find&&find_if
临时对象——构造函数的调用.根据若干个离散点创建最大外包凸多边形图形算法
//卷包裹法---创建最大外包凸多边形
//stdafx.h
#define PI 3.1415926
#define NULL 0
#define LEN sizeof(struct XYpoint)
long pointSum;
struct XYpoint
{
double x;
double y;
struct XYpoint *next;
};
XYpoint *creat(void);
struct XYpoint *insert(struct XYpoint *head2,struct XYpoint *p);
struct XYpoint *del(struct XYpoint *head,struct XYpoint *p);
struct XYpoint *miny(struct XYpoint *head);
double angle(struct XYpoint *a,struct XYpoint *b,struct XYpoint *c);
double dis(struct XYpoint *a,struct XYpoint *b);
struct XYpoint *tank( struct XYpoint *head ,struct XYpoint *head2);
struct XYpoint *convexHull( struct XYpoint *head ,struct XYpoint *head2);
void print(struct XYpoint *head2);
//stdafx.cpp
#include "stdafx.h"
#include
#include
//using namespace std;
struct XYpoint *creat(void)
{
struct XYpoint *head;
struct XYpoint *p1,*p2;
FILE *fp;
if((fp=fopen("in_put.txt","r"))==NULL)
{
printf("can not open the file\n");
exit(0);
}
pointSum=0;
p1=p2=(struct XYpoint *)malloc(LEN);
fscanf(fp,"%lf,%lf",&p1->x,&p1->y);
head=NULL;
while(!feof(fp))
{
pointSum=pointSum+1;
if(pointSum==1)
head=p1;
else
p2->next=p1;
p2=p1;
p1=(struct XYpoint *)malloc(LEN);
fscanf(fp,"%lf,%lf",&p1->x,&p1->y);
}
p2->next=NULL;
fclose(fp);
return(head);
}
struct XYpoint *insert(struct XYpoint *head2,struct XYpoint *p)
{
struct XYpoint *p1,*p0;
p0=p;
p1=head2;
while(p1->next!=NULL)
{
p1=p1->next;
}
p1->next=p0;
p0->next=NULL;
if (head2->next==NULL)
printf("not been insert!\n");
return (head2);
}
struct XYpoint *del(struct XYpoint *head,struct XYpoint *p)
{
struct XYpoint *p0,*p1;
if(head==NULL)
{
printf("\nlist null\n");
goto end;
}
p0=head;
while((p->x!=p0->x||p->y!=p0->y)&&p0->next!=NULL)
{
p1=p0;
p0=p0->next;
}
if(p->x==p0->x&&p->y==p0->y)
{
if(p0==head)
head=p0->next;
else
p1->next=p0->next;
}
else
printf("not been found!\n");
end:
return (head);
}
struct XYpoint *miny(struct XYpoint *head)
{
double min;
struct XYpoint *p,*p1;
p=head;
min=p->y;
p1=p;
p=p->next;
while (p!=NULL)
{
if (min>p->y)
{min=p->y,p1=p;}
else if(min==p->y&&p1->x>p->x)
{min=p->y,p1=p;}
else p=p->next;
}
return(p1);
}
double angle(struct XYpoint *a,struct XYpoint *b,struct XYpoint *c)
{
struct XYpoint *p0,*p1,*p2;
double dsx,dsy,dex,dey,cosfi,norm,fi;
p0=a;
p1=b;
p2=c;
dsx=p1->x-p0->x;
dsy=p1->y-p0->y;
dex=p2->x-p1->x;
dey=p2->y-p1->y;
cosfi=dsx*dex+dsy*dey;
norm=(dsx*dsx+dsy*dsy)*(dex*dex+dey*dey);
cosfi/=sqrt( norm );
fi=acos(cosfi);
if(cosfi<=-1) fi=PI;
if(cosfi>=1) fi=0;
return(fi);
}
double dis(struct XYpoint *a,struct XYpoint *b)
{
struct XYpoint *p1,*p2;
double dsx,dsy,dx;
p1=a;
p2=b;
dsx=p2->x-p1->x;
dsy=p2->y-p1->y;
dx=sqrt(dsx*dsx+dsy*dsy);
return(dx);
}
struct XYpoint *tank( struct XYpoint *head ,struct XYpoint *head2)
{
double minfi,fi;
double dx,dy;
struct XYpoint *p,*p1,*p2;
p2=p=head;
p1=head2;
minfi=PI;
while(p!=NULL)
{
dx=p->x-p1->x;
dy=p->y-p1->y;
if(dx!=0)
{
fi=atan(dy/dx);
if(fi<0)
fi=fi+PI;
}
else if(dx==0&&dy==0) fi=PI;
else fi=PI/2.0;
if(minfi>=fi)
{
minfi=fi;p2=p;
}
p=p->next;
}
return (p2);
}
struct XYpoint *convexHull( struct XYpoint *head ,struct XYpoint *head2)
{
double min;
double tempAngle;
struct XYpoint *lastP,*nowP,*p,*p1,*p2;
p=head;
nowP=p1=head2;
lastP=nowP;
p1=p1->next;
nowP=p1;
while(p1->next!=NULL)
{
p1=p1->next;
lastP=nowP;
nowP=p1;
}
min=angle(lastP,nowP,p);
p2=p;
p=p->next;
while(p!=NULL)
{
tempAngle=angle(lastP,nowP,p);
if (min>tempAngle)
{
min=tempAngle;
p2=p;
p=p->next;
}
else if(min==tempAngle)
{
if(dis(nowP,p2)
p=p->next;
}
else
{
p=p->next;
}
}
return(p2);
}
void print(struct XYpoint *head2)
{
FILE *fp;
struct XYpoint *p;
p=head2;
if((fp=fopen("out_put.txt","w"))==NULL)
{
printf("can not open the file\n");
exit(0);
}
fprintf(fp,"%ld",pointSum);
fprintf(fp,"\n");
while(p!=NULL)
{
fprintf(fp,"%lf,%lf",p->x,p->y);
fprintf(fp,"\n");
p=p->next;
}
fclose(fp);
}
/*
int _tmain(int argc, _TCHAR* argv[])
{
struct XYpoint *head ,*head2,*pp,*qq;
head=creat();
pp=miny(head);
head2=(struct XYpoint *)malloc(LEN);
head2->x=pp->x;
head2->y=pp->y;
head2->next=NULL;
pp=tank(head,head2);
qq=(struct XYpoint *)malloc(LEN);
qq->x=pp->x;
qq->y=pp->y;
qq->next=NULL;
head2=insert(head2,qq);
head=del(head,pp);
pp=convexHull(head,head2);
do
{
qq=(struct XYpoint *)malloc(LEN);
qq->x=pp->x;
qq->y=pp->y;
qq->next=NULL;
head2=insert(head2,qq);
head=del(head,pp);
pp=convexHull(head,head2);
}while(!(head2->x==pp->x&&head2->y==pp->y));
print(head2);
return 0;
}
*/
//view.h
class CCreateHullView : public CView
{
private:
int m_nPtnum;
XYpoint *m_pPtHead;
XYpoint *m_pHullHead;
};
//view.cpp
CCreateHullView::CCreateHullView()
{
// TODO: add construction code here
m_nPtnum = 0;
m_pPtHead = NULL;
m_pHullHead = NULL;
}
CCreateHullView::~CCreateHullView()
{
if (m_nPtnum > 0)
{
XYpoint *p = m_pPtHead;
while (NULL != p)
{
m_pPtHead = p->next;
p->next = NULL;
delete p;
p = m_pPtHead;
}
m_pPtHead = NULL;
m_nPtnum = 0;
p = m_pHullHead;
while (NULL != p)
{
m_pHullHead = p->next;
p->next = NULL;
delete p;
p = m_pHullHead;
}
m_pHullHead = NULL;
}
}
void CCreateHullView::OnLButtonDown(UINT nFlags, CPoint point)
{
// TODO: Add your message handler code here and/or call default
if (0 == m_nPtnum)
{
m_pPtHead = new XYpoint;
m_pPtHead->x = point.x;
m_pPtHead->y = point.y;
m_pPtHead->next = NULL;
m_nPtnum++;
}
XYpoint *p = new XYpoint;
p->x = point.x;
p->y = point.y;
p->next = m_pPtHead;
m_pPtHead = p;
m_nPtnum++;
Invalidate();
CView::OnLButtonDown(nFlags, point);
}
void CCreateHullView::OnCreateHull()
{
// TODO: Add your command handler code here
if (0 < m_nPtnum)
{
struct XYpoint *head ,*head2,*pp,*qq;
head = m_pPtHead;
pp = miny(head);
head2=(struct XYpoint *)malloc(LEN);
head2->x=pp->x;
head2->y=pp->y;
head2->next=NULL;
pp=tank(head,head2);
qq=(struct XYpoint *)malloc(LEN);
qq->x=pp->x;
qq->y=pp->y;
qq->next=NULL;
head2=insert(head2,qq);
head=del(head,pp);
pp=convexHull(head,head2);
do
{
qq=(struct XYpoint *)malloc(LEN);
qq->x=pp->x;
qq->y=pp->y;
qq->next=NULL;
head2=insert(head2,qq);
head=del(head,pp);
pp=convexHull(head,head2);
}while(!(head2->x==pp->x&&head2->y==pp->y));
//print(head2);
m_pHullHead = head2;
Invalidate();
}
}
void CCreateHullView::OnDraw(CDC* pDC)
{
CCreateHullDoc* pDoc = GetDocument();
ASSERT_VALID(pDoc);
// TODO: add draw code for native data here
XYpoint *p = NULL;
if (0 < m_pHullHead)
{
p = m_pHullHead;
pDC->Rectangle((int)(m_pHullHead->x) - 2, (int)(m_pHullHead->y) - 2, (int)(m_pHullHead->x) + 2, (int)(m_pHullHead->y) + 2);
pDC->MoveTo((int)(m_pHullHead->x), (int)(m_pHullHead->y));
p = m_pHullHead->next;
while (NULL != p)
{
pDC->Rectangle(
(int)(p->x) - 2,
(int)(p->y) - 2,
(int)(p->x) + 2,
(int)(p->y) + 2
);
pDC->LineTo(CPoint((int)p->x, (int)p->y));
p = p->next;
}
p = m_pHullHead;
pDC->LineTo(CPoint((int)p->x, (int)p->y));
}
p = m_pPtHead;
while (NULL != p)
{
pDC->Rectangle(
(int)(p->x) - 2,
(int)(p->y) - 2,
(int)(p->x) + 2,
(int)(p->y) + 2
);
// pDC->FillSolidRect(
// (int)(p->x) - 2,
// (int)(p->y) - 2,
// (int)(p->x) + 2,
// (int)(p->y) + 2,
// RGB(225, 0, 0)
// );
p = p->next;
}
}
不知道可以不,应该可以运行吧,你先试试
可以取x最小的一个点开始,然后遍历所有点,然后取连线逆时针角度最大且小于90度的点作为下一个点,然后以此点为原点重复上一步,直到遇到开始点。
百度浙大ACM模板,或者吉林大学ACM模板,里面应该有求凸包的算法代码。复杂度有nlogn的和n^2的。 或者直接百度凸包算法