WA Lab - 02
I have born and brought up in Rajahmundry. I have completed my schooling in my town. I have great memories in my town and my parents lives in India.
I Love to learn WEB APPS.
- My Favourite Place is Newyork,
- first we need to book flight from MCI-Kansas Airport to Newyork
- there we need to get the UBER and start exporing the Newyork.
- Newyork is the best city in USA for the celebrations.
- I love to be there on the day mid night of 31st December.
- Vizag - City of Destiny
- RK Beach
- Night Life
- Sea Food
- Araku
- Scenaries
- Bamboo Chicken
- RK Beach
This is Table Example
| Food | Place | Price |
|---|---|---|
| Biryani | Hyderabad | 10$ |
| Kaju barfi | Rajahmundry | 5$ |
| Dosa | Rajahmundry | 2$ |
| Chaat | Rajahmundry | 1$ |
If you can dream it, you can do it. -Walt Disney
You will never win if you never begin. -Helen Rowland
This is Sqrt Tree Algorithm from CP-Alogorithms
SqrtTreeItem op(const SqrtTreeItem &a, const SqrtTreeItem &b);
inline int log2Up(int n) {
int res = 0;
while ((1 << res) < n) {
res++;
}
return res;
}
class SqrtTree {
private:
int n, lg, indexSz;
vector<SqrtTreeItem> v;
vector<int> clz, layers, onLayer;
vector< vector<SqrtTreeItem> > pref, suf, between;
inline void buildBlock(int layer, int l, int r) {
pref[layer][l] = v[l];
for (int i = l+1; i < r; i++) {
pref[layer][i] = op(pref[layer][i-1], v[i]);
}
suf[layer][r-1] = v[r-1];
for (int i = r-2; i >= l; i--) {
suf[layer][i] = op(v[i], suf[layer][i+1]);
}
}
inline void buildBetween(int layer, int lBound, int rBound, int betweenOffs) {
int bSzLog = (layers[layer]+1) >> 1;
int bCntLog = layers[layer] >> 1;
int bSz = 1 << bSzLog;
int bCnt = (rBound - lBound + bSz - 1) >> bSzLog;
for (int i = 0; i < bCnt; i++) {
SqrtTreeItem ans;
for (int j = i; j < bCnt; j++) {
SqrtTreeItem add = suf[layer][lBound + (j << bSzLog)];
ans = (i == j) ? add : op(ans, add);
between[layer-1][betweenOffs + lBound + (i << bCntLog) + j] = ans;
}
}
}
inline void buildBetweenZero() {
int bSzLog = (lg+1) >> 1;
for (int i = 0; i < indexSz; i++) {
v[n+i] = suf[0][i << bSzLog];
}
build(1, n, n + indexSz, (1 << lg) - n);
}
inline void updateBetweenZero(int bid) {
int bSzLog = (lg+1) >> 1;
v[n+bid] = suf[0][bid << bSzLog];
update(1, n, n + indexSz, (1 << lg) - n, n+bid);
}
void build(int layer, int lBound, int rBound, int betweenOffs) {
if (layer >= (int)layers.size()) {
return;
}
int bSz = 1 << ((layers[layer]+1) >> 1);
for (int l = lBound; l < rBound; l += bSz) {
int r = min(l + bSz, rBound);
buildBlock(layer, l, r);
build(layer+1, l, r, betweenOffs);
}
if (layer == 0) {
buildBetweenZero();
} else {
buildBetween(layer, lBound, rBound, betweenOffs);
}
}
void update(int layer, int lBound, int rBound, int betweenOffs, int x) {
if (layer >= (int)layers.size()) {
return;
}
int bSzLog = (layers[layer]+1) >> 1;
int bSz = 1 << bSzLog;
int blockIdx = (x - lBound) >> bSzLog;
int l = lBound + (blockIdx << bSzLog);
int r = min(l + bSz, rBound);
buildBlock(layer, l, r);
if (layer == 0) {
updateBetweenZero(blockIdx);
} else {
buildBetween(layer, lBound, rBound, betweenOffs);
}
update(layer+1, l, r, betweenOffs, x);
}
inline SqrtTreeItem query(int l, int r, int betweenOffs, int base) {
if (l == r) {
return v[l];
}
if (l + 1 == r) {
return op(v[l], v[r]);
}
int layer = onLayer[clz[(l - base) ^ (r - base)]];
int bSzLog = (layers[layer]+1) >> 1;
int bCntLog = layers[layer] >> 1;
int lBound = (((l - base) >> layers[layer]) << layers[layer]) + base;
int lBlock = ((l - lBound) >> bSzLog) + 1;
int rBlock = ((r - lBound) >> bSzLog) - 1;
SqrtTreeItem ans = suf[layer][l];
if (lBlock <= rBlock) {
SqrtTreeItem add = (layer == 0) ? (
query(n + lBlock, n + rBlock, (1 << lg) - n, n)
) : (
between[layer-1][betweenOffs + lBound + (lBlock << bCntLog) + rBlock]
);
ans = op(ans, add);
}
ans = op(ans, pref[layer][r]);
return ans;
}
public:
inline SqrtTreeItem query(int l, int r) {
return query(l, r, 0, 0);
}
inline void update(int x, const SqrtTreeItem &item) {
v[x] = item;
update(0, 0, n, 0, x);
}
SqrtTree(const vector<SqrtTreeItem>& a)
: n((int)a.size()), lg(log2Up(n)), v(a), clz(1 << lg), onLayer(lg+1) {
clz[0] = 0;
for (int i = 1; i < (int)clz.size(); i++) {
clz[i] = clz[i >> 1] + 1;
}
int tlg = lg;
while (tlg > 1) {
onLayer[tlg] = (int)layers.size();
layers.push_back(tlg);
tlg = (tlg+1) >> 1;
}
for (int i = lg-1; i >= 0; i--) {
onLayer[i] = max(onLayer[i], onLayer[i+1]);
}
int betweenLayers = max(0, (int)layers.size() - 1);
int bSzLog = (lg+1) >> 1;
int bSz = 1 << bSzLog;
indexSz = (n + bSz - 1) >> bSzLog;
v.resize(n + indexSz);
pref.assign(layers.size(), vector<SqrtTreeItem>(n + indexSz));
suf.assign(layers.size(), vector<SqrtTreeItem>(n + indexSz));
between.assign(betweenLayers, vector<SqrtTreeItem>((1 << lg) + bSz));
build(0, 0, n, 0);
}
};