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#if defined CONFIG_TIMEOUT_AVL_TREE || \

#if defined CONFIG TIMEOUT_AVL_TREE

#endif

        /*

         * Basetime is encreased by missed clock ticks + 1 !!

         */

        /*

         * Check whether first timeout in list time out. If so perform callback function and try

         * next timeout (more timeouts can have same timeout).

         */

            /*

             * Delete first node in the list and repair tree structure in

             * constant time.

             */

#if defined CONFIG TIMEOUT_AVL_TREE

            avltree_delete_min(&CPU->timeout_active_tree);

#elif defined CONFIG_TIMEOUT_EXTAVL_TREE

#endif

#elif defined CONFIG_TIMEOUT_EXTAVLREL_TREE

/** Clock routine

 *

 * Clock routine executed from clock interrupt handler

 * (assuming interrupts_disable()'d). Runs expired timeouts

 * and preemptive scheduling.

 *

 */

void clock(void)

{

    extavltree_node_t *expnode;

    timeout_t *h;

    timeout_handler_t f;

    void *arg;

    count_t missed_clock_ticks = CPU->missed_clock_ticks;

    int i;

    /*

     * To avoid lock ordering problems,

     * run all expired timeouts as you visit them.

     */

    for (i = 0; i <= missed_clock_ticks; i++) {

        clock_update_counters();

        spinlock_lock(&CPU->timeoutlock);

        /*

         * Check whether first timeout in list time out. If so perform callback function and try

         * next timeout (more timeouts can have same timeout).

         */

        while ((expnode = CPU->timeout_active_tree.head.next) != &(CPU->timeout_active_tree.head)) {

            h = list_get_instance(l, timeout_t, link);

            spinlock_lock(&h->lock);

            if (expnode->key != 0) {

                expnode->key--;

                spinlock_unlock(&h->lock);

                break;

            }

            /*

             * Delete first node in the list and repair tree structure in

             * constant time. Be careful of expnode's key, it must be 0!

             */

            extavltree_delete_min(&CPU->timeout_active_tree);

            f = h->handler;

            arg = h->arg;

            timeout_reinitialize(h);

            spinlock_unlock(&h->lock); 

            spinlock_unlock(&CPU->timeoutlock);

            f(arg);

            spinlock_lock(&CPU->timeoutlock);

        }

        spinlock_unlock(&CPU->timeoutlock);

    }

    CPU->missed_clock_ticks = 0;

    /*

     * Do CPU usage accounting and find out whether to preempt THREAD.

     */

    if (THREAD) {

        uint64_t ticks;

        spinlock_lock(&CPU->lock);

        CPU->needs_relink += 1 + missed_clock_ticks;

        spinlock_unlock(&CPU->lock);   

        spinlock_lock(&THREAD->lock);

        if ((ticks = THREAD->ticks)) {

            if (ticks >= 1 + missed_clock_ticks)

                THREAD->ticks -= 1 + missed_clock_ticks;

            else

                THREAD->ticks = 0;

        }

        spinlock_unlock(&THREAD->lock);

        if (!ticks && !PREEMPTION_DISABLED) {

            scheduler();

        }

    }

}