package main import ( "bufio" "fmt" "math/bits" "os" "strings" ) func RangeMod2Query(nums []int, queries [][]int) []int { leaves := make([]E, len(nums)) for i, v := range nums { if nums[i]&1 == 1 { leaves[i] = E{sum: v, size: 1, odd: 1} } else { leaves[i] = E{sum: v, size: 1, even: 1} } } seg := NewLazySegTree(leaves) res := []int{} for _, q := range queries { op := q[0] if op == 1 { l, r := q[1], q[2] seg.Update(l, r, Id{kind: 2}) } else if op == 2 { l, r, x := q[1], q[2], q[3] seg.Update(l, r, Id{add: x}) } else { l, r := q[1], q[2] res = append(res, seg.Query(l, r).sum) } } return res } const INF = 1e18 // RangeMod2RangeAddRangeSum type E = struct{ sum, size, odd, even int } type Id = struct{ kind, add int } func (*LazySegTree) e() E { return E{} } func (*LazySegTree) id() Id { return Id{} } func (*LazySegTree) op(left, right E) E { return E{sum: left.sum + right.sum, size: left.size + right.size, odd: left.odd + right.odd, even: left.even + right.even} } func (*LazySegTree) mapping(f Id, g E) E { res := g add, mod := f.add, f.kind if mod == 1 { res.odd, res.even = res.even, res.odd } if mod != 0 { res.sum = res.odd } res.sum += add * res.size if add&1 == 1 { res.odd, res.even = res.even, res.odd } return res } func (*LazySegTree) composition(f, g Id) Id { res := g if f.kind != 0 { if res.kind == 0 { res.kind = 2 } if f.kind == 1 { res.kind = 3 - res.kind } if res.add&1 == 1 { res.kind = 3 - res.kind } res.add = 0 } res.add += f.add return res } // !template type LazySegTree struct { n int size int log int data []E lazy []Id } func NewLazySegTree(leaves []E) *LazySegTree { tree := &LazySegTree{} n := len(leaves) tree.n = n tree.log = int(bits.Len(uint(n - 1))) tree.size = 1 << tree.log tree.data = make([]E, tree.size<<1) tree.lazy = make([]Id, tree.size) for i := range tree.data { tree.data[i] = tree.e() } for i := range tree.lazy { tree.lazy[i] = tree.id() } for i := 0; i < n; i++ { tree.data[tree.size+i] = leaves[i] } for i := tree.size - 1; i >= 1; i-- { tree.pushUp(i) } return tree } // 查询切片[left:right]的值 // 0<=left<=right<=len(tree.data) func (tree *LazySegTree) Query(left, right int) E { if left < 0 { left = 0 } if right > tree.n { right = tree.n } if left >= right { return tree.e() } left += tree.size right += tree.size for i := tree.log; i >= 1; i-- { if ((left >> i) << i) != left { tree.pushDown(left >> i) } if ((right >> i) << i) != right { tree.pushDown((right - 1) >> i) } } sml, smr := tree.e(), tree.e() for left < right { if left&1 != 0 { sml = tree.op(sml, tree.data[left]) left++ } if right&1 != 0 { right-- smr = tree.op(tree.data[right], smr) } left >>= 1 right >>= 1 } return tree.op(sml, smr) } func (tree *LazySegTree) QueryAll() E { return tree.data[1] } // 更新切片[left:right]的值 // 0<=left<=right<=len(tree.data) func (tree *LazySegTree) Update(left, right int, f Id) { if left < 0 { left = 0 } if right > tree.n { right = tree.n } if left >= right { return } left += tree.size right += tree.size for i := tree.log; i >= 1; i-- { if ((left >> i) << i) != left { tree.pushDown(left >> i) } if ((right >> i) << i) != right { tree.pushDown((right - 1) >> i) } } l2, r2 := left, right for left < right { if left&1 != 0 { tree.propagate(left, f) left++ } if right&1 != 0 { right-- tree.propagate(right, f) } left >>= 1 right >>= 1 } left = l2 right = r2 for i := 1; i <= tree.log; i++ { if ((left >> i) << i) != left { tree.pushUp(left >> i) } if ((right >> i) << i) != right { tree.pushUp((right - 1) >> i) } } } // 二分查询最小的 left 使得切片 [left:right] 内的值满足 predicate func (tree *LazySegTree) MinLeft(right int, predicate func(data E) bool) int { if right == 0 { return 0 } right += tree.size for i := tree.log; i >= 1; i-- { tree.pushDown((right - 1) >> i) } res := tree.e() for { right-- for right > 1 && right&1 != 0 { right >>= 1 } if !predicate(tree.op(tree.data[right], res)) { for right < tree.size { tree.pushDown(right) right = right<<1 | 1 if predicate(tree.op(tree.data[right], res)) { res = tree.op(tree.data[right], res) right-- } } return right + 1 - tree.size } res = tree.op(tree.data[right], res) if (right & -right) == right { break } } return 0 } // 二分查询最大的 right 使得切片 [left:right] 内的值满足 predicate func (tree *LazySegTree) MaxRight(left int, predicate func(data E) bool) int { if left == tree.n { return tree.n } left += tree.size for i := tree.log; i >= 1; i-- { tree.pushDown(left >> i) } res := tree.e() for { for left&1 == 0 { left >>= 1 } if !predicate(tree.op(res, tree.data[left])) { for left < tree.size { tree.pushDown(left) left <<= 1 if predicate(tree.op(res, tree.data[left])) { res = tree.op(res, tree.data[left]) left++ } } return left - tree.size } res = tree.op(res, tree.data[left]) left++ if (left & -left) == left { break } } return tree.n } // 单点查询(不需要 pushUp/op 操作时使用) func (tree *LazySegTree) Get(index int) E { index += tree.size for i := tree.log; i >= 1; i-- { tree.pushDown(index >> i) } return tree.data[index] } // 单点赋值 func (tree *LazySegTree) Set(index int, e E) { index += tree.size for i := tree.log; i >= 1; i-- { tree.pushDown(index >> i) } tree.data[index] = e for i := 1; i <= tree.log; i++ { tree.pushUp(index >> i) } } func (tree *LazySegTree) pushUp(root int) { tree.data[root] = tree.op(tree.data[root<<1], tree.data[root<<1|1]) } func (tree *LazySegTree) pushDown(root int) { if tree.lazy[root] != tree.id() { tree.propagate(root<<1, tree.lazy[root]) tree.propagate(root<<1|1, tree.lazy[root]) tree.lazy[root] = tree.id() } } func (tree *LazySegTree) propagate(root int, f Id) { tree.data[root] = tree.mapping(f, tree.data[root]) // !叶子结点不需要更新lazy if root < tree.size { tree.lazy[root] = tree.composition(f, tree.lazy[root]) } } func (tree *LazySegTree) String() string { var sb []string sb = append(sb, "[") for i := 0; i < tree.n; i++ { if i != 0 { sb = append(sb, ", ") } sb = append(sb, fmt.Sprintf("%v", tree.Get(i))) } sb = append(sb, "]") return strings.Join(sb, "") } func main() { in := bufio.NewReader(os.Stdin) out := bufio.NewWriter(os.Stdout) defer out.Flush() var n, q int fmt.Fscan(in, &n, &q) nums := make([]int, n) for i := range nums { fmt.Fscan(in, &nums[i]) } queries := make([][]int, q) for i := range queries { var op int fmt.Fscan(in, &op) if op == 1 { var l, r int fmt.Fscan(in, &l, &r) l-- queries[i] = []int{op, l, r} } else if op == 2 { var l, r, x int fmt.Fscan(in, &l, &r, &x) l-- queries[i] = []int{op, l, r, x} } else { var l, r int fmt.Fscan(in, &l, &r) l-- queries[i] = []int{op, l, r} } } res := RangeMod2Query(nums, queries) for _, v := range res { fmt.Fprintln(out, v) } }