TorsionDriveResultCollection

pydantic model openff.qcsubmit.results.TorsionDriveResultCollection[source]

A class which stores a reference to, and allows the retrieval of, data from a single torsion drive result record stored in a QCFractal instance.

Show JSON schema
{
   "title": "TorsionDriveResultCollection",
   "description": "A class which stores a reference to, and allows the retrieval of, data from\na single torsion drive result record stored in a QCFractal instance.",
   "type": "object",
   "properties": {
      "entries": {
         "title": "Entries",
         "description": "The entries stored in this collection in a dictionary of the form ``collection.entries['qcfractal_address'] = [record_1, ..., record_N]``.",
         "type": "object",
         "additionalProperties": {
            "type": "array",
            "items": {
               "$ref": "#/definitions/TorsionDriveResult"
            }
         }
      },
      "provenance": {
         "title": "Provenance",
         "description": "A dictionary which can contain provenance information about how and why this collection was curated.",
         "default": {},
         "type": "object"
      }
   },
   "required": [
      "entries"
   ],
   "definitions": {
      "TorsionDriveResult": {
         "title": "TorsionDriveResult",
         "description": "A class which stores a reference to, and allows the retrieval of, data from\na single torsion drive result record stored in a QCFractal instance.",
         "type": "object",
         "properties": {
            "type": {
               "title": "Type",
               "default": "torsion",
               "enum": [
                  "torsion"
               ],
               "type": "string"
            },
            "record_id": {
               "title": "Record Id",
               "description": "The unique id assigned to the record referenced by this result.",
               "type": "string"
            },
            "cmiles": {
               "title": "Cmiles",
               "description": "The canonical, isomeric, explicit hydrogen, mapped SMILES representation of the molecule that this record was created for.",
               "type": "string"
            },
            "inchi_key": {
               "title": "Inchi Key",
               "description": "The fixed hydrogen layer InChI key generated from the ``cmiles`` representation. This may be used as a hash for the molecule referenced by this record.",
               "type": "string"
            }
         },
         "required": [
            "record_id",
            "cmiles",
            "inchi_key"
         ]
      }
   }
}

Fields
  • entries (Dict[str, List[openff.qcsubmit.results.results.TorsionDriveResult]])

Validators

field entries: Dict[str, List[openff.qcsubmit.results.results.TorsionDriveResult]] [Required]

The entries stored in this collection in a dictionary of the form collection.entries['qcfractal_address'] = [record_1, ..., record_N].

Validated by
  • _validate_entries

classmethod from_datasets(datasets, spec_name='default')[source]

Retrieve the COMPLETE record ids referenced by the specified datasets.

Parameters
  • datasets (Union[qcportal.collections.torsiondrive_dataset.TorsionDriveDataset, Iterable[qcportal.collections.torsiondrive_dataset.TorsionDriveDataset]]) – The datasets to retrieve the records from.

  • spec_name (str) – The name of the QC specification that the records to retrieve should have been computed using.

Returns

A results collection object containing the record ids and a minimal amount of associated metadata such as the CMILES of the associated molecule.

Return type

openff.qcsubmit.results.results.TorsionDriveResultCollection

classmethod from_server(client, datasets, spec_name='default')[source]

Retrieve (and deduplicate) the COMPLETE record ids referenced by the specified datasets.

Parameters
  • client (qcportal.client.FractalClient) – The fractal client that should be used to interface with the running QCFractal instance which stores the datasets and their associated results records.

  • datasets (Union[str, Iterable[str]]) – The names of the datasets

  • spec_name (str) – The name of the QC specification that the records to retrieve should have been computed using.

Returns

A results collection object containing the record ids and a minimal amount of associated metadata such as the CMILES of the associated molecule.

Return type

openff.qcsubmit.results.results.TorsionDriveResultCollection

to_records()[source]

Returns the native QCPortal record objects for each of the records referenced in this collection along with a corresponding OpenFF molecule object.

Each molecule will contain the minimum energy conformer referenced by the record.

Return type

List[Tuple[qcportal.models.torsiondrive.TorsionDriveRecord, openff.toolkit.topology.molecule.Molecule]]

create_optimization_dataset(dataset_name, description, tagline, metadata=None)[source]

Create an optimization dataset from the results of the current torsion drive dataset. This will result in many constrained optimizations for each molecule.

Note

The final geometry of each torsiondrive constrained optimization is supplied as a starting geometry.

Parameters
  • dataset_name (str) – The name that will be given to the new dataset.

  • tagline (str) – The tagline that should be given to the new dataset.

  • description (str) – The description that should be given to the new dataset.

  • metadata (Optional[openff.qcsubmit.common_structures.Metadata]) – The metadata for the new dataset.

Returns

The created optimization dataset.

Return type

qcportal.collections.optimization_dataset.OptimizationDataset

smirnoff_coverage(force_field, verbose=False, driven_only=False)[source]

Returns a summary of how many unique molecules within this collection would be assigned each of the parameters in a force field.

Notes

  • Parameters which would not be assigned to any molecules in the collection will not be included in the returned summary.

Parameters
  • force_field (openff.toolkit.typing.engines.smirnoff.forcefield.ForceField) – The force field containing the parameters to summarize.

  • verbose (bool) – If true a progress bar will be shown on screen.

  • driven_only (bool) –

    Whether to only include parameters that are applied (at least partially) across a central torsion bond that was driven.

    This option is still experimental and may in cases not count parameters that are actually applied or double count certain applied parameters.

Returns

A dictionary of the form coverage[handler_name][parameter_smirks] = count which stores the number of unique molecules within this collection that would be assigned to each parameter.

If driven_only is true, then count will be the number of unique driven torsions, rather than unique molecules.