import sys from operator import add sys.setrecursionlimit(10 ** 7) rl = sys.stdin.readline class DualSegmentTree: def __init__(self, size: int, segfunc, lazy_ide_ele=0): self.lazy_ide_ele = lazy_ide_ele self.segfunc = segfunc self.N0 = 1 << (size - 1).bit_length() self.lazy = [self.lazy_ide_ele] * (2 * self.N0) def gindex(self, left, right): L = left + self.N0 R = right + self.N0 lm = (L // (L & -L)) >> 1 rm = (R // (R & -R)) >> 1 while L < R: if R <= rm: yield R if L <= lm: yield L L >>= 1 R >>= 1 while L: yield L L >>= 1 def propagates(self, *ids): for i in reversed(ids): idx = i - 1 v = self.lazy[idx] if v == self.lazy_ide_ele: continue self.lazy[2 * idx + 1] = self.segfunc(self.lazy[2 * idx + 1], v) self.lazy[2 * idx + 2] = self.segfunc(self.lazy[2 * idx + 2], v) self.lazy[idx] = self.lazy_ide_ele def update(self, left: int, right: int, x): L = self.N0 + left R = self.N0 + right while L < R: if R & 1: R -= 1 self.lazy[R - 1] = self.segfunc(self.lazy[R - 1], x) if L & 1: self.lazy[L - 1] = self.segfunc(self.lazy[L - 1], x) L += 1 L >>= 1 R >>= 1 def query(self, k: int): self.propagates(*self.gindex(k, k + 1)) return self.lazy[k + self.N0 - 1] def solve(): N, Q = map(int, rl().split()) A = list(map(int, rl().split())) query = [['A', idx + 1, ai] for idx, ai in enumerate(A)] for _ in range(Q): c, x, y = rl().split() query.append([c, int(x), int(y)]) dual_seg_tree = DualSegmentTree(N, add) ans = [0] * N for c, x, y in reversed(query): x -= 1 if c == 'B': dual_seg_tree.update(x, y, 1) else: ans[x] += y * dual_seg_tree.query(x) print(*ans) if __name__ == '__main__': solve()