예제 #1
0
def fzf(options):
    """Present an fzf style interface for given options."""
    from pyfzf.pyfzf import FzfPrompt
    _fzf = FzfPrompt()
    result = _fzf.prompt(options)
    # print(result)
    return result
예제 #2
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def search_by_name(json_input):
    name_list = []
    for item in json_input:
        name_list.append((item["name"]))
    fzf = FzfPrompt()
    selection = fzf.prompt(name_list)
    return selection[0]
예제 #3
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def draw_remaining(game_id):
    r = client.get(f"/api/games/{game_id}/")
    r.raise_for_status()
    game_data = r.json()

    player_count = len(game_data["player_stats"])
    cards = set(get_ordered_cards(player_count))
    for c in game_data["cards"]:
        cards.remove((c["value"], c["suit"]))
        if c["chug_duration_ms"]:
            c["chug_end_start_delta_ms"] = (c["chug_start_start_delta_ms"] +
                                            c["chug_duration_ms"])
        else:
            del c["chug_start_start_delta_ms"]

    last_start_delta_ms = game_data["cards"][-1]["start_delta_ms"]

    fzf = FzfPrompt()
    while cards:
        player_index = -len(cards) % player_count
        player_name = game_data["player_stats"][player_index]["username"]
        card = ast.literal_eval(
            fzf.prompt(sorted(cards), f'--header "Card for {player_name}"')[0])
        cards.remove(card)

        time_delta = get_ms("Time since last card (s): ")
        start_delta_ms = last_start_delta_ms + time_delta
        card_data = {
            "value": card[0],
            "suit": card[1],
            "start_delta_ms": start_delta_ms,
        }

        last_start_delta_ms = start_delta_ms

        if card[0] == 14:
            before_begin = get_ms("Time before begin (s): ")
            chug_time = get_ms("Chug time (s): ")

            start = start_delta_ms + before_begin
            end = start + chug_time
            card_data["chug_start_start_delta_ms"] = start
            card_data["chug_end_start_delta_ms"] = end

            last_start_delta_ms = end

        game_data["cards"].append(card_data)

    game_data["has_ended"] = True
    game_data["description"] = input("Description: ")
    game_data["player_ids"] = [p["id"] for p in game_data["player_stats"]]
    game_data["player_names"] = [
        p["username"] for p in game_data["player_stats"]
    ]

    return game_data
예제 #4
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def get_selection(seq, prompt, lines=5, case_insensitive=True, font=None):
    if in_xsession:
        return dmenu.show(seq,
                          prompt=prompt,
                          lines=lines,
                          case_insensitive=case_insensitive,
                          font=font)
    else:
        fzf = FzfPrompt()
        return fzf.prompt(seq, '--cycle')[0]
예제 #5
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파일: init.py 프로젝트: zelkourban/BP
def rcv_init():
    while True:
        input_print('Press enter to select network architecture...')
        fzf = FzfPrompt()
        network = fzf.prompt(nets,"--reverse")
        classes_list = open('classes_names.txt','r').read().split('\n') 
        classes_dict = {}
        for i in range(len(classes_list)):
            classes_dict[classes_list[i]] = i

        input_print('Press enter to select class...') 
        class_name = fzf.prompt(classes_list, "--reverse")[0]
        iterations = numInput("Select number of iterations (1-infinity): ")
        os.system("clear")
        confirm = input_print('Architecture: {}\nClass: {}\nIterations: {}\nConfirm(y/n)? '.format(network[0],class_name,iterations))
        if(confirm == 'n'):
            os.system("clear")
            continue
        regularized_class_sample_generator.run_from_import(classes_dict[class_name],network[0],int(iterations),class_name)
        break
예제 #6
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def get_smarts(reactants: str, line: str):
    delim = " + "
    successful_rxns = guess_rxn(reactants)
    rxns = [delim.join(x["names"]) for x in list(successful_rxns.values())]

    fzf = FzfPrompt()
    chosen_rxn = fzf.prompt(rxns,
                            f'--prompt="Reaction {line}: "')[0].split(delim)

    for val in successful_rxns.values():
        if chosen_rxn in val.values():
            # TODO: also return the rxns, so that the csv can be updated
            return val["smarts"]
예제 #7
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 def remove_file(self):
     fzf = FzfPrompt()
     google_file_list = self.file_list()
     file_list = [
         "title:" + gf["title"] + " create_date:" + gf["createdDate"]
         for gf in google_file_list
     ]
     file_dict = {}
     for count, file_name in enumerate(file_list):
         file_dict[file_name] = count
     target_file = fzf.prompt(file_dict)[0]
     file_id = google_file_list[file_dict[target_file]]["id"]
     file1 = self.drive.CreateFile({'id': file_id})
     file1.Trash()  # Move file to trash.
     file1.Delete()  # Permanently delete the file.
예제 #8
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def select_item(items):
    fzf = FzfPrompt()

    enumerated = (f"{n}.\t{item}" for (n, item) in enumerate(items))

    try:
        selected_items = fzf.prompt(enumerated, "-i")
    except plumbum.commands.processes.ProcessExecutionError:
        selected_items = None

    if not selected_items:
        abort("Nothing selected", code=0)

    (selected_item, ) = selected_items

    selected_index = int(selected_item.split(".")[0])

    return selected_index
예제 #9
0
def select_site_and_get_encrypted_password(query, profile):
    with tempfile.NamedTemporaryFile() as tmp:
        with open(os.path.join(HOME, CHROME, profile, LOGIN_DATA), 'rb') as f:
            tmp.write(f.read())
        cursor = sqlite3.connect(tmp.name).cursor()
        cursor.execute('''SELECT origin_url, username_value, password_value
                      FROM logins ORDER BY times_used desc''')
        passwords = []
        for origin_url, account, password in cursor.fetchall():
            password = base64.b64encode(password[3:]).decode('utf8')
            url = urlparse(origin_url)
            title = codecs.decode(url.netloc.encode('utf8'), 'idna')
            if title.lower().startswith('www.'):
                title = title[4:]
            if url.scheme == 'android':
                title = '%s://%s' % (url.scheme, title.split('@')[1])
            passwords.append({
                'type': 'default',
                'title': title,
                'subtitle': account,
                'arg': password,
                'valid': 'true' if len(password) > 0 else 'false',
                'autocomplete': title,
            })
        sites = get_site(passwords)
        fzf = FzfPrompt()
        selected_site = fzf.prompt(sites)
        assert len(selected_site) > 0
        assert selected_site[0].split("\t")

        sitename, username = selected_site[0].split("\t")
        target = None
        for p in passwords:
            new_sub = "NOUSER" if len(p["subtitle"]) == 0 else p["subtitle"]
            if (sitename == p["title"] and username == new_sub):
                target = p
                break
        if DEBUG:
            print("target: ", target)
        password_encrypted = target["arg"]

        return password_encrypted
예제 #10
0
파일: init.py 프로젝트: zelkourban/BP
def layer_vis():
    input_print("Choose network: ")
    ##[ printf(nets[i] + ", ") for i in range(len(nets)-1)]
    ##printf(nets[-1] + ": ")
       
    fzf = FzfPrompt()
    a = fzf.prompt(nets, "--reverse")[0]
    print(a);
                
    l = numInput("Choose layer: 0-255: ")
    f = numInput("Choose filter: 0-55: ")
        
    #while True:
        #anim = input_print("Animate optimisation?(y/n): ")
        #if(anim == "y" or anim == 'yes'):
            #anim = True
            #break
        #elif(anim == "n" or anim == 'no'):
            #anim = False
            #break
        
        
    net = Net(a,l,f)
    net.write()
예제 #11
0
class Config:
    def __init__(self):
        self.model = Model()
        self.params = Params()
        self.screen = Screen()

        self.fzf = FzfPrompt()
        self.info = ''

    def manage(self):
        active = 'off'
        if self.params.get('active'):
            active = 'on'
        self.info = 'Show current tasks: [' + active + ']\n'

        done = 'off'
        if self.params.get('done'):
            done = 'on'
        self.info += 'Show done tasks: [' + done + ']\n'

        self.manage_menu()

    def manage_menu(self):
        about = '''
Short instruction
-----------------
? - help (this dialog)
! - toggle active tasks
v - toggle done tasks
t - manage time slots
# - backup/restore
< - back
q - exit
        '''
        self.screen.change_path('~config', '?!vt#<q', about,
                                'Managing configs', self.info)
        menu = self.screen.print()

        if menu == 'q':
            self.screen.bye()

        elif menu == '?':
            self.screen.activate_about()
            self.manage_menu()

        elif menu == '!':
            self.toggle_active()
            self.manage()

        elif menu == 'v':
            self.toggle_done()
            self.manage()

        elif menu == 't':
            self.manage_time_slot_menu()
            self.manage_menu()

        elif menu == '<':
            return

        else:
            self.screen.add_fail('This is not implemented...')
            self.manage_menu()

    def toggle_active(self):
        active = self.params.get('active')
        self.params.update('active', not active)
        self.screen.add_message('parameter "active" has been toggled')

    def toggle_done(self):
        done = self.params.get('done')
        self.params.update('done', not done)
        self.screen.add_message('parameter "done" has been toggled')

    def manage_time_slot_menu(self):
        tsData = self.model.get_all_time_slots()
        if tsData:
            self.info = ' | '.join(
                ['%s:%s' % (t['name'], t['description'])
                 for t in tsData]) + '\n'
        else:
            self.info = None

        about = '''
Short instruction
-----------------
? - help (this dialog)
+ - add time slot
- - remove time slot
< - back
q - exit
        '''
        self.screen.change_path('~config/time_slot', '?+-<q', about,
                                'Managing time slots', self.info)
        menu = self.screen.print()

        if menu == 'q':
            self.screen.bye()

        elif menu == '?':
            self.screen.activate_about()
            self.manage_time_slot_menu()

        elif menu == '+':
            self.add_time_slot()

        elif menu == '-':
            self.remove_time_slot()

        elif menu == '<':
            return

        else:
            self.screen.add_fail('This is not implemented...')
            self.manage_time_slot_menu()

    def add_time_slot(self):
        self.screen.print_init('Adding time slot')
        name = input('Name (short): ')
        description = input('Description: ')
        self.model.create_time_slot(name, description)
        self.screen.add_message('time slot has been created')
        self.manage_time_slot_menu()

    def remove_time_slot(self):
        ts_id = self.select_time_slot()
        if ts_id is not None:
            self.model.remove_time_slot(ts_id)
            self.screen.add_message('time_slot has been deleted')
        else:
            self.screen.add_fail('Time slot was not selected...')

        self.manage_time_slot_menu()

    def select_time_slot(self):
        tsData = self.model.get_all_time_slots()
        if not tsData:
            self.screen.add_fail('Where is no time slots...')
            return

        ts_ids = {}
        ts = []
        for t in tsData:
            ts.append('%s:%s' % (t['name'], t['description']))
            ts_ids['%s:%s' % (t['name'], t['description'])] = t['id']

        selected = self.fzf.prompt(ts)
        if selected:
            return ts_ids[selected[0]]
예제 #12
0
def main():

    parser = argparse.ArgumentParser(
        description="AWS SSM console manager",
        formatter_class=argparse.ArgumentDefaultsHelpFormatter,
    )

    parser.add_argument(
        "--region",
        "-r",
        default="eu-west-1",
        help="Region to retrieve instances from",
    )

    parser.add_argument(
        "--instanceId",
        "-i",
        required=False,
        help="Filter by instance id by applying .*arg.*",
    )

    parser.add_argument(
        "--name",
        "-n",
        required=False,
        help="Filter by instance name by applying .*arg.*",
    )

    parser.add_argument(
        "--address",
        "-a",
        required=False,
        help="IP address of the instance"
    )

    parser.add_argument(
        "--dryrun",
        "-d",
        action="store_true",
        required=False,
        help="Dry run, do not connec to the instance just list matchs"
    )

    args = parser.parse_args()
    instances = get_instances(args)

    if args.dryrun:
        print(json.dumps(instances, indent=4))
        return

    if len(list(instances)) == 0:
        print(
            "Your search criteria did not match any running instance.\n"
            + "Exiting..."
        )
        sys.exit(1)

    fzf = FzfPrompt()
    option = fzf.prompt(instances)
    instanceId = option[0].split(" - ")[0]
    os.execlp("aws", "aws", "ssm", "start-session", "--target", instanceId)
예제 #13
0
파일: tag.py 프로젝트: zordsdavini/ztm
class Tag:
    def __init__(self):
        self.model = Model()
        self.fzf = FzfPrompt()
        self.screen = Screen()
        self.config = Config()

        self.header = ''
        self.info = None

    def manage_tag(self, tid=None):
        if tid:
            tag = self.model.get_tag(tid)
            self.header = 'Managing tag: ' + tag['name']
        else:
            self.header = 'Managing tags'

        tagsData = self.model.get_all_tags()
        if not tagsData:
            self.add_tag()
            tagsData = self.model.get_all_tags()

        self.info = ' '.join([t['name'] for t in tagsData]) + '\n'

        self.manage_tag_menu(tid)

    def manage_tag_menu(self, tid=None):
        about = '''
Short instruction
-----------------
? - help (this dialog)
/ - search tag
+ - add tag
- - remove tag
@ - append to time slot
0 - list tags without time_slot
& - search linked tasks
< - back
q - exit
        '''
        self.screen.change_path('~tag', '?/+-&@0<q', about, self.header,
                                self.info)
        menu = self.screen.print()

        if menu == 'q':
            self.screen.bye()

        elif menu == '/':
            self.search_tag(tid)
            self.manage_tag_menu(tid)

        elif menu == '?':
            self.screen.activate_about()
            self.manage_tag(tid)

        elif menu == '+':
            self.add_tag()

        elif menu == '-':
            self.remove_tag(tid)

        elif menu == '@':
            self.add_to_time_slot(tid)
            self.manage_tag(tid)

        elif menu == '<':
            return

        else:
            self.screen.add_fail('This is not implemented...')
            self.manage_tag_menu(tid)

    def add_tag(self):
        self.screen.print_init('Adding tag')
        name = input('Name: ')
        tid = self.model.create_tag(name)
        self.screen.add_message('tag has been created')
        self.manage_tag(tid)

    def search_tag(self, tid=None):
        tagsData = self.model.get_all_tags()
        if not tagsData:
            self.add_tag()
            tagsData = self.model.get_all_tags()

        tags = []
        for t in tagsData:
            tags.append(t['name'])

        selected = self.fzf.prompt(tags)
        if selected:
            tag = self.model.get_tag_by_name(selected[0])
            self.manage_tag(tag['id'])
        else:
            self.screen.add_fail('Tag was not selected...')

    def remove_tag(self, tid=None):
        tagsData = self.model.get_all_tags()
        if not tagsData:
            self.screen.add_fail('Where is no tags...')
            self.manage_tag_menu()

        tags = []
        for t in tagsData:
            tags.append(t['name'])

        selected = self.fzf.prompt(tags)
        if selected:
            self.model.remove_tag_by_name(selected[0])
            self.screen.add_message('tag has been deleted')
            self.manage_tag()
        else:
            self.screen.add_fail('Tag was not selected...')

    def add_to_time_slot(self, tid):
        if tid is None:
            self.screen.add_fail('Tag is not selected...')
            return

        ts_id = self.config.select_time_slot()
        if ts_id is None:
            self.screen.add_fail('Time slot was not selected...')
            return

        self.model.add_tag_to_time_slot(tid, ts_id)
예제 #14
0
class Task:
    def __init__(self):
        self.model = Model()
        self.fzf = FzfPrompt()
        self.screen = Screen()

        self.header = ''
        self.info = ''

    def search(self):
        tasks = []
        tasksData = self.model.get_all_tasks()
        if not tasksData:
            self.add()
            tasksData = self.model.get_all_tasks()

        for t in tasksData:
            tasks.append('%s: %s   [ %s ]' %
                         (t['aid'], t['description'], t['tag_names']))

        selected = self.fzf.prompt(tasks)
        if selected:
            m = re.search(r'^(.+):', selected[0])
            aid = m.group(1)
            if aid:
                self.edit_task(aid)
        else:
            self.screen.add_fail('Task was not selected...')

    def add(self):
        self.screen.print_init('Adding task')
        description = input('Description: ')
        aid = self.model.create_task_draft(description)
        self.screen.add_message('task has been created')
        self.manage_task(aid)

    def manage_task(self, aid):
        task = self.model.get_task(aid)
        self.header = 'Managing task: [' + task['aid'] + '] ' + task[
            'description']

        long_term = ' '
        if task['long_term'] and task['long_term'] != 'FALSE':
            long_term = 'x'

        tags = ''
        if task['tags']:
            tags = ' '.join([t['name'] for t in task['tags']])

        self.info = '''%s
Description: %s
Tags:        [%s]
Long Term:   [%s]
Created:     %s ''' % (task['aid'], task['description'], tags, long_term,
                       task['created_at'])

        if task['done'] and task['done'] != 'FALSE':
            self.info += bcolors.ENDC + bcolors.OKGREEN + '\nFinished:    ' + task[
                'finished_at']

        if task['active'] and task['active'] != 'FALSE':
            self.info += bcolors.ENDC + bcolors.WARNING + '\nACTIVE'

        self.manage_task_menu(aid)

    def manage_task_menu(self, aid):
        about = '''
Short instruction
-----------------
? - help (this dialog)
e - edit content
* - toggle long term
+ - add tag
- - remove tag
! - toggle active
v - toggle done
x - delete task
& - add child task
> - go to child
< - back
q - exit
        '''
        self.screen.change_path('~task', '?e*+-!v&><q', about, self.header,
                                self.info)
        menu = self.screen.print()

        if menu == 'q':
            self.screen.bye()

        elif menu == '?':
            self.screen.activate_about()
            self.manage_task_menu(aid)

        elif menu == 'e':
            self.edit_task(aid)

        elif menu == '*':
            self.toggle_long_term(aid)

        elif menu == '+':
            self.add_tags(aid)

        elif menu == '-':
            self.remove_tags(aid)

        elif menu == '!':
            self.toggle_active(aid)

        elif menu == 'v':
            self.toggle_done(aid)

        elif menu == '<':
            return

        else:
            self.screen.add_fail('This is not implemented...')
            self.manage_task_menu(aid)

    def edit_task(self, aid):
        task = self.model.get_task(aid)

        long_term = ' '
        if task['long_term'] and task['long_term'] != 'FALSE':
            long_term = 'x'

        tags = ''
        if task['tags']:
            tags = ' '.join([t['name'] for t in task['tags']])

        content = '''%s
Tags:        [%s]
Long Term:   [%s]
Created:     %s ''' % (task['aid'], tags, long_term, task['created_at'])

        if task['done'] and task['done'] != 'FALSE':
            content += '\nFinished:    ' + task['finished_at']

        if task['active'] and task['active'] != 'FALSE':
            content += '\n**ACTIVE**'

        content += '\n\n# ' + task['description']
        if task['content']:
            content += task['content']

        with tempfile.NamedTemporaryFile(suffix='.md', mode='r+') as temp:
            f = open(temp.name, 'r+')
            f.write(content)
            f.close()

            subprocess.call(['nvim', temp.name])

            f = open(temp.name, 'r')
            new_content = f.read()
            f.close()

            temp.close()

        found = False
        content = ''
        for row in new_content.splitlines():
            if found:
                content += '\n' + row
                continue

            if row == '# ' + task['description']:
                found = True

        self.model.save_content(aid, content)
        self.screen.add_message('content has been saved')
        self.manage_task(aid)

    def toggle_long_term(self, aid):
        self.model.toggle_long_term(aid)
        self.screen.add_message('task has been updated')
        self.manage_task(aid)

    def toggle_active(self, aid):
        self.model.toggle_active(aid)
        self.screen.add_message('task has been activated')
        self.manage_task(aid)

    def toggle_done(self, aid):
        self.model.toggle_done(aid)
        self.screen.add_message('task has been updated')
        self.manage_task(aid)

    def add_tags(self, aid):
        task = self.model.get_task(aid)
        unlinked_tags = self.model.get_tags_not_in_task(task['id'])
        if type(unlinked_tags
                ) is sqlite3.Cursor and unlinked_tags.rowcount == 0:
            self.screen.add_fail('Where is no more unlinked tags left...')
            self.manage_task(aid)

        tags = [t['name'] for t in unlinked_tags]

        selected = self.fzf.prompt(tags, '--multi --cycle')
        if selected:
            self.model.link_tags_to_task(task['id'], selected)
            self.screen.add_message('tags have been linked')
            self.manage_task(aid)
        else:
            self.screen.add_fail('Tag was not selected...')

    def remove_tags(self, aid):
        task = self.model.get_task(aid)
        if not task['tags']:
            self.screen.add_fail('Where is no tags linked...')
            self.manage_task(aid)

        tags = [t['name'] for t in task['tags']]

        selected = self.fzf.prompt(tags, '--multi --cycle')
        if selected:
            self.model.unlink_tags_from_task(task['id'], selected)
            self.screen.add_message('tags have been unlinked')
            self.manage_task(aid)
        else:
            self.screen.add_fail('Tag was not selected...')