Exemplo n.º 1
0
 std::vector<rfnoc::block_id_t> find_blocks(const std::string &block_id_hint) const
 {
     std::vector<rfnoc::block_id_t> all_block_ids = find_blocks(block_id_hint);
     std::vector<rfnoc::block_id_t> filt_block_ids;
     for (size_t i = 0; i < all_block_ids.size(); i++) {
         if (has_block<T>(all_block_ids[i])) {
             filt_block_ids.push_back(all_block_ids[i]);
         }
     }
     return filt_block_ids;
 }
Exemplo n.º 2
0
/* create_block_tree:
 * Construct block tree by peeling nodes from block list in state.
 * When done, return root. The block list is empty
 * FIX: use largest block as root
 */
block_t *createBlocktree(Agraph_t * g, circ_state * state)
{
    block_t *bp;
    block_t *next;
    block_t *root;
    int min;
    /* int        ordercnt; */

    find_blocks(g, state);

    bp = state->bl.first;	/* if root chosen, will be first */
    /* Otherwise, just pick first as root */
    root = bp;

    /* Find node with minimum VAL value to find parent block */
    /* FIX: Should be some way to avoid search below.               */
    /* ordercnt = state->orderCount;  */
    for (bp = bp->next; bp; bp = next) {
	Agnode_t *n;
	Agnode_t *parent;
	Agnode_t *child;
	Agraph_t *subg = bp->sub_graph;

	child = n = agfstnode(subg);
	min = VAL(n);
	parent = PARENT(n);
	for (n = agnxtnode(subg, n); n; n = agnxtnode(subg, n)) {
	    if (VAL(n) < min) {
		child = n;
		min = VAL(n);
		parent = PARENT(n);
	    }
	}
	SET_PARENT(parent);
	CHILD(bp) = child;
	next = bp->next;	/* save next since list insertion destroys it */
	appendBlock(&(BLOCK(parent)->children), bp);
    }
    initBlocklist(&state->bl);	/* zero out list */
    return root;
}