gotosocial/vendor/github.com/wk8/go-ordered-map/v2/README.md

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[![Go Reference](https://pkg.go.dev/badge/github.com/wk8/go-ordered-map/v2.svg)](https://pkg.go.dev/github.com/wk8/go-ordered-map/v2)
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# Golang Ordered Maps
Same as regular maps, but also remembers the order in which keys were inserted, akin to [Python's `collections.OrderedDict`s](https://docs.python.org/3.7/library/collections.html#ordereddict-objects).
It offers the following features:
* optimal runtime performance (all operations are constant time)
* optimal memory usage (only one copy of values, no unnecessary memory allocation)
* allows iterating from newest or oldest keys indifferently, without memory copy, allowing to `break` the iteration, and in time linear to the number of keys iterated over rather than the total length of the ordered map
* supports any generic types for both keys and values. If you're running go < 1.18, you can use [version 1](https://github.com/wk8/go-ordered-map/tree/v1) that takes and returns generic `interface{}`s instead of using generics
* idiomatic API, akin to that of [`container/list`](https://golang.org/pkg/container/list)
* support for JSON and YAML marshalling
## Documentation
[The full documentation is available on pkg.go.dev](https://pkg.go.dev/github.com/wk8/go-ordered-map/v2).
## Installation
```bash
go get -u github.com/wk8/go-ordered-map/v2
```
Or use your favorite golang vendoring tool!
## Supported go versions
Go >= 1.23 is required to use version >= 2.2.0 of this library, as it uses generics and iterators.
if you're running go < 1.23, you can use [version 2.1.8](https://github.com/wk8/go-ordered-map/tree/v2.1.8) instead.
If you're running go < 1.18, you can use [version 1](https://github.com/wk8/go-ordered-map/tree/v1) instead.
## Example / usage
```go
package main
import (
"fmt"
"github.com/wk8/go-ordered-map/v2"
)
func main() {
om := orderedmap.New[string, string]()
om.Set("foo", "bar")
om.Set("bar", "baz")
om.Set("coucou", "toi")
fmt.Println(om.Get("foo")) // => "bar", true
fmt.Println(om.Get("i dont exist")) // => "", false
// iterating pairs from oldest to newest:
for pair := om.Oldest(); pair != nil; pair = pair.Next() {
fmt.Printf("%s => %s\n", pair.Key, pair.Value)
} // prints:
// foo => bar
// bar => baz
// coucou => toi
// iterating over the 2 newest pairs:
i := 0
for pair := om.Newest(); pair != nil; pair = pair.Prev() {
fmt.Printf("%s => %s\n", pair.Key, pair.Value)
i++
if i >= 2 {
break
}
} // prints:
// coucou => toi
// bar => baz
}
```
An `OrderedMap`'s keys must implement `comparable`, and its values can be anything, for example:
```go
type myStruct struct {
payload string
}
func main() {
om := orderedmap.New[int, *myStruct]()
om.Set(12, &myStruct{"foo"})
om.Set(1, &myStruct{"bar"})
value, present := om.Get(12)
if !present {
panic("should be there!")
}
fmt.Println(value.payload) // => foo
for pair := om.Oldest(); pair != nil; pair = pair.Next() {
fmt.Printf("%d => %s\n", pair.Key, pair.Value.payload)
} // prints:
// 12 => foo
// 1 => bar
}
```
Also worth noting that you can provision ordered maps with a capacity hint, as you would do by passing an optional hint to `make(map[K]V, capacity`):
```go
om := orderedmap.New[int, *myStruct](28)
```
You can also pass in some initial data to store in the map:
```go
om := orderedmap.New[int, string](orderedmap.WithInitialData[int, string](
orderedmap.Pair[int, string]{
Key: 12,
Value: "foo",
},
orderedmap.Pair[int, string]{
Key: 28,
Value: "bar",
},
))
```
`OrderedMap`s also support JSON serialization/deserialization, and preserves order:
```go
// serialization
data, err := json.Marshal(om)
...
// deserialization
om := orderedmap.New[string, string]() // or orderedmap.New[int, any](), or any type you expect
err := json.Unmarshal(data, &om)
...
```
Similarly, it also supports YAML serialization/deserialization using the yaml.v3 package, which also preserves order:
```go
// serialization
data, err := yaml.Marshal(om)
...
// deserialization
om := orderedmap.New[string, string]() // or orderedmap.New[int, any](), or any type you expect
err := yaml.Unmarshal(data, &om)
...
```
## Iterator support (go >= 1.23)
The `FromOldest`, `FromNewest`, `KeysFromOldest`, `KeysFromNewest`, `ValuesFromOldest` and `ValuesFromNewest` methods return iterators over the map's pairs, starting from the oldest or newest pair, respectively.
For example:
```go
om := orderedmap.New[int, string]()
om.Set(1, "foo")
om.Set(2, "bar")
om.Set(3, "baz")
for k, v := range om.FromOldest() {
fmt.Printf("%d => %s\n", k, v)
}
// prints:
// 1 => foo
// 2 => bar
// 3 => baz
for k := range om.KeysNewest() {
fmt.Printf("%d\n", k)
}
// prints:
// 3
// 2
// 1
```
`From` is a convenience function that creates a new `OrderedMap` from an iterator over key-value pairs.
```go
om := orderedmap.New[int, string]()
om.Set(1, "foo")
om.Set(2, "bar")
om.Set(3, "baz")
om2 := orderedmap.From(om.FromOldest())
for k, v := range om2.FromOldest() {
fmt.Printf("%d => %s\n", k, v)
}
// prints:
// 1 => foo
// 2 => bar
// 3 => baz
```
## Alternatives
There are several other ordered map golang implementations out there, but I believe that at the time of writing none of them offer the same functionality as this library; more specifically:
* [iancoleman/orderedmap](https://github.com/iancoleman/orderedmap) only accepts `string` keys, its `Delete` operations are linear
* [cevaris/ordered_map](https://github.com/cevaris/ordered_map) uses a channel for iterations, and leaks goroutines if the iteration is interrupted before fully traversing the map
* [mantyr/iterator](https://github.com/mantyr/iterator) also uses a channel for iterations, and its `Delete` operations are linear
* [samdolan/go-ordered-map](https://github.com/samdolan/go-ordered-map) adds unnecessary locking (users should add their own locking instead if they need it), its `Delete` and `Get` operations are linear, iterations trigger a linear memory allocation