--- /dev/null
+/* -*- c++ -*- */
+/*
+ * Copyright 2006 Free Software Foundation, Inc.
+ *
+ * This file is part of GNU Radio.
+ *
+ * GNU Radio is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 3, or (at your option)
+ * any later version.
+ *
+ * GNU Radio is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with GNU Radio; see the file COPYING. If not, write to
+ * the Free Software Foundation, Inc., 51 Franklin Street,
+ * Boston, MA 02110-1301, USA.
+ */
+
+#ifndef _CIRCULAR_LINKED_LIST_H_
+#define _CIRCULAR_LINKED_LIST_H_
+
+#include <mld_threads.h>
+#include <stdexcept>
+
+#define __INLINE__ inline
+
+#ifndef DO_DEBUG
+#define DO_DEBUG 0
+#endif
+
+#if DO_DEBUG
+#define DEBUG(X) do{X} while(0);
+#else
+#define DEBUG(X) do{} while(0);
+#endif
+
+template <class T> class s_both;
+
+template <class T> class s_node
+{
+ typedef s_node<T>* s_node_ptr;
+
+private:
+ T d_object;
+ bool d_available;
+ s_node_ptr d_prev, d_next;
+ s_both<T>* d_both;
+
+public:
+ s_node (T l_object,
+ s_node_ptr l_prev = NULL,
+ s_node_ptr l_next = NULL)
+ : d_object (l_object), d_available (TRUE), d_prev (l_prev),
+ d_next (l_next), d_both (0) {};
+
+ __INLINE__ s_node (s_node_ptr l_prev, s_node_ptr l_next = NULL) {
+ s_node ((T) NULL, l_prev, l_next); };
+ __INLINE__ s_node () { s_node (NULL, NULL, NULL); };
+ __INLINE__ ~s_node () {};
+
+ void remove () {
+ d_prev->next (d_next);
+ d_next->prev (d_prev);
+ d_prev = d_next = this;
+ };
+
+ void insert_before (s_node_ptr l_next) {
+ if (l_next) {
+ s_node_ptr l_prev = l_next->prev ();
+ d_next = l_next;
+ d_prev = l_prev;
+ l_prev->next (this);
+ l_next->prev (this);
+ } else
+ d_next = d_prev = this;
+ };
+
+ void insert_after (s_node_ptr l_prev) {
+ if (l_prev) {
+ s_node_ptr l_next = l_prev->next ();
+ d_prev = l_prev;
+ d_next = l_next;
+ l_next->prev (this);
+ l_prev->next (this);
+ } else
+ d_prev = d_next = this;
+ };
+
+ __INLINE__ T object () { return (d_object); };
+ __INLINE__ void object (T l_object) { d_object = l_object; };
+ __INLINE__ bool available () { return (d_available); };
+ __INLINE__ void set_available () { d_available = TRUE; };
+ __INLINE__ void set_available (bool l_avail) { d_available = l_avail; };
+ __INLINE__ void set_not_available () { d_available = FALSE; };
+ __INLINE__ s_node_ptr next () { return (d_next); };
+ __INLINE__ s_node_ptr prev () { return (d_prev); };
+ __INLINE__ s_both<T>* both () { return (d_both); };
+ __INLINE__ void next (s_node_ptr l_next) { d_next = l_next; };
+ __INLINE__ void prev (s_node_ptr l_prev) { d_prev = l_prev; };
+ __INLINE__ void both (s_both<T>* l_both) { d_both = l_both; };
+};
+
+template <class T> class circular_linked_list {
+ typedef s_node<T>* s_node_ptr;
+
+private:
+ s_node_ptr d_current, d_iterate, d_available, d_inUse;
+ UInt32 d_n_nodes, d_n_used;
+ mld_mutex_ptr d_internal;
+ mld_condition_ptr d_ioBlock;
+
+public:
+ circular_linked_list (UInt32 n_nodes) {
+ if (n_nodes == 0)
+ throw std::runtime_error ("circular_linked_list(): n_nodes == 0");
+
+ d_iterate = NULL;
+ d_n_nodes = n_nodes;
+ d_n_used = 0;
+ s_node_ptr l_prev, l_next;
+ d_inUse = d_current = l_next = l_prev = NULL;
+
+ l_prev = new s_node<T> ();
+ l_prev->set_available ();
+ l_prev->next (l_prev);
+ l_prev->prev (l_prev);
+ if (n_nodes > 1) {
+ l_next = new s_node<T> (l_prev, l_prev);
+ l_next->set_available ();
+ l_next->next (l_prev);
+ l_next->prev (l_prev);
+ l_prev->next (l_next);
+ l_prev->prev (l_next);
+ if (n_nodes > 2) {
+ UInt32 n = n_nodes - 2;
+ while (n-- > 0) {
+ d_current = new s_node<T> (l_prev, l_next);
+ d_current->set_available ();
+ d_current->prev (l_prev);
+ d_current->next (l_next);
+ l_prev->next (d_current);
+ l_next->prev (d_current);
+ l_next = d_current;
+ d_current = NULL;
+ }
+ }
+ }
+ d_available = d_current = l_prev;
+ d_ioBlock = new mld_condition ();
+ d_internal = d_ioBlock->mutex ();
+ };
+
+ ~circular_linked_list () {
+ iterate_start ();
+ s_node_ptr l_node = iterate_next ();
+ while (l_node) {
+ delete l_node;
+ l_node = iterate_next ();
+ }
+ delete d_ioBlock;
+ d_ioBlock = NULL;
+ d_available = d_inUse = d_iterate = d_current = NULL;
+ d_n_used = d_n_nodes = 0;
+ };
+
+ s_node_ptr find_next_available_node () {
+ d_internal->lock ();
+// find an available node
+ s_node_ptr l_node = d_available;
+ DEBUG (fprintf (stderr, "w "););
+ while (! l_node) {
+ DEBUG (fprintf (stderr, "x\n"););
+ // the ioBlock condition will automatically unlock() d_internal
+ d_ioBlock->wait ();
+ // and lock() is here
+ DEBUG (fprintf (stderr, "y\n"););
+ l_node = d_available;
+ }
+ DEBUG (fprintf (stderr, "::f_n_a_n: #u = %ld, node = %p\n",
+ num_used(), l_node););
+// remove this one from the current available list
+ if (num_available () == 1) {
+// last one, just set available to NULL
+ d_available = NULL;
+ } else
+ d_available = l_node->next ();
+ l_node->remove ();
+// add is to the inUse list
+ if (! d_inUse)
+ d_inUse = l_node;
+ else
+ l_node->insert_before (d_inUse);
+ d_n_used++;
+ l_node->set_not_available ();
+ d_internal->unlock ();
+ return (l_node);
+ };
+
+ void make_node_available (s_node_ptr l_node) {
+ if (!l_node) return;
+ d_internal->lock ();
+ DEBUG (fprintf (stderr, "::m_n_a: #u = %ld, node = %p\n",
+ num_used(), l_node););
+// remove this node from the inUse list
+ if (num_used () == 1) {
+// last one, just set inUse to NULL
+ d_inUse = NULL;
+ } else
+ d_inUse = l_node->next ();
+ l_node->remove ();
+// add this node to the available list
+ if (! d_available)
+ d_available = l_node;
+ else
+ l_node->insert_before (d_available);
+ d_n_used--;
+
+ DEBUG (fprintf (stderr, "s%ld ", d_n_used););
+// signal the condition when new data arrives
+ d_ioBlock->signal ();
+ DEBUG (fprintf (stderr, "t "););
+
+// unlock the mutex for thread safety
+ d_internal->unlock ();
+ };
+
+ __INLINE__ void iterate_start () { d_iterate = d_current; };
+
+ s_node_ptr iterate_next () {
+#if 0
+// lock the mutex for thread safety
+ d_internal->lock ();
+#endif
+ s_node_ptr l_this = NULL;
+ if (d_iterate) {
+ l_this = d_iterate;
+ d_iterate = d_iterate->next ();
+ if (d_iterate == d_current)
+ d_iterate = NULL;
+ }
+#if 0
+// unlock the mutex for thread safety
+ d_internal->unlock ();
+#endif
+ return (l_this);
+ };
+
+ __INLINE__ T object () { return (d_current->d_object); };
+ __INLINE__ void object (T l_object) { d_current->d_object = l_object; };
+ __INLINE__ UInt32 num_nodes () { return (d_n_nodes); };
+ __INLINE__ UInt32 num_used () { return (d_n_used); };
+ __INLINE__ void num_used (UInt32 l_n_used) { d_n_used = l_n_used; };
+ __INLINE__ UInt32 num_available () { return (d_n_nodes - d_n_used); };
+ __INLINE__ void num_used_inc (void) {
+ if (d_n_used < d_n_nodes) ++d_n_used;
+ };
+ __INLINE__ void num_used_dec (void) {
+ if (d_n_used != 0) --d_n_used;
+// signal the condition that new data has arrived
+ d_ioBlock->signal ();
+ };
+ __INLINE__ bool in_use () { return (d_n_used != 0); };
+};
+
+template <class T> class s_both
+{
+private:
+ s_node<T>* d_node;
+ void* d_this;
+public:
+ __INLINE__ s_both (s_node<T>* l_node, void* l_this)
+ : d_node (l_node), d_this (l_this) {};
+ __INLINE__ ~s_both () {};
+ __INLINE__ s_node<T>* node () { return (d_node); };
+ __INLINE__ void* This () { return (d_this); };
+ __INLINE__ void set (s_node<T>* l_node, void* l_this) {
+ d_node = l_node; d_this = l_this;};
+};
+
+#endif /* _CIRCULAR_LINKED_LIST_H_ */
projects / debian / gnuradio / blobdiff