# voussoir ''' OpenDirDL downloads open directories The basics: 1. Create a database of the directory's files with > opendirdl digest http://website.com/directory/ 2. Enable and disable the files you are interested in with > opendirdl website.com.db remove_pattern ".*" > opendirdl website.com.db keep_pattern "Daft%20Punk" > opendirdl website.com.db remove_pattern "folder\.jpg" Note the percent-encoded string. 3. Download the enabled files with > opendirdl website.com.db download The specifics: digest: Recursively fetch directories and build a database of file URLs. > opendirdl digest http://website.com/directory/ > opendirdl digest !clipboard flags: -f | --fullscan: When included, perform HEAD requests on all files, to know the size of the entire directory. -db "x.db" | --databasename "x.db": Use a custom database filename. By default, databases are named after the web domain. download: Download the files whose URLs are Enabled in the database. > opendirdl download website.com.db flags: -o "x" | --outputdir "x": Save the files to a custom directory, "x". By default, files are saved to a folder named after the web domain. -ow | --overwrite: When included, download and overwrite files even if they already exist in the output directory. -bps 100 | --bytespersecond 100: -bps 100k | -bps "100 kb" | -bps 100kib | -bps 1.2m Ratelimit your download speed. Supports units like "k", "m" according to `bytestring.parsebytes`. keep_pattern: Enable URLs which match a regex pattern. Matches are based on the percent- encoded strings! > opendirdl keep_pattern website.com.db ".*" remove_pattern: Disable URLs which match a regex pattern. Matches are based on the percent- encoded strings! > opendirdl remove_pattern website.com.db ".*" list_basenames: List Enabled URLs alphabetized by their base filename. This makes it easier to find titles of interest in a directory that is very scattered or poorly organized. > opendirdl list_basenames website.com.db flags: -o "x.txt" | --outputfile "x.txt": Output the results to a file instead of stdout. This is useful if the filenames contain special characters that crash Python, or are so long that the console becomes unreadable. list_urls: List Enabled URLs in alphabetical order. No stylization, just dumped. > opendirdl list_urls website.com.db flags: -o "x.txt" | --outputfile "x.txt": Output the results to a file instead of stdout. measure: Sum up the filesizes of all Enabled URLs. > opendirdl measure website.com.db flags: -f | --fullscan: When included, perform HEAD requests on all files to update their size. -n | --new_only: When included, perform HEAD requests only on files that haven't gotten one yet. -t 4 | --threads 4: The number of threads to use for performing requests. If a file's size is not known by the time this operation completes, you will receive a printed note. tree: Print the file / folder tree. > opendirdl tree website.com.db flags: -o "x.txt" | --outputfile "x.txt": Output the results to a file instead of stdout. This is useful if the filenames contain special characters that crash Python, or are so long that the console becomes unreadable. If the filename ends with ".html", the created page will have collapsible boxes rather than a plaintext diagram. ''' # Module names preceeded by `## ` indicate modules that are imported during # a function, because they are not used anywhere else and we don't need to waste # time importing them usually, but I still want them listed here for clarity. import argparse ## import bs4 import collections import concurrent.futures ## import hashlib import os ## import re import requests import shutil import sqlite3 import sys import threading import time ## import tkinter import urllib.parse # pip install voussoirkit from voussoirkit import bytestring from voussoirkit import downloady from voussoirkit import fusker from voussoirkit import treeclass import pathtree sys.path.append('D:\\git\\else\\threadqueue'); import threadqueue DOWNLOAD_CHUNK = 16 * bytestring.KIBIBYTE FILENAME_BADCHARS = '/\\:*?"<>|' TERMINAL_WIDTH = shutil.get_terminal_size().columns # When doing a basic scan, we will not send HEAD requests to URLs that end in # these strings, because they're probably files. # This isn't meant to be a comprehensive filetype library, but it covers # enough of the typical opendir to speed things up. SKIPPABLE_FILETYPES = [ '.3gp', '.7z', '.aac', '.avi', '.bin', '.bmp', '.bz2', '.epub', '.exe', '.db', '.flac', '.gif', '.gz', '.ico', '.iso', '.jpeg', '.jpg', '.m3u', '.m4a', '.m4v', '.mka', '.mkv', '.mov', '.mp3', '.mp4', '.nfo', '.ogg', '.ott', '.pdf', '.png', '.rar', '.sfv', '.srt', '.tar', '.ttf', '.txt', '.wav', '.webm', '.wma', '.xml', '.zip', ] SKIPPABLE_FILETYPES = set(x.lower() for x in SKIPPABLE_FILETYPES) SKIPPABLE_FILETYPES.update(fusker.fusker('.r[0-99]')) SKIPPABLE_FILETYPES.update(fusker.fusker('.r[00-99]')) SKIPPABLE_FILETYPES.update(fusker.fusker('.r[000-099]')) SKIPPABLE_FILETYPES.update(fusker.fusker('.[00-99]')) # Will be ignored completely. Are case-sensitive BLACKLISTED_FILENAMES = [ 'desktop.ini', 'thumbs.db', ] DB_INIT = ''' CREATE TABLE IF NOT EXISTS urls( url TEXT, basename TEXT, content_length INT, content_type TEXT, do_download INT ); CREATE INDEX IF NOT EXISTS urlindex on urls(url); CREATE INDEX IF NOT EXISTS baseindex on urls(basename); CREATE INDEX IF NOT EXISTS sizeindex on urls(content_length); '''.strip() SQL_URL = 0 SQL_BASENAME = 1 SQL_CONTENT_LENGTH = 2 SQL_CONTENT_TYPE = 3 SQL_DO_DOWNLOAD = 4 UNMEASURED_WARNING = ''' Note: %d files do not have a stored Content-Length. Run `measure` with `-f`|`--fullscan` or `-n`|`--new_only` to HEAD request those files. '''.strip() ## WALKER ########################################################################################## ## ## class Walker: ''' This class manages the extraction and saving of URLs, given a starting root url. ''' def __init__(self, root_url, databasename=None, fullscan=False, threads=1): if not root_url.endswith('/'): root_url += '/' if '://' not in root_url.split('.')[0]: root_url = 'http://' + root_url self.root_url = root_url if databasename in (None, ''): domain = url_split(self.root_url)['domain'] databasename = domain + '.db' databasename = databasename.replace(':', '#') self.databasename = databasename write('Opening %s' % self.databasename) self.sql = sqlite3.connect(self.databasename) self.cur = self.sql.cursor() db_init(self.sql, self.cur) self.thread_queue = threadqueue.ThreadQueue(threads) self._main_thread = threading.current_thread().ident self.fullscan = bool(fullscan) self.queue = collections.deque() self.seen_directories = set() def smart_insert(self, url=None, head=None, commit=True): ''' See `smart_insert`. ''' smart_insert(self.sql, self.cur, url=url, head=head, commit=commit) def extract_hrefs(self, response, tag='a', attribute='href'): ''' Given a Response object, extract href urls. External links, index sort links, and blacklisted files are discarded. ''' import bs4 soup = bs4.BeautifulSoup(response.text, 'html.parser') elements = soup.find_all(tag) for element in elements: try: href = element[attribute] except KeyError: continue href = urllib.parse.urljoin(response.url, href) if href.startswith('javascript:'): continue if not href.startswith(self.root_url): # Don't go to other sites or parent directories. continue if any(sorter in href for sorter in ('?C=', '?O=', '?M=', '?D=', '?N=', '?S=')): # Alternative sort modes for index pages. continue if any(href.endswith(blacklisted) for blacklisted in BLACKLISTED_FILENAMES): continue yield href def process_url(self, url=None): ''' Given a URL, check whether it is an index page or an actual file. If it is an index page, its links are extracted and queued. If it is a file, its information is saved to the database. We perform a HEAD: when `self.fullscan` is True. when `self.fullscan` is False but the url is not a SKIPPABLE_FILETYPE. when the url is an index page. GET: when the url is an index page. ''' if url is None: url = self.root_url else: url = urllib.parse.urljoin(self.root_url, url) if url in self.seen_directories: # We already picked this up at some point return # if not url.startswith(self.root_url): # # Don't follow external links or parent directory. # write('Skipping "%s" due to external url.' % url) # return urll = url.lower() if self.fullscan is False: skippable = any(urll.endswith(ext) for ext in SKIPPABLE_FILETYPES) if skippable: write('Skipping "%s" due to extension.' % url) #self.smart_insert(url=url, commit=False) #return {'url': url, 'commit': False} self.thread_queue.behalf(self._main_thread, self.smart_insert, url=url, commit=False) return skippable = lambda: self.cur.execute('SELECT * FROM urls WHERE url == ?', [url]).fetchone() skippable = self.thread_queue.behalf(self._main_thread, skippable) #print(skippable) skippable = skippable is not None #skippable = self.cur.fetchone() is not None if skippable: write('Skipping "%s" since we already have it.' % url) return try: head = do_head(url) except requests.exceptions.HTTPError as exception: if exception.response.status_code == 403: write('403 FORBIDDEN!') return if exception.response.status_code == 404: write('404 NOT FOUND!') return raise content_type = head.headers.get('Content-Type', '?') #print(content_type) if content_type.startswith('text/html'):# and head.url.endswith('/'): # This is an index page, so extract links and queue them. response = do_get(url) hrefs = self.extract_hrefs(response) # Just in case the URL we used is different than the real one, # such as missing a trailing slash, add both. self.seen_directories.add(url) self.seen_directories.add(head.url) added = 0 for href in hrefs: if href in self.seen_directories: continue else: #self.queue.append(href) self.thread_queue.add(self.process_url, href) added += 1 write('Queued %d urls' % added) else: # This is not an index page, so save it. #self.smart_insert(head=head, commit=False) self.thread_queue.behalf(self._main_thread, self.smart_insert, head=head, commit=False) #return {'head': head, 'commit': False} def walk(self, url=None): ''' Given a starting URL (defaults to self.root_url), continually extract links from the page and repeat. ''' #self.queue.appendleft(url) try: self.thread_queue.add(self.process_url, url) for return_value in self.thread_queue.run(hold_open=False): pass except KeyboardInterrupt: self.sql.commit() raise else: self.sql.commit() ## ## ## WALKER ########################################################################################## ## GENERAL FUNCTIONS ############################################################################### ## ## def build_file_tree(databasename): sql = sqlite3.connect(databasename) cur = sql.cursor() cur.execute('SELECT * FROM urls WHERE do_download == 1') fetch_all = cur.fetchall() sql.close() if len(fetch_all) == 0: return path_datas = [] # :|| is my temporary (probably not temporary) hack for including the URL # scheme without causing the pathtree processor to think there's a top # level directory called 'http'. # It will be replaced with :// in the calling `tree` function. path_form = '{scheme}:||{domain}\\{folder}\\{filename}' for item in fetch_all: url = item[SQL_URL] size = item[SQL_CONTENT_LENGTH] path_parts = url_split(item[SQL_URL]) path = path_form.format(**path_parts) path = urllib.parse.unquote(path) path_data = {'path': path, 'size': size, 'data': url} path_datas.append(path_data) return pathtree.from_paths(path_datas, root_name=databasename) def db_init(sql, cur): lines = DB_INIT.split(';') for line in lines: cur.execute(line) sql.commit() return True def do_get(url, raise_for_status=True): return do_request('GET', requests.get, url, raise_for_status=raise_for_status) def do_head(url, raise_for_status=True): return do_request('HEAD', requests.head, url, raise_for_status=raise_for_status) def do_request(message, method, url, raise_for_status=True): form = '{message:>4s}: {url} : {status}' write(form.format(message=message, url=url, status='')) while True: try: response = method(url) break except requests.exceptions.ConnectionError: pass write(form.format(message=message, url=url, status=response.status_code)) if raise_for_status: response.raise_for_status() return response def fetch_generator(cur): while True: fetch = cur.fetchone() if fetch is None: break yield fetch def filepath_sanitize(text, allowed=''): ''' Remove forbidden characters from the text, unless specifically sanctioned. ''' badchars = FILENAME_BADCHARS badchars = set(char for char in FILENAME_BADCHARS if char not in allowed) text = ''.join(char for char in text if char not in badchars) return text def get_clipboard(): import tkinter t = tkinter.Tk() clip = t.clipboard_get() t.destroy() return clip def hashit(text, length=None): import hashlib sha = hashlib.sha512(text.encode('utf-8')).hexdigest() if length is not None: sha = sha[:length] return sha def int_none(x): if x is None: return x return int(x) def promise_results(promises): promises = promises[:] while len(promises) > 0: for (index, promise) in enumerate(promises): if not promise.done(): continue yield promise.result() promises.pop(index) break def safeindex(sequence, index, fallback=None): try: return sequence[index] except IndexError: return fallback def safeprint(*texts, **kwargs): texts = [str(text).encode('ascii', 'replace').decode() for text in texts] print(*texts, **kwargs) def smart_insert(sql, cur, url=None, head=None, commit=True): ''' INSERT or UPDATE the appropriate entry, or DELETE if the head shows a 403 / 404. ''' if bool(url) is bool(head) and not isinstance(head, requests.Response): raise ValueError('One and only one of `url` or `head` is necessary.') if url is not None: # When doing a basic scan, all we get is the URL. content_length = None content_type = None elif head is not None: url = head.url # When doing a full scan, we get a Response object. if head.status_code in [403, 404]: cur.execute('DELETE FROM urls WHERE url == ?', [url]) if commit: sql.commit() return (url, None, 0, None, 0) else: url = head.url content_length = head.headers.get('Content-Length', None) if content_length is not None: content_length = int(content_length) content_type = head.headers.get('Content-Type', None) basename = url_split(url)['filename'] #basename = urllib.parse.unquote(basename) do_download = True cur.execute('SELECT * FROM urls WHERE url == ?', [url]) existing_entry = cur.fetchone() is_new = existing_entry is None data = (url, basename, content_length, content_type, do_download) if is_new: cur.execute('INSERT INTO urls VALUES(?, ?, ?, ?, ?)', data) else: command = ''' UPDATE urls SET content_length = coalesce(?, content_length), content_type = coalesce(?, content_type) WHERE url == ? ''' cur.execute(command, [content_length, content_type, url]) if commit: sql.commit() return data def url_split(url): ''' Given a url, return a dictionary of its components. ''' #url = urllib.parse.unquote(url) parts = urllib.parse.urlsplit(url) if any(part == '' for part in [parts.scheme, parts.netloc]): raise ValueError('Not a valid URL') scheme = parts.scheme root = parts.netloc (folder, filename) = os.path.split(parts.path) while folder.startswith('/'): folder = folder[1:] # Folders are allowed to have slashes... folder = filepath_sanitize(folder, allowed='/\\') folder = folder.replace('\\', os.path.sep) folder = folder.replace('/', os.path.sep) # ...but Files are not. filename = filepath_sanitize(filename) result = { 'scheme': scheme, 'domain': urllib.parse.unquote(root), 'folder': urllib.parse.unquote(folder), 'filename': urllib.parse.unquote(filename), } return result def write(line, file_handle=None, **kwargs): if file_handle is None: safeprint(line, **kwargs) else: file_handle.write(line + '\n', **kwargs) ## ## ## GENERAL FUNCTIONS ############################################################################### ## COMMANDLINE FUNCTIONS ########################################################################### ## ## def digest(root_url, databasename=None, fullscan=False, threads=1): if root_url in ('!clipboard', '!c'): root_url = get_clipboard() write('From clipboard: %s' % root_url) walker = Walker( databasename=databasename, fullscan=fullscan, root_url=root_url, threads=threads, ) walker.walk() def digest_argparse(args): return digest( databasename=args.databasename, fullscan=args.fullscan, root_url=args.root_url, threads=int(args.threads), ) def download( databasename, outputdir=None, bytespersecond=None, headers=None, overwrite=False, ): ''' Download all of the Enabled files. The filepaths will match that of the website, using `outputdir` as the root directory. Parameters: outputdir: The directory to mirror the files into. If not provided, the domain name is used. bytespersecond: The speed to ratelimit the downloads. Can be an integer, or a string like '500k', according to the capabilities of `bytestring.parsebytes` Note that this is bytes, not bits. headers: Additional headers to pass to each `download_file` call. overwrite: If True, delete local copies of existing files and rewrite them. Otherwise, completed files are skipped. ''' sql = sqlite3.connect(databasename) cur = sql.cursor() if outputdir in (None, ''): # This assumes that all URLs in the database are from the same domain. # If they aren't, it's the user's fault because Walkers don't leave the given site # on their own. cur.execute('SELECT url FROM urls LIMIT 1') url = cur.fetchone()[0] outputdir = url_split(url)['domain'] if isinstance(bytespersecond, str): bytespersecond = bytestring.parsebytes(bytespersecond) cur.execute('SELECT * FROM urls WHERE do_download == 1 ORDER BY url') for fetch in fetch_generator(cur): url = fetch[SQL_URL] url_filepath = url_split(url) folder = os.path.join(outputdir, url_filepath['folder']) os.makedirs(folder, exist_ok=True) fullname = os.path.join(folder, url_filepath['filename']) write('Downloading "%s"' % fullname) downloady.download_file( url, localname=fullname, bytespersecond=bytespersecond, callback_progress=downloady.Progress2, headers=headers, overwrite=overwrite, ) def download_argparse(args): return download( databasename=args.databasename, outputdir=args.outputdir, overwrite=args.overwrite, bytespersecond=args.bytespersecond, ) def filter_pattern(databasename, regex, action='keep'): ''' When `action` is 'keep', then any URLs matching the regex will have their `do_download` flag set to True. When `action` is 'remove', then any URLs matching the regex will have their `do_download` flag set to False. Actions will not act on each other's behalf. Keep will NEVER disable a url, and remove will NEVER enable one. ''' import re if isinstance(regex, str): regex = [regex] keep = action == 'keep' remove = action == 'remove' sql = sqlite3.connect(databasename) cur = sql.cursor() cur.execute('SELECT * FROM urls') items = cur.fetchall() for item in items: url = item[SQL_URL] for pattern in regex: contains = re.search(pattern, url) is not None if keep and contains and not item[SQL_DO_DOWNLOAD]: write('Enabling "%s"' % url) cur.execute('UPDATE urls SET do_download = 1 WHERE url == ?', [url]) if remove and contains and item[SQL_DO_DOWNLOAD]: write('Disabling "%s"' % url) cur.execute('UPDATE urls SET do_download = 0 WHERE url == ?', [url]) sql.commit() def keep_pattern_argparse(args): ''' See `filter_pattern`. ''' return filter_pattern( action='keep', databasename=args.databasename, regex=args.regex, ) def list_basenames(databasename, output_filename=None): ''' Print the Enabled entries in order of the file basenames. This makes it easier to find interesting titles without worrying about what directory they're in. ''' sql = sqlite3.connect(databasename) cur = sql.cursor() cur.execute('SELECT * FROM urls WHERE do_download == 1') items = cur.fetchall() longest = max(items, key=lambda x: len(x[SQL_BASENAME])) longest = len(longest[SQL_BASENAME]) items.sort(key=lambda x: x[SQL_BASENAME].lower()) if output_filename is not None: output_file = open(output_filename, 'w', encoding='utf-8') else: output_file = None form = '{basename:<%ds} : {url} : {size}' % longest for item in items: size = item[SQL_CONTENT_LENGTH] if size is None: size = '' else: size = bytestring.bytestring(size) line = form.format( basename=item[SQL_BASENAME], url=item[SQL_URL], size=size, ) write(line, output_file) if output_file: output_file.close() def list_basenames_argparse(args): return list_basenames( databasename=args.databasename, output_filename=args.outputfile, ) def list_urls(databasename, output_filename=None): ''' Print the Enabled entries in order of the file basenames. This makes it easier to find interesting titles without worrying about what directory they're in. ''' sql = sqlite3.connect(databasename) cur = sql.cursor() cur.execute('SELECT * FROM urls WHERE do_download == 1') items = cur.fetchall() items.sort(key=lambda x: x[SQL_URL].lower()) if output_filename is not None: output_file = open(output_filename, 'w', encoding='utf-8') else: output_file = None for item in items: write(item[SQL_URL], output_file) if output_file: output_file.close() def list_urls_argparse(args): return list_urls( databasename=args.databasename, output_filename=args.outputfile, ) def measure(databasename, fullscan=False, new_only=False, threads=4): ''' Given a database, print the sum of all Content-Lengths. URLs will be HEAD requested if: `new_only` is True and the file has no stored content length, or `fullscan` is True and `new_only` is False ''' if isinstance(fullscan, str): fullscan = bool(fullscan) sql = sqlite3.connect(databasename) cur = sql.cursor() if new_only: cur.execute('SELECT * FROM urls WHERE do_download == 1 AND content_length IS NULL') else: cur.execute('SELECT * FROM urls WHERE do_download == 1') items = cur.fetchall() filecount = len(items) totalsize = 0 unmeasured_file_count = 0 if threads is None: threads = 1 thread_queue = threadqueue.ThreadQueue(threads) try: for fetch in items: size = fetch[SQL_CONTENT_LENGTH] if fullscan or new_only: url = fetch[SQL_URL] thread_queue.add(do_head, url, raise_for_status=False) elif size is None: # Unmeasured and no intention to measure. unmeasured_file_count += 1 else: totalsize += size for head in thread_queue.run(): fetch = smart_insert(sql, cur, head=head, commit=False) size = fetch[SQL_CONTENT_LENGTH] if size is None: write('"%s" is not revealing Content-Length' % url) size = 0 totalsize += size except (Exception, KeyboardInterrupt): sql.commit() raise sql.commit() size_string = bytestring.bytestring(totalsize) totalsize_string = '{size_short} ({size_exact:,} bytes) in {filecount:,} files' totalsize_string = totalsize_string.format( size_short=size_string, size_exact=totalsize, filecount=filecount, ) write(totalsize_string) if unmeasured_file_count > 0: write(UNMEASURED_WARNING % unmeasured_file_count) return totalsize def measure_argparse(args): return measure( databasename=args.databasename, fullscan=args.fullscan, new_only=args.new_only, threads=int_none(args.threads), ) def remove_pattern_argparse(args): ''' See `filter_pattern`. ''' return filter_pattern( action='remove', databasename=args.databasename, regex=args.regex, ) def tree(databasename, output_filename=None): ''' Print a tree diagram of the directory-file structure. If an .html file is given for `output_filename`, the page will have collapsible boxes and clickable filenames. Otherwise the file will just be a plain text drawing. ''' tree_root = build_file_tree(databasename) tree_root.path = None for node in tree_root.walk(): if node.path: node.path = node.path.replace(':||', '://') node.display_name = node.display_name.replace(':||', '://') if output_filename is not None: output_file = open(output_filename, 'w', encoding='utf-8') use_html = output_filename.lower().endswith('.html') else: output_file = None use_html = False size_details = pathtree.recursive_get_size(tree_root) if size_details['unmeasured'] > 0: footer = UNMEASURED_WARNING % size_details['unmeasured'] else: footer = None line_generator = pathtree.recursive_print_node(tree_root, use_html=use_html, footer=footer) for line in line_generator: write(line, output_file) if output_file is not None: output_file.close() return tree_root def tree_argparse(args): return tree( databasename=args.databasename, output_filename=args.outputfile, ) ## ## ## COMMANDLINE FUNCTIONS ########################################################################### def main(argv): if safeindex(argv, 1, '').lower() in ('help', '-h', '--help', ''): write(__doc__) return parser = argparse.ArgumentParser() subparsers = parser.add_subparsers() p_digest = subparsers.add_parser('digest') p_digest.add_argument('root_url') p_digest.add_argument('-db', '--database', dest='databasename', default=None) p_digest.add_argument('-f', '--fullscan', dest='fullscan', action='store_true') p_digest.add_argument('-t', '--threads', dest='threads', default=1) p_digest.set_defaults(func=digest_argparse) p_download = subparsers.add_parser('download') p_download.add_argument('databasename') p_download.add_argument('-o', '--outputdir', dest='outputdir', default=None) p_download.add_argument('-bps', '--bytespersecond', dest='bytespersecond', default=None) p_download.add_argument('-ow', '--overwrite', dest='overwrite', action='store_true') p_download.set_defaults(func=download_argparse) p_keep_pattern = subparsers.add_parser('keep_pattern') p_keep_pattern.add_argument('databasename') p_keep_pattern.add_argument('regex') p_keep_pattern.set_defaults(func=keep_pattern_argparse) p_list_basenames = subparsers.add_parser('list_basenames') p_list_basenames.add_argument('databasename') p_list_basenames.add_argument('-o', '--outputfile', dest='outputfile', default=None) p_list_basenames.set_defaults(func=list_basenames_argparse) p_list_urls = subparsers.add_parser('list_urls') p_list_urls.add_argument('databasename') p_list_urls.add_argument('-o', '--outputfile', dest='outputfile', default=None) p_list_urls.set_defaults(func=list_urls_argparse) p_measure = subparsers.add_parser('measure') p_measure.add_argument('databasename') p_measure.add_argument('-f', '--fullscan', dest='fullscan', action='store_true') p_measure.add_argument('-n', '--new_only', dest='new_only', action='store_true') p_measure.add_argument('-t', '--threads', dest='threads', default=1) p_measure.set_defaults(func=measure_argparse) p_remove_pattern = subparsers.add_parser('remove_pattern') p_remove_pattern.add_argument('databasename') p_remove_pattern.add_argument('regex') p_remove_pattern.set_defaults(func=remove_pattern_argparse) p_tree = subparsers.add_parser('tree') p_tree.add_argument('databasename') p_tree.add_argument('-o', '--outputfile', dest='outputfile', default=None) p_tree.set_defaults(func=tree_argparse) # Allow interchangability of the command and database name # opendirdl measure test.db -n = opendirdl test.db measure -n if argv[0] != 'digest' and os.path.isfile(argv[0]): (argv[0], argv[1]) = (argv[1], argv[0]) #print(argv) args = parser.parse_args(argv) args.func(args) if __name__ == '__main__': main(sys.argv[1:])