CustomGBForce.cpp

/* -------------------------------------------------------------------------- *
 *                                   OpenMM                                   *
 * -------------------------------------------------------------------------- *
 * This is part of the OpenMM molecular simulation toolkit originating from   *
 * Simbios, the NIH National Center for Physics-Based Simulation of           *
 * Biological Structures at Stanford, funded under the NIH Roadmap for        *
 * Medical Research, grant U54 GM072970. See https://simtk.org.               *
 *                                                                            *
 * Portions copyright (c) 2008-2016 Stanford University and the Authors.      *
 * Authors: Peter Eastman                                                     *
 * Contributors:                                                              *
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#include "openmm/Force.h"
#include "openmm/OpenMMException.h"
#include "openmm/CustomGBForce.h"
#include "openmm/internal/AssertionUtilities.h"
#include "openmm/internal/CustomGBForceImpl.h"
#include <cmath>
#include <map>
#include <sstream>
#include <utility>

using namespace OpenMM;
using std::map;
using std::pair;
using std::set;
using std::string;
using std::stringstream;
using std::vector;

CustomGBForce::CustomGBForce() : nonbondedMethod(NoCutoff), cutoffDistance(1.0) {
}

CustomGBForce::~CustomGBForce() {
    for (auto function : functions)
        delete function.function;
}

CustomGBForce::NonbondedMethod CustomGBForce::getNonbondedMethod() const {
    return nonbondedMethod;
}

void CustomGBForce::setNonbondedMethod(NonbondedMethod method) {
    if (method < 0 || method > 2)
        throw OpenMMException("CustomGBForce: Illegal value for nonbonded method");
    nonbondedMethod = method;
}

double CustomGBForce::getCutoffDistance() const {
    return cutoffDistance;
}

void CustomGBForce::setCutoffDistance(double distance) {
    cutoffDistance = distance;
}

int CustomGBForce::addPerParticleParameter(const string& name) {
    parameters.push_back(PerParticleParameterInfo(name));
    return parameters.size()-1;
}

const string& CustomGBForce::getPerParticleParameterName(int index) const {
    ASSERT_VALID_INDEX(index, parameters);
    return parameters[index].name;
}

void CustomGBForce::setPerParticleParameterName(int index, const string& name) {
    ASSERT_VALID_INDEX(index, parameters);
    parameters[index].name = name;
}

int CustomGBForce::addGlobalParameter(const string& name, double defaultValue) {
    globalParameters.push_back(GlobalParameterInfo(name, defaultValue));
    return globalParameters.size()-1;
}

const string& CustomGBForce::getGlobalParameterName(int index) const {
    ASSERT_VALID_INDEX(index, globalParameters);
    return globalParameters[index].name;
}

void CustomGBForce::setGlobalParameterName(int index, const string& name) {
    ASSERT_VALID_INDEX(index, globalParameters);
    globalParameters[index].name = name;
}

double CustomGBForce::getGlobalParameterDefaultValue(int index) const {
    ASSERT_VALID_INDEX(index, globalParameters);
    return globalParameters[index].defaultValue;
}

void CustomGBForce::setGlobalParameterDefaultValue(int index, double defaultValue) {
    ASSERT_VALID_INDEX(index, globalParameters);
    globalParameters[index].defaultValue = defaultValue;
}

void CustomGBForce::addEnergyParameterDerivative(const string& name) {
    for (int i = 0; i < globalParameters.size(); i++)
        if (name == globalParameters[i].name) {
            energyParameterDerivatives.push_back(i);
            return;
        }
    throw OpenMMException(string("addEnergyParameterDerivative: Unknown global parameter '"+name+"'"));
}

const string& CustomGBForce::getEnergyParameterDerivativeName(int index) const {
    ASSERT_VALID_INDEX(index, energyParameterDerivatives);
    return globalParameters[energyParameterDerivatives[index]].name;
}

int CustomGBForce::addParticle(const vector<double>& parameters) {
    particles.push_back(ParticleInfo(parameters));
    return particles.size()-1;
}

void CustomGBForce::getParticleParameters(int index, std::vector<double>& parameters) const {
    ASSERT_VALID_INDEX(index, particles);
    parameters = particles[index].parameters;
}

void CustomGBForce::setParticleParameters(int index, const vector<double>& parameters) {
    ASSERT_VALID_INDEX(index, particles);
    particles[index].parameters = parameters;
}

int CustomGBForce::addComputedValue(const std::string& name, const std::string& expression, ComputationType type) {
    computedValues.push_back(CustomGBForce::ComputationInfo(name, expression, type));
    return computedValues.size()-1;
}

void CustomGBForce::getComputedValueParameters(int index, std::string& name, std::string& expression, ComputationType& type) const {
    ASSERT_VALID_INDEX(index, computedValues);
    name = computedValues[index].name;
    expression = computedValues[index].expression;
    type = computedValues[index].type;
}

void CustomGBForce::setComputedValueParameters(int index, const std::string& name, const std::string& expression, ComputationType type) {
    ASSERT_VALID_INDEX(index, computedValues);
    computedValues[index].name = name;
    computedValues[index].expression = expression;
    computedValues[index].type = type;
}

int CustomGBForce::addEnergyTerm(const std::string& expression, ComputationType type) {
    energyTerms.push_back(CustomGBForce::ComputationInfo("", expression, type));
    return energyTerms.size()-1;
}

void CustomGBForce::getEnergyTermParameters(int index, std::string& expression, ComputationType& type) const {
    ASSERT_VALID_INDEX(index, energyTerms);
    expression = energyTerms[index].expression;
    type = energyTerms[index].type;
}

void CustomGBForce::setEnergyTermParameters(int index, const std::string& expression, ComputationType type) {
    ASSERT_VALID_INDEX(index, energyTerms);
    energyTerms[index].expression = expression;
    energyTerms[index].type = type;
}

int CustomGBForce::addExclusion(int particle1, int particle2) {
    exclusions.push_back(ExclusionInfo(particle1, particle2));
    return exclusions.size()-1;
}
void CustomGBForce::getExclusionParticles(int index, int& particle1, int& particle2) const {
    ASSERT_VALID_INDEX(index, exclusions);
    particle1 = exclusions[index].particle1;
    particle2 = exclusions[index].particle2;
}

void CustomGBForce::setExclusionParticles(int index, int particle1, int particle2) {
    ASSERT_VALID_INDEX(index, exclusions);
    exclusions[index].particle1 = particle1;
    exclusions[index].particle2 = particle2;
}

int CustomGBForce::addTabulatedFunction(const std::string& name, TabulatedFunction* function) {
    functions.push_back(FunctionInfo(name, function));
    return functions.size()-1;
}

const TabulatedFunction& CustomGBForce::getTabulatedFunction(int index) const {
    ASSERT_VALID_INDEX(index, functions);
    return *functions[index].function;
}

TabulatedFunction& CustomGBForce::getTabulatedFunction(int index) {
    ASSERT_VALID_INDEX(index, functions);
    return *functions[index].function;
}

const string& CustomGBForce::getTabulatedFunctionName(int index) const {
    ASSERT_VALID_INDEX(index, functions);
    return functions[index].name;
}

int CustomGBForce::addFunction(const std::string& name, const std::vector<double>& values, double min, double max) {
    functions.push_back(FunctionInfo(name, new Continuous1DFunction(values, min, max)));
    return functions.size()-1;
}

void CustomGBForce::getFunctionParameters(int index, std::string& name, std::vector<double>& values, double& min, double& max) const {
    ASSERT_VALID_INDEX(index, functions);
    Continuous1DFunction* function = dynamic_cast<Continuous1DFunction*>(functions[index].function);
    if (function == NULL)
        throw OpenMMException("CustomGBForce: function is not a Continuous1DFunction");
    name = functions[index].name;
    function->getFunctionParameters(values, min, max);
}

void CustomGBForce::setFunctionParameters(int index, const std::string& name, const std::vector<double>& values, double min, double max) {
    ASSERT_VALID_INDEX(index, functions);
    Continuous1DFunction* function = dynamic_cast<Continuous1DFunction*>(functions[index].function);
    if (function == NULL)
        throw OpenMMException("CustomGBForce: function is not a Continuous1DFunction");
    functions[index].name = name;
    function->setFunctionParameters(values, min, max);
}

ForceImpl* CustomGBForce::createImpl() const {
    return new CustomGBForceImpl(*this);
}

void CustomGBForce::updateParametersInContext(Context& context) {
    dynamic_cast<CustomGBForceImpl&>(getImplInContext(context)).updateParametersInContext(getContextImpl(context));
}

int CustomGBForce::getNumParticles() const {
    return particles.size();
}

int CustomGBForce::getNumExclusions() const {
    return exclusions.size();
}

int CustomGBForce::getNumPerParticleParameters() const {
    return parameters.size();
}

int CustomGBForce::getNumGlobalParameters() const {
    return globalParameters.size();
}

int CustomGBForce::getNumEnergyParameterDerivatives() const {
    return energyParameterDerivatives.size();
}

int CustomGBForce::getNumTabulatedFunctions() const {
    return functions.size();
}

int CustomGBForce::getNumFunctions() const {
    return functions.size();
}

int CustomGBForce::getNumComputedValues() const {
    return computedValues.size();
}

int CustomGBForce::getNumEnergyTerms() const {
    return energyTerms.size();
}