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In the below program I am trying to rotate the triangle by 45 degree anti-cockwise. The polygon did rotate to some angle and translated to some other place. Please let me know how this can be fixed.

#include<stdio.h>
#include<conio.h>
#include<graphics.h>
#include<math.h>

int main(void)
{
 int poly[8], rpoly[8],angle;
 int gd = DETECT, gm;
 initgraph(&gd,&gm,"C:\\TC\\BGI");

 printf("\n Enter co-ordinates for Triangle :  \n\n");

 printf("Vertex 1 (x,y)  : ");
 scanf("%d %d", &poly[0], &poly[1]);
 printf("Vertex 2 (x,y)  : ");
 scanf("%d %d", &poly[2], &poly[3]);
 printf("Vertex 3 (x,y)  : ");
 scanf("%d %d", &poly[4], &poly[5]);
 poly[6] = poly[0];
 poly[7] = poly[1];

 setcolor(2);
 drawpoly(4,poly);

 angle = 45;
 rpoly[0] = poly[0]*cos(angle) - poly[1]*sin(angle);
 rpoly[1] = poly[0]*sin(angle) + poly[1]*cos(angle);

 rpoly[2] = poly[2]*cos(angle) - poly[3]*sin(angle);
 rpoly[3] = poly[2]*sin(angle) + poly[3]*cos(angle);

 rpoly[4] = poly[4]*cos(angle) - poly[5]*sin(angle);
 rpoly[5] = poly[4]*sin(angle) + poly[5]*cos(angle);

 rpoly[6] = rpoly[0];
 rpoly[7] = rpoly[1];

 setcolor(4);
 drawpoly(4,rpoly);

 getch();
 closegraph();
 return 0;
}

Output: enter image description here

EDIT 1:

In the Output the Red Triangle (i.e Triangle after Rotation) looks bigger than the original one.

New Code

#include<stdio.h>
#include<conio.h>
#include<graphics.h>
#include<math.h>

int main(void)
{
 int poly[8], rpoly[8], angle, centroid_x, centroid_y,i;
 int gd = DETECT, gm;
 initgraph(&gd,&gm,"C:\\TC\\BGI");

 printf("\n Enter co-ordinates for Triangle :  \n\n");

 printf("Vertex 1 (x,y)  : ");
 scanf("%d %d", &poly[0], &poly[1]);
 printf("Vertex 2 (x,y)  : ");
 scanf("%d %d", &poly[2], &poly[3]);
 printf("Vertex 3 (x,y)  : ");
 scanf("%d %d", &poly[4], &poly[5]);
 poly[6] = poly[0];
 poly[7] = poly[1];

 setcolor(2);
 drawpoly(4,poly);

 angle = 45 * 2 * 3.14 / 360;
 centroid_x =  (poly[0] + poly[2] + poly[4]) / 3;
 centroid_y =  (poly[1] + poly[3] + poly[5]) / 3;

 rpoly[0] = (poly[0] - centroid_x) * cos(angle)  -  (poly[1] - centroid_y) * sin(angle)  +  centroid_x;
 rpoly[1] = (poly[0] - centroid_x) * sin(angle)  -  (poly[1] - centroid_y) * cos(angle)  +  centroid_y;

 rpoly[2] = (poly[2] - centroid_x) * cos(angle)  -  (poly[3] - centroid_y) * sin(angle)  +  centroid_x;
 rpoly[3] = (poly[2] - centroid_x) * sin(angle)  -  (poly[3] - centroid_y) * cos(angle)  +  centroid_y;

 rpoly[4] = (poly[4] - centroid_x) * cos(angle)  -  (poly[5] - centroid_y) * sin(angle)  +  centroid_x;
 rpoly[5] = (poly[4] - centroid_x) * sin(angle)  -  (poly[5] - centroid_y) * cos(angle)  +  centroid_y;

 rpoly[6] = rpoly[0];
 rpoly[7] = rpoly[1];

 setcolor(4);
 drawpoly(4,rpoly);

 for(i=0;i<7;i++)
 {printf("\n %d", &rpoly[i]);}

 getch();
 closegraph();
 return 0;
}

OutPut: enter image description here

EDIT 2:

Code after correcting the Y - terms:

#include<stdio.h>
#include<conio.h>
#include<graphics.h>
#include<math.h>

int main(void)
{
 int poly[8], rpoly[8], angle, centroid_x, centroid_y,i;
 int gd = DETECT, gm;
 initgraph(&gd,&gm,"C:\\TC\\BGI");

 printf("\n Enter co-ordinates for Triangle :  \n\n");

 printf("Vertex 1 (x,y)  : ");
 scanf("%d %d", &poly[0], &poly[1]);
 printf("Vertex 2 (x,y)  : ");
 scanf("%d %d", &poly[2], &poly[3]);
 printf("Vertex 3 (x,y)  : ");
 scanf("%d %d", &poly[4], &poly[5]);
 poly[6] = poly[0];
 poly[7] = poly[1];

 setcolor(2);
 drawpoly(4,poly);

 angle = 45 * 2 * 3.14 / 360;
 centroid_x =  (poly[0] + poly[2] + poly[4]) / 3;
 centroid_y =  (poly[1] + poly[3] + poly[5]) / 3;

 rpoly[0] = (poly[0] - centroid_x) * cos(angle)  -  (poly[1] - centroid_y) * sin(angle)  +  centroid_x;
 rpoly[1] = (poly[0] - centroid_x) * sin(angle)  +  (poly[1] - centroid_y) * cos(angle)  +  centroid_y;

 rpoly[2] = (poly[2] - centroid_x) * cos(angle)  -  (poly[3] - centroid_y) * sin(angle)  +  centroid_x;
 rpoly[3] = (poly[2] - centroid_x) * sin(angle)  +  (poly[3] - centroid_y) * cos(angle)  +  centroid_y;

 rpoly[4] = (poly[4] - centroid_x) * cos(angle)  -  (poly[5] - centroid_y) * sin(angle)  +  centroid_x;
 rpoly[5] = (poly[4] - centroid_x) * sin(angle)  +  (poly[5] - centroid_y) * cos(angle)  +  centroid_y;

 rpoly[6] = rpoly[0];
 rpoly[7] = rpoly[1];

 setcolor(4);
 drawpoly(4,rpoly);

// for(i=0;i<8;i++)
// {printf("\n %d", &rpoly[i]);}

 getch();
 closegraph();
 return 0;
}

Output:

enter image description here

share|improve this question

Two problems: sin and cos take arguments in radians, not degrees; and you probably want to rotate your polygon about its centre, not about (0, 0).

To fix the first problem, change:

angle = 45;

to:

angle = 45.0 * 2.0 * M_PI / 360.0;

To fix the second problem you need to first calculate the centroid of your polygon, then do your translations of the coordinates of the vertices relative to the centroid.

share|improve this answer
    
How do I rotate it about its centre ? – Failed_Noob Apr 18 '12 at 16:07
    
What does M_PI stand for ? Is that a Keyword ? – Failed_Noob Apr 18 '12 at 16:13
3  
Failed_Noob, Paul R already said "...you need to first calculate the centroid of your polygon." Wikipedia has several algorithms listed. Or, for a simple triangle, you could use x = (Ax + Bx + Cx) / 3, y = (Ay + By + Cy) / 3 – Brendon Cheves Apr 18 '12 at 16:17
1  
M_PI is just a constant for Pi. – Brendon Cheves Apr 18 '12 at 16:18
    
A doubt... will it work if I rotate each point using the formula provided by Ben Here... – Failed_Noob Apr 18 '12 at 17:08
 rpoly[0] = (poly[0] - centroid_x) * cos(angle)  -  (poly[1] - centroid_y) * sin(angle)  +  centroid_x;
 rpoly[1] = (poly[0] - centroid_x) * sin(angle)  +  (poly[1] - centroid_y) * cos(angle)  +  centroid_y;

rpoly[1] is calculated after rpoly[0] has been changed.

try this;

float newX = .......;
rpoly[0] = newX;
float newY = .......;
rpoly[1] = newY;
share|improve this answer

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