membrane¶

Bindings for core::scoring::membrane namespace

class pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty¶

Bases: ContextDependentOneBodyEnergy

Class Membrane Non Helix Penalty

assign(self: pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy, : pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy) → pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy¶: C++: core::scoring::methods::ContextDependentOneBodyEnergy::operator=(const class core::scoring::methods::ContextDependentOneBodyEnergy &) –> class core::scoring::methods::ContextDependentOneBodyEnergy &

atomistic_energy(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, atmno: int, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, scorefxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector) → None¶

Evaluate the (one body) energy associated with a particular atom

This may be a “self” energy, or it may be the single atom contribution from a whole structure term. NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here. For most terms this is likely a no-op. Terms which implement this non-trivially should return true from has_atomistic_energies()

This is return-by-reference in the EnergyMap - Implementations should accumulate, not replace.

C++: core::scoring::methods::EnergyMethod::atomistic_energy(unsigned long, const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

atomistic_pair_energy(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, atmno1: int, rsd1: pyrosetta.rosetta.core.conformation.Residue, atomno2: int, rsd2: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, scorefxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector) → None¶

Evaluate the energy for a particular pair of atoms

This function may be fed the same residue with different atom numbers NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here. For most terms this is likely a no-op. Terms which implement this non-trivially should return true from has_atomistic_pairwise_energies()

This is return-by-reference in the EnergyMap - Implementations should accumulate, not replace.

C++: core::scoring::methods::EnergyMethod::atomistic_pair_energy(unsigned long, const class core::conformation::Residue &, unsigned long, const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

clone(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty) → pyrosetta.rosetta.core.scoring.methods.EnergyMethod¶

Clone

C++: core::scoring::membrane::MPNonHelixPenalty::clone() const –> class std::shared_ptr<class core::scoring::methods::EnergyMethod>

compute_nonhelix_penalty(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty, tmregion: bool, secstruc: str, z_position: float) → float¶

Compute Non Helix in Membrane Score (per-residue)

C++: core::scoring::membrane::MPNonHelixPenalty::compute_nonhelix_penalty(bool, char, double) const –> double

defines_dof_derivatives(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, p: core::pose::Pose) → bool¶

Use the dof_derivative interface for this energy method when: calculating derivatives? It is possible to define both dof_derivatives and atom-derivatives; they are not mutually exclusive.

C++: core::scoring::methods::OneBodyEnergy::defines_dof_derivatives(const class core::pose::Pose &) const –> bool

defines_high_order_terms(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose) → bool¶

Should this EnergyMethod have score and derivative evaluation: evaluated both in the context of the whole Pose and in the context of residue or residue-pairs? This covers scoring terms like env-smooth wherein the CBeta’s get derivatives for increasing the neighbor counts for surrounding residues, and terms like constraints, which are definable on arbitrary number of residues (e.g. more than 2); both of these terms could be used in RTMin, and both should use the residue and residue-pair evaluation scheme with the MinimizationGraph for the majority of the work they do. (Now, high-order constraints (3-body or above) will not be properly evaluated within RTMin.). The default implementation returns “false”.

C++: core::scoring::methods::EnergyMethod::defines_high_order_terms(const class core::pose::Pose &) const –> bool

defines_score_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, : pyrosetta.rosetta.core.conformation.Residue) → bool¶

During minimization, energy methods are allowed to decide that they say nothing: about a particular residue (e.g. no non-zero energy) and as a result they will not be queried for a derivative or an energy. The default behavior is to return “true” for all residues.

C++: core::scoring::methods::OneBodyEnergy::defines_score_for_residue(const class core::conformation::Residue &) const –> bool

eval_atom_derivative(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, id: pyrosetta.rosetta.core.id.AtomID, pose: core::pose::Pose, domain_map: pyrosetta.rosetta.ObjexxFCL.FArray1D_int_t, sfxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector, F1: pyrosetta.rosetta.numeric.xyzVector_double_t, F2: pyrosetta.rosetta.numeric.xyzVector_double_t) → None¶

Evaluate the XYZ derivative for an atom in the pose.

Called during the atomtree derivative calculation, atom_tree_minimize.cc, through the ScoreFunction::eval_atom_derivative intermediary. F1 and F2 should not zeroed, rather, this class should accumulate its contribution from this atom’s XYZ derivative

The derivative scheme is based on that of Abe, Braun, Noguti and Go (1984) “Rapid Calculation of First and Second Derivatives of Conformational Energy with Respect to Dihedral Angles for Proteins. General Recurrent Equations” Computers & Chemistry 8(4) pp. 239-247. F1 and F2 correspond roughly to Fa and Ga, respectively, of equations 7a & 7b in that paper.

C++: core::scoring::methods::EnergyMethod::eval_atom_derivative(const class core::id::AtomID &, const class core::pose::Pose &, const class ObjexxFCL::FArray1D<int> &, const class core::scoring::ScoreFunction &, const class core::scoring::EMapVector &, class numeric::xyzVector<double> &, class numeric::xyzVector<double> &) const –> void

eval_residue_derivatives(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, min_data: core::scoring::ResSingleMinimizationData, pose: core::pose::Pose, weights: core::scoring::EMapVector, atom_derivs: pyrosetta.rosetta.utility.vector1_core_scoring_DerivVectorPair) → None¶

Evaluate the derivatives for all atoms on this residue and increment them: into the input atom_derivs vector1. The calling function must guarantee that setup for derivatives is called before this function is, and that the atom_derivs vector contains at least as many entries as there are atoms in the input Residue. This base class provides a default noop implementation of this function.

C++: core::scoring::methods::OneBodyEnergy::eval_residue_derivatives(const class core::conformation::Residue &, const class core::scoring::ResSingleMinimizationData &, const class core::pose::Pose &, const class core::scoring::EMapVector &, class utility::vector1<class core::scoring::DerivVectorPair, class std::allocator<class core::scoring::DerivVectorPair> > &) const –> void

eval_residue_dof_derivative(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, min_data: core::scoring::ResSingleMinimizationData, dof_id: pyrosetta.rosetta.core.id.DOF_ID, torsion_id: core::id::TorsionID, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, weights: core::scoring::EMapVector) → float¶

Evaluate the DOF derivative for a particular residue. The Pose merely serves as context,: and the input residue is not required to be a member of the Pose.

C++: core::scoring::methods::OneBodyEnergy::eval_residue_dof_derivative(const class core::conformation::Residue &, const class core::scoring::ResSingleMinimizationData &, const class core::id::DOF_ID &, const class core::id::TorsionID &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, const class core::scoring::EMapVector &) const –> double

finalize_after_derivatives(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : core::scoring::ScoreFunction) → None¶

called at the end of derivatives evaluation

C++: core::scoring::methods::EnergyMethod::finalize_after_derivatives(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

finalize_after_minimizing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose) → None¶

Called after minimization, allowing a derived class to do some

teardown steps.

Base class function does nothing. Derived classes may override.

Vikram K. Mulligan (vmullig.edu).

C++: core::scoring::methods::EnergyMethod::finalize_after_minimizing(class core::pose::Pose &) const –> void

finalize_total_energy(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty, pose: pyrosetta.rosetta.core.pose.Pose, : pyrosetta.rosetta.core.scoring.ScoreFunction, totals: pyrosetta.rosetta.core.scoring.EMapVector) → None¶

Finalize total energy method (for whole structure

C++: core::scoring::membrane::MPNonHelixPenalty::finalize_total_energy(class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

has_atomistic_energies(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → bool¶

Does this EnergyMethod have a non-trivial implementation of the (one body) atomistic energy method?: Note that this may return false even if the score term theoretically could support atomistic energies. And even if this function returns true, it’s not necessarily the case that all atoms will get assigned an energy, or that the sum over all atoms (or atom pairs) will result in the same energy as the residue-level approach. The atomistic functions are intended for supplemental informational purposes only. The residue-level energies are the main interface for EnergyMethods.

C++: core::scoring::methods::EnergyMethod::has_atomistic_energies() const –> bool

has_atomistic_pairwise_energies(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → bool¶

Does this EnergyMethod have a non-trivial implementation of the pairwise atomistic energy method?: NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here.

C++: core::scoring::methods::EnergyMethod::has_atomistic_pairwise_energies() const –> bool

indicate_required_context_graphs(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty, : pyrosetta.rosetta.utility.vector1_bool) → None¶: C++: core::scoring::membrane::MPNonHelixPenalty::indicate_required_context_graphs(class utility::vector1<bool, class std::allocator<bool> > &) const –> void

method_type(self: pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy) → pyrosetta.rosetta.core.scoring.methods.EnergyMethodType¶

Returns the cd_1b element of the EnergyMethodType enumeration; this method: should NOT be overridden by derived classes.

C++: core::scoring::methods::ContextDependentOneBodyEnergy::method_type() const –> enum core::scoring::methods::EnergyMethodType

minimize_in_whole_structure_context(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose) → bool¶

Should this EnergyMethod have score and derivative evaluation: evaluated only in the context of the whole Pose, or can it be included in a decomposed manner for a residue or a set of residue-pairs that are not part of the Pose that’s serving as their context? The default method implemented in the base class returns true in order to grandfather in EnergyMethods that have not had their derivatives changed to take advantage of the new derivative-evaluation machinery. Methods that return “true” will not have their residue-energy(-ext) / residue-pair-energy(-ext) methods invoked by the ScoreFunction during its traversal of the MinimizationGraph, and instead will be asked to perform all their work during finalize_total_energies(). Similarly, they will be expected to perform all their work during eval_atom_deriv() instead of during the ScoreFunction’s traversal of the MinimizationGraph for derivative evaluation. IMPORTANT: Methods that return “true” cannot be included in RTMin.

C++: core::scoring::methods::EnergyMethod::minimize_in_whole_structure_context(const class core::pose::Pose &) const –> bool

prepare_rotamers_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : pyrosetta.rosetta.core.conformation.RotamerSetBase) → None¶

If an energy method needs to cache data in a packing::RotamerSet object before: rotamer energies are calculated, it does so during this function. The packer must ensure this function is called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::prepare_rotamers_for_packing(const class core::pose::Pose &, class core::conformation::RotamerSetBase &) const –> void

provide_citation_info(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : pyrosetta.rosetta.basic.citation_manager.CitationCollectionList) → None¶

Provide citations to the passed CitationCollectionList

Subclasses should add the info for themselves and any other classes they use.

The default implementation of this function does nothing. It may be overriden by energy methods wishing to provide citation information.

C++: core::scoring::methods::EnergyMethod::provide_citation_info(class basic::citation_manager::CitationCollectionList &) const –> void

requires_a_setup_for_derivatives_for_residue_opportunity(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, pose: core::pose::Pose) → bool¶

Does this EnergyMethod require the opportunity to examine the residue before derivative evaluation begins? Not: all energy methods would. The ScoreFunction will not ask energy methods to examine residues that are uninterested in doing so.

C++: core::scoring::methods::OneBodyEnergy::requires_a_setup_for_derivatives_for_residue_opportunity(const class core::pose::Pose &) const –> bool

requires_a_setup_for_scoring_for_residue_opportunity_during_minimization(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, pose: core::pose::Pose) → bool¶

Does this EnergyMethod require the opportunity to examine the residue before scoring begins? Not: all energy methods would. The ScoreFunction will not ask energy methods to examine residues that are uninterested in doing so.

C++: core::scoring::methods::OneBodyEnergy::requires_a_setup_for_scoring_for_residue_opportunity_during_minimization(const class core::pose::Pose &) const –> bool

requires_a_setup_for_scoring_for_residue_opportunity_during_regular_scoring(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose) → bool¶

Does this EnergyMethod require the opportunity to examine the residue before (regular) scoring begins? Not: all energy methods would. The ScoreFunction will not ask energy methods to examine residues that are uninterested in doing so. The default implmentation of this function returns false

C++: core::scoring::methods::EnergyMethod::requires_a_setup_for_scoring_for_residue_opportunity_during_regular_scoring(const class core::pose::Pose &) const –> bool

residue_energy(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: pyrosetta.rosetta.core.pose.Pose, emap: pyrosetta.rosetta.core.scoring.EMapVector) → None¶

Compute nonhelix penalty per-residue

C++: core::scoring::membrane::MPNonHelixPenalty::residue_energy(const class core::conformation::Residue &, const class core::pose::Pose &, class core::scoring::EMapVector &) const –> void

residue_energy_ext(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, min_data: core::scoring::ResSingleMinimizationData, pose: core::pose::Pose, emap: core::scoring::EMapVector) → None¶

Evaluate the one-body energies for a particular residue, in the context of a: given Pose, and with the help of a piece of cached data for minimization, increment those one body energies into the input EnergyMap. The calling function must guarantee that this EnergyMethod has had the opportunity to update the input ResSingleMinimizationData object for the given residue in a call to setup_for_minimizing_for_residue before this function is invoked. This function should not be called unless the use_extended_residue_energy_interface() method returns “true”. Default implementation provided by this base class calls utility::exit(). The Pose merely serves as context, and the input residue is not required to be a member of the Pose.

C++: core::scoring::methods::OneBodyEnergy::residue_energy_ext(const class core::conformation::Residue &, const class core::scoring::ResSingleMinimizationData &, const class core::pose::Pose &, class core::scoring::EMapVector &) const –> void

score_types(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → pyrosetta.rosetta.utility.vector1_core_scoring_ScoreType¶

Returns the score types that this energy method computes.

C++: core::scoring::methods::EnergyMethod::score_types() const –> const class utility::vector1<enum core::scoring::ScoreType, class std::allocator<enum core::scoring::ScoreType> > &

setup_for_derivatives(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty, : pyrosetta.rosetta.core.pose.Pose, : pyrosetta.rosetta.core.scoring.ScoreFunction) → None¶

Setup MP nonhelix for derivatives

C++: core::scoring::membrane::MPNonHelixPenalty::setup_for_derivatives(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

setup_for_derivatives_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, min_data: core::scoring::ResSingleMinimizationData, res_data_cache: pyrosetta.rosetta.basic.datacache.BasicDataCache) → None¶

Do any setup work necessary before evaluating the derivatives for this residue

C++: core::scoring::methods::OneBodyEnergy::setup_for_derivatives_for_residue(const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::ResSingleMinimizationData &, class basic::datacache::BasicDataCache &) const –> void

setup_for_minimizing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : core::scoring::ScoreFunction, : core::kinematics::MinimizerMapBase) → None¶

Called at the beginning of atom tree minimization, this method: allows the derived class the opportunity to initialize pertinent data that will be used during minimization. During minimzation, the chemical structure of the pose is constant, so assumptions on the number of atoms per residue and their identities are safe so long as the pose’s Energies object’s “use_nblist()” method returns true.

C++: core::scoring::methods::EnergyMethod::setup_for_minimizing(class core::pose::Pose &, const class core::scoring::ScoreFunction &, const class core::kinematics::MinimizerMapBase &) const –> void

setup_for_minimizing_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, : core::pose::Pose, : core::scoring::ScoreFunction, : core::kinematics::MinimizerMapBase, : pyrosetta.rosetta.basic.datacache.BasicDataCache, : core::scoring::ResSingleMinimizationData) → None¶

Called at the beginning of minimization, allowing this energy method to cache data: pertinent for a single residue in the the ResSingleMinimizationData that is used for a particular residue in the context of a particular Pose. This base class provides a noop implementation for this function if there is nothing that the derived class needs to perform in this setup phase. The Pose merely serves as context, and the input residue is not required to be a member of the Pose.

C++: core::scoring::methods::OneBodyEnergy::setup_for_minimizing_for_residue(const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, const class core::kinematics::MinimizerMapBase &, class basic::datacache::BasicDataCache &, class core::scoring::ResSingleMinimizationData &) const –> void

setup_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : pyrosetta.rosetta.utility.vector1_bool, : pyrosetta.rosetta.utility.vector1_bool) → None¶

if an energy method needs to cache data in the Energies object,: before packing begins, then it does so during this function. The packer must ensure this function is called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::setup_for_packing(class core::pose::Pose &, const class utility::vector1<bool, class std::allocator<bool> > &, const class utility::vector1<bool, class std::allocator<bool> > &) const –> void

setup_for_packing_with_rotsets(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose, rotsets: core::pack_basic::RotamerSetsBase, sfxn: core::scoring::ScoreFunction) → None¶

if an energy method needs to cache data in the Energies object,

before packing begins and requires access to the RotamerSets object, then it does so during this function. The default behavior is to do nothing.

The exact order of events when setting up for packing are as follows:

setup_for_packing() is called for all energy methods
rotamers are built
setup_for_packing_with_rotsets() is called for all energy methods
prepare_rotamers_for_packing() is called for all energy methods
The energy methods are asked to score all rotamers and rotamer pairs
Annealing

The pose is specifically non-const here so that energy methods can store data in it

: Used in ApproximateBuriedUnsatPenalty to pre-compute compatible rotamers

C++: core::scoring::methods::EnergyMethod::setup_for_packing_with_rotsets(class core::pose::Pose &, const class std::shared_ptr<class core::pack_basic::RotamerSetsBase> &, const class core::scoring::ScoreFunction &) const –> void

setup_for_scoring(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenalty, : pyrosetta.rosetta.core.pose.Pose, : pyrosetta.rosetta.core.scoring.ScoreFunction) → None¶

Set MP nonhelix Penalty for Scoring

C++: core::scoring::membrane::MPNonHelixPenalty::setup_for_scoring(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

setup_for_scoring_for_residue(*args, **kwargs)¶

Overloaded function.

setup_for_scoring_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, residue_data_cache: pyrosetta.rosetta.basic.datacache.BasicDataCache) -> None
setup_for_scoring_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, min_data: core::scoring::ResSingleMinimizationData) -> None

Do any setup work should the coordinates of this residue, who is still guaranteed to be: of the same residue type as when setup_for_minimizing_for_residue was called, have changed so dramatically as to possibly require some amount of setup work before scoring should proceed

C++: core::scoring::methods::OneBodyEnergy::setup_for_scoring_for_residue(const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::ResSingleMinimizationData &) const –> void

show_additional_info(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : pyrosetta.rosetta.std.ostream, : core::pose::Pose, : bool) → None¶

show additional information of the energy method

C++: core::scoring::methods::EnergyMethod::show_additional_info(std::ostream &, class core::pose::Pose &, bool) const –> void

update_residue_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, resid: int) → None¶

If the pose changes in the middle of a packing (as happens in rotamer trials) and if: an energy method needs to cache data in the pose that corresponds to its current state, then the method must update that data when this function is called. The packer must ensure this function gets called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::update_residue_for_packing(class core::pose::Pose &, unsigned long) const –> void

use_extended_residue_energy_interface(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy) → bool¶

Rely on the extended version of the residue_energy function during score-function: evaluation in minimization? The extended version (below) takes a ResSingleMinimizationData. Return ‘true’ for the extended version. The default method implemented in this class returns ‘false’

C++: core::scoring::methods::OneBodyEnergy::use_extended_residue_energy_interface() const –> bool

version(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → int¶

Return the version of the energy method

C++: core::scoring::methods::EnergyMethod::version() const –> unsigned long

class pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenaltyCreator¶

Bases: EnergyMethodCreator

Membrane Non Hleix in mmebrane Penalty Creator Class

assign(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenaltyCreator, : pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenaltyCreator) → pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenaltyCreator¶: C++: core::scoring::membrane::MPNonHelixPenaltyCreator::operator=(const class core::scoring::membrane::MPNonHelixPenaltyCreator &) –> class core::scoring::membrane::MPNonHelixPenaltyCreator &

create_energy_method(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenaltyCreator, : pyrosetta.rosetta.core.scoring.methods.EnergyMethodOptions) → pyrosetta.rosetta.core.scoring.methods.EnergyMethod¶

Instantiate a new MPNonHelixPenalty

C++: core::scoring::membrane::MPNonHelixPenaltyCreator::create_energy_method(const class core::scoring::methods::EnergyMethodOptions &) const –> class std::shared_ptr<class core::scoring::methods::EnergyMethod>

score_types_for_method(self: pyrosetta.rosetta.core.scoring.membrane.MPNonHelixPenaltyCreator) → pyrosetta.rosetta.utility.vector1_core_scoring_ScoreType¶

Return the set of score types claimed by the EnergyMethod: this EnergyMethodCreator creates in its create_energy_method() function

C++: core::scoring::membrane::MPNonHelixPenaltyCreator::score_types_for_method() const –> class utility::vector1<enum core::scoring::ScoreType, class std::allocator<enum core::scoring::ScoreType> >

class pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenalty¶

Bases: WholeStructureEnergy

Class Membrane TM proj Penalty

assign(self: pyrosetta.rosetta.core.scoring.methods.WholeStructureEnergy, : pyrosetta.rosetta.core.scoring.methods.WholeStructureEnergy) → pyrosetta.rosetta.core.scoring.methods.WholeStructureEnergy¶: C++: core::scoring::methods::WholeStructureEnergy::operator=(const class core::scoring::methods::WholeStructureEnergy &) –> class core::scoring::methods::WholeStructureEnergy &

atomic_interaction_cutoff(self: pyrosetta.rosetta.core.scoring.methods.WholeStructureEnergy) → float¶

how far apart must two heavy atoms be to have a zero interaction energy?

If hydrogen atoms interact at the same range as heavy atoms, then this distance should build-in a 2 * max-bound-h-distance-cutoff buffer. There is an improper mixing here between run-time aquired chemical knowledge (max-bound-h-distance-cutoff) and compile time aquired scoring knowledge (max atom cutoff); this could be resolved by adding a boolean uses_hydrogen_interaction_distance() to the SRTBEnergy class along with a method of the ChemicalManager max_bound_h_distance_cutoff().

This method allows the WholeStructureEnergy class to define which edges should be included in the EnergyGraph so that during the finalize() method the Energy class can iterate across the EnergyGraph. This iteration occurrs in the SecondaryStructureEnergy class, where the edges must span 12 angstroms between the centroids. Arguably, the SecondaryStructureEnergy class could use the TwelveANeighborGraph (a context graph) and not require that the EnergyGraph span such long distances.

C++: core::scoring::methods::WholeStructureEnergy::atomic_interaction_cutoff() const –> double

atomistic_energy(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, atmno: int, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, scorefxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector) → None¶

Evaluate the (one body) energy associated with a particular atom

This may be a “self” energy, or it may be the single atom contribution from a whole structure term. NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here. For most terms this is likely a no-op. Terms which implement this non-trivially should return true from has_atomistic_energies()

This is return-by-reference in the EnergyMap - Implementations should accumulate, not replace.

C++: core::scoring::methods::EnergyMethod::atomistic_energy(unsigned long, const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

atomistic_pair_energy(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, atmno1: int, rsd1: pyrosetta.rosetta.core.conformation.Residue, atomno2: int, rsd2: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, scorefxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector) → None¶

Evaluate the energy for a particular pair of atoms

This function may be fed the same residue with different atom numbers NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here. For most terms this is likely a no-op. Terms which implement this non-trivially should return true from has_atomistic_pairwise_energies()

This is return-by-reference in the EnergyMap - Implementations should accumulate, not replace.

C++: core::scoring::methods::EnergyMethod::atomistic_pair_energy(unsigned long, const class core::conformation::Residue &, unsigned long, const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

clone(self: pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenalty) → pyrosetta.rosetta.core.scoring.methods.EnergyMethod¶

Clone

C++: core::scoring::membrane::MPTMProjPenalty::clone() const –> class std::shared_ptr<class core::scoring::methods::EnergyMethod>

compute_tmproj_penalty(self: pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenalty, start_z_pos: float, end_z_pos: float, dist: float) → float¶

Compute Penalty for Length of Helix

C++: core::scoring::membrane::MPTMProjPenalty::compute_tmproj_penalty(double, double, double) const –> double

defines_high_order_terms(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose) → bool¶

Should this EnergyMethod have score and derivative evaluation: evaluated both in the context of the whole Pose and in the context of residue or residue-pairs? This covers scoring terms like env-smooth wherein the CBeta’s get derivatives for increasing the neighbor counts for surrounding residues, and terms like constraints, which are definable on arbitrary number of residues (e.g. more than 2); both of these terms could be used in RTMin, and both should use the residue and residue-pair evaluation scheme with the MinimizationGraph for the majority of the work they do. (Now, high-order constraints (3-body or above) will not be properly evaluated within RTMin.). The default implementation returns “false”.

C++: core::scoring::methods::EnergyMethod::defines_high_order_terms(const class core::pose::Pose &) const –> bool

eval_atom_derivative(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, id: pyrosetta.rosetta.core.id.AtomID, pose: core::pose::Pose, domain_map: pyrosetta.rosetta.ObjexxFCL.FArray1D_int_t, sfxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector, F1: pyrosetta.rosetta.numeric.xyzVector_double_t, F2: pyrosetta.rosetta.numeric.xyzVector_double_t) → None¶

Evaluate the XYZ derivative for an atom in the pose.

Called during the atomtree derivative calculation, atom_tree_minimize.cc, through the ScoreFunction::eval_atom_derivative intermediary. F1 and F2 should not zeroed, rather, this class should accumulate its contribution from this atom’s XYZ derivative

The derivative scheme is based on that of Abe, Braun, Noguti and Go (1984) “Rapid Calculation of First and Second Derivatives of Conformational Energy with Respect to Dihedral Angles for Proteins. General Recurrent Equations” Computers & Chemistry 8(4) pp. 239-247. F1 and F2 correspond roughly to Fa and Ga, respectively, of equations 7a & 7b in that paper.

C++: core::scoring::methods::EnergyMethod::eval_atom_derivative(const class core::id::AtomID &, const class core::pose::Pose &, const class ObjexxFCL::FArray1D<int> &, const class core::scoring::ScoreFunction &, const class core::scoring::EMapVector &, class numeric::xyzVector<double> &, class numeric::xyzVector<double> &) const –> void

finalize_after_derivatives(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : core::scoring::ScoreFunction) → None¶

called at the end of derivatives evaluation

C++: core::scoring::methods::EnergyMethod::finalize_after_derivatives(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

finalize_after_minimizing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose) → None¶

Called after minimization, allowing a derived class to do some

teardown steps.

Base class function does nothing. Derived classes may override.

Vikram K. Mulligan (vmullig.edu).

C++: core::scoring::methods::EnergyMethod::finalize_after_minimizing(class core::pose::Pose &) const –> void

finalize_total_energy(self: pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenalty, pose: pyrosetta.rosetta.core.pose.Pose, : pyrosetta.rosetta.core.scoring.ScoreFunction, totals: pyrosetta.rosetta.core.scoring.EMapVector) → None¶

Finalize total energy method (for whole structure

C++: core::scoring::membrane::MPTMProjPenalty::finalize_total_energy(class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

has_atomistic_energies(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → bool¶

Does this EnergyMethod have a non-trivial implementation of the (one body) atomistic energy method?: Note that this may return false even if the score term theoretically could support atomistic energies. And even if this function returns true, it’s not necessarily the case that all atoms will get assigned an energy, or that the sum over all atoms (or atom pairs) will result in the same energy as the residue-level approach. The atomistic functions are intended for supplemental informational purposes only. The residue-level energies are the main interface for EnergyMethods.

C++: core::scoring::methods::EnergyMethod::has_atomistic_energies() const –> bool

has_atomistic_pairwise_energies(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → bool¶

Does this EnergyMethod have a non-trivial implementation of the pairwise atomistic energy method?: NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here.

C++: core::scoring::methods::EnergyMethod::has_atomistic_pairwise_energies() const –> bool

indicate_required_context_graphs(self: pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenalty, : pyrosetta.rosetta.utility.vector1_bool) → None¶: C++: core::scoring::membrane::MPTMProjPenalty::indicate_required_context_graphs(class utility::vector1<bool, class std::allocator<bool> > &) const –> void

method_type(self: pyrosetta.rosetta.core.scoring.methods.WholeStructureEnergy) → pyrosetta.rosetta.core.scoring.methods.EnergyMethodType¶: C++: core::scoring::methods::WholeStructureEnergy::method_type() const –> enum core::scoring::methods::EnergyMethodType

minimize_in_whole_structure_context(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose) → bool¶

Should this EnergyMethod have score and derivative evaluation: evaluated only in the context of the whole Pose, or can it be included in a decomposed manner for a residue or a set of residue-pairs that are not part of the Pose that’s serving as their context? The default method implemented in the base class returns true in order to grandfather in EnergyMethods that have not had their derivatives changed to take advantage of the new derivative-evaluation machinery. Methods that return “true” will not have their residue-energy(-ext) / residue-pair-energy(-ext) methods invoked by the ScoreFunction during its traversal of the MinimizationGraph, and instead will be asked to perform all their work during finalize_total_energies(). Similarly, they will be expected to perform all their work during eval_atom_deriv() instead of during the ScoreFunction’s traversal of the MinimizationGraph for derivative evaluation. IMPORTANT: Methods that return “true” cannot be included in RTMin.

C++: core::scoring::methods::EnergyMethod::minimize_in_whole_structure_context(const class core::pose::Pose &) const –> bool

prepare_rotamers_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : pyrosetta.rosetta.core.conformation.RotamerSetBase) → None¶

If an energy method needs to cache data in a packing::RotamerSet object before: rotamer energies are calculated, it does so during this function. The packer must ensure this function is called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::prepare_rotamers_for_packing(const class core::pose::Pose &, class core::conformation::RotamerSetBase &) const –> void

provide_citation_info(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : pyrosetta.rosetta.basic.citation_manager.CitationCollectionList) → None¶

Provide citations to the passed CitationCollectionList

Subclasses should add the info for themselves and any other classes they use.

The default implementation of this function does nothing. It may be overriden by energy methods wishing to provide citation information.

C++: core::scoring::methods::EnergyMethod::provide_citation_info(class basic::citation_manager::CitationCollectionList &) const –> void

requires_a_setup_for_scoring_for_residue_opportunity_during_regular_scoring(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose) → bool¶

Does this EnergyMethod require the opportunity to examine the residue before (regular) scoring begins? Not: all energy methods would. The ScoreFunction will not ask energy methods to examine residues that are uninterested in doing so. The default implmentation of this function returns false

C++: core::scoring::methods::EnergyMethod::requires_a_setup_for_scoring_for_residue_opportunity_during_regular_scoring(const class core::pose::Pose &) const –> bool

score_types(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → pyrosetta.rosetta.utility.vector1_core_scoring_ScoreType¶

Returns the score types that this energy method computes.

C++: core::scoring::methods::EnergyMethod::score_types() const –> const class utility::vector1<enum core::scoring::ScoreType, class std::allocator<enum core::scoring::ScoreType> > &

setup_for_derivatives(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction) → None¶

Called immediately before atom- and DOF-derivatives are calculated: allowing the derived class a chance to prepare for future calls.

C++: core::scoring::methods::EnergyMethod::setup_for_derivatives(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

setup_for_minimizing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : core::scoring::ScoreFunction, : core::kinematics::MinimizerMapBase) → None¶

Called at the beginning of atom tree minimization, this method: allows the derived class the opportunity to initialize pertinent data that will be used during minimization. During minimzation, the chemical structure of the pose is constant, so assumptions on the number of atoms per residue and their identities are safe so long as the pose’s Energies object’s “use_nblist()” method returns true.

C++: core::scoring::methods::EnergyMethod::setup_for_minimizing(class core::pose::Pose &, const class core::scoring::ScoreFunction &, const class core::kinematics::MinimizerMapBase &) const –> void

setup_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : pyrosetta.rosetta.utility.vector1_bool, : pyrosetta.rosetta.utility.vector1_bool) → None¶

if an energy method needs to cache data in the Energies object,: before packing begins, then it does so during this function. The packer must ensure this function is called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::setup_for_packing(class core::pose::Pose &, const class utility::vector1<bool, class std::allocator<bool> > &, const class utility::vector1<bool, class std::allocator<bool> > &) const –> void

setup_for_packing_with_rotsets(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose, rotsets: core::pack_basic::RotamerSetsBase, sfxn: core::scoring::ScoreFunction) → None¶

if an energy method needs to cache data in the Energies object,

before packing begins and requires access to the RotamerSets object, then it does so during this function. The default behavior is to do nothing.

The exact order of events when setting up for packing are as follows:

setup_for_packing() is called for all energy methods
rotamers are built
setup_for_packing_with_rotsets() is called for all energy methods
prepare_rotamers_for_packing() is called for all energy methods
The energy methods are asked to score all rotamers and rotamer pairs
Annealing

The pose is specifically non-const here so that energy methods can store data in it

: Used in ApproximateBuriedUnsatPenalty to pre-compute compatible rotamers

C++: core::scoring::methods::EnergyMethod::setup_for_packing_with_rotsets(class core::pose::Pose &, const class std::shared_ptr<class core::pack_basic::RotamerSetsBase> &, const class core::scoring::ScoreFunction &) const –> void

setup_for_scoring(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : core::scoring::ScoreFunction) → None¶

if an energy method needs to cache something in the pose (e.g. in pose.energies()),: before scoring begins, it must do so in this method. All long range energy functions must initialize their LREnergyContainers before scoring begins. The default is to do nothing.

C++: core::scoring::methods::EnergyMethod::setup_for_scoring(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

setup_for_scoring_for_residue(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, residue_data_cache: pyrosetta.rosetta.basic.datacache.BasicDataCache) → None¶

Do any setup work before scoring, caching any slow-to-compute data that will be used during: energy evaluation inside of the input Residue object’s data cache. (The Residue on the whole is given as a constant reference, but non-constant access to its data cache is granted.)

C++: core::scoring::methods::EnergyMethod::setup_for_scoring_for_residue(const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class basic::datacache::BasicDataCache &) const –> void

show_additional_info(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : pyrosetta.rosetta.std.ostream, : core::pose::Pose, : bool) → None¶

show additional information of the energy method

C++: core::scoring::methods::EnergyMethod::show_additional_info(std::ostream &, class core::pose::Pose &, bool) const –> void

update_residue_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, resid: int) → None¶

If the pose changes in the middle of a packing (as happens in rotamer trials) and if: an energy method needs to cache data in the pose that corresponds to its current state, then the method must update that data when this function is called. The packer must ensure this function gets called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::update_residue_for_packing(class core::pose::Pose &, unsigned long) const –> void

version(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → int¶

Return the version of the energy method

C++: core::scoring::methods::EnergyMethod::version() const –> unsigned long

class pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenaltyCreator¶

Bases: EnergyMethodCreator

Membrane TM Proj Penalty Creator Class

assign(self: pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenaltyCreator, : pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenaltyCreator) → pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenaltyCreator¶: C++: core::scoring::membrane::MPTMProjPenaltyCreator::operator=(const class core::scoring::membrane::MPTMProjPenaltyCreator &) –> class core::scoring::membrane::MPTMProjPenaltyCreator &

create_energy_method(self: pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenaltyCreator, : pyrosetta.rosetta.core.scoring.methods.EnergyMethodOptions) → pyrosetta.rosetta.core.scoring.methods.EnergyMethod¶

Instantiate a new MPTMProjPenalty

C++: core::scoring::membrane::MPTMProjPenaltyCreator::create_energy_method(const class core::scoring::methods::EnergyMethodOptions &) const –> class std::shared_ptr<class core::scoring::methods::EnergyMethod>

score_types_for_method(self: pyrosetta.rosetta.core.scoring.membrane.MPTMProjPenaltyCreator) → pyrosetta.rosetta.utility.vector1_core_scoring_ScoreType¶

Returns MPTMProj score type

C++: core::scoring::membrane::MPTMProjPenaltyCreator::score_types_for_method() const –> class utility::vector1<enum core::scoring::ScoreType, class std::allocator<enum core::scoring::ScoreType> >

class pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty¶

Bases: ContextDependentOneBodyEnergy

Class Membrane Termini Penalty

assign(self: pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy, : pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy) → pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy¶: C++: core::scoring::methods::ContextDependentOneBodyEnergy::operator=(const class core::scoring::methods::ContextDependentOneBodyEnergy &) –> class core::scoring::methods::ContextDependentOneBodyEnergy &

atomistic_energy(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, atmno: int, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, scorefxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector) → None¶

Evaluate the (one body) energy associated with a particular atom

This may be a “self” energy, or it may be the single atom contribution from a whole structure term. NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here. For most terms this is likely a no-op. Terms which implement this non-trivially should return true from has_atomistic_energies()

This is return-by-reference in the EnergyMap - Implementations should accumulate, not replace.

C++: core::scoring::methods::EnergyMethod::atomistic_energy(unsigned long, const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

atomistic_pair_energy(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, atmno1: int, rsd1: pyrosetta.rosetta.core.conformation.Residue, atomno2: int, rsd2: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, scorefxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector) → None¶

Evaluate the energy for a particular pair of atoms

This function may be fed the same residue with different atom numbers NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here. For most terms this is likely a no-op. Terms which implement this non-trivially should return true from has_atomistic_pairwise_energies()

This is return-by-reference in the EnergyMap - Implementations should accumulate, not replace.

C++: core::scoring::methods::EnergyMethod::atomistic_pair_energy(unsigned long, const class core::conformation::Residue &, unsigned long, const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

clone(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty) → pyrosetta.rosetta.core.scoring.methods.EnergyMethod¶

Clone

C++: core::scoring::membrane::MPTerminiPenalty::clone() const –> class std::shared_ptr<class core::scoring::methods::EnergyMethod>

compute_termini_penalty(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty, z_position: float) → float¶

Compute Termini Penalty

C++: core::scoring::membrane::MPTerminiPenalty::compute_termini_penalty(double) const –> double

defines_dof_derivatives(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, p: core::pose::Pose) → bool¶

Use the dof_derivative interface for this energy method when: calculating derivatives? It is possible to define both dof_derivatives and atom-derivatives; they are not mutually exclusive.

C++: core::scoring::methods::OneBodyEnergy::defines_dof_derivatives(const class core::pose::Pose &) const –> bool

defines_high_order_terms(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose) → bool¶

Should this EnergyMethod have score and derivative evaluation: evaluated both in the context of the whole Pose and in the context of residue or residue-pairs? This covers scoring terms like env-smooth wherein the CBeta’s get derivatives for increasing the neighbor counts for surrounding residues, and terms like constraints, which are definable on arbitrary number of residues (e.g. more than 2); both of these terms could be used in RTMin, and both should use the residue and residue-pair evaluation scheme with the MinimizationGraph for the majority of the work they do. (Now, high-order constraints (3-body or above) will not be properly evaluated within RTMin.). The default implementation returns “false”.

C++: core::scoring::methods::EnergyMethod::defines_high_order_terms(const class core::pose::Pose &) const –> bool

defines_score_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, : pyrosetta.rosetta.core.conformation.Residue) → bool¶

During minimization, energy methods are allowed to decide that they say nothing: about a particular residue (e.g. no non-zero energy) and as a result they will not be queried for a derivative or an energy. The default behavior is to return “true” for all residues.

C++: core::scoring::methods::OneBodyEnergy::defines_score_for_residue(const class core::conformation::Residue &) const –> bool

eval_atom_derivative(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, id: pyrosetta.rosetta.core.id.AtomID, pose: core::pose::Pose, domain_map: pyrosetta.rosetta.ObjexxFCL.FArray1D_int_t, sfxn: core::scoring::ScoreFunction, emap: core::scoring::EMapVector, F1: pyrosetta.rosetta.numeric.xyzVector_double_t, F2: pyrosetta.rosetta.numeric.xyzVector_double_t) → None¶

Evaluate the XYZ derivative for an atom in the pose.

Called during the atomtree derivative calculation, atom_tree_minimize.cc, through the ScoreFunction::eval_atom_derivative intermediary. F1 and F2 should not zeroed, rather, this class should accumulate its contribution from this atom’s XYZ derivative

The derivative scheme is based on that of Abe, Braun, Noguti and Go (1984) “Rapid Calculation of First and Second Derivatives of Conformational Energy with Respect to Dihedral Angles for Proteins. General Recurrent Equations” Computers & Chemistry 8(4) pp. 239-247. F1 and F2 correspond roughly to Fa and Ga, respectively, of equations 7a & 7b in that paper.

C++: core::scoring::methods::EnergyMethod::eval_atom_derivative(const class core::id::AtomID &, const class core::pose::Pose &, const class ObjexxFCL::FArray1D<int> &, const class core::scoring::ScoreFunction &, const class core::scoring::EMapVector &, class numeric::xyzVector<double> &, class numeric::xyzVector<double> &) const –> void

eval_residue_derivatives(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, min_data: core::scoring::ResSingleMinimizationData, pose: core::pose::Pose, weights: core::scoring::EMapVector, atom_derivs: pyrosetta.rosetta.utility.vector1_core_scoring_DerivVectorPair) → None¶

Evaluate the derivatives for all atoms on this residue and increment them: into the input atom_derivs vector1. The calling function must guarantee that setup for derivatives is called before this function is, and that the atom_derivs vector contains at least as many entries as there are atoms in the input Residue. This base class provides a default noop implementation of this function.

C++: core::scoring::methods::OneBodyEnergy::eval_residue_derivatives(const class core::conformation::Residue &, const class core::scoring::ResSingleMinimizationData &, const class core::pose::Pose &, const class core::scoring::EMapVector &, class utility::vector1<class core::scoring::DerivVectorPair, class std::allocator<class core::scoring::DerivVectorPair> > &) const –> void

eval_residue_dof_derivative(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, min_data: core::scoring::ResSingleMinimizationData, dof_id: pyrosetta.rosetta.core.id.DOF_ID, torsion_id: core::id::TorsionID, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, weights: core::scoring::EMapVector) → float¶

Evaluate the DOF derivative for a particular residue. The Pose merely serves as context,: and the input residue is not required to be a member of the Pose.

C++: core::scoring::methods::OneBodyEnergy::eval_residue_dof_derivative(const class core::conformation::Residue &, const class core::scoring::ResSingleMinimizationData &, const class core::id::DOF_ID &, const class core::id::TorsionID &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, const class core::scoring::EMapVector &) const –> double

finalize_after_derivatives(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : core::scoring::ScoreFunction) → None¶

called at the end of derivatives evaluation

C++: core::scoring::methods::EnergyMethod::finalize_after_derivatives(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

finalize_after_minimizing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose) → None¶

Called after minimization, allowing a derived class to do some

teardown steps.

Base class function does nothing. Derived classes may override.

Vikram K. Mulligan (vmullig.edu).

C++: core::scoring::methods::EnergyMethod::finalize_after_minimizing(class core::pose::Pose &) const –> void

finalize_total_energy(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty, pose: pyrosetta.rosetta.core.pose.Pose, : pyrosetta.rosetta.core.scoring.ScoreFunction, totals: pyrosetta.rosetta.core.scoring.EMapVector) → None¶

Finalize total energy method (for whole structure

C++: core::scoring::membrane::MPTerminiPenalty::finalize_total_energy(class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::EMapVector &) const –> void

has_atomistic_energies(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → bool¶

Does this EnergyMethod have a non-trivial implementation of the (one body) atomistic energy method?: Note that this may return false even if the score term theoretically could support atomistic energies. And even if this function returns true, it’s not necessarily the case that all atoms will get assigned an energy, or that the sum over all atoms (or atom pairs) will result in the same energy as the residue-level approach. The atomistic functions are intended for supplemental informational purposes only. The residue-level energies are the main interface for EnergyMethods.

C++: core::scoring::methods::EnergyMethod::has_atomistic_energies() const –> bool

has_atomistic_pairwise_energies(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → bool¶

Does this EnergyMethod have a non-trivial implementation of the pairwise atomistic energy method?: NOTE: all the cautions of EnergyMethod::has_atomistic_energies() apply here.

C++: core::scoring::methods::EnergyMethod::has_atomistic_pairwise_energies() const –> bool

indicate_required_context_graphs(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty, : pyrosetta.rosetta.utility.vector1_bool) → None¶: C++: core::scoring::membrane::MPTerminiPenalty::indicate_required_context_graphs(class utility::vector1<bool, class std::allocator<bool> > &) const –> void

method_type(self: pyrosetta.rosetta.core.scoring.methods.ContextDependentOneBodyEnergy) → pyrosetta.rosetta.core.scoring.methods.EnergyMethodType¶

Returns the cd_1b element of the EnergyMethodType enumeration; this method: should NOT be overridden by derived classes.

C++: core::scoring::methods::ContextDependentOneBodyEnergy::method_type() const –> enum core::scoring::methods::EnergyMethodType

minimize_in_whole_structure_context(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose) → bool¶

Should this EnergyMethod have score and derivative evaluation: evaluated only in the context of the whole Pose, or can it be included in a decomposed manner for a residue or a set of residue-pairs that are not part of the Pose that’s serving as their context? The default method implemented in the base class returns true in order to grandfather in EnergyMethods that have not had their derivatives changed to take advantage of the new derivative-evaluation machinery. Methods that return “true” will not have their residue-energy(-ext) / residue-pair-energy(-ext) methods invoked by the ScoreFunction during its traversal of the MinimizationGraph, and instead will be asked to perform all their work during finalize_total_energies(). Similarly, they will be expected to perform all their work during eval_atom_deriv() instead of during the ScoreFunction’s traversal of the MinimizationGraph for derivative evaluation. IMPORTANT: Methods that return “true” cannot be included in RTMin.

C++: core::scoring::methods::EnergyMethod::minimize_in_whole_structure_context(const class core::pose::Pose &) const –> bool

prepare_rotamers_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : pyrosetta.rosetta.core.conformation.RotamerSetBase) → None¶

If an energy method needs to cache data in a packing::RotamerSet object before: rotamer energies are calculated, it does so during this function. The packer must ensure this function is called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::prepare_rotamers_for_packing(const class core::pose::Pose &, class core::conformation::RotamerSetBase &) const –> void

provide_citation_info(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : pyrosetta.rosetta.basic.citation_manager.CitationCollectionList) → None¶

Provide citations to the passed CitationCollectionList

Subclasses should add the info for themselves and any other classes they use.

The default implementation of this function does nothing. It may be overriden by energy methods wishing to provide citation information.

C++: core::scoring::methods::EnergyMethod::provide_citation_info(class basic::citation_manager::CitationCollectionList &) const –> void

requires_a_setup_for_derivatives_for_residue_opportunity(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, pose: core::pose::Pose) → bool¶

Does this EnergyMethod require the opportunity to examine the residue before derivative evaluation begins? Not: all energy methods would. The ScoreFunction will not ask energy methods to examine residues that are uninterested in doing so.

C++: core::scoring::methods::OneBodyEnergy::requires_a_setup_for_derivatives_for_residue_opportunity(const class core::pose::Pose &) const –> bool

requires_a_setup_for_scoring_for_residue_opportunity_during_minimization(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, pose: core::pose::Pose) → bool¶

Does this EnergyMethod require the opportunity to examine the residue before scoring begins? Not: all energy methods would. The ScoreFunction will not ask energy methods to examine residues that are uninterested in doing so.

C++: core::scoring::methods::OneBodyEnergy::requires_a_setup_for_scoring_for_residue_opportunity_during_minimization(const class core::pose::Pose &) const –> bool

requires_a_setup_for_scoring_for_residue_opportunity_during_regular_scoring(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose) → bool¶

Does this EnergyMethod require the opportunity to examine the residue before (regular) scoring begins? Not: all energy methods would. The ScoreFunction will not ask energy methods to examine residues that are uninterested in doing so. The default implmentation of this function returns false

C++: core::scoring::methods::EnergyMethod::requires_a_setup_for_scoring_for_residue_opportunity_during_regular_scoring(const class core::pose::Pose &) const –> bool

residue_energy(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: pyrosetta.rosetta.core.pose.Pose, emap: pyrosetta.rosetta.core.scoring.EMapVector) → None¶

Compute termini penalty per-residue

C++: core::scoring::membrane::MPTerminiPenalty::residue_energy(const class core::conformation::Residue &, const class core::pose::Pose &, class core::scoring::EMapVector &) const –> void

residue_energy_ext(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, min_data: core::scoring::ResSingleMinimizationData, pose: core::pose::Pose, emap: core::scoring::EMapVector) → None¶

Evaluate the one-body energies for a particular residue, in the context of a: given Pose, and with the help of a piece of cached data for minimization, increment those one body energies into the input EnergyMap. The calling function must guarantee that this EnergyMethod has had the opportunity to update the input ResSingleMinimizationData object for the given residue in a call to setup_for_minimizing_for_residue before this function is invoked. This function should not be called unless the use_extended_residue_energy_interface() method returns “true”. Default implementation provided by this base class calls utility::exit(). The Pose merely serves as context, and the input residue is not required to be a member of the Pose.

C++: core::scoring::methods::OneBodyEnergy::residue_energy_ext(const class core::conformation::Residue &, const class core::scoring::ResSingleMinimizationData &, const class core::pose::Pose &, class core::scoring::EMapVector &) const –> void

score_types(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → pyrosetta.rosetta.utility.vector1_core_scoring_ScoreType¶

Returns the score types that this energy method computes.

C++: core::scoring::methods::EnergyMethod::score_types() const –> const class utility::vector1<enum core::scoring::ScoreType, class std::allocator<enum core::scoring::ScoreType> > &

setup_for_derivatives(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty, : pyrosetta.rosetta.core.pose.Pose, : pyrosetta.rosetta.core.scoring.ScoreFunction) → None¶

Setup MP termini for derivatives

C++: core::scoring::membrane::MPTerminiPenalty::setup_for_derivatives(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

setup_for_derivatives_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, min_data: core::scoring::ResSingleMinimizationData, res_data_cache: pyrosetta.rosetta.basic.datacache.BasicDataCache) → None¶

Do any setup work necessary before evaluating the derivatives for this residue

C++: core::scoring::methods::OneBodyEnergy::setup_for_derivatives_for_residue(const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::ResSingleMinimizationData &, class basic::datacache::BasicDataCache &) const –> void

setup_for_minimizing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : core::scoring::ScoreFunction, : core::kinematics::MinimizerMapBase) → None¶

Called at the beginning of atom tree minimization, this method: allows the derived class the opportunity to initialize pertinent data that will be used during minimization. During minimzation, the chemical structure of the pose is constant, so assumptions on the number of atoms per residue and their identities are safe so long as the pose’s Energies object’s “use_nblist()” method returns true.

C++: core::scoring::methods::EnergyMethod::setup_for_minimizing(class core::pose::Pose &, const class core::scoring::ScoreFunction &, const class core::kinematics::MinimizerMapBase &) const –> void

setup_for_minimizing_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, : core::pose::Pose, : core::scoring::ScoreFunction, : core::kinematics::MinimizerMapBase, : pyrosetta.rosetta.basic.datacache.BasicDataCache, : core::scoring::ResSingleMinimizationData) → None¶

Called at the beginning of minimization, allowing this energy method to cache data: pertinent for a single residue in the the ResSingleMinimizationData that is used for a particular residue in the context of a particular Pose. This base class provides a noop implementation for this function if there is nothing that the derived class needs to perform in this setup phase. The Pose merely serves as context, and the input residue is not required to be a member of the Pose.

C++: core::scoring::methods::OneBodyEnergy::setup_for_minimizing_for_residue(const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, const class core::kinematics::MinimizerMapBase &, class basic::datacache::BasicDataCache &, class core::scoring::ResSingleMinimizationData &) const –> void

setup_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, : pyrosetta.rosetta.utility.vector1_bool, : pyrosetta.rosetta.utility.vector1_bool) → None¶

if an energy method needs to cache data in the Energies object,: before packing begins, then it does so during this function. The packer must ensure this function is called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::setup_for_packing(class core::pose::Pose &, const class utility::vector1<bool, class std::allocator<bool> > &, const class utility::vector1<bool, class std::allocator<bool> > &) const –> void

setup_for_packing_with_rotsets(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, pose: core::pose::Pose, rotsets: core::pack_basic::RotamerSetsBase, sfxn: core::scoring::ScoreFunction) → None¶

if an energy method needs to cache data in the Energies object,

before packing begins and requires access to the RotamerSets object, then it does so during this function. The default behavior is to do nothing.

The exact order of events when setting up for packing are as follows:

setup_for_packing() is called for all energy methods
rotamers are built
setup_for_packing_with_rotsets() is called for all energy methods
prepare_rotamers_for_packing() is called for all energy methods
The energy methods are asked to score all rotamers and rotamer pairs
Annealing

The pose is specifically non-const here so that energy methods can store data in it

: Used in ApproximateBuriedUnsatPenalty to pre-compute compatible rotamers

C++: core::scoring::methods::EnergyMethod::setup_for_packing_with_rotsets(class core::pose::Pose &, const class std::shared_ptr<class core::pack_basic::RotamerSetsBase> &, const class core::scoring::ScoreFunction &) const –> void

setup_for_scoring(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenalty, : pyrosetta.rosetta.core.pose.Pose, : pyrosetta.rosetta.core.scoring.ScoreFunction) → None¶

Set MP Termini Penalty for Scoring

C++: core::scoring::membrane::MPTerminiPenalty::setup_for_scoring(class core::pose::Pose &, const class core::scoring::ScoreFunction &) const –> void

setup_for_scoring_for_residue(*args, **kwargs)¶

Overloaded function.

setup_for_scoring_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, residue_data_cache: pyrosetta.rosetta.basic.datacache.BasicDataCache) -> None
setup_for_scoring_for_residue(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy, rsd: pyrosetta.rosetta.core.conformation.Residue, pose: core::pose::Pose, sfxn: core::scoring::ScoreFunction, min_data: core::scoring::ResSingleMinimizationData) -> None

Do any setup work should the coordinates of this residue, who is still guaranteed to be: of the same residue type as when setup_for_minimizing_for_residue was called, have changed so dramatically as to possibly require some amount of setup work before scoring should proceed

C++: core::scoring::methods::OneBodyEnergy::setup_for_scoring_for_residue(const class core::conformation::Residue &, const class core::pose::Pose &, const class core::scoring::ScoreFunction &, class core::scoring::ResSingleMinimizationData &) const –> void

show_additional_info(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : pyrosetta.rosetta.std.ostream, : core::pose::Pose, : bool) → None¶

show additional information of the energy method

C++: core::scoring::methods::EnergyMethod::show_additional_info(std::ostream &, class core::pose::Pose &, bool) const –> void

update_residue_for_packing(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod, : core::pose::Pose, resid: int) → None¶

If the pose changes in the middle of a packing (as happens in rotamer trials) and if: an energy method needs to cache data in the pose that corresponds to its current state, then the method must update that data when this function is called. The packer must ensure this function gets called. The default behavior is to do nothing.

C++: core::scoring::methods::EnergyMethod::update_residue_for_packing(class core::pose::Pose &, unsigned long) const –> void

use_extended_residue_energy_interface(self: pyrosetta.rosetta.core.scoring.methods.OneBodyEnergy) → bool¶

Rely on the extended version of the residue_energy function during score-function: evaluation in minimization? The extended version (below) takes a ResSingleMinimizationData. Return ‘true’ for the extended version. The default method implemented in this class returns ‘false’

C++: core::scoring::methods::OneBodyEnergy::use_extended_residue_energy_interface() const –> bool

version(self: pyrosetta.rosetta.core.scoring.methods.EnergyMethod) → int¶

Return the version of the energy method

C++: core::scoring::methods::EnergyMethod::version() const –> unsigned long

class pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenaltyCreator¶

Bases: EnergyMethodCreator

Membrane Termini Penalty Creator Class

assign(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenaltyCreator, : pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenaltyCreator) → pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenaltyCreator¶: C++: core::scoring::membrane::MPTerminiPenaltyCreator::operator=(const class core::scoring::membrane::MPTerminiPenaltyCreator &) –> class core::scoring::membrane::MPTerminiPenaltyCreator &

create_energy_method(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenaltyCreator, : pyrosetta.rosetta.core.scoring.methods.EnergyMethodOptions) → pyrosetta.rosetta.core.scoring.methods.EnergyMethod¶

Instantiate a new MPTerminiPenalty

C++: core::scoring::membrane::MPTerminiPenaltyCreator::create_energy_method(const class core::scoring::methods::EnergyMethodOptions &) const –> class std::shared_ptr<class core::scoring::methods::EnergyMethod>

score_types_for_method(self: pyrosetta.rosetta.core.scoring.membrane.MPTerminiPenaltyCreator) → pyrosetta.rosetta.utility.vector1_core_scoring_ScoreType¶

Return the set of score types claimed by the EnergyMethod: this EnergyMethodCreator creates in its create_energy_method() function

C++: core::scoring::membrane::MPTerminiPenaltyCreator::score_types_for_method() const –> class utility::vector1<enum core::scoring::ScoreType, class std::allocator<enum core::scoring::ScoreType> >

class pyrosetta.rosetta.core.scoring.membrane.MembraneData¶

Bases: EnvPairPotential

Mmebrane Data Class

Stores membrane potential statistics and cenlist access

cen_dist10_pad(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist10_pad() const –> double

cen_dist10_pad_hinv(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist10_pad_hinv() const –> double

cen_dist10_pad_minus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist10_pad_minus() const –> double

cen_dist10_pad_plus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist10_pad_plus() const –> double

cen_dist12_pad(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist12_pad() const –> double

cen_dist12_pad_hinv(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist12_pad_hinv() const –> double

cen_dist12_pad_minus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist12_pad_minus() const –> double

cen_dist12_pad_plus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist12_pad_plus() const –> double

cen_dist5_pad(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶

Env Pair Potential Statistics

C++: core::scoring::membrane::MembraneData::cen_dist5_pad() const –> double

cen_dist5_pad_hinv(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist5_pad_hinv() const –> double

cen_dist5_pad_minus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist5_pad_minus() const –> double

cen_dist5_pad_plus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist5_pad_plus() const –> double

cen_dist6_pad(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist6_pad() const –> double

cen_dist6_pad_hinv(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist6_pad_hinv() const –> double

cen_dist6_pad_plus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist6_pad_plus() const –> double

cen_dist7_pad(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist7_pad() const –> double

cen_dist7_pad_hinv(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist7_pad_hinv() const –> double

cen_dist7_pad_minus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist7_pad_minus() const –> double

cen_dist7_pad_plus(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → float¶: C++: core::scoring::membrane::MembraneData::cen_dist7_pad_plus() const –> double

static cenlist_from_pose(: pyrosetta.rosetta.core.pose.Pose) → pyrosetta.rosetta.core.scoring.CenListInfo¶: C++: core::scoring::EnvPairPotential::cenlist_from_pose(const class core::pose::Pose &) –> const class core::scoring::CenListInfo &

compute_centroid_environment(self: pyrosetta.rosetta.core.scoring.EnvPairPotential, pose: pyrosetta.rosetta.core.pose.Pose) → None¶: C++: core::scoring::EnvPairPotential::compute_centroid_environment(class core::pose::Pose &) const –> void

evaluate_env_and_cbeta_scores(self: pyrosetta.rosetta.core.scoring.EnvPairPotential, pose: pyrosetta.rosetta.core.pose.Pose, rsd: pyrosetta.rosetta.core.conformation.Residue, env_score: float, cb_score6: float, cb_score12: float) → None¶: C++: core::scoring::EnvPairPotential::evaluate_env_and_cbeta_scores(const class core::pose::Pose &, const class core::conformation::Residue &, double &, double &, double &) const –> void

evaluate_pair_and_cenpack_score(self: pyrosetta.rosetta.core.scoring.EnvPairPotential, rsd1: pyrosetta.rosetta.core.conformation.Residue, rsd2: pyrosetta.rosetta.core.conformation.Residue, cendist: float, pair_contribution: float, cenpack_contribution: float) → None¶: C++: core::scoring::EnvPairPotential::evaluate_pair_and_cenpack_score(const class core::conformation::Residue &, const class core::conformation::Residue &, const double, double &, double &) const –> void

finalize(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData, pose: pyrosetta.rosetta.core.pose.Pose) → None¶

Finalize Setup of MP Base Potential Class

C++: core::scoring::membrane::MembraneData::finalize(class core::pose::Pose &) const –> void

get_cenlist_from_pose(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData, pose: pyrosetta.rosetta.core.pose.Pose) → pyrosetta.rosetta.core.scoring.CenListInfo¶

Access Cenlist from Pose

Pose must already contain a cenlist object or this method will fail.

C++: core::scoring::membrane::MembraneData::get_cenlist_from_pose(const class core::pose::Pose &) const –> const class core::scoring::CenListInfo &

mem_cbeta_2TM_den12(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray1D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_cbeta_2TM_den12() const –> class ObjexxFCL::FArray1D<double>

mem_cbeta_2TM_den6(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray1D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_cbeta_2TM_den6() const –> class ObjexxFCL::FArray1D<double>

mem_cbeta_4TM_den12(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray1D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_cbeta_4TM_den12() const –> class ObjexxFCL::FArray1D<double>

mem_cbeta_4TM_den6(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray1D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_cbeta_4TM_den6() const –> class ObjexxFCL::FArray1D<double>

mem_cbeta_den12(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray1D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_cbeta_den12() const –> class ObjexxFCL::FArray1D<double>

mem_cbeta_den6(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray1D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_cbeta_den6() const –> class ObjexxFCL::FArray1D<double>

mem_env_log10(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray3D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_env_log10() const –> class ObjexxFCL::FArray3D<double>

mem_env_log6(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray3D_double_t¶

Membrane Base Potential Statistics

C++: core::scoring::membrane::MembraneData::mem_env_log6() const –> class ObjexxFCL::FArray3D<double>

mem_pair_log(self: pyrosetta.rosetta.core.scoring.membrane.MembraneData) → pyrosetta.rosetta.ObjexxFCL.FArray4D_double_t¶: C++: core::scoring::membrane::MembraneData::mem_pair_log() const –> class ObjexxFCL::FArray4D<double>

static nonconst_cenlist_from_pose(: pyrosetta.rosetta.core.pose.Pose) → pyrosetta.rosetta.core.scoring.CenListInfo¶: C++: core::scoring::EnvPairPotential::nonconst_cenlist_from_pose(class core::pose::Pose &) –> class core::scoring::CenListInfo &