I am trying to pass BioPython sequences to Ilya Stepanov's implementation of Ukkonen's suffix tree algorithm in iPython's notebook environment. I am stumbling on the argparse component.
I have never had to deal directly with argparse before. How can I use this without rewriting main()?
By the by, this writeup of Ukkonen's algorithm is fantastic.
I've had a similar problem before, but using optparse
instead of argparse
.
You don't need to change anything in the original script, just assign a new list to sys.argv
like so:
if __name__ == "__main__":
from Bio import SeqIO
path = '/path/to/sequences.txt'
sequences = [str(record.seq) for record in SeqIO.parse(path, 'fasta')]
sys.argv = ['-f'] + sequences
main()
An alternative to use argparse in Ipython notebooks is passing a string to:
args = parser.parse_args()
(line 303 from the git repo you referenced.)
Would be something like:
parser = argparse.ArgumentParser(
description='Searching longest common substring. '
'Uses Ukkonen\'s suffix tree algorithm and generalized suffix tree. '
'Written by Ilya Stepanov (c) 2013')
parser.add_argument(
'strings',
metavar='STRING',
nargs='*',
help='String for searching',
)
parser.add_argument(
'-f',
'--file',
help='Path for input file. First line should contain number of lines to search in'
)
and
args = parser.parse_args("AAA --file /path/to/sequences.txt".split())
Edit: It works
I ended up using BioPython to extract the sequences and then editing Ilya Steanov's implementation to remove the argparse methods.
import imp
seqs = []
lcsm = imp.load_source('lcsm', '/path/to/ukkonen.py')
for record in SeqIO.parse('/path/to/sequences.txt', 'fasta'):
seqs.append(record)
lcsm.main(seqs)
For the algorithm, I had main()
take one argument, his strings
variable, but this sends the algorithm a list of special BioPython Sequence objects, which the re module doesn't like. So I had to extract the sequence string
suffix_tree.append_string(s)
to
suffix_tree.append_string(str(s.seq))
which seems kind of brittle, but that's all I've got for now.
I face a similar problem in invoking argsparse, the string '-f' was causing this problem. Just removing that from sys.srgv does the trick.
import sys
if __name__ == '__main__':
if '-f' in sys.argv:
sys.argv.remove('-f')
main()
If you use iPython for testing, transforming argparse into class format can be a quick dummy solution.
class Args:
data = './data/penn'
model = 'LSTM'
emsize = 200
nhid = 200
args=Args()
Github page
repo offers transformation web service. http://35.192.144.192:8000/arg2cls.html
I hope that it would be helpful for your testing. Jan 9/19 many bugs are fixed.
Transformation script. Python3 is required.
python3 [arg2cls.py] [argparse_script.py]
then copy & paste class format to replace argparse functions.
#!/usr/bin/env python3
from collections import OrderedDict
import sys
import re
DBG = False
#add_argument(), set_defaults() only available.
ListStartPatt = re.compile(r'\s*\[.*')
ListStartPatt2 = re.compile(r'\).*\[.*') # list out of function scope.
ListPatt = re.compile(r'(\[.*?\])')
GbgPatt = re.compile(r'(.*?)\)[^\)]+') # for float('inf') cmplx.
GbgPatt2 = re.compile(r'(.*?)\).*') # general gbg, ? for non greedy.
LpRegex = re.compile(r'\({1,}\s{0,}')
RpRegex = re.compile(r'\s{0,}\){1,}')
PrRegex = re.compile(r'\((.*)(\))(?!.*\))') # from \( to last \).
CmRegex = re.compile(r'\s{0,},\s{0,}')
StrRegex = re.compile(r'\'(.*?)\'')
# Argument dict : {arg_name : value}
argDct=OrderedDict()
# process 'default=' value.
def default_value(tval, dtype=''):
# string pattern.
regres = StrRegex.match(tval)
if regres and not re.search('int|float|long|bool|complex', dtype):
if DBG:
print('default_value: str patt found')
tval = regres.group(0)
return tval
# typed pattern.
CommaSeparated = CmRegex.split(tval)[0]
if DBG:
print('comma sepearated value:', CommaSeparated)
if ListStartPatt.match(CommaSeparated) and not ListStartPatt2.match(CommaSeparated):
lres = ListPatt.search(tval)
if lres:
tval = lres.group(1)
if DBG:
print('list patt exist tval: ', tval)
else :
tval = CmRegex.split(tval)[0]
if DBG:
print('no list format tval: ', tval)
# if default value is not like - int('inf') , remove characters after ')' garbage chars.
ires = RpRegex.split(tval)[0]
if not (re.search('int|float|long|bool|complex', ires) and re.search(r'[a-z]+\(',ires)):
if DBG:
print('not int("inf") format. Rp removed tval : ', tval)
tval = re.split(r'\s{0,}\){1,}',tval)[0]
gbg = GbgPatt2.search(tval)
if gbg:
tval = gbg.group(1)
if DBG:
print('garbage exist & removed. tval : ', tval)
# int('inf') patt.
else:
if DBG:
print('type("inf") value garbaging!')
gbg = GbgPatt.search(tval)
if gbg:
if DBG:
print('garbage found, extract!')
tval = gbg.group(1)
return tval
# Handling add_argument()
def add_argument(arg_line):
global argDct
if DBG:
print('\nin add_argument : **Pre regex: ', arg_line)
'''
argument name
'''
# argname = DdRegex.split(arg_line)[1] # Dash or regex for arg name.
argname = re.search('\'--(.*?)\'', arg_line)
if not argname:
argname = re.search('\'-+(.*?)\'', arg_line)
# dest= keyword handling.
dest = re.search(r',\s*dest\s*=(.*)', arg_line)
if dest:
dval = dest.group(1)
dval = default_value(dval)
argname = StrRegex.search(dval)
# hyphen(-) to underscore(_)
if argname:
argname = argname.group(1).replace('-', '_')
else :
# naive str argname.
sres = StrRegex.match(arg_line)
if sres:
argname = sres.group(1)
if not argname:
return # no argument name
'''
check for syntaxes (type=, default=, required=, action=, help=, choices=)
'''
dtype = ''
dres = re.search(r',\s*type\s*=\s*(.*)', arg_line)
if dres:
dtype = dres.group(1)
dtype = CmRegex.split(dtype)[0]
dfult = re.search(r',\s*default\s*=\s*(.*)', arg_line)
rquird = re.search(r',\s*required\s*=\s*(.*)', arg_line)
action = re.search(r',\s*action\s*=\s*(.*)', arg_line)
hlp = re.search(r',\s*help\s*=\s*(.*)', arg_line)
chice = re.search(r',\s*choices\s*=\s*(.*)', arg_line)
# help message
hlp_msg = ''
if hlp:
thl = hlp.group(1)
if DBG:
print('handling help=')
hlp_msg = default_value(thl)
if hlp_msg:
hlp_msg = 'help='+hlp_msg
# choice message
choice_msg = ''
if chice:
tch = chice.group(1)
if DBG:
print('handling choices=')
choice_msg = default_value(tch)
if choice_msg:
choice_msg = 'choices='+choice_msg+' '
'''
argument value
'''
# tval: argument value.
tval = ''
# default exist.
if dfult:
tval = dfult.group(1)
tval = default_value(tval, dtype)
if DBG:
print('value determined : ', tval)
# action or required syntaxes exist.
elif action or rquird:
if DBG:
print('in action/required handling')
msg_str = ''
if action:
tval = action.group(1)
msg_str = 'action'
elif rquird:
tval = rquird.group(1)
msg_str = 'required'
tval = default_value(tval)
tval = ' ** ' + msg_str + ' '+tval+'; '+choice_msg+ hlp_msg
# no default, action, required.
else :
argDct[argname] = ' ** default not found; '+choice_msg+ hlp_msg
# value found.
if tval:
argDct[argname] = tval
# Handling set_defaults()
def set_defaults(arg_line):
global argDct
if DBG:
print('\nin set_defaults arg_line: ', arg_line)
# arguments to process.
tv=''
# arguments of set_default()
SetPatt = re.compile(r'(.+=.+\)?)')
sres = SetPatt.match(arg_line)
if sres:
tv = sres.group(1)
if DBG:
print("setPatt res: ", tv)
tv = re.sub(r'\s+','', tv)
if DBG:
print('\nset_default values: ', tv)
# one arguemnt regex.
SetArgPatt = re.compile(r',?([^=]+=)[^=,]+,?')
# handling multiple set_default() arguments. (may have a bug)
while True:
tname=''
tval =''
tnv=''
# func closed.
if re.match(r',*\).*',tv):
tv=''
break
if DBG:
print('set_default remaining: ', tv)
nres = SetArgPatt.match(tv)
if nres:
tname = nres.group(1)
if len(tv.split(tname, 1)) > 1:
tval = tv.split(tname,1)[1]
tval = default_value(tval)
tnv=tname+tval
tname = tname.rsplit('=',1)[0]
if DBG:
print('set_default tnam: ', tname)
print('set_default tval: ', tval)
if tname:
argDct[tname] = tval
# split with processed argument.
tv = tv.split(tnv)
if len(tv) > 1:
tv = tv[1]
# no more value to process
else:
break
# no arg=value pattern found.
else:
break
# Remove empty line & Concatenate line-separated syntax.
def preprocess(fname):
try :
with open(fname, 'r', encoding='UTF8') as f:
txt = f.read()
t = txt.splitlines(True)
t = list( filter(None, t) )
# remove empty line
t = [x for x in t if not re.match(r'\s{0,}\n',x)]
# concatenate multiple lined arguments.
# empl : lines to be deleted from t[].
empl = []
for i in range(len(t)-1, 0, -1):
if not re.search('add_argument|set_defaults', t[i]):
t[i-1] += t[i]
t[i-1]=re.sub(r'\n{0,}','',t[i-1])
t[i-1]=re.sub(r'\s{1,}',' ',t[i-1])
empl.append(t[i])
for d in empl:
t.remove(d)
for i, line in enumerate(t):
t[i] = line.replace('\"', '\'').split('parse_args()')[0]
return t
except IOError:
print('IOError : no such file.', fname)
sys.exit()
def transform(fname):
# t : list() contains add_argument|set_defaults lines.
arg_line_list = preprocess(fname)
for i, arg_line in enumerate(arg_line_list):
t = PrRegex.search(arg_line)
if t:
t = t.group(1) # t: content of add_argument Parentheses.
else :
continue # nothing to parse.
if re.search(r'add_argument\s*\(', arg_line):
add_argument(t)
elif re.search(r'set_defaults\s*\(',arg_line):
set_defaults(t)
else :
# Nothing to parse.
continue
print('\nclass Args:')
for i in argDct:
print(' ',i, '=', argDct[i])
print()
print('args=Args()')
def main():
if len(sys.argv) <2:
print('Usage : python arg2cls.py [target.py] [target2.py(optional)] ...')
sys.exit(0)
sys.argv.pop(0)
#handling multiple file input.
for fname in sys.argv:
transform(fname)
if(__name__ == "__main__"):
main()
Clean sys.argv
import sys; sys.argv=['']; del sys
https://github.com/spyder-ide/spyder/issues/3883#issuecomment-269131039
来源:https://stackoverflow.com/questions/30656777/how-to-call-module-written-with-argparse-in-ipython-notebook