首页 > 代码库 > poj1584--A Round Peg in a Ground Hole(判断凸包,并且判断圆是否在凸包内)
poj1584--A Round Peg in a Ground Hole(判断凸包,并且判断圆是否在凸包内)
A Round Peg in a Ground Hole
Time Limit: 1000MS | Memory Limit: 10000K | |
Total Submissions: 5399 | Accepted: 1712 |
Description
The DIY Furniture company specializes in assemble-it-yourself furniture kits. Typically, the pieces of wood are attached to one another using a wooden peg that fits into pre-cut holes in each piece to be attached. The pegs have a circular cross-section and so are intended to fit inside a round hole.
A recent factory run of computer desks were flawed when an automatic grinding machine was mis-programmed. The result is an irregularly shaped hole in one piece that, instead of the expected circular shape, is actually an irregular polygon. You need to figure out whether the desks need to be scrapped or if they can be salvaged by filling a part of the hole with a mixture of wood shavings and glue.
There are two concerns. First, if the hole contains any protrusions (i.e., if there exist any two interior points in the hole that, if connected by a line segment, that segment would cross one or more edges of the hole), then the filled-in-hole would not be structurally sound enough to support the peg under normal stress as the furniture is used. Second, assuming the hole is appropriately shaped, it must be big enough to allow insertion of the peg. Since the hole in this piece of wood must match up with a corresponding hole in other pieces, the precise location where the peg must fit is known.
Write a program to accept descriptions of pegs and polygonal holes and determine if the hole is ill-formed and, if not, whether the peg will fit at the desired location. Each hole is described as a polygon with vertices (x1, y1), (x2, y2), . . . , (xn, yn). The edges of the polygon are (xi, yi) to (xi+1, yi+1) for i = 1 . . . n ? 1 and (xn, yn) to (x1, y1).
A recent factory run of computer desks were flawed when an automatic grinding machine was mis-programmed. The result is an irregularly shaped hole in one piece that, instead of the expected circular shape, is actually an irregular polygon. You need to figure out whether the desks need to be scrapped or if they can be salvaged by filling a part of the hole with a mixture of wood shavings and glue.
There are two concerns. First, if the hole contains any protrusions (i.e., if there exist any two interior points in the hole that, if connected by a line segment, that segment would cross one or more edges of the hole), then the filled-in-hole would not be structurally sound enough to support the peg under normal stress as the furniture is used. Second, assuming the hole is appropriately shaped, it must be big enough to allow insertion of the peg. Since the hole in this piece of wood must match up with a corresponding hole in other pieces, the precise location where the peg must fit is known.
Write a program to accept descriptions of pegs and polygonal holes and determine if the hole is ill-formed and, if not, whether the peg will fit at the desired location. Each hole is described as a polygon with vertices (x1, y1), (x2, y2), . . . , (xn, yn). The edges of the polygon are (xi, yi) to (xi+1, yi+1) for i = 1 . . . n ? 1 and (xn, yn) to (x1, y1).
Input
Input consists of a series of piece descriptions. Each piece description consists of the following data:
Line 1 < nVertices > < pegRadius > < pegX > < pegY >
number of vertices in polygon, n (integer)
radius of peg (real)
X and Y position of peg (real)
n Lines < vertexX > < vertexY >
On a line for each vertex, listed in order, the X and Y position of vertex The end of input is indicated by a number of polygon vertices less than 3.
Line 1 < nVertices > < pegRadius > < pegX > < pegY >
number of vertices in polygon, n (integer)
radius of peg (real)
X and Y position of peg (real)
n Lines < vertexX > < vertexY >
On a line for each vertex, listed in order, the X and Y position of vertex The end of input is indicated by a number of polygon vertices less than 3.
Output
For each piece description, print a single line containing the string:
HOLE IS ILL-FORMED if the hole contains protrusions
PEG WILL FIT if the hole contains no protrusions and the peg fits in the hole at the indicated position
PEG WILL NOT FIT if the hole contains no protrusions but the peg will not fit in the hole at the indicated position
HOLE IS ILL-FORMED if the hole contains protrusions
PEG WILL FIT if the hole contains no protrusions and the peg fits in the hole at the indicated position
PEG WILL NOT FIT if the hole contains no protrusions but the peg will not fit in the hole at the indicated position
Sample Input
5 1.5 1.5 2.01.0 1.02.0 2.01.75 2.01.0 3.00.0 2.05 1.5 1.5 2.01.0 1.02.0 2.01.75 2.51.0 3.00.0 2.01
Sample Output
HOLE IS ILL-FORMEDPEG WILL NOT FIT
Source
Mid-Atlantic 2003
题意:给出n个点,按顺时针或逆时针给出,问是不是凸包,和判断圆在不在凸包内。
如果图形是凸包,对任意连续三个点a,b,c的叉乘(b-a,c-b)的正负相同,也就是说在同一边,这样就可以判断凸包。
判断圆在不在凸包内,首先判断圆心,在不在凸包内,如果在凸包内的话叉乘(b-a,r-a)得到的正负应该与判断凸包时相同。
然后判断每条边到圆心的距离是否大于半径,由叉乘(b-a,r-a)得到以<a,b> <a,r>为边的平行四边形面积,再除以<a,b>的距离就可以了。
#include <cstdio>#include <cstring>#include <cmath>#include <cstdlib>#include <algorithm>using namespace std ;#define eps 1e-8struct node{ double x , y ;}p[10005] , q ;double r , r_x , r_y ;node sub(node a,node b){ a.x -= b.x ; a.y -= b.y ; return a ;}int mul(node a,node b){ if( a.x*b.y - a.y*b.x >= 0 ) return 1 ; else return -1 ;}double dis(node a,node b){ if( fabs(a.x-b.x) < eps ) return fabs(q.x-a.x) ; else if( fabs(a.y-b.y) < eps ) return fabs(q.y-a.y) ; else { node s , e ; s = sub(a,b) ; e = sub(q,b) ; return fabs(s.x*e.y-s.y*e.x)/( sqrt( (a.x-b.x)*(a.x-b.x) + (a.y-b.y)*(a.y-b.y) ) ); }}int main(){ int n , i , j , flag ; while( scanf("%d", &n) && n >= 3 ) { scanf("%lf %lf %lf", &r, &q.x, &q.y) ; for(i = 0 ; i < n ; i++) scanf("%lf %lf", &p[i].x, &p[i].y) ; p[n] = p[0] ; flag = mul(sub(p[1],p[0]),sub(p[2],p[1])) ; for(i = 1 ; i < n ; i++) { if( flag != mul(sub(p[i],p[i-1]),sub(p[i+1],p[i]) ) ) break ; } if( i < n ) { printf("HOLE IS ILL-FORMED\n") ; continue ; } for(i = 0 ; i < n ; i++) { if( flag != mul( sub(p[i+1],p[i]),sub(q,p[i]) ) ) break ; //printf("%d %lf\n", i, dis(p[i],p[i+1]) ) ; if( dis(p[i],p[i+1]) - r < 0 ) break ; } if( i < n ) printf("PEG WILL NOT FIT\n") ; else printf("PEG WILL FIT\n") ; } return 0;}
poj1584--A Round Peg in a Ground Hole(判断凸包,并且判断圆是否在凸包内)
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