comp-geometry

This documentation is automatically generated by online-judge-tools/verification-helper

View the Project on GitHub Luzhiled/comp-geometry

:heavy_check_mark: test/aoj/cgl/4_B.test.cpp

Depends on

Code

// verification-helper: PROBLEM https://onlinejudge.u-aizu.ac.jp/courses/library/4/CGL/4/CGL_4_B
// verification-helper: ERROR 0.000001

#include <iostream>

#include "src/real-geometry/convex/convex-diameter.hpp"
#include "src/real-geometry/utility/io-set.hpp"

int main() {
  using R = long double;

  int n;
  std::cin >> n;

  geometry::polygon<R> poly(n);
  for (auto &p: poly) std::cin >> p;

  std::cout << geometry::convex_diameter(poly) << std::endl;
}
#line 1 "test/aoj/cgl/4_B.test.cpp"
// verification-helper: PROBLEM https://onlinejudge.u-aizu.ac.jp/courses/library/4/CGL/4/CGL_4_B
// verification-helper: ERROR 0.000001

#include <iostream>

#line 2 "src/real-geometry/convex/convex-diameter.hpp"

#line 2 "src/real-geometry/class/polygon.hpp"

#line 2 "src/real-geometry/class/point.hpp"

#line 2 "src/real-geometry/class/vector.hpp"

#include <complex>
#line 5 "src/real-geometry/class/vector.hpp"

namespace geometry {

  template< typename R >
  class vec2d : public std::complex< R > {
    using complex = std::complex< R >;

   public:
    using complex::complex;

    vec2d(const complex &c): complex::complex(c) {}

    const R x() const { return this->real(); }
    const R y() const { return this->imag(); }

    friend vec2d operator*(const vec2d &v, const R &k) {
      return vec2d(v.x() * k, v.y() * k);
    }

    friend vec2d operator*(const R &k, const vec2d &v) {
      return vec2d(v.x() * k, v.y() * k);
    }

    friend std::istream &operator>>(std::istream &is, vec2d &v) {
      R x, y;
      is >> x >> y;
      v = vec2d(x, y);
      return is;
    }
 
  };

}
#line 4 "src/real-geometry/class/point.hpp"

#include <vector>

namespace geometry {

  template< typename R >
  using point = vec2d<R>;

  template< typename R >
  using points = std::vector< point< R > >;

}
#line 4 "src/real-geometry/class/polygon.hpp"

#line 6 "src/real-geometry/class/polygon.hpp"

namespace geometry {

  template< typename R >
  using polygon = std::vector< point<R> >;

  template< typename R >
  using polygons = std::vector< polygon<R> >;

}
#line 2 "src/real-geometry/compare/compare-x.hpp"

#line 2 "src/real-geometry/utility/equals/real-number.hpp"

#line 2 "src/real-geometry/utility/sign.hpp"

#line 2 "src/real-geometry/common/const/eps.hpp"

#line 2 "src/real-geometry/common/float-alias.hpp"

namespace geometry {

  using f80 = long double;
  using f64 = double;

}
#line 4 "src/real-geometry/common/const/eps.hpp"

namespace geometry {

  inline static f80 &eps() {
    static f80 EPS = 1e-10;
    return EPS;
  }

  void set_eps(f80 EPS) {
    eps() = EPS;
  }

}
#line 2 "src/real-geometry/numbers/sign.hpp"

#line 2 "src/real-geometry/common/int-alias.hpp"

namespace geometry {

  using i32 = int;
  using i64 = long long;

}
#line 4 "src/real-geometry/numbers/sign.hpp"

namespace geometry::number::sign {

  constexpr i32 PLUS  = +1;
  constexpr i32 ZERO  =  0;
  constexpr i32 MINUS = -1;

}
#line 5 "src/real-geometry/utility/sign.hpp"

namespace geometry {

  using namespace geometry::number::sign;

  template< typename R >
  inline int sign(R r) {
    if (r < -eps()) return MINUS;
    if (r > +eps()) return PLUS;
    return ZERO;
  }

}
#line 4 "src/real-geometry/utility/equals/real-number.hpp"

namespace geometry {

  template< typename R >
  bool equals(R a, R b) {
    return sign(a - b) == 0;
  }

}
#line 5 "src/real-geometry/compare/compare-x.hpp"

namespace geometry {

  template< typename R >
  bool compare_x(const point<R> &a, const point<R> &b) {
    return not equals(a.x(), b.x()) ? a.x() < b.x() : a.y() < b.y();
  }

}
#line 2 "src/real-geometry/common/size-alias.hpp"

#include <cstddef>

namespace geometry {

  using isize = std::ptrdiff_t;
  using usize = std::size_t;

}
#line 2 "src/real-geometry/operation/cross-product.hpp"

#line 4 "src/real-geometry/operation/cross-product.hpp"

namespace geometry {

  template< typename R >
  R cross_product(const vec2d<R> &a, const vec2d<R> &b) {
    return a.x() * b.y() - a.y() * b.x();
  }

}
#line 2 "src/real-geometry/utility/next-idx.hpp"

#line 4 "src/real-geometry/utility/next-idx.hpp"

namespace geometry {

  inline usize next_idx(usize idx, usize size) {
    return idx + 1 == size ? 0 : idx + 1;
  }

}
#line 9 "src/real-geometry/convex/convex-diameter.hpp"

#line 11 "src/real-geometry/convex/convex-diameter.hpp"
#include <algorithm>

namespace geometry {

  template< typename R >
  R convex_diameter(const polygon<R> &poly) {
    usize n = poly.size();

    if (n == 2) return std::abs(poly[0] - poly[1]);

    usize i = 0, j = 0;
    for (usize k = 0; k < n; k++) {
      if (    compare_x(poly[i], poly[k])) i = k;
      if (not compare_x(poly[j], poly[k])) j = k;
    }

    R res{0};
    usize s = i, t = j;
    while (i != t or j != s) {
      res = std::max(res, std::abs(poly[i] - poly[j]));
      auto u = poly[next_idx(i, n)] - poly[i];
      auto v = poly[next_idx(j, n)] - poly[j];
      if (sign(cross_product<R>(u, v)) == -1) {
        i = next_idx(i, n);
      } else {
        j = next_idx(j, n);
      }
    }

    return res;
  }
}
#line 2 "src/real-geometry/utility/io-set.hpp"

#include <iomanip>

namespace geometry {

  class IoSetup {
    using u32 = unsigned int;

    void set(std::ostream &os, u32 precision) {
      os << std::fixed << std::setprecision(precision);
    }

   public:
    IoSetup(u32 precision = 15) {
      std::cin.tie(0);
      std::ios::sync_with_stdio(0);

      set(std::cout, precision);
      set(std::cerr, precision);
    }
  } iosetup;

}
#line 8 "test/aoj/cgl/4_B.test.cpp"

int main() {
  using R = long double;

  int n;
  std::cin >> n;

  geometry::polygon<R> poly(n);
  for (auto &p: poly) std::cin >> p;

  std::cout << geometry::convex_diameter(poly) << std::endl;
}
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