mirror of
https://github.com/ergochat/ergo.git
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169 lines
4.0 KiB
Go
169 lines
4.0 KiB
Go
package btree
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type Set[K ordered] struct {
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base Map[K, struct{}]
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}
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// Copy
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func (tr *Set[K]) Copy() *Set[K] {
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tr2 := new(Set[K])
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tr2.base = *tr.base.Copy()
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return tr2
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}
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// Insert an item
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func (tr *Set[K]) Insert(key K) {
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tr.base.Set(key, struct{}{})
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}
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func (tr *Set[K]) Scan(iter func(key K) bool) {
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tr.base.Scan(func(key K, value struct{}) bool {
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return iter(key)
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})
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}
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// Get a value for key
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func (tr *Set[K]) Contains(key K) bool {
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_, ok := tr.base.Get(key)
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return ok
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}
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// Len returns the number of items in the tree
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func (tr *Set[K]) Len() int {
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return tr.base.Len()
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}
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// Delete an item
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func (tr *Set[K]) Delete(key K) {
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tr.base.Delete(key)
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}
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// Ascend the tree within the range [pivot, last]
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// Pass nil for pivot to scan all item in ascending order
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// Return false to stop iterating
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func (tr *Set[K]) Ascend(pivot K, iter func(key K) bool) {
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tr.base.Ascend(pivot, func(key K, value struct{}) bool {
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return iter(key)
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})
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}
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func (tr *Set[K]) Reverse(iter func(key K) bool) {
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tr.base.Reverse(func(key K, value struct{}) bool {
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return iter(key)
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})
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}
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// Descend the tree within the range [pivot, first]
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// Pass nil for pivot to scan all item in descending order
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// Return false to stop iterating
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func (tr *Set[K]) Descend(pivot K, iter func(key K) bool) {
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tr.base.Descend(pivot, func(key K, value struct{}) bool {
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return iter(key)
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})
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}
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// Load is for bulk loading pre-sorted items
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func (tr *Set[K]) Load(key K) {
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tr.base.Load(key, struct{}{})
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}
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// Min returns the minimum item in tree.
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// Returns nil if the treex has no items.
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func (tr *Set[K]) Min() (K, bool) {
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key, _, ok := tr.base.Min()
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return key, ok
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}
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// Max returns the maximum item in tree.
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// Returns nil if the tree has no items.
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func (tr *Set[K]) Max() (K, bool) {
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key, _, ok := tr.base.Max()
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return key, ok
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}
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// PopMin removes the minimum item in tree and returns it.
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// Returns nil if the tree has no items.
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func (tr *Set[K]) PopMin() (K, bool) {
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key, _, ok := tr.base.PopMin()
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return key, ok
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}
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// PopMax removes the maximum item in tree and returns it.
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// Returns nil if the tree has no items.
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func (tr *Set[K]) PopMax() (K, bool) {
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key, _, ok := tr.base.PopMax()
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return key, ok
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}
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// GetAt returns the value at index.
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// Return nil if the tree is empty or the index is out of bounds.
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func (tr *Set[K]) GetAt(index int) (K, bool) {
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key, _, ok := tr.base.GetAt(index)
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return key, ok
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}
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// DeleteAt deletes the item at index.
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// Return nil if the tree is empty or the index is out of bounds.
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func (tr *Set[K]) DeleteAt(index int) (K, bool) {
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key, _, ok := tr.base.DeleteAt(index)
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return key, ok
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}
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// Height returns the height of the tree.
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// Returns zero if tree has no items.
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func (tr *Set[K]) Height() int {
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return tr.base.Height()
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}
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// SetIter represents an iterator for btree.Set
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type SetIter[K ordered] struct {
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base MapIter[K, struct{}]
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}
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// Iter returns a read-only iterator.
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func (tr *Set[K]) Iter() SetIter[K] {
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return SetIter[K]{tr.base.Iter()}
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}
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// Seek to item greater-or-equal-to key.
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// Returns false if there was no item found.
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func (iter *SetIter[K]) Seek(key K) bool {
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return iter.base.Seek(key)
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}
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// First moves iterator to first item in tree.
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// Returns false if the tree is empty.
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func (iter *SetIter[K]) First() bool {
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return iter.base.First()
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}
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// Last moves iterator to last item in tree.
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// Returns false if the tree is empty.
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func (iter *SetIter[K]) Last() bool {
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return iter.base.Last()
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}
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// Next moves iterator to the next item in iterator.
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// Returns false if the tree is empty or the iterator is at the end of
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// the tree.
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func (iter *SetIter[K]) Next() bool {
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return iter.base.Next()
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}
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// Prev moves iterator to the previous item in iterator.
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// Returns false if the tree is empty or the iterator is at the beginning of
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// the tree.
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func (iter *SetIter[K]) Prev() bool {
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return iter.base.Prev()
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}
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// Key returns the current iterator item key.
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func (iter *SetIter[K]) Key() K {
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return iter.base.Key()
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}
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// Keys returns all the keys in order.
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func (tr *Set[K]) Keys() []K {
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return tr.base.Keys()
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}
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