Dynamic mesh
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dynamic_mesh displays isomesh around the center of the view. When the view is moved, the isomesh will be updated automatically. You can also change contour level by PageDown/PageUp keys. This script is intended to implement interface similar to Coot for examing electron density maps.
Note: PyMOL's Density Wizard (Menu > Wizard > Density) provides similar functionality. It is implemented using wizard framework, while this uses CallBack object.
Usage
dynamic_mesh mapname [, level [, radius]]
where
map_name = string: name of volumetric object(map) to display level = float: contour level of isomesh {default: 0.8} radius = float: radius of isomesh around the center of the view {default: 8}
Example
fetch 1HWK, async=1
fetch 1HWK, 1hwk_map, type=2fofc, async=1
run dynamic_mesh.py
dynamic_mesh 1hwk_map
show sticks, resn 117
show ribbon
zoom chain A and resn 117
Note: On PyMOL <= 1.4, you have to download the electron density map from the Uppsala Electron Density Server manually.
Script
# Dynamic Mesh by Takanori Nakane, License: BSD-2 Clause
# version 0.11: 20120823
'''
This script was tested on PyMOL 1.2 and 1.5.
Example:
fetch 1HWK, async=1
fetch 1HWK, 1hwk_map, type=2fofc, async=1
run dynamic_mesh.py
dynamic_mesh 1hwk_map
show sticks, resn 117
show ribbon
zoom chain A and resn 117
Note: On PyMOL <= 1.4, you have to download the electron density
map from the Uppsala Electron Density Server manually.
'''
from pymol.callback import Callback
from pymol import cmd
class DynamicMesh(Callback):
def __init__(self, meshname, level = 0.8, radius = 8):
self.center = cmd.get_position()
self.level = level
self.radius = radius
self.mesh = meshname
cmd.set("auto_zoom", 0)
cmd.pseudoatom("__center__", pos = self.center, quiet = 1)
cmd.hide("everything", "__center__")
cmd.set_key("pgup", self.contour_plus)
cmd.set_key("pgdn", self.contour_minus)
# TODO: Where should I unregister them?
self.update()
def contour_plus(self):
self.level += 0.1
print "Map level: " + str(self.level)
self.update()
def contour_minus(self):
if (self.level < 0.15):
return
self.level -= 0.1
print "Map level: " + str(self.level)
self.update()
def update(self):
self.center = cmd.get_position()
cmd.alter_state(0, "__center__", "(x, y, z) = p", space={'p': self.center})
cmd.isomesh("dynamic_mesh", self.mesh, self.level, "__center__", carve = self.radius)
def __call__(self):
tmp = cmd.get_position()
r = (self.center[0] - tmp[0]) * (self.center[0] - tmp[0]) + \
(self.center[1] - tmp[1]) * (self.center[1] - tmp[1]) + \
(self.center[2] - tmp[2]) * (self.center[2] - tmp[2])
if (r > 0.3): # increase this number if it is too slow
self.update()
def get_extent(self):
tmp = cmd.get_position()
return [[tmp[0] - self.radius, tmp[1] - self.radius, tmp[2] - self.radius], \
[tmp[0] + self.radius, tmp[1] + self.radius, tmp[2] + self.radius]]
def dynamic_mesh(meshname, level = 0.8, radius = 8):
'''
DESCRIPTION
Make 'dynamic' mesh from volumetric data such as electron density map.
The mesh will dynamically follow the center of the view.
Contour leveo of isomesh can be changed by PageDown and PageUp keys.
NOTE: Crystallographic operations will not be applied to the map.
Only pre-calculated volume can be displayed.
USAGE
dynamic_mesh mapname [, level [, radius]]
ARGUMENTS
map_name = string: name of volumetric object(map) to display
level = float: contour level of isomesh {default: 0.8}
radius = float: radius of isomesh around the center of the view {default: 8}
SEE ALSO
isomesh
'''
cmd.delete("dynamic_mesh") # TODO: support multiple meshs
cmd.delete("dymesh_callback")
cmd.load_callback(DynamicMesh(meshname, float(level), float(radius)),'dymesh_callback')
cmd.extend('dynamic_mesh', dynamic_mesh)
cmd.auto_arg[0]['dynamic_mesh'] = [ cmd.map_sc, 'map object', ', ']