Python: module rosetta.protocols.antibody

rosetta.protocols.antibody_legacy

index
(built-in)

Bindings for protocols::antibody_legacy namespace

Classes



builtins.object

Antibody

rosetta.protocols.moves.Mover(builtins.object)

AntibodyModeler
CDRH3Modeler
CloseOneMover
GraftMover
GraftOneMover
LoopRlxMover

class Antibody(builtins.object)

    antibody definition

Methods defined here:

__init__(...) from builtins.PyCapsule
__init__(*args, **kwargs) Overloaded function. 1. __init__(rosetta.protocols.antibody_legacy.Antibody) -> NoneType 2. __init__(self : rosetta.protocols.antibody_legacy.Antibody, pose_in : rosetta.core.pose.Pose) -> NoneType 3. __init__(self : rosetta.protocols.antibody_legacy.Antibody, pose_in : rosetta.core.pose.Pose, camelid : bool) -> NoneType 4. __init__(self : rosetta.protocols.antibody_legacy.Antibody, pose_in : rosetta.core.pose.Pose, cdr_name : str) -> NoneType 5. __init__(self : rosetta.protocols.antibody_legacy.Antibody,  : rosetta.protocols.antibody_legacy.Antibody) -> NoneType

__new__(*args, **kwargs) from builtins.type
Create and return a new object.  See help(type) for accurate signature.

align_to_native(...) from builtins.PyCapsule
align_to_native(self : rosetta.protocols.antibody_legacy.Antibody, native : rosetta.protocols.antibody_legacy.Antibody) -> NoneType align current Fv to native.Fv

all_cdr_fold_tree(...) from builtins.PyCapsule
all_cdr_fold_tree(rosetta.protocols.antibody_legacy.Antibody) -> NoneType

assign(...) from builtins.PyCapsule
assign(self : rosetta.protocols.antibody_legacy.Antibody,  : rosetta.protocols.antibody_legacy.Antibody) -> rosetta.protocols.antibody_legacy.Antibody

populate_all_cdrs(...) from builtins.PyCapsule
populate_all_cdrs(rosetta.protocols.antibody_legacy.Antibody) -> NoneType

set_Fv(...) from builtins.PyCapsule
set_Fv(*args, **kwargs) Overloaded function. 1. set_Fv(self : rosetta.protocols.antibody_legacy.Antibody, pose_in : rosetta.core.pose.Pose) -> NoneType 2. set_Fv(self : rosetta.protocols.antibody_legacy.Antibody, pose_in : rosetta.core.pose.Pose, camelid : bool) -> NoneType

set_defaults(...) from builtins.PyCapsule
set_defaults(rosetta.protocols.antibody_legacy.Antibody) -> NoneType

Data descriptors defined here:

Fv

Fv_sequence_

ab_movemap

all_cdr_loops

current_end

current_start

extended_

kinked_

class AntibodyModeler(rosetta.protocols.moves.Mover)


Method resolution order:

AntibodyModeler

rosetta.protocols.moves.Mover

builtins.object

Methods defined here:

__init__(...) from builtins.PyCapsule
__init__(*args, **kwargs) Overloaded function. 1. __init__(handle) -> NoneType 2. __init__(handle, rosetta.protocols.antibody_legacy.AntibodyModeler) -> NoneType

__new__(*args, **kwargs) from builtins.type
Create and return a new object.  See help(type) for accurate signature.

all_cdr_VL_VH_fold_tree(...) from builtins.PyCapsule
all_cdr_VL_VH_fold_tree(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose, loops : rosetta.protocols.loops.Loops) -> NoneType

apply(...) from builtins.PyCapsule
apply(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose) -> NoneType

assign(...) from builtins.PyCapsule
assign(self : rosetta.protocols.antibody_legacy.AntibodyModeler,  : rosetta.protocols.antibody_legacy.AntibodyModeler) -> rosetta.protocols.antibody_legacy.AntibodyModeler

clone(...) from builtins.PyCapsule
clone(rosetta.protocols.antibody_legacy.AntibodyModeler) -> rosetta.protocols.moves.Mover

display_constraint_residues(...) from builtins.PyCapsule
display_constraint_residues(rosetta.protocols.antibody_legacy.AntibodyModeler) -> NoneType

get_name(...) from builtins.PyCapsule
get_name(rosetta.protocols.antibody_legacy.AntibodyModeler) -> str

global_loop_rmsd(...) from builtins.PyCapsule
global_loop_rmsd(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose, native_pose : rosetta.core.pose.Pose, cdr_type : str) -> float

init_from_options(...) from builtins.PyCapsule
init_from_options(rosetta.protocols.antibody_legacy.AntibodyModeler) -> NoneType

init_on_new_input(...) from builtins.PyCapsule
init_on_new_input(rosetta.protocols.antibody_legacy.AntibodyModeler) -> NoneType

read_and_store_fragments(...) from builtins.PyCapsule
read_and_store_fragments(rosetta.protocols.antibody_legacy.AntibodyModeler) -> NoneType

relax_cdrs(...) from builtins.PyCapsule
relax_cdrs(rosetta.protocols.antibody_legacy.AntibodyModeler) -> NoneType

repulsive_ramp(...) from builtins.PyCapsule
repulsive_ramp(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose, loops_in : rosetta.protocols.loops.Loops) -> NoneType

set_default(...) from builtins.PyCapsule
set_default(rosetta.protocols.antibody_legacy.AntibodyModeler) -> NoneType

set_snugdock_foldtree(...) from builtins.PyCapsule
set_snugdock_foldtree(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose) -> NoneType

setup_packer_task(...) from builtins.PyCapsule
setup_packer_task(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose) -> NoneType

setup_simple_fold_tree(...) from builtins.PyCapsule
setup_simple_fold_tree(self : rosetta.protocols.antibody_legacy.AntibodyModeler, jumppoint1 : int, cutpoint : int, jumppoint2 : int, nres : int, pose_in : rosetta.core.pose.Pose) -> NoneType

snugfit_MC_min(...) from builtins.PyCapsule
snugfit_MC_min(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose, cdr_dock_map : rosetta.core.kinematics.MoveMap, cycles : int, minimization_threshold : float, scorefxn : rosetta.core.scoring.ScoreFunction, pack_scorefxn : rosetta.core.scoring.ScoreFunction, is_flexible : rosetta.utility.vector1_bool) -> NoneType

snugfit_mcm_protocol(...) from builtins.PyCapsule
snugfit_mcm_protocol(self : rosetta.protocols.antibody_legacy.AntibodyModeler, pose_in : rosetta.core.pose.Pose, loops_in : rosetta.protocols.loops.Loops) -> NoneType

Methods inherited from rosetta.protocols.moves.Mover:

clear_info(...) from builtins.PyCapsule
clear_info(rosetta.protocols.moves.Mover) -> NoneType Strings container can be used to return miscellaneous info (as std::string) from a mover, such as notes about the results of apply(). The job distributor (Apr 09 vintage) will check this function to see if your protocol wants to add string info to the Job that ran this mover. One way this can be useful is that later, a JobOutputter may include/append this info to an output file. clear_info is called by jd2 before calling apply

create(...) from builtins.PyCapsule
create(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

fresh_instance(...) from builtins.PyCapsule
fresh_instance(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Generates a new Mover object freshly created with the default ctor.

get_additional_output(...) from builtins.PyCapsule
get_additional_output(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose fpd Mechanism by which a mover may return multiple output poses from a single input pose.

get_current_job(...) from builtins.PyCapsule
get_current_job(rosetta.protocols.moves.Mover) -> protocols::jobdist::BasicJob

get_current_tag(...) from builtins.PyCapsule
get_current_tag(rosetta.protocols.moves.Mover) -> str A tag is a unique identifier used to identify structures produced by this Mover. get_current_tag() returns the tag, and set_current_tag( std::string tag ) sets the tag.  This functionality is not intended for use with the 2008 job distributor.

get_input_pose(...) from builtins.PyCapsule
get_input_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_last_move_status(...) from builtins.PyCapsule
get_last_move_status(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.MoverStatus returns status after an apply().  The job distributor (august 08 vintage) will check this function to see if your protocol wants to filter its results - if your protocol wants to say "that run was no good, skip it" then use the protected last_move_status(MoverStatus) to change the value that this function will return.

get_native_pose(...) from builtins.PyCapsule
get_native_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_self_ptr(...) from builtins.PyCapsule
get_self_ptr(*args, **kwargs) Overloaded function. 1. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover 2. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

get_self_weak_ptr(...) from builtins.PyCapsule
get_self_weak_ptr(*args, **kwargs) Overloaded function. 1. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_const_protocols_moves_Mover_t 2. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_protocols_moves_Mover_t

get_type(...) from builtins.PyCapsule
get_type(rosetta.protocols.moves.Mover) -> str

info(...) from builtins.PyCapsule
info(*args, **kwargs) Overloaded function. 1. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t non-const accessor 2. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t const accessor

last_proposal_density_ratio(...) from builtins.PyCapsule
last_proposal_density_ratio(rosetta.protocols.moves.Mover) -> float

name(...) from builtins.PyCapsule
name() -> str

register_options(...) from builtins.PyCapsule
register_options(*args, **kwargs) Overloaded function. 1. register_options() -> NoneType Overload this static method if you access options within the mover. These options will end up in -help of your application if users of this mover call register_options. Do this recursively! If you use movers within your mover, call their register_options in your register_options() method. 2. register_options() -> NoneType 3. register_options() -> NoneType 4. register_options() -> NoneType 5. register_options() -> NoneType 6. register_options() -> NoneType 7. register_options() -> NoneType 8. register_options() -> NoneType 9. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 10. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 11. register_options() -> NoneType Associates relevant options with the SnugDock class 12. register_options() -> NoneType Associates relevant options with the SnugDockProtocol class 13. register_options() -> NoneType Register the options used by this mover with the global options system. 14. register_options() -> NoneType 15. register_options() -> NoneType Associate relevant options with the TemperedDocking class. 16. register_options() -> NoneType 17. register_options() -> NoneType 18. register_options() -> NoneType Associates relevant options with the TemperedDocking class. 19. register_options() -> NoneType 20. register_options() -> NoneType Associates relevant options with the ConstraintSetMover class 21. register_options() -> NoneType 22. register_options() -> NoneType Associates relevant options with the DockingInitialPerturbation class 23. register_options() -> NoneType Associates relevant options with the DockingProtocol class 24. register_options() -> NoneType Associates relevant options with the TemperedDocking class 25. register_options() -> NoneType 26. register_options() -> NoneType 27. register_options() -> NoneType 28. register_options() -> NoneType register options 29. register_options() -> NoneType 30. register_options() -> NoneType Registers applicable options 31. register_options() -> NoneType Register options with the option system. 32. register_options() -> NoneType 33. register_options() -> NoneType 34. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 35. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycleContainer class 36. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 37. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 38. register_options() -> NoneType 39. register_options() -> NoneType Register options with the option system. 40. register_options() -> NoneType

reinitialize_for_each_job(...) from builtins.PyCapsule
reinitialize_for_each_job(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be freshly regenerated on each use.

reinitialize_for_new_input(...) from builtins.PyCapsule
reinitialize_for_new_input(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be regenerated when the input pose is about to change, (for example, if the Mover has special code on the first apply() that is only valid for that one input pose).

reset_status(...) from builtins.PyCapsule
reset_status(rosetta.protocols.moves.Mover) -> NoneType resets status to SUCCESS, meant to be used before an apply().  The job distributor (august 08 vintage) uses this to ensure non-accumulation of status across apply()s.

set_current_job(...) from builtins.PyCapsule
set_current_job(self : rosetta.protocols.moves.Mover, job : protocols::jobdist::BasicJob) -> NoneType ////////////////////////////end Job Distributor interface////////////////////////////////////////

set_current_tag(...) from builtins.PyCapsule
set_current_tag(self : rosetta.protocols.moves.Mover, new_tag : str) -> NoneType

set_input_pose(...) from builtins.PyCapsule
set_input_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for poses contained for rms

set_native_pose(...) from builtins.PyCapsule
set_native_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for native poses contained for rms ---- we should get rid of this method? it is widely used, but a bit unsafe

set_type(...) from builtins.PyCapsule
set_type(self : rosetta.protocols.moves.Mover, setting : str) -> NoneType

test_move(...) from builtins.PyCapsule
test_move(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType : Unit test support function.  Apply one move to a given pose.       Allows extra test specific functions to be called before applying

type(...) from builtins.PyCapsule
type(*args, **kwargs) Overloaded function. 1. type(rosetta.protocols.moves.Mover) -> str 2. type(self : rosetta.protocols.moves.Mover, type_in : str) -> NoneType

class CDRH3Modeler(rosetta.protocols.moves.Mover)

    /////////////////////////////////////////////////////////////////////// Ab initio modeling of CDR H3 loop

Method resolution order:

CDRH3Modeler

rosetta.protocols.moves.Mover

builtins.object

Methods defined here:

CDR_H3_filter(...) from builtins.PyCapsule
CDR_H3_filter(*args, **kwargs) Overloaded function. 1. CDR_H3_filter(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose, loop_begin : int, size : int) -> bool 2. CDR_H3_filter(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose, loop_begin : int, size : int, light_chain : str) -> bool

__init__(...) from builtins.PyCapsule
__init__(*args, **kwargs) Overloaded function. 1. __init__(self : handle, cdr_h3_frags : rosetta.utility.vector1_std_shared_ptr_core_fragment_FragSet_t) -> NoneType 2. __init__(handle, rosetta.protocols.antibody_legacy.CDRH3Modeler) -> NoneType

__new__(*args, **kwargs) from builtins.type
Create and return a new object.  See help(type) for accurate signature.

antibody_modeling_insert_ter(...) from builtins.PyCapsule
antibody_modeling_insert_ter(rosetta.protocols.antibody_legacy.CDRH3Modeler) -> NoneType insert C-terminal fragments

apply(...) from builtins.PyCapsule
apply(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose) -> NoneType

assign(...) from builtins.PyCapsule
assign(self : rosetta.protocols.antibody_legacy.CDRH3Modeler,  : rosetta.protocols.antibody_legacy.CDRH3Modeler) -> rosetta.protocols.antibody_legacy.CDRH3Modeler

build_centroid_loop(...) from builtins.PyCapsule
build_centroid_loop(rosetta.protocols.antibody_legacy.CDRH3Modeler) -> NoneType Build centroid mode CDR H3 loop

build_fullatom_loop(...) from builtins.PyCapsule
build_fullatom_loop(rosetta.protocols.antibody_legacy.CDRH3Modeler) -> NoneType Build fullatom mode CDR H3 loop

cutpoint_separation(...) from builtins.PyCapsule
cutpoint_separation(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose, cutpoint : int) -> float

cutpoints_separation(...) from builtins.PyCapsule
cutpoints_separation(rosetta.protocols.antibody_legacy.CDRH3Modeler) -> bool return false if any cdr cutpoint is broken

enable_benchmark_mode(...) from builtins.PyCapsule
enable_benchmark_mode(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, setting : bool) -> NoneType enable benchmark mode

get_name(...) from builtins.PyCapsule
get_name(rosetta.protocols.antibody_legacy.CDRH3Modeler) -> str

loop_centroid_relax(...) from builtins.PyCapsule
loop_centroid_relax(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose, loop_begin : int, loop_end : int) -> NoneType

loop_fa_relax(...) from builtins.PyCapsule
loop_fa_relax(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose, loop_begin : int, loop_end : int) -> NoneType

model_h3(...) from builtins.PyCapsule
model_h3(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, setting : bool) -> NoneType enable CDR H3 loop building

scored_frag_close(...) from builtins.PyCapsule
scored_frag_close(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose, trimmed_cdr_h3 : rosetta.protocols.loops.Loop) -> NoneType

set_camelid(...) from builtins.PyCapsule
set_camelid(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, setting : bool) -> NoneType enable camelid modeling mode

set_centroid_loop_building(...) from builtins.PyCapsule
set_centroid_loop_building(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, setting : bool) -> NoneType set centroid mode loop building

set_default(...) from builtins.PyCapsule
set_default(rosetta.protocols.antibody_legacy.CDRH3Modeler) -> NoneType

set_fullatom_loop_building(...) from builtins.PyCapsule
set_fullatom_loop_building(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, setting : bool) -> NoneType set fullatom mode loop building

set_highres_score_func(...) from builtins.PyCapsule
set_highres_score_func(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, highres_scorefxn : rosetta.core.scoring.ScoreFunction) -> NoneType ////////////////////////////////////////////////////////////////////// set scorefunction for high resolution of CDR H3 modeling

set_lowres_score_func(...) from builtins.PyCapsule
set_lowres_score_func(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, lowres_scorefxn : rosetta.core.scoring.ScoreFunction) -> NoneType ////////////////////////////////////////////////////////////////////// set scorefunction for low resolution of CDR H3 modeling

setup_packer_task(...) from builtins.PyCapsule
setup_packer_task(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, pose_in : rosetta.core.pose.Pose) -> NoneType

store_H3_cter_fragment(...) from builtins.PyCapsule
store_H3_cter_fragment(self : rosetta.protocols.antibody_legacy.CDRH3Modeler, base_library_in : rosetta.utility.vector1_core_fragment_FragData) -> NoneType store CDR H3 C-terminal fragments

Data descriptors defined here:

H3_base_library

Methods inherited from rosetta.protocols.moves.Mover:

clear_info(...) from builtins.PyCapsule
clear_info(rosetta.protocols.moves.Mover) -> NoneType Strings container can be used to return miscellaneous info (as std::string) from a mover, such as notes about the results of apply(). The job distributor (Apr 09 vintage) will check this function to see if your protocol wants to add string info to the Job that ran this mover. One way this can be useful is that later, a JobOutputter may include/append this info to an output file. clear_info is called by jd2 before calling apply

clone(...) from builtins.PyCapsule
clone(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Return a clone of the Mover object.

create(...) from builtins.PyCapsule
create(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

fresh_instance(...) from builtins.PyCapsule
fresh_instance(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Generates a new Mover object freshly created with the default ctor.

get_additional_output(...) from builtins.PyCapsule
get_additional_output(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose fpd Mechanism by which a mover may return multiple output poses from a single input pose.

get_current_job(...) from builtins.PyCapsule
get_current_job(rosetta.protocols.moves.Mover) -> protocols::jobdist::BasicJob

get_current_tag(...) from builtins.PyCapsule
get_current_tag(rosetta.protocols.moves.Mover) -> str A tag is a unique identifier used to identify structures produced by this Mover. get_current_tag() returns the tag, and set_current_tag( std::string tag ) sets the tag.  This functionality is not intended for use with the 2008 job distributor.

get_input_pose(...) from builtins.PyCapsule
get_input_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_last_move_status(...) from builtins.PyCapsule
get_last_move_status(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.MoverStatus returns status after an apply().  The job distributor (august 08 vintage) will check this function to see if your protocol wants to filter its results - if your protocol wants to say "that run was no good, skip it" then use the protected last_move_status(MoverStatus) to change the value that this function will return.

get_native_pose(...) from builtins.PyCapsule
get_native_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_self_ptr(...) from builtins.PyCapsule
get_self_ptr(*args, **kwargs) Overloaded function. 1. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover 2. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

get_self_weak_ptr(...) from builtins.PyCapsule
get_self_weak_ptr(*args, **kwargs) Overloaded function. 1. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_const_protocols_moves_Mover_t 2. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_protocols_moves_Mover_t

get_type(...) from builtins.PyCapsule
get_type(rosetta.protocols.moves.Mover) -> str

info(...) from builtins.PyCapsule
info(*args, **kwargs) Overloaded function. 1. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t non-const accessor 2. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t const accessor

last_proposal_density_ratio(...) from builtins.PyCapsule
last_proposal_density_ratio(rosetta.protocols.moves.Mover) -> float

name(...) from builtins.PyCapsule
name() -> str

register_options(...) from builtins.PyCapsule
register_options(*args, **kwargs) Overloaded function. 1. register_options() -> NoneType Overload this static method if you access options within the mover. These options will end up in -help of your application if users of this mover call register_options. Do this recursively! If you use movers within your mover, call their register_options in your register_options() method. 2. register_options() -> NoneType 3. register_options() -> NoneType 4. register_options() -> NoneType 5. register_options() -> NoneType 6. register_options() -> NoneType 7. register_options() -> NoneType 8. register_options() -> NoneType 9. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 10. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 11. register_options() -> NoneType Associates relevant options with the SnugDock class 12. register_options() -> NoneType Associates relevant options with the SnugDockProtocol class 13. register_options() -> NoneType Register the options used by this mover with the global options system. 14. register_options() -> NoneType 15. register_options() -> NoneType Associate relevant options with the TemperedDocking class. 16. register_options() -> NoneType 17. register_options() -> NoneType 18. register_options() -> NoneType Associates relevant options with the TemperedDocking class. 19. register_options() -> NoneType 20. register_options() -> NoneType Associates relevant options with the ConstraintSetMover class 21. register_options() -> NoneType 22. register_options() -> NoneType Associates relevant options with the DockingInitialPerturbation class 23. register_options() -> NoneType Associates relevant options with the DockingProtocol class 24. register_options() -> NoneType Associates relevant options with the TemperedDocking class 25. register_options() -> NoneType 26. register_options() -> NoneType 27. register_options() -> NoneType 28. register_options() -> NoneType register options 29. register_options() -> NoneType 30. register_options() -> NoneType Registers applicable options 31. register_options() -> NoneType Register options with the option system. 32. register_options() -> NoneType 33. register_options() -> NoneType 34. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 35. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycleContainer class 36. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 37. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 38. register_options() -> NoneType 39. register_options() -> NoneType Register options with the option system. 40. register_options() -> NoneType

reinitialize_for_each_job(...) from builtins.PyCapsule
reinitialize_for_each_job(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be freshly regenerated on each use.

reinitialize_for_new_input(...) from builtins.PyCapsule
reinitialize_for_new_input(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be regenerated when the input pose is about to change, (for example, if the Mover has special code on the first apply() that is only valid for that one input pose).

reset_status(...) from builtins.PyCapsule
reset_status(rosetta.protocols.moves.Mover) -> NoneType resets status to SUCCESS, meant to be used before an apply().  The job distributor (august 08 vintage) uses this to ensure non-accumulation of status across apply()s.

set_current_job(...) from builtins.PyCapsule
set_current_job(self : rosetta.protocols.moves.Mover, job : protocols::jobdist::BasicJob) -> NoneType ////////////////////////////end Job Distributor interface////////////////////////////////////////

set_current_tag(...) from builtins.PyCapsule
set_current_tag(self : rosetta.protocols.moves.Mover, new_tag : str) -> NoneType

set_input_pose(...) from builtins.PyCapsule
set_input_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for poses contained for rms

set_native_pose(...) from builtins.PyCapsule
set_native_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for native poses contained for rms ---- we should get rid of this method? it is widely used, but a bit unsafe

set_type(...) from builtins.PyCapsule
set_type(self : rosetta.protocols.moves.Mover, setting : str) -> NoneType

test_move(...) from builtins.PyCapsule
test_move(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType : Unit test support function.  Apply one move to a given pose.       Allows extra test specific functions to be called before applying

type(...) from builtins.PyCapsule
type(*args, **kwargs) Overloaded function. 1. type(rosetta.protocols.moves.Mover) -> str 2. type(self : rosetta.protocols.moves.Mover, type_in : str) -> NoneType

class CloseOneMover(rosetta.protocols.moves.Mover)

    Closes only one CDR onto a framework

Method resolution order:

CloseOneMover

rosetta.protocols.moves.Mover

builtins.object

Methods defined here:

__init__(...) from builtins.PyCapsule
__init__(*args, **kwargs) Overloaded function. 1. __init__(self : handle, query_start : int, query_end : int) -> NoneType 2. __init__(handle, rosetta.protocols.antibody_legacy.CloseOneMover) -> NoneType

__new__(*args, **kwargs) from builtins.type
Create and return a new object.  See help(type) for accurate signature.

apply(...) from builtins.PyCapsule
apply(self : rosetta.protocols.antibody_legacy.CloseOneMover, pose_in : rosetta.core.pose.Pose) -> NoneType

assign(...) from builtins.PyCapsule
assign(self : rosetta.protocols.antibody_legacy.CloseOneMover,  : rosetta.protocols.antibody_legacy.CloseOneMover) -> rosetta.protocols.antibody_legacy.CloseOneMover

close_one_loop_stem(...) from builtins.PyCapsule
close_one_loop_stem(*args, **kwargs) Overloaded function. 1. close_one_loop_stem(self : rosetta.protocols.antibody_legacy.CloseOneMover, pose_in : rosetta.core.pose.Pose, cutpoint_in : int, nter : bool) -> NoneType 2. close_one_loop_stem(self : rosetta.protocols.antibody_legacy.CloseOneMover, pose_in : rosetta.core.pose.Pose, loop_begin : int, loop_end : int, cutpoint : int) -> NoneType

close_one_loop_stem_helper(...) from builtins.PyCapsule
close_one_loop_stem_helper(self : rosetta.protocols.antibody_legacy.CloseOneMover, loop_begin : int, loop_end : int, cutpoint : int, pose_in : rosetta.core.pose.Pose, loop_map : rosetta.core.kinematics.MoveMap) -> NoneType

enable_benchmark_mode(...) from builtins.PyCapsule
enable_benchmark_mode(self : rosetta.protocols.antibody_legacy.CloseOneMover, setting : bool) -> NoneType enable benchmark mode

get_name(...) from builtins.PyCapsule
get_name(rosetta.protocols.antibody_legacy.CloseOneMover) -> str

set_default(...) from builtins.PyCapsule
set_default(rosetta.protocols.antibody_legacy.CloseOneMover) -> NoneType

Methods inherited from rosetta.protocols.moves.Mover:

clear_info(...) from builtins.PyCapsule
clear_info(rosetta.protocols.moves.Mover) -> NoneType Strings container can be used to return miscellaneous info (as std::string) from a mover, such as notes about the results of apply(). The job distributor (Apr 09 vintage) will check this function to see if your protocol wants to add string info to the Job that ran this mover. One way this can be useful is that later, a JobOutputter may include/append this info to an output file. clear_info is called by jd2 before calling apply

clone(...) from builtins.PyCapsule
clone(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Return a clone of the Mover object.

create(...) from builtins.PyCapsule
create(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

fresh_instance(...) from builtins.PyCapsule
fresh_instance(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Generates a new Mover object freshly created with the default ctor.

get_additional_output(...) from builtins.PyCapsule
get_additional_output(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose fpd Mechanism by which a mover may return multiple output poses from a single input pose.

get_current_job(...) from builtins.PyCapsule
get_current_job(rosetta.protocols.moves.Mover) -> protocols::jobdist::BasicJob

get_current_tag(...) from builtins.PyCapsule
get_current_tag(rosetta.protocols.moves.Mover) -> str A tag is a unique identifier used to identify structures produced by this Mover. get_current_tag() returns the tag, and set_current_tag( std::string tag ) sets the tag.  This functionality is not intended for use with the 2008 job distributor.

get_input_pose(...) from builtins.PyCapsule
get_input_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_last_move_status(...) from builtins.PyCapsule
get_last_move_status(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.MoverStatus returns status after an apply().  The job distributor (august 08 vintage) will check this function to see if your protocol wants to filter its results - if your protocol wants to say "that run was no good, skip it" then use the protected last_move_status(MoverStatus) to change the value that this function will return.

get_native_pose(...) from builtins.PyCapsule
get_native_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_self_ptr(...) from builtins.PyCapsule
get_self_ptr(*args, **kwargs) Overloaded function. 1. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover 2. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

get_self_weak_ptr(...) from builtins.PyCapsule
get_self_weak_ptr(*args, **kwargs) Overloaded function. 1. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_const_protocols_moves_Mover_t 2. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_protocols_moves_Mover_t

get_type(...) from builtins.PyCapsule
get_type(rosetta.protocols.moves.Mover) -> str

info(...) from builtins.PyCapsule
info(*args, **kwargs) Overloaded function. 1. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t non-const accessor 2. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t const accessor

last_proposal_density_ratio(...) from builtins.PyCapsule
last_proposal_density_ratio(rosetta.protocols.moves.Mover) -> float

name(...) from builtins.PyCapsule
name() -> str

register_options(...) from builtins.PyCapsule
register_options(*args, **kwargs) Overloaded function. 1. register_options() -> NoneType Overload this static method if you access options within the mover. These options will end up in -help of your application if users of this mover call register_options. Do this recursively! If you use movers within your mover, call their register_options in your register_options() method. 2. register_options() -> NoneType 3. register_options() -> NoneType 4. register_options() -> NoneType 5. register_options() -> NoneType 6. register_options() -> NoneType 7. register_options() -> NoneType 8. register_options() -> NoneType 9. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 10. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 11. register_options() -> NoneType Associates relevant options with the SnugDock class 12. register_options() -> NoneType Associates relevant options with the SnugDockProtocol class 13. register_options() -> NoneType Register the options used by this mover with the global options system. 14. register_options() -> NoneType 15. register_options() -> NoneType Associate relevant options with the TemperedDocking class. 16. register_options() -> NoneType 17. register_options() -> NoneType 18. register_options() -> NoneType Associates relevant options with the TemperedDocking class. 19. register_options() -> NoneType 20. register_options() -> NoneType Associates relevant options with the ConstraintSetMover class 21. register_options() -> NoneType 22. register_options() -> NoneType Associates relevant options with the DockingInitialPerturbation class 23. register_options() -> NoneType Associates relevant options with the DockingProtocol class 24. register_options() -> NoneType Associates relevant options with the TemperedDocking class 25. register_options() -> NoneType 26. register_options() -> NoneType 27. register_options() -> NoneType 28. register_options() -> NoneType register options 29. register_options() -> NoneType 30. register_options() -> NoneType Registers applicable options 31. register_options() -> NoneType Register options with the option system. 32. register_options() -> NoneType 33. register_options() -> NoneType 34. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 35. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycleContainer class 36. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 37. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 38. register_options() -> NoneType 39. register_options() -> NoneType Register options with the option system. 40. register_options() -> NoneType

reinitialize_for_each_job(...) from builtins.PyCapsule
reinitialize_for_each_job(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be freshly regenerated on each use.

reinitialize_for_new_input(...) from builtins.PyCapsule
reinitialize_for_new_input(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be regenerated when the input pose is about to change, (for example, if the Mover has special code on the first apply() that is only valid for that one input pose).

reset_status(...) from builtins.PyCapsule
reset_status(rosetta.protocols.moves.Mover) -> NoneType resets status to SUCCESS, meant to be used before an apply().  The job distributor (august 08 vintage) uses this to ensure non-accumulation of status across apply()s.

set_current_job(...) from builtins.PyCapsule
set_current_job(self : rosetta.protocols.moves.Mover, job : protocols::jobdist::BasicJob) -> NoneType ////////////////////////////end Job Distributor interface////////////////////////////////////////

set_current_tag(...) from builtins.PyCapsule
set_current_tag(self : rosetta.protocols.moves.Mover, new_tag : str) -> NoneType

set_input_pose(...) from builtins.PyCapsule
set_input_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for poses contained for rms

set_native_pose(...) from builtins.PyCapsule
set_native_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for native poses contained for rms ---- we should get rid of this method? it is widely used, but a bit unsafe

set_type(...) from builtins.PyCapsule
set_type(self : rosetta.protocols.moves.Mover, setting : str) -> NoneType

test_move(...) from builtins.PyCapsule
test_move(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType : Unit test support function.  Apply one move to a given pose.       Allows extra test specific functions to be called before applying

type(...) from builtins.PyCapsule
type(*args, **kwargs) Overloaded function. 1. type(rosetta.protocols.moves.Mover) -> str 2. type(self : rosetta.protocols.moves.Mover, type_in : str) -> NoneType

class GraftMover(rosetta.protocols.moves.Mover)

    /////////////////////////////////////////////////////////////////////// Grafts a series of CDR onto a framework

Method resolution order:

GraftMover

rosetta.protocols.moves.Mover

builtins.object

Methods defined here:

__init__(...) from builtins.PyCapsule
__init__(*args, **kwargs) Overloaded function. 1. __init__(handle) -> NoneType 2. __init__(handle, rosetta.protocols.antibody_legacy.GraftMover) -> NoneType

__new__(*args, **kwargs) from builtins.type
Create and return a new object.  See help(type) for accurate signature.

apply(...) from builtins.PyCapsule
apply(self : rosetta.protocols.antibody_legacy.GraftMover, pose_in : rosetta.core.pose.Pose) -> NoneType

assign(...) from builtins.PyCapsule
assign(self : rosetta.protocols.antibody_legacy.GraftMover,  : rosetta.protocols.antibody_legacy.GraftMover) -> rosetta.protocols.antibody_legacy.GraftMover

enable_benchmark_mode(...) from builtins.PyCapsule
enable_benchmark_mode(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType enable benchmark mode

enable_graft_h1(...) from builtins.PyCapsule
enable_graft_h1(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType

enable_graft_h2(...) from builtins.PyCapsule
enable_graft_h2(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType

enable_graft_h3(...) from builtins.PyCapsule
enable_graft_h3(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType

enable_graft_l1(...) from builtins.PyCapsule
enable_graft_l1(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType

enable_graft_l2(...) from builtins.PyCapsule
enable_graft_l2(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType

enable_graft_l3(...) from builtins.PyCapsule
enable_graft_l3(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType

get_name(...) from builtins.PyCapsule
get_name(rosetta.protocols.antibody_legacy.GraftMover) -> str

relax_optimized_CDR_grafts(...) from builtins.PyCapsule
relax_optimized_CDR_grafts(self : rosetta.protocols.antibody_legacy.GraftMover, pose_in : rosetta.core.pose.Pose) -> NoneType relax optimized CDR grafted regions

set_camelid(...) from builtins.PyCapsule
set_camelid(self : rosetta.protocols.antibody_legacy.GraftMover, setting : bool) -> NoneType

set_default(...) from builtins.PyCapsule
set_default(rosetta.protocols.antibody_legacy.GraftMover) -> NoneType

Methods inherited from rosetta.protocols.moves.Mover:

clear_info(...) from builtins.PyCapsule
clear_info(rosetta.protocols.moves.Mover) -> NoneType Strings container can be used to return miscellaneous info (as std::string) from a mover, such as notes about the results of apply(). The job distributor (Apr 09 vintage) will check this function to see if your protocol wants to add string info to the Job that ran this mover. One way this can be useful is that later, a JobOutputter may include/append this info to an output file. clear_info is called by jd2 before calling apply

clone(...) from builtins.PyCapsule
clone(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Return a clone of the Mover object.

create(...) from builtins.PyCapsule
create(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

fresh_instance(...) from builtins.PyCapsule
fresh_instance(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Generates a new Mover object freshly created with the default ctor.

get_additional_output(...) from builtins.PyCapsule
get_additional_output(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose fpd Mechanism by which a mover may return multiple output poses from a single input pose.

get_current_job(...) from builtins.PyCapsule
get_current_job(rosetta.protocols.moves.Mover) -> protocols::jobdist::BasicJob

get_current_tag(...) from builtins.PyCapsule
get_current_tag(rosetta.protocols.moves.Mover) -> str A tag is a unique identifier used to identify structures produced by this Mover. get_current_tag() returns the tag, and set_current_tag( std::string tag ) sets the tag.  This functionality is not intended for use with the 2008 job distributor.

get_input_pose(...) from builtins.PyCapsule
get_input_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_last_move_status(...) from builtins.PyCapsule
get_last_move_status(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.MoverStatus returns status after an apply().  The job distributor (august 08 vintage) will check this function to see if your protocol wants to filter its results - if your protocol wants to say "that run was no good, skip it" then use the protected last_move_status(MoverStatus) to change the value that this function will return.

get_native_pose(...) from builtins.PyCapsule
get_native_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_self_ptr(...) from builtins.PyCapsule
get_self_ptr(*args, **kwargs) Overloaded function. 1. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover 2. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

get_self_weak_ptr(...) from builtins.PyCapsule
get_self_weak_ptr(*args, **kwargs) Overloaded function. 1. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_const_protocols_moves_Mover_t 2. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_protocols_moves_Mover_t

get_type(...) from builtins.PyCapsule
get_type(rosetta.protocols.moves.Mover) -> str

info(...) from builtins.PyCapsule
info(*args, **kwargs) Overloaded function. 1. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t non-const accessor 2. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t const accessor

last_proposal_density_ratio(...) from builtins.PyCapsule
last_proposal_density_ratio(rosetta.protocols.moves.Mover) -> float

name(...) from builtins.PyCapsule
name() -> str

register_options(...) from builtins.PyCapsule
register_options(*args, **kwargs) Overloaded function. 1. register_options() -> NoneType Overload this static method if you access options within the mover. These options will end up in -help of your application if users of this mover call register_options. Do this recursively! If you use movers within your mover, call their register_options in your register_options() method. 2. register_options() -> NoneType 3. register_options() -> NoneType 4. register_options() -> NoneType 5. register_options() -> NoneType 6. register_options() -> NoneType 7. register_options() -> NoneType 8. register_options() -> NoneType 9. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 10. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 11. register_options() -> NoneType Associates relevant options with the SnugDock class 12. register_options() -> NoneType Associates relevant options with the SnugDockProtocol class 13. register_options() -> NoneType Register the options used by this mover with the global options system. 14. register_options() -> NoneType 15. register_options() -> NoneType Associate relevant options with the TemperedDocking class. 16. register_options() -> NoneType 17. register_options() -> NoneType 18. register_options() -> NoneType Associates relevant options with the TemperedDocking class. 19. register_options() -> NoneType 20. register_options() -> NoneType Associates relevant options with the ConstraintSetMover class 21. register_options() -> NoneType 22. register_options() -> NoneType Associates relevant options with the DockingInitialPerturbation class 23. register_options() -> NoneType Associates relevant options with the DockingProtocol class 24. register_options() -> NoneType Associates relevant options with the TemperedDocking class 25. register_options() -> NoneType 26. register_options() -> NoneType 27. register_options() -> NoneType 28. register_options() -> NoneType register options 29. register_options() -> NoneType 30. register_options() -> NoneType Registers applicable options 31. register_options() -> NoneType Register options with the option system. 32. register_options() -> NoneType 33. register_options() -> NoneType 34. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 35. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycleContainer class 36. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 37. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 38. register_options() -> NoneType 39. register_options() -> NoneType Register options with the option system. 40. register_options() -> NoneType

reinitialize_for_each_job(...) from builtins.PyCapsule
reinitialize_for_each_job(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be freshly regenerated on each use.

reinitialize_for_new_input(...) from builtins.PyCapsule
reinitialize_for_new_input(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be regenerated when the input pose is about to change, (for example, if the Mover has special code on the first apply() that is only valid for that one input pose).

reset_status(...) from builtins.PyCapsule
reset_status(rosetta.protocols.moves.Mover) -> NoneType resets status to SUCCESS, meant to be used before an apply().  The job distributor (august 08 vintage) uses this to ensure non-accumulation of status across apply()s.

set_current_job(...) from builtins.PyCapsule
set_current_job(self : rosetta.protocols.moves.Mover, job : protocols::jobdist::BasicJob) -> NoneType ////////////////////////////end Job Distributor interface////////////////////////////////////////

set_current_tag(...) from builtins.PyCapsule
set_current_tag(self : rosetta.protocols.moves.Mover, new_tag : str) -> NoneType

set_input_pose(...) from builtins.PyCapsule
set_input_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for poses contained for rms

set_native_pose(...) from builtins.PyCapsule
set_native_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for native poses contained for rms ---- we should get rid of this method? it is widely used, but a bit unsafe

set_type(...) from builtins.PyCapsule
set_type(self : rosetta.protocols.moves.Mover, setting : str) -> NoneType

test_move(...) from builtins.PyCapsule
test_move(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType : Unit test support function.  Apply one move to a given pose.       Allows extra test specific functions to be called before applying

type(...) from builtins.PyCapsule
type(*args, **kwargs) Overloaded function. 1. type(rosetta.protocols.moves.Mover) -> str 2. type(self : rosetta.protocols.moves.Mover, type_in : str) -> NoneType

class GraftOneMover(rosetta.protocols.moves.Mover)

    /////////////////////////////////////////////////////////////////////// Grafts only one CDR onto a framework

Method resolution order:

GraftOneMover

rosetta.protocols.moves.Mover

builtins.object

Methods defined here:

__init__(...) from builtins.PyCapsule
__init__(*args, **kwargs) Overloaded function. 1. __init__(self : handle, query_start : int, query_end : int, template_name : str) -> NoneType 2. __init__(handle, rosetta.protocols.antibody_legacy.GraftOneMover) -> NoneType

__new__(*args, **kwargs) from builtins.type
Create and return a new object.  See help(type) for accurate signature.

apply(...) from builtins.PyCapsule
apply(self : rosetta.protocols.antibody_legacy.GraftOneMover, pose_in : rosetta.core.pose.Pose) -> NoneType

assign(...) from builtins.PyCapsule
assign(self : rosetta.protocols.antibody_legacy.GraftOneMover,  : rosetta.protocols.antibody_legacy.GraftOneMover) -> rosetta.protocols.antibody_legacy.GraftOneMover

enable_benchmark_mode(...) from builtins.PyCapsule
enable_benchmark_mode(self : rosetta.protocols.antibody_legacy.GraftOneMover, setting : bool) -> NoneType enable benchmark mode

get_name(...) from builtins.PyCapsule
get_name(rosetta.protocols.antibody_legacy.GraftOneMover) -> str

set_default(...) from builtins.PyCapsule
set_default(rosetta.protocols.antibody_legacy.GraftOneMover) -> NoneType

Methods inherited from rosetta.protocols.moves.Mover:

clear_info(...) from builtins.PyCapsule
clear_info(rosetta.protocols.moves.Mover) -> NoneType Strings container can be used to return miscellaneous info (as std::string) from a mover, such as notes about the results of apply(). The job distributor (Apr 09 vintage) will check this function to see if your protocol wants to add string info to the Job that ran this mover. One way this can be useful is that later, a JobOutputter may include/append this info to an output file. clear_info is called by jd2 before calling apply

clone(...) from builtins.PyCapsule
clone(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Return a clone of the Mover object.

create(...) from builtins.PyCapsule
create(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

fresh_instance(...) from builtins.PyCapsule
fresh_instance(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Generates a new Mover object freshly created with the default ctor.

get_additional_output(...) from builtins.PyCapsule
get_additional_output(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose fpd Mechanism by which a mover may return multiple output poses from a single input pose.

get_current_job(...) from builtins.PyCapsule
get_current_job(rosetta.protocols.moves.Mover) -> protocols::jobdist::BasicJob

get_current_tag(...) from builtins.PyCapsule
get_current_tag(rosetta.protocols.moves.Mover) -> str A tag is a unique identifier used to identify structures produced by this Mover. get_current_tag() returns the tag, and set_current_tag( std::string tag ) sets the tag.  This functionality is not intended for use with the 2008 job distributor.

get_input_pose(...) from builtins.PyCapsule
get_input_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_last_move_status(...) from builtins.PyCapsule
get_last_move_status(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.MoverStatus returns status after an apply().  The job distributor (august 08 vintage) will check this function to see if your protocol wants to filter its results - if your protocol wants to say "that run was no good, skip it" then use the protected last_move_status(MoverStatus) to change the value that this function will return.

get_native_pose(...) from builtins.PyCapsule
get_native_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_self_ptr(...) from builtins.PyCapsule
get_self_ptr(*args, **kwargs) Overloaded function. 1. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover 2. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

get_self_weak_ptr(...) from builtins.PyCapsule
get_self_weak_ptr(*args, **kwargs) Overloaded function. 1. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_const_protocols_moves_Mover_t 2. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_protocols_moves_Mover_t

get_type(...) from builtins.PyCapsule
get_type(rosetta.protocols.moves.Mover) -> str

info(...) from builtins.PyCapsule
info(*args, **kwargs) Overloaded function. 1. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t non-const accessor 2. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t const accessor

last_proposal_density_ratio(...) from builtins.PyCapsule
last_proposal_density_ratio(rosetta.protocols.moves.Mover) -> float

name(...) from builtins.PyCapsule
name() -> str

register_options(...) from builtins.PyCapsule
register_options(*args, **kwargs) Overloaded function. 1. register_options() -> NoneType Overload this static method if you access options within the mover. These options will end up in -help of your application if users of this mover call register_options. Do this recursively! If you use movers within your mover, call their register_options in your register_options() method. 2. register_options() -> NoneType 3. register_options() -> NoneType 4. register_options() -> NoneType 5. register_options() -> NoneType 6. register_options() -> NoneType 7. register_options() -> NoneType 8. register_options() -> NoneType 9. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 10. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 11. register_options() -> NoneType Associates relevant options with the SnugDock class 12. register_options() -> NoneType Associates relevant options with the SnugDockProtocol class 13. register_options() -> NoneType Register the options used by this mover with the global options system. 14. register_options() -> NoneType 15. register_options() -> NoneType Associate relevant options with the TemperedDocking class. 16. register_options() -> NoneType 17. register_options() -> NoneType 18. register_options() -> NoneType Associates relevant options with the TemperedDocking class. 19. register_options() -> NoneType 20. register_options() -> NoneType Associates relevant options with the ConstraintSetMover class 21. register_options() -> NoneType 22. register_options() -> NoneType Associates relevant options with the DockingInitialPerturbation class 23. register_options() -> NoneType Associates relevant options with the DockingProtocol class 24. register_options() -> NoneType Associates relevant options with the TemperedDocking class 25. register_options() -> NoneType 26. register_options() -> NoneType 27. register_options() -> NoneType 28. register_options() -> NoneType register options 29. register_options() -> NoneType 30. register_options() -> NoneType Registers applicable options 31. register_options() -> NoneType Register options with the option system. 32. register_options() -> NoneType 33. register_options() -> NoneType 34. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 35. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycleContainer class 36. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 37. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 38. register_options() -> NoneType 39. register_options() -> NoneType Register options with the option system. 40. register_options() -> NoneType

reinitialize_for_each_job(...) from builtins.PyCapsule
reinitialize_for_each_job(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be freshly regenerated on each use.

reinitialize_for_new_input(...) from builtins.PyCapsule
reinitialize_for_new_input(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be regenerated when the input pose is about to change, (for example, if the Mover has special code on the first apply() that is only valid for that one input pose).

reset_status(...) from builtins.PyCapsule
reset_status(rosetta.protocols.moves.Mover) -> NoneType resets status to SUCCESS, meant to be used before an apply().  The job distributor (august 08 vintage) uses this to ensure non-accumulation of status across apply()s.

set_current_job(...) from builtins.PyCapsule
set_current_job(self : rosetta.protocols.moves.Mover, job : protocols::jobdist::BasicJob) -> NoneType ////////////////////////////end Job Distributor interface////////////////////////////////////////

set_current_tag(...) from builtins.PyCapsule
set_current_tag(self : rosetta.protocols.moves.Mover, new_tag : str) -> NoneType

set_input_pose(...) from builtins.PyCapsule
set_input_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for poses contained for rms

set_native_pose(...) from builtins.PyCapsule
set_native_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for native poses contained for rms ---- we should get rid of this method? it is widely used, but a bit unsafe

set_type(...) from builtins.PyCapsule
set_type(self : rosetta.protocols.moves.Mover, setting : str) -> NoneType

test_move(...) from builtins.PyCapsule
test_move(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType : Unit test support function.  Apply one move to a given pose.       Allows extra test specific functions to be called before applying

type(...) from builtins.PyCapsule
type(*args, **kwargs) Overloaded function. 1. type(rosetta.protocols.moves.Mover) -> str 2. type(self : rosetta.protocols.moves.Mover, type_in : str) -> NoneType

class LoopRlxMover(rosetta.protocols.moves.Mover)

    Closes only one CDR onto a framework

Method resolution order:

LoopRlxMover

rosetta.protocols.moves.Mover

builtins.object

Methods defined here:

__init__(...) from builtins.PyCapsule
__init__(*args, **kwargs) Overloaded function. 1. __init__(self : handle, query_start : int, query_end : int) -> NoneType 2. __init__(handle, rosetta.protocols.antibody_legacy.LoopRlxMover) -> NoneType

__new__(*args, **kwargs) from builtins.type
Create and return a new object.  See help(type) for accurate signature.

apply(...) from builtins.PyCapsule
apply(self : rosetta.protocols.antibody_legacy.LoopRlxMover, pose_in : rosetta.core.pose.Pose) -> NoneType

assign(...) from builtins.PyCapsule
assign(self : rosetta.protocols.antibody_legacy.LoopRlxMover,  : rosetta.protocols.antibody_legacy.LoopRlxMover) -> rosetta.protocols.antibody_legacy.LoopRlxMover

enable_benchmark_mode(...) from builtins.PyCapsule
enable_benchmark_mode(self : rosetta.protocols.antibody_legacy.LoopRlxMover, setting : bool) -> NoneType enable benchmark mode

get_name(...) from builtins.PyCapsule
get_name(rosetta.protocols.antibody_legacy.LoopRlxMover) -> str

set_default(...) from builtins.PyCapsule
set_default(rosetta.protocols.antibody_legacy.LoopRlxMover) -> NoneType

setup_packer_task(...) from builtins.PyCapsule
setup_packer_task(self : rosetta.protocols.antibody_legacy.LoopRlxMover, pose_in : rosetta.core.pose.Pose) -> NoneType

Methods inherited from rosetta.protocols.moves.Mover:

clear_info(...) from builtins.PyCapsule
clear_info(rosetta.protocols.moves.Mover) -> NoneType Strings container can be used to return miscellaneous info (as std::string) from a mover, such as notes about the results of apply(). The job distributor (Apr 09 vintage) will check this function to see if your protocol wants to add string info to the Job that ran this mover. One way this can be useful is that later, a JobOutputter may include/append this info to an output file. clear_info is called by jd2 before calling apply

clone(...) from builtins.PyCapsule
clone(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Return a clone of the Mover object.

create(...) from builtins.PyCapsule
create(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

fresh_instance(...) from builtins.PyCapsule
fresh_instance(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover Generates a new Mover object freshly created with the default ctor.

get_additional_output(...) from builtins.PyCapsule
get_additional_output(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose fpd Mechanism by which a mover may return multiple output poses from a single input pose.

get_current_job(...) from builtins.PyCapsule
get_current_job(rosetta.protocols.moves.Mover) -> protocols::jobdist::BasicJob

get_current_tag(...) from builtins.PyCapsule
get_current_tag(rosetta.protocols.moves.Mover) -> str A tag is a unique identifier used to identify structures produced by this Mover. get_current_tag() returns the tag, and set_current_tag( std::string tag ) sets the tag.  This functionality is not intended for use with the 2008 job distributor.

get_input_pose(...) from builtins.PyCapsule
get_input_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_last_move_status(...) from builtins.PyCapsule
get_last_move_status(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.MoverStatus returns status after an apply().  The job distributor (august 08 vintage) will check this function to see if your protocol wants to filter its results - if your protocol wants to say "that run was no good, skip it" then use the protected last_move_status(MoverStatus) to change the value that this function will return.

get_native_pose(...) from builtins.PyCapsule
get_native_pose(rosetta.protocols.moves.Mover) -> rosetta.core.pose.Pose

get_self_ptr(...) from builtins.PyCapsule
get_self_ptr(*args, **kwargs) Overloaded function. 1. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover 2. get_self_ptr(rosetta.protocols.moves.Mover) -> rosetta.protocols.moves.Mover

get_self_weak_ptr(...) from builtins.PyCapsule
get_self_weak_ptr(*args, **kwargs) Overloaded function. 1. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_const_protocols_moves_Mover_t 2. get_self_weak_ptr(rosetta.protocols.moves.Mover) -> rosetta.std.weak_ptr_protocols_moves_Mover_t

get_type(...) from builtins.PyCapsule
get_type(rosetta.protocols.moves.Mover) -> str

info(...) from builtins.PyCapsule
info(*args, **kwargs) Overloaded function. 1. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t non-const accessor 2. info(rosetta.protocols.moves.Mover) -> rosetta.std.list_std_string_std_allocator_std_string_t const accessor

last_proposal_density_ratio(...) from builtins.PyCapsule
last_proposal_density_ratio(rosetta.protocols.moves.Mover) -> float

name(...) from builtins.PyCapsule
name() -> str

register_options(...) from builtins.PyCapsule
register_options(*args, **kwargs) Overloaded function. 1. register_options() -> NoneType Overload this static method if you access options within the mover. These options will end up in -help of your application if users of this mover call register_options. Do this recursively! If you use movers within your mover, call their register_options in your register_options() method. 2. register_options() -> NoneType 3. register_options() -> NoneType 4. register_options() -> NoneType 5. register_options() -> NoneType 6. register_options() -> NoneType 7. register_options() -> NoneType 8. register_options() -> NoneType 9. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 10. register_options() -> NoneType Associates relevant options with the AntibodyModeler class 11. register_options() -> NoneType Associates relevant options with the SnugDock class 12. register_options() -> NoneType Associates relevant options with the SnugDockProtocol class 13. register_options() -> NoneType Register the options used by this mover with the global options system. 14. register_options() -> NoneType 15. register_options() -> NoneType Associate relevant options with the TemperedDocking class. 16. register_options() -> NoneType 17. register_options() -> NoneType 18. register_options() -> NoneType Associates relevant options with the TemperedDocking class. 19. register_options() -> NoneType 20. register_options() -> NoneType Associates relevant options with the ConstraintSetMover class 21. register_options() -> NoneType 22. register_options() -> NoneType Associates relevant options with the DockingInitialPerturbation class 23. register_options() -> NoneType Associates relevant options with the DockingProtocol class 24. register_options() -> NoneType Associates relevant options with the TemperedDocking class 25. register_options() -> NoneType 26. register_options() -> NoneType 27. register_options() -> NoneType 28. register_options() -> NoneType register options 29. register_options() -> NoneType 30. register_options() -> NoneType Registers applicable options 31. register_options() -> NoneType Register options with the option system. 32. register_options() -> NoneType 33. register_options() -> NoneType 34. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 35. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycleContainer class 36. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 37. register_options() -> NoneType Associates relevant options with the LoopRefineInnerCycle class 38. register_options() -> NoneType 39. register_options() -> NoneType Register options with the option system. 40. register_options() -> NoneType

reinitialize_for_each_job(...) from builtins.PyCapsule
reinitialize_for_each_job(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be freshly regenerated on each use.

reinitialize_for_new_input(...) from builtins.PyCapsule
reinitialize_for_new_input(rosetta.protocols.moves.Mover) -> bool Inform the Job Distributor (August '08 vintage) whether this object needs to be regenerated when the input pose is about to change, (for example, if the Mover has special code on the first apply() that is only valid for that one input pose).

reset_status(...) from builtins.PyCapsule
reset_status(rosetta.protocols.moves.Mover) -> NoneType resets status to SUCCESS, meant to be used before an apply().  The job distributor (august 08 vintage) uses this to ensure non-accumulation of status across apply()s.

set_current_job(...) from builtins.PyCapsule
set_current_job(self : rosetta.protocols.moves.Mover, job : protocols::jobdist::BasicJob) -> NoneType ////////////////////////////end Job Distributor interface////////////////////////////////////////

set_current_tag(...) from builtins.PyCapsule
set_current_tag(self : rosetta.protocols.moves.Mover, new_tag : str) -> NoneType

set_input_pose(...) from builtins.PyCapsule
set_input_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for poses contained for rms

set_native_pose(...) from builtins.PyCapsule
set_native_pose(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType setter for native poses contained for rms ---- we should get rid of this method? it is widely used, but a bit unsafe

set_type(...) from builtins.PyCapsule
set_type(self : rosetta.protocols.moves.Mover, setting : str) -> NoneType

test_move(...) from builtins.PyCapsule
test_move(self : rosetta.protocols.moves.Mover, pose : rosetta.core.pose.Pose) -> NoneType : Unit test support function.  Apply one move to a given pose.       Allows extra test specific functions to be called before applying

type(...) from builtins.PyCapsule
type(*args, **kwargs) Overloaded function. 1. type(rosetta.protocols.moves.Mover) -> str 2. type(self : rosetta.protocols.moves.Mover, type_in : str) -> NoneType

Functions

read_H3_cter_fragment(...) method of builtins.PyCapsule instance
read_H3_cter_fragment(antibody_in : rosetta.protocols.antibody_legacy.Antibody, H3_base_library : rosetta.utility.vector1_core_fragment_FragData, is_camelid : bool) -> NoneType

simple_fold_tree(...) method of builtins.PyCapsule instance
simple_fold_tree(pose_in : rosetta.core.pose.Pose, jumppoint1 : int, cutpoint : int, jumppoint2 : int) -> NoneType

simple_one_loop_fold_tree(...) method of builtins.PyCapsule instance
simple_one_loop_fold_tree(pose : rosetta.core.pose.Pose, loop : rosetta.protocols.loops.Loop) -> NoneType