src/gen/genrev.c

#ifndef lint
static const char       RCSid[] = "$Id: genrev.c,v 2.9 2008/10/11 04:29:39 greg Exp $";
#endif
/*
 *  genrev.c - program to generate functions of rotation about z
 *
 *      The program takes as input the functions of t for z and r
 *      (the radius).  If z is increasing, the normal points
 *      outward, inward for decreasing z.  Negative radii are forbidden.
 *
 *      8/6/86
 */

#include  <stdlib.h>
#include  <stdio.h>
#include  <string.h>
#include  <math.h>

#include  "rterror.h"
#include  "resolu.h"
#include  "calcomp.h"

#define  ZNAME          "Z`SYS`"                /* z function name */
#define  RNAME          "R`SYS`"                /* r function name */

#define  PI             3.14159265358979323846

#define  FTINY          1e-9
                                        /* orientation */
#define  OUT            01
#define  IN             02
#define  UP             04
#define  DOWN           010


void
computen(nzp, nrp, z0, r0, z1, r1)              /* compute normal */
double  *nzp, *nrp, z0, r0, z1, r1;
{
        double  dr, dz, len;

        dz = r0 - r1;                           /* right angle vector */
        dr = z1 - z0;
        len = sqrt(dr*dr + dz*dz);
        *nzp = dz/len;
        *nrp = dr/len;
}


double
l_hermite(char *nm)
{
        double  t;
        
        t = argument(5);
        return( argument(1)*((2.0*t-3.0)*t*t+1.0) +
                argument(2)*(-2.0*t+3.0)*t*t +
                argument(3)*((t-2.0)*t+1.0)*t +
                argument(4)*(t-1.0)*t*t );
}


double
l_bezier(char *nm)
{
        double  t;

        t = argument(5);
        return( argument(1) * (1.+t*(-3.+t*(3.-t))) +
                argument(2) * 3.*t*(1.+t*(-2.+t)) +
                argument(3) * 3.*t*t*(1.-t) +
                argument(4) * t*t*t );
}


double
l_bspline(char *nm)
{
        double  t;

        t = argument(5);
        return( argument(1) * (1./6.+t*(-1./2.+t*(1./2.-1./6.*t))) +
                argument(2) * (2./3.+t*t*(-1.+1./2.*t)) +
                argument(3) * (1./6.+t*(1./2.+t*(1./2.-1./2.*t))) +
                argument(4) * (1./6.*t*t*t) );
}


int
main(argc, argv)
int  argc;
char  *argv[];
{
        char  stmp[256];
        char  *modname;
        int  smooth = 0;
        double  t, lastz, z, nextz, lastr, r, nextr;
        double  lastnz, lastnr, nz, nr, nextnz, nextnr;
        int  i, nseg;
        int  orient;

        varset("PI", ':', PI);
        funset("hermite", 5, ':', l_hermite);
        funset("bezier", 5, ':', l_bezier);
        funset("bspline", 5, ':', l_bspline);

        if (argc < 6)
                goto userror;

        for (i = 6; i < argc; i++)
                if (!strcmp(argv[i], "-e"))
                        scompile(argv[++i], NULL, 0);
                else if (!strcmp(argv[i], "-f"))
                        fcompile(argv[++i]);
                else if (!strcmp(argv[i], "-s"))
                        smooth = 1;
                else
                        goto userror;

        sprintf(stmp, "%s(t)=%s;", ZNAME, argv[3]);
        scompile(stmp, NULL, 0);
        sprintf(stmp, "%s(t)=%s;", RNAME, argv[4]);
        scompile(stmp, NULL, 0);
        nseg = atoi(argv[5]);
        if (nseg <= 0)
                goto userror;
        modname = smooth ? "Phong" : argv[1];

        fputs("# ", stdout);
        printargs(argc, argv, stdout);
        eclock = 0;

        lastnz = lastnr = 0.0;
        t = 0.0;
        lastz = funvalue(ZNAME, 1, &t);
        lastr = funvalue(RNAME, 1, &t);
        t = 1.0/nseg;
        z = funvalue(ZNAME, 1, &t);
        r = funvalue(RNAME, 1, &t);
        computen(&nz, &nr, lastz, lastr, z, r);
        for (i = 1; i <= nseg; i++) {
                if (i < nseg) {
                        t = (double)(i+1)/nseg;
                        nextz = funvalue(ZNAME, 1, &t);
                        nextr = funvalue(RNAME, 1, &t);
                        computen(&nextnz, &nextnr, z, r, nextz, nextr);
                } else
                        nextnz = nextnr = 0.0;
                orient = 0;
                if (z < lastz-FTINY)
                        orient |= DOWN;
                else if (z > lastz+FTINY)
                        orient |= UP;
                if (r < lastr-FTINY)
                        orient |= IN;
                else if (r > lastr+FTINY)
                        orient |= OUT;
                if (!orient)
                        goto endfor;
                if (smooth) {
                        printf("\n%s texfunc Phong\n", argv[1]);
                        printf("4 rev_dx rev_dy rev_dz rev.cal\n");
                        printf("0\n4\n");
                        if (orient&(UP|DOWN)) {
                                t = (nextnz - lastnz)/(z - lastz);
                                printf("\t%18.12g\t%18.12g\n",
                                                t, lastnz - t*lastz);
                        } else
                                printf("\t0\t%d\n", orient&IN ? 1 : -1);
                        if (orient&(OUT|IN))  {
                                t = (nextnr - lastnr)/(r - lastr);
                                printf("\t%18.12g\t%18.12g\n",
                                                t, lastnr - t*lastr);
                        } else
                                printf("\t0\t%d\n", orient&UP ? 1 : -1);
                }
                if (!(orient&(IN|OUT))) {
                        printf("\n%s %s %s.%d\n", modname,
                                        orient&DOWN ? "tube" : "cylinder",
                                        argv[2], i);
                        printf("0\n0\n7\n");
                        printf("\t0\t0\t%18.12g\n", lastz);
                        printf("\t0\t0\t%18.12g\n", z);
                        printf("\t%18.12g\n", r);
                } else if (!(orient&(UP|DOWN))) {
                        printf("\n%s ring %s.%d\n", modname, argv[2], i);
                        printf("0\n0\n8\n");
                        printf("\t0\t0\t%18.12g\n", z);
                        printf("\t0\t0\t%18.12g\n", orient&IN ? 1.0 : -1.0);
                        printf("\t%18.12g\t%18.12g\n", lastr, r);
                } else {
                        printf("\n%s %s %s.%d\n", modname,
                                        orient&DOWN ? "cup" : "cone",
                                        argv[2], i);
                        printf("0\n0\n8\n");
                        printf("\t0\t0\t%18.12g\n", lastz);
                        printf("\t0\t0\t%18.12g\n", z);
                        printf("\t%18.12g\t%18.12g\n", lastr, r);
                }
        endfor:
                lastz = z; lastr = r;
                z = nextz; r = nextr;
                lastnz = nz; lastnr = nr;
                nz = nextnz; nr = nextnr;
        }
        return 0;

userror:
        fprintf(stderr,
        "Usage: %s material name z(t) r(t) nseg [-e expr] [-f file] [-s]\n",
                        argv[0]);
        return 1;
}


Revision:	2.10
Committed:	Sat Oct 11 04:39:34 2008 UTC (15 years, 6 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad4R2P2, rad5R0, rad5R1, rad4R2, rad4R1, rad4R0, rad4R2P1
Changes since 2.9:	+1 -2 lines
Log Message:	Eliminated redundant include
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: genrev.c,v 2.9 2008/10/11 04:29:39 greg Exp $";
3	#endif
4	/*
5	* genrev.c - program to generate functions of rotation about z
6	*
7	* The program takes as input the functions of t for z and r
8	* (the radius). If z is increasing, the normal points
9	* outward, inward for decreasing z. Negative radii are forbidden.
10	*
11	* 8/6/86
12	*/
13
14	#include <stdlib.h>
15	#include <stdio.h>
16	#include <string.h>
17	#include <math.h>
18
19	#include "rterror.h"
20	#include "resolu.h"
21	#include "calcomp.h"
22
23	#define ZNAME "Z`SYS`" /* z function name */
24	#define RNAME "R`SYS`" /* r function name */
25
26	#define PI 3.14159265358979323846
27
28	#define FTINY 1e-9
29	/* orientation */
30	#define OUT 01
31	#define IN 02
32	#define UP 04
33	#define DOWN 010
34
35
36	void
37	computen(nzp, nrp, z0, r0, z1, r1) /* compute normal */
38	double nzp, nrp, z0, r0, z1, r1;
39	{
40	double dr, dz, len;
41
42	dz = r0 - r1; /* right angle vector */
43	dr = z1 - z0;
44	len = sqrt(drdr + dzdz);
45	*nzp = dz/len;
46	*nrp = dr/len;
47	}
48
49
50	double
51	l_hermite(char *nm)
52	{
53	double t;
54
55	t = argument(5);
56	return( argument(1)((2.0t-3.0)tt+1.0) +
57	argument(2)(-2.0t+3.0)tt +
58	argument(3)((t-2.0)t+1.0)*t +
59	argument(4)(t-1.0)t*t );
60	}
61
62
63	double
64	l_bezier(char *nm)
65	{
66	double t;
67
68	t = argument(5);
69	return( argument(1) * (1.+t(-3.+t(3.-t))) +
70	argument(2) * 3.t(1.+t*(-2.+t)) +
71	argument(3) * 3.tt*(1.-t) +
72	argument(4) * ttt );
73	}
74
75
76	double
77	l_bspline(char *nm)
78	{
79	double t;
80
81	t = argument(5);
82	return( argument(1) * (1./6.+t(-1./2.+t(1./2.-1./6.*t))) +
83	argument(2) * (2./3.+tt(-1.+1./2.*t)) +
84	argument(3) * (1./6.+t(1./2.+t(1./2.-1./2.*t))) +
85	argument(4) * (1./6.tt*t) );
86	}
87
88
89	int
90	main(argc, argv)
91	int argc;
92	char *argv[];
93	{
94	char stmp[256];
95	char *modname;
96	int smooth = 0;
97	double t, lastz, z, nextz, lastr, r, nextr;
98	double lastnz, lastnr, nz, nr, nextnz, nextnr;
99	int i, nseg;
100	int orient;
101
102	varset("PI", ':', PI);
103	funset("hermite", 5, ':', l_hermite);
104	funset("bezier", 5, ':', l_bezier);
105	funset("bspline", 5, ':', l_bspline);
106
107	if (argc < 6)
108	goto userror;
109
110	for (i = 6; i < argc; i++)
111	if (!strcmp(argv[i], "-e"))
112	scompile(argv[++i], NULL, 0);
113	else if (!strcmp(argv[i], "-f"))
114	fcompile(argv[++i]);
115	else if (!strcmp(argv[i], "-s"))
116	smooth = 1;
117	else
118	goto userror;
119
120	sprintf(stmp, "%s(t)=%s;", ZNAME, argv[3]);
121	scompile(stmp, NULL, 0);
122	sprintf(stmp, "%s(t)=%s;", RNAME, argv[4]);
123	scompile(stmp, NULL, 0);
124	nseg = atoi(argv[5]);
125	if (nseg <= 0)
126	goto userror;
127	modname = smooth ? "Phong" : argv[1];
128
129	fputs("# ", stdout);
130	printargs(argc, argv, stdout);
131	eclock = 0;
132
133	lastnz = lastnr = 0.0;
134	t = 0.0;
135	lastz = funvalue(ZNAME, 1, &t);
136	lastr = funvalue(RNAME, 1, &t);
137	t = 1.0/nseg;
138	z = funvalue(ZNAME, 1, &t);
139	r = funvalue(RNAME, 1, &t);
140	computen(&nz, &nr, lastz, lastr, z, r);
141	for (i = 1; i <= nseg; i++) {
142	if (i < nseg) {
143	t = (double)(i+1)/nseg;
144	nextz = funvalue(ZNAME, 1, &t);
145	nextr = funvalue(RNAME, 1, &t);
146	computen(&nextnz, &nextnr, z, r, nextz, nextr);
147	} else
148	nextnz = nextnr = 0.0;
149	orient = 0;
150	if (z < lastz-FTINY)
151	orient \|= DOWN;
152	else if (z > lastz+FTINY)
153	orient \|= UP;
154	if (r < lastr-FTINY)
155	orient \|= IN;
156	else if (r > lastr+FTINY)
157	orient \|= OUT;
158	if (!orient)
159	goto endfor;
160	if (smooth) {
161	printf("\n%s texfunc Phong\n", argv[1]);
162	printf("4 rev_dx rev_dy rev_dz rev.cal\n");
163	printf("0\n4\n");
164	if (orient&(UP\|DOWN)) {
165	t = (nextnz - lastnz)/(z - lastz);
166	printf("\t%18.12g\t%18.12g\n",
167	t, lastnz - t*lastz);
168	} else
169	printf("\t0\t%d\n", orient&IN ? 1 : -1);
170	if (orient&(OUT\|IN)) {
171	t = (nextnr - lastnr)/(r - lastr);
172	printf("\t%18.12g\t%18.12g\n",
173	t, lastnr - t*lastr);
174	} else
175	printf("\t0\t%d\n", orient&UP ? 1 : -1);
176	}
177	if (!(orient&(IN\|OUT))) {
178	printf("\n%s %s %s.%d\n", modname,
179	orient&DOWN ? "tube" : "cylinder",
180	argv[2], i);
181	printf("0\n0\n7\n");
182	printf("\t0\t0\t%18.12g\n", lastz);
183	printf("\t0\t0\t%18.12g\n", z);
184	printf("\t%18.12g\n", r);
185	} else if (!(orient&(UP\|DOWN))) {
186	printf("\n%s ring %s.%d\n", modname, argv[2], i);
187	printf("0\n0\n8\n");
188	printf("\t0\t0\t%18.12g\n", z);
189	printf("\t0\t0\t%18.12g\n", orient&IN ? 1.0 : -1.0);
190	printf("\t%18.12g\t%18.12g\n", lastr, r);
191	} else {
192	printf("\n%s %s %s.%d\n", modname,
193	orient&DOWN ? "cup" : "cone",
194	argv[2], i);
195	printf("0\n0\n8\n");
196	printf("\t0\t0\t%18.12g\n", lastz);
197	printf("\t0\t0\t%18.12g\n", z);
198	printf("\t%18.12g\t%18.12g\n", lastr, r);
199	}
200	endfor:
201	lastz = z; lastr = r;
202	z = nextz; r = nextr;
203	lastnz = nz; lastnr = nr;
204	nz = nextnz; nr = nextnr;
205	}
206	return 0;
207
208	userror:
209	fprintf(stderr,
210	"Usage: %s material name z(t) r(t) nseg [-e expr] [-f file] [-s]\n",
211	argv[0]);
212	return 1;
213	}
214
215