Diff to HTML by rtfpessoa

pthreads/prod_cons_unbound/{given → src}/queue.c RENAMED Viewed

@@ -1,79 +1,95 @@
 // Copyright 2021 Jeisson Hidalgo-Cespedes <jeisson.hidalgo@ucr.ac.cr> CC-BY-4
 #include <assert.h>
 #include <stdlib.h>
 #include "queue.h"
-void queue_remove_first(queue_t* queue);
 int queue_init(queue_t* queue) {
   assert(queue);
   queue->head = NULL;
   queue->tail = NULL;
-  return EXIT_SUCCESS;
 }
 int queue_destroy(queue_t* queue) {
   queue_clear(queue);
-  return EXIT_SUCCESS;
 }
 bool queue_is_empty(queue_t* queue) {
   assert(queue);
   return queue->head == NULL;
 }
 int queue_enqueue(queue_t* queue, const size_t data) {
   assert(queue);
   int error = EXIT_SUCCESS;
   queue_node_t* new_node = (queue_node_t*) calloc(1, sizeof(queue_node_t));
   if (new_node) {
     new_node->data = data;
     if (queue->tail) {
       queue->tail = queue->tail->next = new_node;
     } else {
       queue->head = queue->tail = new_node;
     }
   } else {
     error = EXIT_FAILURE;
   }
   return error;
 }
 int queue_dequeue(queue_t* queue, size_t* data) {
   assert(queue);
   int error = 0;
-  if (!queue_is_empty(queue)) {
     if (data) {
       *data = queue->head->data;
     }
-    queue_remove_first(queue);
   } else {
     error = EXIT_FAILURE;
   }
   return error;
 }
-void queue_remove_first(queue_t* queue) {
   assert(queue);
-  assert(!queue_is_empty(queue));
   queue_node_t* node = queue->head;
   queue->head = queue->head->next;
   free(node);
   if (queue->head == NULL) {
     queue->tail = NULL;
   }
 }
 void queue_clear(queue_t* queue) {
   assert(queue);
-  while (!queue_is_empty(queue)) {
-    queue_remove_first(queue);
   }
 }

 // Copyright 2021 Jeisson Hidalgo-Cespedes <jeisson.hidalgo@ucr.ac.cr> CC-BY-4
 #include <assert.h>
 #include <stdlib.h>
 #include "queue.h"
+void queue_remove_first_unsafe(queue_t* queue);
+bool queue_is_empty_unsafe(queue_t* queue);
 int queue_init(queue_t* queue) {
   assert(queue);
+  int error = pthread_mutex_init(&queue->can_access_queue, /*attr*/ NULL);
   queue->head = NULL;
   queue->tail = NULL;
+  return error;
 }
 int queue_destroy(queue_t* queue) {
   queue_clear(queue);
+  return pthread_mutex_destroy(&queue->can_access_queue);
 }
 bool queue_is_empty(queue_t* queue) {
   assert(queue);
+  pthread_mutex_lock(&queue->can_access_queue);
+  bool result = queue->head == NULL;
+  pthread_mutex_unlock(&queue->can_access_queue);
+  return result;
+}
+bool queue_is_empty_unsafe(queue_t* queue) {
+  assert(queue);
   return queue->head == NULL;
 }
 int queue_enqueue(queue_t* queue, const size_t data) {
   assert(queue);
   int error = EXIT_SUCCESS;
   queue_node_t* new_node = (queue_node_t*) calloc(1, sizeof(queue_node_t));
   if (new_node) {
     new_node->data = data;
+    pthread_mutex_lock(&queue->can_access_queue);
     if (queue->tail) {
       queue->tail = queue->tail->next = new_node;
     } else {
       queue->head = queue->tail = new_node;
     }
+    pthread_mutex_unlock(&queue->can_access_queue);
   } else {
     error = EXIT_FAILURE;
   }
   return error;
 }
 int queue_dequeue(queue_t* queue, size_t* data) {
   assert(queue);
   int error = 0;
+  pthread_mutex_lock(&queue->can_access_queue);
+  if (!queue_is_empty_unsafe(queue)) {
     if (data) {
       *data = queue->head->data;
     }
+    queue_remove_first_unsafe(queue);
   } else {
     error = EXIT_FAILURE;
   }
+  pthread_mutex_unlock(&queue->can_access_queue);
   return error;
 }
+void queue_remove_first_unsafe(queue_t* queue) {
   assert(queue);
+  assert(!queue_is_empty_unsafe(queue));
   queue_node_t* node = queue->head;
   queue->head = queue->head->next;
   free(node);
   if (queue->head == NULL) {
     queue->tail = NULL;
   }
 }
 void queue_clear(queue_t* queue) {
   assert(queue);
+  pthread_mutex_lock(&queue->can_access_queue);
+  while (!queue_is_empty_unsafe(queue)) {
+    queue_remove_first_unsafe(queue);
   }
+  pthread_mutex_unlock(&queue->can_access_queue);
 }