CustomCentroidBondForce¶
-
class
simtk.openmm.openmm.
CustomCentroidBondForce
(*args)¶ This class is similar to CustomCompoundBondForce, but instead of applying forces between individual particles, it applies them between the centers of groups of particles. This is useful for a variety of purposes, such as restraints to keep two molecules from moving too far apart.
When using this class, you define groups of particles, and the center of each group is calculated as a weighted average of the particle positions. By default, the particle masses are used as weights, so the center position is the center of mass. You can optionally specify different weights to use. You then add bonds just as with CustomCompoundBondForce, but instead of specifying the particles that make up a bond, you specify the groups.
When creating a CustomCentroidBondForce, you specify the number of groups involved in a bond, and an expression for the energy of each bond. It may depend on the center positions of individual groups, the distances between the centers of pairs of groups, the angles formed by sets of three groups, and the dihedral angles formed by sets of four groups.
We refer to the groups in a bond as g1, g2, g3, etc. For each bond, CustomCentroidBondForce evaluates a user supplied algebraic expression to determine the interaction energy. The expression may depend on the following variables and functions:
- x1, y1, z1, x2, y2, z2, etc.: The x, y, and z coordinates of the centers of the groups. For example, x1 is the x coordinate of the center of group g1, and y3 is the y coordinate of the center of group g3.
- distance(g1, g2): the distance between the centers of groups g1 and g2 (where “g1” and “g2” may be replaced by the names of whichever groups you want to calculate the distance between).
- angle(g1, g2, g3): the angle formed by the centers of the three specified groups.
- dihedral(g1, g2, g3, g4): the dihedral angle formed by the centers of the four specified groups.
The expression also may involve tabulated functions, and may depend on arbitrary global and per-bond parameters.
To use this class, create a CustomCentroidBondForce object, passing an algebraic expression to the constructor that defines the interaction energy of each bond. Then call addPerBondParameter() to define per-bond parameters and addGlobalParameter() to define global parameters. The values of per-bond parameters are specified as part of the system definition, while values of global parameters may be modified during a simulation by calling Context::setParameter().
Next call addGroup() to define the particle groups. Each group is specified by the particles it contains, and the weights to use when computing the center position.
Then call addBond() to define bonds and specify their parameter values. After a bond has been added, you can modify its parameters by calling setBondParameters(). This will have no effect on Contexts that already exist unless you call updateParametersInContext().
As an example, the following code creates a CustomCentroidBondForce that implements a harmonic force between the centers of mass of two groups of particles.
CustomCentroidBondForce* force = new CustomCentroidBondForce(2, "0.5*k*distance(g1,g2)^2"); force->addPerBondParameter("k"); force->addGroup(particles1); force->addGroup(particles2); vector<int> bondGroups; bondGroups.push_back(0); bondGroups.push_back(1); vector<double> bondParameters; bondParameters.push_back(k); force->addBond(bondGroups, bondParameters);
Expressions may involve the operators + (add), - (subtract), * (multiply), / (divide), and ^ (power), and the following functions: sqrt, exp, log, sin, cos, sec, csc, tan, cot, asin, acos, atan, sinh, cosh, tanh, erf, erfc, min, max, abs, floor, ceil, step, delta, select. All trigonometric functions are defined in radians, and log is the natural logarithm. step(x) = 0 if x is less than 0, 1 otherwise. delta(x) = 1 if x is 0, 0 otherwise. select(x,y,z) = z if x = 0, y otherwise.
In addition, you can call addTabulatedFunction() to define a new function based on tabulated values. You specify the function by creating a TabulatedFunction object. That function can then appear in the expression.
-
__init__
(self, numGroups, energy) → CustomCentroidBondForce¶ __init__(self, other) -> CustomCentroidBondForce
Create a CustomCentroidBondForce.
Parameters: - numGroups (int) – the number of groups used to define each bond
- energy (string) – an algebraic expression giving the interaction energy of each bond as a function of particle positions, inter-particle distances, angles, and dihedrals, and any global and per-bond parameters
Methods
__init__
((self, numGroups, ...)__init__(self, other) -> CustomCentroidBondForce addBond
((self, groups, parameters) -> int)addBond(self, groups) -> int addGlobalParameter
((self, name, ...)Add a new global parameter that the interaction may depend on. addGroup
((self, particles, weights) -> int)addGroup(self, particles) -> int addPerBondParameter
((self, name) -> int)Add a new per-bond parameter that the interaction may depend on. addTabulatedFunction
((self, name, ...)Add a tabulated function that may appear in the energy expression. getBondParameters
(self, index)Get the properties of a bond. getEnergyFunction
((self) -> std::string const &)Get the algebraic expression that gives the interaction energy of each bond getForceGroup
((self) -> int)Get the force group this Force belongs to. getGlobalParameterDefaultValue
((self, ...)Get the default value of a global parameter. getGlobalParameterName
((self, ...)Get the name of a global parameter. getGroupParameters
(self, index)Get the properties of a group. getNumBonds
((self) -> int)Get the number of bonds for which force field parameters have been defined. getNumFunctions
((self) -> int)Get the number of tabulated functions that have been defined. getNumGlobalParameters
((self) -> int)Get the number of global parameters that the interaction depends on. getNumGroups
((self) -> int)Get the number of particle groups that have been defined. getNumGroupsPerBond
((self) -> int)Get the number of groups used to define each bond. getNumPerBondParameters
((self) -> int)Get the number of per-bond parameters that the interaction depends on. getNumTabulatedFunctions
((self) -> int)Get the number of tabulated functions that have been defined. getPerBondParameterName
((self, ...)Get the name of a per-bond parameter. getTabulatedFunction
((self, ...)getTabulatedFunction(self, index) -> TabulatedFunction getTabulatedFunctionName
((self, ...)Get the name of a tabulated function that may appear in the energy expression. setBondParameters
(self, index, groups, ...)setBondParameters(self, index, groups) setEnergyFunction
(self, energy)Set the algebraic expression that gives the interaction energy of each bond setForceGroup
(self, group)Set the force group this Force belongs to. setGlobalParameterDefaultValue
(self, index, ...)Set the default value of a global parameter. setGlobalParameterName
(self, index, name)Set the name of a global parameter. setGroupParameters
(self, index, particles, ...)setGroupParameters(self, index, particles) setPerBondParameterName
(self, index, name)Set the name of a per-bond parameter. updateParametersInContext
(self, context)Update the per-bond parameters in a Context to match those stored in this Force object. usesPeriodicBoundaryConditions
((self) -> bool)Returns whether or not this force makes use of periodic boundary conditions. -
getNumGroupsPerBond
(self) → int¶ Get the number of groups used to define each bond.
-
getNumGroups
(self) → int¶ Get the number of particle groups that have been defined.
-
getNumBonds
(self) → int¶ Get the number of bonds for which force field parameters have been defined.
-
getNumPerBondParameters
(self) → int¶ Get the number of per-bond parameters that the interaction depends on.
-
getNumGlobalParameters
(self) → int¶ Get the number of global parameters that the interaction depends on.
-
getNumTabulatedFunctions
(self) → int¶ Get the number of tabulated functions that have been defined.
-
getNumFunctions
(self) → int¶ Get the number of tabulated functions that have been defined.
-
getEnergyFunction
(self) → std::string const &¶ Get the algebraic expression that gives the interaction energy of each bond
-
setEnergyFunction
(self, energy)¶ Set the algebraic expression that gives the interaction energy of each bond
-
addPerBondParameter
(self, name) → int¶ Add a new per-bond parameter that the interaction may depend on.
Parameters: name (string) – the name of the parameter Returns: the index of the parameter that was added Return type: int
-
getPerBondParameterName
(self, index) → std::string const &¶ Get the name of a per-bond parameter.
Parameters: index (int) – the index of the parameter for which to get the name Returns: the parameter name Return type: string
-
setPerBondParameterName
(self, index, name)¶ Set the name of a per-bond parameter.
Parameters: - index (int) – the index of the parameter for which to set the name
- name (string) – the name of the parameter
-
addGlobalParameter
(self, name, defaultValue) → int¶ Add a new global parameter that the interaction may depend on.
Parameters: - name (string) – the name of the parameter
- defaultValue (double) – the default value of the parameter
Returns: the index of the parameter that was added
Return type: int
-
getGlobalParameterName
(self, index) → std::string const &¶ Get the name of a global parameter.
Parameters: index (int) – the index of the parameter for which to get the name Returns: the parameter name Return type: string
-
setGlobalParameterName
(self, index, name)¶ Set the name of a global parameter.
Parameters: - index (int) – the index of the parameter for which to set the name
- name (string) – the name of the parameter
-
getGlobalParameterDefaultValue
(self, index) → double¶ Get the default value of a global parameter.
Parameters: index (int) – the index of the parameter for which to get the default value Returns: the parameter default value Return type: double
-
setGlobalParameterDefaultValue
(self, index, defaultValue)¶ Set the default value of a global parameter.
Parameters: - index (int) – the index of the parameter for which to set the default value
- defaultValue (double) – the default value of the parameter
-
addGroup
(self, particles, weights) → int¶ addGroup(self, particles) -> int
Add a particle group.
Parameters: - particles (vector< int >) – the indices of the particles to include in the group
- weights (vector< double >) – the weight to use for each particle when computing the center position. If this is omitted, then particle masses will be used as weights.
Returns: the index of the group that was added
Return type: int
-
getGroupParameters
(self, index)¶ Get the properties of a group.
Parameters: index (int) – the index of the group to get Returns: - particles (vector< int >) – the indices of the particles in the group
- weights (vector< double >) – the weight used for each particle when computing the center position. If no weights were specified, this vector will be empty indicating that particle masses should be used as weights.
-
setGroupParameters
(self, index, particles, weights)¶ setGroupParameters(self, index, particles)
Set the properties of a group.
Parameters: - index (int) – the index of the group to set
- particles (vector< int >) – the indices of the particles in the group
- weights (vector< double >) – the weight to use for each particle when computing the center position. If this is omitted, then particle masses will be used as weights.
-
addBond
(self, groups, parameters) → int¶ addBond(self, groups) -> int
Add a bond to the force
Parameters: - groups (vector< int >) – the indices of the groups the bond depends on
- parameters (vector< double >) – the list of per-bond parameter values for the new bond
Returns: the index of the bond that was added
Return type: int
-
getBondParameters
(self, index)¶ Get the properties of a bond.
Parameters: index (int) – the index of the bond to get Returns: - groups (vector< int >) – the indices of the groups in the bond
- parameters (vector< double >) – the list of per-bond parameter values for the bond
-
setBondParameters
(self, index, groups, parameters)¶ setBondParameters(self, index, groups)
Set the properties of a bond.
Parameters: - index (int) – the index of the bond to set
- groups (vector< int >) – the indices of the groups in the bond
- parameters (vector< double >) – the list of per-bond parameter values for the bond
-
addTabulatedFunction
(self, name, function) → int¶ Add a tabulated function that may appear in the energy expression.
Parameters: - name (string) – the name of the function as it appears in expressions
- function (TabulatedFunction *) – a TabulatedFunction object defining the function. The TabulatedFunction should have been created on the heap with the “new” operator. The Force takes over ownership of it, and deletes it when the Force itself is deleted.
Returns: the index of the function that was added
Return type: int
-
getTabulatedFunction
(self, index) → TabulatedFunction¶ getTabulatedFunction(self, index) -> TabulatedFunction
Get a reference to a tabulated function that may appear in the energy expression.
Parameters: index (int) – the index of the function to get Returns: the TabulatedFunction object defining the function Return type: TabulatedFunction
-
getTabulatedFunctionName
(self, index) → std::string const &¶ Get the name of a tabulated function that may appear in the energy expression.
Parameters: index (int) – the index of the function to get Returns: the name of the function as it appears in expressions Return type: string
-
updateParametersInContext
(self, context)¶ Update the per-bond parameters in a Context to match those stored in this Force object. This method provides an efficient method to update certain parameters in an existing Context without needing to reinitialize it. Simply call setBondParameters() to modify this object’s parameters, then call updateParametersInContext() to copy them over to the Context.
This method has several limitations. The only information it updates is the values of per-bond parameters. All other aspects of the Force (such as the energy function) are unaffected and can only be changed by reinitializing the Context. Neither the definitions of groups nor the set of groups involved in a bond can be changed, nor can new bonds be added.
-
usesPeriodicBoundaryConditions
(self) → bool¶ Returns whether or not this force makes use of periodic boundary conditions.
Returns: false Return type: bool
-
__delattr__
¶ x.__delattr__(‘name’) <==> del x.name
-
__format__
()¶ default object formatter
-
__getattribute__
¶ x.__getattribute__(‘name’) <==> x.name
-
__hash__
¶
-
__reduce__
()¶ helper for pickle
-
__reduce_ex__
()¶ helper for pickle
-
__sizeof__
() → int¶ size of object in memory, in bytes
-
__str__
¶
-
getForceGroup
(self) → int¶ Get the force group this Force belongs to.
-
setForceGroup
(self, group)¶ Set the force group this Force belongs to.
Parameters: group (int) – the group index. Legal values are between 0 and 31 (inclusive).