test_SeqIO_FastaIO.py

# Copyright 2009-2013 by Peter Cock.  All rights reserved.
# Parts copyright 1999 by Jeffrey Chang.  All rights reserved.
# This code is part of the Biopython distribution and governed by its
# license.  Please see the LICENSE file that should have been included
# as part of this package.

from __future__ import print_function

import unittest
from Bio._py3k import StringIO

from Bio import SeqIO
from Bio.SeqIO.FastaIO import FastaIterator
from Bio.Alphabet import generic_nucleotide, generic_dna


def title_to_ids(title):
    """Function to convert a title into the id, name, and description.

    This is just a quick-n-dirty implementation, and is definetely not meant
    to handle every FASTA title line case.
    """
    # first split the id information from the description
    # the first item is the id info block, the rest is the description
    all_info = title.split(" ")
    id_info = all_info[0]
    rest = all_info[1:]
    descr = " ".join(rest)

    # now extract the ids from the id block
    # gi|5690369|gb|AF158246.1|AF158246
    id_info_items = id_info.split("|")
    if len(id_info_items) >= 4:
        assert id_info_items[2] in ["gb", "emb", "dbj", "pdb"], title
        id = id_info_items[3]  # the id with version info
        name = id_info_items[4]  # the id without version info
    else:
        # Fallback:
        id = id_info_items[0]
        name = id_info_items[0]

    return id, name, descr


def read_single_with_titles(filename, alphabet):
    global title_to_ids
    with open(filename) as handle:
        iterator = FastaIterator(handle, alphabet, title_to_ids)
        record = next(iterator)
        try:
            second = next(iterator)
        except StopIteration:
            second = None
    assert record is not None and second is None
    return record


def read_title_and_seq(filename):
    """Crude parser that gets the first record from a FASTA file."""
    with open(filename) as handle:
        title = handle.readline().rstrip()
        assert title.startswith(">")
        seq = ""
        for line in handle:
            if line.startswith(">"):
                break
            seq += line.strip()
    return title[1:], seq


class Wrapping(unittest.TestCase):
    """Tests for two-line-per-record FASTA variant."""

    def test_fails(self):
        self.assertRaises(ValueError, SeqIO.read, "Fasta/aster.pro", "fasta-2line")

    def test_passes(self):
        expected = SeqIO.read("Fasta/aster.pro", "fasta")

        record = SeqIO.read("Fasta/aster_no_wrap.pro", "fasta")
        self.assertEqual(expected.id, record.id)
        self.assertEqual(expected.name, record.name)
        self.assertEqual(expected.description, record.description)
        self.assertEqual(expected.seq, record.seq)

        record = SeqIO.read("Fasta/aster_no_wrap.pro", "fasta-2line")
        self.assertEqual(expected.id, record.id)
        self.assertEqual(expected.name, record.name)
        self.assertEqual(expected.description, record.description)
        self.assertEqual(expected.seq, record.seq)


class TitleFunctions(unittest.TestCase):
    """Cunning unit test where methods are added at run time."""

    def simple_check(self, filename, alphabet):
        """Basic test for parsing single record FASTA files."""
        title, seq = read_title_and_seq(filename)  # crude parser
        # First check using Bio.SeqIO.FastaIO directly with title function,
        record = read_single_with_titles(filename, alphabet)
        idn, name, descr = title_to_ids(title)
        self.assertEqual(record.id, idn)
        self.assertEqual(record.name, name)
        self.assertEqual(record.description, descr)
        self.assertEqual(str(record.seq), seq)
        self.assertEqual(record.seq.alphabet, alphabet)
        # Now check using Bio.SeqIO (default settings)
        record = SeqIO.read(filename, "fasta", alphabet)
        self.assertEqual(record.id, title.split()[0])
        self.assertEqual(record.name, title.split()[0])
        self.assertEqual(record.description, title)
        self.assertEqual(str(record.seq), seq)
        self.assertEqual(record.seq.alphabet, alphabet)
        # Uncomment this for testing the methods are calling the right files:
        # print("{%s done}" % filename)

    def multi_check(self, filename, alphabet):
        """Basic test for parsing multi-record FASTA files."""
        with open(filename) as handle:
            re_titled = list(FastaIterator(handle, alphabet, title_to_ids))
        default = list(SeqIO.parse(filename, "fasta", alphabet))
        self.assertEqual(len(re_titled), len(default))
        for old, new in zip(default, re_titled):
            idn, name, descr = title_to_ids(old.description)
            self.assertEqual(new.id, idn)
            self.assertEqual(new.name, name)
            self.assertEqual(new.description, descr)
            self.assertEqual(str(new.seq), str(old.seq))
            self.assertEqual(new.seq.alphabet, old.seq.alphabet)
        # Uncomment this for testing the methods are calling the right files:
        # print("{%s done}" % filename)

    def test_no_name(self):
        """Test FASTA record with no identifier."""
        handle = StringIO(">\nACGT")
        record = SeqIO.read(handle, "fasta")
        handle.close()
        self.assertEqual(str(record.seq), "ACGT")
        self.assertEqual("", record.id)
        self.assertEqual("", record.name)
        self.assertEqual("", record.description)


single_nucleic_files = ['Fasta/lupine.nu', 'Fasta/elderberry.nu',
                        'Fasta/phlox.nu', 'Fasta/centaurea.nu',
                        'Fasta/wisteria.nu', 'Fasta/sweetpea.nu',
                        'Fasta/lavender.nu', 'Fasta/f001']

multi_dna_files = ['Quality/example.fasta']

single_amino_files = ['Fasta/aster.pro', 'Fasta/rosemary.pro',
                      'Fasta/rose.pro', 'Fasta/loveliesbleeding.pro']

multi_amino_files = ['Fasta/f002', 'Fasta/fa01']

for filename in single_nucleic_files:
    name = filename.split(".")[0]

    def funct(fn):
        f = lambda x: x.simple_check(fn, generic_nucleotide)
        f.__doc__ = "Checking nucleotide file %s" % fn
        return f

    setattr(TitleFunctions, "test_nuc_%s" % name, funct(filename))
    del funct

for filename in multi_dna_files:
    name = filename.split(".")[0]

    def funct(fn):
        f = lambda x: x.multi_check(fn, generic_dna)
        f.__doc__ = "Checking multi DNA file %s" % fn
        return f

    setattr(TitleFunctions, "test_mutli_dna_%s" % name, funct(filename))
    del funct

for filename in single_amino_files:
    name = filename.split(".")[0]

    def funct(fn):
        f = lambda x: x.simple_check(fn, generic_nucleotide)
        f.__doc__ = "Checking protein file %s" % fn
        return f

    setattr(TitleFunctions, "test_pro_%s" % name, funct(filename))
    del funct

for filename in multi_amino_files:
    name = filename.split(".")[0]

    def funct(fn):
        f = lambda x: x.multi_check(fn, generic_dna)
        f.__doc__ = "Checking multi protein file %s" % fn
        return f

    setattr(TitleFunctions, "test_mutli_pro_%s" % name, funct(filename))
    del funct

if __name__ == "__main__":
    runner = unittest.TextTestRunner(verbosity=2)
    unittest.main(testRunner=runner)