Mercurial > repos > fabio > sbtas_se
view search.py @ 1:ad40eae04cdc draft
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| author | fabio |
|---|---|
| date | Mon, 22 Jan 2018 16:42:08 -0500 |
| parents | 00d6e82d74e9 |
| children | 4291c9d1ff07 |
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#!/usr/bin/env python # https://github.com/ross/requests-futures # http://docs.python-requests.org/en/master/user/quickstart/#more-complicated-post-requests import os, uuid import optparse import requests from requests_futures.sessions import FuturesSession #### UV0 #### # proxy to uv0 #service_url = "http://deputy.bx.psu.edu/"; # url to query page #query_url = service_url+"query.php"; # url to echo page: just return 'it works!' #echo_url = service_url+"echo.php"; ############# #### NN14 #### service_url = "http://nn14.galaxyproject.org:8080/"; query_url = service_url+"tree/0/query"; ############## ''' # synchronous def echo( options, args ): # create a session session = requests.Session() # make a sync get request resp = session.get(echo_url) # check for response status code resp_code = resp.status_code; if resp_code == requests.codes.ok: # get output file path output_file_path = options.output; # write response on the output file with open(output_file_path, 'w') as out: #out.write(resp.data); out.write(resp.content); return 0; else: return resp_code; ''' # asynchronous def async_request( options, args, payload ): # add additional parameters to the payload payload["tree_id"] = str(options.treeid); payload["search_mode"] = str(options.search); payload["exact_algorithm"] = str(options.exact); payload["search_threshold"] = str(options.sthreshold); # create a session session = FuturesSession(); # make an async post request with requests-futures future_req = session.post(query_url, data=payload); # wait for the request to complete, if it has not already resp = future_req.result(); # check for response status code resp_code = resp.status_code; # get output file path output_file_path = options.output; # write response on the output file with open(output_file_path, 'w') as out: #out.write(resp.data); out.write(str(resp_code)+"\n"+str(resp.content)); if resp_code == requests.codes.ok: return 0; else: return resp_code; def srase_query( options, args ): multiple_files = {}; comma_sep_file_paths = options.files; #print("files: "+str(comma_sep_file_paths)+" - "+str(type(comma_sep_file_paths))); # check if options.files contains at least one file path if comma_sep_file_paths is not None: # split file paths file_paths = comma_sep_file_paths.split(","); # split file names comma_sep_file_names = str(options.names); #print("names: "+str(comma_sep_file_names)); file_names = comma_sep_file_names.split(","); # populate a dictionary with the files containing the sequences to query for idx, file_path in enumerate(file_paths): file_name = file_names[idx]; with open(file_path, 'r') as content_file: content = content_file.read() multiple_files[file_name] = content; #print(file_name+": "+content+"\n"); if len(multiple_files) > 0: return async_request( options, args, multiple_files ); #return echo( options, args ); else: search_mode = str(options.search); text_content = ""; if search_mode == "0": # try with the sequence in --sequence text_content = options.sequences; elif search_mode == "1": # try with the fasta content in --fasta text_content = options.fasta; #print("sequences: "+text_content); # check if options.sequences contains a list of sequences (one for each row) if text_content is not None: text_content = str(text_content); if text_content.strip(): if search_mode == "0": # populate a dictionary with the files containing the sequences to query seq_counter = 0; sequences_arr = text_content.split("__cn__"); for seq in sequences_arr: seq_index = 'sequence'+str(seq_counter); multiple_files[seq_index] = seq; #print(str(seq_counter)+": "+seq); seq_counter += 1; elif search_mode == "1": multiple_files["fasta"] = text_content; return async_request( options, args, multiple_files ); #return echo( options, args ); else: return -1; return -1; def __main__(): # Parse the command line options usage = "Usage: search.py --files comma_sep_file_paths --names comma_seq_file_names --sequences sequences_text --search search_mode --exact exact_alg --sthreshold threshold --output output_file_path"; parser = optparse.OptionParser(usage = usage); parser.add_option("-i", "--treeid", type="string", action="store", dest="treeid", help="string representing the tree id"); parser.add_option("-f", "--files", type="string", action="store", dest="files", help="comma separated files path"); parser.add_option("-n", "--names", type="string", action="store", dest="names", help="comma separated names associated to the files specified in --files"); parser.add_option("-s", "--sequences", type="string", action="store", dest="sequences", help="contains a list of sequences (one for each row)"); parser.add_option("-a", "--fasta", type="string", action="store", dest="fasta", help="contains the content of a fasta file"); parser.add_option("-x", "--search", type="int", default=0, action="store", dest="search", help="search mode"); parser.add_option("-e", "--exact", type="int", default=0, action="store", dest="exact", help="exact algorithm (required if search is 1 only)"); parser.add_option("-t", "--sthreshold", type="string", action="store", dest="sthreshold", help="threshold applied to the search algrithm"); parser.add_option("-o", "--output", type="string", action="store", dest="output", help="output file path"); parser.add_option("-v", "--version", action="store_true", dest="version", default=False, help="display version and exit"); (options, args) = parser.parse_args(); if options.version: print __version__; else: srase_query( options, args ); if __name__ == "__main__": __main__()