mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-11-24 20:56:39 +00:00
343 lines
6.9 KiB
Go
343 lines
6.9 KiB
Go
package structr
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import (
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"reflect"
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"sync"
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"unsafe"
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)
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// QueueConfig defines config vars
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// for initializing a struct queue.
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type QueueConfig[StructType any] struct {
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// Pop is called when queue values
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// are popped, during calls to any
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// of the Pop___() series of fns.
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Pop func(StructType)
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// Indices defines indices to create
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// in the Queue for the receiving
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// generic struct parameter type.
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Indices []IndexConfig
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}
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// Queue provides a structure model queue with
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// automated indexing and popping by any init
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// defined lookups of field combinations.
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type Queue[StructType any] struct {
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// hook functions.
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copy func(StructType) StructType
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pop func(StructType)
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// main underlying
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// struct item queue.
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queue list
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// indices used in storing passed struct
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// types by user defined sets of fields.
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indices []Index
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// protective mutex, guards:
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// - Queue{}.queue
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// - Index{}.data
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// - Queue{} hook fns
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mutex sync.Mutex
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}
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// Init initializes the queue with given configuration
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// including struct fields to index, and necessary fns.
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func (q *Queue[T]) Init(config QueueConfig[T]) {
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t := reflect.TypeOf((*T)(nil)).Elem()
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if len(config.Indices) == 0 {
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panic("no indices provided")
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}
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// Safely copy over
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// provided config.
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q.mutex.Lock()
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q.indices = make([]Index, len(config.Indices))
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for i, cfg := range config.Indices {
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q.indices[i].ptr = unsafe.Pointer(q)
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q.indices[i].init(t, cfg, 0)
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}
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q.pop = config.Pop
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q.mutex.Unlock()
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}
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// Index selects index with given name from queue, else panics.
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func (q *Queue[T]) Index(name string) *Index {
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for i, idx := range q.indices {
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if idx.name == name {
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return &(q.indices[i])
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}
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}
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panic("unknown index: " + name)
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}
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// PopFront pops the current value at front of the queue.
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func (q *Queue[T]) PopFront() (T, bool) {
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t := q.PopFrontN(1)
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if len(t) == 0 {
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var t T
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return t, false
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}
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return t[0], true
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}
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// PopBack pops the current value at back of the queue.
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func (q *Queue[T]) PopBack() (T, bool) {
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t := q.PopBackN(1)
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if len(t) == 0 {
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var t T
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return t, false
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}
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return t[0], true
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}
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// PopFrontN attempts to pop n values from front of the queue.
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func (q *Queue[T]) PopFrontN(n int) []T {
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return q.pop_n(n, func() *list_elem {
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return q.queue.head
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})
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}
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// PopBackN attempts to pop n values from back of the queue.
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func (q *Queue[T]) PopBackN(n int) []T {
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return q.pop_n(n, func() *list_elem {
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return q.queue.tail
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})
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}
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// Pop attempts to pop values from queue indexed under any of keys.
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func (q *Queue[T]) Pop(index *Index, keys ...Key) []T {
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if index == nil {
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panic("no index given")
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} else if index.ptr != unsafe.Pointer(q) {
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panic("invalid index for queue")
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}
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// Acquire lock.
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q.mutex.Lock()
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// Preallocate expected ret slice.
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values := make([]T, 0, len(keys))
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for i := range keys {
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// Delete all items under key from index, collecting
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// value items and dropping them from all their indices.
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index.delete(keys[i].key, func(item *indexed_item) {
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// Append deleted to values.
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value := item.data.(T)
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values = append(values, value)
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// Delete queued.
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q.delete(item)
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})
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}
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// Get func ptrs.
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pop := q.pop
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// Done with lock.
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q.mutex.Unlock()
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if pop != nil {
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// Pass all popped values
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// to given user hook (if set).
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for _, value := range values {
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pop(value)
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}
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}
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return values
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}
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// PushFront pushes values to front of queue.
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func (q *Queue[T]) PushFront(values ...T) {
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q.mutex.Lock()
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for i := range values {
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item := q.index(values[i])
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q.queue.push_front(&item.elem)
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}
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q.mutex.Unlock()
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}
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// PushBack pushes values to back of queue.
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func (q *Queue[T]) PushBack(values ...T) {
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q.mutex.Lock()
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for i := range values {
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item := q.index(values[i])
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q.queue.push_back(&item.elem)
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}
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q.mutex.Unlock()
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}
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// MoveFront attempts to move values indexed under any of keys to the front of the queue.
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func (q *Queue[T]) MoveFront(index *Index, keys ...Key) {
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q.mutex.Lock()
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for i := range keys {
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index.get(keys[i].key, func(item *indexed_item) {
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q.queue.move_front(&item.elem)
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})
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}
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q.mutex.Unlock()
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}
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// MoveBack attempts to move values indexed under any of keys to the back of the queue.
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func (q *Queue[T]) MoveBack(index *Index, keys ...Key) {
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q.mutex.Lock()
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for i := range keys {
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index.get(keys[i].key, func(item *indexed_item) {
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q.queue.move_back(&item.elem)
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})
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}
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q.mutex.Unlock()
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}
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// Len returns the current length of queue.
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func (q *Queue[T]) Len() int {
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q.mutex.Lock()
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l := q.queue.len
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q.mutex.Unlock()
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return l
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}
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// Debug returns debug stats about queue.
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func (q *Queue[T]) Debug() map[string]any {
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m := make(map[string]any, 2)
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q.mutex.Lock()
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m["queue"] = q.queue.len
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indices := make(map[string]any, len(q.indices))
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m["indices"] = indices
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for _, idx := range q.indices {
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var n uint64
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for _, l := range idx.data.m {
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n += uint64(l.len)
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}
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indices[idx.name] = n
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}
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q.mutex.Unlock()
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return m
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}
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func (q *Queue[T]) pop_n(n int, next func() *list_elem) []T {
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if next == nil {
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panic("nil fn")
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}
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// Acquire lock.
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q.mutex.Lock()
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// Preallocate ret slice.
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values := make([]T, 0, n)
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// Iterate over 'n' items.
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for i := 0; i < n; i++ {
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// Get next elem.
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next := next()
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if next == nil {
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// reached
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// end.
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break
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}
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// Cast the indexed item from elem.
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item := (*indexed_item)(next.data)
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// Append deleted to values.
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value := item.data.(T)
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values = append(values, value)
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// Delete queued.
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q.delete(item)
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}
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// Get func ptrs.
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pop := q.pop
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// Done with lock.
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q.mutex.Unlock()
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if pop != nil {
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// Pass all popped values
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// to given user hook (if set).
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for _, value := range values {
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pop(value)
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}
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}
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return values
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}
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func (q *Queue[T]) index(value T) *indexed_item {
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item := new_indexed_item()
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if cap(item.indexed) < len(q.indices) {
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// Preallocate item indices slice to prevent Go auto
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// allocating overlying large slices we don't need.
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item.indexed = make([]*index_entry, 0, len(q.indices))
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}
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// Set item value.
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item.data = value
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// Get ptr to value data.
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ptr := unsafe.Pointer(&value)
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// Acquire key buf.
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buf := new_buffer()
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for i := range q.indices {
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// Get current index ptr.
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idx := &(q.indices[i])
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// Extract fields comprising index key.
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parts := extract_fields(ptr, idx.fields)
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if parts == nil {
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continue
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}
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// Calculate index key.
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key := idx.key(buf, parts)
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if key == "" {
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continue
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}
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// Append item to this index.
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idx.append(&q.queue, key, item)
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}
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// Done with buf.
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free_buffer(buf)
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return item
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}
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func (q *Queue[T]) delete(item *indexed_item) {
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for len(item.indexed) != 0 {
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// Pop last indexed entry from list.
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entry := item.indexed[len(item.indexed)-1]
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item.indexed = item.indexed[:len(item.indexed)-1]
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// Get entry's index.
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index := entry.index
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// Drop this index_entry.
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index.delete_entry(entry)
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// Check compact map.
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index.data.Compact()
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}
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// Drop entry from queue list.
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q.queue.remove(&item.elem)
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// Free now-unused item.
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free_indexed_item(item)
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}
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