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IMP Reference Guide  2.20.1
The Integrative Modeling Platform
optimize_balls.py
1 ## \example core/optimize_balls.py
2 # This example optimizes a set of a balls to form 100 chains packed into a
3 # box. It illustrates using Monte Carlo and conjugate
4 # gradients in conjunction in a non-trivial optimization.
5 
6 import IMP.core
7 import IMP.display
8 import IMP.container
9 import sys
10 
11 IMP.setup_from_argv(sys.argv, "Optimize balls example")
12 
14  IMP.algebra.Vector3D(10, 10, 10))
16  ni = 2
17  nj = 2
18  np = 2
19  radius = .45
20  k = 100
21  ncg = 10
22  nmc = 1
23  ninner = 1
24  nouter = 1
25 else:
26  ni = 10
27  nj = 10
28  np = 10
29  radius = .45
30  k = 100
31  ncg = 1000
32  nmc = ni * nj * np * 100
33  ninner = 5
34  nouter = 11
35 
36 print(IMP.get_is_quick_test(), ni, nj, np, ninner, nouter)
37 # using a HarmonicDistancePairScore for fixed length links is more
38 # efficient than using a HarmonicSphereDistnacePairScore and works
39 # better with the optimizer
40 lps = IMP.core.HarmonicDistancePairScore(1.5 * radius, k)
42 
43 m = IMP.Model()
44 # IMP.set_log_level(IMP.SILENT)
45 aps = []
46 filters = []
47 movers = []
48 restraints = []
49 for i in range(0, ni):
50  for j in range(0, nj):
51  base = IMP.algebra.Vector3D(i, j, 0)
52  chain = []
53  for k in range(0, np):
54  p = IMP.Particle(m)
55  p.set_name("P" + str(i) + " " + str(j) + " " + str(k))
59  d.set_coordinates_are_optimized(True)
60  movers.append(IMP.core.BallMover(m, p, radius * 2))
61  movers[-1].set_was_used(True)
63  p, IMP.display.get_display_color(i * nj + j))
64  if k == 0:
65  d.set_coordinates(base)
66  else:
67  d.set_coordinates_are_optimized(True)
68  chain.append(p)
69  aps.append(p)
70  # set up a chain of bonds
72  r = IMP.container.PairsRestraint(lps, cpc)
73  restraints.append(r)
74 
75 # don't apply excluded volume to consecutive particles
79 bbr = IMP.container.SingletonsRestraint(ibss, aps)
80 restraints.append(bbr)
81 
83 mc = IMP.core.MonteCarlo(m)
84 mc.set_name("MC")
85 sm = IMP.core.SerialMover(movers)
86 mc.add_mover(sm)
87 
88 # create a scoring function for conjugate gradients that includes the
89 # ExcludedVolumeRestraint
90 nbl = IMP.core.ExcludedVolumeRestraint(aps, k, 1)
91 nbl.set_pair_filters(filters)
92 sf = IMP.core.RestraintsScoringFunction(restraints + [nbl], "RSF")
93 
94 mc.set_scoring_function(sf)
95 
96 # Speed up the optimization by only rescoring terms involving particles
97 # that moved at each MC step
98 mc.set_score_moved(True)
99 
100 # first relax the bonds a bit
101 rs = []
102 for p in aps:
104  0))
105 cg.set_scoring_function(sf)
106 cg.optimize(ncg)
107 for r in restraints:
108  print(r.get_name(), r.evaluate(False))
109 
110 # shrink each of the particles, relax the configuration, repeat
111 for i in range(1, nouter):
112  rs = []
113  factor = .1 * i
114  for p in aps:
115  rs.append(
118  IMP.core.XYZR(p).get_radius() * factor))
119  # move each particle nmc times
120  print(factor)
121  for j in range(0, ninner):
122  print("stage", j)
123  mc.set_kt(100.0 / (3 * j + 1))
124  print("mc", mc.optimize((j + 1) * nmc), cg.optimize(nmc))
125  del rs
126  for r in restraints:
127  print(r.get_name(), r.evaluate(False))
128 
129 w = IMP.display.PymolWriter("final.pym")
130 for p in aps:
131  g = IMP.core.XYZRGeometry(p)
132  w.add_geometry(g)
134 g.set_name("bb")
135 w.add_geometry(g)
Applies a SingletonScore to each Singleton in a list.
A Monte Carlo optimizer.
Definition: MonteCarlo.h:44
bool get_is_quick_test()
Definition: flags.h:183
static FloatKey get_radius_key()
Get the key for the radius.
Definition: XYZR.h:76
Strings setup_from_argv(const Strings &argv, std::string description, std::string positional_description, int num_positional)
Various classes to hold sets of particles.
Upper bound harmonic function (non-zero when feature > mean)
static XYZR setup_particle(Model *m, ParticleIndex pi)
Definition: XYZR.h:48
Simple conjugate gradients optimizer.
Create a scoring function on a list of restraints.
Move continuous particle variables by perturbing them within a ball.
Score distance between two particle centers using a harmonic function.
Vector3D get_random_vector_in(const Cylinder3D &c)
Generate a random vector in a cylinder with uniform density.
Class for storing model, its restraints, constraints, and particles.
Definition: Model.h:86
Color get_display_color(unsigned int i)
static Colored setup_particle(Model *m, ParticleIndex pi, Color color)
Definition: Colored.h:62
Basic functionality that is expected to be used by a wide variety of IMP users.
VectorD< 3 > Vector3D
Definition: VectorD.h:425
Prevent a set of particles and rigid bodies from inter-penetrating.
Class to handle individual particles of a Model object.
Definition: Particle.h:43
Write a CGO file with the geometry.
Definition: PymolWriter.h:34
Output IMP model data in various file formats.
Applies a list of movers one at a time.
Definition: SerialMover.h:26
Applies a PairScore to each Pair in a list.
Display an IMP::core::XYZR particle as a ball.
Definition: XYZR.h:151
A decorator for a particle with x,y,z coordinates and a radius.
Definition: XYZR.h:27