C++ (Cpp) migrate_objectの例

プログラミング言語: C++ (Cpp)

メソッド/関数: migrate_object

hotexamples.comのコード掲載数: 2

C++ (Cpp) migrate_object - 2件のコード例が見つかりました。すべてオープンソースプロジェクトから抽出されたC++ (Cpp)のmigrate_objectの実例で、最も評価が高いものを厳選しています。コード例の評価を行っていただくことで、より質の高いコード例が表示されるようになります。

コード例 #1

ファイルを表示

ファイル: transfer.c プロジェクト: scality/Cloud-Migration-Tool

/*
 * Main migration loop :
 *
 * Loops on every entry and starts the transfer of each.
 */
static void*
migrate_worker_loop(struct cldmig_info *tinfo)
{
    int                         found = 0;
    struct file_transfer_state  cur_filestate = CLOUDMIG_FILESTATE_INITIALIZER;
    size_t                      nbfailures = 0;

    // The call allocates the buffer for the bucket, so we must free it
    // The same goes for the cur_filestate's name field.
    pthread_mutex_lock(&tinfo->lock);
    while (tinfo->stop == false
           && (found = status_store_next_incomplete_entry(tinfo->ctx, &cur_filestate)) == 1)
    {
        /*
         * Set the thread's internal data to the current file while we're locked
         * (will stay as is until next file is set)
         */
        tinfo->fsize = cur_filestate.fixed.size;
        tinfo->fdone = cur_filestate.fixed.offset;
        tinfo->fpath = cur_filestate.obj_path;

        pthread_mutex_unlock(&tinfo->lock);
        if (migrate_object(tinfo, &cur_filestate))
            ++nbfailures;

        status_store_release_entry(&cur_filestate);
        pthread_mutex_lock(&tinfo->lock);
    }

    clear_list(&tinfo->infolist);

    // Reset thread info for viewer to see inactive thread.
    tinfo->fsize = 0;
    tinfo->fdone = 0;
    tinfo->fpath = NULL;

    pthread_mutex_unlock(&tinfo->lock);

    /*
     * Found will equal -1 only in case of fatal status error.
     * It shall equal either 1 on program interrupt, or 0 on migration end.
     */
    return found != -1 ? (void*)nbfailures : (void*)-1;
}

コード例 #2

ファイルを表示

void garbage_collect(long min_space) {
    char *p;
    object **gcp;
    object *op;
    long i, max, count;
    int old_interrupt;
    
    if (*will_gc_hook) (*will_gc_hook)();
    old_interrupt = enable_interrupts(0);
    /* switch heap space */
    gc_count++;
    /*    printf("[GC]\n"); */
    heap += heap_size;
    if (heap >= max_heap)
	heap = min_memory;
    heap_pointer = heap;
    heap_end = heap + heap_size;
    /* migrate objects */
    count = gc_root_stack_pointer - gc_root_stack_begin;
    migrate_object(gc_root_stack_buffer);
    if (FORWARDED_P(gc_root_stack_buffer)) gc_root_stack_buffer = FORWARDED_POINTER(gc_root_stack_buffer);
    gc_root_stack_begin = (object **)BUFFER_DATA(gc_root_stack_buffer);
    gc_root_stack_end = gc_root_stack_begin + GC_ROOT_STACK_MAX;
    gc_root_stack_pointer = gc_root_stack_begin + count;
    gcp = gc_root_stack_begin;
    for (i=0; i<count; i++)
	migrate_object(*gcp[i]);
    for (op = sp; op < stack_top; op++)
	migrate_object(*op);
    /* eliminate forwarding pointers */
    gcp = gc_root_stack_begin;
    for (i=0; i<count; i++) {
	object o = *gcp[i];
	if (FORWARDED_P(o))
	    *gcp[i] = FORWARDED_POINTER(o);
    }
    for (op = sp; op < stack_top; op++) {
	object o = *op;
	if (FORWARDED_P(o))
	    *op = FORWARDED_POINTER(o);
    }
    p = heap;
    while (p < heap_pointer) {
	object *q, obj, o;
	obj = (object)p;
	switch (POINTER_TYPE(obj)) {
	case PAIR_TYPE:
	    o = CAR(obj); if (FORWARDED_P(o)) CAR(obj) = FORWARDED_POINTER(o);
	    o = CDR(obj); if (FORWARDED_P(o)) CDR(obj) = FORWARDED_POINTER(o);
	    break;
	case WEAK_TYPE:
	    if (FORWARDED_P(WEAK_VALUE(obj))) {
		WEAK_BOUND(obj) = 1;
	    } else {
		WEAK_BOUND(obj) = 0;
		migrate_object(WEAK_VALUE(obj));
	    }
	    o = WEAK_VALUE(obj); if (FORWARDED_P(o)) WEAK_VALUE(obj) = FORWARDED_POINTER(o);
	    break;
	case SYMBOL_TYPE:
	    o = SYMBOL_VALUE(obj); if (FORWARDED_P(o)) SYMBOL_VALUE(obj) = FORWARDED_POINTER(o);
	    break;
	case VECTOR_TYPE:
	    max = VECTOR_LENGTH(obj);
	    q = VECTOR_ELEMENTS(obj);
	    for (i=0; i<max; i++) {
		o = q[i]; if (FORWARDED_P(o)) q[i] = FORWARDED_POINTER(o);
	    }
	    o = VECTOR_TAG(obj); if (FORWARDED_P(o)) VECTOR_TAG(obj) = FORWARDED_POINTER(o);
	    break;
	case PROCEDURE_TYPE:
	    o = PROC_MODULE(obj); if (FORWARDED_P(o)) PROC_MODULE(obj) = FORWARDED_POINTER(o);
	    break;
	case FRAME_TYPE:
	    o = FRAME_PREVIOUS(obj); if (FORWARDED_P(o)) FRAME_PREVIOUS(obj) = FORWARDED_POINTER(o);
	    o = FRAME_ENV(obj); if (FORWARDED_P(o)) FRAME_ENV(obj) = FORWARDED_POINTER(o);
	    max = (POINTER_LENGTH(obj) - sizeof(struct frame_heap_structure))/sizeof(long);
	    q = FRAME_ELEMENTS(obj);
	    for (i=0; i<max; i++) {
		o = q[i]; if (FORWARDED_P(o)) q[i] = FORWARDED_POINTER(o);
	    }
	    break;
	case CLOSURE_TYPE:
	    o = CLOSURE_PROC(obj); if (FORWARDED_P(o)) CLOSURE_PROC(obj) = FORWARDED_POINTER(o);
	    o = CLOSURE_ENV(obj); if (FORWARDED_P(o)) CLOSURE_ENV(obj) = FORWARDED_POINTER(o);
	    break;
	case CONTINUATION_TYPE:
	    o = CONTINUATION_FRAME(obj); if (FORWARDED_P(o)) CONTINUATION_FRAME(obj) = FORWARDED_POINTER(o);
	    max = CONTINUATION_STACKSIZE(obj);
	    q = CONTINUATION_STACK(obj);
	    for (i=0; i<max; i++) {
		o = q[i]; if (FORWARDED_P(o)) q[i] = FORWARDED_POINTER(o);
	    }
	    break;
	case SYMBOLTABLE_TYPE:
	    o = SYMBOLTABLE_MAPPINGS(obj); if (FORWARDED_P(o)) SYMBOLTABLE_MAPPINGS(obj) = FORWARDED_POINTER(o);
	    break;
	case PORT_TYPE:
	    o = PORT_BUFFER(obj); if (FORWARDED_P(o)) PORT_BUFFER(obj) = FORWARDED_POINTER(o);
	    break;
    default:
        fatal_error("Unknown pointer type: heap.c#garbage_collect(): %p\n", obj);
        return;
    }
	p += POINTER_LENGTH(obj);
    }
    /* finalization of ports */
    close_stale_ports();
    fix_runtime_pointers();
    /* Finish up */
    enable_interrupts(old_interrupt);
    i = heap_size - (heap_pointer - heap);
    if (i < min_space)
	fatal_error("out of heap space: %d\n", i);
    if (*did_gc_hook) (*did_gc_hook)();
}