import sys input = lambda :sys.stdin.readline()[:-1] ni = lambda :int(input()) na = lambda :list(map(int,input().split())) yes = lambda :print("yes");Yes = lambda :print("Yes");YES = lambda : print("YES") no = lambda :print("no");No = lambda :print("No");NO = lambda : print("NO") ####################################################################### inf = 10**18 class SegmentTree: # 初期化処理 # f : SegmentTreeにのせるモノイド # default : fに対する単位元 def __init__(self, size, f=lambda x,y : min(x,y), default=inf): self.size = 2**(size-1).bit_length() # 簡単のため要素数Nを2冪にする self.default = default self.dat = [default]*(self.size*2) # 要素を単位元で初期化 self.f = f def update(self, i, x): i += self.size self.dat[i] = x while i > 1: i >>= 1 self.dat[i] = self.f(self.dat[i*2], self.dat[i*2+1]) def updatef(self, i, x): i += self.size self.dat[i] = self.f(self.dat[i],x) while i > 1: i >>= 1 self.dat[i] = self.f(self.dat[i*2], self.dat[i*2+1]) def query(self, l, r): l += self.size r += self.size lres, rres = self.default, self.default while l < r: if l & 1: lres = self.f(lres, self.dat[l]) l += 1 if r & 1: r -= 1 rres = self.f(self.dat[r], rres) # モノイドでは可換律は保証されていないので演算の方向に注意 l >>= 1 r >>= 1 res = self.f(lres, rres) return res def query2(self): s = 1 #print(self.size) while sself.dat[s*2+1]: s = s*2 else: s = s*2+1 return s-self.size n, q = na() que = [na() for i in range(q)] s = [] for i in range(q): if que[0] == 1: s.append(que[i][1]) else: s.append(que[i][1]) s = sorted(set(s)) d = {x:i for i, x in enumerate(s)} m = len(s) st1= SegmentTree(m) st2= SegmentTree(m) for i in range(q): if que[i][0] == 1: x = que[i][1] print(min(x-1, x + st1.query(0, d[x]), -x + st2.query(d[x], m))) else: x = que[i][1] c = que[i][2] st1.updatef(d[x], c - x) st2.updatef(d[x], c + x)