ソースコード

class Compression:
    def __init__(self, iterable):
        self.vs = sorted(set(iterable))
        self.n = len(self.vs)
        self.v2i = {}
        for i, val in enumerate(self.vs):
            self.v2i[val] = i

    def __len__(self):
        return self.n

    def index(self, val):
        """val のインデックスを返す"""
        return self.v2i[val]

    def value(self, index):
        """インデックスに対応する値を返す"""
        return self.vs[index]


class FenwickTree:
    def __init__(self, n):
        self.data = [0] * (n+10)
        self.n = (n+10)

    def add(self, p, x):
        assert 0 <= p < self.n
        p += 1
        while p < len(self.data):
            self.data[p] += x
            p += p & -p

    def sum(self, p):
        """区間 [0, p] の和"""
        assert 0 <= p < self.n
        p += 1
        s = 0
        while p > 0:
            s += self.data[p]
            p -= p & -p
        return s

    def rangesum(self, l, r):
        """区間 [l, r] の和"""
        assert 0 <= l <= r < self.n
        s = self.sum(r)
        if l > 0:
            s -= self.sum(l-1)
        return s


N = int(input())
queries = []
inds = set()
for _ in range(N):
    qs = list(map(int, input().split()))
    if qs[0] == 0:  # a[x] += y
        x, y = qs[1]-1, qs[2]
        queries.append((0, x, y))
        inds.add(x)
    elif qs[0] == 1: # [l, r]
        l, r = qs[1]-1, qs[2]-1
        queries.append((1, l, r))
        inds.add(l)
        inds.add(r)

comp = Compression(inds)
ft = FenwickTree(len(comp)+10)
ans = 0
for i in range(N):
    if queries[i][0] == 0:
        x, y = queries[i][1], queries[i][2]
        p = comp.index(x)
        ft.add(p, y)
    elif queries[i][0] == 1:
        l, r = queries[i][1], queries[i][2]
        li = comp.index(l)
        ri = comp.index(r)
        res = ft.rangesum(li, ri)
        ans += res

print(ans)