// request data [0,len) // return some position p where [p,len) need to be filled // (p >= len if nothing needs to be filled) // java: simulate pointer using single-element array int get_data(int index, float[][] data, int len) { head_t h = head[index]; if(h.len > 0) lru_delete(h); int more = len - h.len; if(more > 0) { // free old space while(size < more) { head_t old = lru_head.next; lru_delete(old); size += old.len; old.data = null; old.len = 0; } // allocate new space float[] new_data = new float[len]; if(h.data != null) System.arraycopy(h.data,0,new_data,0,h.len); h.data = new_data; size -= more; do {int _=h.len; h.len=len; len=_;} while(false); } lru_insert(h); data[0] = h.data; return len; }
void swap_index(int i, int j) { if(i==j) return; if(head[i].len > 0) lru_delete(head[i]); if(head[j].len > 0) lru_delete(head[j]); do {float[] _=head[i].data; head[i].data=head[j].data; head[j].data=_;} while(false); do {int _=head[i].len; head[i].len=head[j].len; head[j].len=_;} while(false); if(head[i].len > 0) lru_insert(head[i]); if(head[j].len > 0) lru_insert(head[j]); if(i>j) do {int _=i; i=j; j=_;} while(false); for(head_t h = lru_head.next; h!=lru_head; h=h.next) { if(h.len > i) { if(h.len > j) do {float _=h.data[i]; h.data[i]=h.data[j]; h.data[j]=_;} while(false); else { // give up lru_delete(h); size += h.len; h.data = null; h.len = 0; } } } }