feat(cat-heap): initial implementation

pull/7/head
Jef Roosens 2023-03-07 12:43:31 +01:00 committed by Jef Roosens
parent 1c563d8421
commit 8e076f8543
7 changed files with 183 additions and 0 deletions

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@ -0,0 +1,30 @@
#ifndef VIETER_CAT_HEAP
#define VIETER_CAT_HEAP
#include <stdint.h>
typedef struct vieter_cat_heap vieter_cat_heap;
typedef enum vieter_cat_heap_error {
vieter_cat_heap_ok = 0,
vieter_cat_heap_arch_empty = 1,
vieter_cat_heap_arch_not_found = 2
} vieter_cat_heap_error;
vieter_cat_heap *vieter_cat_heap_init();
void vieter_cat_heap_free(vieter_cat_heap **ptp);
uint64_t vieter_cat_heap_size(vieter_cat_heap *cheap);
vieter_cat_heap_error vieter_cat_heap_insert(vieter_cat_heap *cheap,
char *category, uint64_t key,
void *data);
vieter_cat_heap_error vieter_cat_heap_pop(void **out, vieter_cat_heap *cheap,
char *category);
vieter_cat_heap_error vieter_cat_heap_peek(void **out, vieter_cat_heap *cheap,
char *category);
#endif

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@ -123,5 +123,22 @@ vieter_job_queue_remove(vieter_job **out, vieter_job_queue *queue, uint64_t id);
*/ */
vieter_job_queue_error vieter_job_queue_fail(vieter_job_queue *queue, vieter_job_queue_error vieter_job_queue_fail(vieter_job_queue *queue,
uint64_t id, char *report_message); uint64_t id, char *report_message);
/*
* Acquire a read lock on the job queue. Return value is the result of
* pthread_rwlock_rdlock.
*/
int vieter_job_queue_rlock(vieter_job_queue *job_queue);
/*
* Acquire a write lock on the job queue. Return value is the result of
* pthread_rwlock_wrlock.
*/
int vieter_job_queue_wlock(vieter_job_queue *job_queue);
/*
* Unlock the lock after having acquired it. Return value is the result of
* pthread_rwlock_unlock.
*/
int vieter_job_queue_unlock(vieter_job_queue *job_queue);
#endif #endif

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@ -0,0 +1,4 @@
A category heap consists of a collection of heaps, with each heap representing
a certain category. In practice, this category would be an architecture (e.g.
`x86_64`). This is used by the job queue to have a queue for each architecture
for a given state.

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@ -0,0 +1,107 @@
#include "vieter_cat_heap_internal.h"
vieter_cat_heap *vieter_cat_heap_init() {
return calloc(1, sizeof(vieter_cat_heap));
}
void vieter_cat_heap_free(vieter_cat_heap **ptp) {
vieter_cat_heap *cheap = *ptp;
if (cheap->cat_count > 0) {
for (uint64_t i = 0; i < cheap->cat_count; i++) {
free(cheap->categories[i]);
vieter_heap_free(cheap->heaps[i]);
}
free(cheap->categories);
free(cheap->heaps);
}
free(cheap);
*ptp = NULL;
}
uint64_t vieter_cat_heap_size(vieter_cat_heap *cheap) {
uint64_t total = 0;
for (uint64_t i = 0; i < cheap->cat_count; i++) {
total += vieter_heap_size(cheap->heaps[i]);
}
return total;
}
vieter_cat_heap_error vieter_cat_heap_insert(vieter_cat_heap *cheap,
char *category, uint64_t key,
void *data) {
uint64_t i = 0;
// For now, we do a linear search through all categories. This is more than
// fast enough for most usecases.
while (i < cheap->cat_count && strcmp(category, cheap->categories[i]) != 0) {
i++;
}
if (i == cheap->cat_count) {
if (cheap->cat_count == 0) {
cheap->categories = malloc(sizeof(char *));
cheap->heaps = malloc(sizeof(vieter_heap *));
} else {
cheap->categories =
realloc(cheap->categories, sizeof(char *) * (cheap->cat_count + 1));
cheap->heaps =
realloc(cheap->heaps, sizeof(vieter_heap *) * (cheap->cat_count + 1));
}
cheap->cat_count++;
cheap->categories[i] = strdup(category);
cheap->heaps[i] = vieter_heap_init();
}
vieter_heap_insert(cheap->heaps[i], key, data);
return vieter_cat_heap_ok;
}
vieter_cat_heap_error vieter_cat_heap_pop(void **out, vieter_cat_heap *cheap,
char *category) {
uint64_t i = 0;
while (i < cheap->cat_count && strcmp(category, cheap->categories[i]) != 0) {
i++;
}
if (i == cheap->cat_count) {
return vieter_cat_heap_arch_not_found;
}
vieter_heap_error res = vieter_heap_pop(out, cheap->heaps[i]);
if (res != vieter_heap_ok) {
return vieter_cat_heap_arch_empty;
}
return vieter_cat_heap_ok;
}
vieter_cat_heap_error vieter_cat_heap_peek(void **out, vieter_cat_heap *cheap,
char *category) {
uint64_t i = 0;
while (i < cheap->cat_count && strcmp(category, cheap->categories[i]) != 0) {
i++;
}
if (i == cheap->cat_count) {
return vieter_cat_heap_arch_not_found;
}
vieter_heap_error res = vieter_heap_peek(out, cheap->heaps[i]);
if (res != vieter_heap_ok) {
return vieter_cat_heap_arch_empty;
}
return vieter_cat_heap_ok;
}

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@ -0,0 +1,10 @@
#include "vieter_cat_heap.h"
#include "vieter_heap.h"
#include <stdlib.h>
#include <string.h>
struct vieter_cat_heap {
uint64_t cat_count;
char **categories;
vieter_heap **heaps;
};

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@ -63,6 +63,7 @@ vieter_job_queue_error vieter_job_queue_insert(vieter_job_queue *queue,
vieter_job_queue_error vieter_job_queue_pop(vieter_job **out, vieter_job_queue_error vieter_job_queue_pop(vieter_job **out,
vieter_job_queue *queue, vieter_job_queue *queue,
vieter_job_state state) { vieter_job_state state) {
vieter_heap_error res = vieter_heap_pop((void **)out, queue->heaps[state]); vieter_heap_error res = vieter_heap_pop((void **)out, queue->heaps[state]);
if (res != vieter_heap_ok) { if (res != vieter_heap_ok) {
@ -151,3 +152,15 @@ vieter_job_queue_error vieter_job_queue_fail(vieter_job_queue *queue,
return vieter_job_queue_ok; return vieter_job_queue_ok;
} }
int vieter_job_queue_rlock(vieter_job_queue *job_queue) {
return pthread_rwlock_rdlock(&job_queue->lock);
}
int vieter_job_queue_wlock(vieter_job_queue *job_queue) {
return pthread_rwlock_wrlock(&job_queue->lock);
}
int vieter_job_queue_unlock(vieter_job_queue *job_queue) {
return pthread_rwlock_unlock(&job_queue->lock);
}

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@ -4,10 +4,12 @@
#include "vieter_heap.h" #include "vieter_heap.h"
#include "vieter_job_queue.h" #include "vieter_job_queue.h"
#include "vieter_tree.h" #include "vieter_tree.h"
#include <pthread.h>
struct vieter_job_queue { struct vieter_job_queue {
vieter_tree *tree; vieter_tree *tree;
vieter_heap *heaps[VIETER_JOB_STATES]; vieter_heap *heaps[VIETER_JOB_STATES];
pthread_rwlock_t lock;
}; };
#endif #endif