For different sequencing platforms different sets of attributes are used to fully describe the origin of data. For reasons of efficiency and interoperability between systems (for example, databases, long term data storage) it is sometimes desirable to use a single identifier, which is globally unique.
Historically, the first algorithm for generating this kind of unique data identifiers was implemented for the Illumina sequencing platform, see documentation. In the Sanger Institute run ID, lane number and numerical tag index are used to describe the origin of the data. The above Perl API uses these attributes of the data to produce the unique ID.
Later a need to have a similar API for other sequencing platforms arose. This package implements a Python API. The rationale for ID generation for an arbitrary sequencing platform is as follows:
- Implement a Python class that encapsulates a data model for the sequencing platform under consideration.
- This class should have a constructor, which returns an object representing an instantiation of the data model for a particular set of attributes. The nature of these attributes might differ between sequencing platform.
- This class should have an instance method that returns a unique ID.
- This class should have an instance method that returns a human-readable JSON representation of the attributes that were given to the constructor.
All ID generators should conform to a few simple rules:
- Uniqueness of the ID should be guaranteed.
- The ID should be a 64 character string containing only hexadecimal digits.
- The value of the ID should not depend on the order of attributes given to the constructor of the object that is used to generate the ID.
- If the object, which is used to generate the ID, is instantiated from a JSON string, the value of the ID should not depend on the order of keys or the amount of whitespace in the input JSON.
- The value of the ID should not depend on whether the undefined values of attributes are explicitly set.
The ID generator for the PacBio sequencing platform is implemented by the
PacBioEntity
class.
Examples of generating IDs for PacBio data from Python code:
from npg_id_generation.pac_bio import PacBioEntity
# from a JSON string via a class method
test_case = '{"run_name": "MARATHON","well_label": "D1"}'
print(PacBioEntity.parse_raw(test_case, content_type="json").hash_product_id())
# by setting object's attributes
print(PacBioEntity(run_name="MARATHON", well_label="D1").hash_product_id())
print(PacBioEntity(
run_name="MARATHON",
well_label="D1",
plate_number=2
).hash_product_id()
)
# sample-specific indentifier
print(PacBioEntity(run_name="MARATHON", well_label="D1", tags="AAGTACGT").hash_product_id()
The npg_id_generation package also contains a script, generate_pac_bio_id
,
which can be called from the command line. The script outputs the generated
ID to the STDOUT stream. Use the --help
option to find out details.
# Using the script in the Perl code:
my $id = `generate_pac_bio_id --run_name 'MARATHON' --well_label 'D1'`;
The examples below clarify the rule any ID generator shoudl conform to.
Objects o1
- o6
should generate the same ID.
o1 = PacBioEntity(run_name="r1", well_label="l1")
o2 = PacBioEntity(run_name="r1", well_label="l1", tags = None)
o3 = PacBioEntity(well_label="l1", run_name="r1", )
o4 = PacBioEntity.parse_raw('{"run_name": "r1","well_label": "l1"}', content_type="json")
o5 = PacBioEntity.parse_raw('{"well_label": "l1", "run_name": "r1"}', content_type="json")
o6 = PacBioEntity.parse_raw('{"well_label": "l1","run_name": "r1", "tags": null}', content_type="json")