src/common/disk2square.c

#ifndef lint
static const char RCSid[] = "$Id: disk2square.c,v 3.4 2014/10/23 18:19:14 greg Exp $";
#endif
/*
 *  Disk2Square.c
 *  
 * Code by Peter Shirley and Kenneth Chiu
 *
 * Associated paper in ~/Documents/Others/Shirley+Chiu_JGT-97.pdf
 *
 * Modified interface slightly (G. Ward)
 */

#define _USE_MATH_DEFINES
#include <math.h>

/*
 This transforms points on [0,1]^2 to points on unit disk centered at
 origin.  Each "pie-slice" quadrant of square is handled as a seperate
 case.  The bad floating point cases are all handled appropriately.
 The regions for (a,b) are:

        phi = pi/2
       -----*-----
       |\       /|
       |  \ 2 /  |
       |   \ /   |
 phi=pi* 3  *  1 *phi = 0
       |   / \   |
       |  / 4 \  |
       |/       \|
       -----*-----
        phi = 3pi/2

change log:
    26 feb 2004.  bug fix in computation of phi (now this matches the paper,
                  which is correct).  thanks to Atilim Cetin for catching this.
*/


/* Map a [0,1]^2 square to a unit radius disk */
void
square2disk(RREAL ds[2], double seedx, double seedy)
{

   double phi, r;
   double a = 2.*seedx - 1;   /* (a,b) is now on [-1,1]^2 */
   double b = 2.*seedy - 1;

   if (a > -b) {     /* region 1 or 2 */
       if (a > b) {  /* region 1, also |a| > |b| */
           r = a;
           phi = (M_PI/4.) * (b/a);
       }
       else       {  /* region 2, also |b| > |a| */
           r = b;
           phi = (M_PI/4.) * (2. - (a/b));
       }
   }
   else {        /* region 3 or 4 */
       if (a < b) {  /* region 3, also |a| >= |b|, a != 0 */
            r = -a;
            phi = (M_PI/4.) * (4. + (b/a));
       }
       else       {  /* region 4, |b| >= |a|, but a==0 and b==0 could occur. */
            r = -b;
            if (b != 0.)
                phi = (M_PI/4.) * (6. - (a/b));
            else
                phi = 0.;
       }
   }
   r *= 0.9999999999999;        /* prophylactic against MS sin()/cos() impl. */
   ds[0] = r * cos(phi);
   ds[1] = r * sin(phi);

}

/* Map point on unit disk to a unit square in [0,1]^2 range */
void
disk2square(RREAL sq[2], double diskx, double disky)
{
    double r = sqrt( diskx*diskx + disky*disky );
    double phi = atan2( disky, diskx );
    double a, b;

    if (phi < -M_PI/4) phi += 2*M_PI;  /* in range [-pi/4,7pi/4] */
    if ( phi < M_PI/4) {         /* region 1 */
        a = r;
        b = phi * a / (M_PI/4);
    }
    else if ( phi < 3*M_PI/4 ) { /* region 2 */
        b = r;
        a = -(phi - M_PI/2) * b / (M_PI/4);
    }
    else if ( phi < 5*M_PI/4 ) { /* region 3 */
        a = -r;
        b = (phi - M_PI) * a / (M_PI/4);
    }
    else {                       /* region 4 */
        b = -r;
        a = -(phi - 3*M_PI/2) * b / (M_PI/4);
    }

    sq[0] = a*(0.5/0.9999999999999) + 0.5;
    sq[1] = b*(0.5/0.9999999999999) + 0.5;
}
Revision:	3.5
Committed:	Wed Dec 15 01:38:50 2021 UTC (3 years, 4 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 3.4:	+3 -3 lines
Log Message:	refactor: removed prefix from SDdisk2square() and SDsquare2disk() & made consistent
#	User	Rev	Content
1	greg	3.2	#ifndef lint
2	greg	3.5	static const char RCSid[] = "$Id: disk2square.c,v 3.4 2014/10/23 18:19:14 greg Exp $";
3	greg	3.2	#endif
4	greg	3.1	/*
5			* Disk2Square.c
6			*
7			* Code by Peter Shirley and Kenneth Chiu
8			*
9			* Associated paper in ~/Documents/Others/Shirley+Chiu_JGT-97.pdf
10			*
11			* Modified interface slightly (G. Ward)
12			*/
13
14	greg	3.3	#define _USE_MATH_DEFINES
15	greg	3.1	#include <math.h>
16
17			/*
18			This transforms points on [0,1]^2 to points on unit disk centered at
19			origin. Each "pie-slice" quadrant of square is handled as a seperate
20			case. The bad floating point cases are all handled appropriately.
21			The regions for (a,b) are:
22
23			phi = pi/2
24			-----*-----
25			\|\ /\|
26			\| \ 2 / \|
27			\| \ / \|
28			phi=pi* 3 * 1 *phi = 0
29			\| / \ \|
30			\| / 4 \ \|
31			\|/ \\|
32			-----*-----
33			phi = 3pi/2
34
35			change log:
36			26 feb 2004. bug fix in computation of phi (now this matches the paper,
37			which is correct). thanks to Atilim Cetin for catching this.
38			*/
39
40
41			/* Map a [0,1]^2 square to a unit radius disk */
42			void
43	greg	3.5	square2disk(RREAL ds[2], double seedx, double seedy)
44	greg	3.1	{
45
46			double phi, r;
47			double a = 2.seedx - 1; / (a,b) is now on [-1,1]^2 */
48			double b = 2.*seedy - 1;
49
50			if (a > -b) { /* region 1 or 2 */
51			if (a > b) { /* region 1, also \|a\| > \|b\| */
52			r = a;
53			phi = (M_PI/4.) * (b/a);
54			}
55			else { /* region 2, also \|b\| > \|a\| */
56			r = b;
57			phi = (M_PI/4.) * (2. - (a/b));
58			}
59			}
60			else { /* region 3 or 4 */
61			if (a < b) { /* region 3, also \|a\| >= \|b\|, a != 0 */
62			r = -a;
63			phi = (M_PI/4.) * (4. + (b/a));
64			}
65			else { /* region 4, \|b\| >= \|a\|, but a==0 and b==0 could occur. */
66			r = -b;
67			if (b != 0.)
68			phi = (M_PI/4.) * (6. - (a/b));
69			else
70			phi = 0.;
71			}
72			}
73	greg	3.4	r = 0.9999999999999; / prophylactic against MS sin()/cos() impl. */
74	greg	3.1	ds[0] = r * cos(phi);
75			ds[1] = r * sin(phi);
76
77			}
78
79			/* Map point on unit disk to a unit square in [0,1]^2 range */
80			void
81	greg	3.5	disk2square(RREAL sq[2], double diskx, double disky)
82	greg	3.1	{
83			double r = sqrt( diskxdiskx + diskydisky );
84			double phi = atan2( disky, diskx );
85			double a, b;
86
87			if (phi < -M_PI/4) phi += 2M_PI; / in range [-pi/4,7pi/4] */
88			if ( phi < M_PI/4) { /* region 1 */
89			a = r;
90			b = phi * a / (M_PI/4);
91			}
92			else if ( phi < 3M_PI/4 ) { / region 2 */
93			b = r;
94			a = -(phi - M_PI/2) * b / (M_PI/4);
95			}
96			else if ( phi < 5M_PI/4 ) { / region 3 */
97			a = -r;
98			b = (phi - M_PI) * a / (M_PI/4);
99			}
100			else { /* region 4 */
101			b = -r;
102			a = -(phi - 3M_PI/2) b / (M_PI/4);
103			}
104
105	greg	3.4	sq[0] = a*(0.5/0.9999999999999) + 0.5;
106			sq[1] = b*(0.5/0.9999999999999) + 0.5;
107	greg	3.1	}