コード例 #1
0
ファイル: modeling.py プロジェクト: TablewareBox/rid
def make_res(iter_index, json_file):
    fp = open(json_file, 'r')
    jdata = json.load(fp)
    numb_walkers = jdata["numb_walkers"]
    template_dir = jdata["template_dir"]
    bias_nsteps = jdata["bias_nsteps"]
    bias_frame_freq = jdata["bias_frame_freq"]
    nsteps = jdata["res_nsteps"]
    frame_freq = jdata["res_frame_freq"]
    sel_threshold = jdata["sel_threshold"]
    max_sel = jdata["max_sel"]
    cluster_threshold = jdata["cluster_threshold"]

    base_path = os.getcwd() + "/"
    iter_name = make_iter_name(iter_index)
    enhc_path = iter_name + "/" + enhc_name + "/"
    os.chdir(enhc_path)
    enhc_path = os.getcwd() + "/"
    os.chdir(base_path)
    templ_mol_path = template_dir + "/" + mol_name + "/"
    templ_res_path = template_dir + "/" + res_name + "/"
    res_path = iter_name + "/" + res_name + "/"
    create_path(res_path)

    ret_list = [True for ii in range(numb_walkers)]

    # sel angles
    ## check if we have graph in enhc
    for walker_idx in range(numb_walkers):
        walker_path = enhc_path + walker_format % walker_idx + "/"
        graph_files = glob.glob(walker_path + "/*.pb")
        if len(graph_files) != 0:
            os.chdir(walker_path)
            sel_cmd = "python3 test.std.py -m *.pb -t %f -d %s --output sel.out --output-angle sel.angle.out" % (
                sel_threshold, enhc_out_angle)
            sel_cmd = cmd_append_log(sel_cmd, "sel.log")
            log_task("select with threshold %f" % sel_threshold)
            log_task(sel_cmd)
            sp.check_call(sel_cmd, shell=True)
            os.chdir(base_path)
            sel_idx = []
            sel_angles = np.array([])
            with open(walker_path + "sel.out") as fp:
                for line in fp:
                    sel_idx += [int(x) for x in line.split()]
            if len(sel_idx) != 0:
                sel_angles = np.reshape(
                    np.loadtxt(walker_path + 'sel.angle.out'), [-1, cv_dim])
            elif len(sel_idx) == 0:
                np.savetxt(walker_path + 'num_of_cluster.dat', [0], fmt='%d')
                np.savetxt(walker_path + 'cls.sel.out', [], fmt='%d')
                continue

        else:
            sel_idx = range(
                len(glob.glob(walker_path + enhc_out_conf + "conf*gro")))
            sel_angles = np.loadtxt(walker_path + enhc_out_angle)
            sel_angles = np.reshape(sel_angles, [-1, cv_dim])
            np.savetxt(walker_path + 'sel.out', sel_idx, fmt='%d')
            np.savetxt(walker_path + 'sel.angle.out', sel_angles, fmt='%.6f')
        conf_start = 0
        conf_every = 1

        sel_idx = np.array(sel_idx, dtype=np.int)
        assert (len(sel_idx) == sel_angles.shape[0])
        if shell_clustering and len(sel_idx) > 1:
            cmd_sel_from_cluster = (
                base_path +
                "template/tools/cluster_cv.py -i %s -c %s -t %f --output-idx %s  --output-cv %s"
                % (walker_path + 'sel.out', walker_path + 'sel.angle.out',
                   cluster_threshold, walker_path + 'cls.sel.out',
                   walker_path + 'cls.sel.angle.out'))
            sp.check_call(cmd_sel_from_cluster, shell=True)
            sel_idx = np.loadtxt(walker_path + 'cls.sel.out', dtype=np.int)
        elif shell_clustering == False and len(sel_idx) > 1:
            cls_sel = sel_from_cluster(sel_angles, cluster_threshold)
            ##############################################################################################
            np.savetxt(walker_path + 'num_of_cluster.dat', [len(set(cls_sel))],
                       fmt='%d')
            if len(cls_sel) > max_sel:
                cls_sel = cls_sel[-max_sel:]
            sel_idx = sel_idx[cls_sel]
            np.savetxt(walker_path + 'cls.sel.angle.0.out',
                       sel_angles[cls_sel],
                       fmt='%.6f')
        elif len(sel_idx) == 1:
            np.savetxt(walker_path + 'num_of_cluster.dat', [1], fmt='%d')
        res_angles = np.loadtxt(walker_path + enhc_out_angle)
        res_angles = np.reshape(res_angles, [-1, cv_dim])
        res_angles = res_angles[sel_idx]
        np.savetxt(walker_path + 'cls.sel.out', sel_idx, fmt='%d')
        np.savetxt(walker_path + 'cls.sel.angle.out', res_angles, fmt='%.6f')
        res_confs = []
        for ii in sel_idx:
            res_confs.append(walker_path + enhc_out_conf + ("conf%d.gro" % ii))

        assert (len(res_confs) == res_angles.shape[0]
                ), "number of enhc out conf does not match out angle"
        assert (len(sel_idx) == res_angles.shape[0]
                ), "number of enhc out conf does not numb sel"
        nconf = len(res_confs)
        if nconf == 0:
            ret_list[walker_idx] = False
            continue

        sel_list = ""
        for ii in range(nconf):
            if ii == 0: sel_list = str(sel_idx[ii])
            else: sel_list += "," + str(sel_idx[ii])
        log_task("selected %d confs, indexes: %s" % (nconf, sel_list))

        for ii in range(conf_start, nconf, conf_every):
            # print (ii, sel_idx[ii])
            work_path = res_path + ((walker_format + ".%06d") %
                                    (walker_idx, sel_idx[ii])) + "/"
            os.makedirs(work_path)
            copy_file_list(mol_files, templ_mol_path, work_path)
            copy_file_list(res_files, templ_res_path, work_path)
            conf_file = walker_path + enhc_out_conf + ("conf%d.gro" %
                                                       sel_idx[ii])
            if os.path.exists(work_path + "conf.gro"):
                os.remove(work_path + "conf.gro")
            conf_file = os.path.abspath(conf_file)
            tmp_cwd = os.getcwd()
            os.chdir(work_path)
            os.symlink(os.path.relpath(conf_file), "conf.gro")
            os.chdir(tmp_cwd)

        task_dirs = []
        task_args = []
        for ii in range(conf_start, nconf, conf_every):
            dir_str = ((walker_format + ".%06d") % (walker_idx, sel_idx[ii]))
            arg_str = np.array2string(res_angles[ii],
                                      formatter={
                                          'float_kind': lambda x: "%.6f" % x
                                      }).replace("[",
                                                 "").replace("]", "").replace(
                                                     "\n", " ")
            task_dirs.append(dir_str)
            task_args.append(arg_str)
            log_task(task_dirs[-1] + ": " + task_args[-1])

        os.chdir(res_path)
        exec_hosts(MachineLocal, "./general_mkres.sh", 1, task_dirs, task_args)
        os.chdir(base_path)

        for ii in range(conf_start, nconf, conf_every):
            work_path = res_path + ((walker_format + ".%06d") %
                                    (walker_idx, sel_idx[ii])) + "/"
            mol_conf_file = work_path + "grompp.mdp"
            make_grompp_res(mol_conf_file, nsteps, frame_freq)
            replace(work_path + res_plm, "STRIDE=[^ ]* ",
                    "STRIDE=%d " % frame_freq)

    if any(ret_list):
        return True
    else:
        return False
コード例 #2
0
def make_res(iter_index, json_file):
    fp = open(json_file, 'r')
    jdata = json.load(fp)
    cmd_env = jdata.get("cmd_sources", [])
    sits_param = jdata.get("sits_settings", None)
    if sits_param is not None:
        sits_param["nst-sits-enerd-out"] = jdata["res_frame_freq"]
    bPosre = jdata.get("gmx_posre", False)
    bPosre_res = jdata.get("gmx_posre_res", False)
    numb_walkers = jdata["numb_walkers"]
    template_dir = jdata["template_dir"]
    bias_nsteps = jdata["bias_nsteps"]
    bias_frame_freq = jdata["bias_frame_freq"]
    nsteps = jdata["res_nsteps"]
    frame_freq = jdata["res_frame_freq"]
    sel_threshold = jdata["sel_threshold"]
    max_sel = jdata["max_sel"]
    cluster_threshold = jdata["cluster_threshold"]
    init_numb_cluster = [22, 30]

    base_path = os.getcwd()
    iter_name = make_iter_name(iter_index)
    enhc_path = join(base_path, iter_name, enhc_name)

    templ_mol_path = join(template_dir, mol_name)
    templ_res_path = join(template_dir, res_name)
    res_path = join(iter_name, res_name) + "/"
    create_path(res_path)

    ret_list = [True for ii in range(numb_walkers)]

    # sel angles
    # check if we have graph in enhc
    for walker_idx in range(numb_walkers):
        walker_path = join(enhc_path, walker_format % walker_idx) + "/"
        if sits_param is not None:
            if os.path.exists(join("sits", "log_nk.dat")):
                shutil.copyfile(join("sits", "log_nk.dat"),
                                join(walker_path, "log_nk.dat"))
            if os.path.exists(join("sits", "log_norm.dat")):
                shutil.copyfile(join("sits", "log_norm.dat"),
                                join(walker_path, "log_norm.dat"))
        os.chdir(walker_path)

        graph_files = glob.glob("*.pb")
        if len(graph_files) != 0:
            cluster_threshold = np.loadtxt(
                join(base_path, "cluster_threshold.dat"))
            sel_cmd = "python3 test.std.py -m *.pb -t %f -d %s --output sel.out --output-angle sel.angle.out" % \
                      (sel_threshold, enhc_out_angle)
            sel_cmd = cmd_append_log(sel_cmd, "sel.log")
            log_task("select with threshold %f" % sel_threshold)
            log_task(sel_cmd)
            sp.check_call(sel_cmd, shell=True)
            sel_idx = []
            sel_angles = np.array([])
            with open("sel.out") as fp:
                for line in fp:
                    sel_idx += [int(x) for x in line.split()]
            if len(sel_idx) != 0:
                sel_angles = np.reshape(np.loadtxt('sel.angle.out'),
                                        [-1, cv_dim])
            elif len(sel_idx) == 0:
                np.savetxt('num_of_cluster.dat', [0], fmt='%d')
                np.savetxt('cls.sel.out', [], fmt='%d')
                continue

        else:
            cluster_threshold = jdata["cluster_threshold"]
            conf_files = glob.glob(join(enhc_out_conf, "conf*gro"))
            sel_idx = range(len(conf_files))
            sel_angles = np.loadtxt(enhc_out_angle)
            sel_angles = np.reshape(sel_angles, [-1, cv_dim])
            np.savetxt('sel.out', sel_idx, fmt='%d')
            np.savetxt('sel.angle.out', sel_angles, fmt='%.6f')
            if walker_idx == 0:
                cls_sel = sel_from_cluster(sel_angles, cluster_threshold)
                test_numb_cluster = len(set(cls_sel))
                print(test_numb_cluster)
                for test_iter in range(500):
                    if test_numb_cluster < init_numb_cluster[0]:
                        cluster_threshold = cluster_threshold * 0.95
                        cls_sel = sel_from_cluster(sel_angles,
                                                   cluster_threshold)
                        test_numb_cluster = len(set(cls_sel))
                        print(cluster_threshold)
                        print(test_numb_cluster)
                    elif test_numb_cluster > init_numb_cluster[1]:
                        cluster_threshold = cluster_threshold * 1.05
                        cls_sel = sel_from_cluster(sel_angles,
                                                   cluster_threshold)
                        test_numb_cluster = len(set(cls_sel))
                        print(cluster_threshold)
                        print(test_numb_cluster)
                    else:
                        print(cluster_threshold)
                        np.savetxt(join(base_path, 'cluster_threshold.dat'),
                                   [cluster_threshold],
                                   fmt='%f')
                        np.savetxt('cluster_threshold.dat',
                                   [cluster_threshold],
                                   fmt='%f')
                        break
            else:
                cluster_threshold = np.loadtxt(
                    join(base_path, "cluster_threshold.dat"))

        conf_start = 0
        conf_every = 1

        sel_idx = np.array(sel_idx, dtype=np.int)
        assert (len(sel_idx) == sel_angles.shape[0])
        if shell_clustering and len(sel_idx) > 1:
            cmd_sel_from_cluster = (
                base_path +
                "/template/tools/cluster_cv.py -i %s -c %s -t %f --output-idx %s  --output-cv %s"
                % ('sel.out', 'sel.angle.out', cluster_threshold,
                   'cls.sel.out', 'cls.sel.angle.out'))
            sp.check_call(cmd_sel_from_cluster, shell=True)
            sel_idx = np.loadtxt('cls.sel.out', dtype=np.int)
        elif shell_clustering == False and len(sel_idx) > 1:
            cls_sel = sel_from_cluster(sel_angles, cluster_threshold)
            ##############################################################################################
            np.savetxt('num_of_cluster.dat', [len(set(cls_sel))], fmt='%d')
            np.savetxt('cluster_threshold.dat', [cluster_threshold], fmt='%f')
            if len(cls_sel) > max_sel:
                cls_sel = cls_sel[-max_sel:]
            sel_idx = sel_idx[cls_sel]
            np.savetxt('cls.sel.angle.0.out', sel_angles[cls_sel], fmt='%.6f')
        elif len(sel_idx) == 1:
            np.savetxt('num_of_cluster.dat', [1], fmt='%d')
        res_angles = np.loadtxt(enhc_out_angle)
        res_angles = np.reshape(res_angles, [-1, cv_dim])
        res_angles = res_angles[sel_idx]
        np.savetxt('cls.sel.out', sel_idx, fmt='%d')
        np.savetxt('cls.sel.angle.out', res_angles, fmt='%.6f')
        res_confs = []
        for ii in sel_idx:
            res_confs.append(walker_path + enhc_out_conf + ("conf%d.gro" % ii))

        assert (len(res_confs) == res_angles.shape[0]
                ), "number of enhc out conf does not match out angle"
        assert (len(sel_idx) == res_angles.shape[0]
                ), "number of enhc out conf does not numb sel"
        nconf = len(res_confs)
        if nconf == 0:
            ret_list[walker_idx] = False
            continue

        sel_list = ""
        for ii in range(nconf):
            if ii == 0:
                sel_list = str(sel_idx[ii])
            else:
                sel_list += "," + str(sel_idx[ii])
        log_task("selected %d confs, indexes: %s" % (nconf, sel_list))
        os.chdir(base_path)

        for ii in range(conf_start, nconf, conf_every):
            # print (ii, sel_idx[ii])
            work_path = join(res_path, (walker_format + ".%06d") %
                             (walker_idx, sel_idx[ii])) + "/"
            os.makedirs(work_path)
            copy_file_list(mol_files, templ_mol_path, work_path)
            copy_file_list(res_files, templ_res_path, work_path)
            if sits_param is not None:
                if os.path.exists(join("sits", "log_nk.dat")):
                    shutil.copyfile(join("sits", "log_nk.dat"),
                                    join(work_path, "log_nk.dat"))
                if os.path.exists(join("sits", "log_norm.dat")):
                    shutil.copyfile(join("sits", "log_norm.dat"),
                                    join(work_path, "log_norm.dat"))
                mol_conf_file = join(work_path, "grompp_sits.mdp")
                if bPosre_res:
                    mol_conf_file = join(work_path,
                                         "grompp_sits_restraint.mdp")
                make_grompp_sits(mol_conf_file,
                                 sits_param,
                                 sits_iter=False,
                                 iter_index=iter_index)
            conf_file = walker_path + enhc_out_conf + ("conf%d.gro" %
                                                       sel_idx[ii])
            if os.path.exists(work_path + "conf.gro"):
                os.remove(work_path + "conf.gro")
            conf_file = os.path.abspath(conf_file)
            conf_init_file = walker_path + "conf_init.gro"
            if os.path.exists(work_path + "conf_init.gro"):
                os.remove(work_path + "conf_init.gro")
            conf_init_file = os.path.abspath(conf_init_file)
            tmp_cwd = os.getcwd()
            os.chdir(work_path)
            os.symlink(os.path.relpath(conf_file), "conf.gro")
            os.symlink(os.path.relpath(conf_init_file), "conf_init.gro")
            os.chdir(tmp_cwd)

        task_dirs = []
        task_args = []
        for ii in range(conf_start, nconf, conf_every):
            dir_str = ((walker_format + ".%06d") % (walker_idx, sel_idx[ii]))
            arg_str = np.array2string(res_angles[ii],
                                      formatter={
                                          'float_kind': lambda x: "%.6f" % x
                                      }).replace("[",
                                                 "").replace("]", "").replace(
                                                     "\n", " ")
            task_dirs.append(dir_str)
            task_args.append(arg_str)
            log_task(task_dirs[-1] + ": " + task_args[-1])
        os.chdir(base_path)
        os.chdir(res_path)
        exec_hosts(MachineLocal, "./general_mkres.sh", 1, task_dirs, task_args)
        os.chdir(base_path)

        for ii in range(conf_start, nconf, conf_every):
            work_path = res_path + ((walker_format + ".%06d") %
                                    (walker_idx, sel_idx[ii])) + "/"
            mol_conf_files = glob.glob(work_path + "*.mdp")
            for mol_conf_file in mol_conf_files:
                make_grompp_res(mol_conf_file, nsteps, frame_freq)
            replace(work_path + res_plm, "STRIDE=[^ ]* ",
                    "STRIDE=%d " % frame_freq)

        os.chdir(base_path)

    if any(ret_list):
        return True
    else:
        return False