/*

poj 1279 Art Gallery - 求多边形核的面积

*/

#include<stdio.h>

#include<math.h>

#include <algorithm>

using namespace std;  

const double eps=1e-8;

struct point

{

	double x,y;

}dian[20000+10];

point jiao[203];

struct line

{

    point s,e;

    double angle;

}xian[20000+10];

int n,yong;

bool mo_ee(double x,double y)

{

    double ret=x-y;

    if(ret<0) ret=-ret;

    if(ret<eps) return 1;

    return 0;

}

bool mo_gg(double x,double y)  {   return x > y + eps;} // x > y

bool mo_ll(double x,double y)  {   return x < y - eps;} // x < y

bool mo_ge(double x,double y) {   return x > y - eps;} // x >= y

bool mo_le(double x,double y) {   return x < y + eps;}     // x <= y

point mo_intersection(point u1,point u2,point v1,point v2)

{

    point ret=u1;

    double t=((u1.x-v1.x)*(v1.y-v2.y)-(u1.y-v1.y)*(v1.x-v2.x))

		/((u1.x-u2.x)*(v1.y-v2.y)-(u1.y-u2.y)*(v1.x-v2.x));

    ret.x+=(u2.x-u1.x)*t;

    ret.y+=(u2.y-u1.y)*t;

    return ret;

}

double mo_xmult(point p2,point p0,point p1)//p1在p2左返回负，在右边返回正

{

    return (p1.x-p0.x)*(p2.y-p0.y)-(p2.x-p0.x)*(p1.y-p0.y);

}  

void mo_HPI_addl(point a,point b)

{

	xian[yong].s=a;

	xian[yong].e=b;

	xian[yong].angle=atan2(b.y-a.y,b.x-a.x);

	yong++;

}

//半平面交

bool mo_HPI_cmp(const line& a,const line& b)

{

	if(mo_ee(a.angle,b.angle))

	{

		return mo_gg( mo_xmult(b.e,a.s,b.s),0);

	}else

	{

		return mo_ll(a.angle,b.angle);

	}

}

int mo_HPI_dq[20000+10];

bool mo_HPI_isout(line cur,line top,line top_1)

{

	point jiao=mo_intersection(top.s,top.e,top_1.s,top_1.e);

	return mo_ll( mo_xmult(cur.e,jiao,cur.s),0);

}

int mo_HalfPlaneIntersect(line *xian,int n,point *jiao)

{

	int i,j,ret=0;

	sort(xian,xian+n,mo_HPI_cmp);

	for (i = 0, j = 0; i < n; i++)

	{

		if (mo_gg(xian[i].angle,xian[j].angle))

		{

			xian[++j] = xian[i];

		}

	}

	n=j+1;

	mo_HPI_dq[0]=0;

	mo_HPI_dq[1]=1;

	int top=1,bot=0;

	for (i = 2; i < n; i++)

	{

        while (top > bot && mo_HPI_isout(xian[i], xian[mo_HPI_dq[top]], xian[mo_HPI_dq[top-1]])) top--;

        while (top > bot && mo_HPI_isout(xian[i], xian[mo_HPI_dq[bot]], xian[mo_HPI_dq[bot+1]])) bot++;

        mo_HPI_dq[++top] = i; //当前半平面入栈

	}

    while (top > bot && mo_HPI_isout(xian[mo_HPI_dq[bot]], xian[mo_HPI_dq[top]], xian[mo_HPI_dq[top-1]])) top--;

    while (top > bot && mo_HPI_isout(xian[mo_HPI_dq[top]], xian[mo_HPI_dq[bot]], xian[mo_HPI_dq[bot+1]])) bot++;

    mo_HPI_dq[++top] = mo_HPI_dq[bot];

    for (ret = 0, i = bot; i < top; i++, ret++)

	{

		jiao[ret]=mo_intersection(xian[mo_HPI_dq[i+1]].s,xian[mo_HPI_dq[i+1]].e,xian[mo_HPI_dq[i]].s,xian[mo_HPI_dq[i]].e);

	}

	return ret;

}

//求多边形面积

double mo_area_polygon(point *dian,int n)

{

	int i;

	point yuan;

	yuan.x=yuan.y=0;

	double ret=0;

	for(i=0;i<n;++i)

	{

		ret+=mo_xmult(dian[(i+1)%n],yuan,dian[i]);

	}

	return ret;

}

int main()

{

	int i,iofcase=1,t;

	scanf("%d",&t);

	while(t--)

	{

		scanf("%d",&n);

		yong=0;

		for(i=0;i<n;++i)

		{

			scanf("%lf%lf",&dian[i].x,&dian[i].y);

		}

		double area=mo_area_polygon(dian,n);

		if(area<0)//若是顺时针

		{

			for(i=0;i<n;++i)

			{

				mo_HPI_addl(dian[(i+1)%n],dian[i]);

			}

		}else

		{

			for(i=0;i<n;++i)

			{

				mo_HPI_addl(dian[i],dian[(i+1)%n]);

			}

		}

		int ret=mo_HalfPlaneIntersect(xian,n,jiao);

		area=mo_area_polygon(jiao,ret);

		if(area<0) area=-area;

		area=area/2;

		printf("%.2lf\n",area);

	}

	return 0;

}