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CustomCompoundBondForce Class Reference

This class supports a wide variety of bonded interactions. More...

+ Inheritance diagram for CustomCompoundBondForce:

Public Member Functions

def getNumParticlesPerBond
 getNumParticlesPerBond(CustomCompoundBondForce self) -> int More...
 
def getNumBonds
 getNumBonds(CustomCompoundBondForce self) -> int More...
 
def getNumPerBondParameters
 getNumPerBondParameters(CustomCompoundBondForce self) -> int More...
 
def getNumGlobalParameters
 getNumGlobalParameters(CustomCompoundBondForce self) -> int More...
 
def getNumFunctions
 getNumFunctions(CustomCompoundBondForce self) -> int More...
 
def getEnergyFunction
 getEnergyFunction(CustomCompoundBondForce self) -> std::string const & More...
 
def setEnergyFunction
 setEnergyFunction(CustomCompoundBondForce self, std::string const & energy) More...
 
def addPerBondParameter
 addPerBondParameter(CustomCompoundBondForce self, std::string const & name) -> int More...
 
def getPerBondParameterName
 getPerBondParameterName(CustomCompoundBondForce self, int index) -> std::string const & More...
 
def setPerBondParameterName
 setPerBondParameterName(CustomCompoundBondForce self, int index, std::string const & name) More...
 
def addGlobalParameter
 addGlobalParameter(CustomCompoundBondForce self, std::string const & name, double defaultValue) -> int More...
 
def getGlobalParameterName
 getGlobalParameterName(CustomCompoundBondForce self, int index) -> std::string const & More...
 
def setGlobalParameterName
 setGlobalParameterName(CustomCompoundBondForce self, int index, std::string const & name) More...
 
def getGlobalParameterDefaultValue
 getGlobalParameterDefaultValue(CustomCompoundBondForce self, int index) -> double More...
 
def setGlobalParameterDefaultValue
 setGlobalParameterDefaultValue(CustomCompoundBondForce self, int index, double defaultValue) More...
 
def addBond
 addBond(CustomCompoundBondForce self, vectori particles, vectord parameters) -> int More...
 
def getBondParameters
 getBondParameters(CustomCompoundBondForce self, int index) More...
 
def setBondParameters
 setBondParameters(CustomCompoundBondForce self, int index, vectori particles, vectord parameters) More...
 
def addFunction
 addFunction(CustomCompoundBondForce self, std::string const & name, vectord values, double min, double max) -> int More...
 
def getFunctionParameters
 getFunctionParameters(CustomCompoundBondForce self, int index) More...
 
def setFunctionParameters
 setFunctionParameters(CustomCompoundBondForce self, int index, std::string const & name, vectord values, double min, double max) More...
 
def updateParametersInContext
 updateParametersInContext(CustomCompoundBondForce self, Context context) More...
 
def __init__
 init(OpenMM::CustomCompoundBondForce self, int numParticles, std::string const & energy) -> CustomCompoundBondForce init(OpenMM::CustomCompoundBondForce self, CustomCompoundBondForce other) -> CustomCompoundBondForce More...
 
def __del__
 del(OpenMM::CustomCompoundBondForce self) More...
 
- Public Member Functions inherited from Force
def __init__
 
def __del__
 del(OpenMM::Force self) More...
 
def getForceGroup
 getForceGroup(Force self) -> int More...
 
def setForceGroup
 setForceGroup(Force self, int group) More...
 
def __copy__
 
def __deepcopy__
 

Public Attributes

 this
 

Detailed Description

This class supports a wide variety of bonded interactions.

It defines a "bond" as a single energy term that depends on the positions of a fixed set of particles. The number of particles involved in a bond, and how the energy depends on their positions, is configurable. It may depend on the positions of individual particles, the distances between pairs of particles, the angles formed by sets of three particles, and the dihedral angles formed by sets of four particles.

We refer to the particles in a bond as p1, p2, p3, etc. For each bond, CustomCompoundBondForce 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 particle positions. For example, x1 is the x coordinate of particle p1, and y3 is the y coordinate of particle p3.

  • distance(p1, p2): the distance between particles p1 and p2 (where "p1" and "p2" may be replaced by the names of whichever particles you want to calculate the distance between).

  • angle(p1, p2, p3): the angle formed by the three specified particles.

  • dihedral(p1, p2, p3, p4): the dihedral angle formed by the four specified particles.

The expression also may involve tabulated functions, and may depend on arbitrary global and per-bond parameters.

To use this class, create a CustomCompoundBondForce 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 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 CustomCompoundBondForce that implements a Urey-Bradley potential. This is an interaction between three particles that depends on the angle formed by p1-p2-p3, and on the distance between p1 and p3.

CustomCompoundBondForce* force = new CustomCompoundBondForce(3, "0.5*(kangle*(angle(p1,p2,p3)-theta0)^2+kbond*(distance(p1,p3)-r0)^2)");

This force depends on four parameters: kangle, kbond, theta0, and r0. The following code defines these as per-bond parameters:

force->addPerBondParameter("kangle");
force->addPerBondParameter("kbond");
force->addPerBondParameter("theta0");
force->addPerBondParameter("r0");

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, step, delta. 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.

In addition, you can call addFunction() to define a new function based on tabulated values. You specify a vector of values, and a natural spline is created from them. That function can then appear in the expression.

Constructor & Destructor Documentation

def __init__ (   self,
  args 
)

init(OpenMM::CustomCompoundBondForce self, int numParticles, std::string const & energy) -> CustomCompoundBondForce init(OpenMM::CustomCompoundBondForce self, CustomCompoundBondForce other) -> CustomCompoundBondForce

Create a CustomCompoundBondForce.

Parameters
numParticlesthe number of particles used to define each bond
energyan 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

References simtk.openmm.openmm.stripUnits().

def __del__ (   self)

del(OpenMM::CustomCompoundBondForce self)

References simtk.openmm.openmm.stripUnits().

Member Function Documentation

def addBond (   self,
  args 
)

addBond(CustomCompoundBondForce self, vectori particles, vectord parameters) -> int

Add a bond to the force

Parameters
particlesthe indices of the particles the bond depends on
parametersthe list of per-bond parameter values for the new bond

References simtk.openmm.openmm.stripUnits().

Referenced by Topology.createDisulfideBonds(), and Topology.createStandardBonds().

def addFunction (   self,
  args 
)

addFunction(CustomCompoundBondForce self, std::string const & name, vectord values, double min, double max) -> int

Add a tabulated function that may appear in the energy expression.

Parameters
namethe name of the function as it appears in expressions
valuesthe tabulated values of the function f(x) at uniformly spaced values of x between min and max. The function is assumed to be zero for x < min or x > max.
minthe value of the independent variable corresponding to the first element of values
maxthe value of the independent variable corresponding to the last element of values

References simtk.openmm.openmm.stripUnits().

def addGlobalParameter (   self,
  args 
)

addGlobalParameter(CustomCompoundBondForce self, std::string const & name, double defaultValue) -> int

Add a new global parameter that the interaction may depend on.

Parameters
namethe name of the parameter
defaultValuethe default value of the parameter

References simtk.openmm.openmm.stripUnits().

def addPerBondParameter (   self,
  args 
)

addPerBondParameter(CustomCompoundBondForce self, std::string const & name) -> int

Add a new per-bond parameter that the interaction may depend on.

Parameters
namethe name of the parameter

References simtk.openmm.openmm.stripUnits().

def getBondParameters (   self,
  args 
)

getBondParameters(CustomCompoundBondForce self, int index)

Get the properties of a bond.

Parameters
indexthe index of the bond to get
particlesthe indices of the particles in the bond
parametersthe list of per-bond parameter values for the bond

References simtk.openmm.openmm.stripUnits().

def getEnergyFunction (   self)

getEnergyFunction(CustomCompoundBondForce self) -> std::string const &

Get the algebraic expression that gives the interaction energy of each bond

References simtk.openmm.openmm.stripUnits().

def getFunctionParameters (   self,
  args 
)

getFunctionParameters(CustomCompoundBondForce self, int index)

Get the parameters for a tabulated function that may appear in the energy expression.

Parameters
indexthe index of the function for which to get parameters
namethe name of the function as it appears in expressions
valuesthe tabulated values of the function f(x) at uniformly spaced values of x between min and max. The function is assumed to be zero for x < min or x > max.
minthe value of the independent variable corresponding to the first element of values
maxthe value of the independent variable corresponding to the last element of values

References simtk.openmm.openmm.stripUnits().

def getGlobalParameterDefaultValue (   self,
  args 
)

getGlobalParameterDefaultValue(CustomCompoundBondForce self, int index) -> double

Get the default value of a global parameter.

Parameters
indexthe index of the parameter for which to get the default value

References simtk.openmm.openmm.stripUnits().

def getGlobalParameterName (   self,
  args 
)

getGlobalParameterName(CustomCompoundBondForce self, int index) -> std::string const &

Get the name of a global parameter.

Parameters
indexthe index of the parameter for which to get the name

References simtk.openmm.openmm.stripUnits().

def getNumBonds (   self)

getNumBonds(CustomCompoundBondForce self) -> int

Get the number of bonds for which force field parameters have been defined.

References simtk.openmm.openmm.stripUnits().

def getNumFunctions (   self)

getNumFunctions(CustomCompoundBondForce self) -> int

Get the number of tabulated functions that have been defined.

References simtk.openmm.openmm.stripUnits().

def getNumGlobalParameters (   self)

getNumGlobalParameters(CustomCompoundBondForce self) -> int

Get the number of global parameters that the interaction depends on.

References simtk.openmm.openmm.stripUnits().

def getNumParticlesPerBond (   self)

getNumParticlesPerBond(CustomCompoundBondForce self) -> int

Get the number of particles used to define each bond.

References simtk.openmm.openmm.stripUnits().

def getNumPerBondParameters (   self)

getNumPerBondParameters(CustomCompoundBondForce self) -> int

Get the number of per-bond parameters that the interaction depends on.

References simtk.openmm.openmm.stripUnits().

def getPerBondParameterName (   self,
  args 
)

getPerBondParameterName(CustomCompoundBondForce self, int index) -> std::string const &

Get the name of a per-bond parameter.

Parameters
indexthe index of the parameter for which to get the name

References simtk.openmm.openmm.stripUnits().

def setBondParameters (   self,
  args 
)

setBondParameters(CustomCompoundBondForce self, int index, vectori particles, vectord parameters)

Set the properties of a bond.

Parameters
indexthe index of the bond group to set
particlesthe indices of the particles in the bond
parametersthe list of per-bond parameter values for the bond

References simtk.openmm.openmm.stripUnits().

def setEnergyFunction (   self,
  args 
)

setEnergyFunction(CustomCompoundBondForce self, std::string const & energy)

Set the algebraic expression that gives the interaction energy of each bond

References simtk.openmm.openmm.stripUnits().

def setFunctionParameters (   self,
  args 
)

setFunctionParameters(CustomCompoundBondForce self, int index, std::string const & name, vectord values, double min, double max)

Set the parameters for a tabulated function that may appear in algebraic expressions.

Parameters
indexthe index of the function for which to set parameters
namethe name of the function as it appears in expressions
valuesthe tabulated values of the function f(x) at uniformly spaced values of x between min and max. The function is assumed to be zero for x < min or x > max.
minthe value of the independent variable corresponding to the first element of values
maxthe value of the independent variable corresponding to the last element of values

References simtk.openmm.openmm.stripUnits().

def setGlobalParameterDefaultValue (   self,
  args 
)

setGlobalParameterDefaultValue(CustomCompoundBondForce self, int index, double defaultValue)

Set the default value of a global parameter.

Parameters
indexthe index of the parameter for which to set the default value
namethe default value of the parameter

References simtk.openmm.openmm.stripUnits().

def setGlobalParameterName (   self,
  args 
)

setGlobalParameterName(CustomCompoundBondForce self, int index, std::string const & name)

Set the name of a global parameter.

Parameters
indexthe index of the parameter for which to set the name
namethe name of the parameter

References simtk.openmm.openmm.stripUnits().

def setPerBondParameterName (   self,
  args 
)

setPerBondParameterName(CustomCompoundBondForce self, int index, std::string const & name)

Set the name of a per-bond parameter.

Parameters
indexthe index of the parameter for which to set the name
namethe name of the parameter

References simtk.openmm.openmm.stripUnits().

def updateParametersInContext (   self,
  args 
)

updateParametersInContext(CustomCompoundBondForce self, Context 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 updateParametersInState() 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. The set of particles involved in a bond cannot be changed, nor can new bonds be added.

References simtk.openmm.openmm.stripUnits().

Member Data Documentation

this

Referenced by System.__init__().


The documentation for this class was generated from the following file: