// Generated by: main // TypeWriter: set // Directive: +gen on identifier package ast // Set is a modification of https://github.com/deckarep/golang-set // The MIT License (MIT) // Copyright (c) 2013 Ralph Caraveo (deckarep@gmail.com) // IdentifierSet is the primary type that represents a set type IdentifierSet map[Identifier]struct{} // NewIdentifierSet creates and returns a reference to an empty set. func NewIdentifierSet(a ...Identifier) IdentifierSet { s := make(IdentifierSet) for _, i := range a { s.Add(i) } return s } // ToSlice returns the elements of the current set as a slice func (set IdentifierSet) ToSlice() []Identifier { var s []Identifier for v := range set { s = append(s, v) } return s } // Add adds an item to the current set if it doesn't already exist in the set. func (set IdentifierSet) Add(i Identifier) bool { _, found := set[i] set[i] = struct{}{} return !found //False if it existed already } // Contains determines if a given item is already in the set. func (set IdentifierSet) Contains(i Identifier) bool { _, found := set[i] return found } // ContainsAll determines if the given items are all in the set func (set IdentifierSet) ContainsAll(i ...Identifier) bool { for _, v := range i { if !set.Contains(v) { return false } } return true } // IsSubset determines if every item in the other set is in this set. func (set IdentifierSet) IsSubset(other IdentifierSet) bool { for elem := range set { if !other.Contains(elem) { return false } } return true } // IsSuperset determines if every item of this set is in the other set. func (set IdentifierSet) IsSuperset(other IdentifierSet) bool { return other.IsSubset(set) } // Union returns a new set with all items in both sets. func (set IdentifierSet) Union(other IdentifierSet) IdentifierSet { unionedSet := NewIdentifierSet() for elem := range set { unionedSet.Add(elem) } for elem := range other { unionedSet.Add(elem) } return unionedSet } // Intersect returns a new set with items that exist only in both sets. func (set IdentifierSet) Intersect(other IdentifierSet) IdentifierSet { intersection := NewIdentifierSet() // loop over smaller set if set.Cardinality() < other.Cardinality() { for elem := range set { if other.Contains(elem) { intersection.Add(elem) } } } else { for elem := range other { if set.Contains(elem) { intersection.Add(elem) } } } return intersection } // Difference returns a new set with items in the current set but not in the other set func (set IdentifierSet) Difference(other IdentifierSet) IdentifierSet { differencedSet := NewIdentifierSet() for elem := range set { if !other.Contains(elem) { differencedSet.Add(elem) } } return differencedSet } // SymmetricDifference returns a new set with items in the current set or the other set but not in both. func (set IdentifierSet) SymmetricDifference(other IdentifierSet) IdentifierSet { aDiff := set.Difference(other) bDiff := other.Difference(set) return aDiff.Union(bDiff) } // Clear clears the entire set to be the empty set. func (set *IdentifierSet) Clear() { *set = make(IdentifierSet) } // Remove allows the removal of a single item in the set. func (set IdentifierSet) Remove(i Identifier) { delete(set, i) } // Cardinality returns how many items are currently in the set. func (set IdentifierSet) Cardinality() int { return len(set) } // Iter returns a channel of type identifier that you can range over. func (set IdentifierSet) Iter() <-chan Identifier { ch := make(chan Identifier) go func() { for elem := range set { ch <- elem } close(ch) }() return ch } // Equal determines if two sets are equal to each other. // If they both are the same size and have the same items they are considered equal. // Order of items is not relevent for sets to be equal. func (set IdentifierSet) Equal(other IdentifierSet) bool { if set.Cardinality() != other.Cardinality() { return false } for elem := range set { if !other.Contains(elem) { return false } } return true } // Clone returns a clone of the set. // Does NOT clone the underlying elements. func (set IdentifierSet) Clone() IdentifierSet { clonedSet := NewIdentifierSet() for elem := range set { clonedSet.Add(elem) } return clonedSet }