import sys from collections import deque, defaultdict from itertools import ( accumulate, product, permutations, combinations, combinations_with_replacement, ) import math from bisect import bisect_left, insort_left, bisect_right, insort_right from pprint import pprint from heapq import heapify, heappop, heappush import string # 小文字アルファベットのリスト alph_s = list(string.ascii_lowercase) # 大文字アルファベットのリスト alph_l = list(string.ascii_uppercase) # product : bit全探索 product(range(2),repeat=n) # permutations : 順列全探索 # combinations : 組み合わせ(重複無し) # combinations_with_replacement : 組み合わせ(重複可) # from sortedcontainers import SortedSet, SortedList, SortedDict sys.setrecursionlimit(10**7) around4 = ((-1, 0), (1, 0), (0, -1), (0, 1)) # 上下左右 around8 = ((-1, -1), (-1, 0), (-1, 1), (0, -1), (0, 1), (1, -1), (1, 0), (1, 1)) inf = float("inf") mod = 998244353 input = lambda: sys.stdin.readline().rstrip() P = lambda *x: print(*x) PY = lambda: print("Yes") PN = lambda: print("No") II = lambda: int(input()) MII = lambda: map(int, input().split()) LMII = lambda: list(map(int, input().split())) def dlist(*l, fill=0): if len(l) == 1: return [fill] * l[0] ll = l[1:] return [dlist(*ll, fill=fill) for _ in range(l[0])] # 入力 def Input(): global N, A, B, St, A_list, B_list St = 5 * 10**17 N = II() A = [0] * N B = [0] * N for i in range(N): A[i], B[i] = MII() A_list = A[:] B_list = B[:] A = tuple(A) B = tuple(B) def solve(): ans = beam() A_n, B_n = get_A_B(ans) tmp, _ = get_ans(A_n, B_n, ans) ans = [(i + 1, j + 1) for i, j in ans] print(len(ans)) for i in tmp: ans.append(i) # A_n = A_list[:] # B_n = B_list[:] # for i, j in ans: # A_n[i - 1], A_n[j - 1] = (A_n[i - 1] + A_n[j - 1]) // 2, ( # A_n[i - 1] + A_n[j - 1] # ) // 2 # B_n[i - 1], B_n[j - 1] = (B_n[i - 1] + B_n[j - 1]) // 2, ( # B_n[i - 1] + B_n[j - 1] # ) // 2 # print(max(abs(St - A_n[0]) // 1000000, abs(St - B_n[0]) // 1000000)) return ans def get_A_B(ans): A_n = A_list[:] B_n = B_list[:] # print(ans) for i, j in ans: A_n[i], A_n[j] = A_n[i] // 2 + A_n[j] // 2, A_n[i] // 2 + A_n[j] // 2 B_n[i], B_n[j] = B_n[i] // 2 + B_n[j] // 2, B_n[i] // 2 + B_n[j] // 2 return A_n, B_n def get_ans(A, B, ans_prv): ans_list = [] A_n = A[:] B_n = B[:] for _ in range(50 - len(ans_prv)): score = max(abs(St - A_n[0]), abs(St - B_n[0])) tmp = score ans = None for j in range(1, 45): a, b = A_n[0] // 2 + A_n[j] // 2, B_n[0] // 2 + B_n[j] // 2 if max(abs(St - a), abs(St - b)) < tmp: tmp = max(abs(St - a), abs(St - b)) ans = j if ans: ans_list.append([1, ans + 1]) A_n[0], A_n[ans] = A_n[0] // 2 + A_n[ans] // 2, A_n[0] // 2 + A_n[ans] // 2 B_n[0], B_n[ans] = B_n[0] // 2 + B_n[ans] // 2, B_n[0] // 2 + B_n[ans] // 2 else: break return ans_list, max(abs(St - a), abs(St - b)) def beam(): depth = 10 width = 10 heap = [] heap.append((10**18, [])) heap = sorted(heap, key=lambda x: x[0])[:width] for _ in range(depth): new_heap = [] while heap: score, ans = heap.pop() A_n, B_n = get_A_B(ans) for i in range(0, 45): for j in range(i + 1, 45): if A_n[i] == A_n[j] and B_n[i] == B_n[j]: continue ans_n = ans[:] ans_n.append((i, j)) A_nn, B_nn = A_n[:], B_n[:] A_nn[i], A_nn[j] = ( A_nn[i] // 2 + A_nn[j] // 2, A_nn[i] // 2 + A_nn[j] // 2, ) B_nn[i], B_nn[j] = ( B_nn[i] // 2 + B_nn[j] // 2, B_nn[i] // 2 + B_nn[j] // 2, ) _, tmp = get_ans(A_nn, B_nn, ans_n) if tmp < score: new_heap.append((tmp, ans_n)) if len(new_heap) == 0: break heap = sorted(new_heap, key=lambda x: x[0])[:width] # print(heap) _, ans = heap[0] return ans # 出力 def Output(ans): print(len(ans)) for i in ans: print(*i) def main(): Input() Output(solve()) if __name__ == "__main__": main()