Documentation ¶
Overview ¶
Package gtree provides concurrent-safe/unsafe tree containers.
Some implements are from: https://github.com/emirpasic/gods
Index ¶
- type AVLTree
- func (tree *AVLTree) Ceiling(key interface{}) (ceiling *AVLTreeNode, found bool)
- func (tree *AVLTree) Clear()
- func (tree *AVLTree) Clone() *AVLTree
- func (tree *AVLTree) Contains(key interface{}) bool
- func (tree *AVLTree) Flip(comparator ...func(v1, v2 interface{}) int)
- func (tree *AVLTree) Floor(key interface{}) (floor *AVLTreeNode, found bool)
- func (tree *AVLTree) Get(key interface{}) (value interface{})
- func (tree *AVLTree) GetOrSet(key interface{}, value interface{}) interface{}
- func (tree *AVLTree) GetOrSetFunc(key interface{}, f func() interface{}) interface{}
- func (tree *AVLTree) GetOrSetFuncLock(key interface{}, f func() interface{}) interface{}
- func (tree *AVLTree) GetVar(key interface{}) *gvar.Var
- func (tree *AVLTree) GetVarOrSet(key interface{}, value interface{}) *gvar.Var
- func (tree *AVLTree) GetVarOrSetFunc(key interface{}, f func() interface{}) *gvar.Var
- func (tree *AVLTree) GetVarOrSetFuncLock(key interface{}, f func() interface{}) *gvar.Var
- func (tree *AVLTree) IsEmpty() bool
- func (tree *AVLTree) Iterator(f func(key, value interface{}) bool)
- func (tree *AVLTree) IteratorAsc(f func(key, value interface{}) bool)
- func (tree *AVLTree) IteratorAscFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *AVLTree) IteratorDesc(f func(key, value interface{}) bool)
- func (tree *AVLTree) IteratorDescFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *AVLTree) IteratorFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *AVLTree) Keys() []interface{}
- func (tree *AVLTree) Left() *AVLTreeNode
- func (tree *AVLTree) Map() map[interface{}]interface{}
- func (tree *AVLTree) MapStrAny() map[string]interface{}
- func (tree *AVLTree) MarshalJSON() ([]byte, error)
- func (tree *AVLTree) Print()
- func (tree *AVLTree) Remove(key interface{}) (value interface{})
- func (tree *AVLTree) Removes(keys []interface{})
- func (tree *AVLTree) Replace(data map[interface{}]interface{})
- func (tree *AVLTree) Right() *AVLTreeNode
- func (tree *AVLTree) Search(key interface{}) (value interface{}, found bool)
- func (tree *AVLTree) Set(key interface{}, value interface{})
- func (tree *AVLTree) SetIfNotExist(key interface{}, value interface{}) bool
- func (tree *AVLTree) SetIfNotExistFunc(key interface{}, f func() interface{}) bool
- func (tree *AVLTree) SetIfNotExistFuncLock(key interface{}, f func() interface{}) bool
- func (tree *AVLTree) Sets(data map[interface{}]interface{})
- func (tree *AVLTree) Size() int
- func (tree *AVLTree) String() string
- func (tree *AVLTree) Values() []interface{}
- type AVLTreeNode
- type BTree
- func (tree *BTree) Clear()
- func (tree *BTree) Clone() *BTree
- func (tree *BTree) Contains(key interface{}) bool
- func (tree *BTree) Get(key interface{}) (value interface{})
- func (tree *BTree) GetOrSet(key interface{}, value interface{}) interface{}
- func (tree *BTree) GetOrSetFunc(key interface{}, f func() interface{}) interface{}
- func (tree *BTree) GetOrSetFuncLock(key interface{}, f func() interface{}) interface{}
- func (tree *BTree) GetVar(key interface{}) *gvar.Var
- func (tree *BTree) GetVarOrSet(key interface{}, value interface{}) *gvar.Var
- func (tree *BTree) GetVarOrSetFunc(key interface{}, f func() interface{}) *gvar.Var
- func (tree *BTree) GetVarOrSetFuncLock(key interface{}, f func() interface{}) *gvar.Var
- func (tree *BTree) Height() int
- func (tree *BTree) IsEmpty() bool
- func (tree *BTree) Iterator(f func(key, value interface{}) bool)
- func (tree *BTree) IteratorAsc(f func(key, value interface{}) bool)
- func (tree *BTree) IteratorAscFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *BTree) IteratorDesc(f func(key, value interface{}) bool)
- func (tree *BTree) IteratorDescFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *BTree) IteratorFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *BTree) Keys() []interface{}
- func (tree *BTree) Left() *BTreeEntry
- func (tree *BTree) Map() map[interface{}]interface{}
- func (tree *BTree) MapStrAny() map[string]interface{}
- func (tree *BTree) MarshalJSON() ([]byte, error)
- func (tree *BTree) Print()
- func (tree *BTree) Remove(key interface{}) (value interface{})
- func (tree *BTree) Removes(keys []interface{})
- func (tree *BTree) Replace(data map[interface{}]interface{})
- func (tree *BTree) Right() *BTreeEntry
- func (tree *BTree) Search(key interface{}) (value interface{}, found bool)
- func (tree *BTree) Set(key interface{}, value interface{})
- func (tree *BTree) SetIfNotExist(key interface{}, value interface{}) bool
- func (tree *BTree) SetIfNotExistFunc(key interface{}, f func() interface{}) bool
- func (tree *BTree) SetIfNotExistFuncLock(key interface{}, f func() interface{}) bool
- func (tree *BTree) Sets(data map[interface{}]interface{})
- func (tree *BTree) Size() int
- func (tree *BTree) String() string
- func (tree *BTree) Values() []interface{}
- type BTreeEntry
- type BTreeNode
- type RedBlackTree
- func (tree *RedBlackTree) Ceiling(key interface{}) (ceiling *RedBlackTreeNode, found bool)
- func (tree *RedBlackTree) Clear()
- func (tree *RedBlackTree) Clone() *RedBlackTree
- func (tree *RedBlackTree) Contains(key interface{}) bool
- func (tree *RedBlackTree) Flip(comparator ...func(v1, v2 interface{}) int)
- func (tree *RedBlackTree) Floor(key interface{}) (floor *RedBlackTreeNode, found bool)
- func (tree *RedBlackTree) Get(key interface{}) (value interface{})
- func (tree *RedBlackTree) GetOrSet(key interface{}, value interface{}) interface{}
- func (tree *RedBlackTree) GetOrSetFunc(key interface{}, f func() interface{}) interface{}
- func (tree *RedBlackTree) GetOrSetFuncLock(key interface{}, f func() interface{}) interface{}
- func (tree *RedBlackTree) GetVar(key interface{}) *gvar.Var
- func (tree *RedBlackTree) GetVarOrSet(key interface{}, value interface{}) *gvar.Var
- func (tree *RedBlackTree) GetVarOrSetFunc(key interface{}, f func() interface{}) *gvar.Var
- func (tree *RedBlackTree) GetVarOrSetFuncLock(key interface{}, f func() interface{}) *gvar.Var
- func (tree *RedBlackTree) IsEmpty() bool
- func (tree *RedBlackTree) Iterator(f func(key, value interface{}) bool)
- func (tree *RedBlackTree) IteratorAsc(f func(key, value interface{}) bool)
- func (tree *RedBlackTree) IteratorAscFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *RedBlackTree) IteratorDesc(f func(key, value interface{}) bool)
- func (tree *RedBlackTree) IteratorDescFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *RedBlackTree) IteratorFrom(key interface{}, match bool, f func(key, value interface{}) bool)
- func (tree *RedBlackTree) Keys() []interface{}
- func (tree *RedBlackTree) Left() *RedBlackTreeNode
- func (tree *RedBlackTree) Map() map[interface{}]interface{}
- func (tree *RedBlackTree) MapStrAny() map[string]interface{}
- func (tree *RedBlackTree) MarshalJSON() ([]byte, error)
- func (tree *RedBlackTree) Print()
- func (tree *RedBlackTree) Remove(key interface{}) (value interface{})
- func (tree *RedBlackTree) Removes(keys []interface{})
- func (tree *RedBlackTree) Replace(data map[interface{}]interface{})
- func (tree *RedBlackTree) Right() *RedBlackTreeNode
- func (tree *RedBlackTree) Search(key interface{}) (value interface{}, found bool)
- func (tree *RedBlackTree) Set(key interface{}, value interface{})
- func (tree *RedBlackTree) SetComparator(comparator func(a, b interface{}) int)
- func (tree *RedBlackTree) SetIfNotExist(key interface{}, value interface{}) bool
- func (tree *RedBlackTree) SetIfNotExistFunc(key interface{}, f func() interface{}) bool
- func (tree *RedBlackTree) SetIfNotExistFuncLock(key interface{}, f func() interface{}) bool
- func (tree *RedBlackTree) Sets(data map[interface{}]interface{})
- func (tree *RedBlackTree) Size() int
- func (tree *RedBlackTree) String() string
- func (tree *RedBlackTree) UnmarshalJSON(b []byte) error
- func (tree *RedBlackTree) UnmarshalValue(value interface{}) (err error)
- func (tree *RedBlackTree) Values() []interface{}
- type RedBlackTreeNode
Examples ¶
- AVLTree.Ceiling
- AVLTree.Clear
- AVLTree.Clone
- AVLTree.Contains
- AVLTree.Flip
- AVLTree.Floor
- AVLTree.Get
- AVLTree.GetOrSet
- AVLTree.GetOrSetFunc
- AVLTree.GetOrSetFuncLock
- AVLTree.GetVar
- AVLTree.GetVarOrSet
- AVLTree.GetVarOrSetFunc
- AVLTree.GetVarOrSetFuncLock
- AVLTree.IsEmpty
- AVLTree.Iterator
- AVLTree.IteratorAsc
- AVLTree.IteratorDesc
- AVLTree.IteratorDescFrom
- AVLTree.IteratorFrom
- AVLTree.Keys
- AVLTree.Left
- AVLTree.Map
- AVLTree.MapStrAny
- AVLTree.MarshalJSON
- AVLTree.Print
- AVLTree.Remove
- AVLTree.Removes
- AVLTree.Replace
- AVLTree.Right
- AVLTree.Search
- AVLTree.Set
- AVLTree.SetIfNotExist
- AVLTree.SetIfNotExistFunc
- AVLTree.SetIfNotExistFuncLock
- AVLTree.Sets
- AVLTree.Size
- AVLTree.String
- AVLTree.Values
- BTree.Clear
- BTree.Clone
- BTree.Contains
- BTree.Get
- BTree.GetOrSet
- BTree.GetOrSetFunc
- BTree.GetOrSetFuncLock
- BTree.GetVar
- BTree.GetVarOrSet
- BTree.GetVarOrSetFunc
- BTree.GetVarOrSetFuncLock
- BTree.Height
- BTree.IsEmpty
- BTree.Iterator
- BTree.IteratorAsc
- BTree.IteratorDesc
- BTree.IteratorDescFrom
- BTree.IteratorFrom
- BTree.Keys
- BTree.Left
- BTree.Map
- BTree.MapStrAny
- BTree.MarshalJSON
- BTree.Print
- BTree.Remove
- BTree.Removes
- BTree.Replace
- BTree.Right
- BTree.Search
- BTree.Set
- BTree.SetIfNotExist
- BTree.SetIfNotExistFunc
- BTree.SetIfNotExistFuncLock
- BTree.Sets
- BTree.Size
- BTree.String
- BTree.Values
- NewAVLTree
- NewAVLTreeFrom
- NewBTree
- NewBTreeFrom
- NewRedBlackTree
- NewRedBlackTreeFrom
- RedBlackTree.Ceiling
- RedBlackTree.Clear
- RedBlackTree.Clone
- RedBlackTree.Contains
- RedBlackTree.Flip
- RedBlackTree.Floor
- RedBlackTree.Get
- RedBlackTree.GetOrSet
- RedBlackTree.GetOrSetFunc
- RedBlackTree.GetOrSetFuncLock
- RedBlackTree.GetVar
- RedBlackTree.GetVarOrSet
- RedBlackTree.GetVarOrSetFunc
- RedBlackTree.GetVarOrSetFuncLock
- RedBlackTree.IsEmpty
- RedBlackTree.Iterator
- RedBlackTree.IteratorAsc
- RedBlackTree.IteratorDesc
- RedBlackTree.IteratorDescFrom
- RedBlackTree.IteratorFrom
- RedBlackTree.Keys
- RedBlackTree.Left
- RedBlackTree.Map
- RedBlackTree.MapStrAny
- RedBlackTree.MarshalJSON
- RedBlackTree.Print
- RedBlackTree.Remove
- RedBlackTree.Removes
- RedBlackTree.Replace
- RedBlackTree.Right
- RedBlackTree.Search
- RedBlackTree.Set
- RedBlackTree.SetComparator
- RedBlackTree.SetIfNotExist
- RedBlackTree.SetIfNotExistFunc
- RedBlackTree.SetIfNotExistFuncLock
- RedBlackTree.Sets
- RedBlackTree.Size
- RedBlackTree.String
- RedBlackTree.UnmarshalJSON
- RedBlackTree.UnmarshalValue
- RedBlackTree.Values
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type AVLTree ¶
type AVLTree struct {
// contains filtered or unexported fields
}
AVLTree holds elements of the AVL tree.
func NewAVLTree ¶
NewAVLTree instantiates an AVL tree with the custom key comparator. The parameter `safe` is used to specify whether using tree in concurrent-safety, which is false in default.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { avlTree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { avlTree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(avlTree) }
Output: │ ┌── key5 │ ┌── key4 └── key3 │ ┌── key2 └── key1 └── key0
func NewAVLTreeFrom ¶
func NewAVLTreeFrom(comparator func(v1, v2 interface{}) int, data map[interface{}]interface{}, safe ...bool) *AVLTree
NewAVLTreeFrom instantiates an AVL tree with the custom key comparator and data map. The parameter `safe` is used to specify whether using tree in concurrent-safety, which is false in default.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { avlTree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { avlTree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } otherAvlTree := gtree.NewAVLTreeFrom(gutil.ComparatorString, avlTree.Map()) fmt.Println(otherAvlTree) // May Output: // │ ┌── key5 // │ │ └── key4 // └── key3 // │ ┌── key2 // └── key1 // └── key0 }
Output:
func (*AVLTree) Ceiling ¶
func (tree *AVLTree) Ceiling(key interface{}) (ceiling *AVLTreeNode, found bool)
Ceiling finds ceiling node of the input key, return the ceiling node or nil if no ceiling node is found. Second return parameter is true if ceiling was found, otherwise false.
Ceiling node is defined as the smallest node that is larger than or equal to the given node. A ceiling node may not be found, either because the tree is empty, or because all nodes in the tree is smaller than the given node.
Key should adhere to the comparator's type assertion, otherwise method panics.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { if i != 50 { tree.Set(i, i) } } node, found := tree.Ceiling(1) if found { fmt.Println("Ceiling 1:", node.Key) } node, found = tree.Ceiling(50) if found { fmt.Println("Ceiling 50:", node.Key) } node, found = tree.Ceiling(100) if found { fmt.Println("Ceiling 100:", node.Key) } node, found = tree.Ceiling(-1) if found { fmt.Println("Ceiling -1:", node.Key) } }
Output: Ceiling 1: 1 Ceiling 50: 51 Ceiling -1: 1
func (*AVLTree) Clear ¶
func (tree *AVLTree) Clear()
Clear removes all nodes from the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set(1000+i, "val"+gconv.String(i)) } fmt.Println(tree.Size()) tree.Clear() fmt.Println(tree.Size()) }
Output: 6 0
func (*AVLTree) Clone ¶
Clone returns a new tree with a copy of current tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { avl := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { avl.Set("key"+gconv.String(i), "val"+gconv.String(i)) } tree := avl.Clone() fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] 6
func (*AVLTree) Contains ¶
Contains checks whether `key` exists in the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Contains("key1")) fmt.Println(tree.Contains("key6")) }
Output: true false
func (*AVLTree) Flip ¶
Flip exchanges key-value of the tree to value-key. Note that you should guarantee the value is the same type as key, or else the comparator would panic.
If the type of value is different with key, you pass the new `comparator`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorInt) for i := 1; i < 6; i++ { tree.Set(i, i*10) } fmt.Println("Before Flip", tree.Map()) tree.Flip() fmt.Println("After Flip", tree.Map()) }
Output: Before Flip map[1:10 2:20 3:30 4:40 5:50] After Flip map[10:1 20:2 30:3 40:4 50:5]
func (*AVLTree) Floor ¶
func (tree *AVLTree) Floor(key interface{}) (floor *AVLTreeNode, found bool)
Floor Finds floor node of the input key, return the floor node or nil if no floor node is found. Second return parameter is true if floor was found, otherwise false.
Floor node is defined as the largest node that is smaller than or equal to the given node. A floor node may not be found, either because the tree is empty, or because all nodes in the tree is larger than the given node.
Key should adhere to the comparator's type assertion, otherwise method panics.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { if i != 50 { tree.Set(i, i) } } node, found := tree.Floor(95) if found { fmt.Println("Floor 95:", node.Key) } node, found = tree.Floor(50) if found { fmt.Println("Floor 50:", node.Key) } node, found = tree.Floor(100) if found { fmt.Println("Floor 100:", node.Key) } node, found = tree.Floor(0) if found { fmt.Println("Floor 0:", node.Key) } }
Output: Floor 95: 95 Floor 50: 49 Floor 100: 99
func (*AVLTree) Get ¶
func (tree *AVLTree) Get(key interface{}) (value interface{})
Get searches the node in the tree by `key` and returns its value or nil if key is not found in tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Get("key1")) fmt.Println(tree.Get("key10")) }
Output: val1 <nil>
func (*AVLTree) GetOrSet ¶
func (tree *AVLTree) GetOrSet(key interface{}, value interface{}) interface{}
GetOrSet returns the value by key, or sets value with given `value` if it does not exist and then returns this value.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSet("key1", "newVal1")) fmt.Println(tree.GetOrSet("key6", "val6")) }
Output: val1 val6
func (*AVLTree) GetOrSetFunc ¶
func (tree *AVLTree) GetOrSetFunc(key interface{}, f func() interface{}) interface{}
GetOrSetFunc returns the value by key, or sets value with returned value of callback function `f` if it does not exist and then returns this value.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSetFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetOrSetFunc("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*AVLTree) GetOrSetFuncLock ¶
func (tree *AVLTree) GetOrSetFuncLock(key interface{}, f func() interface{}) interface{}
GetOrSetFuncLock returns the value by key, or sets value with returned value of callback function `f` if it does not exist and then returns this value.
GetOrSetFuncLock differs with GetOrSetFunc function is that it executes function `f` with mutex.Lock of the hash map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSetFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetOrSetFuncLock("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*AVLTree) GetVar ¶
GetVar returns a gvar.Var with the value by given `key`. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVar("key1").String()) }
Output: val1
func (*AVLTree) GetVarOrSet ¶
GetVarOrSet returns a gvar.Var with result from GetVarOrSet. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSet("key1", "newVal1")) fmt.Println(tree.GetVarOrSet("key6", "val6")) }
Output: val1 val6
func (*AVLTree) GetVarOrSetFunc ¶
GetVarOrSetFunc returns a gvar.Var with result from GetOrSetFunc. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSetFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetVarOrSetFunc("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*AVLTree) GetVarOrSetFuncLock ¶
GetVarOrSetFuncLock returns a gvar.Var with result from GetOrSetFuncLock. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSetFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetVarOrSetFuncLock("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*AVLTree) IsEmpty ¶
IsEmpty returns true if tree does not contain any nodes.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) fmt.Println(tree.IsEmpty()) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.IsEmpty()) }
Output: true false
func (*AVLTree) Iterator ¶
Iterator is alias of IteratorAsc.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } var totalKey, totalValue int tree.Iterator(func(key, value interface{}) bool { totalKey += key.(int) totalValue += value.(int) return totalValue < 20 }) fmt.Println("totalKey:", totalKey) fmt.Println("totalValue:", totalValue) }
Output: totalKey: 3 totalValue: 27
func (*AVLTree) IteratorAsc ¶
IteratorAsc iterates the tree readonly in ascending order with given callback function `f`. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } tree.IteratorAsc(func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 0 , value: 10 key: 1 , value: 9 key: 2 , value: 8 key: 3 , value: 7 key: 4 , value: 6 key: 5 , value: 5 key: 6 , value: 4 key: 7 , value: 3 key: 8 , value: 2 key: 9 , value: 1
func (*AVLTree) IteratorAscFrom ¶
func (tree *AVLTree) IteratorAscFrom(key interface{}, match bool, f func(key, value interface{}) bool)
IteratorAscFrom iterates the tree readonly in ascending order with given callback function `f`. The parameter `key` specifies the start entry for iterating. The `match` specifies whether starting iterating if the `key` is fully matched, or else using index searching iterating. If `f` returns true, then it continues iterating; or false to stop.
func (*AVLTree) IteratorDesc ¶
IteratorDesc iterates the tree readonly in descending order with given callback function `f`. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } tree.IteratorDesc(func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 9 , value: 1 key: 8 , value: 2 key: 7 , value: 3 key: 6 , value: 4 key: 5 , value: 5 key: 4 , value: 6 key: 3 , value: 7 key: 2 , value: 8 key: 1 , value: 9 key: 0 , value: 10
func (*AVLTree) IteratorDescFrom ¶
func (tree *AVLTree) IteratorDescFrom(key interface{}, match bool, f func(key, value interface{}) bool)
IteratorDescFrom iterates the tree readonly in descending order with given callback function `f`. The parameter `key` specifies the start entry for iterating. The `match` specifies whether starting iterating if the `key` is fully matched, or else using index searching iterating. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { m := make(map[interface{}]interface{}) for i := 1; i <= 5; i++ { m[i] = i * 10 } tree := gtree.NewAVLTreeFrom(gutil.ComparatorInt, m) tree.IteratorDescFrom(5, true, func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 5 , value: 50 key: 4 , value: 40 key: 3 , value: 30 key: 2 , value: 20 key: 1 , value: 10
func (*AVLTree) IteratorFrom ¶
IteratorFrom is alias of IteratorAscFrom.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { m := make(map[interface{}]interface{}) for i := 1; i <= 5; i++ { m[i] = i * 10 } tree := gtree.NewAVLTreeFrom(gutil.ComparatorInt, m) tree.IteratorFrom(1, true, func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 1 , value: 10 key: 2 , value: 20 key: 3 , value: 30 key: 4 , value: 40 key: 5 , value: 50
func (*AVLTree) Keys ¶
func (tree *AVLTree) Keys() []interface{}
Keys returns all keys in asc order.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 6; i > 0; i-- { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Keys()) }
Output: [key1 key2 key3 key4 key5 key6]
func (*AVLTree) Left ¶
func (tree *AVLTree) Left() *AVLTreeNode
Left returns the minimum element of the AVL tree or nil if the tree is empty.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { tree.Set(i, i) } fmt.Println(tree.Left().Key, tree.Left().Value) emptyTree := gtree.NewAVLTree(gutil.ComparatorInt) fmt.Println(emptyTree.Left()) }
Output: 1 1 <nil>
func (*AVLTree) Map ¶
func (tree *AVLTree) Map() map[interface{}]interface{}
Map returns all key-value items as map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
func (*AVLTree) MapStrAny ¶
MapStrAny returns all key-value items as map[string]interface{}.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set(1000+i, "val"+gconv.String(i)) } fmt.Println(tree.MapStrAny()) }
Output: map[1000:val0 1001:val1 1002:val2 1003:val3 1004:val4 1005:val5]
func (*AVLTree) MarshalJSON ¶
MarshalJSON implements the interface MarshalJSON for json.Marshal.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/internal/json" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } bytes, err := json.Marshal(tree) if err == nil { fmt.Println(gconv.String(bytes)) } }
Output: {"key0":"val0","key1":"val1","key2":"val2","key3":"val3","key4":"val4","key5":"val5"}
func (*AVLTree) Print ¶
func (tree *AVLTree) Print()
Print prints the tree to stdout.
Example ¶
package main import ( "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } tree.Print() }
Output: │ ┌── key5 │ ┌── key4 └── key3 │ ┌── key2 └── key1 └── key0
func (*AVLTree) Remove ¶
func (tree *AVLTree) Remove(key interface{}) (value interface{})
Remove removes the node from the tree by key. Key should adhere to the comparator's type assertion, otherwise method panics.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Remove("key1")) fmt.Println(tree.Remove("key6")) fmt.Println(tree.Map()) }
Output: val1 <nil> map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
func (*AVLTree) Removes ¶
func (tree *AVLTree) Removes(keys []interface{})
Removes batch deletes values of the tree by `keys`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } removeKeys := make([]interface{}, 2) removeKeys = append(removeKeys, "key1") removeKeys = append(removeKeys, "key6") tree.Removes(removeKeys) fmt.Println(tree.Map()) }
Output: map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
func (*AVLTree) Replace ¶
func (tree *AVLTree) Replace(data map[interface{}]interface{})
Replace the data of the tree with given `data`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) data := map[interface{}]interface{}{ "newKey0": "newVal0", "newKey1": "newVal1", "newKey2": "newVal2", } tree.Replace(data) fmt.Println(tree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] map[newKey0:newVal0 newKey1:newVal1 newKey2:newVal2]
func (*AVLTree) Right ¶
func (tree *AVLTree) Right() *AVLTreeNode
Right returns the maximum element of the AVL tree or nil if the tree is empty.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { tree.Set(i, i) } fmt.Println(tree.Right().Key, tree.Right().Value) emptyTree := gtree.NewAVLTree(gutil.ComparatorInt) fmt.Println(emptyTree.Left()) }
Output: 99 99 <nil>
func (*AVLTree) Search ¶
Search searches the tree with given `key`. Second return parameter `found` is true if key was found, otherwise false.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Search("key0")) fmt.Println(tree.Search("key6")) }
Output: val0 true <nil> false
func (*AVLTree) Set ¶
func (tree *AVLTree) Set(key interface{}, value interface{})
Set inserts node into the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] 6
func (*AVLTree) SetIfNotExist ¶
SetIfNotExist sets `value` to the map if the `key` does not exist, and then returns true. It returns false if `key` exists, and `value` would be ignored.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExist("key1", "newVal1")) fmt.Println(tree.SetIfNotExist("key6", "val6")) }
Output: false true
func (*AVLTree) SetIfNotExistFunc ¶
SetIfNotExistFunc sets value with return value of callback function `f`, and then returns true. It returns false if `key` exists, and `value` would be ignored.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExistFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.SetIfNotExistFunc("key6", func() interface{} { return "val6" })) }
Output: false true
func (*AVLTree) SetIfNotExistFuncLock ¶
SetIfNotExistFuncLock sets value with return value of callback function `f`, and then returns true. It returns false if `key` exists, and `value` would be ignored.
SetIfNotExistFuncLock differs with SetIfNotExistFunc function is that it executes function `f` with mutex.Lock of the hash map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExistFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.SetIfNotExistFuncLock("key6", func() interface{} { return "val6" })) }
Output: false true
func (*AVLTree) Sets ¶
func (tree *AVLTree) Sets(data map[interface{}]interface{})
Sets batch sets key-values to the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) tree.Sets(map[interface{}]interface{}{ "key1": "val1", "key2": "val2", }) fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key1:val1 key2:val2] 2
func (*AVLTree) Size ¶
Size returns number of nodes in the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) fmt.Println(tree.Size()) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Size()) }
Output: 0 6
func (*AVLTree) String ¶
String returns a string representation of container
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.String()) }
Output: │ ┌── key5 │ ┌── key4 └── key3 │ ┌── key2 └── key1 └── key0
func (*AVLTree) Values ¶
func (tree *AVLTree) Values() []interface{}
Values returns all values in asc order based on the key.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewAVLTree(gutil.ComparatorString) for i := 6; i > 0; i-- { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Values()) }
Output: [val1 val2 val3 val4 val5 val6]
type AVLTreeNode ¶
type AVLTreeNode struct { Key interface{} Value interface{} // contains filtered or unexported fields }
AVLTreeNode is a single element within the tree.
func (*AVLTreeNode) Next ¶
func (node *AVLTreeNode) Next() *AVLTreeNode
Next returns the next element in an inorder walk of the AVL tree.
func (*AVLTreeNode) Prev ¶
func (node *AVLTreeNode) Prev() *AVLTreeNode
Prev returns the previous element in an inorder walk of the AVL tree.
type BTree ¶
type BTree struct {
// contains filtered or unexported fields
}
BTree holds elements of the B-tree.
func NewBTree ¶
NewBTree instantiates a B-tree with `m` (maximum number of children) and a custom key comparator. The parameter `safe` is used to specify whether using tree in concurrent-safety, which is false in default. Note that the `m` must be greater or equal than 3, or else it panics.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { bTree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { bTree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(bTree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
func NewBTreeFrom ¶
func NewBTreeFrom(m int, comparator func(v1, v2 interface{}) int, data map[interface{}]interface{}, safe ...bool) *BTree
NewBTreeFrom instantiates a B-tree with `m` (maximum number of children), a custom key comparator and data map. The parameter `safe` is used to specify whether using tree in concurrent-safety, which is false in default.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { bTree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { bTree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } otherBTree := gtree.NewBTreeFrom(3, gutil.ComparatorString, bTree.Map()) fmt.Println(otherBTree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
func (*BTree) Clear ¶
func (tree *BTree) Clear()
Clear removes all nodes from the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set(1000+i, "val"+gconv.String(i)) } fmt.Println(tree.Size()) tree.Clear() fmt.Println(tree.Size()) }
Output: 6 0
func (*BTree) Clone ¶
Clone returns a new tree with a copy of current tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { b := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { b.Set("key"+gconv.String(i), "val"+gconv.String(i)) } tree := b.Clone() fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] 6
func (*BTree) Contains ¶
Contains checks whether `key` exists in the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Contains("key1")) fmt.Println(tree.Contains("key6")) }
Output: true false
func (*BTree) Get ¶
func (tree *BTree) Get(key interface{}) (value interface{})
Get searches the node in the tree by `key` and returns its value or nil if key is not found in tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Get("key1")) fmt.Println(tree.Get("key10")) }
Output: val1 <nil>
func (*BTree) GetOrSet ¶
func (tree *BTree) GetOrSet(key interface{}, value interface{}) interface{}
GetOrSet returns the value by key, or sets value with given `value` if it does not exist and then returns this value.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSet("key1", "newVal1")) fmt.Println(tree.GetOrSet("key6", "val6")) }
Output: val1 val6
func (*BTree) GetOrSetFunc ¶
func (tree *BTree) GetOrSetFunc(key interface{}, f func() interface{}) interface{}
GetOrSetFunc returns the value by key, or sets value with returned value of callback function `f` if it does not exist and then returns this value.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSetFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetOrSetFunc("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*BTree) GetOrSetFuncLock ¶
func (tree *BTree) GetOrSetFuncLock(key interface{}, f func() interface{}) interface{}
GetOrSetFuncLock returns the value by key, or sets value with returned value of callback function `f` if it does not exist and then returns this value.
GetOrSetFuncLock differs with GetOrSetFunc function is that it executes function `f` with mutex.Lock of the hash map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSetFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetOrSetFuncLock("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*BTree) GetVar ¶
GetVar returns a gvar.Var with the value by given `key`. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVar("key1").String()) }
Output: val1
func (*BTree) GetVarOrSet ¶
GetVarOrSet returns a gvar.Var with result from GetVarOrSet. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSet("key1", "newVal1")) fmt.Println(tree.GetVarOrSet("key6", "val6")) }
Output: val1 val6
func (*BTree) GetVarOrSetFunc ¶
GetVarOrSetFunc returns a gvar.Var with result from GetOrSetFunc. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSetFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetVarOrSetFunc("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*BTree) GetVarOrSetFuncLock ¶
GetVarOrSetFuncLock returns a gvar.Var with result from GetOrSetFuncLock. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSetFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetVarOrSetFuncLock("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*BTree) Height ¶
Height returns the height of the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorInt) for i := 0; i < 100; i++ { tree.Set(i, i) } fmt.Println(tree.Height()) }
Output: 6
func (*BTree) IsEmpty ¶
IsEmpty returns true if tree does not contain any nodes
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) fmt.Println(tree.IsEmpty()) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.IsEmpty()) }
Output: true false
func (*BTree) Iterator ¶
Iterator is alias of IteratorAsc.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } var totalKey, totalValue int tree.Iterator(func(key, value interface{}) bool { totalKey += key.(int) totalValue += value.(int) return totalValue < 20 }) fmt.Println("totalKey:", totalKey) fmt.Println("totalValue:", totalValue) }
Output: totalKey: 3 totalValue: 27
func (*BTree) IteratorAsc ¶
IteratorAsc iterates the tree readonly in ascending order with given callback function `f`. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } tree.IteratorAsc(func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 0 , value: 10 key: 1 , value: 9 key: 2 , value: 8 key: 3 , value: 7 key: 4 , value: 6 key: 5 , value: 5 key: 6 , value: 4 key: 7 , value: 3 key: 8 , value: 2 key: 9 , value: 1
func (*BTree) IteratorAscFrom ¶
func (tree *BTree) IteratorAscFrom(key interface{}, match bool, f func(key, value interface{}) bool)
IteratorAscFrom iterates the tree readonly in ascending order with given callback function `f`. The parameter `key` specifies the start entry for iterating. The `match` specifies whether starting iterating if the `key` is fully matched, or else using index searching iterating. If `f` returns true, then it continues iterating; or false to stop.
func (*BTree) IteratorDesc ¶
IteratorDesc iterates the tree readonly in descending order with given callback function `f`. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } tree.IteratorDesc(func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 9 , value: 1 key: 8 , value: 2 key: 7 , value: 3 key: 6 , value: 4 key: 5 , value: 5 key: 4 , value: 6 key: 3 , value: 7 key: 2 , value: 8 key: 1 , value: 9 key: 0 , value: 10
func (*BTree) IteratorDescFrom ¶
func (tree *BTree) IteratorDescFrom(key interface{}, match bool, f func(key, value interface{}) bool)
IteratorDescFrom iterates the tree readonly in descending order with given callback function `f`. The parameter `key` specifies the start entry for iterating. The `match` specifies whether starting iterating if the `key` is fully matched, or else using index searching iterating. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { m := make(map[interface{}]interface{}) for i := 1; i <= 5; i++ { m[i] = i * 10 } tree := gtree.NewBTreeFrom(3, gutil.ComparatorInt, m) tree.IteratorDescFrom(5, true, func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 5 , value: 50 key: 4 , value: 40 key: 3 , value: 30 key: 2 , value: 20 key: 1 , value: 10
func (*BTree) IteratorFrom ¶
IteratorFrom is alias of IteratorAscFrom.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { m := make(map[interface{}]interface{}) for i := 1; i <= 5; i++ { m[i] = i * 10 } tree := gtree.NewBTreeFrom(3, gutil.ComparatorInt, m) tree.IteratorFrom(1, true, func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 1 , value: 10 key: 2 , value: 20 key: 3 , value: 30 key: 4 , value: 40 key: 5 , value: 50
func (*BTree) Keys ¶
func (tree *BTree) Keys() []interface{}
Keys returns all keys in asc order.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 6; i > 0; i-- { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Keys()) }
Output: [key1 key2 key3 key4 key5 key6]
func (*BTree) Left ¶
func (tree *BTree) Left() *BTreeEntry
Left returns the left-most (min) entry or nil if tree is empty.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorInt) for i := 1; i < 100; i++ { tree.Set(i, i) } fmt.Println(tree.Left().Key, tree.Left().Value) emptyTree := gtree.NewBTree(3, gutil.ComparatorInt) fmt.Println(emptyTree.Left()) }
Output: 1 1 <nil>
func (*BTree) Map ¶
func (tree *BTree) Map() map[interface{}]interface{}
Map returns all key-value items as map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
func (*BTree) MapStrAny ¶
MapStrAny returns all key-value items as map[string]interface{}.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set(1000+i, "val"+gconv.String(i)) } fmt.Println(tree.MapStrAny()) }
Output: map[1000:val0 1001:val1 1002:val2 1003:val3 1004:val4 1005:val5]
func (*BTree) MarshalJSON ¶
MarshalJSON implements the interface MarshalJSON for json.Marshal.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/internal/json" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } bytes, err := json.Marshal(tree) if err == nil { fmt.Println(gconv.String(bytes)) } }
Output: {"key0":"val0","key1":"val1","key2":"val2","key3":"val3","key4":"val4","key5":"val5"}
func (*BTree) Print ¶
func (tree *BTree) Print()
Print prints the tree to stdout.
Example ¶
package main import ( "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } tree.Print() }
Output: key0 key1 key2 key3 key4 key5
func (*BTree) Remove ¶
func (tree *BTree) Remove(key interface{}) (value interface{})
Remove removes the node from the tree by `key`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Remove("key1")) fmt.Println(tree.Remove("key6")) fmt.Println(tree.Map()) }
Output: val1 <nil> map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
func (*BTree) Removes ¶
func (tree *BTree) Removes(keys []interface{})
Removes batch deletes values of the tree by `keys`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } removeKeys := make([]interface{}, 2) removeKeys = append(removeKeys, "key1") removeKeys = append(removeKeys, "key6") tree.Removes(removeKeys) fmt.Println(tree.Map()) }
Output: map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
func (*BTree) Replace ¶
func (tree *BTree) Replace(data map[interface{}]interface{})
Replace the data of the tree with given `data`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) data := map[interface{}]interface{}{ "newKey0": "newVal0", "newKey1": "newVal1", "newKey2": "newVal2", } tree.Replace(data) fmt.Println(tree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] map[newKey0:newVal0 newKey1:newVal1 newKey2:newVal2]
func (*BTree) Right ¶
func (tree *BTree) Right() *BTreeEntry
Right returns the right-most (max) entry or nil if tree is empty.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorInt) for i := 1; i < 100; i++ { tree.Set(i, i) } fmt.Println(tree.Right().Key, tree.Right().Value) emptyTree := gtree.NewBTree(3, gutil.ComparatorInt) fmt.Println(emptyTree.Left()) }
Output: 99 99 <nil>
func (*BTree) Search ¶
Search searches the tree with given `key`. Second return parameter `found` is true if key was found, otherwise false.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Search("key0")) fmt.Println(tree.Search("key6")) }
Output: val0 true <nil> false
func (*BTree) Set ¶
func (tree *BTree) Set(key interface{}, value interface{})
Set inserts key-value item into the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] 6
func (*BTree) SetIfNotExist ¶
SetIfNotExist sets `value` to the map if the `key` does not exist, and then returns true. It returns false if `key` exists, and `value` would be ignored.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExist("key1", "newVal1")) fmt.Println(tree.SetIfNotExist("key6", "val6")) }
Output: false true
func (*BTree) SetIfNotExistFunc ¶
SetIfNotExistFunc sets value with return value of callback function `f`, and then returns true. It returns false if `key` exists, and `value` would be ignored.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExistFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.SetIfNotExistFunc("key6", func() interface{} { return "val6" })) }
Output: false true
func (*BTree) SetIfNotExistFuncLock ¶
SetIfNotExistFuncLock sets value with return value of callback function `f`, and then returns true. It returns false if `key` exists, and `value` would be ignored.
SetIfNotExistFuncLock differs with SetIfNotExistFunc function is that it executes function `f` with mutex.Lock of the hash map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExistFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.SetIfNotExistFuncLock("key6", func() interface{} { return "val6" })) }
Output: false true
func (*BTree) Sets ¶
func (tree *BTree) Sets(data map[interface{}]interface{})
Sets batch sets key-values to the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) tree.Sets(map[interface{}]interface{}{ "key1": "val1", "key2": "val2", }) fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key1:val1 key2:val2] 2
func (*BTree) Size ¶
Size returns number of nodes in the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) fmt.Println(tree.Size()) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Size()) }
Output: 0 6
func (*BTree) String ¶
String returns a string representation of container (for debugging purposes)
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.String()) }
Output: key0 key1 key2 key3 key4 key5
func (*BTree) Values ¶
func (tree *BTree) Values() []interface{}
Values returns all values in asc order based on the key.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewBTree(3, gutil.ComparatorString) for i := 6; i > 0; i-- { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Values()) }
Output: [val1 val2 val3 val4 val5 val6]
type BTreeEntry ¶
type BTreeEntry struct { Key interface{} Value interface{} }
BTreeEntry represents the key-value pair contained within nodes.
type BTreeNode ¶
type BTreeNode struct { Parent *BTreeNode Entries []*BTreeEntry // Contained keys in node Children []*BTreeNode // Children nodes }
BTreeNode is a single element within the tree.
type RedBlackTree ¶
type RedBlackTree struct {
// contains filtered or unexported fields
}
RedBlackTree holds elements of the red-black tree.
func NewRedBlackTree ¶
func NewRedBlackTree(comparator func(v1, v2 interface{}) int, safe ...bool) *RedBlackTree
NewRedBlackTree instantiates a red-black tree with the custom key comparator. The parameter `safe` is used to specify whether using tree in concurrent-safety, which is false in default.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { rbTree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { rbTree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(rbTree) }
Output: │ ┌── key5 │ ┌── key4 │ ┌── key3 │ │ └── key2 └── key1 └── key0
func NewRedBlackTreeFrom ¶
func NewRedBlackTreeFrom(comparator func(v1, v2 interface{}) int, data map[interface{}]interface{}, safe ...bool) *RedBlackTree
NewRedBlackTreeFrom instantiates a red-black tree with the custom key comparator and `data` map. The parameter `safe` is used to specify whether using tree in concurrent-safety, which is false in default.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { rbTree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { rbTree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } otherRBTree := gtree.NewRedBlackTreeFrom(gutil.ComparatorString, rbTree.Map()) fmt.Println(otherRBTree) // May Output: // │ ┌── key5 // │ ┌── key4 // │ ┌── key3 // │ │ └── key2 // └── key1 // └── key0 }
Output:
func (*RedBlackTree) Ceiling ¶
func (tree *RedBlackTree) Ceiling(key interface{}) (ceiling *RedBlackTreeNode, found bool)
Ceiling finds ceiling node of the input key, return the ceiling node or nil if no ceiling node is found. Second return parameter is true if ceiling was found, otherwise false.
Ceiling node is defined as the smallest node that its key is larger than or equal to the given `key`. A ceiling node may not be found, either because the tree is empty, or because all nodes in the tree are smaller than the given node.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { if i != 50 { tree.Set(i, i) } } node, found := tree.Ceiling(1) if found { fmt.Println("Ceiling 1:", node.Key) } node, found = tree.Ceiling(50) if found { fmt.Println("Ceiling 50:", node.Key) } node, found = tree.Ceiling(100) if found { fmt.Println("Ceiling 100:", node.Key) } node, found = tree.Ceiling(-1) if found { fmt.Println("Ceiling -1:", node.Key) } }
Output: Ceiling 1: 1 Ceiling 50: 51 Ceiling -1: 1
func (*RedBlackTree) Clear ¶
func (tree *RedBlackTree) Clear()
Clear removes all nodes from the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set(1000+i, "val"+gconv.String(i)) } fmt.Println(tree.Size()) tree.Clear() fmt.Println(tree.Size()) }
Output: 6 0
func (*RedBlackTree) Clone ¶
func (tree *RedBlackTree) Clone() *RedBlackTree
Clone returns a new tree with a copy of current tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { b := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { b.Set("key"+gconv.String(i), "val"+gconv.String(i)) } tree := b.Clone() fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] 6
func (*RedBlackTree) Contains ¶
func (tree *RedBlackTree) Contains(key interface{}) bool
Contains checks whether `key` exists in the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Contains("key1")) fmt.Println(tree.Contains("key6")) }
Output: true false
func (*RedBlackTree) Flip ¶
func (tree *RedBlackTree) Flip(comparator ...func(v1, v2 interface{}) int)
Flip exchanges key-value of the tree to value-key. Note that you should guarantee the value is the same type as key, or else the comparator would panic.
If the type of value is different with key, you pass the new `comparator`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 1; i < 6; i++ { tree.Set(i, i*10) } fmt.Println("Before Flip", tree.Map()) tree.Flip() fmt.Println("After Flip", tree.Map()) }
Output: Before Flip map[1:10 2:20 3:30 4:40 5:50] After Flip map[10:1 20:2 30:3 40:4 50:5]
func (*RedBlackTree) Floor ¶
func (tree *RedBlackTree) Floor(key interface{}) (floor *RedBlackTreeNode, found bool)
Floor Finds floor node of the input key, return the floor node or nil if no floor node is found. Second return parameter is true if floor was found, otherwise false.
Floor node is defined as the largest node that its key is smaller than or equal to the given `key`. A floor node may not be found, either because the tree is empty, or because all nodes in the tree are larger than the given node.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { if i != 50 { tree.Set(i, i) } } node, found := tree.Floor(95) if found { fmt.Println("Floor 95:", node.Key) } node, found = tree.Floor(50) if found { fmt.Println("Floor 50:", node.Key) } node, found = tree.Floor(100) if found { fmt.Println("Floor 100:", node.Key) } node, found = tree.Floor(0) if found { fmt.Println("Floor 0:", node.Key) } }
Output: Floor 95: 95 Floor 50: 49 Floor 100: 99
func (*RedBlackTree) Get ¶
func (tree *RedBlackTree) Get(key interface{}) (value interface{})
Get searches the node in the tree by `key` and returns its value or nil if key is not found in tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Get("key1")) fmt.Println(tree.Get("key10")) }
Output: val1 <nil>
func (*RedBlackTree) GetOrSet ¶
func (tree *RedBlackTree) GetOrSet(key interface{}, value interface{}) interface{}
GetOrSet returns the value by key, or sets value with given `value` if it does not exist and then returns this value.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSet("key1", "newVal1")) fmt.Println(tree.GetOrSet("key6", "val6")) }
Output: val1 val6
func (*RedBlackTree) GetOrSetFunc ¶
func (tree *RedBlackTree) GetOrSetFunc(key interface{}, f func() interface{}) interface{}
GetOrSetFunc returns the value by key, or sets value with returned value of callback function `f` if it does not exist and then returns this value.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSetFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetOrSetFunc("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*RedBlackTree) GetOrSetFuncLock ¶
func (tree *RedBlackTree) GetOrSetFuncLock(key interface{}, f func() interface{}) interface{}
GetOrSetFuncLock returns the value by key, or sets value with returned value of callback function `f` if it does not exist and then returns this value.
GetOrSetFuncLock differs with GetOrSetFunc function is that it executes function `f` with mutex.Lock of the hash map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetOrSetFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetOrSetFuncLock("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*RedBlackTree) GetVar ¶
func (tree *RedBlackTree) GetVar(key interface{}) *gvar.Var
GetVar returns a gvar.Var with the value by given `key`. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVar("key1").String()) }
Output: val1
func (*RedBlackTree) GetVarOrSet ¶
func (tree *RedBlackTree) GetVarOrSet(key interface{}, value interface{}) *gvar.Var
GetVarOrSet returns a gvar.Var with result from GetVarOrSet. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSet("key1", "newVal1")) fmt.Println(tree.GetVarOrSet("key6", "val6")) }
Output: val1 val6
func (*RedBlackTree) GetVarOrSetFunc ¶
func (tree *RedBlackTree) GetVarOrSetFunc(key interface{}, f func() interface{}) *gvar.Var
GetVarOrSetFunc returns a gvar.Var with result from GetOrSetFunc. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSetFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetVarOrSetFunc("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*RedBlackTree) GetVarOrSetFuncLock ¶
func (tree *RedBlackTree) GetVarOrSetFuncLock(key interface{}, f func() interface{}) *gvar.Var
GetVarOrSetFuncLock returns a gvar.Var with result from GetOrSetFuncLock. The returned gvar.Var is un-concurrent safe.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.GetVarOrSetFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.GetVarOrSetFuncLock("key6", func() interface{} { return "val6" })) }
Output: val1 val6
func (*RedBlackTree) IsEmpty ¶
func (tree *RedBlackTree) IsEmpty() bool
IsEmpty returns true if tree does not contain any nodes.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) fmt.Println(tree.IsEmpty()) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.IsEmpty()) }
Output: true false
func (*RedBlackTree) Iterator ¶
func (tree *RedBlackTree) Iterator(f func(key, value interface{}) bool)
Iterator is alias of IteratorAsc.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } var totalKey, totalValue int tree.Iterator(func(key, value interface{}) bool { totalKey += key.(int) totalValue += value.(int) return totalValue < 20 }) fmt.Println("totalKey:", totalKey) fmt.Println("totalValue:", totalValue) }
Output: totalKey: 3 totalValue: 27
func (*RedBlackTree) IteratorAsc ¶
func (tree *RedBlackTree) IteratorAsc(f func(key, value interface{}) bool)
IteratorAsc iterates the tree readonly in ascending order with given callback function `f`. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } tree.IteratorAsc(func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 0 , value: 10 key: 1 , value: 9 key: 2 , value: 8 key: 3 , value: 7 key: 4 , value: 6 key: 5 , value: 5 key: 6 , value: 4 key: 7 , value: 3 key: 8 , value: 2 key: 9 , value: 1
func (*RedBlackTree) IteratorAscFrom ¶
func (tree *RedBlackTree) IteratorAscFrom(key interface{}, match bool, f func(key, value interface{}) bool)
IteratorAscFrom iterates the tree readonly in ascending order with given callback function `f`. The parameter `key` specifies the start entry for iterating. The `match` specifies whether starting iterating if the `key` is fully matched, or else using index searching iterating. If `f` returns true, then it continues iterating; or false to stop.
func (*RedBlackTree) IteratorDesc ¶
func (tree *RedBlackTree) IteratorDesc(f func(key, value interface{}) bool)
IteratorDesc iterates the tree readonly in descending order with given callback function `f`. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 10; i++ { tree.Set(i, 10-i) } tree.IteratorDesc(func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 9 , value: 1 key: 8 , value: 2 key: 7 , value: 3 key: 6 , value: 4 key: 5 , value: 5 key: 4 , value: 6 key: 3 , value: 7 key: 2 , value: 8 key: 1 , value: 9 key: 0 , value: 10
func (*RedBlackTree) IteratorDescFrom ¶
func (tree *RedBlackTree) IteratorDescFrom(key interface{}, match bool, f func(key, value interface{}) bool)
IteratorDescFrom iterates the tree readonly in descending order with given callback function `f`. The parameter `key` specifies the start entry for iterating. The `match` specifies whether starting iterating if the `key` is fully matched, or else using index searching iterating. If `f` returns true, then it continues iterating; or false to stop.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { m := make(map[interface{}]interface{}) for i := 1; i <= 5; i++ { m[i] = i * 10 } tree := gtree.NewRedBlackTreeFrom(gutil.ComparatorInt, m) tree.IteratorDescFrom(5, true, func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 5 , value: 50 key: 4 , value: 40 key: 3 , value: 30 key: 2 , value: 20 key: 1 , value: 10
func (*RedBlackTree) IteratorFrom ¶
func (tree *RedBlackTree) IteratorFrom(key interface{}, match bool, f func(key, value interface{}) bool)
IteratorFrom is alias of IteratorAscFrom.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { m := make(map[interface{}]interface{}) for i := 1; i <= 5; i++ { m[i] = i * 10 } tree := gtree.NewRedBlackTreeFrom(gutil.ComparatorInt, m) tree.IteratorFrom(1, true, func(key, value interface{}) bool { fmt.Println("key:", key, ", value:", value) return true }) }
Output: key: 1 , value: 10 key: 2 , value: 20 key: 3 , value: 30 key: 4 , value: 40 key: 5 , value: 50
func (*RedBlackTree) Keys ¶
func (tree *RedBlackTree) Keys() []interface{}
Keys returns all keys in asc order.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 6; i > 0; i-- { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Keys()) }
Output: [key1 key2 key3 key4 key5 key6]
func (*RedBlackTree) Left ¶
func (tree *RedBlackTree) Left() *RedBlackTreeNode
Left returns the left-most (min) node or nil if tree is empty.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { tree.Set(i, i) } fmt.Println(tree.Left().Key, tree.Left().Value) emptyTree := gtree.NewRedBlackTree(gutil.ComparatorInt) fmt.Println(emptyTree.Left()) }
Output: 1 1 <nil>
func (*RedBlackTree) Map ¶
func (tree *RedBlackTree) Map() map[interface{}]interface{}
Map returns all key-value items as map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
func (*RedBlackTree) MapStrAny ¶
func (tree *RedBlackTree) MapStrAny() map[string]interface{}
MapStrAny returns all key-value items as map[string]interface{}.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set(1000+i, "val"+gconv.String(i)) } fmt.Println(tree.MapStrAny()) }
Output: map[1000:val0 1001:val1 1002:val2 1003:val3 1004:val4 1005:val5]
func (*RedBlackTree) MarshalJSON ¶
func (tree *RedBlackTree) MarshalJSON() ([]byte, error)
MarshalJSON implements the interface MarshalJSON for json.Marshal.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/internal/json" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } bytes, err := json.Marshal(tree) if err == nil { fmt.Println(gconv.String(bytes)) } }
Output: {"key0":"val0","key1":"val1","key2":"val2","key3":"val3","key4":"val4","key5":"val5"}
func (*RedBlackTree) Print ¶
func (tree *RedBlackTree) Print()
Print prints the tree to stdout.
Example ¶
package main import ( "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } tree.Print() }
Output: │ ┌── key5 │ ┌── key4 │ ┌── key3 │ │ └── key2 └── key1 └── key0
func (*RedBlackTree) Remove ¶
func (tree *RedBlackTree) Remove(key interface{}) (value interface{})
Remove removes the node from the tree by `key`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Remove("key1")) fmt.Println(tree.Remove("key6")) fmt.Println(tree.Map()) }
Output: val1 <nil> map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
func (*RedBlackTree) Removes ¶
func (tree *RedBlackTree) Removes(keys []interface{})
Removes batch deletes values of the tree by `keys`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } removeKeys := make([]interface{}, 2) removeKeys = append(removeKeys, "key1") removeKeys = append(removeKeys, "key6") tree.Removes(removeKeys) fmt.Println(tree.Map()) }
Output: map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
func (*RedBlackTree) Replace ¶
func (tree *RedBlackTree) Replace(data map[interface{}]interface{})
Replace the data of the tree with given `data`.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) data := map[interface{}]interface{}{ "newKey0": "newVal0", "newKey1": "newVal1", "newKey2": "newVal2", } tree.Replace(data) fmt.Println(tree.Map()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] map[newKey0:newVal0 newKey1:newVal1 newKey2:newVal2]
func (*RedBlackTree) Right ¶
func (tree *RedBlackTree) Right() *RedBlackTreeNode
Right returns the right-most (max) node or nil if tree is empty.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorInt) for i := 1; i < 100; i++ { tree.Set(i, i) } fmt.Println(tree.Right().Key, tree.Right().Value) emptyTree := gtree.NewRedBlackTree(gutil.ComparatorInt) fmt.Println(emptyTree.Left()) }
Output: 99 99 <nil>
func (*RedBlackTree) Search ¶
func (tree *RedBlackTree) Search(key interface{}) (value interface{}, found bool)
Search searches the tree with given `key`. Second return parameter `found` is true if key was found, otherwise false.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Search("key0")) fmt.Println(tree.Search("key6")) }
Output: val0 true <nil> false
func (*RedBlackTree) Set ¶
func (tree *RedBlackTree) Set(key interface{}, value interface{})
Set inserts key-value item into the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] 6
func (*RedBlackTree) SetComparator ¶
func (tree *RedBlackTree) SetComparator(comparator func(a, b interface{}) int)
SetComparator sets/changes the comparator for sorting.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { var tree gtree.RedBlackTree tree.SetComparator(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5] 6
func (*RedBlackTree) SetIfNotExist ¶
func (tree *RedBlackTree) SetIfNotExist(key interface{}, value interface{}) bool
SetIfNotExist sets `value` to the map if the `key` does not exist, and then returns true. It returns false if `key` exists, and `value` would be ignored.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExist("key1", "newVal1")) fmt.Println(tree.SetIfNotExist("key6", "val6")) }
Output: false true
func (*RedBlackTree) SetIfNotExistFunc ¶
func (tree *RedBlackTree) SetIfNotExistFunc(key interface{}, f func() interface{}) bool
SetIfNotExistFunc sets value with return value of callback function `f`, and then returns true. It returns false if `key` exists, and `value` would be ignored.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExistFunc("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.SetIfNotExistFunc("key6", func() interface{} { return "val6" })) }
Output: false true
func (*RedBlackTree) SetIfNotExistFuncLock ¶
func (tree *RedBlackTree) SetIfNotExistFuncLock(key interface{}, f func() interface{}) bool
SetIfNotExistFuncLock sets value with return value of callback function `f`, and then returns true. It returns false if `key` exists, and `value` would be ignored.
SetIfNotExistFuncLock differs with SetIfNotExistFunc function is that it executes function `f` with mutex.Lock of the hash map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.SetIfNotExistFuncLock("key1", func() interface{} { return "newVal1" })) fmt.Println(tree.SetIfNotExistFuncLock("key6", func() interface{} { return "val6" })) }
Output: false true
func (*RedBlackTree) Sets ¶
func (tree *RedBlackTree) Sets(data map[interface{}]interface{})
Sets batch sets key-values to the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) tree.Sets(map[interface{}]interface{}{ "key1": "val1", "key2": "val2", }) fmt.Println(tree.Map()) fmt.Println(tree.Size()) }
Output: map[key1:val1 key2:val2] 2
func (*RedBlackTree) Size ¶
func (tree *RedBlackTree) Size() int
Size returns number of nodes in the tree.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) fmt.Println(tree.Size()) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Size()) }
Output: 0 6
func (*RedBlackTree) String ¶
func (tree *RedBlackTree) String() string
String returns a string representation of container.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.String()) }
Output: │ ┌── key5 │ ┌── key4 │ ┌── key3 │ │ └── key2 └── key1 └── key0
func (*RedBlackTree) UnmarshalJSON ¶
func (tree *RedBlackTree) UnmarshalJSON(b []byte) error
UnmarshalJSON implements the interface UnmarshalJSON for json.Unmarshal.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/internal/json" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 0; i < 6; i++ { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } bytes, err := json.Marshal(tree) otherTree := gtree.NewRedBlackTree(gutil.ComparatorString) err = json.Unmarshal(bytes, &otherTree) if err == nil { fmt.Println(otherTree.Map()) } }
Output: map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
func (*RedBlackTree) UnmarshalValue ¶
func (tree *RedBlackTree) UnmarshalValue(value interface{}) (err error)
UnmarshalValue is an interface implement which sets any type of value for map.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) type User struct { Uid int Name string Pass1 string `gconv:"password1"` Pass2 string `gconv:"password2"` } var ( user = User{ Uid: 1, Name: "john", Pass1: "123", Pass2: "456", } ) if err := gconv.Scan(user, tree); err == nil { fmt.Printf("%#v", tree.Map()) } }
Output: map[interface {}]interface {}{"Name":"john", "Uid":1, "password1":"123", "password2":"456"}
func (*RedBlackTree) Values ¶
func (tree *RedBlackTree) Values() []interface{}
Values returns all values in asc order based on the key.
Example ¶
package main import ( "fmt" "easyscdp.com/gf/container/gtree" "easyscdp.com/gf/util/gconv" "easyscdp.com/gf/util/gutil" ) func main() { tree := gtree.NewRedBlackTree(gutil.ComparatorString) for i := 6; i > 0; i-- { tree.Set("key"+gconv.String(i), "val"+gconv.String(i)) } fmt.Println(tree.Values()) }
Output: [val1 val2 val3 val4 val5 val6]
type RedBlackTreeNode ¶
type RedBlackTreeNode struct { Key interface{} Value interface{} // contains filtered or unexported fields }
RedBlackTreeNode is a single element within the tree.