Zoom: Difference between revisions
Jump to navigation
Jump to search
mNo edit summary |
No edit summary |
||
(One intermediate revision by one other user not shown) | |||
Line 1: | Line 1: | ||
'''zoom''' scales and translates the window and the origin to cover the atom selection. | '''zoom''' scales and translates the window and the origin to cover the atom selection. | ||
Line 50: | Line 50: | ||
[[Category:Commands|Zoom]] | [[Category:Commands|Zoom]] | ||
[[Category:States|Zoom]] | [[Category:States|Zoom]] | ||
[[Category:View Module|Zoom]] |
Latest revision as of 13:44, 17 November 2009
zoom scales and translates the window and the origin to cover the atom selection.
USAGE
zoom [ selection [,buffer [, state [, complete ]]]]
EXAMPLES
# auto zoom depending on what's loaded in PyMOL
zoom
#
zoom complete=1
# zoom on just chain A
zoom (chain A)
# zoom on residue 142
zoom 142/
# zoom consistenly 20 Ang from each object at the center
center prot1
zoom center, 20
# prot1 and prot2 will have the same exact zoom factor
center prot2
zoom center, 20
PYMOL API
cmd.zoom( string selection, float buffer=0.0,
int state=0, int complete=0 )
NOTES
state = 0 (default) use all coordinate states state = -1 use only coordinates for the current state state > 0 use coordinates for a specific state
complete = 0 or 1:
Normally the zoom command tries to guess an optimal zoom level for visualization, balancing closeness against occasional clipping of atoms out of the field of view. You can change this behavior by setting the complete option to 1, which will guarantee that the atom positions for the entire selection will fit in the field of an orthoscopic view. To absolutely prevent clipping, you may also need to add a buffer (typically 2 A) to account for the perspective transformation and for graphical representations which extend beyond the atom coordinates.