Function:ns2ssq
From S2PLOT
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<code><pre> | <code><pre> | ||
+ | #include <stdio.h> | ||
+ | #include <stdlib.h> | ||
+ | #include <math.h> | ||
+ | #include "s2plot.h" | ||
+ | |||
+ | #define CELLS 30 | ||
+ | |||
+ | int id1; /* Global variable: isosurface id */ | ||
+ | |||
+ | void cb(double *t, int *kc) | ||
+ | { | ||
+ | char string[255]; | ||
+ | int isq = ns2qsq(); /* Query the surface quality */ | ||
+ | sprintf(string,"Surface quality is: %d. Press <space> to toggle",isq); | ||
+ | s2lab("","","",string); /* Show a label on screen */ | ||
+ | ns2ssq(*kc%2); /* Set the surface quality */ | ||
+ | ns2dis(id1, 1); /* Display an 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 = CELLS; /* Grid dimensions */ | ||
+ | ny = CELLS; | ||
+ | nz = CELLS; | ||
+ | |||
+ | /* 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 = 0.9; /* Set the alpha channel */ | ||
+ | trans = 'o'; /* Opaque isosurface */ | ||
+ | |||
+ | /* Create the 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.); | ||
+ | |||
+ | cs2scb(cb); /* Install dynamic callback */ | ||
+ | |||
+ | s2show(1); /* Open the s2plot window */ | ||
+ | |||
+ | return 1; | ||
+ | } | ||
</pre></code> | </pre></code> | ||
Current revision
ns2ssq
Set general surface quality.
Prototype
void ns2ssq(int hiq);
Description
Set general surface quality high (1) or low (0, default). The former calculates weighted normals for all vertices, while the latter calculates a single normal per facet of the surface. The former should be used for export to VRML.
See Also
ns2qsq | Query the general surface quality. |
ns2cis | Create an isosurface object. |
ns2cisc | Create an isosurface object with a colour function. |
ns2dis | Draw an isosurface object |
ns2sisl | Change the level of isosurface |
ns2sisc | Set the colour for an isosurface. |
Code Example
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include "s2plot.h"
#define CELLS 30
int id1; /* Global variable: isosurface id */
void cb(double *t, int *kc)
{
char string[255];
int isq = ns2qsq(); /* Query the surface quality */
sprintf(string,"Surface quality is: %d. Press <space> to toggle",isq);
s2lab("","","",string); /* Show a label on screen */
ns2ssq(*kc%2); /* Set the surface quality */
ns2dis(id1, 1); /* Display an 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 = CELLS; /* Grid dimensions */
ny = CELLS;
nz = CELLS;
/* 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 = 0.9; /* Set the alpha channel */
trans = 'o'; /* Opaque isosurface */
/* Create the 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.);
cs2scb(cb); /* Install dynamic callback */
s2show(1); /* Open the s2plot window */
return 1;
}
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