結果
問題 | No.738 平らな農地 |
ユーザー | 草苺奶昔 |
提出日時 | 2024-05-04 02:43:50 |
言語 | Go (1.22.1) |
結果 |
WA
|
実行時間 | - |
コード長 | 17,410 bytes |
コンパイル時間 | 14,010 ms |
コンパイル使用メモリ | 223,112 KB |
実行使用メモリ | 24,516 KB |
最終ジャッジ日時 | 2024-11-25 08:56:21 |
合計ジャッジ時間 | 23,614 ms |
ジャッジサーバーID (参考情報) |
judge3 / judge2 |
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テストケース
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ソースコード
package main import ( "bufio" "fmt" "math/bits" "math/rand" "os" "sort" ) func main() { // test() yuki738() } // 1703. 得到连续 K 个 1 的最少相邻交换次数 // https://leetcode.cn/problems/minimum-adjacent-swaps-for-k-consecutive-ones/description/ // 给你一个整数数组 nums 和一个整数 k 。 nums 仅包含 0 和 1 。每一次移动,你可以选择 相邻 两个数字并将它们交换。 // 请你返回使 nums 中包含 k 个 连续 1 的 最少 交换次数。 // !处理出所有1的位置,然后变成大小为k的滑动窗口所有数到中位数的距离和. // No.738 平らな農地 // https://yukicoder.me/problems/no/738 // !大小为k的滑动窗口所有数到中位数的距离和 func yuki738() { in := bufio.NewReader(os.Stdin) out := bufio.NewWriter(os.Stdout) defer out.Flush() var n, k int32 fmt.Fscan(in, &n, &k) nums := make([]int, n) for i := int32(0); i < n; i++ { fmt.Fscan(in, &nums[i]) } dist := SlidingWindowDistSumToMedian(nums, int(k)) res := INF for _, d := range dist { res = min(res, d) } fmt.Fprintln(out, res) } // 对每个大小为k的滑动窗口,求出所有数到中位数的距离和. func SlidingWindowDistSumToMedian(nums []int, k int) []int { if len(nums) < k { return nil } n := len(nums) wm := NewWaveletMatrixWithSum(nums, nums, -1, true) mf := NewMedianFinderWaveletMatrix(wm) res := make([]int, 0, n-k+1) for i := 0; i < n-k+1; i++ { start, end := int32(i), int32(i+k) res = append(res, mf.MedianRange(start, end, false)) } return res } // waveletMatrix维护区间中位数信息. type MedianFinderWaveletMatrix struct { Wm *WaveletMatrixWithSum } // WaveletMatrix 维护区间中位数信息. // `Proxy 的内部持有一个对 WaveletMatrix 的引用`. func NewMedianFinderWaveletMatrix(wm *WaveletMatrixWithSum) *MedianFinderWaveletMatrix { return &MedianFinderWaveletMatrix{Wm: wm} } // upper: 如果有两个中位数,返回较大的那个. func (mf *MedianFinderWaveletMatrix) Median(upper bool) int { return mf.MedianRange(0, mf.Wm.n, upper) } // 返回区间 [start, end) 中的中位数. // upper: 如果有两个中位数,返回较大的那个. func (mf *MedianFinderWaveletMatrix) MedianRange(start, end int32, upper bool) int { if start < 0 { start = 0 } if end > mf.Wm.n { end = mf.Wm.n } if start >= end { return 0 } return mf.Wm.Median(start, end, upper, 0) } func (mf *MedianFinderWaveletMatrix) DistSum(to int) int { return mf.DistSumRange(to, 0, mf.Wm.n) } func (mf *MedianFinderWaveletMatrix) DistSumRange(to int, start, end int32) int { if start < 0 { start = 0 } if end > mf.Wm.n { end = mf.Wm.n } if start >= end { return 0 } m := end - start lowerCount, lowerSum := mf.Wm.RangeCountAndSum(start, end, -INF, WmValue(to), 0) // bisect_left allSum := mf.Wm.SumAll(start, end) if lowerCount == 0 { return allSum - int(m)*to } if lowerCount == m { return int(m)*to - allSum } upperSum := allSum - lowerSum leftSum := to*int(lowerCount) - lowerSum rightSum := upperSum - to*int(m-lowerCount) return leftSum + rightSum } func (mf *MedianFinderWaveletMatrix) DistSumToMedian() int { return mf.DistSumToMedianRange(0, mf.Wm.n) } func (mf *MedianFinderWaveletMatrix) DistSumToMedianRange(start, end int32) int { if start < 0 { start = 0 } if end > mf.Wm.n { end = mf.Wm.n } if start >= end { return 0 } m := end - start count1 := m / 2 count2 := m - count1 mid, sum1 := mf.Wm.KthValueAndSum(start, end, count1, 0) allSum := mf.Wm.SumAll(start, end) sum2 := allSum - sum1 res := 0 res += mid*int(count1) - sum1 res += sum2 - mid*int(count2) return res } const INF WmValue = 1e18 type WmValue = int type WmSum = int func (*WaveletMatrixWithSum) e() WmSum { return 0 } func (*WaveletMatrixWithSum) op(a, b WmSum) WmSum { return a + b } func (*WaveletMatrixWithSum) inv(a WmSum) WmSum { return -a } type WaveletMatrixWithSum struct { n, log int32 setLog bool compress bool useSum bool mid []int32 bv []*BitVector key []WmValue presum [][]WmSum } // nums: 数组元素. // sumData: 和数据,nil表示不需要和数据. // log: 如果需要支持异或查询则需要传入log,-1表示默认. // compress: 是否对nums进行离散化(值域较大(1e9)时可以离散化加速). func NewWaveletMatrixWithSum(nums []WmValue, sumData []WmSum, log int32, compress bool) *WaveletMatrixWithSum { wm := &WaveletMatrixWithSum{} wm.build(nums, sumData, log, compress) return wm } func (wm *WaveletMatrixWithSum) build(nums []WmValue, sumData []WmSum, log int32, compress bool) { numsCopy := append(nums[:0:0], nums...) sumDataCopy := append(sumData[:0:0], sumData...) wm.n = int32(len(numsCopy)) wm.log = log wm.setLog = log != -1 wm.compress = compress wm.useSum = len(sumData) > 0 if wm.n == 0 { wm.log = 0 wm.presum = [][]WmSum{{wm.e()}} return } if compress { if wm.setLog { panic("compress and log should not be set at the same time") } wm.key = make([]WmValue, 0, wm.n) order := wm._argSort(numsCopy) for _, i := range order { if len(wm.key) == 0 || wm.key[len(wm.key)-1] != numsCopy[i] { wm.key = append(wm.key, numsCopy[i]) } numsCopy[i] = WmValue(len(wm.key) - 1) } wm.key = wm.key[:len(wm.key):len(wm.key)] } if wm.log == -1 { tmp := wm._maxs(numsCopy) if tmp < 1 { tmp = 1 } wm.log = int32(bits.Len(uint(tmp))) } wm.mid = make([]int32, wm.log) wm.bv = make([]*BitVector, wm.log) for i := range wm.bv { wm.bv[i] = NewBitVector(wm.n) } if wm.useSum { wm.presum = make([][]WmSum, 1+wm.log) for i := range wm.presum { sums := make([]WmSum, wm.n+1) for j := range sums { sums[j] = wm.e() } wm.presum[i] = sums } } if len(sumDataCopy) == 0 { sumDataCopy = make([]WmSum, len(numsCopy)) } A, S := numsCopy, sumDataCopy A0, A1 := make([]WmValue, wm.n), make([]WmValue, wm.n) S0, S1 := make([]WmSum, wm.n), make([]WmSum, wm.n) for d := wm.log - 1; d >= -1; d-- { p0, p1 := int32(0), int32(0) if wm.useSum { tmp := wm.presum[d+1] for i := int32(0); i < wm.n; i++ { tmp[i+1] = wm.op(tmp[i], S[i]) } } if d == -1 { break } for i := int32(0); i < wm.n; i++ { f := (A[i] >> d & 1) == 1 if !f { if wm.useSum { S0[p0] = S[i] } A0[p0] = A[i] p0++ } else { if wm.useSum { S1[p1] = S[i] } wm.bv[d].Set(i) A1[p1] = A[i] p1++ } } wm.mid[d] = p0 wm.bv[d].Build() A, A0 = A0, A S, S0 = S0, S for i := int32(0); i < p1; i++ { A[p0+i] = A1[i] S[p0+i] = S1[i] } } } // 返回区间 [start, end) 中 值在 [a, b) 中的元素个数以及这些元素的和. func (wm *WaveletMatrixWithSum) RangeCountAndSum(start, end int32, a, b WmValue, xorValue WmValue) (int32, WmSum) { if xorValue != 0 { if !wm.setLog { panic("log should be set when xor is used") } } if start < 0 { start = 0 } if end > wm.n { end = wm.n } if start >= end || a >= b { return 0, wm.e() } if wm.compress { a = wm._lowerBound(wm.key, a) b = wm._lowerBound(wm.key, b) } count, sum := int32(0), wm.e() var dfs func(d, l, r int32, lx, rx WmValue) dfs = func(d, l, r int32, lx, rx WmValue) { if rx <= a || b <= lx { return } if a <= lx && rx <= b { count += r - l if wm.useSum { sum = wm.op(sum, wm._get(d, l, r)) } return } d-- mx := (lx + rx) >> 1 l0, r0 := wm.bv[d].Rank(l, false), wm.bv[d].Rank(r, false) l1, r1 := l+wm.mid[d]-l0, r+wm.mid[d]-r0 if xorValue>>d&1 == 1 { l0, l1 = l1, l0 r0, r1 = r1, r0 } dfs(d, l0, r0, lx, mx) dfs(d, l1, r1, mx, rx) } dfs(wm.log, start, end, 0, 1<<wm.log) return count, sum } // 返回区间 [start, end) 中的 (第k小的元素, 前k个元素(不包括第k小的元素) 的 op 的结果). // 如果k >= end-start, 返回 (-1, 区间 op 的结果). func (wm *WaveletMatrixWithSum) KthValueAndSum(start, end, k int32, xorVal WmValue) (WmValue, WmSum) { if start < 0 { start = 0 } if end > wm.n { end = wm.n } if start >= end { return -1, wm.e() } if k >= end-start { return -1, wm.SumAll(start, end) } if xorVal != 0 { if !wm.setLog { panic("log should be set when xor is used") } } sum, val := wm.e(), WmValue(0) for d := wm.log - 1; d >= 0; d-- { l0, r0 := wm.bv[d].Rank(start, false), wm.bv[d].Rank(end, false) l1, r1 := start+wm.mid[d]-l0, end+wm.mid[d]-r0 if (xorVal>>d)&1 == 1 { l0, l1 = l1, l0 r0, r1 = r1, r0 } if k < r0-l0 { start, end = l0, r0 } else { k -= r0 - l0 val |= 1 << d start, end = l1, r1 if wm.useSum { sum = wm.op(sum, wm._get(d, l0, r0)) } } } if wm.useSum { sum = wm.op(sum, wm._get(0, start, start+k)) } if wm.compress { val = wm.key[val] } return val, sum } // [start, end)区间内第k(k>=0)小的元素. func (wm *WaveletMatrixWithSum) Kth(start, end, k int32, xorVal WmValue) WmValue { if k < 0 { k = 0 } if n := end - start - 1; k > n { k = n } v, _ := wm.KthValueAndSum(start, end, k, xorVal) return v } // upper: 向上取中位数还是向下取中位数. func (wm *WaveletMatrixWithSum) Median(start, end int32, upper bool, xorVal WmValue) WmValue { n := end - start var k int32 if upper { k = n >> 1 } else { k = (n - 1) >> 1 } return wm.Kth(start, end, k, xorVal) } // [start, end) 中小于等于 x 的数中最大的数. // // 如果不存在则返回-INF. func (wm *WaveletMatrixWithSum) Floor(start, end int32, x WmValue, xor WmValue) WmValue { if xor != 0 { if !wm.setLog { panic("log should be set when xor is used") } } if start < 0 { start = 0 } if end > wm.n { end = wm.n } if start >= end { return -INF } res := -INF x++ if wm.compress { x = wm._lowerBound(wm.key, x) } var dfs func(d, l, r int32, lx, rx WmValue) dfs = func(d, l, r int32, lx, rx WmValue) { if rx-1 <= res || l == r || x <= lx { return } if d == 0 { res = max(res, lx) return } d-- mx := (lx + rx) >> 1 l0, r0 := wm.bv[d].Rank(l, false), wm.bv[d].Rank(r, false) l1, r1 := l+wm.mid[d]-l0, r+wm.mid[d]-r0 if xor>>d&1 == 1 { l0, l1 = l1, l0 r0, r1 = r1, r0 } dfs(d, l1, r1, mx, rx) dfs(d, l0, r0, lx, mx) } dfs(wm.log, start, end, 0, 1<<wm.log) if wm.compress && res != -INF { res = wm.key[res] } return res } // [start, end) 中大于等于 x 的数中最小的数 // // 如果不存在则返回INF func (wm *WaveletMatrixWithSum) Ceil(start, end int32, x WmValue, xor WmValue) int { if xor != 0 { if !wm.setLog { panic("log should be set when xor is used") } } if start < 0 { start = 0 } if end > wm.n { end = wm.n } if start >= end { return INF } if wm.compress { x = wm._lowerBound(wm.key, x) } res := INF var dfs func(d, l, r int32, lx, rx WmValue) dfs = func(d, l, r int32, lx, rx WmValue) { if res <= lx || l == r || rx <= x { return } if d == 0 { res = min(res, lx) return } d-- mx := (lx + rx) >> 1 l0, r0 := wm.bv[d].Rank(l, false), wm.bv[d].Rank(r, false) l1, r1 := l+wm.mid[d]-l0, r+wm.mid[d]-r0 if xor>>d&1 == 1 { l0, l1 = l1, l0 r0, r1 = r1, r0 } dfs(d, l0, r0, lx, mx) dfs(d, l1, r1, mx, rx) } dfs(wm.log, start, end, 0, 1<<wm.log) if wm.compress && res < INF { res = wm.key[res] } return res } // 返回区间 [start, end) 中 范围在 [a, b) 中的元素的和. func (wm *WaveletMatrixWithSum) SumRange(start, end int32, a, b WmValue, xorVal WmValue) WmSum { if !wm.useSum { panic("sum data must be provided") } if start < 0 { start = 0 } if end > wm.n { end = wm.n } if start >= end || a >= b { return wm.e() } _, sum := wm.RangeCountAndSum(start, end, a, b, xorVal) return sum } // 返回区间 [start, end) 中 排名在 [k1, k2) 中的元素的和. func (wm *WaveletMatrixWithSum) SumSlice(start, end, k1, k2 int32, xorVal WmValue) WmSum { if !wm.useSum { panic("sum data must be provided") } if k1 < 0 { k1 = 0 } if k2 > end-start { k2 = end - start } if start < 0 { start = 0 } if end > wm.n { end = wm.n } if start >= end || k1 >= k2 { return wm.e() } _, sum1 := wm.KthValueAndSum(start, end, k1, xorVal) _, sum2 := wm.KthValueAndSum(start, end, k2, xorVal) return wm.op(sum2, wm.inv(sum1)) } func (wm *WaveletMatrixWithSum) SumAll(start, end int32) WmSum { if start < 0 { start = 0 } if end > wm.n { end = wm.n } if start >= end { return wm.e() } return wm._get(wm.log, start, end) } // 使得predicate(count, sum)为true的最大的(count, sum). func (wm *WaveletMatrixWithSum) MaxRight(predicate func(int32, WmSum) bool, start, end int32, xorVal WmValue) (int32, WmSum) { if xorVal != 0 { if !wm.setLog { panic("log should be set when xor is used") } } if start >= end { return 0, wm.e() } if s := wm._get(wm.log, start, end); predicate(end-start, s) { return end - start, s } count, sum := int32(0), wm.e() for d := wm.log - 1; d >= 0; d-- { l0, r0 := wm.bv[d].Rank(start, false), wm.bv[d].Rank(end, false) l1, r1 := start+wm.mid[d]-l0, end+wm.mid[d]-r0 if xorVal>>d&1 == 1 { l0, l1 = l1, l0 r0, r1 = r1, r0 } if s := wm.op(sum, wm._get(d, l0, r0)); predicate(count+r0-l0, s) { count += r0 - l0 sum = s start, end = l1, r1 } else { start, end = l0, r0 } } k := wm._binarySearch(func(k int32) bool { return predicate(count+k, wm.op(sum, wm._get(0, start, start+k))) }, 0, end-start) count += k sum = wm.op(sum, wm._get(0, start, start+k)) return count, sum } func (wm *WaveletMatrixWithSum) _get(d, l, r int32) WmSum { if wm.useSum { return wm.op(wm.presum[d][r], wm.inv(wm.presum[d][l])) } return wm.e() } func (wm *WaveletMatrixWithSum) _argSort(nums []WmValue) []int32 { order := make([]int32, len(nums)) for i := range order { order[i] = int32(i) } sort.Slice(order, func(i, j int) bool { return nums[order[i]] < nums[order[j]] }) return order } func (wm *WaveletMatrixWithSum) _maxs(nums []WmValue) WmValue { res := nums[0] for _, v := range nums { if v > res { res = v } } return res } func (wm *WaveletMatrixWithSum) _lowerBound(nums []WmValue, target WmValue) WmValue { left, right := int32(0), int32(len(nums)-1) for left <= right { mid := (left + right) >> 1 if nums[mid] < target { left = mid + 1 } else { right = mid - 1 } } return WmValue(left) } func (wm *WaveletMatrixWithSum) _binarySearch(f func(int32) bool, ok, ng int32) int32 { for abs32(ok-ng) > 1 { x := (ok + ng) >> 1 if f(x) { ok = x } else { ng = x } } return ok } type BitVector struct { bits []uint64 preSum []int32 } func NewBitVector(n int32) *BitVector { return &BitVector{bits: make([]uint64, n>>6+1), preSum: make([]int32, n>>6+1)} } func (bv *BitVector) Set(i int32) { bv.bits[i>>6] |= 1 << (i & 63) } func (bv *BitVector) Build() { for i := 0; i < len(bv.bits)-1; i++ { bv.preSum[i+1] = bv.preSum[i] + int32(bits.OnesCount64(bv.bits[i])) } } func (bv *BitVector) Rank(k int32, f bool) int32 { m, s := bv.bits[k>>6], bv.preSum[k>>6] res := s + int32(bits.OnesCount64(m&((1<<(k&63))-1))) if f { return res } return k - res } func abs(x int) int { if x < 0 { return -x } return x } func abs32(x int32) int32 { if x < 0 { return -x } return x } func min32(a, b int32) int32 { if a < b { return a } return b } func min(a, b int) int { if a < b { return a } return b } func max(a, b int) int { if a > b { return a } return b } func test() { medianBruteForce := func(nums []int) int { if len(nums) == 0 { return 0 } sortedNums := append([]int(nil), nums...) sort.Ints(sortedNums) mid := (len(sortedNums) - 1) / 2 return sortedNums[mid] } distSumBruteForce := func(nums []int, to int) int { res := 0 for _, num := range nums { res += abs(num - to) } return res } distSumRangeBruteForce := func(nums []int, to, start, end int) int { res := 0 for i := start; i < end; i++ { res += abs(nums[i] - to) } return res } distSumToMedianBruteForce := func(nums []int) int { median := medianBruteForce(nums) return distSumBruteForce(nums, median) } distSumToMedianRangeBruteForce := func(nums []int, start, end int) int { median := medianBruteForce(nums[start:end]) return distSumRangeBruteForce(nums, median, start, end) } for tc := 0; tc < 1000; tc++ { n := rand.Intn(1000) + 1 nums := make([]int, n) for i := 0; i < n; i++ { nums[i] = rand.Intn(1e6) - 5e5 } mf := NewMedianFinderWaveletMatrix(NewWaveletMatrixWithSum(nums, nums, -1, true)) for i := 0; i < 100; i++ { start, end := rand.Intn(n), rand.Intn(n)+1 if start > end { start, end = end, start } to := rand.Intn(1e5) - 5e4 if mf.MedianRange(int32(start), int32(end), false) != medianBruteForce(nums[start:end]) { panic("err0") } if mf.DistSum(int(to)) != distSumBruteForce(nums, to) { panic("err1") } if mf.DistSumRange(int(to), int32(start), int32(end)) != distSumRangeBruteForce(nums, to, start, end) { panic("err2") } if mf.DistSumToMedian() != distSumToMedianBruteForce(nums) { panic("err3") } if mf.DistSumToMedianRange(int32(start), int32(end)) != distSumToMedianRangeBruteForce(nums, start, end) { fmt.Println(mf.DistSumToMedianRange(int32(start), int32(end)), distSumToMedianRangeBruteForce(nums, start, end)) panic("err4") } } } fmt.Println("pass") }