wide_int &lh_lb,
	const wide_int &lh_ub,
	const wide_int &rh_lb,
	const wide_int &rh_ub) const;
	};

	extern range_operator *range_op_handler (enum tree_code code, tree type);
	extern void range_cast (irange &, tree type);
	extern void wi_set_zero_nonzero_bits (tree type,
	const wide_int &, const wide_int &,
	wide_int &maybe_nonzero,
	wide_int &mustbe_nonzero);

	#endif // GCC_RANGE_OP_H