可真是道恶心题……

首先翻译一下6个任务：

1. 给出一个三角形，求它的外界圆。
2. 给出一个三角形，求它的内接圆。
3. 给出一个圆和一个点，求过这个点的切线的倾斜角\(\alpha \in [0,180)\)。（这个点可能在圆内或圆上）
4. 给出一条切线、圆上一点和圆的半径，求圆心位置。（此问题和后面的问题都可能无解或有多个解）
5. 给出两条切线和圆的半径，求圆心位置。
6. 给出两个外切圆和半径，求圆心位置。

若有多个解，从小到大输出答案。（点排序时以\(x\)为第一关键字）

可以发现，上面的问题经过简单的转换后，就是要求我们实现：

• 求点到直线的距离。
• 求点在直线上的垂足。
• 求直线的垂直平分线。
• 求角的平分线。
• 求两条直线的交点。
• 求圆和一条直线的交点。
• 求两个圆的交点。

然后，我们写\(O(1)\)个小时就能写出来了（大雾

#include <bits/stdc++.h>

using namespace std;

typedef double db;

const db eps = 1e-8, INF = 1.0 / 0.0, pi = acos(-1);

inline int judge(db x) {

  return x > -eps ? x > eps ? 1 : 0 : -1;

}

#define NULLP point(INF,INF)

struct point {

  db x,y;

  point(db x_=0,db y_=0): x(x_), y(y_) {}

  db abs() const {

    return sqrt(x * x + y * y);

  }

  db norm() const {

    return x * x + y * y;

  }

  bool operator < (const point& a) const {

    return judge(x - a.x) != 0 ? judge(x - a.x) < 0 : judge(y - a.y) < 0;

  }

  point operator - () const {

    return point(-x, -y);

  }

  point operator * (const db& a) const {

    return point(x * a, y * a);

  }

  point operator / (const db& a) const {

    return point(x / a, y / a);

  }

  point* operator *= (const db& a) {

    return *this = *this * a, this;

  }

  point* operator /= (const db& a) {

    return *this = *this / a, this;

  }

  point operator + (const point& a) const {

    return point(x + a.x, y + a.y);

  }

  point operator - (const point& a) const {

    return point(x - a.x, y - a.y);

  }

  point* operator += (const point& a) {

    return *this = *this + a, this;

  }

  point* operator -= (const point& a) {

    return *this = *this - a, this;

  }

  bool avail() {

    return (fabs(x) != INF) && (fabs(y) != INF);

  }

};

db dot(point a,point b) {

  return a.x * b.x + a.y * b.y;

}

db cross(point a,point b) {

  return a.x * b.y - a.y * b.x;

}

point unit(point a) {

  db t = a.abs();

  if (judge(t) == 0) return a;

  return a / t;

}

struct line {

  point u,v;

  line(point u_=point(),point v_=point()): u(u_) {

    v = unit(v_);

  }

};

db dist(point u,line l) {

  return fabs(cross(u - l.u,l.v));

}

point foot_point(point u,line l) {

  return l.u + (l.v * dot(u - l.u,l.v));

}

point perpen(point a) {

  return point(a.y, -a.x);

}

point crossover(line a,line b) {

  if (judge(cross(a.v,b.v)) == 0) return NULLP;

  point f1 = foot_point(b.u,a);

  point f2 = foot_point(f1,b);

  if (judge(dot(f2 - b.u,b.v)) < 0) b.v = -b.v;

  return b.u + b.v * ((f1 - b.u).norm() / (f2 - b.u).abs());

}

line perpen_bi(point a,point b) {

  return line((a + b) / 2, perpen(b - a));

}

struct angle {

  point o,u,v;

  angle(point o_=point(),point u_=point(),point v_=point()): o(o_) {

    u = unit(u_);

    v = unit(v_);

  }

  line bise() const {

    return line(o,u + v);

  }

};

struct circle {

  point o;

  db r;

  circle(point o_=point(),db r_=0): o(o_), r(r_) {}

};

pair<point,point> crossover(circle c,line l) {

  point f = foot_point(c.o,l);

  db d = dist(c.o,l);

  if (judge(d - c.r) > 0) return make_pair(NULLP,NULLP);

  if (judge(d - c.r) == 0) return make_pair(f,NULLP);

  db t = sqrt(c.r * c.r - d * d);

  return make_pair(f + (l.v * t), f - (l.v * t));

}

pair<point,point> crossover(circle c1,circle c2) {

  if (judge(c1.r - c2.r) < 0) swap(c1,c2);

  db d = (c1.o - c2.o).abs();

  if (judge(d - c1.r - c2.r) > 0) return make_pair(NULLP,NULLP);

  if (judge(c1.r - c2.r - d) > 0) return make_pair(NULLP,NULLP);

  db co = (d * d + c1.r * c1.r - c2.r * c2.r) / (2 * d * c1.r);

  line l = line(c1.o,c2.o - c1.o);

  point h = l.u + (l.v * c1.r * co);

  line t = line(h,perpen(l.v));

  return crossover(c1,t);

}

circle CircumscribedCircle(point a,point b,point c) {

  line l1 = perpen_bi(a,b);

  line l2 = perpen_bi(b,c);

  point o = crossover(l1,l2);

  return circle(o,(o - a).abs());

}

circle InscribedCircle(point a,point b,point c) {

  angle a1 = angle(a,b - a,c - a);

  angle a2 = angle(b,a - b,c - b);

  line l1 = a1.bise();

  line l2 = a2.bise();

  point o = crossover(l1,l2);

  return circle(o,dist(o,line(a,b-a)));

}

void TangentLineThroughPoint(circle c,point p) {

  db d = (p - c.o).abs();

  if (judge(d - c.r) < 0) return (void) (puts("[]"));

  if (judge(d - c.r) == 0) {

    point t = perpen(p - c.o);

    db ret = atan(t.y  / t.x) / pi * 180;

    if (judge(ret) < 0) ret = ret + 180;

    return (void) (printf("[%.6lf]\n",ret));

  }

  db r = sqrt(d * d - c.r * c.r);

  pair<point,point> tmp = crossover(circle(p,r),c);

  point t;

  db ret1, ret2;

  t = tmp.first - p;

  ret1 = atan(t.y / t.x) / pi * 180;

  if (judge(ret1) < 0) ret1 += 180;

  t = tmp.second - p;

  ret2 = atan(t.y / t.x) / pi * 180;

  if (judge(ret2) < 0) ret2 += 180;

  if (judge(ret1 - ret2) > 0) swap(ret1,ret2);

  printf("[%.6lf,%.6lf]\n",ret1,ret2);

}

void output(vector<point>& ret) {

  sort(ret.begin(),ret.end());

  if (ret.size() == 0) return (void) (puts("[]"));

  printf("[(%.6lf,%.6lf)",ret[0].x,ret[0].y);

  for (int i = 1 ; i < (int)ret.size() ; ++ i)

    printf(",(%.6lf,%.6lf)",ret[i].x,ret[i].y);

  puts("]");

}

void CircleThroughAPointAndTangentToALineWithRadius(point p,line l,db r) {

  static vector<point> ret;

  ret.clear();

  point t = perpen(l.v);

  line l1 = line(l.u + (t * r),l.v);

  line l2 = line(l.u - (t * r),l.v);

  circle c = circle(p,r);

  pair<point,point> tmp;

  tmp = crossover(c,l1);

  if (tmp.first.avail()) ret.push_back(tmp.first);

  if (tmp.second.avail()) ret.push_back(tmp.second);

  tmp = crossover(c,l2);

  if (tmp.first.avail()) ret.push_back(tmp.first);

  if (tmp.second.avail()) ret.push_back(tmp.second);

  output(ret);

}

void CircleTangentToTwoLinesWithRadius(line a,line b,db r) {

  static vector<point> ret;

  ret.clear();

  point t;

  t = perpen(a.v);

  line a1 = line(a.u + (t * r),a.v);

  line a2 = line(a.u - (t * r),a.v);

  t = perpen(b.v);

  line b1 = line(b.u + (t * r),b.v);

  line b2 = line(b.u - (t * r),b.v);

  t = crossover(a1,b1);

  if (t.avail()) ret.push_back(t);

  t = crossover(a1,b2);

  if (t.avail()) ret.push_back(t);

  t = crossover(a2,b1);

  if (t.avail()) ret.push_back(t);

  t = crossover(a2,b2);

  if (t.avail()) ret.push_back(t);

  output(ret);

}

void CircleTangentToTwoDisjointCirclesWithRadius(circle c1,circle c2,db r) {

  static vector<point> ret;

  ret.clear();

  c1.r += r;

  c2.r += r;

  pair<point,point> tmp;

  tmp = crossover(c1,c2);

  if (tmp.first.avail()) ret.push_back(tmp.first);

  if (tmp.second.avail()) ret.push_back(tmp.second);

  output(ret);

}

int main() {

  string tmp;

  point a,b,c,d;

  circle cir;

  db t,t1,t2;

  while (cin >> tmp) {

    if (tmp == "CircumscribedCircle") {

      scanf("%lf%lf%lf%lf%lf%lf",&a.x,&a.y,&b.x,&b.y,&c.x,&c.y);

      cir = CircumscribedCircle(a,b,c);

      printf("(%.6lf,%.6lf,%.6lf)\n",cir.o.x,cir.o.y,cir.r);

    }

    if (tmp == "InscribedCircle") {

      scanf("%lf%lf%lf%lf%lf%lf",&a.x,&a.y,&b.x,&b.y,&c.x,&c.y);

      cir = InscribedCircle(a,b,c);

      printf("(%.6lf,%.6lf,%.6lf)\n",cir.o.x,cir.o.y,cir.r);

    }

    if (tmp == "TangentLineThroughPoint") {

      scanf("%lf%lf%lf%lf%lf",&cir.o.x,&cir.o.y,&cir.r,&a.x,&a.y);

      TangentLineThroughPoint(cir,a);

    }

    if (tmp == "CircleThroughAPointAndTangentToALineWithRadius") {

      scanf("%lf%lf%lf%lf%lf%lf%lf",&a.x,&a.y,&b.x,&b.y,&c.x,&c.y,&t);

      CircleThroughAPointAndTangentToALineWithRadius(a,line(b,c - b),t);

    }

    if (tmp == "CircleTangentToTwoLinesWithRadius") {

      scanf("%lf%lf%lf%lf%lf%lf%lf%lf%lf",&a.x,&a.y,&b.x,&b.y,&c.x,&c.y,&d.x,&d.y,&t);

      CircleTangentToTwoLinesWithRadius(line(a,b-a),line(c,d-c),t);

    }

    if (tmp == "CircleTangentToTwoDisjointCirclesWithRadius") {

      scanf("%lf%lf%lf%lf%lf%lf%lf",&a.x,&a.y,&t1,&b.x,&b.y,&t2,&t);

      CircleTangentToTwoDisjointCirclesWithRadius(circle(a,t1),circle(b,t2),t);

    }

  }

  return 0;

}

小结：我写得太久了。敲键盘时还总是有迟疑。