Function:ns2sisc

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==Description== ==Description==
-Set the RGB colour for an isosurface. +Set the (r,g,b) colour for an isosurface. To view changes, you must call ns2dis with the force argument set to 1.
== See Also == == See Also ==
Line 18: Line 18:
<tr><td>[[Function:ns2sisl | ns2sisl ]]</td><td>Change the level of isosurface </td></tr> <tr><td>[[Function:ns2sisl | ns2sisl ]]</td><td>Change the level of isosurface </td></tr>
<tr><td>[[Function:ns2sisa | ns2sisa]]</td><td>Set the alpha channel for an isosurface. </td></tr> <tr><td>[[Function:ns2sisa | ns2sisa]]</td><td>Set the alpha channel for an isosurface. </td></tr>
 +<tr><td>[[Function:struct_COLOUR | struct COLOUR]]</td><td>Data structure for (r,g,b) colour indices. </td></tr>
</table> </table>

Revision as of 23:25, 3 December 2007

ns2sisc

Set the isosurface colour.

Prototype

void ns2sisc(int isid, float r, float g, float b);

Description

Set the (r,g,b) colour for an isosurface. To view changes, you must call ns2dis with the force argument set to 1.

See Also

ns2cisCreate an isosurface object.
ns2ciscCreate an isosurface object with a colour function.
ns2dis Draw an isosurface object
ns2sisl Change the level of isosurface
ns2sisaSet the alpha channel for an isosurface.
struct COLOURData structure for (r,g,b) colour indices.

Code Example

#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include "s2plot.h"

/* Global variables */
int id1, id2;                           /* IDs for isosurface object */

void cb(double *t, int *kc){
   static int count = 0;                /* Counter for refreshing */
   int force = 1;                       /* Force redraw of surface */
   float r, g, b;                       /* Isosurface colour */

   if (count == 12) {                   /* About once per half second */
      count = 0;                        /* Reset counter */
      r = drand48();                    /* Random colours */
      g = drand48();
      b = drand48();
      ns2sisc(id1, r, g, b);            /* Set isosurface colour */
   } else {
      count++;                          /* Keep counting */
   }
   ns2dis(id1, force);                  /* Draw first isosurface */
   ns2dis(id2, force);                  /* Draw second isosurface */
}

int main(int argc, char *argv[])
{
   int i, j, k;                         /* Loop variables */
   float x, y, z;                       /* Dummy variables for grid values */
   int nx, ny, nz;                      /* Number of cells in grid */
   float ***grid;                       /* Grid data */
   float tr[12];                        /* Transformation matrix */
   int resolution;                      /* Resolution of isosurface */
   float level;                         /* Isosurface level to plot */
   float alpha;                         /* Alpha channel */
   char trans;                          /* Drawing mode for isosurface */

   nx = 30;                             /* Grid dimensions */
   ny = 30;
   nz = 30;
  /* Create transpose matrix mapping data indices to world coords */
   tr[0] = tr[4] = tr[8] = 0.0;                           /* Offsets */
   tr[1] = tr[6] = tr[11] = 1.0;                          /* Increments */
   tr[2] = tr[3] = tr[5] = tr[7] = tr[9] = tr[10] = 0.;   /* Cross terms */

   s2opend("/?",argc, argv);                    /* Open the display */
   s2swin(0, nx-1, 0, ny-1, 0, nz-1);           /* Set the window coordinates */
   s2box("BCDET",0,0,"BCDET",0,0,"BCDET",0,0);  /* Draw coordinate box */

   /* allocate and generate the data grid */
   grid = (float ***)malloc(nx * sizeof(float **));
   for (i = 0; i < nx; i++) {
      grid[i] = (float **)malloc(ny * sizeof(float *));
      x = (float)(i) / (float)(nx - 1);
      for (j = 0; j < ny; j++) {
         grid[i][j] = (float *)malloc(nz * sizeof(float));
         y = (float)(j) / (float)(ny - 1);
         for (k = 0; k < nz; k++) {
            z = (float)(k) / (float)(nz - 1);
            grid[i][j][k] = x*x*x + y*y - z*z*z*z;
         }
      }
   }

   level      = 0.2;                    /* Set the isosurface level */
   resolution = 1;                      /* Set the isosurface resolution */
   alpha      = 1.0;                    /* Set the alpha channel */
   trans      = 't';                    /* Opaque isosurface */

/* Create the first isosurface object */
   id1 = ns2cis(grid, nx, ny, nz, 0, nx-1, 0, ny-1, 0, nz-1,
                   tr, level, resolution, trans, alpha, 1., 1., 0.);

   level      = 0.8;                    /* Set the isosurface level */

/* Create the second isosurface object */
   id2 = ns2cis(grid, nx, ny, nz, 0, nx-1, 0, ny-1, 0, nz-1,
                   tr, level, resolution, trans, alpha, 1., 1., 0.);

   s2scb(&cb);                          /* Install a dynamic callback */
   s2show(1);                           /* Open the s2plot window */

   return 1;
}

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