import re
from .._utils.abstract_functions import standardize_aa_template
from warnings import warn
[docs]def standardize(
seq: str,
strict: bool = False,
on_fail: str = "reject",
suppress_warnings: bool = False,
):
"""
Ensures that a string value looks like a valid junction (CDR3) amino acid sequence.
This function is a special variant of :py:func:`tidytcells.aa.standardize`.
A valid junction sequence must:
1. Be a valid amino acid sequence
2. Begin with a cysteine (C)
3. End with a phenylalanine (F) or a tryptophan (W)
:param seq:
String value representing a junction sequence.
:type seq:
str
:param strict:
If ``True``, any string that does not look like a junction sequence is rejected.
If ``False``, any inputs that are valid amino acid sequences but do not start with C and end with F/W are not rejected and instead are corrected by having a C appended to the beginning and an F appended at the end.
Defaults to ``False``.
:type strict:
bool
:param on_fail:
Behaviour when standardization fails.
If set to ``"reject"``, returns ``None`` on failure.
If set to ``"keep"``, returns the original input.
Defaults to ``"reject"``.
:type on_fail:
str
:param suppress_warnings:
Disable warnings that are usually emitted when standardisation fails.
Defaults to ``False``.
:type suppress_warnings:
bool
:return:
If possible, a standardized version of the input string is returned.
If the input string cannot be standardized, it is rejected and ``None`` is returned.
:rtype:
Union[str, None]
.. topic:: Example usage
Strings that look like junction sequences will be accepted, and returned in capitalised form.
>>> tt.junction.standardize("csadaff")
'CSADAFF'
Strings that are valid amino acid sequences but do not stard and end with the appropriate residues will have a C and an F appended to its beginning and end respectively.
>>> tt.junction.standardize("sadaf")
'CSADAFF'
However, setting ``strict`` to ``True`` will cause these cases to be rejected.
>>> result = tt.junction.standardize("sadaf", strict=True)
UserWarning: Input sadaf was rejected as it is not a valid junction sequence.
>>> print(result)
None
"""
# take note of original input
original_input = seq
seq = standardize_aa_template(
seq=seq, on_fail="reject", suppress_warnings=suppress_warnings
)
if seq is None: # not a valid amino acid sequence
if on_fail == "reject":
return None
return original_input
if not re.match(f"^C[A-Z]*[FW]$", seq):
if strict:
if not suppress_warnings:
warn(
f"Failed to standardize {original_input}: not a valid junction sequence."
)
if on_fail == "reject":
return None
return original_input
seq = "C" + seq + "F"
return seq