Exemplo n.º 1
0
 async def send_reply(self, reply, message: discord.Message, where) -> discord.Message:
     if reply:
         for r in reply:
             r = random_choose(r) if isinstance(r, list) else r
             r = Variable(message).apply_variable(r)
             if where == 'group':
                 self.Botreply = await message.channel.send(r)
             elif where == 'private':
                 self.Botreply = DMchannel = await message.author.create_dm()
                 await DMchannel.send(r)
             write_log(hora_atual()+f' Enviando a resposta "{r}" há mensagem "{emoji.demojize(message.content)}" do author {message.author}.', path.log)
Exemplo n.º 2
0
 async def send_reaction(self, reaction, message:discord.Message, where):
     if reaction:
         for r in reaction:
             code_reaction = r
             r = random_choose(r) if isinstance(r, list) else r
             r = emoji.emojize(r, use_aliases = True)
             try:
                 if where == 'author':
                     await message.add_reaction(r)
                 elif where == 'bot' and self.Botreply:
                     await self.Botreply.add_reaction(r)
                 write_log(hora_atual()+f' Adicionando a reação "{code_reaction}" a mensagem "{emoji.demojize(message.content)}" do autor {message.author}.', path.log)
             except discord.HTTPException:
                 print(r)
Exemplo n.º 3
0
def make_single_inversion(args, plt_show=False, inversion_id=1):
    """
    Function to simulate and make the inversion for a single strong lensing
    system

    Input:
     - lens_file     struct : arguments from the parser
     - plt_show        bool : flag to show the critical curves and caustics
     - inversion_id     int : id for the inversion
    Output:
     - NONE
    """
    str_log = ""
    if args.substructure:
        #create a par file with the main lens + substructures
        all_systems = add_subs_parfile(lens_file=args.lens_file, n_subs=3)
    else:
        #create a par file with the main lens only
        all_systems = add_subs_parfile(lens_file=args.lens_file, n_subs=0)

#    if args.lens_position_error:
#        for i in all_systems:
#            lens_err_x = np.random.randn() \
#                         * float(args.lens_position_error_value)
#            lens_err_y = np.random.randn() \
#                         * float(args.lens_position_error_value)

#            str_log = str_log + "lens_xy_real  " + str(i['x_centre']) + "  " + \
#                       str(i['y_centre']) + "\n"
#            i['x_centre'] = i['x_centre'] + lens_err_x
#            i['y_centre'] = i['y_centre'] + lens_err_y
#            str_log = str_log + "lens_xy_final  " + str(i['x_centre']) + \
#                      "  " + str(i['y_centre']) + "\n"

    str_log = str_log + "lens_xy_final  " + \
              str(all_systems[len(all_systems) - 1]["x_centre"]) + "  " + \
              str(all_systems[len(all_systems) - 1]["y_centre"]) + "\n"

    if args.lens_position_error:
        lens_err_x = np.random.randn() \
                     * float(args.lens_position_error_value)
        lens_err_y = np.random.randn() \
                     * float(args.lens_position_error_value)
        all_systems[len(all_systems) - 1]["x_centre"] = lens_err_x + \
                               all_systems[len(all_systems) - 1]["x_centre"]

        all_systems[len(all_systems) - 1]["y_centre"] = lens_err_y + \
                               all_systems[len(all_systems) - 1]["y_centre"]

    str_log = str_log + "lens_xy_final  " + \
              str(all_systems[len(all_systems) - 1]["x_centre"]) + "  " + \
              str(all_systems[len(all_systems) - 1]["y_centre"]) + "\n"

    #Adding error on the lens red-shift
    if args.lens_z_error:
        for i in all_systems:
            lens_err_z = np.random.randn() * float(args.lens_z_error_value)
            i['z_lens'] = i['z_lens'] + lens_err_z

    #Adding error on the source red-shift
    if args.source_z_error:
        source_err_z = np.random.randn() * float(args.source_z_error_value)
        args.source_final_z = args.source_real_z + source_err_z
        #z_source can be < z_lens after adding the z_source error, this while
        #avoid this
        while args.source_final_z < args.lens_real_z:
            source_err_z = np.random.randn() * float(args.source_z_error_value)
            args.source_final_z = args.source_real_z + source_err_z
    else:
        args.source_final_z = args.source_real_z

    #print all_systems
    lt.generate_par_images(all_systems, file_par='im_' + args.lens_file)
    lt.generate_par_curves(all_systems, args, file_par='cc_' + args.lens_file)
    #run lenstool to generate de caustics and critical curves
    str_run_lt = 'lenstool ' + 'cc_' + args.lens_file + ' -n'
    os.system(str_run_lt)

    #read the caustics and define the radius within the sources will be sorted
    courves_file = 'ce.dat'
    xy_ca = np.loadtxt(courves_file, usecols=(3, 4), unpack=True)
    ca_radial_max = np.sqrt(max(xy_ca[0]**2 + xy_ca[1]**2))

    lenstool_img_pos = []
    count = 0
    #n_inter_max = 200
    #sort the sources until find multiplicitie > 3
    while len(lenstool_img_pos) < 4:  #and count < n_inter_max:
        source = fc.generate_sources(n_src=1, radius=ca_radial_max)
        lt.write_src_multfile( src_coords = source, args = args, \
                               file_name = 'source.mul' )
        str_run_lt = 'lenstool ' + 'im_' + args.lens_file + ' -n > lenstool.out'
        os.system(str_run_lt)

        lenstool_img_pos = list(lt.read_images_lenstool(\
                                                      image_file = 'image.all'))
        count = count + 1
    #removing the image with lower magnification (usualy < 1) to disconsider
    #the central image
    if len(lenstool_img_pos) > 4:
        print "Found more than 4 multiple images"
        lenstool_img_mag = lt.read_amplification()
        min_index = lenstool_img_mag[0].index(min(lenstool_img_mag[0]))

        lenstool_img_mag[0].pop(min_index)
        lenstool_img_pos.pop(min_index)

    #saving multiple image positions
    for i in lenstool_img_pos:
        str_log = str_log + "im_xy_real  " + str(i[0]) + "  " + str(
            i[1]) + "\n"

    #adding error to the image positions
    if args.position_error:
        #lenstool_img_pos_shape = np.shape(lenstool_img_pos)
        im_err = float(args.position_error_value) * \
                 np.random.randn(np.shape(lenstool_img_pos)[0], \
                                 np.shape(lenstool_img_pos)[1])

        lenstool_img_pos = lenstool_img_pos + im_err

    for i in lenstool_img_pos:
        str_log = str_log + "im_xy_final  " + str(i[0]) + "  " + str(i[1]) + \
                  "\n"
    fc.write_log(str(inversion_id), "test.txt")
    fc.write_log(str_log, str(inversion_id) + "extra.txt")

    #FIXME find a way to plot cc from real and optimized system
    if plt_show:
        pc.main_plot_curves_py(plot_show=False)
        lt.plot_points(images=lenstool_img_pos, plt_show=True)

    opt_result = lt.make_inversion_lenstool(lenstool_img_pos, \
            args.source_final_z, inversion_par_file = args.inv_file)

    #Saving files:
    file_dic = {
                'file_generate_arcs' : 'im_' + args.lens_file, \
                'file_source' : 'source.mul', \
                'file_make_inversion' : args.inv_file, \
                'file_best_fit' : 'best.par', \
                'file_chires' : 'chires.dat', \
               }
    lt.copy_inversion_files(inversion_id, file_dic)

    return opt_result
Exemplo n.º 4
0
        num = 0
        for index in range(len(person)):
            # 调用信息推送接口的入参请写成如下的形式
			data = {
                "touser": person[index], # 工号
                "msgtype": "news", # news表示图文消息
                "news": {
                    "articles": [
                        {
                            "title": "<h4>保费快报</h4><p>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;>请点击图片查看详细信息</p>", # 标题,支持html标签表达的形式
                            "description": information, # 内容
                            "picurl": img, # 上方的图片
                            "url": return_url(), # 点击跳转使用的链接
                        }
                    ]
                },
                "copy": 1, # 是否可复制,1表示不能,0表示可以
                "share": 1,# 是否可转发,1表示不能,0表示可以
                "reply": 1,# 是否可回复,1表示不能,0表示可以
                "watermark": 0# 是否有水印,1表示无,0表示有
            }
            response = requests.post(url, json=data)
            res = json.loads(response.text)
            if res['errcode'] == 0:
                write_log(1, person[index], "tuwen") # 这里是写log
            else:
                write_log(0, person[index], "tuwen")
        print("message sent yet")
    else:
        print("no message to send.")
Exemplo n.º 5
0
 async def on_ready():
     write_log(hora_atual() + ' Bot inicializado.', paths.log)
Exemplo n.º 6
0
                ]
                to_insert = dict()

                for each in to_read:
                    to_insert[each] = None
                    if each in actual:
                        to_insert[each] = actual[each]

                await Interpreter.message_and_reply(
                    self,
                    message=message,
                    conditions=to_insert['conditions'],
                    expected_message=to_insert['expected message'],
                    reply=to_insert['reply'],
                    reaction=to_insert['reaction'],
                    delete=to_insert['delete'],
                    pin=to_insert['pin'],
                    delay=to_insert['delay'],
                    kick=to_insert['kick'],
                    ban=to_insert['ban'],
                    where_reply=to_insert['where reply'],
                    where_reaction=to_insert['where reaction'])

        client.run(token)


try:
    Bot()
except discord.errors.LoginFailure:
    write_log(hora_atual() + ' Falha no login.', paths.log)
Exemplo n.º 7
0
 async def ban_member(self, ban, message: discord.Message):
     if ban and isinstance(message.channel, discord.GroupChannel):
         await message.author.ban()
         write_log(hora_atual()+f' Banindo jogador "{message.author.name}"."')
Exemplo n.º 8
0
 async def kick_member(self, kick, message: discord.Message):
     if kick and isinstance(message.channel, discord.GroupChannel):
         await message.author.kick()
         write_log(hora_atual()+f' Expulsando jogador "{message.author.name}".')
Exemplo n.º 9
0
 async def pin_message(self, pin, message: discord.Message):
     if pin:
         await message.pin()
         write_log(hora_atual()+f' Fixando mensagem "{emoji.demojize(message.content)}" do autor {message.author}.',path.log)
Exemplo n.º 10
0
 async def remove_message(self, delete, message: discord.Message):
     if delete and isinstance(message.channel, discord.GroupChannel):
         await message.delete()
         write_log(hora_atual()+f' Removendo mensagem "{emoji.demojize(message.content)}" do autor {message.author}.',path.log)
Exemplo n.º 11
0
import os
from config import private_token, repoUrlType
from functions import write_log, load_projects

write_log('Operation starting...')
write_log('*' * 30, False)

write_log('Getting the project list you can access from GitLab.')
projects = load_projects(private_token)
write_log('Your projects fetched.')

write_log('*' * 30, False)

for project in projects:
    if repoUrlType == 'ssh':
        projectUri = project['ssh_url_to_repo']
    else:
        projectUri = project['http_url_to_repo']

    write_log(projectUri + ' cloning...')

    targetDirectory = 'repositories/' + project['path'] + '.git'

    if os.path.exists(targetDirectory):
        write_log(targetDirectory + ' deleting...')
        os.system('rm -rf ' + targetDirectory)

    os.system('git clone --mirror --progress ' + projectUri + ' ' + targetDirectory)

    write_log(targetDirectory + ' clone completed!')
    write_log('*' * 30, False)