mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
synced 2024-12-20 08:01:50 +03:00
392 lines
8 KiB
Go
392 lines
8 KiB
Go
package structr
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import (
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"reflect"
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"strings"
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"sync"
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"unsafe"
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"github.com/zeebo/xxh3"
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)
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// IndexConfig defines config variables
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// for initializing a struct index.
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type IndexConfig struct {
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// Fields should contain a comma-separated
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// list of struct fields used when generating
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// keys for this index. Nested fields should
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// be specified using periods. An example:
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// "Username,Favorites.Color"
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//
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// Field types supported include:
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// - ~int
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// - ~int8
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// - ~int16
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// - ~int32
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// - ~int64
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// - ~float32
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// - ~float64
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// - ~string
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// - slices of above
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// - ptrs of above
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Fields string
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// Multiple indicates whether to accept multiple
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// possible values for any single index key. The
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// default behaviour is to only accept one value
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// and overwrite existing on any write operation.
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Multiple bool
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// AllowZero indicates whether to accept zero
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// value fields in index keys. i.e. whether to
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// index structs for this set of field values
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// IF any one of those field values is the zero
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// value for that type. The default behaviour
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// is to skip indexing structs for this lookup
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// when any of the indexing fields are zero.
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AllowZero bool
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}
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// Index is an exposed Cache internal model, used to
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// extract struct keys, generate hash checksums for them
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// and store struct results by the init defined config.
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// This model is exposed to provide faster lookups in the
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// case that you would like to manually provide the used
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// index via the Cache.___By() series of functions, or
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// access the underlying index key generator.
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type Index[StructType any] struct {
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// name is the actual name of this
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// index, which is the unparsed
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// string value of contained fields.
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name string
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// backing data store of the index, containing
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// the cached results contained within wrapping
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// index_entry{} which also contains the exact
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// key each result is stored under. the hash map
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// only keys by the xxh3 hash checksum for speed.
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data map[Hash]*list //[*index_entry[StructType]]
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// struct fields encompassed by
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// keys (+ hashes) of this index.
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fields []structfield
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// index flags:
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// - 1 << 0 = unique
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// - 1 << 1 = allow zero
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flags uint8
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}
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// Key returns the configured fields as key, and hash sum of key.
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func (i *Index[T]) Key(value T) ([]any, Hash, bool) {
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h := get_hasher()
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key, sum, ok := index_key(i, h, value)
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hash_pool.Put(h)
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return key, sum, ok
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}
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func is_unique(f uint8) bool {
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const mask = uint8(1) << 0
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return f&mask != 0
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}
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func set_is_unique(f *uint8) {
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const mask = uint8(1) << 0
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(*f) |= mask
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}
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func allow_zero(f uint8) bool {
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const mask = uint8(1) << 1
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return f&mask != 0
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}
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func set_allow_zero(f *uint8) {
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const mask = uint8(1) << 1
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(*f) |= mask
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}
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func init_index[T any](i *Index[T], config IndexConfig, max int) {
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// Set name from the raw
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// struct fields string.
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i.name = config.Fields
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// Set struct flags.
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if config.AllowZero {
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set_allow_zero(&i.flags)
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}
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if !config.Multiple {
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set_is_unique(&i.flags)
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}
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// Split to get the containing struct fields.
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fields := strings.Split(config.Fields, ",")
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// Preallocate expected struct field slice.
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i.fields = make([]structfield, len(fields))
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// Get the reflected struct ptr type.
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t := reflect.TypeOf((*T)(nil)).Elem()
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for x, fieldName := range fields {
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// Split name to account for nesting.
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names := strings.Split(fieldName, ".")
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// Look for usable struct field.
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i.fields[x] = find_field(t, names)
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}
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// Initialize index_entry list store.
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i.data = make(map[Hash]*list, max+1)
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}
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func index_key[T any](i *Index[T], h *xxh3.Hasher, value T) ([]any, Hash, bool) {
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key := extract_fields(value, i.fields)
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sum, zero := hash_sum(i.fields, h, key)
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if zero && !allow_zero(i.flags) {
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var zero Hash
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return nil, zero, false
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}
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return key, sum, true
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}
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func index_hash[T any](i *Index[T], h *xxh3.Hasher, key []any) (Hash, bool) {
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sum, zero := hash_sum(i.fields, h, key)
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if zero && !allow_zero(i.flags) {
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var zero Hash
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return zero, false
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}
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return sum, true
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}
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func index_get[T any](i *Index[T], hash Hash, key []any) *list {
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l := i.data[hash]
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if l == nil {
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return nil
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}
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entry := (*index_entry)(l.head.data)
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if !is_equal(entry.key, key) {
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return l
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}
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return l
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}
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func index_append[T any](c *Cache[T], i *Index[T], hash Hash, key []any, res *result) {
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// Get list at key.
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l := i.data[hash]
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if l == nil {
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// Allocate new list.
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l = list_acquire()
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i.data[hash] = l
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} else if entry := (*index_entry)(l.head.data); //nocollapse
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!is_equal(entry.key, key) {
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// Collision! Drop all.
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delete(i.data, hash)
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// Iterate entries in list.
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for x := 0; x < l.len; x++ {
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// Pop current head.
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list_remove(l, l.head)
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// Extract result.
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res := entry.result
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// Drop index entry from res.
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result_drop_index(res, i)
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if len(res.indexed) == 0 {
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// Old res now unused,
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// release to mem pool.
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result_release(c, res)
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}
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}
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return
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} else if is_unique(i.flags) {
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// Remove current
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// indexed entry.
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list_remove(l, l.head)
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// Get ptr to old
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// entry before we
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// release to pool.
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res := entry.result
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// Drop this index's key from
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// old res now not indexed here.
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result_drop_index(res, i)
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if len(res.indexed) == 0 {
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// Old res now unused,
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// release to mem pool.
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result_release(c, res)
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}
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}
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// Acquire + setup index entry.
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entry := index_entry_acquire()
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entry.index = unsafe.Pointer(i)
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entry.result = res
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entry.key = key
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entry.hash = hash
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// Append to result's indexed entries.
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res.indexed = append(res.indexed, entry)
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// Add index entry to index list.
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list_push_front(l, &entry.elem)
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}
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func index_delete[T any](c *Cache[T], i *Index[T], hash Hash, key []any, fn func(*result)) {
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if fn == nil {
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panic("nil fn")
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}
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// Get list at hash.
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l := i.data[hash]
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if l == nil {
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return
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}
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entry := (*index_entry)(l.head.data)
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// Check contains expected key for hash.
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if !is_equal(entry.key, key) {
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return
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}
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// Delete data at hash.
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delete(i.data, hash)
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// Iterate entries in list.
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for x := 0; x < l.len; x++ {
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// Pop current head.
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entry := (*index_entry)(l.head.data)
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list_remove(l, l.head)
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// Extract result.
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res := entry.result
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// Call hook.
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fn(res)
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// Drop index entry from res.
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result_drop_index(res, i)
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}
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// Release to pool.
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list_release(l)
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}
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func index_delete_entry[T any](c *Cache[T], entry *index_entry) {
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// Get from entry.
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i := (*Index[T])(entry.index)
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// Get list at hash sum.
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l := i.data[entry.hash]
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if l == nil {
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return
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}
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// Remove entry from list.
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list_remove(l, &entry.elem)
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if l.len == 0 {
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// Remove list from map.
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delete(i.data, entry.hash)
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// Release to pool.
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list_release(l)
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}
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// Extract result.
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res := entry.result
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// Drop index entry from res.
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result_drop_index(res, i)
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}
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var entry_pool sync.Pool
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type index_entry struct {
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// elem contains the list element
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// appended to each per-hash list
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// within the Index{} type. the
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// contained value is a self-ref.
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elem list_elem
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// index is the Index{} this
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// index_entry{} is stored in.
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index unsafe.Pointer
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// result is the actual
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// underlying result stored
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// within the index. this
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// also contains a ref to
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// this *index_entry in order
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// to track indices each result
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// is currently stored under.
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result *result
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// key contains the actual
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// key this item was stored
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// under, used for collision
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// check.
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key []any
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// hash contains computed
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// hash checksum of .key.
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hash Hash
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}
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func index_entry_acquire() *index_entry {
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// Acquire from pool.
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v := entry_pool.Get()
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if v == nil {
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v = new(index_entry)
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}
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// Cast index_entry value.
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entry := v.(*index_entry)
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// Set index list elem entry on itself.
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entry.elem.data = unsafe.Pointer(entry)
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return entry
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}
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func index_entry_release(entry *index_entry) {
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var zero Hash
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// Reset index entry.
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entry.elem.data = nil
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entry.index = nil
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entry.result = nil
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entry.key = nil
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entry.hash = zero
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// Release to pool.
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entry_pool.Put(entry)
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}
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// is_equal returns whether 2 key slices are equal.
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func is_equal(k1, k2 []any) bool {
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if len(k1) != len(k2) {
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return false
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}
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for i := range k1 {
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if k1[i] != k2[i] {
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return false
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}
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}
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return true
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}
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