src/libgeometry/qball.c - plan9 - Git at Google

 /*
  * Ken Shoemake's Quaternion rotation controller
  */
 #include <u.h>
 #include <libc.h>
 #include <draw.h>
 #include <stdio.h>
 #include <event.h>
 #include <geometry.h>
 #define	BORDER	4
 static Point ctlcen;		/* center of qball */
 static int ctlrad;		/* radius of qball */
 static Quaternion *axis;	/* constraint plane orientation, 0 if none */
 /*
  * Convert a mouse point into a unit quaternion, flattening if
  * constrained to a particular plane.
  */
 static Quaternion mouseq(Point p){
 	double qx=(double)(p.x-ctlcen.x)/ctlrad;
 	double qy=(double)(p.y-ctlcen.y)/ctlrad;
 	double rsq=qx*qx+qy*qy;
 	double l;
 	Quaternion q;
 	if(rsq>1){
 		rsq=sqrt(rsq);
 		q.r=0.;
 		q.i=qx/rsq;
 		q.j=qy/rsq;
 		q.k=0.;
 	}
 	else{
 		q.r=0.;
 		q.i=qx;
 		q.j=qy;
 		q.k=sqrt(1.-rsq);
 	}
 	if(axis){
 		l=q.i*axis->i+q.j*axis->j+q.k*axis->k;
 		q.i-=l*axis->i;
 		q.j-=l*axis->j;
 		q.k-=l*axis->k;
 		l=sqrt(q.i*q.i+q.j*q.j+q.k*q.k);
 		if(l!=0.){
 			q.i/=l;
 			q.j/=l;
 			q.k/=l;
 		}
 	}
 	return q;
 }
 void qball(Rectangle r, Mouse *m, Quaternion *result, void (*redraw)(void), Quaternion *ap){
 	Quaternion q, down;
 	Point rad;
 	axis=ap;
 	ctlcen=divpt(addpt(r.min, r.max), 2);
 	rad=divpt(subpt(r.max, r.min), 2);
 	ctlrad=(rad.x<rad.y?rad.x:rad.y)-BORDER;
 	down=qinv(mouseq(m->xy));
 	q=*result;
 	for(;;){
 		*m=emouse();
 		if(!m->buttons) break;
 		*result=qmul(q, qmul(down, mouseq(m->xy)));
 		(*redraw)();
 	}
 }
	/*
	* Ken Shoemake's Quaternion rotation controller
	*/
	#include <u.h>
	#include <libc.h>
	#include <draw.h>
	#include <stdio.h>
	#include <event.h>
	#include <geometry.h>
	#define BORDER 4
	static Point ctlcen; /* center of qball */
	static int ctlrad; /* radius of qball */
	static Quaternion axis; / constraint plane orientation, 0 if none */
	/*
	* Convert a mouse point into a unit quaternion, flattening if
	* constrained to a particular plane.
	*/
	static Quaternion mouseq(Point p){
	double qx=(double)(p.x-ctlcen.x)/ctlrad;
	double qy=(double)(p.y-ctlcen.y)/ctlrad;
	double rsq=qxqx+qyqy;
	double l;
	Quaternion q;
	if(rsq>1){
	rsq=sqrt(rsq);
	q.r=0.;
	q.i=qx/rsq;
	q.j=qy/rsq;
	q.k=0.;
	}
	else{
	q.r=0.;
	q.i=qx;
	q.j=qy;
	q.k=sqrt(1.-rsq);
	}
	if(axis){
	l=q.iaxis->i+q.jaxis->j+q.k*axis->k;
	q.i-=l*axis->i;
	q.j-=l*axis->j;
	q.k-=l*axis->k;
	l=sqrt(q.iq.i+q.jq.j+q.k*q.k);
	if(l!=0.){
	q.i/=l;
	q.j/=l;
	q.k/=l;
	}
	}
	return q;
	}
	void qball(Rectangle r, Mouse m, Quaternion result, void (redraw)(void), Quaternion ap){
	Quaternion q, down;
	Point rad;
	axis=ap;
	ctlcen=divpt(addpt(r.min, r.max), 2);
	rad=divpt(subpt(r.max, r.min), 2);
	ctlrad=(rad.x<rad.y?rad.x:rad.y)-BORDER;
	down=qinv(mouseq(m->xy));
	q=*result;
	for(;;){
	*m=emouse();
	if(!m->buttons) break;
	*result=qmul(q, qmul(down, mouseq(m->xy)));
	(*redraw)();
	}
	}