import sys input = sys.stdin.buffer.readline class SegmentTree: def __init__(self, n, op, e): self.n = n self.op = op self.e = e self.size = 2 ** ((n - 1).bit_length()) self.node = [self.e] * (2 * self.size) def __getitem__(self, i): return self.node[i + self.size] def __setitem__(self, i, val): i += self.size self.node[i] = val while i > 1: i >>= 1 self.node[i] = self.op(self.node[i << 1], self.node[(i << 1) + 1]) def build(self, array): for i, val in enumerate(array, self.size): self.node[i] = val for i in range(self.size - 1, 0, -1): self.node[i] = self.op(self.node[i << 1], self.node[(i << 1) + 1]) def all_fold(self): return self.node[1] def fold(self, l, r): l, r = l + self.size, r + self.size vl, vr = self.e, self.e while l < r: if l & 1: vl = self.op(vl, self.node[l]) l += 1 if r & 1: r -= 1 vr = self.op(self.node[r], vr) l, r = l >> 1, r >> 1 return self.op(vl, vr) def max_right(self, l, f): if l == self.n: return self.n l += self.size v = self.e init = True while init or (l & -l) != l: init = False while l % 2 == 0: l >>= 1 if not f(self.op(v, self.node[l])): while l < self.size: l <<= 1 if f(self.op(v, self.node[l])): v = self.op(v, self.node[l]) l += 1 return l - self.size v = self.op(v, self.node[l]) l += 1 return self.n n, q = map(int, input().split()) a = list(map(int, input().split())) queries = [list(map(int, input().split())) for i in range(q)] a_ = [(a[i], i) for i in range(n)] op = lambda x1, x2: min(x1, x2) e = (10 ** 6, 0) st = SegmentTree(n, op, e) st.build(a_) for flag, l, r in queries: if flag == 1: l -= 1 r -= 1 xl, xr = st[l], st[r] st[l], st[r] = (xr[0], xl[1]), (xl[0], xr[1]) else: l -= 1 print(st.fold(l, r)[1] + 1)