# Points or spheres in 3D cube with Perl

Let's say I have `@points[\$number][\$x][\$y][\$z][\$color]` and I just for debug purposes want them visualized in 3D cube to better observe what I have. Typically I export them to `*.txt` and use R 3D plotting, but maybe there is easy way to do this in Perl? It would be even better to have spheres with radius.

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My answer: use OpenGL perl bindings

I haven't quite done an exact answer to your question but I'm sure you can adopt this code

I haven't done OpenGL before but it was a fun little evening project

``````use OpenGL qw/ :all /;
use constant ESCAPE => 27;
# Global variable for our window
my \$window;
my \$CubeRot = 0;
my \$xCord = 1;
my \$yCord = 1;
my \$zCord = 0;
my \$rotSpeed = 0.02 ;
(\$width, \$height) = (1366,768);
@points = ( [ 30,40,40,[100,0,0]], #red
[ 100,100,40,[0,100,0]], #green
[ 100,10,60,[0,100,100]], #turquoise
[ 200,200,100,[0,0,100]] #blue
);
sub reshape  {

glViewport(0, 0, \$width, \$height); # Set our viewport to the size of our window
glMatrixMode(GL_PROJECTION); # Switch to the projection matrix so that we can manipulate how our scene is viewed
glLoadIdentity(); # Reset the projection matrix to the identity matrix so that we don't get any artifacts (cleaning up)
gluPerspective(60, \$width / \$height, 1.0, 100.0); # Set the Field of view angle (in degrees), the aspect ratio of our window, and the new and far planes
glMatrixMode(GL_MODELVIEW); # Switch back to the model view matrix, so that we can start drawing shapes correctly
glOrtho(0, \$width, 0, \$height, -1, 1);   # Map abstract coords directly to window coords.
glScalef(1, -1, 1);           # Invert Y axis so increasing Y goes down.
glTranslatef(0, -h, 0);       # Shift origin up to upper-left corner.

}
sub keyPressed {

# Shift the unsigned char key, and the x,y placement off @_, in
# that order.
my (\$key, \$x, \$y) = @_;
# If escape is pressed, kill everything.
if (\$key == ESCAPE)
{
# Shut down our window
glutDestroyWindow(\$window);

# Exit the program...normal termination.
exit(0);
}
}

sub InitGL {

# Shift the width and height off of @_, in that order
my (\$width, \$height) = @_;

# Set the background "clearing color" to black
glClearColor(0.0, 0.0, 0.0, 0.0);

# Enables clearing of the Depth buffer
glClearDepth(1.0);

glDepthFunc(GL_LESS);
# Enables depth testing with that type
glEnable(GL_DEPTH_TEST);

# Reset the projection matrix
glMatrixMode(GL_PROJECTION);
# Reset the modelview matrix
glMatrixMode(GL_MODELVIEW);
}
sub display {
glClearColor(1.0,0.0,0.0,1.0);
glClear(GL_COLOR_BUFFER_BIT);

glTranslatef(0.0, 0.0, -5.0); # Push eveything 5 units back into the scene, otherwise we won't see the primitive
#glPushMatrix();
#glRotatef(\$CubeRot, \$xCord, \$yCord, \$zCord);

# this is where the drawing happens, adjust glTranslate to match your coordinates
# the centre is is 0,0,0
for my \$sphere ( @points ) {
glPushMatrix();
glColor3b( @{\$sphere->[3]}) ;
glRotatef(\$CubeRot, \$xCord, \$yCord, \$zCord);
glTranslatef(\$sphere->[0]/50 -2 ,\$sphere->[1]/50 -2 ,\$sphere->[2]/50 -2);
glutWireSphere(1.0,24,24); # Render the primitive
glPopMatrix();
}
\$CubeRot += \$rotSpeed;
glFlush; # Flush the OpenGL buffers to the window
}

# Initialize GLUT state
glutInit;

# Depth buffer */
glutInitDisplayMode(GLUT_SINGLE);

# The window starts at the upper left corner of the screen
glutInitWindowPosition(0, 0);

# Open the window
\$window = glutCreateWindow("Press escape to quit");

# Register the function to do all our OpenGL drawing.
glutDisplayFunc(\&display);

# Go fullscreen.  This is as soon as possible.
glutFullScreen;
glutReshapeFunc(\&reshape);
# Even if there are no events, redraw our gl scene.
glutIdleFunc(\&display);

# Register the function called when the keyboard is pressed.
glutKeyboardFunc(\&keyPressed);

# Initialize our window.
InitGL(\$width, \$height);

# Start Event Processing Engine
glutMainLoop;

return 1;
``````
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