po167_library
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fps/FPS_inverse.hpp
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- Last update: 2024-11-08 23:20:15+09:00
- Include:
#include "fps/FPS_inverse.hpp"
Depends on
- fps/FPS_Power_Projection.hpp
- fps/FPS_cyclic_convolution.hpp
- fps/FPS_differetial.hpp
- fps/FPS_exp.hpp
- fps/FPS_integral.hpp
- fps/FPS_inv.hpp
- fps/FPS_log.hpp
- fps/FPS_pick_even_odd.hpp
Verified with
Code
#pragma once
#include <vector>
#include "../fps/FPS_exp.hpp"
#include "../fps/FPS_log.hpp"
#include "../fps/FPS_Power_Projection.hpp"
namespace po167{
// return g
// g(f) = x
// [x ^ 0] f = 0
// [x ^ 1] f != 0
template<class T>
std::vector<T> FPS_inverse(std::vector<T> f, int len = -1){
if (len == -1) len = f.size();
if (len == 0) return {};
if (len == 1) return {(T)(0)};
assert((int)f.size() >= 2);
assert(f[0] == 0);
assert(f[1] != 0);
T c = (T)(1) / f[1];
for (auto &x : f) x *= c;
std::vector<T> inv_num(len + 1, 1);
for (int i = 2; i <= len; i++){
inv_num[i] = (0 - inv_num[T::mod() % i]) * (T::mod() / i);
}
f.resize(len);
std::vector<T> p(len);
p[0] = 1;
p = Power_Projection(p, f, len);
std::vector<T> g(len - 1);
for (int i = 1; i < len; i++){
g[len - 1 - i] = p[i] * (T)(len - 1) * inv_num[i];
}
g = FPS_log(g);
for (int i = 0; i < len - 1; i++){
g[i] *= (T)(-1) * inv_num[len - 1];
}
g = FPS_exp(g);
g.insert(g.begin(), 0);
T v = 1;
for (auto &x : g) x *= v, v *= c;
return g;
}
}#line 2 "fps/FPS_inverse.hpp"
#include <vector>
#line 3 "fps/FPS_exp.hpp"
#include <atcoder/convolution>
#line 4 "fps/FPS_cyclic_convolution.hpp"
namespace po167{
// |f| = |g| = 2 ^ n
template<class T>
std::vector<T> FPS_cyclic_convolution(std::vector<T> f, std::vector<T> g){
atcoder::internal::butterfly(f);
atcoder::internal::butterfly(g);
for (int i = 0; i < (int)f.size(); i++) f[i] *= g[i];
atcoder::internal::butterfly_inv(f);
T iz = (T)(1) / (T)(f.size());
for (int i = 0; i < (int)f.size(); i++) f[i] *= iz;
return f;
}
}
#line 3 "fps/FPS_differetial.hpp"
namespace po167{
// return f'
template <class T>
std::vector<T> FPS_differential(std::vector<T> f){
if (f.empty()) return f;
for (int i = 0; i < (int)f.size() - 1; i++){
f[i] = f[i + 1] * (T)(i + 1);
}
f.pop_back();
return f;
}
}
#line 3 "fps/FPS_integral.hpp"
namespace po167{
template <class T>
std::vector<T> FPS_integral(std::vector<T> f){
if (f.empty()) return f;
std::vector<T> num_inv((int)f.size() + 1);
num_inv[0] = 1;
num_inv[1] = 1;
auto m = T::mod();
for (int i = 2; i <= (int)f.size(); i++){
num_inv[i] = (0 - num_inv[m % i]) * (T)(m / i);
}
f.reserve((int)f.size() + 1);
f.push_back(0);
for (int i = (int)f.size() - 1; i > 0; i--){
f[i] = f[i - 1] * num_inv[i];
}
f[0] = 0;
return f;
}
}
#line 4 "fps/FPS_inv.hpp"
namespace po167{
// return 1 / f
template <class T>
std::vector<T> FPS_inv(std::vector<T> f, int len = -1){
if (len == -1) len = f.size();
assert(f[0] != 0);
std::vector<T> g = {1 / f[0]};
int s = 1;
while(s < len){
// g = 2g_s - f(g_s)^2 (mod x ^ (2 * s))
// g = g - (fg - 1)g
// (fg - 1) = 0 (mod x ^ (s))
std::vector<T> n_g(s * 2, 0);
std::vector<T> f_s(s * 2, 0);
g.resize(s * 2);
for (int i = 0; i < s * 2; i++){
if (int(f.size()) > i) f_s[i] = f[i];
n_g[i] = g[i];
}
atcoder::internal::butterfly(g);
atcoder::internal::butterfly(f_s);
for (int i = 0; i < s * 2; i++){
f_s[i] *= g[i];
}
atcoder::internal::butterfly_inv(f_s);
T iz = 1 / (T)(s * 2);
for (int i = s; i < s * 2; i++){
f_s[i] *= iz;
}
for (int i = 0; i < s; i++){
f_s[i] = 0;
}
atcoder::internal::butterfly(f_s);
for (int i = 0; i < s * 2; i++){
f_s[i] *= g[i];
}
atcoder::internal::butterfly_inv(f_s);
for (int i = s; i < s * 2; i++){
n_g[i] -= f_s[i] * iz;
}
std::swap(n_g, g);
s *= 2;
}
g.resize(len);
return g;
}
}
#line 8 "fps/FPS_exp.hpp"
namespace po167{
template<class T>
std::vector<T> FPS_exp(std::vector<T> f, int len = -1){
if (len == -1) len = f.size();
if (len == 0) return {};
if (len == 1) return {T(1)};
assert(!f.empty() && f[0] == 0);
int s = 1;
// simple
std::vector<T> g = {T(1)};
while (s < len){
// g' / g
// A * B
std::vector<T> A = g, B = g;
A = FPS_differential(A);
B = FPS_inv(B, 2 * s);
A.resize(2 * s);
A = FPS_cyclic_convolution(A, B);
A.pop_back();
A = FPS_integral(A);
for (int i = 0; i < s; i++) A[i] = 0;
for (int i = s; i < s * 2; i++) A[i] = (i < (int)f.size() ? f[i] : 0) - A[i];
// g_hat = g (1 - g + f)
// g += B = g * A
g.resize(2 * s);
B = FPS_cyclic_convolution(A, g);
for (int i = s; i < s * 2; i++) g[i] = B[i];
s *= 2;
}
g.resize(len);
return g;
}
}
#line 6 "fps/FPS_log.hpp"
namespace po167{
template<class T>
std::vector<T> FPS_log(std::vector<T> f, int len = -1){
if (len == -1) len = f.size();
if (len == 0) return {};
if (len == 1) return {T(0)};
assert(!f.empty() && f[0] == 1);
std::vector<T> res = atcoder::convolution(FPS_differential(f), FPS_inv(f, len));
res.resize(len - 1);
return FPS_integral(res);
}
}
#line 4 "fps/FPS_Power_Projection.hpp"
#line 3 "fps/FPS_pick_even_odd.hpp"
namespace po167{
// s.t |v| = 2 ^ s (no assert)
template<class T>
void FPS_pick_even_odd(std::vector<T> &v, int odd){
int z = v.size() / 2;
T half = (T)(1) / (T)(2);
if (odd == 0){
for (int i = 0; i < z; i++){
v[i] = (v[i * 2] + v[i * 2 + 1]) * half;
}
v.resize(z);
} else {
T e = (T(atcoder::internal::primitive_root_constexpr(T::mod()))).pow(T::mod() / (2 * z));
T ie = T(1) / e;
std::vector<T> es = {half};
while ((int)es.size() != z){
std::vector<T> n_es((int)es.size() * 2);
for (int i = 0; i < (int)es.size(); i++){
n_es[i * 2] = (es[i]);
n_es[i * 2 + 1] = (es[i] * ie);
}
ie *= ie;
std::swap(n_es, es);
}
for (int i = 0; i < z; i ++){
v[i] = (v[i * 2] - v[i * 2 + 1]) * es[i];
}
v.resize(z);
}
}
}
#line 7 "fps/FPS_Power_Projection.hpp"
namespace po167{
// n = |g|
// return
// for i = 0, 1, ... , m - 1
// [x ^ {n - 1}] g(x) f(x) ^ i
template<class T>
std::vector<T> Power_Projection(std::vector<T> g, std::vector<T> f, int m){
int ind = (int)g.size() - 1;
int n = 1;
while(n < (int)g.size()) n *= 2;
f.reserve(4 * n);
g.reserve(4 * n);
g.resize(n, 0);
f.resize(n, 0);
std::vector<T> hold_f(n), hold_g(n);
// g(x) / (y - f(x))
for (auto &x : f) x *= -1;
int nk = n;
T iz = (T)(1) / (T)(2 * n);
while (nk != 1){
hold_g = g;
hold_f = f;
// n -> 4 * n
g.resize(4 * n);
f.resize(4 * n);
for (int i = n / nk - 1; i >= 0; i--){
for (int j = nk - 1; j >= 0; j--){
g[i * nk * 2 + j] = g[i * nk + j];
if (i) g[i * nk + j] = 0;
f[i * nk * 2 + j] = f[i * nk + j];
if (i) f[i * nk + j] = 0;
}
}
// tran
atcoder::internal::butterfly(g);
atcoder::internal::butterfly(f);
for (int i = 0; i < 2 * n; i++){
g[i * 2] *= f[i * 2 + 1];
g[i * 2 + 1] *= f[i * 2];
f[i * 2] *= f[i * 2 + 1];
f[i * 2 + 1] = f[i * 2];
}
FPS_pick_even_odd(g, (ind & 1));
FPS_pick_even_odd(f, 0);
atcoder::internal::butterfly_inv(g);
atcoder::internal::butterfly_inv(f);
for (auto &x : g) x *= iz;
for (auto &x : f) x *= iz;
// y ^ nk
for (int i = 0; i < n; i++){
if ((ind + i + 1) & 1)
g[n + (i / nk) * nk + (i & (nk - 1)) / 2] += hold_g[i];
if ((i & 1) == 0)
f[n + (i / nk) * nk + (i & (nk - 1)) / 2] += hold_f[i] * 2;
}
nk /= 2;
for (int i = 0; i < n; i++){
g[i] = g[(i / nk) * nk * 2 + (i & (nk - 1))];
f[i] = f[(i / nk) * nk * 2 + (i & (nk - 1))];
}
g.resize(n);
f.resize(n);
ind /= 2;
}
f.push_back(1);
std::reverse(g.begin(), g.end());
std::reverse(f.begin(), f.end());
g.resize(m);
std::vector<T> ans = atcoder::convolution(g, FPS_inv(f, m));
ans.resize(m);
return ans;
}
}
#line 6 "fps/FPS_inverse.hpp"
namespace po167{
// return g
// g(f) = x
// [x ^ 0] f = 0
// [x ^ 1] f != 0
template<class T>
std::vector<T> FPS_inverse(std::vector<T> f, int len = -1){
if (len == -1) len = f.size();
if (len == 0) return {};
if (len == 1) return {(T)(0)};
assert((int)f.size() >= 2);
assert(f[0] == 0);
assert(f[1] != 0);
T c = (T)(1) / f[1];
for (auto &x : f) x *= c;
std::vector<T> inv_num(len + 1, 1);
for (int i = 2; i <= len; i++){
inv_num[i] = (0 - inv_num[T::mod() % i]) * (T::mod() / i);
}
f.resize(len);
std::vector<T> p(len);
p[0] = 1;
p = Power_Projection(p, f, len);
std::vector<T> g(len - 1);
for (int i = 1; i < len; i++){
g[len - 1 - i] = p[i] * (T)(len - 1) * inv_num[i];
}
g = FPS_log(g);
for (int i = 0; i < len - 1; i++){
g[i] *= (T)(-1) * inv_num[len - 1];
}
g = FPS_exp(g);
g.insert(g.begin(), 0);
T v = 1;
for (auto &x : g) x *= v, v *= c;
return g;
}
}