Function:s2funuv
From S2PLOT
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<tr><td>[[Function:s2scir | s2scir ]]</td><td>Set the range of colour indices used for shading. </td></tr> | <tr><td>[[Function:s2scir | s2scir ]]</td><td>Set the range of colour indices used for shading. </td></tr> | ||
+ | <tr><td>[[Function:s2funuva| s2funuva ]]</td><td>Plot a parametric function with transparency. </td></tr> | ||
</table> | </table> | ||
Current revision
s2funuv
Plot a parametric function (generally a surface) defined by functions fx(u,v), fy(u,v) and fz(u,v).
Prototype
void s2funuv(float(*fx)(float*, float*), float(*fy)(float*, float*), float(*fz)(float*, float*),
float(*fcol)(float*,float*),float umin, float umax, int uDIV, float vmin, float vmax, int vDIV);
Description
Plot the parametric function (generally a surface) defined by { (fx(u,v), fy(u,v), fz(u,v) }, coloured by fcol(u,v) with fcol required to fall in the range [0,1]. fcol is then mapped to the current colormap index range (set with s2scir). The range of u and v values are specified by umin,umax and vmin, vmax, and the number of divisions by uDIV and vDIV.
See Also
s2scir | Set the range of colour indices used for shading. |
s2funuva | Plot a parametric function with transparency. |
Code Example
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include "s2plot.h"
#define LIMIT 0.7
#define pi 3.14159265359
/* amplitude, number of twists, major radius, minor radius */
#define AMP 0.4 /* Amplitude */
#define NTW 1.5 /* Number of twists */
#define R1 2.0 /* Major radius */
#define R2 0.5 /* Minor radius */
/* Parametric functions for surface */
inline float tkx(float *u, float *v) {
return R2 * cos(*v) * cos(*u) + R1 * cos(*u) * (1. + AMP * cos(*u * NTW));
}
inline float tky(float *u, float *v) {
return R2 * sin(*v) + AMP * sin(*u * NTW);
}
inline float tkz(float *u, float *v) {
return R2 * cos(*v) * sin(*u) + R1 * sin(*u) * (1. + AMP * cos(*u * NTW));
}
inline float fcol(float *u, float *v) {
return 0.5 + sin(0.5 * *u) * AMP * sin(*v);
}
int main(int argc, char *argv[])
{
float x1 = -LIMIT, x2 = LIMIT; /* x world coord range */
float y1 = -LIMIT, y2 = LIMIT; /* y world coord range */
float z1 = -LIMIT, z2 = LIMIT; /* z world coord range */
s2opend("/?",argc, argv); /* Open the display */
s2swin(x1, x2, y1, y2, z1, z2); /* Set the window coordinates */
s2icm("rainbow", 100, 500); /* Install colour map */
s2scir(100, 500); /* Set colour range */
s2funuv(tkx, tky, tkz, fcol, 0., 4.*pi, 320, 0., 2.*pi, 90);
/* call the parametric surface function */
s2show(1); /* Open the s2plot window */
return 1;
}
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