def make_ad_dict(fn):
fi = '/work/biophysics/mtang/SNP_calling/scripts/data/adaptor/index_and_adaptor'
#the index by the number
adict = {}
#the index by the barcode
bdict = {}
for line in cmn.file2lines(fi):
index, barcode, seq = line.strip().split()
adict[index] = seq
bdict[barcode] = seq
taken = set([])
rdict = {}
for line in cmn.file2lines(fn):
try:
sp, index = line.strip().split()
except:
continue
if index.isdigit():
ad1 = adict[index]
else:
try:
ad1 = bdict[index]
except KeyError:
print('Error! can not find index info for %s' % line)
sys.exit()
rdict[sp] = ad1
return rdict
def parse_popDef(fpopdef):
adict = {}
for fn in cmn.file2lines(fpopdef):
print(fn)
popname = cmn.lastName(fn).replace('IDs', '')
IDs = cmn.file2lines(fn)
adict[popname] = IDs
return adict
def parse_popDef(fpopdef, freceipt, inclusion):
adict = {}
receipt = cmn.lastName(freceipt)
for fn in cmn.file2lines(fpopdef):
print(fn)
if cmn.lastName(fn) == receipt:
continue
popname = cmn.lastName(fn).replace('IDs','').rstrip('_')
IDs = [line.split()[0] for line in cmn.file2lines(fn)]
IDs = set(IDs) & inclusion
adict[popname] = IDs
return adict
def read_indel_info(fn):
adict = {}
for line in cmn.file2lines(fn):
key, a, b, char = line.strip().split('\t')
i, j = list(map(int, key[1:-1].split(', ')))
adict[(i,j)] = char
return adict
def read_baits():
fns = cmn.cmd2lines('ls baits/bait*.fa')
seqDict = {}
for fn in fns:
name, seq = cmn.file2lines(fn)
seqDict[name[1:]] = list(seq)
return seqDict
def read_baits(fn):
adict = {}
toAdd = {}
hasPrimer = True
new = []
for line in cmn.file2lines(fn):
if line.strip() == '':
continue
sp, name, seq = line.split()
print(len(seq))
if len(seq) != 698:
hasPrimer = False
if len(seq) == 658:
#fixable
seq = add_primer(seq)
else:
print('Error! didn\'t recognize the length of the bait %s %s' %
(sp, name))
sys.exit()
newline = '%s\t%s\t%s\n' % (sp, name, seq)
new.append(newline)
key = '%s_%s' % (sp, name)
adict[key] = seq
toAdd[name] = seq
if not hasPrimer:
print('revise the input baits to add primer...')
cmn.write_file(''.join(new), fn)
return adict, toAdd
def read_baits(fn):
adict = {}
for line in cmn.file2lines(fn):
sp, name, seq = line.split()
key = '%s_%s' % (sp, name)
adict[key] = seq
return adict
def isSameGenus(fn):
lines = cmn.file2lines(fn)[1:]
genus_list = []
#There are two checks:
# 1. if the denovo barcode has a same genus with ref, take it
# 2. otherwise, check if denovo barcode has a same one as refbase
# 3. if both not satisfied, then unknown
for line in lines:
items = line.strip().split()
found_genus = guessGenus(items[3])
ref_genus = guessGenus(items[4])
N = int(items[2])
if '_denovo' in items[0]:
if found_genus == ref_genus:
return ',takenD'
if N <= 20:
genus_list.append(found_genus)
if len(genus_list) == len(lines):
checkSet = set(genus_list)
if len(checkSet) == 1:
return ',takenD'
elif len(checkSet) > 1:
return ',diffGenus'
return ',unknown'
def read_aln(fn):
seqs = {}
for line in cmn.file2lines(fn):
name, seq = line.strip().split()
seqs[name] = seq
return seqs
def read_baitInfo(fadd):
adict = {}
for line in cmn.file2lines(fadd):
sp, defline, seq = line.split()
defline = parse_name(defline)
adict[defline] = seq
return adict
def parse_blast_output(fn, rset):
adict = {}
for line in cmn.file2lines(fn):
#qseqid sseqid pident evalue qlen qstart qend slen sstart send
items = line.strip().split()
if len(items) == 0:
continue
qseqid, sseqid = items[:2]
if qseqid in adict:
continue
evalue = float(items[3])
if evalue > 0.001:
continue
ident = float(items[2])
if ident < 50:
continue
isForward = True
sstart, send = list(map(int, items[8:10]))
if sstart > send:
isForward = False
if qseqid in rset:
isForward = (not isForward)
adict[qseqid] = (sseqid, isForward)
return adict
def nonGap_char(fn):
seq = ''.join([
line.strip() for line in cmn.file2lines(fn)
if line.strip() != '' and (not line[0] == '>')
])
seq = seq.replace('N', '-')
N = len(seq) - seq.count('-')
return N
def read_genus_info(fn):
adict = {}
for line in cmn.file2lines(fn):
sp, defline = line.split()
genus = defline.split('_')[1]
adict[sp] = genus
return adict
def parse_receiptInfo(fn, alist):
adict = {}
for line in cmn.file2lines(fn):
sample = line.strip().split()[0]
adict[sample] = line
blist = [adict[sample] for sample in alist]
return blist
def parse_fastqlist(fn):
adict = {}
for line in cmn.file2lines(fn):
sample = cmn.lastName(line).split('_')[0]
try:
adict[sample].append(line)
except KeyError:
adict[sample] = [line]
return adict
def read_correct_info(fn):
#3614_mito 5 C
rdict = {}
for line in cmn.file2lines(fn):
items = line.strip().split('\t')
#TODO: asuming only working on one scaffold (mito)
index, char, info = items[-3:]
rdict[int(index) - 1] = char
return rdict
def check_NA(label):
fn = label + '_stat.report'
line = cmn.file2lines(fn)[-1]
items = line.strip().split()
#return isWarnning
if len(items) != 10 or 'NA' in items:
return True
else:
return False
def read_aln(fn):
seqs = {}
seq = ''
for line in cmn.file2lines(fn):
if line.strip() == '':
continue
name, seq = line.strip().split()
seqs[name] = seq
return seqs, len(seq)
def read_length_info(fn):
adict = {}
for line in cmn.file2lines(fn):
scaf, length = line.strip().split()
adict[scaf] = int(length)
#assume the last scaffold is mito
if 'mito' not in scaf:
scaf = ''
return adict, scaf
def old_get_goodIDs():
fn1 = 'compare.check'
#fn2 = 'checkSummary.report'
goodIDs = set([])
for line in cmn.file2lines(fn1):
items = line.strip().split()
if 'takenD' in line:
goodIDs.add(items[0])
return goodIDs
def get_names():
adict = {}
fns = cmn.cmd2lines('ls -tr /project/biophysics/Nick_lab/wli/sequencing/scripts/data/*.sampleData')
for fn in fns:
for line in cmn.file2lines(fn):
line = line.strip()
items = line.split()
sp = items[0].split('-')[-1]
line = line.replace(items[0], sp).replace('-', '_').replace('(','').replace(')', '')
adict[sp] = '_'.join(line.split())
return adict
def parse_protein_query(fn):
alist = []
for line in cmn.file2lines(fn):
if line.strip() == '':
continue
if line[0] == '>':
Id = line[1:].split()[0]
alist.append(Id)
return alist
def parse_blastDict(fn):
adict = {}
for line in cmn.file2lines(fn):
#qseqid sseqid evalue pident qlen qstart qend slen sstart send
items = line.strip().split()
gene = items[0]
qlen, qstart, qend, slen, sstart, send = list(map(int, items[4:10]))
i, j, isReverse = find_start_and_end(qlen, qstart, qend, slen, sstart,
send)
adict[gene] = (i, j, isReverse)
return adict
def parse_bait_file(fbait):
new = {}
target = {}
for line in cmn.file2lines(fbait):
ID, sp, seq = line.strip().split()
#name = '%s_%s' % (ID, sp)
name = sp
if len(target) == 0:
new[name] = seq
target[name] = seq
return new, target
def parse_indel_file(fn):
#adict = {}
total = 0
for line in cmn.file2lines(fn):
N = len(line.strip().split()[-1])
total += N
#try:
# adict[N] += 1
#except KeyError:
# adict[N] = 1
#return adict
return total
def read_letter_info(fn):
#3614_mito 107 T C 63 3614_mito_1
rdict = {}
for line in cmn.file2lines(fn):
if line.strip() == '':
continue
items = line.strip().split()
scaf, index, char1, char2 = items[:4]
phase = items[-1]
#TODO:currently, assume only mito is present
rdict[int(index) - 1] = (char1, char2, phase)
return rdict
def parse_refTable(fn):
adict = {}
for line in cmn.file2lines(fn):
items = line.strip().split()
sample = items[0]
refs = items[1:]
maxSize = 0
for fref in refs:
size = compute_fileSize([fref])
maxSize = max(size, maxSize)
adict[sample] = maxSize
return adict
def backup_vcf_coverage(wdir):
ddir = '/project/biophysics/Nick_lab/mtang/archive/step4_postprocessing/check_vcf_coverage'
fns = cmn.cmd2lines('ls %s/*_vcf.cov' % wdir)
#1. only back up the new version of cov file
for fn in fns:
print('processing %s...' % fn)
lines = cmn.file2lines(fn)
items = lines[-1].strip().split()
if len(items) != 6:
print('skip old format file %s' % fn)
continue
fnlabel = cmn.lastName(fn)
dn = '%s/%s' % (ddir, fnlabel)
if os.path.exists(dn):
print('merging new and old data for %s' % fnlabel)
covOld = float(cmn.file2lines(dn)[-1].split()[-2])
cov = float(lines[-1].split()[-2])
if cov > covOld:
cmn.run('cp %s %s' % (fn, dn))
else:
cmn.run('cp %s %s' % (fn, dn))
def read_nickMade_barcodes(fn):
adict = {}
for line in cmn.file2lines(fn):
if line.strip() == '':
continue
if line[0] == '#':
continue
if line[0] == '>':
name = line[1:].strip().split('_')[0]
seq = line.strip()
adict[name] = seq
return adict
def parse_inserted_gap(ID, seq, label):
fn = 'sampleRun_%s/bait_insertion' % ID
#if cmn.filexist(fn) or ('N' in seq.replace('-', 'N').strip('N')):
if cmn.filexist(fn):
#lines = cmn.file2lines(fn)
#lines = sorted(lines, key=lambda x: int(x.split(',')[0][1:]))
#Ngap = 0
#for line in lines:
# items = line.strip().split()
# Ngap += len(items[-1])
#check what is the right range of sequence
print('runing blast to fix %s' % ID)
checkSeq = seq.replace('-', 'N').strip('N')
fquery = 'tmpInput.fa'
fasta = '>input\n%s\n' % checkSeq
cmn.write_file(fasta, fquery)
dn = 'tmpBr_%s.txt' % label
cmd = 'blastn -query %s -db /project/biophysics/Nick_lab/wli/sequencing/scripts/data/barcodes/all_barcodes_4verify.fa ' % fquery
cmd += '-task blastn-short -dust no -outfmt \'6 qseqid sseqid qstart qend sstart send evalue pident qseq sseq\' -out %s' % dn
cmn.run(cmd)
isFixed = False
for line in cmn.file2lines(dn):
items = line.strip().split()
#print items
qstart, qend, sstart, send = list(map(int, items[2:6]))
if sstart == 1 and send == 658 and qstart == 21:
qseq, sseq = items[-2:]
new = [
char1 for char1, char2 in zip(qseq, sseq) if char2 != '-'
]
if len(new) == 658:
seq = seq[:qstart - 1] + ''.join(new) + seq[qend:]
print('solution found for %s' % ID)
isFixed = True
break
if sstart == 2 and send == 655 and qstart == 22:
qseq, sseq = items[-2:]
new = [
char1 for char1, char2 in zip(qseq, sseq) if char2 != '-'
]
if len(new) == 654:
seq = seq[:qstart - 1] + ''.join(new) + seq[qend:]
print('solution found for %s' % ID)
isFixed = True
break
if not isFixed:
cmn.append_file('%s\t%s\n' % (ID, label), 'cannot_fixed_indel.txt')
return seq
