2018-11-12 10:47:34 -06:00
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package queue
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import (
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"encoding/binary"
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"log"
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"time"
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)
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const (
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// Number of bytes used to keep information about entry size
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headerEntrySize = 4
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// Bytes before left margin are not used. Zero index means element does not exist in queue, useful while reading slice from index
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leftMarginIndex = 1
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// Minimum empty blob size in bytes. Empty blob fills space between tail and head in additional memory allocation.
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// It keeps entries indexes unchanged
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minimumEmptyBlobSize = 32 + headerEntrySize
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)
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2019-02-18 02:15:55 -06:00
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var (
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errEmptyQueue = &queueError{"Empty queue"}
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errInvalidIndex = &queueError{"Index must be greater than zero. Invalid index."}
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errIndexOutOfBounds = &queueError{"Index out of range"}
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)
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2018-11-12 10:47:34 -06:00
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// BytesQueue is a non-thread safe queue type of fifo based on bytes array.
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// For every push operation index of entry is returned. It can be used to read the entry later
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type BytesQueue struct {
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array []byte
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capacity int
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maxCapacity int
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head int
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tail int
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count int
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rightMargin int
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headerBuffer []byte
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verbose bool
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initialCapacity int
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}
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type queueError struct {
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message string
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}
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// NewBytesQueue initialize new bytes queue.
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// Initial capacity is used in bytes array allocation
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// When verbose flag is set then information about memory allocation are printed
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func NewBytesQueue(initialCapacity int, maxCapacity int, verbose bool) *BytesQueue {
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return &BytesQueue{
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array: make([]byte, initialCapacity),
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capacity: initialCapacity,
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maxCapacity: maxCapacity,
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headerBuffer: make([]byte, headerEntrySize),
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tail: leftMarginIndex,
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head: leftMarginIndex,
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rightMargin: leftMarginIndex,
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verbose: verbose,
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initialCapacity: initialCapacity,
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}
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}
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// Reset removes all entries from queue
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func (q *BytesQueue) Reset() {
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// Just reset indexes
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q.tail = leftMarginIndex
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q.head = leftMarginIndex
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q.rightMargin = leftMarginIndex
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q.count = 0
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}
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// Push copies entry at the end of queue and moves tail pointer. Allocates more space if needed.
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// Returns index for pushed data or error if maximum size queue limit is reached.
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func (q *BytesQueue) Push(data []byte) (int, error) {
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dataLen := len(data)
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if q.availableSpaceAfterTail() < dataLen+headerEntrySize {
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if q.availableSpaceBeforeHead() >= dataLen+headerEntrySize {
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q.tail = leftMarginIndex
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} else if q.capacity+headerEntrySize+dataLen >= q.maxCapacity && q.maxCapacity > 0 {
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return -1, &queueError{"Full queue. Maximum size limit reached."}
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} else {
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q.allocateAdditionalMemory(dataLen + headerEntrySize)
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}
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}
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index := q.tail
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q.push(data, dataLen)
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return index, nil
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}
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func (q *BytesQueue) allocateAdditionalMemory(minimum int) {
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start := time.Now()
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if q.capacity < minimum {
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q.capacity += minimum
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}
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q.capacity = q.capacity * 2
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if q.capacity > q.maxCapacity && q.maxCapacity > 0 {
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q.capacity = q.maxCapacity
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}
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oldArray := q.array
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q.array = make([]byte, q.capacity)
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if leftMarginIndex != q.rightMargin {
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copy(q.array, oldArray[:q.rightMargin])
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if q.tail < q.head {
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emptyBlobLen := q.head - q.tail - headerEntrySize
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q.push(make([]byte, emptyBlobLen), emptyBlobLen)
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q.head = leftMarginIndex
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q.tail = q.rightMargin
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}
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}
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if q.verbose {
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log.Printf("Allocated new queue in %s; Capacity: %d \n", time.Since(start), q.capacity)
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}
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}
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func (q *BytesQueue) push(data []byte, len int) {
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binary.LittleEndian.PutUint32(q.headerBuffer, uint32(len))
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q.copy(q.headerBuffer, headerEntrySize)
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q.copy(data, len)
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if q.tail > q.head {
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q.rightMargin = q.tail
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}
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q.count++
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}
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func (q *BytesQueue) copy(data []byte, len int) {
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q.tail += copy(q.array[q.tail:], data[:len])
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}
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// Pop reads the oldest entry from queue and moves head pointer to the next one
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func (q *BytesQueue) Pop() ([]byte, error) {
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data, size, err := q.peek(q.head)
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if err != nil {
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return nil, err
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}
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q.head += headerEntrySize + size
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q.count--
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if q.head == q.rightMargin {
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q.head = leftMarginIndex
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if q.tail == q.rightMargin {
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q.tail = leftMarginIndex
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}
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q.rightMargin = q.tail
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}
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return data, nil
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}
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// Peek reads the oldest entry from list without moving head pointer
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func (q *BytesQueue) Peek() ([]byte, error) {
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data, _, err := q.peek(q.head)
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return data, err
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}
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// Get reads entry from index
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func (q *BytesQueue) Get(index int) ([]byte, error) {
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data, _, err := q.peek(index)
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return data, err
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}
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2019-02-18 02:15:55 -06:00
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// CheckGet checks if an entry can be read from index
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func (q *BytesQueue) CheckGet(index int) error {
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return q.peekCheckErr(index)
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}
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2018-11-12 10:47:34 -06:00
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// Capacity returns number of allocated bytes for queue
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func (q *BytesQueue) Capacity() int {
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return q.capacity
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}
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// Len returns number of entries kept in queue
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func (q *BytesQueue) Len() int {
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return q.count
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}
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// Error returns error message
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func (e *queueError) Error() string {
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return e.message
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}
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2019-02-18 02:15:55 -06:00
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// peekCheckErr is identical to peek, but does not actually return any data
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func (q *BytesQueue) peekCheckErr(index int) error {
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if q.count == 0 {
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return errEmptyQueue
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}
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if index <= 0 {
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return errInvalidIndex
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}
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if index+headerEntrySize >= len(q.array) {
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return errIndexOutOfBounds
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}
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return nil
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}
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2018-11-12 10:47:34 -06:00
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func (q *BytesQueue) peek(index int) ([]byte, int, error) {
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if q.count == 0 {
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2019-02-18 02:15:55 -06:00
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return nil, 0, errEmptyQueue
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2018-11-12 10:47:34 -06:00
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}
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if index <= 0 {
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2019-02-18 02:15:55 -06:00
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return nil, 0, errInvalidIndex
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2018-11-12 10:47:34 -06:00
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}
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if index+headerEntrySize >= len(q.array) {
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2019-02-18 02:15:55 -06:00
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return nil, 0, errIndexOutOfBounds
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2018-11-12 10:47:34 -06:00
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}
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blockSize := int(binary.LittleEndian.Uint32(q.array[index : index+headerEntrySize]))
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return q.array[index+headerEntrySize : index+headerEntrySize+blockSize], blockSize, nil
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}
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func (q *BytesQueue) availableSpaceAfterTail() int {
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if q.tail >= q.head {
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return q.capacity - q.tail
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}
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return q.head - q.tail - minimumEmptyBlobSize
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}
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func (q *BytesQueue) availableSpaceBeforeHead() int {
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if q.tail >= q.head {
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return q.head - leftMarginIndex - minimumEmptyBlobSize
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}
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return q.head - q.tail - minimumEmptyBlobSize
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}
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