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pileup_reader.py
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#!/usr/bin/env python3
import regex as re
import math
import sys, os, gzip
import genomic_file_handlers as genome
nan = float('nan')
inf = float('inf')
def seq(reads):
'''A function to convert a string into a character generator.'''
for read_i in reads:
yield read_i
class Pileup_line:
def __init__(self, pileup_line):
'''Argument is a line in pileup file.'''
self.pileup_line = pileup_line.rstrip('\n')
try:
self.chromosome, self.position, self.refbase, self.dp, self.reads, self.qualities = pileup_line.rstrip('\n').split('\t')
self.position = int(self.position)
self.dp = int(self.dp)
except ValueError:
try:
self.chromosome, self.position, self.refbase, self.dp = pileup_line.rstrip('\n').split('\t')
self.position = int(self.position)
self.dp = int(self.dp)
self.reads = self.qualities = ''
except ValueError:
self.chromosome = self.refbase = self.reads = self.qualities = ''
self.position = None
self.dp = 0
def alt_read_count(self, pattern):
alt_reads = re.findall(pattern, self.reads, re.I)
total_count = len(alt_reads)
return total_count
def base_reads(self):
# Make the base_calls into a generator:
base_calls = seq(self.reads)
ref_forward_count = ref_reverse_count = 0
alt_forward = []
alt_reverse = []
del_forward = []
del_reverse = []
ins_forward = []
ins_reverse = []
n_count = N_count = 0
for base_i in base_calls:
# Indicate beginning of a read:
if base_i == '^':
# Skip the MQ ascii:
next(base_calls)
# Reference forward reads
elif base_i == '.':
ref_forward_count = ref_forward_count + 1
# Reference reverse reads
elif base_i == ',':
ref_reverse_count = ref_reverse_count + 1
# Random alt base
elif base_i == 'n':
n_count = n_count + 1
elif base_i == 'N':
N_count = N_count + 1
# SNP
elif re.match(r'[GCTAU]', base_i):
alt_forward.append(base_i)
elif re.match(r'[gctau]', base_i):
alt_reverse.append(base_i)
# Deletion
elif base_i == '-':
num = ''
base_i = next(base_calls)
while base_i.isnumeric():
num = num + base_i
base_i = next(base_calls)
num = int(num)
deleted_seq = base_i
for i in range(num-1):
deleted_seq = deleted_seq + next(base_calls)
if deleted_seq.isupper():
del_forward.append(deleted_seq)
elif deleted_seq.islower():
del_reverse.append(deleted_seq)
# Insertion
elif base_i == '+':
num = ''
base_i = next(base_calls)
while base_i.isnumeric():
num = num + base_i
base_i = next(base_calls)
num = int(num)
inserted_seq = base_i
for i in range(num-1):
inserted_seq = inserted_seq + next(base_calls)
if inserted_seq.isupper():
ins_forward.append(inserted_seq)
elif inserted_seq.islower():
ins_reverse.append(inserted_seq)
return ref_forward_count, ref_reverse_count, alt_forward, alt_reverse, del_forward, del_reverse, ins_forward, ins_reverse, n_count, N_count
def total_insertion_calls(self):
ins = re.findall(r'\+[0-9]+[ACGTNacgtn]+', self.reads)
total_count = len(ins)
return total_count
def total_deletion_calls(self):
dels = re.findall(r'-[0-9]+[ACGTNacgtn]+', self.reads)
total_count = len(dels)
return total_count
def indel_fraction(self):
ins = self.total_insertion_calls()
dels = self.total_deletion_calls()
try:
fraction = (ins + dels ) / self.dp
except ZeroDivisionError:
fraction = 0
return fraction
class Base_calls(Pileup_line):
def __init__(self, pileup_line):
Pileup_line.__init__(self, pileup_line)
# Make the base_calls into a generator:
base_calls = seq(self.reads)
ref_forward_count = ref_reverse_count = 0
n_count = a_count = c_count = g_count = t_count = N_count = A_count = C_count = G_count = T_count = 0
del_forward = []
del_reverse = []
ins_forward = []
ins_reverse = []
for base_i in base_calls:
# Indicate beginning of a read:
if base_i == '^':
# Skip the MQ ascii:
next(base_calls)
# Reference forward reads
elif base_i == '.':
ref_forward_count = ref_forward_count + 1
# Reference reverse reads
elif base_i == ',':
ref_reverse_count = ref_reverse_count + 1
# Random alt base
elif base_i == 'n':
n_count = n_count + 1
elif base_i == 'N':
N_count = N_count + 1
# SNP
elif re.match(r'a', base_i):
a_count += 1
elif re.match(r'c', base_i):
c_count += 1
elif re.match(r'g', base_i):
g_count += 1
elif re.match(r't', base_i):
t_count += 1
elif re.match(r'A', base_i):
A_count += 1
elif re.match(r'C', base_i):
C_count += 1
elif re.match(r'G', base_i):
G_count += 1
elif re.match(r'T', base_i):
T_count += 1
# Deletion
elif base_i == '-':
num = ''
base_i = next(base_calls)
while base_i.isnumeric():
num = num + base_i
base_i = next(base_calls)
num = int(num)
deleted_seq = base_i
for i in range(num-1):
deleted_seq = deleted_seq + next(base_calls)
if deleted_seq.isupper():
del_forward.append(deleted_seq)
elif deleted_seq.islower():
del_reverse.append(deleted_seq)
# Insertion
elif base_i == '+':
num = ''
base_i = next(base_calls)
while base_i.isnumeric():
num = num + base_i
base_i = next(base_calls)
num = int(num)
inserted_seq = base_i
for i in range(num-1):
inserted_seq = inserted_seq + next(base_calls)
if inserted_seq.isupper():
ins_forward.append(inserted_seq)
elif inserted_seq.islower():
ins_reverse.append(inserted_seq)
# Before going there, find out what is the ref base and re-assign accordingly:
if self.refbase.upper() == 'A':
a_count = ref_reverse_count
A_count = ref_forward_count
elif self.refbase.upper() == 'C':
c_count = ref_reverse_count
C_count = ref_forward_count
elif self.refbase.upper() == 'G':
g_count = ref_reverse_count
G_count = ref_forward_count
elif self.refbase.upper() == 'T':
t_count = ref_reverse_count
T_count = ref_forward_count
elif self.refbase.upper() == 'N':
n_count = ref_reverse_count
N_count = ref_forward_count
deletion_calls = {}
for call_i in del_forward:
try:
deletion_calls[call_i] += 1
except KeyError:
deletion_calls[call_i] = 1
for call_i in del_reverse:
try:
deletion_calls[call_i.upper()] += 1
except KeyError:
deletion_calls[call_i.upper()] = 1
insertion_calls = {}
for call_i in ins_forward:
try:
insertion_calls[call_i] += 1
except KeyError:
insertion_calls[call_i] = 1
for call_i in ins_reverse:
try:
insertion_calls[call_i.upper()] += 1
except KeyError:
insertion_calls[call_i.upper()] = 1
# Returns these:
self.A = A_count, a_count
self.C = C_count, c_count
self.G = G_count, g_count
self.T = T_count, t_count
self.DEL = len(del_forward), len(del_reverse)
self.INS = len(ins_forward), len(ins_reverse)
self.N = N_count, n_count
self.ref = ref_forward_count, ref_reverse_count
self.deletions = del_forward, del_reverse # list of deletions
self.insertions = ins_forward, ins_reverse # list of insertions
self.deletion_calls = deletion_calls # dictionary of deletion calls (strand agnostic) and their occurrence
self.insertion_calls = insertion_calls # dictionary of insertion calls (strand agnostic) and their occurrence