gotosocial/vendor/codeberg.org/gruf/go-maps/ordered.go
tobi edcee14d07
[feature] Read + Write tombstones for deleted Actors (#1005)
* [feature] Read + Write tombstones for deleted Actors

* copyTombstone

* update to use resultcache instead of old ttl cache

Signed-off-by: kim <grufwub@gmail.com>

* update go-cache library to fix result cache capacity / ordering bugs

Signed-off-by: kim <grufwub@gmail.com>

* bump go-cache/v3 to v3.1.6 to fix bugs

Signed-off-by: kim <grufwub@gmail.com>

* switch on status code

* better explain ErrGone reasoning

Signed-off-by: kim <grufwub@gmail.com>
Co-authored-by: kim <grufwub@gmail.com>
2022-11-11 12:18:38 +01:00

160 lines
3.3 KiB
Go

package maps
import (
"fmt"
"reflect"
)
// OrderedMap provides a hashmap implementation that tracks the order in which keys are added.
type OrderedMap[K comparable, V any] struct {
ordered[K, V]
}
// NewOrdered returns a new instance of LRUMap with given initializing length and maximum capacity.
func NewOrdered[K comparable, V any](len int) *OrderedMap[K, V] {
m := new(OrderedMap[K, V])
m.Init(len)
return m
}
// Init will initialize this map with initial length.
func (m *OrderedMap[K, V]) Init(len int) {
if m.pool != nil {
panic("ordered map already initialized")
}
m.ordered.hmap = make(map[K]*elem[K, V], len)
m.ordered.pool = allocElems[K, V](len)
}
// Get will fetch value for given key from map. Returns false if not found.
func (m *OrderedMap[K, V]) Get(key K) (V, bool) {
if elem, ok := m.hmap[key]; ok {
return elem.V, true
}
var z V // zero value
return z, false
}
// Add will add the given key-value pair to the map, returns false if already exists.
func (m *OrderedMap[K, V]) Add(key K, value V) bool {
// Ensure safe
m.write_check()
// Look for existing elem
elem, ok := m.hmap[key]
if ok {
return false
}
// Allocate elem
elem = m.alloc()
elem.K = key
elem.V = value
// Add element map entry
m.hmap[key] = elem
// Push to back of list
m.list.PushBack(elem)
return true
}
// Set will ensure that given key-value pair exists in the map, by either adding new or updating existing.
func (m *OrderedMap[K, V]) Set(key K, value V) {
// Ensure safe
m.write_check()
// Look for existing elem
elem, ok := m.hmap[key]
if ok {
// Update existing
elem.V = value
} else {
// Allocate elem
elem = m.alloc()
elem.K = key
elem.V = value
// Add element map entry
m.hmap[key] = elem
// Push to back of list
m.list.PushBack(elem)
}
}
// Index returns the key-value pair at index from map. Returns false if index out of range.
func (m *OrderedMap[K, V]) Index(idx int) (K, V, bool) {
if idx < 0 || idx >= m.list.len {
var (
zk K
zv V
) // zero values
return zk, zv, false
}
elem := m.list.Index(idx)
return elem.K, elem.V, true
}
// Push will insert the given key-value pair at index in the map. Panics if index out of range.
func (m *OrderedMap[K, V]) Push(idx int, key K, value V) {
// Check index within bounds of map
if idx < 0 || idx >= m.list.len {
panic("index out of bounds")
}
// Ensure safe
m.write_check()
// Get element at index
next := m.list.Index(idx)
// Allocate new elem
elem := m.alloc()
elem.K = key
elem.V = value
// Add element map entry
m.hmap[key] = elem
// Move next forward
elem.next = next
elem.prev = next.prev
// Link up elem in chain
next.prev.next = elem
next.prev = elem
}
// Pop will remove and return the key-value pair at index in the map. Panics if index out of range.
func (m *OrderedMap[K, V]) Pop(idx int) (K, V) {
// Check index within bounds of map
if idx < 0 || idx >= m.list.len {
panic("index out of bounds")
}
// Ensure safe
m.write_check()
// Get element at index
elem := m.list.Index(idx)
// Unlink elem from list
m.list.Unlink(elem)
// Get elem values
k := elem.K
v := elem.V
// Release to pool
m.free(elem)
return k, v
}
// Format implements fmt.Formatter, allowing performant string formatting of map.
func (m *OrderedMap[K, V]) Format(state fmt.State, verb rune) {
m.format(reflect.TypeOf(m), state, verb)
}