/* * Copyright (c) 2007, Novell Inc. * * This program is licensed under the BSD license, read LICENSE.BSD * for further information */ /* * queue.c * */ #include #include #include "queue.h" #include "util.h" #define EXTRA_SPACE 8 #define EXTRA_SPACE_HEAD 8 void queue_init(Queue *q) { q->alloc = q->elements = 0; q->count = q->left = 0; } void queue_init_clone(Queue *t, Queue *s) { if (!s->elements) { t->alloc = t->elements = 0; t->count = t->left = 0; return; } t->alloc = t->elements = solv_malloc2(s->count + EXTRA_SPACE, sizeof(Id)); if (s->count) memcpy(t->alloc, s->elements, s->count * sizeof(Id)); t->count = s->count; t->left = EXTRA_SPACE; } void queue_init_buffer(Queue *q, Id *buf, int size) { q->alloc = 0; q->elements = buf; q->count = 0; q->left = size; } void queue_free(Queue *q) { if (q->alloc) solv_free(q->alloc); q->alloc = q->elements = 0; q->count = q->left = 0; } void queue_alloc_one(Queue *q) { if (!q->alloc) { q->alloc = solv_malloc2(q->count + EXTRA_SPACE, sizeof(Id)); if (q->count) memcpy(q->alloc, q->elements, q->count * sizeof(Id)); q->elements = q->alloc; q->left = EXTRA_SPACE; } else if (q->alloc != q->elements) { int l = q->elements - q->alloc; if (q->count) memmove(q->alloc, q->elements, q->count * sizeof(Id)); q->elements -= l; q->left += l; } else { q->elements = q->alloc = solv_realloc2(q->alloc, q->count + EXTRA_SPACE, sizeof(Id)); q->left = EXTRA_SPACE; } } /* make room for an element in front of queue */ void queue_alloc_one_head(Queue *q) { int l; if (!q->alloc || !q->left) queue_alloc_one(q); l = q->left > EXTRA_SPACE_HEAD ? EXTRA_SPACE_HEAD : q->left; if (q->count) memmove(q->elements + l, q->elements, q->count * sizeof(Id)); q->elements += l; q->left -= l; } void queue_insert(Queue *q, int pos, Id id) { queue_push(q, id); /* make room */ if (pos < q->count - 1) { memmove(q->elements + pos + 1, q->elements + pos, (q->count - 1 - pos) * sizeof(Id)); q->elements[pos] = id; } } void queue_delete(Queue *q, int pos) { if (pos >= q->count) return; if (pos < q->count - 1) memmove(q->elements + pos, q->elements + pos + 1, (q->count - 1 - pos) * sizeof(Id)); q->left++; q->count--; } void queue_insert2(Queue *q, int pos, Id id1, Id id2) { queue_push(q, id1); /* make room */ queue_push(q, id2); /* make room */ if (pos < q->count - 2) { memmove(q->elements + pos + 2, q->elements + pos, (q->count - 2 - pos) * sizeof(Id)); q->elements[pos] = id1; q->elements[pos + 1] = id2; } } void queue_delete2(Queue *q, int pos) { if (pos >= q->count) return; if (pos == q->count - 1) { q->left++; q->count--; return; } if (pos < q->count - 2) memmove(q->elements + pos, q->elements + pos + 2, (q->count - 2 - pos) * sizeof(Id)); q->left += 2; q->count -= 2; } void queue_insertn(Queue *q, int pos, int n) { if (n <= 0) return; if (pos > q->count) pos = q->count; if (q->left < n) { int off; if (!q->alloc) queue_alloc_one(q); off = q->elements - q->alloc; q->alloc = solv_realloc2(q->alloc, off + q->count + n + EXTRA_SPACE, sizeof(Id)); q->elements = q->alloc + off; q->left = n + EXTRA_SPACE; } if (pos < q->count) memmove(q->elements + pos + n, q->elements + pos, (q->count - pos) * sizeof(Id)); memset(q->elements + pos, 0, n * sizeof(Id)); q->left -= n; q->count += n; } void queue_deleten(Queue *q, int pos, int n) { if (n <= 0 || pos >= q->count) return; if (pos + n >= q->count) n = q->count - pos; else memmove(q->elements + pos, q->elements + pos + n, (q->count - n - pos) * sizeof(Id)); q->left += n; q->count -= n; }