mirror of https://github.com/kubernetes/kops.git
171 lines
4.9 KiB
Go
171 lines
4.9 KiB
Go
/*
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Copyright 2017 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package buffer
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// defaultRingSize defines the default ring size if not specified
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const defaultRingSize = 16
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// RingGrowingOptions sets parameters for [RingGrowing] and
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// [TypedRingGrowing].
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type RingGrowingOptions struct {
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// InitialSize is the number of pre-allocated elements in the
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// initial underlying storage buffer.
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InitialSize int
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}
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// RingGrowing is a growing ring buffer.
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// Not thread safe.
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//
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// Deprecated: Use TypedRingGrowing[any] instead.
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type RingGrowing = TypedRingGrowing[any]
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// NewRingGrowing constructs a new RingGrowing instance with provided parameters.
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//
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// Deprecated: Use NewTypedRingGrowing[any] instead.
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func NewRingGrowing(initialSize int) *RingGrowing {
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return NewTypedRingGrowing[any](RingGrowingOptions{InitialSize: initialSize})
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}
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// TypedRingGrowing is a growing ring buffer.
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// The zero value has an initial size of 0 and is ready to use.
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// Not thread safe.
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type TypedRingGrowing[T any] struct {
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data []T
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n int // Size of Data
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beg int // First available element
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readable int // Number of data items available
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}
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// NewTypedRingGrowing constructs a new TypedRingGrowing instance with provided parameters.
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func NewTypedRingGrowing[T any](opts RingGrowingOptions) *TypedRingGrowing[T] {
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return &TypedRingGrowing[T]{
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data: make([]T, opts.InitialSize),
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n: opts.InitialSize,
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}
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}
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// ReadOne reads (consumes) first item from the buffer if it is available, otherwise returns false.
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func (r *TypedRingGrowing[T]) ReadOne() (data T, ok bool) {
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if r.readable == 0 {
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return
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}
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r.readable--
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element := r.data[r.beg]
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var zero T
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r.data[r.beg] = zero // Remove reference to the object to help GC
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if r.beg == r.n-1 {
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// Was the last element
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r.beg = 0
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} else {
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r.beg++
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}
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return element, true
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}
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// WriteOne adds an item to the end of the buffer, growing it if it is full.
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func (r *TypedRingGrowing[T]) WriteOne(data T) {
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if r.readable == r.n {
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// Time to grow
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newN := r.n * 2
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if newN == 0 {
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newN = defaultRingSize
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}
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newData := make([]T, newN)
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to := r.beg + r.readable
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if to <= r.n {
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copy(newData, r.data[r.beg:to])
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} else {
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copied := copy(newData, r.data[r.beg:])
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copy(newData[copied:], r.data[:(to%r.n)])
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}
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r.beg = 0
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r.data = newData
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r.n = newN
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}
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r.data[(r.readable+r.beg)%r.n] = data
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r.readable++
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}
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// Len returns the number of items in the buffer.
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func (r *TypedRingGrowing[T]) Len() int {
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return r.readable
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}
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// Cap returns the capacity of the buffer.
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func (r *TypedRingGrowing[T]) Cap() int {
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return r.n
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}
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// RingOptions sets parameters for [Ring].
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type RingOptions struct {
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// InitialSize is the number of pre-allocated elements in the
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// initial underlying storage buffer.
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InitialSize int
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// NormalSize is the number of elements to allocate for new storage
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// buffers once the Ring is consumed and
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// can shrink again.
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NormalSize int
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}
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// Ring is a dynamically-sized ring buffer which can grow and shrink as-needed.
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// The zero value has an initial size and normal size of 0 and is ready to use.
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// Not thread safe.
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type Ring[T any] struct {
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growing TypedRingGrowing[T]
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normalSize int // Limits the size of the buffer that is kept for reuse. Read-only.
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}
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// NewRing constructs a new Ring instance with provided parameters.
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func NewRing[T any](opts RingOptions) *Ring[T] {
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return &Ring[T]{
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growing: *NewTypedRingGrowing[T](RingGrowingOptions{InitialSize: opts.InitialSize}),
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normalSize: opts.NormalSize,
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}
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}
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// ReadOne reads (consumes) first item from the buffer if it is available,
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// otherwise returns false. When the buffer has been totally consumed and has
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// grown in size beyond its normal size, it shrinks down to its normal size again.
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func (r *Ring[T]) ReadOne() (data T, ok bool) {
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element, ok := r.growing.ReadOne()
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if r.growing.readable == 0 && r.growing.n > r.normalSize {
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// The buffer is empty. Reallocate a new buffer so the old one can be
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// garbage collected.
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r.growing.data = make([]T, r.normalSize)
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r.growing.n = r.normalSize
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r.growing.beg = 0
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}
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return element, ok
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}
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// WriteOne adds an item to the end of the buffer, growing it if it is full.
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func (r *Ring[T]) WriteOne(data T) {
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r.growing.WriteOne(data)
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}
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// Len returns the number of items in the buffer.
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func (r *Ring[T]) Len() int {
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return r.growing.Len()
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}
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// Cap returns the capacity of the buffer.
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func (r *Ring[T]) Cap() int {
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return r.growing.Cap()
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}
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