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24-game.cpp
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24-game.cpp
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// Time: O(n^3 * 4^n) = O(1), n = 4
// Space: O(n^2) = O(1)
class Solution {
public:
bool judgePoint24(vector<int>& nums) {
vector<double> doubles;
std::transform(nums.begin(), nums.end(), std::back_inserter(doubles),
[](const int num) { return double(num); });
return dfs(doubles);
}
private:
bool dfs(const vector<double>& nums) {
if (nums.size() == 1) {
return fabs(nums[0] - 24) < 1e-6;
}
static unordered_map<char, std::function<double(double, double)>> ops =
{
{'+', std::plus<double>()},
{'-', std::minus<double>()},
{'*', std::multiplies<double>()},
{'/', std::divides<double>()},
};
for (int i = 0; i < nums.size(); ++i) {
for (int j = 0; j < nums.size(); ++j) {
if (i == j) {
continue;
}
vector<double> next_nums;
for (int k = 0; k < nums.size(); ++k) {
if (k == i || k == j) {
continue;
}
next_nums.emplace_back(nums[k]);
}
for (const auto& op : ops) {
if (((op.first == '+' || op.first == '*') && i > j) ||
(op.first == '/' && nums[j] == 0)) {
continue;
}
next_nums.emplace_back(op.second(nums[i], nums[j]));
if (dfs(next_nums)) {
return true;
}
next_nums.pop_back();
}
}
}
return false;
}
};
class Fraction {
public:
Fraction() = default;
Fraction(int n)
: Fraction(n, 1)
{
}
Fraction(int n, int d)
: numerator_(n)
, denominator_(d)
{
}
~Fraction() = default;
void set_num(int value) { numerator_ = value; }
void set_den(int value) { denominator_ = value; }
int get_num() const { return numerator_; }
int get_den() const { return denominator_; }
void reduce();
int calculate_gcd(int, int) const;
private:
int numerator_, denominator_;
};
void Fraction::reduce()
{
const auto gcd = calculate_gcd(numerator_, denominator_);
numerator_ = numerator_ / gcd;
denominator_ = denominator_ / gcd;
}
int Fraction::calculate_gcd(int a, int b) const
{
a = std::abs(a);
b = std::abs(b);
while (b != 0) {
int tmp = b;
b = a % b;
a = tmp;
}
return a;
}
Fraction operator+(const Fraction& lhs, const Fraction& rhs)
{
Fraction result{};
result.set_num((lhs.get_num() * rhs.get_den()) + (lhs.get_den() * rhs.get_num()));
result.set_den(lhs.get_den() * rhs.get_den());
result.reduce();
return result;
}
Fraction operator-(const Fraction& lhs, const Fraction& rhs)
{
Fraction result{};
result.set_num((lhs.get_num() * rhs.get_den()) - (lhs.get_den() * rhs.get_num()));
result.set_den(lhs.get_den() * rhs.get_den());
result.reduce();
return result;
}
Fraction operator*(const Fraction& lhs, const Fraction& rhs)
{
Fraction result{};
result.set_num(lhs.get_num() * rhs.get_num());
result.set_den(lhs.get_den() * rhs.get_den());
result.reduce();
return result;
}
Fraction operator/(const Fraction& lhs, const Fraction& rhs)
{
Fraction result{};
result.set_num(lhs.get_num() * rhs.get_den());
result.set_den(lhs.get_den() * rhs.get_num());
result.reduce();
return result;
}
bool operator==(const Fraction &lhs, const Fraction &rhs) {
return (((lhs.get_num() * rhs.get_den()) - (rhs.get_num() * lhs.get_den())) == 0);
}
std::ostream &operator<<(std::ostream &os, const Fraction &value) {
os << value.get_num() << "/" << value.get_den();
return os;
}
// Time: O(n^3 * 4^n) = O(1), n = 4
// Space: O(n^2) = O(1)
class Solution2 {
public:
bool judgePoint24(vector<int>& nums) {
vector<Fraction> fraction_nums;
std::transform(nums.begin(), nums.end(), std::back_inserter(fraction_nums),
[](const int num) { return Fraction(num); });
return dfs(fraction_nums);
}
private:
bool dfs(const vector<Fraction>& nums) {
if (nums.size() == 1) {
return nums[0] == 24;
}
static unordered_map<char, std::function<Fraction(Fraction, Fraction)>> ops =
{
{'+', std::plus<Fraction>()},
{'-', std::minus<Fraction>()},
{'*', std::multiplies<Fraction>()},
{'/', std::divides<Fraction>()},
};
for (int i = 0; i < nums.size(); ++i) {
for (int j = 0; j < nums.size(); ++j) {
if (i == j) {
continue;
}
vector<Fraction> next_nums;
for (int k = 0; k < nums.size(); ++k) {
if (k == i || k == j) {
continue;
}
next_nums.emplace_back(nums[k]);
}
for (const auto& op : ops) {
if (((op.first == '+' || op.first == '*') && i > j) ||
(op.first == '/' && nums[j] == 0)) {
continue;
}
next_nums.emplace_back(op.second(nums[i], nums[j]));
if (dfs(next_nums)) {
return true;
}
next_nums.pop_back();
}
}
}
return false;
}
};