I'm trying to visualize a point on the surface of the earth using the mlab interface to mayavi. The main problem is that the earth is big, but I want to be able to zoom in to see a very small region of it.
It appears that using the scrollwheel in a mayavi window changes the distance of the camera from its focal point. If I focus on the point I'm interested in and zoom in, eventually the camera's distance to the focal point is smaller than the near clipping distance, and I can't see the point of interest any more.
I can programmatically set the near clipping point of the camera like so:
eng = mlab.get_engine() scene = eng.scenes.scene cam = scene.camera scene.camera.clipping_range = [10000, 100000]
and that properly shows the point I want to see, but if I do ANYTHING with the mouse (rotate the view by dragging, move the scrollwheel), the clipping plane gets reset and I can't see anything. This halfway defeats the purpose of the mayavi window.
The question: How can I make this example work so that I can see the point i'm drawing ( the glyph is 1 meter across) and still interact with the window?
Here is my code (for readability, the drawSphere function is below):
import numpy as np from numpy import r_, c_, pi from mayavi import mlab rE = 6378137 #radius of the earth, in meters drawSphere(r=rE) pointAEcef = c_[-2252280.7, -5867391.7, 1100769.5] mlab.points3d(pointAEcef[:,0],pointAEcef[:,1],pointAEcef[:,2], color=(0.0,0.0,1.0),scale_factor=1.0 ) mlab.view( azimuth=-110.09214289721747, elevation=102.86270612105356, distance=80.0, focalpoint=pointAEcef[0,:], ) eng = mlab.get_engine() scene = eng.scenes.scene cam = scene.camera scene.camera.clipping_range = [50, 27e6] scene.render() mlab.show()
Here is the drawSphere function:
def drawSphere(r=1,fig=None): """ Draw a sphere of the given radius in the given figure """ r = float(r) # Create a sphere pi = np.pi cos = np.cos sin = np.sin phi, theta = np.mgrid[0:pi:101j, 0:2*pi:101j] x = r*sin(phi)*cos(theta) y = r*sin(phi)*sin(theta) z = r*cos(phi) if fig is not None: fig = mlab.figure(fig) else: fig = mlab.gcf() colorsphere=mlab.mesh(x,y,z, figure=fig, color=(0,0,1), opacity=0.1, ) grid = mlab.mesh(x,y,z, figure=fig, mask_points=100, color=(1,0,0), representation="wireframe", opacity=0.1, ) xaxis = mlab.quiver3d(0,0,0,1.5*r,0,0,color=(1,0,0),scale_mode='none',scale_factor=r); yaxis = mlab.quiver3d(0,0,0,0,1.5*r,0,color=(0,1,0),scale_mode='none',scale_factor=r); zaxis = mlab.quiver3d(0,0,0,0,0,1.5*r,color=(0,0,1),scale_mode='none',scale_factor=r); #mlab.view(azimuth=0,elevation=90,distance=1.1,focalpoint=(0,0,0)); #mlab.roll(30); #cam = fig.scene.camera; return (colorsphere,grid,xaxis,yaxis,zaxis)