schrodinger.application.desmond.stage.prepare.structure module

class schrodinger.application.desmond.stage.prepare.structure.BuildGeometry(*arg, **kwarg)

Bases: schrodinger.application.desmond.cmj.StageBase

NAME = 'build_geometry'
BG_CMD = '/Users/young/builds/2023-1/build/utilities/system_builder'
SOLVENT = {'DMSO': 'dmso.box.mae', 'METHANOL': 'methanol.box.mae', 'OCTANOL': 'octanol.box.mae', 'SPC': 'spc.box.mae', 'SPCE': 'spce.box.mae', 'SPCFW': 'spcfw.box.mae', 'TIP3P': 'tip3p.box.mae', 'TIP4P': 'tip4p.box.mae', 'TIP4P2005': 'tip4p2005.box.mae', 'TIP4PD': 'tip4pd.box.mae', 'TIP4PEW': 'tip4pew.box.mae', 'TIP5P': 'tip5p.box.mae', 'WATER': 'spc.box.mae'}
DEFAULT_ALCHEMICAL_EXCLUDE_DIST = 5
PARAM = <schrodinger.utils.sea.sea.Map object>
__init__(*arg, **kwarg)
crunch()
hook_captured_successful_job(job)
RESTARTABLE = False
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()
class schrodinger.application.desmond.stage.prepare.structure.ExtractStructures(*args, **kwargs)

Bases: schrodinger.application.desmond.cmj.StructureStageBase

This extracts one or more structures from an input mae file and passes it to the next stage.

NAME = 'extract_structures'
TAG = 'EXTRACT_STRUCTURES'
PARAM = <schrodinger.utils.sea.sea.Map object>
run(jobname: str, input_fname: str) Optional[str]
Parameters
  • jobname – Jobname for this stage.

  • input_fname – Filename for the input structure.

Returns

Filename for the output structure or None if there was an error generating the output.

RESTARTABLE = False
__init__(*args, **kwargs)
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
crunch()

This is where jobs of this stage are created. This function should be overriden by the subclass.

describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

hook_captured_successful_job(job)
property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()
class schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure(*args, **kwargs)

Bases: schrodinger.application.desmond.cmj.StructureStageBase

This extracts a solute structure from the output cms of an MD run, and clears the simulation box if present.

NAME = 'extract_solute_structure'
run(jobname: str, cms_fname: str) Optional[str]
Parameters
  • jobname – Jobname for this stage.

  • input_fname – Filename for the input structure.

Returns

Filename for the output structure or None if there was an error generating the output.

PARAM = <schrodinger.utils.sea.sea.Map object>
RESTARTABLE = False
__init__(*args, **kwargs)
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
crunch()

This is where jobs of this stage are created. This function should be overriden by the subclass.

describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

hook_captured_successful_job(job)
property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()
class schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle(*args, **kwargs)

Bases: schrodinger.application.desmond.cmj.StructureStageBase

This stores the structure title and corresponding hash id for one or more structures from an input mae file and passes it to the next stage.

NAME = 'hash_structure_title'
run(jobname: str, mae_fname: str) Optional[str]
Parameters
  • jobname – Jobname for this stage.

  • input_fname – Filename for the input structure.

Returns

Filename for the output structure or None if there was an error generating the output.

PARAM = <schrodinger.utils.sea.sea.Map object>
RESTARTABLE = False
__init__(*args, **kwargs)
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
crunch()

This is where jobs of this stage are created. This function should be overriden by the subclass.

describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

hook_captured_successful_job(job)
property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()
class schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder(*args, **kwargs)

Bases: schrodinger.application.desmond.cmj.StructureStageBase

This sets up and runs the disordered system builder, which takes in a ct and creates a disordered solid system for it.

NAME = 'disordered_system_builder'
N_MOLECULES = 64
PARAM = <schrodinger.utils.sea.sea.Map object>
run(jobname: str, mae_fname: str) Optional[str]
Parameters
  • jobname – Jobname for this stage.

  • input_fname – Filename for the input structure.

Returns

Filename for the output structure or None if there was an error generating the output.

RESTARTABLE = False
__init__(*args, **kwargs)
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
crunch()

This is where jobs of this stage are created. This function should be overriden by the subclass.

describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

hook_captured_successful_job(job)
property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()
class schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator(should_pack=True)

Bases: schrodinger.application.desmond.cmj.StageBase

NAME = 'protein_mutation_generator'
PARAM = <schrodinger.utils.sea.sea.Map object>
crunch()

We will either read the mutations from a file or directly from the msj where mutations are defined as a list of space seperated strings

mutations = [“C:23->ALA” “C:23->SER”]

create_mutation_file(mutation_file)
RESTARTABLE = False
__init__(should_pack=True)
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

hook_captured_successful_job(job)
property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()
class schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure(*args, **kwargs)

Bases: schrodinger.application.desmond.cmj.StructureStageBase

This takes the output structure from the previous stage and replicates it, so it has the same number of molecules as the input mae_file. Then it copies the coordinates and structure properties from mae_file.

PARAM = <schrodinger.utils.sea.sea.Map object>
NAME = 'replicate_structure'
run(jobname: str, input_fname: str) str
Parameters
  • jobname – Jobname for this stage.

  • input_fname – Filename for the input structure.

Returns

Filename for the output structure or None if there was an error generating the output.

RESTARTABLE = False
__init__(*args, **kwargs)
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
crunch()

This is where jobs of this stage are created. This function should be overriden by the subclass.

describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

hook_captured_successful_job(job)
property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()
class schrodinger.application.desmond.stage.prepare.structure.GroupWaters(*args, **kwargs)

Bases: schrodinger.application.desmond.cmj.StructureStageBase

Set the FEP_ABSOLUTE_ENERGY property on waters, optionally selecting only non-crystal waters

NAME = 'group_waters'
PARAM = <schrodinger.utils.sea.sea.Map object>
run(jobname, input_fname)
Parameters
  • jobname – Jobname for this stage.

  • input_fname – Filename for the input structure.

Returns

Filename for the output structure or None if there was an error generating the output.

RESTARTABLE = False
__init__(*args, **kwargs)
add_job(job: schrodinger.application.desmond.cmj.Job)

Shortcut for add_jobs

add_jobs(jobs: Iterable[schrodinger.application.desmond.cmj.Job])

Add jobs to the stage’s job manager

check_param()
count = 0
crunch()

This is where jobs of this stage are created. This function should be overriden by the subclass.

describe()
determine()
filter_jobs(**kwargs) List[schrodinger.application.desmond.cmj.Job]

Return a list of jobs based on a matching a set of criteria given as arguments. Read JobManager.filter_jobs for available arguments.

finalize_job(job: schrodinger.application.desmond.cmj.Job)

Call hook_captured_successful_job on any successful jobs and write a checkpoint

finalize_stage()

If the stage is done running, pack the stage, and if the stage is successful, continue to the next stage

get_output_jobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s output jobs

get_prejobs() List[schrodinger.application.desmond.cmj.Job]

Get the stage’s input jobs

hook_captured_successful_job(job)
property jobs: List[schrodinger.application.desmond.cmj.Job]
migrate_param(param: schrodinger.utils.sea.sea.Map)

Subclasses can implement this to migrate params to provide backward compatibility with older msj files, ideally with a deprecation warning.

pack_stage(force=False)
poststage()
prestage()
push(job)
release(is_restarting=False)

Calls the ‘crunch’ method to generate new jobs objects and submits them to the ‘QUEUE’.

restart_subjobs(jobs)

Subclass should override this if it supports subjob restarting.

stage_cls = {'generic': <class 'schrodinger.application.desmond.stage.simulate.VrunBase'>, 'pl_analysis': <class 'schrodinger.application.desmond.stage.analysis.PLAnalysis'>, 'analysis': <class 'schrodinger.application.desmond.stage.analysis.Analysis'>, 'fep_analysis': <class 'schrodinger.application.desmond.stage.analysis.FepAnalysis'>, 'multisim': <class 'schrodinger.application.desmond.stage.launcher.Multisim'>, 'fep_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepLauncher'>, 'fep_membrane_launcher': <class 'schrodinger.application.desmond.stage.launcher.FepMembraneLauncher'>, 'system_builder': <class 'schrodinger.application.desmond.stage.utils.SystemBuilder'>, 'simulate': <class 'schrodinger.application.desmond.stage.simulate.Simulate'>, 'replica_exchange': <class 'schrodinger.application.desmond.stage.simulate.ReplicaExchange'>, 'lambda_hopping': <class 'schrodinger.application.desmond.stage.simulate.LambdaHopping'>, 'desmond_extend': <class 'schrodinger.application.desmond.stage.simulate.DesmondExtend'>, 'vrun': <class 'schrodinger.application.desmond.stage.simulate.Vrun'>, 'fep_vrun': <class 'schrodinger.application.desmond.stage.simulate.FepVrun'>, 'concatenate': <class 'schrodinger.application.desmond.stage.simulate.Concatenate'>, 'reinit': <class 'schrodinger.application.desmond.stage.simulate.ReInit'>, 'primer': <class 'schrodinger.application.desmond.stage.workflow.Primer'>, 'concluder': <class 'schrodinger.application.desmond.stage.workflow.Concluder'>, 'task': <class 'schrodinger.application.desmond.stage.workflow.Task'>, 'extern': <class 'schrodinger.application.desmond.stage.workflow.Extern'>, 'trim': <class 'schrodinger.application.desmond.stage.workflow.Trim'>, 'stop': <class 'schrodinger.application.desmond.stage.workflow.Stop'>, 'assign_custom_charge': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignCustomCharge'>, 'assign_forcefield': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignForcefield'>, 'assign_lambda_schedule': <class 'schrodinger.application.desmond.stage.prepare.forcefield.AssignLambdaSchedule'>, 'load_restraints_from_structure': <class 'schrodinger.application.desmond.stage.prepare.forcefield.LoadRestraintsFromStructure'>, 'forcefield_builder_launcher': <class 'schrodinger.application.desmond.stage.prepare.forcefield.ForcefieldBuilderLauncher'>, 'build_geometry': <class 'schrodinger.application.desmond.stage.prepare.structure.BuildGeometry'>, 'extract_structures': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractStructures'>, 'extract_solute_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ExtractSoluteStructure'>, 'hash_structure_title': <class 'schrodinger.application.desmond.stage.prepare.structure.HashStructureTitle'>, 'disordered_system_builder': <class 'schrodinger.application.desmond.stage.prepare.structure.DisorderedSystemBuilder'>, 'protein_mutation_generator': <class 'schrodinger.application.desmond.stage.prepare.structure.ProteinMutationGenerator'>, 'replicate_structure': <class 'schrodinger.application.desmond.stage.prepare.structure.ReplicateStructure'>, 'group_waters': <class 'schrodinger.application.desmond.stage.prepare.structure.GroupWaters'>, 'fep_absolute_binding_structure_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingStructurePrimer'>, 'fep_absolute_binding_fep_primer': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepPrimer'>, 'fep_absolute_binding_launcher_base': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingLauncherBase'>, 'fep_absolute_binding_md_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingMdLauncher'>, 'fep_absolute_binding_fep_launcher': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingFepLauncher'>, 'fep_absolute_binding_analysis': <class 'schrodinger.application.desmond.stage.app.absolute_binding.stage.FepAbsoluteBindingAnalysis'>, 'fragment_linking_primer': <class 'schrodinger.application.desmond.stage.app.fragment_linking.stage.FragmentLinkingPrimer'>, 'ramd': <class 'schrodinger.application.desmond.stage.app.kinetics.RandomAcceleratedMD'>, 'ramd_reactive_path': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdGenerateUnbindingPath'>, 'ramd_setup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdSetup'>, 'ramd_cleanup': <class 'schrodinger.application.desmond.stage.app.kinetics.RamdCleanup'>, 'aacg_sitemap': <class 'schrodinger.application.desmond.stage.app.matsci.Aacg_SiteMap_Multijob'>, 'average_cell': <class 'schrodinger.application.desmond.stage.app.matsci.AverageCell'>, 'deform_cell': <class 'schrodinger.application.desmond.stage.app.matsci.DeformCell'>, 'solvate_slab_builder': <class 'schrodinger.application.desmond.stage.app.matsci.SolvateSlabBuilder'>, 'matsci_analysis': <class 'schrodinger.application.desmond.stage.app.matsci.MatSciAnalysis'>, 'ses_stage': <class 'schrodinger.application.desmond.stage.app.matsci.ScaleEffectiveSolvent'>, 'extract_subsystem': <class 'schrodinger.application.desmond.stage.app.matsci.ExtractSubSystem'>, 'mixed_solvent_setup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventSetup'>, 'mixed_solvent_analysis': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventAnalysis'>, 'mixed_solvent_cleanup': <class 'schrodinger.application.desmond.stage.app.mxmd.MixedSolventCleanup'>, 'generate_mxmd_box': <class 'schrodinger.application.desmond.stage.app.mxmd.GenerateMxmdBox'>, 'analyze_mxmd_probe_mixture': <class 'schrodinger.application.desmond.stage.app.mxmd.AnalyzeMxmdProbeMixture'>, 'generate_solubility_fep_structures': <class 'schrodinger.application.desmond.stage.app.solubility.GenerateSolubilityFepStructures'>, 'solubility_md_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityMdLauncher'>, 'solubility_fep_launcher': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepLauncher'>, 'solubility_fep_analysis': <class 'schrodinger.application.desmond.stage.app.solubility.SolubilityFepAnalysis'>, 'watermap_cluster': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapCluster'>, 'watermap_post_analysis': <class 'schrodinger.application.desmond.stage.app.watermap.WaterMapPostAnalysis'>, 'constant_ph_analysis': <class 'schrodinger.application.desmond.stage.app.constant_ph.ConstantpHAnalysis'>, 'covalent_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.CovalentFepMapper'>, 'protein_fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.ProteinFepMapper'>, 'fep_mapper': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapper'>, 'fep_mapper_cleanup': <class 'schrodinger.application.desmond.stage.fep_mapper.FepMapperCleanup'>, 'calc_ddg': <class 'schrodinger.application.desmond.stage.fep_mapper.CalcDdg'>, None: <class 'schrodinger.application.desmond.stage.deprecate.MustSkip'>, 'ffbuilder': <class 'schrodinger.application.desmond.stage.deprecate.ForcefieldBuilder'>, 'align_core': <class 'schrodinger.application.desmond.stage.deprecate.AlignCore'>, 'solvate_pocket': <class 'schrodinger.application.desmond.stage.deprecate.SolvatePocket'>, 'vacuum_report': <class 'schrodinger.application.desmond.stage.deprecate.VacuumReport'>, 'fep_mapper_report': <class 'schrodinger.application.desmond.stage.deprecate.FepMapperReport'>}
stage_obj = {}
time_stage()