include/llvm/ADT/SetOperations.h - llvm-project/llvm - Git at Google

 //===-- llvm/ADT/SetOperations.h - Generic Set Operations -------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 ///
 /// \file
 /// This file defines generic set operations that may be used on set's of
 /// different types, and different element types.
 ///
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_ADT_SETOPERATIONS_H
 #define LLVM_ADT_SETOPERATIONS_H

 namespace llvm {

 /// set_union(A, B) - Compute A := A u B, return whether A changed.
 ///
 template <class S1Ty, class S2Ty>
 bool set_union(S1Ty &S1, const S2Ty &S2) {
   bool Changed = false;

   for (typename S2Ty::const_iterator SI = S2.begin(), SE = S2.end();
        SI != SE; ++SI)
     if (S1.insert(*SI).second)
       Changed = true;

   return Changed;
 }

 /// set_intersect(A, B) - Compute A := A ^ B
 /// Identical to set_intersection, except that it works on set<>'s and
 /// is nicer to use.  Functionally, this iterates through S1, removing
 /// elements that are not contained in S2.
 ///
 template <class S1Ty, class S2Ty>
 void set_intersect(S1Ty &S1, const S2Ty &S2) {
    for (typename S1Ty::iterator I = S1.begin(); I != S1.end();) {
      const auto &E = *I;
      ++I;
      if (!S2.count(E)) S1.erase(E);   // Erase element if not in S2
    }
 }

 template <class S1Ty, class S2Ty>
 S1Ty set_intersection_impl(const S1Ty &S1, const S2Ty &S2) {
    S1Ty Result;
    for (typename S1Ty::const_iterator SI = S1.begin(), SE = S1.end(); SI != SE;
         ++SI)
      if (S2.count(*SI))
       Result.insert(*SI);
    return Result;
 }

 /// set_intersection(A, B) - Return A ^ B
 template <class S1Ty, class S2Ty>
 S1Ty set_intersection(const S1Ty &S1, const S2Ty &S2) {
    if (S1.size() < S2.size())
      return set_intersection_impl(S1, S2);
    else
      return set_intersection_impl(S2, S1);
 }

 /// set_difference(A, B) - Return A - B
 ///
 template <class S1Ty, class S2Ty>
 S1Ty set_difference(const S1Ty &S1, const S2Ty &S2) {
   S1Ty Result;
   for (typename S1Ty::const_iterator SI = S1.begin(), SE = S1.end();
        SI != SE; ++SI)
     if (!S2.count(*SI))       // if the element is not in set2
       Result.insert(*SI);
   return Result;
 }

 /// set_subtract(A, B) - Compute A := A - B
 ///
 template <class S1Ty, class S2Ty>
 void set_subtract(S1Ty &S1, const S2Ty &S2) {
   for (typename S2Ty::const_iterator SI = S2.begin(), SE = S2.end();
        SI != SE; ++SI)
     S1.erase(*SI);
 }

 /// set_subtract(A, B, C, D) - Compute A := A - B, set C to the elements of B
 /// removed from A (A ^ B), and D to the elements of B not found in and removed
 /// from A (B - A).
 template <class S1Ty, class S2Ty>
 void set_subtract(S1Ty &S1, const S2Ty &S2, S1Ty &Removed, S1Ty &Remaining) {
   for (typename S2Ty::const_iterator SI = S2.begin(), SE = S2.end(); SI != SE;
        ++SI)
     if (S1.erase(*SI))
       Removed.insert(*SI);
     else
       Remaining.insert(*SI);
 }

 /// set_is_subset(A, B) - Return true iff A in B
 ///
 template <class S1Ty, class S2Ty>
 bool set_is_subset(const S1Ty &S1, const S2Ty &S2) {
   if (S1.size() > S2.size())
     return false;
   for (const auto It : S1)
     if (!S2.count(It))
       return false;
   return true;
 }

 } // End llvm namespace

 #endif
	//===-- llvm/ADT/SetOperations.h - Generic Set Operations -------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	///
	/// \file
	/// This file defines generic set operations that may be used on set's of
	/// different types, and different element types.
	///
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_ADT_SETOPERATIONS_H
	#define LLVM_ADT_SETOPERATIONS_H

	namespace llvm {

	/// set_union(A, B) - Compute A := A u B, return whether A changed.
	///
	template <class S1Ty, class S2Ty>
	bool set_union(S1Ty &S1, const S2Ty &S2) {
	bool Changed = false;

	for (typename S2Ty::const_iterator SI = S2.begin(), SE = S2.end();
	SI != SE; ++SI)
	if (S1.insert(*SI).second)
	Changed = true;

	return Changed;
	}

	/// set_intersect(A, B) - Compute A := A ^ B
	/// Identical to set_intersection, except that it works on set<>'s and
	/// is nicer to use. Functionally, this iterates through S1, removing
	/// elements that are not contained in S2.
	///
	template <class S1Ty, class S2Ty>
	void set_intersect(S1Ty &S1, const S2Ty &S2) {
	for (typename S1Ty::iterator I = S1.begin(); I != S1.end();) {
	const auto &E = *I;
	++I;
	if (!S2.count(E)) S1.erase(E); // Erase element if not in S2
	}
	}

	template <class S1Ty, class S2Ty>
	S1Ty set_intersection_impl(const S1Ty &S1, const S2Ty &S2) {
	S1Ty Result;
	for (typename S1Ty::const_iterator SI = S1.begin(), SE = S1.end(); SI != SE;
	++SI)
	if (S2.count(*SI))
	Result.insert(*SI);
	return Result;
	}

	/// set_intersection(A, B) - Return A ^ B
	template <class S1Ty, class S2Ty>
	S1Ty set_intersection(const S1Ty &S1, const S2Ty &S2) {
	if (S1.size() < S2.size())
	return set_intersection_impl(S1, S2);
	else
	return set_intersection_impl(S2, S1);
	}

	/// set_difference(A, B) - Return A - B
	///
	template <class S1Ty, class S2Ty>
	S1Ty set_difference(const S1Ty &S1, const S2Ty &S2) {
	S1Ty Result;
	for (typename S1Ty::const_iterator SI = S1.begin(), SE = S1.end();
	SI != SE; ++SI)
	if (!S2.count(*SI)) // if the element is not in set2
	Result.insert(*SI);
	return Result;
	}

	/// set_subtract(A, B) - Compute A := A - B
	///
	template <class S1Ty, class S2Ty>
	void set_subtract(S1Ty &S1, const S2Ty &S2) {
	for (typename S2Ty::const_iterator SI = S2.begin(), SE = S2.end();
	SI != SE; ++SI)
	S1.erase(*SI);
	}

	/// set_subtract(A, B, C, D) - Compute A := A - B, set C to the elements of B
	/// removed from A (A ^ B), and D to the elements of B not found in and removed
	/// from A (B - A).
	template <class S1Ty, class S2Ty>
	void set_subtract(S1Ty &S1, const S2Ty &S2, S1Ty &Removed, S1Ty &Remaining) {
	for (typename S2Ty::const_iterator SI = S2.begin(), SE = S2.end(); SI != SE;
	++SI)
	if (S1.erase(*SI))
	Removed.insert(*SI);
	else
	Remaining.insert(*SI);
	}

	/// set_is_subset(A, B) - Return true iff A in B
	///
	template <class S1Ty, class S2Ty>
	bool set_is_subset(const S1Ty &S1, const S2Ty &S2) {
	if (S1.size() > S2.size())
	return false;
	for (const auto It : S1)
	if (!S2.count(It))
	return false;
	return true;
	}

	} // End llvm namespace

	#endif