github.com/JimmyHuang454/JLS-go@v0.0.0-20230831150107-90d536585ba0/internal/types/testdata/check/map1.go (about) 1 // Copyright 2019 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 // This file is like map.go2, but instead if importing chans, it contains 6 // the necessary functionality at the end of the file. 7 8 // Package orderedmap provides an ordered map, implemented as a binary tree. 9 package orderedmap 10 11 // Map is an ordered map. 12 type Map[K, V any] struct { 13 root *node[K, V] 14 compare func(K, K) int 15 } 16 17 // node is the type of a node in the binary tree. 18 type node[K, V any] struct { 19 key K 20 val V 21 left, right *node[K, V] 22 } 23 24 // New returns a new map. 25 func New[K, V any](compare func(K, K) int) *Map[K, V] { 26 return &Map[K, V]{compare: compare} 27 } 28 29 // find looks up key in the map, and returns either a pointer 30 // to the node holding key, or a pointer to the location where 31 // such a node would go. 32 func (m *Map[K, V]) find(key K) **node[K, V] { 33 pn := &m.root 34 for *pn != nil { 35 switch cmp := m.compare(key, (*pn).key); { 36 case cmp < 0: 37 pn = &(*pn).left 38 case cmp > 0: 39 pn = &(*pn).right 40 default: 41 return pn 42 } 43 } 44 return pn 45 } 46 47 // Insert inserts a new key/value into the map. 48 // If the key is already present, the value is replaced. 49 // Returns true if this is a new key, false if already present. 50 func (m *Map[K, V]) Insert(key K, val V) bool { 51 pn := m.find(key) 52 if *pn != nil { 53 (*pn).val = val 54 return false 55 } 56 *pn = &node[K, V]{key: key, val: val} 57 return true 58 } 59 60 // Find returns the value associated with a key, or zero if not present. 61 // The found result reports whether the key was found. 62 func (m *Map[K, V]) Find(key K) (V, bool) { 63 pn := m.find(key) 64 if *pn == nil { 65 var zero V // see the discussion of zero values, above 66 return zero, false 67 } 68 return (*pn).val, true 69 } 70 71 // keyValue is a pair of key and value used when iterating. 72 type keyValue[K, V any] struct { 73 key K 74 val V 75 } 76 77 // InOrder returns an iterator that does an in-order traversal of the map. 78 func (m *Map[K, V]) InOrder() *Iterator[K, V] { 79 sender, receiver := chans_Ranger[keyValue[K, V]]() 80 var f func(*node[K, V]) bool 81 f = func(n *node[K, V]) bool { 82 if n == nil { 83 return true 84 } 85 // Stop sending values if sender.Send returns false, 86 // meaning that nothing is listening at the receiver end. 87 return f(n.left) && 88 sender.Send(keyValue[K, V]{n.key, n.val}) && 89 f(n.right) 90 } 91 go func() { 92 f(m.root) 93 sender.Close() 94 }() 95 return &Iterator[K, V]{receiver} 96 } 97 98 // Iterator is used to iterate over the map. 99 type Iterator[K, V any] struct { 100 r *chans_Receiver[keyValue[K, V]] 101 } 102 103 // Next returns the next key and value pair, and a boolean indicating 104 // whether they are valid or whether we have reached the end. 105 func (it *Iterator[K, V]) Next() (K, V, bool) { 106 keyval, ok := it.r.Next() 107 if !ok { 108 var zerok K 109 var zerov V 110 return zerok, zerov, false 111 } 112 return keyval.key, keyval.val, true 113 } 114 115 // chans 116 117 func chans_Ranger[T any]() (*chans_Sender[T], *chans_Receiver[T]) { panic(0) } 118 119 // A sender is used to send values to a Receiver. 120 type chans_Sender[T any] struct { 121 values chan<- T 122 done <-chan bool 123 } 124 125 func (s *chans_Sender[T]) Send(v T) bool { 126 select { 127 case s.values <- v: 128 return true 129 case <-s.done: 130 return false 131 } 132 } 133 134 func (s *chans_Sender[T]) Close() { 135 close(s.values) 136 } 137 138 type chans_Receiver[T any] struct { 139 values <-chan T 140 done chan<- bool 141 } 142 143 func (r *chans_Receiver[T]) Next() (T, bool) { 144 v, ok := <-r.values 145 return v, ok 146 }