v1.5.7/internal/addrs/set.go - terraform - Git at Google

 // Copyright (c) HashiCorp, Inc.
 // SPDX-License-Identifier: MPL-2.0

 package addrs

 // Set represents a set of addresses of types that implement UniqueKeyer.
 //
 // Modify the set only by the methods on this type. This type exposes its
 // internals for convenience during reading, such as iterating over set elements
 // by ranging over the map values, but making direct modifications could
 // potentially make the set data invalid or inconsistent, leading to undefined
 // behavior elsewhere.
 type Set[T UniqueKeyer] map[UniqueKey]T

 func MakeSet[T UniqueKeyer](elems ...T) Set[T] {
 	ret := Set[T](make(map[UniqueKey]T, len(elems)))
 	for _, elem := range elems {
 		ret.Add(elem)
 	}
 	return ret
 }

 // Has returns true if and only if the set includes the given address.
 func (s Set[T]) Has(addr T) bool {
 	_, exists := s[addr.UniqueKey()]
 	return exists
 }

 // Add inserts the given address into the set, if not already present. If
 // an equivalent address is already in the set, this replaces that address
 // with the new value.
 func (s Set[T]) Add(addr T) {
 	s[addr.UniqueKey()] = addr
 }

 // Remove deletes the given address from the set, if present. If not present,
 // this is a no-op.
 func (s Set[T]) Remove(addr T) {
 	delete(s, addr.UniqueKey())
 }

 // Union returns a new set which contains the union of all of the elements
 // of both the reciever and the given other set.
 func (s Set[T]) Union(other Set[T]) Set[T] {
 	ret := make(Set[T])
 	for k, addr := range s {
 		ret[k] = addr
 	}
 	for k, addr := range other {
 		ret[k] = addr
 	}
 	return ret
 }

 // Intersection returns a new set which contains the intersection of all of the
 // elements of both the reciever and the given other set.
 func (s Set[T]) Intersection(other Set[T]) Set[T] {
 	ret := make(Set[T])
 	for k, addr := range s {
 		if _, exists := other[k]; exists {
 			ret[k] = addr
 		}
 	}
 	for k, addr := range other {
 		if _, exists := s[k]; exists {
 			ret[k] = addr
 		}
 	}
 	return ret
 }
	// Copyright (c) HashiCorp, Inc.
	// SPDX-License-Identifier: MPL-2.0

	package addrs

	// Set represents a set of addresses of types that implement UniqueKeyer.
	//
	// Modify the set only by the methods on this type. This type exposes its
	// internals for convenience during reading, such as iterating over set elements
	// by ranging over the map values, but making direct modifications could
	// potentially make the set data invalid or inconsistent, leading to undefined
	// behavior elsewhere.
	type Set[T UniqueKeyer] map[UniqueKey]T

	func MakeSet[T UniqueKeyer](elems ...T) Set[T] {
	ret := Set[T](make(map[UniqueKey]T, len(elems)))
	for _, elem := range elems {
	ret.Add(elem)
	}
	return ret
	}

	// Has returns true if and only if the set includes the given address.
	func (s Set[T]) Has(addr T) bool {
	_, exists := s[addr.UniqueKey()]
	return exists
	}

	// Add inserts the given address into the set, if not already present. If
	// an equivalent address is already in the set, this replaces that address
	// with the new value.
	func (s Set[T]) Add(addr T) {
	s[addr.UniqueKey()] = addr
	}

	// Remove deletes the given address from the set, if present. If not present,
	// this is a no-op.
	func (s Set[T]) Remove(addr T) {
	delete(s, addr.UniqueKey())
	}

	// Union returns a new set which contains the union of all of the elements
	// of both the reciever and the given other set.
	func (s Set[T]) Union(other Set[T]) Set[T] {
	ret := make(Set[T])
	for k, addr := range s {
	ret[k] = addr
	}
	for k, addr := range other {
	ret[k] = addr
	}
	return ret
	}

	// Intersection returns a new set which contains the intersection of all of the
	// elements of both the reciever and the given other set.
	func (s Set[T]) Intersection(other Set[T]) Set[T] {
	ret := make(Set[T])
	for k, addr := range s {
	if _, exists := other[k]; exists {
	ret[k] = addr
	}
	}
	for k, addr := range other {
	if _, exists := s[k]; exists {
	ret[k] = addr
	}
	}
	return ret
	}