package editor // minQueueLen is smallest capacity that queue may have. // Must be power of 2 for bitwise modulus: x % n == x & (n - 1). const minQueueLen = 16 // Queue represents a single instance of the queue data structure. type Queue struct { buf []*PaletteItem head, tail, count int } // NewQueue constructs and returns a new Queue. func NewQueue() *Queue { return &Queue{ buf: make([]*PaletteItem, minQueueLen), } } // Length returns the number of elements currently stored in the queue. func (q *Queue) Length() int { return q.count } // resizes the queue to fit exactly twice its current contents // this can result in shrinking if the queue is less than half-full func (q *Queue) resize() { newBuf := make([]*PaletteItem, q.count<<1) if q.tail > q.head { copy(newBuf, q.buf[q.head:q.tail]) } else { n := copy(newBuf, q.buf[q.head:]) copy(newBuf[n:], q.buf[:q.tail]) } q.head = 0 q.tail = q.count q.buf = newBuf } // Add puts an element on the end of the queue. func (q *Queue) Add(elem *PaletteItem) { if q.count == len(q.buf) { q.resize() } q.buf[q.tail] = elem // bitwise modulus q.tail = (q.tail + 1) & (len(q.buf) - 1) q.count++ } // Peek returns the element at the head of the queue. This call panics // if the queue is empty. func (q *Queue) Peek() *PaletteItem { if q.count <= 0 { panic("queue: Peek() called on empty queue") } return q.buf[q.head] } // Get returns the element at index i in the queue. If the index is // invalid, the call will panic. This method accepts both positive and // negative index values. Index 0 refers to the first element, and // index -1 refers to the last. func (q *Queue) Get(i int) *PaletteItem { // If indexing backwards, convert to positive index. if i < 0 { i += q.count } if i < 0 || i >= q.count { panic("queue: Get() called with index out of range") } // bitwise modulus return q.buf[(q.head+i)&(len(q.buf)-1)] } // Remove removes and returns the element from the front of the queue. If the // queue is empty, the call will panic. func (q *Queue) Remove() *PaletteItem { if q.count <= 0 { panic("queue: Remove() called on empty queue") } ret := q.buf[q.head] q.buf[q.head] = nil // bitwise modulus q.head = (q.head + 1) & (len(q.buf) - 1) q.count-- // Resize down if buffer 1/4 full. if len(q.buf) > minQueueLen && (q.count<<2) == len(q.buf) { q.resize() } return ret }