cp-library-cpp
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test/src/datastructure/util/dynamic_bitset/dummy.test.cpp
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- Last update: 2022-11-10 03:30:50+09:00
- Problem: https://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=ITP1_1_A
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Code
#define PROBLEM "https://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=ITP1_1_A"
#include <bitset>
#include <iostream>
#include "library/datastructure/util/dynamic_bitset.hpp"
using suisen::DynamicBitSet;
template <std::size_t n>
bool operator==(const DynamicBitSet& dbs, const std::bitset<n>& bs) {
if (dbs.size() != int(n)) return false;
for (std::size_t i = 0; i < n; ++i) if (dbs[i] != bs[i]) return false;
return true;
}
template <std::size_t n>
bool operator==(const std::bitset<n>& bs, const DynamicBitSet& dbs) {
return dbs == bs;
}
template <std::size_t n>
bool operator!=(const DynamicBitSet& dbs, const std::bitset<n>& bs) {
return not (dbs == bs);
}
template <std::size_t n>
bool operator!=(const std::bitset<n>& bs, const DynamicBitSet& dbs) {
return dbs != bs;
}
void test_empty() {
assert(DynamicBitSet(0).empty());
assert(not DynamicBitSet(1).empty());
}
void test_size() {
assert(DynamicBitSet(0).size() == 0);
assert(DynamicBitSet(1).size() == 1);
assert(DynamicBitSet(64).size() == 64);
}
void test_resize() {
DynamicBitSet bs;
bs.resize(35, true);
assert(bs.size() == 35);
for (int i = 0; i < 35; ++i) assert(bs[i]);
bs.resize(1026, false);
assert(bs.size() == 1026);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 1026; ++i) assert(not bs[i]);
bs.resize(78);
assert(bs.size() == 78);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 78; ++i) assert(not bs[i]);
bs.resize(512, true);
assert(bs.size() == 512);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 78; ++i) assert(not bs[i]);
for (int i = 78; i < 512; ++i) assert(bs[i]);
bs.resize(128, false);
assert(bs.size() == 128);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 78; ++i) assert(not bs[i]);
for (int i = 78; i < 128; ++i) assert(bs[i]);
}
void test_push_back() {
DynamicBitSet bs;
for (int i = 0; i < 1000; ++i) {
bs.push_back(i & 1);
assert(bs.size() == i + 1);
for (int j = 0; j <= i; ++j) assert(bs[j] == (j & 1));
}
}
void test_pop_back() {
DynamicBitSet bs;
for (int i = 0; i < 1000; ++i) {
bs.push_back(i & 1);
}
for (int i = 0; i < 1000; ++i) {
bs.pop_back();
assert(bs.size() == 999 - i);
for (int j = 0; j < 999 - i; ++j) assert(bs[j] == (j & 1));
}
}
void test_eq() {
DynamicBitSet x(10, true);
DynamicBitSet y(10);
for (int i = 0; i < 10; ++i) y[i] = true;
assert(x == y);
x.resize(516, false);
y.resize(516, false);
assert(x == y);
x.resize(100);
y.resize(200);
x.resize(300, true);
y.resize(300, true);
for (int i = 100; i < 200; ++i) y[i] = true;
assert(x == y);
}
void test_neq() {
DynamicBitSet x(10);
DynamicBitSet y;
assert(x != y);
y.resize(5);
assert(x != y);
y.resize(64, true);
assert(x != y);
y.resize(10);
assert(x != y);
x.resize(500);
y.resize(500);
for (int i = 5; i < 10; ++i) x[i] = true;
assert(x == y);
y[499] = true;
assert(x != y);
y[499] = false;
assert(x == y);
y[256] = true;
assert(x != y);
y[256] = false;
assert(x == y);
y[255] = true;
assert(x != y);
}
void test_lt() {
DynamicBitSet x(100), y(100);
assert(not (x < y));
x[56] = true;
assert(not (x < y));
y[56] = true;
assert(not (x < y));
y[99] = true;
assert(x < y);
x.resize(200), y.resize(200);
x[100] = true;
assert(not (x < y));
y[100] = true;
assert(x < y);
x[99] = true;
assert(not (x < y));
y[199] = true;
assert(x < y);
y[199] = false;
y[128] = true;
assert(x < y);
y[128] = false;
y[127] = true;
assert(x < y);
}
void test_leq() {
DynamicBitSet x(100), y(100);
assert(x <= y);
x[56] = true;
assert(not (x <= y));
y[56] = true;
assert(x <= y);
y[99] = true;
assert(x <= y);
x.resize(200), y.resize(200);
x[100] = true;
assert(not (x <= y));
y[100] = true;
assert(x <= y);
x[99] = true;
assert(x <= y);
y[199] = true;
assert(x <= y);
y[199] = false;
y[128] = true;
assert(x <= y);
y[128] = false;
y[127] = true;
assert(x <= y);
}
void test_gt() {
DynamicBitSet x(100), y(100);
assert(not (x > y));
x[56] = true;
assert(x > y);
y[56] = true;
assert(not (x > y));
y[99] = true;
assert(not (x > y));
x.resize(200), y.resize(200);
x[100] = true;
assert(x > y);
y[100] = true;
assert(not (x > y));
x[99] = true;
assert(not (x > y));
y[199] = true;
assert(not (x > y));
y[199] = false;
y[128] = true;
assert(not (x > y));
y[128] = false;
y[127] = true;
assert(not (x > y));
}
void test_geq() {
DynamicBitSet x(100), y(100);
assert(x >= y);
x[56] = true;
assert(x >= y);
y[56] = true;
assert(x >= y);
y[99] = true;
assert(not (x >= y));
x.resize(200), y.resize(200);
x[100] = true;
assert(x >= y);
y[100] = true;
assert(not (x >= y));
x[99] = true;
assert(x >= y);
y[199] = true;
assert(not (x >= y));
y[199] = false;
y[128] = true;
assert(not (x >= y));
y[128] = false;
y[127] = true;
assert(not (x >= y));
}
void test_cast_bool() {
DynamicBitSet x;
assert(not x);
x.resize(100);
assert(not x);
x[99] = true;
assert(x);
}
void test_and() {
constexpr int n = 353;
std::bitset<n> bs1, bs2;
DynamicBitSet dbs1(n), dbs2(n);
for (int i = 0; i < n; ++i) {
bs1[i] = i % 3 == 0;
dbs1[i] = i % 3 == 0;
}
for (int i = 0; i < n; ++i) {
bs2[i] = i % 5 == 0;
dbs2[i] = i % 5 == 0;
}
auto bs = bs1 & bs2;
auto dbs = dbs1 & dbs2;
assert(bs == dbs);
}
void test_or() {
constexpr int n = 353;
std::bitset<n> bs1, bs2;
DynamicBitSet dbs1(n), dbs2(n);
for (int i = 0; i < n; ++i) {
bs1[i] = i % 3 == 0;
dbs1[i] = i % 3 == 0;
}
for (int i = 0; i < n; ++i) {
bs2[i] = i % 5 == 0;
dbs2[i] = i % 5 == 0;
}
auto bs = bs1 | bs2;
auto dbs = dbs1 | dbs2;
assert(bs == dbs);
}
void test_xor() {
constexpr int n = 353;
std::bitset<n> bs1, bs2;
DynamicBitSet dbs1(n), dbs2(n);
for (int i = 0; i < n; ++i) {
bs1[i] = i % 3 == 0;
dbs1[i] = i % 3 == 0;
}
for (int i = 0; i < n; ++i) {
bs2[i] = i % 5 == 0;
dbs2[i] = i % 5 == 0;
}
auto bs = bs1 ^ bs2;
auto dbs = dbs1 ^ dbs2;
assert(bs == dbs);
}
void test_shift_r() {
constexpr int n = 353;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
for (std::size_t i = 0; i < n; ++i) {
assert((bs >> i) == (dbs >> i));
}
}
void test_shift_l() {
constexpr int n = 353;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
for (std::size_t i = 0; i < n; ++i) {
assert((bs << i) == (dbs << i));
}
}
void test_neg() {
constexpr int n = 353;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
assert(~bs == ~dbs);
}
void test_get_set() {
constexpr int n = 2349;
DynamicBitSet bs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 != 0;
}
for (int i = 0; i < n; ++i) {
assert(bs[i] == (i % 3 != 0));
}
}
void test_range_set() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_set_dbs = [&](int l, int r) {
auto dbs2 = dbs;
dbs2.range_set(l, r);
return dbs2;
};
auto range_set_bs = [&](int l, int r) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i] = true;
return bs2;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_set_bs(l, r) == range_set_dbs(l, r));
}
}
void test_range_reset() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_reset_dbs = [&](int l, int r) {
auto dbs2 = dbs;
dbs2.range_reset(l, r);
return dbs2;
};
auto range_reset_bs = [&](int l, int r) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i] = false;
return bs2;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_reset_bs(l, r) == range_reset_dbs(l, r));
}
}
void test_range_flip() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_flip_dbs = [&](int l, int r) {
auto dbs2 = dbs;
dbs2.range_flip(l, r);
return dbs2;
};
auto range_flip_bs = [&](int l, int r) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i].flip();
return bs2;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_flip_bs(l, r) == range_flip_dbs(l, r));
}
}
void test_range_update() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_update_dbs = [&](int l, int r, bool val) {
auto dbs2 = dbs;
dbs2.range_update(l, r, val);
return dbs2;
};
auto range_update_bs = [&](int l, int r, bool val) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i] = val;
return bs2;
};
for (bool b : { false, true }) {
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_update_bs(l, r, b) == range_update_dbs(l, r, b));
}
}
}
void test_range_count() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_count_dbs = [&](int l, int r) {
return dbs.range_count(l, r);
};
auto range_count_bs = [&](int l, int r) {
int res = 0;
for (int i = l; i < r; ++i) res += bs[i];
return res;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_count_bs(l, r) == range_count_dbs(l, r));
}
}
void test_all() {
DynamicBitSet x;
assert(x.all());
x.push_back(true);
assert(x.all());
x[0] = false;
assert(not x.all());
x.resize(129, true);
assert(not x.all());
x[0] = true;
assert(x.all());
x[128] = false;
assert(not x.all());
}
void test_none() {
DynamicBitSet x;
assert(x.none());
x.push_back(true);
assert(not x.none());
x[0] = false;
assert(x.none());
x.resize(129, false);
assert(x.none());
x[0] = true;
assert(not x.none());
x[0] = false;
assert(x.none());
x[128] = true;
assert(not x.none());
}
void test_any() {
DynamicBitSet x;
assert(not x.any());
x.push_back(true);
assert(x.any());
x[0] = false;
assert(not x.any());
x.resize(129, false);
assert(not x.any());
x[0] = true;
assert(x.any());
x[0] = false;
assert(not x.any());
x[128] = true;
assert(x.any());
}
void test_count() {
DynamicBitSet x;
assert(x.count() == 0);
x.resize(10);
assert(x.count() == 0);
x[3] = true;
assert(x.count() == 1);
x.resize(176, true);
assert(x.count() == 167);
}
void test_set() {
DynamicBitSet x;
x.set();
assert(x.count() == 0);
x.resize(20, false);
x.set();
assert(x.count() == 20);
x.resize(1238);
x.set();
assert(x.count() == 1238);
}
void test_reset() {
DynamicBitSet x;
x.reset();
assert(x.count() == 0);
x.resize(20, true);
x.reset();
assert(x.count() == 0);
x.resize(1238);
x.reset();
assert(x.count() == 0);
}
void test_find() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
int i = bs._Find_first(), j = dbs.find_first();
for (; i < n and j < n; i = bs._Find_next(i), j = dbs.find_next(j)) {
assert(i == j);
}
assert(i == n and j == n);
}
void test_has_intersectoin() {
DynamicBitSet x(10, true), y;
assert(not x.has_intersection(y));
y.resize(10);
y[9] = true;
assert(x.has_intersection(y));
y[9] = false;
y.resize(123);
y[122] = true;
assert(not x.has_intersection(y));
x.resize(1230);
x[122] = true;
assert(x.has_intersection(y));
}
void test_is_disjoint() {
DynamicBitSet x(10, true), y;
assert(x.is_disjoint(y));
y.resize(10);
y[9] = true;
assert(not x.is_disjoint(y));
y[9] = false;
y.resize(123);
y[122] = true;
assert(x.is_disjoint(y));
x.resize(1230);
x[122] = true;
assert(not x.is_disjoint(y));
}
void test() {
test_empty();
test_size();
test_resize();
test_push_back();
test_pop_back();
test_eq();
test_neq();
test_lt();
test_leq();
test_gt();
test_geq();
test_cast_bool();
test_and();
test_or();
test_xor();
test_shift_r();
test_shift_l();
test_neg();
test_get_set();
test_range_set();
test_range_reset();
test_range_flip();
test_range_update();
test_range_count();
test_all();
test_none();
test_any();
test_count();
test_set();
test_reset();
test_find();
test_has_intersectoin();
test_is_disjoint();
}
int main() {
test();
std::cout << "Hello World" << std::endl;
return 0;
}#line 1 "test/src/datastructure/util/dynamic_bitset/dummy.test.cpp"
#define PROBLEM "https://judge.u-aizu.ac.jp/onlinejudge/description.jsp?id=ITP1_1_A"
#include <bitset>
#include <iostream>
#line 1 "library/datastructure/util/dynamic_bitset.hpp"
#include <cassert>
#include <limits>
#include <utility>
#include <vector>
namespace suisen {
struct DynamicBitSet {
private:
using block = unsigned long long;
static constexpr std::size_t block_size = std::numeric_limits<block>::digits;
static constexpr std::size_t log_block_size = __builtin_ctz(block_size);
struct bitref {
block& b;
std::size_t i;
operator bool() const { return (b >> i) & 1; }
bool test() const { return (b >> i) & 1; }
void set() { b |= block(1) << i; }
void reset() { b &= ~(block(1) << i); }
void flip() { b ^= block(1) << i; }
bitref& operator&=(bool val) { b &= block(val) << i; return *this; }
bitref& operator|=(bool val) { b |= block(val) << i; return *this; }
bitref& operator^=(bool val) { b ^= block(val) << i; return *this; }
bitref& operator =(bool val) { val ? set() : reset(); return *this; }
bitref& operator =(const bitref& v) { return (*this) = bool(v); }
};
std::size_t n;
std::vector<block> blocks;
public:
DynamicBitSet(std::size_t n = 0, bool fill_value = false) : n(n), blocks((n + block_size - 1) >> log_block_size, fill_value ? ~block(0) : 0) {}
bool empty() const { return n == 0; }
int size() const { return n; }
void resize(std::size_t new_size, bool fill_value = false) {
std::size_t new_block_num = (new_size + block_size - 1) >> log_block_size;
if (new_block_num < block_num()) {
n = new_size;
return blocks.resize(new_block_num);
}
blocks.resize(new_block_num);
std::size_t old_size = std::exchange(n, new_size);
if (old_size <= new_size) range_update(old_size, new_size, fill_value);
}
void push_back(bool val) {
if (n & (block_size - 1)) {
(*this)[n] = val;
} else {
blocks.push_back(val);
}
++n;
}
void pop_back() {
if ((n & (block_size - 1)) == 1) blocks.pop_back();
--n;
}
friend bool operator==(const DynamicBitSet& x, const DynamicBitSet& y) {
if (x.n != y.n) return false;
if (x.empty()) return true;
for (std::size_t i = 0; i < x.block_num() - 1; ++i) {
if (x.blocks[i] != y.blocks[i]) return false;
}
const std::size_t num = x.n - ((x.block_num() - 1) << log_block_size);
return get_lower_bits(x.blocks.back(), num) == get_lower_bits(y.blocks.back(), num);
}
friend bool operator!=(const DynamicBitSet& x, const DynamicBitSet& y) {
return not (x == y);
}
friend bool operator<(const DynamicBitSet& x, const DynamicBitSet& y) {
assert(x.n == y.n);
if (x.empty()) return false;
std::size_t num = x.n - ((x.block_num() - 1) << log_block_size);
block tx = get_lower_bits(x.blocks.back(), num);
block ty = get_lower_bits(y.blocks.back(), num);
if (tx != ty) return tx < ty;
for (std::size_t i = x.block_num() - 1; i-- > 0;) {
if (x.blocks[i] != y.blocks[i]) return x.blocks[i] < y.blocks[i];
}
return false;
}
friend bool operator<=(const DynamicBitSet& x, const DynamicBitSet& y) {
assert(x.n == y.n);
if (x.empty()) return true;
std::size_t num = x.n - ((x.block_num() - 1) << log_block_size);
block tx = get_lower_bits(x.blocks.back(), num);
block ty = get_lower_bits(y.blocks.back(), num);
if (tx != ty) return tx < ty;
for (std::size_t i = x.block_num() - 1; i-- > 0;) {
if (x.blocks[i] != y.blocks[i]) return x.blocks[i] < y.blocks[i];
}
return true;
}
friend bool operator>(const DynamicBitSet& x, const DynamicBitSet& y) {
return not (x <= y);
}
friend bool operator>=(const DynamicBitSet& x, const DynamicBitSet& y) {
return not (x < y);
}
operator bool() const { return any(); }
friend DynamicBitSet& operator&=(DynamicBitSet& x, const DynamicBitSet& y) {
assert(x.n == y.n);
for (std::size_t i = 0; i < y.block_num(); ++i) x.blocks[i] &= y.blocks[i];
return x;
}
friend DynamicBitSet& operator|=(DynamicBitSet& x, const DynamicBitSet& y) {
assert(x.n == y.n);
for (std::size_t i = 0; i < y.block_num(); ++i) x.blocks[i] |= y.blocks[i];
return x;
}
friend DynamicBitSet& operator^=(DynamicBitSet& x, const DynamicBitSet& y) {
assert(x.n == y.n);
for (std::size_t i = 0; i < y.block_num(); ++i) x.blocks[i] ^= y.blocks[i];
return x;
}
friend DynamicBitSet operator&(DynamicBitSet x, const DynamicBitSet& y) { x &= y; return x; }
friend DynamicBitSet operator|(DynamicBitSet x, const DynamicBitSet& y) { x |= y; return x; }
friend DynamicBitSet operator^(DynamicBitSet x, const DynamicBitSet& y) { x ^= y; return x; }
friend DynamicBitSet& operator<<=(DynamicBitSet &x, std::size_t shamt) {
return x = x << shamt;
}
friend DynamicBitSet& operator>>=(DynamicBitSet &x, std::size_t shamt) {
return x = x >> shamt;
}
friend DynamicBitSet operator<<(const DynamicBitSet &x, std::size_t shamt) {
if (shamt >= x.n) return DynamicBitSet(x.size());
DynamicBitSet res(x.size());
std::size_t block_shamt = shamt >> log_block_size;
std::size_t bit_shamt = shamt & (block_size - 1);
for (std::size_t i = 0; i + block_shamt < res.block_num(); ++i) {
if (bit_shamt == 0) {
res.blocks[i + block_shamt] = x.blocks[i];
} else {
res.blocks[i + block_shamt] |= x.blocks[i] << bit_shamt;
if (i + block_shamt + 1 != res.block_num()) {
res.blocks[i + block_shamt + 1] |= x.blocks[i] >> (block_size - bit_shamt);
}
}
}
return res;
}
friend DynamicBitSet operator>>(const DynamicBitSet& x, std::size_t shamt) {
if (shamt >= x.n) return DynamicBitSet(x.size());
DynamicBitSet res(x.size());
std::size_t block_shamt = shamt >> log_block_size;
std::size_t bit_shamt = shamt & (block_size - 1);
for (std::size_t i = 0; i + block_shamt < x.block_num(); ++i) {
if (bit_shamt == 0) {
res.blocks[i] = x.blocks[i + block_shamt];
} else {
res.blocks[i] |= x.blocks[i + block_shamt] >> bit_shamt;
if (i + block_shamt + 1 != x.block_num()) {
res.blocks[i] |= x.blocks[i + block_shamt + 1] << (block_size - bit_shamt);
}
}
}
res.range_reset(x.n - shamt, x.n);
return res;
}
DynamicBitSet operator~() const {
DynamicBitSet neg(n);
for (std::size_t i = 0; i < block_num(); ++i) neg.blocks[i] = ~blocks[i];
return neg;
}
bool operator[](std::size_t i) const {
return (blocks[block_index(i)] >> bit_index(i)) & 1;
}
bitref operator[](std::size_t i) {
return { blocks[block_index(i)], bit_index(i) };
}
void range_set(std::size_t l, std::size_t r) {
assert(l <= r and r <= n);
if (l == r) return;
std::size_t lb = block_index(l), rb = block_index(r - 1);
std::size_t li = bit_index(l), ri = bit_index(r);
if (ri == 0) ri = block_size;
if (lb == rb) {
blocks[lb] |= mask_range_bits(~block(0), li, ri);
return;
}
blocks[lb] |= mask_upper_bits(~block(0), block_size - li);
blocks[rb] |= mask_lower_bits(~block(0), ri);
for (std::size_t i = lb + 1; i < rb; ++i) blocks[i] = ~block(0);
}
void range_reset(std::size_t l, std::size_t r) {
assert(l <= r and r <= n);
if (l == r) return;
std::size_t lb = block_index(l), rb = block_index(r - 1);
std::size_t li = bit_index(l), ri = bit_index(r);
if (ri == 0) ri = block_size;
if (lb == rb) {
blocks[lb] &= ~mask_range_bits(~block(0), li, ri);
return;
}
blocks[lb] &= ~mask_upper_bits(~block(0), block_size - li);
blocks[rb] &= ~mask_lower_bits(~block(0), ri);
for (std::size_t i = lb + 1; i < rb; ++i) blocks[i] = block(0);
}
void range_flip(std::size_t l, std::size_t r) {
assert(l <= r and r <= n);
if (l == r) return;
std::size_t lb = block_index(l), rb = block_index(r - 1);
std::size_t li = bit_index(l), ri = bit_index(r);
if (ri == 0) ri = block_size;
if (lb == rb) {
blocks[lb] ^= mask_range_bits(~block(0), li, ri);
return;
}
blocks[lb] ^= mask_upper_bits(~block(0), block_size - li);
blocks[rb] ^= mask_lower_bits(~block(0), ri);
for (std::size_t i = lb + 1; i < rb; ++i) blocks[i] ^= ~block(0);
}
void range_update(std::size_t l, std::size_t r, bool val) {
val ? range_set(l, r) : range_reset(l, r);
}
int range_count(std::size_t l, std::size_t r) const {
assert(l <= r and r <= n);
if (l == r) return 0;
std::size_t lb = block_index(l), rb = block_index(r - 1);
std::size_t li = bit_index(l), ri = bit_index(r);
if (ri == 0) ri = block_size;
if (lb == rb) {
return __builtin_popcountll(blocks[lb] & mask_range_bits(~block(0), li, ri));
}
int res = 0;
res += __builtin_popcountll(blocks[lb] & mask_upper_bits(~block(0), block_size - li));
res += __builtin_popcountll(blocks[rb] & mask_lower_bits(~block(0), ri));
for (std::size_t i = lb + 1; i < rb; ++i) res += __builtin_popcountll(blocks[i]);
return res;
}
void set() {
for (block& b : blocks) b = ~block(0);
}
void reset() {
for (block& b : blocks) b = 0;
}
bool all() const {
if (empty()) return true;
for (std::size_t i = 0; i < block_num() - 1; ++i) {
if (blocks[i] != ~block(0)) return false;
}
const std::size_t num = n - ((block_num() - 1) << log_block_size);
assert(num);
const block upper = ((block(1) << (block_size - num)) - 1) << num;
return (upper | blocks.back()) == ~block(0);
}
bool none() const {
if (empty()) return true;
for (std::size_t i = 0; i < block_num() - 1; ++i) {
if (blocks[i] != 0) return false;
}
const std::size_t num = n - ((block_num() - 1) << log_block_size);
return get_lower_bits(blocks.back(), num) == 0;
}
bool any() const {
return not none();
}
int count() const {
if (empty()) return 0;
int res = 0;
for (std::size_t i = 0; i < block_num() - 1; ++i) {
res += __builtin_popcountll(blocks[i]);
}
const std::size_t num = n - ((block_num() - 1) << log_block_size);
return res + __builtin_popcountll(get_lower_bits(blocks.back(), num));
}
// Returns the position of first set bit. If there is no such positions, then returns size().
int find_first() const {
if (empty()) return size();
for (std::size_t i = 0; i < block_num(); ++i) {
if (blocks[i] != 0) return std::min(n, __builtin_ctzll(blocks[i]) | (i << log_block_size));
}
return n;
}
// Returns the position of first set bit after the given position (exclusive). If there is no such positions, then returns size().
int find_next(std::size_t pos) const {
std::size_t i = block_index(++pos);
if (i >= blocks.size()) return n;
block upper = mask_upper_bits(blocks[i], block_size - bit_index(pos));
if (upper != 0) return std::min(n, __builtin_ctzll(upper) | (i << log_block_size));
while (++i < block_num()) {
if (blocks[i] != 0) return std::min(n, __builtin_ctzll(blocks[i]) | (i << log_block_size));
}
return n;
}
bool has_intersection(const DynamicBitSet& y) const {
if (n > y.n) return y.has_intersection(*this);
if (empty()) return false;
for (std::size_t i = 0; i < block_num() - 1; ++i) {
if (blocks[i] & y.blocks[i]) return true;
}
const std::size_t num = n - ((block_num() - 1) << log_block_size);
return get_lower_bits(blocks.back(), num) & y.blocks[block_num() - 1];
}
bool is_disjoint(const DynamicBitSet& y) const {
return not has_intersection(y);
}
private:
static constexpr std::size_t block_index(std::size_t i) {
return i >> log_block_size;
}
static constexpr std::size_t bit_index(std::size_t i) {
return i & (block_size - 1);
}
static constexpr block get_lower_bits(block b, std::size_t num) {
return num ? (b << (block_size - num) >> (block_size - num)) : block(0);
}
static constexpr block get_upper_bits(block b, std::size_t num) {
return num ? (b >> (block_size - num)) : block(0);
}
static constexpr block get_range_bits(block b, std::size_t l, std::size_t r) {
return l < r ? b << (block_size - r) >> (block_size - r + l) : block(0);
}
static constexpr block mask_lower_bits(block b, std::size_t num) {
return get_lower_bits(b, num);
}
static constexpr block mask_upper_bits(block b, std::size_t num) {
return num ? (b >> (block_size - num) << (block_size - num)) : block(0);
}
static constexpr block mask_range_bits(block b, std::size_t l, std::size_t r) {
return l < r ? b << (block_size - r) >> (block_size - r + l) << l : block(0);
}
std::size_t block_num() const {
return blocks.size();
}
};
} // namespace suisen
#line 7 "test/src/datastructure/util/dynamic_bitset/dummy.test.cpp"
using suisen::DynamicBitSet;
template <std::size_t n>
bool operator==(const DynamicBitSet& dbs, const std::bitset<n>& bs) {
if (dbs.size() != int(n)) return false;
for (std::size_t i = 0; i < n; ++i) if (dbs[i] != bs[i]) return false;
return true;
}
template <std::size_t n>
bool operator==(const std::bitset<n>& bs, const DynamicBitSet& dbs) {
return dbs == bs;
}
template <std::size_t n>
bool operator!=(const DynamicBitSet& dbs, const std::bitset<n>& bs) {
return not (dbs == bs);
}
template <std::size_t n>
bool operator!=(const std::bitset<n>& bs, const DynamicBitSet& dbs) {
return dbs != bs;
}
void test_empty() {
assert(DynamicBitSet(0).empty());
assert(not DynamicBitSet(1).empty());
}
void test_size() {
assert(DynamicBitSet(0).size() == 0);
assert(DynamicBitSet(1).size() == 1);
assert(DynamicBitSet(64).size() == 64);
}
void test_resize() {
DynamicBitSet bs;
bs.resize(35, true);
assert(bs.size() == 35);
for (int i = 0; i < 35; ++i) assert(bs[i]);
bs.resize(1026, false);
assert(bs.size() == 1026);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 1026; ++i) assert(not bs[i]);
bs.resize(78);
assert(bs.size() == 78);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 78; ++i) assert(not bs[i]);
bs.resize(512, true);
assert(bs.size() == 512);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 78; ++i) assert(not bs[i]);
for (int i = 78; i < 512; ++i) assert(bs[i]);
bs.resize(128, false);
assert(bs.size() == 128);
for (int i = 0; i < 35; ++i) assert(bs[i]);
for (int i = 35; i < 78; ++i) assert(not bs[i]);
for (int i = 78; i < 128; ++i) assert(bs[i]);
}
void test_push_back() {
DynamicBitSet bs;
for (int i = 0; i < 1000; ++i) {
bs.push_back(i & 1);
assert(bs.size() == i + 1);
for (int j = 0; j <= i; ++j) assert(bs[j] == (j & 1));
}
}
void test_pop_back() {
DynamicBitSet bs;
for (int i = 0; i < 1000; ++i) {
bs.push_back(i & 1);
}
for (int i = 0; i < 1000; ++i) {
bs.pop_back();
assert(bs.size() == 999 - i);
for (int j = 0; j < 999 - i; ++j) assert(bs[j] == (j & 1));
}
}
void test_eq() {
DynamicBitSet x(10, true);
DynamicBitSet y(10);
for (int i = 0; i < 10; ++i) y[i] = true;
assert(x == y);
x.resize(516, false);
y.resize(516, false);
assert(x == y);
x.resize(100);
y.resize(200);
x.resize(300, true);
y.resize(300, true);
for (int i = 100; i < 200; ++i) y[i] = true;
assert(x == y);
}
void test_neq() {
DynamicBitSet x(10);
DynamicBitSet y;
assert(x != y);
y.resize(5);
assert(x != y);
y.resize(64, true);
assert(x != y);
y.resize(10);
assert(x != y);
x.resize(500);
y.resize(500);
for (int i = 5; i < 10; ++i) x[i] = true;
assert(x == y);
y[499] = true;
assert(x != y);
y[499] = false;
assert(x == y);
y[256] = true;
assert(x != y);
y[256] = false;
assert(x == y);
y[255] = true;
assert(x != y);
}
void test_lt() {
DynamicBitSet x(100), y(100);
assert(not (x < y));
x[56] = true;
assert(not (x < y));
y[56] = true;
assert(not (x < y));
y[99] = true;
assert(x < y);
x.resize(200), y.resize(200);
x[100] = true;
assert(not (x < y));
y[100] = true;
assert(x < y);
x[99] = true;
assert(not (x < y));
y[199] = true;
assert(x < y);
y[199] = false;
y[128] = true;
assert(x < y);
y[128] = false;
y[127] = true;
assert(x < y);
}
void test_leq() {
DynamicBitSet x(100), y(100);
assert(x <= y);
x[56] = true;
assert(not (x <= y));
y[56] = true;
assert(x <= y);
y[99] = true;
assert(x <= y);
x.resize(200), y.resize(200);
x[100] = true;
assert(not (x <= y));
y[100] = true;
assert(x <= y);
x[99] = true;
assert(x <= y);
y[199] = true;
assert(x <= y);
y[199] = false;
y[128] = true;
assert(x <= y);
y[128] = false;
y[127] = true;
assert(x <= y);
}
void test_gt() {
DynamicBitSet x(100), y(100);
assert(not (x > y));
x[56] = true;
assert(x > y);
y[56] = true;
assert(not (x > y));
y[99] = true;
assert(not (x > y));
x.resize(200), y.resize(200);
x[100] = true;
assert(x > y);
y[100] = true;
assert(not (x > y));
x[99] = true;
assert(not (x > y));
y[199] = true;
assert(not (x > y));
y[199] = false;
y[128] = true;
assert(not (x > y));
y[128] = false;
y[127] = true;
assert(not (x > y));
}
void test_geq() {
DynamicBitSet x(100), y(100);
assert(x >= y);
x[56] = true;
assert(x >= y);
y[56] = true;
assert(x >= y);
y[99] = true;
assert(not (x >= y));
x.resize(200), y.resize(200);
x[100] = true;
assert(x >= y);
y[100] = true;
assert(not (x >= y));
x[99] = true;
assert(x >= y);
y[199] = true;
assert(not (x >= y));
y[199] = false;
y[128] = true;
assert(not (x >= y));
y[128] = false;
y[127] = true;
assert(not (x >= y));
}
void test_cast_bool() {
DynamicBitSet x;
assert(not x);
x.resize(100);
assert(not x);
x[99] = true;
assert(x);
}
void test_and() {
constexpr int n = 353;
std::bitset<n> bs1, bs2;
DynamicBitSet dbs1(n), dbs2(n);
for (int i = 0; i < n; ++i) {
bs1[i] = i % 3 == 0;
dbs1[i] = i % 3 == 0;
}
for (int i = 0; i < n; ++i) {
bs2[i] = i % 5 == 0;
dbs2[i] = i % 5 == 0;
}
auto bs = bs1 & bs2;
auto dbs = dbs1 & dbs2;
assert(bs == dbs);
}
void test_or() {
constexpr int n = 353;
std::bitset<n> bs1, bs2;
DynamicBitSet dbs1(n), dbs2(n);
for (int i = 0; i < n; ++i) {
bs1[i] = i % 3 == 0;
dbs1[i] = i % 3 == 0;
}
for (int i = 0; i < n; ++i) {
bs2[i] = i % 5 == 0;
dbs2[i] = i % 5 == 0;
}
auto bs = bs1 | bs2;
auto dbs = dbs1 | dbs2;
assert(bs == dbs);
}
void test_xor() {
constexpr int n = 353;
std::bitset<n> bs1, bs2;
DynamicBitSet dbs1(n), dbs2(n);
for (int i = 0; i < n; ++i) {
bs1[i] = i % 3 == 0;
dbs1[i] = i % 3 == 0;
}
for (int i = 0; i < n; ++i) {
bs2[i] = i % 5 == 0;
dbs2[i] = i % 5 == 0;
}
auto bs = bs1 ^ bs2;
auto dbs = dbs1 ^ dbs2;
assert(bs == dbs);
}
void test_shift_r() {
constexpr int n = 353;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
for (std::size_t i = 0; i < n; ++i) {
assert((bs >> i) == (dbs >> i));
}
}
void test_shift_l() {
constexpr int n = 353;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
for (std::size_t i = 0; i < n; ++i) {
assert((bs << i) == (dbs << i));
}
}
void test_neg() {
constexpr int n = 353;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
assert(~bs == ~dbs);
}
void test_get_set() {
constexpr int n = 2349;
DynamicBitSet bs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 != 0;
}
for (int i = 0; i < n; ++i) {
assert(bs[i] == (i % 3 != 0));
}
}
void test_range_set() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_set_dbs = [&](int l, int r) {
auto dbs2 = dbs;
dbs2.range_set(l, r);
return dbs2;
};
auto range_set_bs = [&](int l, int r) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i] = true;
return bs2;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_set_bs(l, r) == range_set_dbs(l, r));
}
}
void test_range_reset() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_reset_dbs = [&](int l, int r) {
auto dbs2 = dbs;
dbs2.range_reset(l, r);
return dbs2;
};
auto range_reset_bs = [&](int l, int r) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i] = false;
return bs2;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_reset_bs(l, r) == range_reset_dbs(l, r));
}
}
void test_range_flip() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_flip_dbs = [&](int l, int r) {
auto dbs2 = dbs;
dbs2.range_flip(l, r);
return dbs2;
};
auto range_flip_bs = [&](int l, int r) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i].flip();
return bs2;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_flip_bs(l, r) == range_flip_dbs(l, r));
}
}
void test_range_update() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_update_dbs = [&](int l, int r, bool val) {
auto dbs2 = dbs;
dbs2.range_update(l, r, val);
return dbs2;
};
auto range_update_bs = [&](int l, int r, bool val) {
auto bs2 = bs;
for (int i = l; i < r; ++i) bs2[i] = val;
return bs2;
};
for (bool b : { false, true }) {
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_update_bs(l, r, b) == range_update_dbs(l, r, b));
}
}
}
void test_range_count() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
auto range_count_dbs = [&](int l, int r) {
return dbs.range_count(l, r);
};
auto range_count_bs = [&](int l, int r) {
int res = 0;
for (int i = l; i < r; ++i) res += bs[i];
return res;
};
for (int l = 0; l <= n; ++l) for (int r = l; r <= n; ++r) {
assert(range_count_bs(l, r) == range_count_dbs(l, r));
}
}
void test_all() {
DynamicBitSet x;
assert(x.all());
x.push_back(true);
assert(x.all());
x[0] = false;
assert(not x.all());
x.resize(129, true);
assert(not x.all());
x[0] = true;
assert(x.all());
x[128] = false;
assert(not x.all());
}
void test_none() {
DynamicBitSet x;
assert(x.none());
x.push_back(true);
assert(not x.none());
x[0] = false;
assert(x.none());
x.resize(129, false);
assert(x.none());
x[0] = true;
assert(not x.none());
x[0] = false;
assert(x.none());
x[128] = true;
assert(not x.none());
}
void test_any() {
DynamicBitSet x;
assert(not x.any());
x.push_back(true);
assert(x.any());
x[0] = false;
assert(not x.any());
x.resize(129, false);
assert(not x.any());
x[0] = true;
assert(x.any());
x[0] = false;
assert(not x.any());
x[128] = true;
assert(x.any());
}
void test_count() {
DynamicBitSet x;
assert(x.count() == 0);
x.resize(10);
assert(x.count() == 0);
x[3] = true;
assert(x.count() == 1);
x.resize(176, true);
assert(x.count() == 167);
}
void test_set() {
DynamicBitSet x;
x.set();
assert(x.count() == 0);
x.resize(20, false);
x.set();
assert(x.count() == 20);
x.resize(1238);
x.set();
assert(x.count() == 1238);
}
void test_reset() {
DynamicBitSet x;
x.reset();
assert(x.count() == 0);
x.resize(20, true);
x.reset();
assert(x.count() == 0);
x.resize(1238);
x.reset();
assert(x.count() == 0);
}
void test_find() {
constexpr int n = 513;
std::bitset<n> bs;
DynamicBitSet dbs(n);
for (int i = 0; i < n; ++i) {
bs[i] = i % 3 == 0;
dbs[i] = i % 3 == 0;
}
int i = bs._Find_first(), j = dbs.find_first();
for (; i < n and j < n; i = bs._Find_next(i), j = dbs.find_next(j)) {
assert(i == j);
}
assert(i == n and j == n);
}
void test_has_intersectoin() {
DynamicBitSet x(10, true), y;
assert(not x.has_intersection(y));
y.resize(10);
y[9] = true;
assert(x.has_intersection(y));
y[9] = false;
y.resize(123);
y[122] = true;
assert(not x.has_intersection(y));
x.resize(1230);
x[122] = true;
assert(x.has_intersection(y));
}
void test_is_disjoint() {
DynamicBitSet x(10, true), y;
assert(x.is_disjoint(y));
y.resize(10);
y[9] = true;
assert(not x.is_disjoint(y));
y[9] = false;
y.resize(123);
y[122] = true;
assert(x.is_disjoint(y));
x.resize(1230);
x[122] = true;
assert(not x.is_disjoint(y));
}
void test() {
test_empty();
test_size();
test_resize();
test_push_back();
test_pop_back();
test_eq();
test_neq();
test_lt();
test_leq();
test_gt();
test_geq();
test_cast_bool();
test_and();
test_or();
test_xor();
test_shift_r();
test_shift_l();
test_neg();
test_get_set();
test_range_set();
test_range_reset();
test_range_flip();
test_range_update();
test_range_count();
test_all();
test_none();
test_any();
test_count();
test_set();
test_reset();
test_find();
test_has_intersectoin();
test_is_disjoint();
}
int main() {
test();
std::cout << "Hello World" << std::endl;
return 0;
}