| | 1 | #include "press.h" |
| | 2 | #include "blink.h" |
| | 3 | #include "config.h" |
| | 4 | |
| | 5 | static uint32_t press_next_send(press_t *s) { |
| | 6 | return s->timestamp + (1 << s->send_count) - 1; |
| | 7 | } |
| | 8 | |
| | 9 | static uint32_t press_queue_next_send(queue_t *q) { |
| | 10 | press_t press; |
| | 11 | return queue_try_peek(q, &press) ? press_next_send(&press) : UINT32_MAX; |
| | 12 | } |
| | 13 | |
| | 14 | static bool next_send_less_than(void *user_data, pheap_node_id_t a, |
| | 15 | pheap_node_id_t b) { |
| | 16 | queue_t **sleeps = (queue_t **)user_data; |
| | 17 | return press_queue_next_send(sleeps[a]) < press_queue_next_send(sleeps[b]); |
| | 18 | } |
| | 19 | |
| | 20 | static void *xcalloc(size_t nmemb, size_t size) { |
| | 21 | void *p = calloc(nmemb, size); |
| | 22 | if (p == NULL) |
| | 23 | signal_error_by_blinking(); |
| | 24 | return p; |
| | 25 | } |
| | 26 | |
| | 27 | press_pile_t *create_press_pile() { |
| | 28 | press_pile_t *pp = (press_pile_t *)xcalloc(1, sizeof(press_pile_t)); |
| | 29 | pp->presses = (queue_t *)xcalloc(config_resend_count, sizeof(queue_t)); |
| | 30 | pp->sleeps = (queue_t **)xcalloc(config_resend_count, sizeof(queue_t *)); |
| | 31 | for (int i = 0; i < config_resend_count; i++) { |
| | 32 | uint element_count = 1 << i; |
| | 33 | element_count = MAX(element_count, 32); |
| | 34 | element_count = MIN(element_count, 512); |
| | 35 | queue_init(&pp->presses[i], sizeof(press_t), element_count); |
| | 36 | } |
| | 37 | pp->sleeps_heap = |
| | 38 | ph_create(config_resend_count, next_send_less_than, pp->sleeps); |
| | 39 | if (pp->sleeps_heap == NULL) |
| | 40 | signal_error_by_blinking(); |
| | 41 | return pp; |
| | 42 | } |
| | 43 | |
| | 44 | void add_press(press_pile_t *pp, press_t *press) { |
| | 45 | int sc = press->send_count; |
| | 46 | if (sc >= config_resend_count) |
| | 47 | signal_error_by_blinking(); |
| | 48 | bool was_empty = queue_is_empty(&pp->presses[sc]); |
| | 49 | /* No error check; blithely continue if the queue was full. */ |
| | 50 | queue_try_add(&pp->presses[sc], press); |
| | 51 | if (was_empty) { |
| | 52 | pheap_node_id_t i = ph_new_node(pp->sleeps_heap); |
| | 53 | pp->sleeps[i] = &pp->presses[sc]; |
| | 54 | ph_insert_node(pp->sleeps_heap, i); |
| | 55 | } |
| | 56 | } |
| | 57 | |
| | 58 | int32_t next_scheduled_send(press_pile_t *pp) { |
| | 59 | pheap_node_id_t i = ph_peek_head(pp->sleeps_heap); |
| | 60 | if (i == 0) |
| | 61 | return -1; |
| | 62 | return press_queue_next_send(pp->sleeps[i]); |
| | 63 | } |
| | 64 | |
| | 65 | bool get_press_due_for_resend(press_pile_t *pp, uint32_t now, press_t *press) { |
| | 66 | pheap_node_id_t i = ph_peek_head(pp->sleeps_heap); |
| | 67 | if (i == 0 || press_queue_next_send(pp->sleeps[i]) > now) |
| | 68 | return false; |
| | 69 | if (!queue_try_remove(pp->sleeps[i], press)) |
| | 70 | signal_error_by_blinking(); |
| | 71 | bool became_empty = queue_is_empty(pp->sleeps[i]); |
| | 72 | if (ph_remove_head(pp->sleeps_heap, became_empty) != i) |
| | 73 | signal_error_by_blinking(); |
| | 74 | if (became_empty) { |
| | 75 | pp->sleeps[i] = NULL; |
| | 76 | } else { |
| | 77 | ph_insert_node(pp->sleeps_heap, i); |
| | 78 | } |
| | 79 | return true; |
| | 80 | } |
projects / tattlekey / blame_incremental