def pyvol_window():
""" """
from pymol.Qt.utils import loadUi
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'pyvol_gui.ui')
form = loadUi(uifile, dialog)
refresh_installation_status(form)
form.close_button.clicked.connect(dialog.close)
form.run_button.clicked.connect(lambda: run_gui_pyvol(form))
form.browse_button.clicked.connect(lambda: browse_pocket_file(form))
form.load_button.clicked.connect(lambda: run_gui_load(form))
form.install_remote_button.clicked.connect(
lambda: install_remote_pyvol(form))
form.install_cache_button.clicked.connect(
lambda: install_local_pyvol(form))
form.check_updates_button.clicked.connect(
lambda: refresh_installation_status(form, check_for_updates=True))
form.update_button.clicked.connect(lambda: update_pyvol(form))
form.msms_included_cbox.stateChanged.connect(
lambda: toggle_included_msms(form))
dialog.show()
def load_form(self, name, dialog=None):
'''Load a form from pmg_qt/forms/{name}.py'''
import importlib
if dialog is None:
dialog = QtWidgets.QDialog(self)
widget = dialog
elif dialog == 'floating':
widget = QtWidgets.QWidget(self)
else:
widget = dialog
try:
m = importlib.import_module('.forms.' + name, 'pmg_qt')
except ImportError as e:
if pymol.Qt.DEBUG:
print('load_form import failed (%s)' % (e, ))
uifile = os.path.join(os.path.dirname(__file__), 'forms',
'%s.ui' % name)
form = pymol.Qt.utils.loadUi(uifile, widget)
else:
if hasattr(m, 'Ui_Form'):
form = m.Ui_Form()
else:
form = m.Ui_Dialog()
form.setupUi(widget)
if dialog == 'floating':
dialog = QtWidgets.QDockWidget(widget.windowTitle(), self)
dialog.setFloating(True)
dialog.setWidget(widget)
dialog.resize(widget.size())
form._dialog = dialog
return form
def __init__(self):
from pymol.Qt import QtWidgets
dialog = QtWidgets.QDialog()
self.setupUi(dialog)
self.populate_ligand_select_list()
dialog.accepted.connect(self.accept)
dialog.exec_()
def make_dialog():
# entry point to PyMOL's API
from pymol import cmd
# pymol.Qt provides the PyQt5 interface, but may support PyQt4
# and/or PySide as well
from pymol.Qt import QtWidgets
from pymol.Qt.utils import loadUi
from pymol.Qt.utils import getSaveFileNameWithExt
# create a new Window
dialog = QtWidgets.QDialog()
# populate the Window from our *.ui file which was created with the Qt Designer
uifile = os.path.join(os.path.dirname(__file__), 'demowidget.ui')
form = loadUi(uifile, dialog)
# callback for the "Ray" button
def run():
# get form data
height = form.input_height.value()
width = form.input_width.value()
dpi = form.input_dpi.value()
filename = form.input_filename.text()
units = form.input_units.currentText()
# calculate dots per centimeter or inch
if units == 'cm':
dots_per_unit = dpi * 2.54
else:
dots_per_unit = dpi
# convert image size to pixels
width *= dots_per_unit
height *= dots_per_unit
# render the image
if filename:
cmd.png(filename, width, height, dpi=dpi, ray=1, quiet=0)
else:
cmd.ray(width, height, quiet=0)
print('No filename selected, only rendering on display')
# callback for the "Browse" button
def browse_filename():
filename = getSaveFileNameWithExt(dialog,
'Save As...',
filter='PNG File (*.png)')
if filename:
form.input_filename.setText(filename)
# hook up button callbacks
form.button_ray.clicked.connect(run)
form.button_browse.clicked.connect(browse_filename)
form.button_close.clicked.connect(dialog.close)
return dialog
def run_plugin_gui():
'''
Open our custom dialog
'''
global dialog
if dialog is None:
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'gui.ui')
form = loadUi(uifile, dialog)
Isosurface(form)
dialog.show()
def create_dialog():
dialog = QtWidgets.QDialog()
dialog.setWindowTitle('AlignIt Pymol plugin')
layout = QtWidgets.QVBoxLayout(dialog)
alignit = AlignItPlugin()
actions = {
'Read pharmacophore...': lambda: alignit.readAlignIt(dialog),
}
for name, action in actions.items():
btn = QtWidgets.QPushButton(name, dialog)
btn.pressed.connect(action)
layout.addWidget(btn)
return dialog
def __init__(self):
# create a new Window
self.dialog = QtWidgets.QDialog()
# populate the Window from our *.ui file which was created with the Qt Designer
uifile = os.path.join(os.path.dirname(__file__), 'widgetMPbuilder.ui')
self.form = loadUi(uifile, self.dialog)
# open always on detergents
self.changeForm("detergent")
self.protName = None
self.membName = None
self.scafName = None
self.dataName = None
self.runNumber = 0
# name of the model
self.modelName = ""
# prefix
self.prefixName = ""
# crysol int prediction
self.prediction = ""
# crysol fit
self.fit = ""
# result of the fit
self.fitResult = {'chi2': -9999, 'Rg': -9999, 'eDens': -9999}
# whether to build a membrane or use prebuilt one
self.buildMemb = False
# hook up button callbacks
self.form.button_build.clicked.connect(self.run_build)
self.form.button_refinement.clicked.connect(self.run_refinement)
self.form.button_crysol_fit.clicked.connect(self.run_crysol_fit) # single fit of assembly to data
self.form.button_crysol_predict.clicked.connect(self.run_crysol_predict) # predict theory
# self.form.button_crysol_predict.clicked.connect(lambda: self.run_crysol_predict(modelName))
self.form.btn_browse_prot.clicked.connect(self.browse_filename_prot)
self.form.btn_browse_lip.clicked.connect(self.browse_filename_lip)
self.form.btn_browse_scaffold.clicked.connect(self.browse_filename_scaffold)
self.form.btn_browse_data.clicked.connect(self.browse_filename_data)
self.form.button_close.clicked.connect(self.dialog.close)
# change GUI depending upon the choice of assembly type
self.form.input_type.currentIndexChanged.connect(self.change_assembly)
# emptyAssembly = assemble complex without transmembrane protein component
self.form.checkBox_emptyAssembly.toggled.connect(self.emptyAssembly)
# preOriProt = pre-oriented protein
self.form.checkBox_3.toggled.connect(self.preOriProt)
self.form.checkBox_prebuild_bilayer.toggled.connect(self.preBuildBilayer)
def show_plugin_info_dialog(self, info):
dialog = QtWidgets.QDialog(None)
dialog.setWindowTitle('Plugin Information')
layout = QtWidgets.QVBoxLayout()
table = QtWidgets.QTableWidget(0, 2)
table.verticalHeader().hide()
table.horizontalHeader().hide()
table.horizontalHeader().setStretchLastSection(True)
layout.addWidget(table)
dialog.setLayout(layout)
def add_line(label, text):
row = table.rowCount()
table.insertRow(table.rowCount())
table_item = QtWidgets.QTableWidgetItem(label)
table_item.setFlags(table_item.flags() &
~(Qt.ItemIsEditable))
table.setItem(row, 0, table_item)
table_item = QtWidgets.QTableWidgetItem(text)
table_item.setFlags(table_item.flags() &
~(Qt.ItemIsEditable))
table.setItem(row, 1, table_item)
add_line('Name', info.name)
if not info.is_temporary:
add_line('Python Module Name', info.mod_name)
add_line('Filename', info.filename)
metadata = info.get_metadata()
for label, value in metadata.items():
add_line(label, value)
if not info.is_temporary:
if info.loaded:
add_line('commands', ', '.join(info.commands))
docstring = info.get_docstring() or 'No documentation available.'
browser = QtWidgets.QTextBrowser()
browser.setPlainText(docstring)
layout.addWidget(browser)
table.resizeColumnsToContents()
dialog.resize(600, dialog.height())
dialog.exec_()
def pyvol_window():
""" """
from pymol.Qt.utils import loadUi
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'pyvol_gui.ui')
form = loadUi(uifile, dialog)
refresh_installation_status(form)
form.close_button.clicked.connect(dialog.close)
form.run_button.clicked.connect(lambda: run_gui_pyvol(form))
form.browse_button.clicked.connect(lambda: browse_pocket_file(form))
form.load_button.clicked.connect(lambda: run_gui_load(form))
dialog.show()
def displayTextDialog(self, text):
"""
Opens a generic text dialog and displays provided text.
"""
if not self.text_dialog:
self.text_dialog = QtWidgets.QDialog()
layout = QtWidgets.QVBoxLayout()
self.text_dialog.setLayout(layout)
self.text_dialog.text_display = QtWidgets.QPlainTextEdit()
self.text_dialog.text_display.setReadOnly(True)
self.text_dialog.text_display.setStyleSheet(
"font-family: monospace, courier")
size = self.text_dialog.size()
size.setWidth(DEFAULT_TEXT_DIALOG_WIDTH)
self.text_dialog.resize(size)
layout.addWidget(self.text_dialog.text_display)
self.text_dialog.text_display.setPlainText(text)
self.text_dialog.show()
self.text_dialog.raise_()
def run_gui_qt():
from pymol.Qt import QtWidgets
from pymol.Qt.utils import loadUi
# create new Window
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'form.ui')
form = loadUi(uifile, dialog)
def browse_file():
form.filenames, extension_filter = QtWidgets.QFileDialog.getOpenFileNames(
dialog, 'Open', filter='JSON file (*.json)')
if form.filenames:
form.input_filename.setText(str(form.filenames))
form.input_state.setText('0')
obj_name = os.path.basename(form.filenames[0]).rsplit('.', 1)[0]
form.input_object.setText(obj_name)
form.browse_button.clicked.connect(browse_file)
form.close_button.clicked.connect(dialog.close)
form.input_filename.setReadOnly(True)
@form.load_button.clicked.connect
def load_from_gui_qt():
state = int(form.input_state.text())
obj_name = form.input_object.text()
for fn in form.filenames:
load_json(fn, obj_name, state)
if state:
state += 1
dialog.close()
dialog.show()
def __init__(self, _pymol_running=False, *args, **kwargs):
super().__init__(*args, **kwargs)
self.uiIcon = os.path.join(package_directory, 'UI', 'icon.png')
self.exampleDataPath = os.path.join(package_directory, 'examples')
fretrajUI = os.path.join(package_directory, 'UI', 'fretraj.ui')
self.settingsUI = os.path.join(package_directory, 'UI', 'settings.ui')
self.textUI = os.path.join(package_directory, 'UI', 'textpad.ui')
utils.loadUi(fretrajUI, self)
self.setWindowTitle("FRETraj")
self.setWindowIcon(utils.QtGui.QIcon(self.uiIcon))
self._pymol_running = _pymol_running
self.statusBar().showMessage("Ready", 2000)
self.readTheDocsURL = None
self.settingsWindow = QtWidgets.QDialog(self)
utils.loadUi(self.settingsUI, self.settingsWindow)
self.settingsWindow.setWindowTitle("FRETraj - Settings")
self.textWindow = QtWidgets.QDialog(self)
utils.loadUi(self.textUI, self.textWindow)
# initialize labels dictionary with defaults from GUI
self.struct = None
self.av = {}
self.traj = {}
self.labels = {'Position': {}, 'Distance': {}}
self.labelName = self.comboBox_labelName.currentText()
self.labelName_default = self.comboBox_labelName.currentText()
self.distanceName = self.comboBox_distanceName.currentText()
self.distanceName_default = self.comboBox_distanceName.currentText()
self.update_labelDict()
self.labels_default = copy.deepcopy(self.labels)
# set root path
root_err = 'No root directory specified. FRETraj is not initialized.'
self.settings = {
'root_path': None,
'browser': None,
'local_docs': None
}
if os.path.isfile(
'{}/.fretraj_settings.conf'.format(package_directory)):
with open('{}/.fretraj_settings.conf'.format(package_directory),
'r') as f:
self.settings = json.load(f)
if os.path.isdir(self.settings['root_path']):
self.lineEdit_rootDirectory.setText(
self.settings['root_path'])
self.settingsWindow.lineEdit_rootDirectory.setText(
self.settings['root_path'])
else:
self.settings['root_path'] = None
self.setRootDirectory()
if not self.settings['root_path']:
raise ValueError(root_err)
else:
self.setRootDirectory()
if not self.settings['root_path']:
raise ValueError(root_err)
# examples
n_examples = 0
fileformat = '.pdb'
self.exampleQAction = {}
files = [
f for f in os.listdir(self.exampleDataPath)
if f.endswith(fileformat)
]
for example in files:
self.exampleQAction[example] = self.menuLoad_Example.addAction(
example.replace(fileformat, ''))
self.exampleQAction[example].triggered.connect(
functools.partial(self.openExample,
self.exampleQAction[example].text(),
fileformat))
n_examples += 1
if n_examples > 0:
self.menuLoad_Example.removeAction(self.example_placeholder)
# activate / deactivate GUI elements
self.dyeRadius_spinBox_OnOff()
self.push_computeACV.setEnabled(False)
self.doubleSpinBox_contourValue.setEnabled(False)
self.doubleSpinBox_contourValue_CV.setEnabled(False)
self.spinBox_bfactor.setEnabled(False)
self.spinBox_gaussRes.setEnabled(False)
self.checkBox_transparentAV.setEnabled(False)
self.doubleSpinBox_gridBuffer.setEnabled(False)
self.push_calculateFRET.setEnabled(False)
self.spinBox_statePDB.setEnabled(False)
self.spinBox_atomID.setEnabled(False)
self.push_transfer.setEnabled(False)
self.push_loadParameterFile.setEnabled(False)
self.push_showText.setEnabled(False)
self.push_clear.setEnabled(False)
if not _LabelLib_found:
self.checkBox_useLabelLib.setEnabled(False)
self.checkBox_useLabelLib.setChecked(False)
# signals
self.push_computeACV.clicked.connect(self.computeACV)
self.push_loadPDB.clicked.connect(self.loadPDB)
self.comboBox_simType.activated.connect(self.dyeRadius_spinBox_OnOff)
self.push_calculateFRET.clicked.connect(self.calculateFRET)
self.push_deleteLabel.clicked.connect(self.deleteLabel)
self.push_deleteFRETparam.clicked.connect(self.deleteFRETparam)
self.push_loadParameterFile.clicked.connect(self.loadParameterFile)
self.doubleSpinBox_contourValue.valueChanged.connect(
self.pymol_update_isosurface)
self.doubleSpinBox_contourValue_CV.valueChanged.connect(
self.pymol_update_isosurface)
self.spinBox_bfactor.valueChanged.connect(self.pymol_update_isosurface)
self.spinBox_gaussRes.valueChanged.connect(
self.pymol_update_isosurface)
self.doubleSpinBox_gridBuffer.valueChanged.connect(
self.pymol_update_isosurface)
self.checkBox_transparentAV.toggled.connect(
self.pymol_update_isosurface)
self.lineEdit_labelName.returnPressed.connect(self.makeLabel)
self.lineEdit_distanceName.returnPressed.connect(self.makeFRETparam)
self.comboBox_labelName.currentIndexChanged.connect(
self.update_comboBox)
self.actionAbout_FRETraj.triggered.connect(self.openAbout)
self.comboBox_donorName.currentIndexChanged.connect(self.define_DA)
self.comboBox_acceptorName.currentIndexChanged.connect(self.define_DA)
self.comboBox_distanceName.currentIndexChanged.connect(
self.update_comboBox)
self.spinBox_statePDB.valueChanged.connect(self.update_PDBstate)
self.push_setRootDirectory.clicked.connect(self.setRootDirectory)
self.push_clear.clicked.connect(self.clear_pymol)
self.actionDocumentation.triggered.connect(self.openDocumentation)
self.spinBox_atomID.valueChanged.connect(self.update_atom)
self.push_transfer.clicked.connect(self.transferToLabel)
self.push_deleteFRET.clicked.connect(self.deleteFRET)
self.actionSettings.triggered.connect(self.openSettings)
self.push_showText.clicked.connect(self.openPDBFile)
self.settingsWindow.push_root.clicked.connect(self.setRootDirectory)
self.settingsWindow.push_browser.clicked.connect(self.set_browser)
self.settingsWindow.push_localdocs.clicked.connect(
self.set_localdocsDir)
def VolumePanelDialog(parent, *args, **kwargs):
window = QtWidgets.QDialog(parent)
_VolumePanel(window, window, *args, **kwargs)
return window
def dialog(_self=None):
if _self is None:
from pymol import cmd as _self
from pymol.Qt import QtWidgets
from pymol.Qt.utils import loadUi
names = _self.get_object_list()
if len(names) < 2:
msg = "Need at least 2 molecular objects"
QtWidgets.QMessageBox.warning(None, "Warning", msg)
return
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'align.ui')
form = loadUi(uifile, dialog)
form.input_mobile.addItems(names)
form.input_target.addItems(names)
def get_command(*args):
method = form.input_method.currentText()
mobile = form.input_mobile.currentText()
target = form.input_target.currentText()
if form.check_many.isChecked():
command = 'extra_fit %s, %s, \\\n method=%s' % (mobile, target,
method)
elif method == 'cealign':
command = 'cealign %s, %s' % (target, mobile)
else:
command = '%s %s, %s' % (method, mobile, target)
if method != 'cealign':
if not form.group_outlier.isChecked():
command += (', \\\n cycles=0')
else:
command += (', \\\n'
' cycles=%d, \\\n'
' cutoff=%.1f' % (
form.input_cycles.value(),
form.input_cutoff.value(),
))
if method == 'fit':
command += ', \\\n matchmaker=1'
command += (
', \\\n'
' mobile_state=%d, \\\n'
' target_state=%d' %
(form.input_mobile_state.value(), form.input_target_state.value()))
aln_obj = form.input_object.text()
if aln_obj:
command += ', \\\n object=' + aln_obj
return command
def update_output_command(*args):
form.group_outlier.setEnabled(
form.input_method.currentText() != 'cealign')
form.output_command.setText(get_command())
def update_output_command_many(*args):
mobile = form.input_mobile.currentText()
if form.check_many.isChecked():
if mobile == names[1] and form.input_target.currentText(
) == names[0]:
form.input_mobile.setEditText('*')
elif mobile == '*':
if form.input_target.currentText() != names[1]:
form.input_mobile.setEditText(names[1])
else:
form.input_mobile.setEditText(names[0])
form.output_command.setText(get_command())
def run():
_self.do(get_command())
# hook up events
form.group_outlier.toggled.connect(update_output_command)
form.check_many.toggled.connect(update_output_command_many)
form.input_method.currentIndexChanged.connect(update_output_command)
form.input_mobile.editTextChanged.connect(update_output_command)
form.input_target.editTextChanged.connect(update_output_command)
form.input_mobile_state.valueChanged.connect(update_output_command)
form.input_target_state.valueChanged.connect(update_output_command)
form.input_cycles.valueChanged.connect(update_output_command)
form.input_cutoff.valueChanged.connect(update_output_command)
form.input_object.textChanged.connect(update_output_command)
form.button_ok.clicked.connect(run)
update_output_command()
dialog.show()
def create_dialog():
dialog = QtWidgets.QDialog()
dialog.setWindowTitle('Lighting Settings')
sliders = [
"Diffuse Reflection",
('ambient', 0, 1, None),
('reflect', -1, 1, None),
"Direct Light from Front",
('direct (+reflect)', -1, 1, None), # diffuse, coupled with "reflect"
('spec_direct', 0, 1, None),
('spec_direct_power', 0, 100, 1),
"Free placeable directed Lights",
('light_count', 1, 8, 1),
('edit_light', 1, 7, 1),
"Specular Reflection",
('spec_count', -1, 8, 1),
# ('spec_power', -1, 200, 1), # deprecated since v1.5
('shininess', 0, 100, None), # same as spec_power
('spec_reflect', -0.01, 1, None),
('specular', 0, 1, None),
('specular_intensity (=specular)', 0, 1, None), # same as specular
"Ambient Occlusion (Surface only)",
('ambient_occlusion_mode', 0, 2, 1),
('ambient_occlusion_scale', 1.0, 50., None),
('ambient_occlusion_smooth', 1, 20, 1),
"Ray trace only",
('power', 1, 10, None),
('reflect_power', 1, 10, None),
]
layout = QtWidgets.QVBoxLayout(dialog)
button_layout = QtWidgets.QHBoxLayout()
layout.addLayout(button_layout)
layout.setContentsMargins(5, 0, 5, 0)
button_layout.addWidget(
QtWidgets.QLabel("<font color=red>Presets:</font>"))
presets = [
("Default", preset_default),
("Metal", preset_metal),
("Plastic", preset_plastic),
("Rubber", preset_rubber),
("X-Ray", preset_xray),
]
for name, fun in presets:
btn = QtWidgets.QPushButton(name, dialog)
btn.pressed.connect(fun)
btn.setAutoDefault(False)
button_layout.addWidget(btn)
form_layout = QtWidgets.QFormLayout()
form_layout.setContentsMargins(0, 0, 0, 0)
form_layout.setVerticalSpacing(0)
form_layout.setLabelAlignment(Qt.AlignLeft)
layout.addLayout(form_layout)
for i, item in enumerate(sliders, 1):
if isinstance(item, str):
label = QtWidgets.QLabel("<font color=blue>" + item + "</font>")
form_layout.addRow(label)
continue
name, min, max, res = item
if res is None:
res = 0.01 if (max - min < 100) else 0.1
line_edit = QtWidgets.QLineEdit(dialog)
slider = SettingSlider(dialog,
name.split()[0], min, max, res, line_edit)
h_layout = QtWidgets.QHBoxLayout()
h_layout.addWidget(slider, 3)
h_layout.addWidget(line_edit, 1)
form_layout.addRow(name, h_layout)
return dialog
def run_gui():
"""Main PyViewDock dialog window"""
docked = get_docked()
# create a new Window
dialog = QtWidgets.QDialog()
# populate the Window from our *.ui file which was created with the Qt Designer
uifile = os.path.join(os.path.dirname(os.path.realpath(__file__)),
'gui.ui')
widget = loadUi(uifile, dialog)
# hide question mark and add minimize button
widget.setWindowFlags(widget.windowFlags()
^ QtCore.Qt.WindowContextHelpButtonHint
| QtCore.Qt.WindowMinimizeButtonHint)
## ERROR MESSAGE ------------------------------------------------
def error_msg(text, informative_text=None):
msg = QtWidgets.QMessageBox()
msg.setIcon(QtWidgets.QMessageBox.Critical)
msg.setWindowTitle("PyViewDock")
msg.setText(text)
if informative_text:
msg.setInformativeText(informative_text)
msg.exec_()
## MENUBAR ------------------------------------------------------
show_column = widget.menuColumns.addMenu('Show')
hide_column = widget.menuColumns.addMenu('Hide')
hide_all = widget.menuColumns.addAction('buttonHideAll')
hide_all.setText("Hide All")
## I/O FILES ----------------------------------------------------
def clear_all():
"""Clear all the docked entries"""
docked.clear()
draw_table()
def browse_open():
"""Callback for the 'Open' button"""
supported_formats = {
'PDB Dock >4 (*.pdb)': load_dock4,
'ChimeraX (*.chimerax)': load_chimerax,
'pyDock (*.ene; *.eneRST)': load_pydock,
'XYZ (*.xyz)': load_xyz,
'All Files(*)': None
}
default_suffix_format = {
'pdb': 'PDB Dock >4 (*.pdb)',
'chimerax': 'ChimeraX (*.chimerax)',
'ene': 'pyDock (*.ene; *.eneRST)',
'enerst': 'pyDock (*.ene; *.eneRST)',
'xyz': 'XYZ (*.xyz)'
}
# launch open file dialog from system
filename, format_selected = QtWidgets.QFileDialog.getOpenFileName(
parent=dialog,
caption='Open file containing docked structures',
directory=os.getcwd(),
filter=";;".join(supported_formats.keys()))
if not filename: return
# guess format from suffix
if format_selected == 'All Files(*)':
suffix = os.path.basename(filename).rpartition('.')[-1].lower()
if suffix in default_suffix_format:
format_selected = default_suffix_format[suffix]
else:
# error message
error_msg(f"Unsupported format file: .{suffix}")
return
# load file with corresponding format' function
supported_formats[format_selected](filename)
draw_table()
def browse_export_data():
"""Callback for the 'Export Data' button"""
supported_formats = {
'CSV (*.csv)': 'csv',
'Text (*.txt)': 'txt',
'All Files(*)': None
}
default_suffix_format = {'csv': 'CSV (*.csv)', 'txt': 'Text (*.txt)'}
# launch open file dialog from system
filename, format_selected = QtWidgets.QFileDialog.getSaveFileName(
parent=dialog,
caption='Save file containing docked data',
directory=os.getcwd(),
filter=";;".join(supported_formats.keys()))
if not filename: return
# guess format from suffix
if format_selected == 'All Files(*)':
suffix = os.path.basename(filename).rpartition('.')[-1].lower()
# if not in supported_formats, fallback to csv
format_selected = default_suffix_format.get(
suffix, default_suffix_format['csv'])
# save file with corresponding format' arguments
export_docked_data(filename, supported_formats[format_selected])
## TABLE --------------------------------------------------------
headers = docked.headers
def draw_table(headers=headers):
"""Fill the whole table with data from docked entries"""
widget.tableDocked.clear()
widget.tableDocked.setSortingEnabled(False)
n_internal_columns = 3
# check if requested headers in remarks
headers = [i for i in headers if i in docked.remarks]
# number of rows and columns
widget.tableDocked.setColumnCount(len(headers) + n_internal_columns)
widget.tableDocked.setRowCount(docked.n_entries)
# fill table
widget.tableDocked.setHorizontalHeaderLabels([""] *
n_internal_columns +
headers)
for row, entry in enumerate(docked.entries):
# hidden internal columns [n_entry, 'object', 'state']
widget.tableDocked.setItem(row, 0,
QtWidgets.QTableWidgetItem(str(row)))
widget.tableDocked.setItem(
row, 1,
QtWidgets.QTableWidgetItem(str(entry['internal']['object'])))
widget.tableDocked.setItem(
row, 2,
QtWidgets.QTableWidgetItem(str(entry['internal']['state'])))
# assign to table cell
for column, remark in enumerate(headers):
value = entry['remarks'][remark]
item = QtWidgets.QTableWidgetItem()
item.setData(QtCore.Qt.EditRole, value)
widget.tableDocked.setItem(row, column + n_internal_columns,
item)
widget.tableDocked.item(row, column +
n_internal_columns).setTextAlignment(
QtCore.Qt.AlignCenter)
widget.tableDocked.resizeColumnsToContents()
widget.tableDocked.resizeRowsToContents()
for i in range(n_internal_columns):
widget.tableDocked.hideColumn(i)
# update columns menubar
show_column.clear()
hide_column.clear()
for i in sorted(docked.remarks - set(headers)):
action = show_column.addAction(i)
action.triggered.connect(lambda chk, i=i: show_header(i))
for i in headers:
action = hide_column.addAction(i)
action.triggered.connect(lambda chk, i=i: hide_header(i))
# show table
widget.tableDocked.setSortingEnabled(True)
widget.tableDocked.show()
def show_header(header):
"""Add a column to headers"""
headers.append(header)
draw_table()
def hide_header(header):
"""Remove a column from headers"""
headers.remove(header)
draw_table()
def hide_header_all():
"""Remove all column headers"""
headers.clear()
draw_table()
def display_selected():
"""Display entries corresponding to selected rows"""
#TODO: multiple selection
selected_row = widget.tableDocked.selectedItems()
if selected_row:
row_n = selected_row[0].row()
object = widget.tableDocked.item(row_n, 1).text()
state = widget.tableDocked.item(row_n, 2).text()
cmd.set('state', state)
cmd.disable(" ".join(docked.objects))
cmd.enable(object)
draw_table()
## CALLBACKS ----------------------------------------------------
widget.buttonOpen.triggered.connect(browse_open)
widget.buttonExportData.triggered.connect(browse_export_data)
widget.buttonClearAll.triggered.connect(clear_all)
hide_all.triggered.connect(hide_header_all)
widget.tableDocked.itemSelectionChanged.connect(display_selected)
dialog.show()
def make_dialog():
'''
Function which initiates the dialog
'''
from pymol import cmd
from pymol.Qt import QtWidgets, QtGui, QtCore # note this gives the PyQt5 rather than PyQt4 interface
from pymol.Qt.utils import loadUi
from pymol.Qt.utils import getSaveFileNameWithExt
import pymol.Qt
Qt = QtCore.Qt
#make a viewer object accessible by all functions
viewer = BXlink_viewer()
QFileDialog = QtWidgets.QFileDialog
getOpenFileNames = QFileDialog.getOpenFileNames
# create a new Window
dialog = QtWidgets.QDialog()
# populate the Window from our *.ui file which was created with the Qt Designer
uifile = os.path.join(os.path.dirname(__file__), 'PyXlinkViewer.ui')
form = loadUi(uifile, dialog)
#-------------------------------------------------------------------
def open_file():
'''
Callback for the open_xlink_file button
'''
# get a filename using open file diagog - not the filename can have any extension
startdir = os.getcwd()
open_fname = getOpenFileNames(dialog, 'Open file', startdir)[0]
if open_fname:
#need to convert list object returned by open file dialog to a string
xlink_file = "".join(open_fname)
# only deal with files in jwalk format for now
xlink_file_type = 'jwalk'
viewer.set_xlink_file(xlink_file)
viewer.set_xlink_file_type(xlink_file_type)
viewer.parse_xlink_file()
viewer.calculate_distances()
viewer.test_monos_in_obj()
populate_xlink_table()
change_num_sat_viol()
viewer.display()
#-------------------------------------------------------------------
def populate_xlink_table():
'''
Populates the table with xlinks and mono-links according to which are currently set to be displayed
'''
obs_xlinks = viewer.obs_xlinks
obs_monos = viewer.obs_monos
w = form.table_xlinks
#remove data if already
w.setRowCount(0)
entries = []
for xl in obs_xlinks:
str_dist = '{0:3.1f}'.format(xl.distance)
entry = [xl.chain1, xl.resid1, xl.chain2, xl.resid2, str_dist]
bAdded_entry = False
if xl.distance <= viewer.threshold and viewer.show_satisied == True:
entries.append(entry)
bAdded_entry = True
if xl.distance > viewer.threshold and viewer.show_violated == True:
entries.append(entry)
bAdded_entry = True
# check that inters should be shown
if bAdded_entry and xl.chain1 != xl.chain2 and viewer.show_inter == False:
entries.pop()
if bAdded_entry and xl.chain1 == xl.chain2 and viewer.show_intra == False:
entries.pop()
#now add the monolinks to end of table
for m in obs_monos:
if viewer.show_mono == True:
entry = [m.chain, m.resid, '-', '-', '-']
entries.append(entry)
if entries:
w.setColumnCount(len(entries[0]))
w.setRowCount(len(entries))
for i, row in enumerate(entries):
for j, col in enumerate(row):
item = QtWidgets.QTableWidgetItem(col)
w.setItem(i, j, item)
#align text in centre of cell
item.setTextAlignment(Qt.AlignCenter)
# set the columns to be equal width and fit in the table
header = w.horizontalHeader()
for i in range(0, len(entries[0])):
header.setSectionResizeMode(i, QtWidgets.QHeaderView.Stretch)
#-------------------------------------------------------------------
def export():
'''
Callback function for 'Export' button. Opens save file dialog and saves current table in csv format.
For each entry in the table two additional columns are outputted. One containing the current threshold
value, and one 'Sat/Viol' for which 'S' or 'V' is outputted depending on whether the xlink is satisfied
or violated, given the currently set threshold value
'''
filename = getSaveFileNameWithExt(dialog,
'Save As...',
filter='csv file (*.csv)')
if filename:
table = form.table_xlinks
num_cols = table.columnCount()
num_rows = table.rowCount()
with open(filename, 'w') as f:
for i in range(0, num_cols):
item = table.horizontalHeaderItem(i)
f.write(item.text() + ',')
f.write('Threshold,Sat-Viol\n')
for i in range(0, num_rows):
for j in range(0, num_cols):
item = table.item(i, j)
text = item.text()
f.write(text + ',')
#last item retrieved was the distance for this xlink or a dash if a mono-link entry so use this to test if satisfied
if text == '-':
f.write('-,-\n')
else:
f.write(str(viewer.threshold) + ',')
if float(text) <= viewer.threshold:
f.write('S\n')
else:
f.write('V\n')
#----------------------------------------------------------------------------------------------------
# callback functions for checkboxes
def check_satisfied_click():
viewer.set_show_satisfied(form.check_satisfied.isChecked())
populate_xlink_table()
viewer.update()
def check_violated_click():
viewer.set_show_violated(form.check_violated.isChecked())
populate_xlink_table()
viewer.update()
def check_inter_click():
viewer.set_show_inter(form.check_inter.isChecked())
populate_xlink_table()
viewer.update()
change_num_sat_viol()
def check_intra_click():
viewer.set_show_intra(form.check_intra.isChecked())
populate_xlink_table()
viewer.update()
change_num_sat_viol()
def check_mono_click():
viewer.set_show_mono(form.check_mono.isChecked())
populate_xlink_table()
viewer.update()
#---------------------------------------------------------------------------
# Call back functions for colour change buttons
def change_satisfied_colour():
color = QtWidgets.QColorDialog.getColor()
form.frame_satisfied_colour.setStyleSheet(
"QWidget { background-color: %s}" % color.name())
rgb_list = [color.redF(), color.greenF(), color.blueF()]
viewer.set_satisfied_colour(rgb_list)
viewer.update()
def change_violated_colour():
color = QtWidgets.QColorDialog.getColor()
form.frame_violated_colour.setStyleSheet(
"QWidget { background-color: %s}" % color.name())
rgb_list = [color.redF(), color.greenF(), color.blueF()]
viewer.set_violated_colour(rgb_list)
viewer.update()
def change_mono_colour():
color = QtWidgets.QColorDialog.getColor()
form.frame_mono_colour.setStyleSheet(
"QWidget { background-color: %s}" % color.name())
rgb_list = [color.redF(), color.greenF(), color.blueF()]
viewer.set_mono_colour(rgb_list)
viewer.update()
#---------------------------------------------------------------------------
# call back functions for doublespin boxes
def change_threshold():
viewer.set_threshold(form.doublespin_threshold.value())
change_num_sat_viol()
populate_xlink_table()
viewer.update()
def change_width():
viewer.set_radius(form.doublespin_width.value())
viewer.update()
def change_mono_size():
viewer.set_mono_size(form.doublespin_mono_size.value())
viewer.update()
#---------------------------------------------------------------------------
def change_num_sat_viol():
'''
Changes the numbers of satisfied and violated xlinks in line-edit boxes. Called when either a change to threshold value is made,
or the intra or inter checkboxes are clicked on
'''
num_sat = 0
num_viol = 0
for xl in viewer.obs_xlinks:
# NB. check that both residues are in structure, if one is not, don't class as either sat or viol as not known
if xl.distance <= viewer.threshold and xl.bRes1_in_obj == True and xl.bRes2_in_obj == True:
#check that inter/intra are selected
if viewer.show_inter == True and xl.chain1 != xl.chain2:
num_sat += 1
if viewer.show_intra == True and xl.chain1 == xl.chain2:
num_sat += 1
if xl.distance > viewer.threshold and xl.bRes1_in_obj == True and xl.bRes2_in_obj == True:
#check that inter/intra are selected
if viewer.show_inter == True and xl.chain1 != xl.chain2:
num_viol += 1
if viewer.show_intra == True and xl.chain1 == xl.chain2:
num_viol += 1
form.line_edit_satisfied.setText(str(num_sat))
form.line_edit_violated.setText(str(num_viol))
form.line_edit_satisfied.setAlignment(Qt.AlignCenter)
form.line_edit_violated.setAlignment(Qt.AlignCenter)
#-------------------------------------------------------------------------
def change_selected_object(item):
'''
This function is called when the user clicks on an object name in the objects listbox. It updates the BXlink_viewer
object with the currently selected PyMOL object
'''
viewer.set_obj(item.text())
#-------------------------------------------------------------------------
# initialise the viewer threshold and mono-size values in doublespin boxes - these are set in QtDesigner
viewer.set_threshold(form.doublespin_threshold.value())
viewer.set_mono_size(form.doublespin_mono_size.value())
# initialise the widgets
form.check_satisfied.setChecked(True)
form.check_violated.setChecked(True)
form.check_inter.setChecked(True)
form.check_intra.setChecked(True)
# stop object list box from resizing when objects are added
w = form.list_select_object
w.setFixedSize(149, 50)
# fill the listbox with the current objects
objects = cmd.get_names()
for i, obj in enumerate(objects):
item = QtWidgets.QListWidgetItem(obj)
form.list_select_object.addItem(item)
if i == 0: #select the first item in the QListWidget
item.setSelected(True)
viewer.set_obj(item.text())
form.list_select_object.setFocus()
#call a function of clicking listbox item to update selected PyMOL object stored by viewer class
form.list_select_object.itemClicked.connect(change_selected_object)
# initialise colours in for satisfied, violated, and mono-links
form.frame_satisfied_colour.setStyleSheet(
"QWidget { background-color: %s}" % '#0000FF') # initialise to blue
form.frame_violated_colour.setStyleSheet(
"QWidget { background-color: %s}" % '#FF0000') # initialise to red
form.frame_mono_colour.setStyleSheet("QWidget { background-color: %s}" %
'#FFFF00') # initialise to yellow
# hook up the button callbacks
form.button_open_xlink_file.clicked.connect(open_file)
form.button_close.clicked.connect(dialog.close)
form.button_satisfied_colour.clicked.connect(change_satisfied_colour)
form.button_violated_colour.clicked.connect(change_violated_colour)
form.button_mono_colour.clicked.connect(change_mono_colour)
form.button_export.clicked.connect(export)
# hook up the check box callbacks
form.check_satisfied.clicked.connect(check_satisfied_click)
form.check_violated.clicked.connect(check_violated_click)
form.check_inter.clicked.connect(check_inter_click)
form.check_intra.clicked.connect(check_intra_click)
form.check_mono.clicked.connect(check_mono_click)
# hook up the check box callbacks
form.doublespin_threshold.valueChanged.connect(change_threshold)
form.doublespin_width.valueChanged.connect(change_width)
form.doublespin_mono_size.valueChanged.connect(change_mono_size)
return dialog
def qtdialog():
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'excelexporter.ui')
form = pymolqtutils.loadUi(uifile, dialog)
form._dialog = dialog
# pre-fill form with likely data
names = pymol.cmd.get_object_list()
names += ['(' + n + ')' for n in pymol.cmd.get_names('public_selections')]
form.input_sele.addItems(names)
checkboxes = {
'x': form.check_x,
'y': form.check_y,
'z': form.check_z,
}
prop_names = [
'model', 'segi', 'chain', 'resi', 'resv', 'resn', 'name', 'alt', 'b',
'q', 'elem', 'type', 'formal_charge', 'partial_charge', 'numeric_type',
'text_type', 'stereo', 'ID', 'rank', 'index', 'vdw', 'ss', 'color',
'reps', 'protons', 'state'
]
# user properties
p_set = set()
pymol.cmd.iterate('all',
'p_set_update(p)',
space={'p_set_update': p_set.update})
prop_names.extend('p.' + prop for prop in sorted(p_set))
ncols = 3
for i, prop in enumerate(prop_names):
check = QtWidgets.QCheckBox(prop, form.groupBox)
form.gridLayout.addWidget(check, i // ncols, i % ncols, 1, 1)
checkboxes[prop] = check
# add state properties to list
prop_names.extend('xyz')
for prop in ['chain', 'resi', 'resn', 'name']:
checkboxes[prop].setChecked(True)
@form.button_ok.clicked.connect
def _(*args):
props = [p for p in prop_names if checkboxes[p].isChecked()]
sele = form.input_sele.currentText()
statetext = form.input_state.checkedButton().text()
if statetext.startswith('current'):
state = -1
elif statetext.startswith('all'):
state = 0
else:
state = STATELESS
props = [p for p in props if p not in ['x', 'y', 'z']]
if not _check_xlwings():
return
with pymolqtutils.PopupOnException():
dumpexcel(sele, props, state)
form._dialog.show()
def make_dialog():
# entry point to PyMOL's API
from pymol import cmd
# pymol.Qt provides the PyQt5 interface, but may support PyQt4
# and/or PySide as well
from pymol.Qt import QtWidgets
from pymol.Qt.utils import loadUi
from PyQt5 import QtGui
import os
from pymol import cmd, stored
import gzip
import json
import random
import string
from numpy import log
import numpy as np
import copy
import collections
# create a new Window
dialog = QtWidgets.QDialog()
QtWidgets.QApplication.setStyle(QtWidgets.QStyleFactory.create('Fusion'))
# populate the Window from our *.ui file which was created with the Qt Designer
uifile = os.path.join(os.path.dirname(__file__), 'gui_alfa3.ui')
form = loadUi(uifile, dialog)
# global variables
Hs_files = []
Proteines_files = []
Hs_paths = []
Proteines_paths = []
Jsons_paths = []
solvent = 'non'
# load protein with hot spots and json file with reference values
def browse_filename_hs_protein():
# load protein
protein_path = QFileDialog.getOpenFileName(form, "Open File",
"C:\\User\\",
'PDB File (*.pdb)')
protein_path = protein_path[0]
Proteines_paths.append(protein_path)
protein_path = protein_path.replace(os.path.sep, "\\")
# load hs file
hs_path = QFileDialog.getOpenFileName(form, "Open File", "C:\\User\\",
'MOL2 File (*.mol2)')
hs_path = hs_path[0]
Hs_paths.append(hs_path)
hs_path = hs_path.replace(os.path.sep, "\\")
# load json
jsons_path = QFileDialog.getOpenFileName(form, "Open File",
"C:\\User\\",
'json File (*.json)')
jsons_path = jsons_path[0]
Jsons_paths.append(jsons_path)
if hs_path:
hs_name = os.path.basename(os.path.normpath(hs_path))
hs_name = os.path.splitext(hs_name)[0]
if hs_name != ' ':
Hs_files.append(hs_name)
form.browser_files1.setText('\n '.join(Hs_files))
protein_name = os.path.basename(os.path.normpath(protein_path))
protein_name = os.path.splitext(protein_name)[0]
if protein_name != ' ':
Proteines_files.append(protein_name)
form.browser_files1_2.setText('\n '.join(Proteines_files))
# load files that are browsed
def load_hs_protein():
if len(Hs_files) == len(Proteines_files):
cmd.delete('all')
for nbr in range(0, len(Hs_files)):
cmd.load(Hs_paths[nbr])
cmd.select(Hs_files[nbr])
cmd.load(Proteines_paths[nbr])
rezise(nbr)
try:
cmd.extra_fit(','.join(Hs_files))
cmd.extra_fit(','.join(Proteines_files))
except:
form.browser_files1.setText('ERROR -_-')
form.browser_files1_2.setText(
'Number of HotSpots and Structures must be the same!!!')
else:
form.browser_files1.setText('ERROR -_-')
form.browser_files1_2.setText(
'Number of HotSpots and Structures must be the same!!!')
# change size of hs depends on reference_density_correction from .json file (one fil for one pond calculations)
def rezise(nbrs):
def is_sele(sele):
return sele in cmd.get_names('all')
def _random_string(n=10):
return ''.join(
random.choice(string.ascii_uppercase + string.digits)
for _ in range(n))
refs = []
ref = 1
for i in range(0, len(Jsons_paths)):
with gzip.open(Jsons_paths[i]) as f:
refOne = float(json.load(f)["reference_density_correction"])
refs.append(refOne)
if form.oneSolvent.isChecked():
ref = np.median(refs)
if form.multipleSolvent.isChecked():
with gzip.open(Jsons_paths[nbrs]) as f:
ref = float(json.load(f)["reference_density_correction"])
else:
ref = np.median(refs)
def hs_resize(meta_file, selection):
if not is_sele(selection):
raise RuntimeError(
"Selection \"{}\" does not exists.".format(selection))
# Find free sele name
temp_sele = _random_string()
while is_sele(temp_sele):
temp_sele = _random_string()
states = cmd.count_states(selection=selection)
for state in range(1, states + 1):
stored.info = []
cmd.iterate_state(state, selection,
"stored.info.append((ID, partial_charge))")
for id_, partial_charge in stored.info:
size = log(partial_charge / ref + 1)
print(ref)
print(size)
cmd.select(temp_sele,
"{} and id {}".format(selection, id_),
state=state)
cmd.set("sphere_scale", value=size, selection=temp_sele)
cmd.alter(temp_sele, "b={}".format(partial_charge))
cmd.delete(temp_sele)
hs_resize(Jsons_paths[nbrs], Hs_files[nbrs])
# save all hs into one mol2 file
def save_all_hs():
cmd.select('sele', 'resn FIL')
file_name = QFileDialog.getSaveFileName(form, 'Save File', '',
'MOL2 File (*.mol2)')
file_name = file_name[0]
cmd.create('all_hs', 'sele')
cmd.save(file_name, 'all_hs', 0)
cmd.delete('all_hs')
# simplification geometric centre / hs weights
def hs_sipmly():
cmd.delete('simply')
def is_sele(sele):
return sele in cmd.get_names("all")
def find_all_coords(n, hs_id, exc_indexes=[], coords=[]):
for node in n[hs_id]:
if (node[0], node[3]) not in exc_indexes:
exc_indexes.append((node[0], node[3]))
coords.append(node[2])
find_all_coords(n, (node[0], node[3]),
exc_indexes=exc_indexes,
coords=coords)
return exc_indexes, coords
def free_hotspot_id(hs, exc_indexes):
for h in hs:
if (h[0], h[3]) not in exc_indexes:
return h[0], h[3]
return None
def group_center(coords):
length = coords.shape[0]
sum_x = np.sum(coords[:, 0])
sum_y = np.sum(coords[:, 1])
sum_z = np.sum(coords[:, 2])
return sum_x / length, sum_y / length, sum_z / length
def find_center(partial_charges, coords, nbr):
dict_value_coords = {}
coords_weight = []
for p, c in zip(partial_charges, coords):
dict_value_coords[p] = c
od_dict = collections.OrderedDict(
sorted(dict_value_coords.items(), reverse=True))
partial_charges = list(od_dict.keys())
nbr = len(partial_charges) - nbr
for i in range(0, nbr):
try:
max_hs = partial_charges[i]
x = od_dict[max_hs][0]
y = od_dict[max_hs][1]
z = od_dict[max_hs][2]
coords_weight.append([x, y, z])
except:
pass
return coords_weight
def hs_gsimplifier(*args, **kwargs):
radius = form.radius1.value()
color = kwargs.get("color", "red")
selections = args
for selection in selections:
if not is_sele(selection):
raise RuntimeError(
"Selection \"{}\" does not exists.".format(selection))
states = cmd.count_states(selection=selections[0])
hs_values = []
all_coords = []
for state in range(1, states + 1):
stored.info = []
for selection in selections:
cmd.iterate_state(
state, selection,
"stored.info.append([ID, partial_charge, (x,y,z), \"{}\"])"
.format(selection))
for line in stored.info:
partial_charge = line[1]
coord = line[2]
hs_values.append(partial_charge)
all_coords.append(coord)
hs = np.array(copy.copy(stored.info))
n = dict()
for h in hs:
dists = np.linalg.norm(np.array(h[2]) - list(zip(*hs))[2],
axis=1)
# Convert to dict due to same hotspots IDs
n[(h[0], h[3])] = hs[dists <= radius]
exc_indexes = []
hs_id = free_hotspot_id(hs, exc_indexes=exc_indexes)
while hs_id is not None:
excluded, coords = find_all_coords(n,
hs_id,
exc_indexes=[],
coords=[])
exc_indexes.extend(excluded)
if form.geometric.isChecked():
middle_point = group_center(np.array(coords))
cmd.pseudoatom(object="simply",
color=color,
pos=middle_point,
state=state)
else:
middle_points = find_center(hs_values,
all_coords,
nbr=len(exc_indexes))
for point in middle_points:
cmd.pseudoatom(object="simply",
color=color,
pos=point,
state=state)
hs_id = free_hotspot_id(hs, exc_indexes=exc_indexes)
cmd.show(representation="spheres", selection="simply")
cmd.select('hs2', 'resn FIL')
hs_gsimplifier('hs2', color='hotpink')
def save_simply():
cmd.select('simply')
file_name = QFileDialog.getSaveFileName(form, 'Save File', '',
'MOL2 File (*.mol2)')
file_name = file_name[0]
cmd.save(file_name, 'simply')
# make hs color
def color_hs():
color = form.colors.currentItem()
color = str(color.text())
try:
cmd.spectrum("pc", ('%s' % color), 'sele')
except:
cmd.spectrum("pc", ('%s' % color), 'hotspot')
cmd.spectrum("pc", '%s' % color, 'hs' + '*')
def choose_hs(picked_hs=0):
picked_hs = cmd.count_atoms('sele')
form.hs_browse.setText(str(picked_hs))
cmd.create('hs', 'sele')
def clear_pick_hs():
picked_hs = 0
form.hs_browse.setText(str(picked_hs))
def clean_all():
cmd.delete('all')
Hs_files.clear()
Proteines_files.clear()
Hs_paths.clear()
Proteines_paths.clear()
Jsons_paths.clear()
form.browser_files1_2.setText(', '.join(Proteines_files))
form.browser_files1.setText(', '.join(Proteines_files))
form.hs_browse.setText(' ')
def solvent_one():
global solvent
solvent = 'one'
def solvent_multiple():
global solvent
solvent = 'multiple'
def search_groups():
radius2 = form.radius2.value()
cmd.select('sele_atms', 'polymer.protein within %f of hs' % (radius2))
def save_atms():
cmd.select('sele_atms')
file_name = QFileDialog.getSaveFileName(form, 'Save File', '',
'PDB File (*.pdb)')
file_name = file_name[0]
cmd.save(file_name, 'sele_atms', -1)
# hook up button callbacks
form.browse_button1.clicked.connect(browse_filename_hs_protein)
form.load1.clicked.connect(load_hs_protein)
form.button_close.clicked.connect(dialog.close)
form.save_file1.clicked.connect(save_all_hs)
form.color_button.clicked.connect(color_hs)
form.clear_all.clicked.connect(clean_all)
form.clear_files1.clicked.connect(clean_all)
form.ok1.clicked.connect(hs_sipmly)
form.save_file2_2.clicked.connect(save_simply)
form.add_hs.clicked.connect(choose_hs)
form.clear_hs.clicked.connect(clear_pick_hs)
form.oneSolvent.clicked.connect(solvent_one)
form.multipleSolvent.clicked.connect(solvent_multiple)
form.ok2.clicked.connect(search_groups)
form.save_file3.clicked.connect(save_atms)
return dialog
def dialog(_self=None):
if _self is None:
from pymol import cmd as _self
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'apbs.ui')
form = loadUi(uifile, dialog)
form._dialog = dialog
form._proclist = []
def set_apbs_in(contents):
form.apbs_template.setPlainText(contents.strip())
# hide options widgets
form.optarea_prep.setVisible(False)
form.optarea_apbs.setVisible(False)
form.optarea_surf.setVisible(False)
form.optarea_other.setVisible(False)
# pre-fill form with likely data
names = _self.get_object_list()
names += ['(' + n + ')' for n in _self.get_names('public_selections')]
if names:
form.input_sele.clear()
form.input_sele.addItems([
('polymer & ' +
name) if _self.count_atoms('polymer & ' + name) > 0 else name
for name in names
])
form.surf_map.addItems(_self.get_names_of_type('object:map'))
set_apbs_in(electrostatics.template_apbs_in)
# executables
from distutils.spawn import find_executable
form.apbs_exe.setText(electrostatics.find_apbs_exe() or 'apbs')
form.pdb2pqr_exe.setText(
find_executable('pdb2pqr') or
# acellera::htmd-pdb2pqr provides pdb2pqr_cli
find_executable('pdb2pqr_cli') or find_executable(
'share/pdb2pqr/pdb2pqr.py', os.getenv('FREEMOL', '/usr'))
or 'pdb2pqr')
# for async panels
form._callInMainThread = MainThreadCaller()
run_impl_async = AsyncFunc(run_impl)
# "Run" button callback
def run():
form.tabWidget.setEnabled(False)
form.button_ok.clicked.disconnect()
form.button_ok.clicked.connect(abort)
form.button_ok.setText('Abort')
form._capture = StdOutCapture()
# detach from main thread
run_impl_async(form, _self)
# "Run" button "finally" actions (main thread)
@run_impl_async.finished.connect
def run_finally(args):
_, exception = args
form._proclist[:] = []
stdout = form._capture.release()
print(stdout)
form.button_ok.setText('Run')
form.button_ok.clicked.disconnect()
form.button_ok.clicked.connect(run)
form.button_ok.setEnabled(True)
form.tabWidget.setEnabled(True)
if exception is not None:
handle_exception(exception, stdout)
return
quit_msg = "Finished with Success. Close the APBS dialog?"
if QMessageBox.Yes == QMessageBox.question(form._dialog, 'Finished',
quit_msg, QMessageBox.Yes,
QMessageBox.No):
form._dialog.close()
def handle_exception(e, stdout):
if isinstance(e, SilentAbort):
return
msg = str(e) or 'unknown error'
msgbox = QMessageBox(QMessageBox.Critical, 'Error', msg,
QMessageBox.Close, form._dialog)
if stdout.strip():
msgbox.setDetailedText(stdout)
msgbox.exec_()
# "Abort" button callback
def abort():
form.button_ok.setEnabled(False)
while form._proclist:
p = form._proclist.pop()
try:
p.terminate()
p.returncode = -15 # SIGTERM
except OSError as e:
print(e)
# selection checker
check_sele_timer = QtCore.QTimer()
check_sele_timer.setSingleShot(True)
# grid auto-value
form.apbs_grid_userchanged = False
form.apbs_grid.setStyleSheet('background: #ff6')
@form.apbs_grid.editingFinished.connect
def _():
form.apbs_grid_userchanged = True
form.apbs_grid.setStyleSheet('')
@check_sele_timer.timeout.connect
def _():
has_props = ['no', 'no']
def callback(partial_charge, elec_radius):
if partial_charge: has_props[0] = 'YES'
if elec_radius > 0: has_props[1] = 'YES'
n = _self.iterate(form.input_sele.currentText(),
'callback(partial_charge, elec_radius)',
space={'callback': callback})
# grid auto-value (keep map size in the order of 200x200x200)
if n > 1 and not form.apbs_grid_userchanged:
e = _self.get_extent(form.input_sele.currentText())
volume = (e[1][0] - e[0][0]) * (e[1][1] - e[0][1]) * (e[1][2] -
e[0][2])
grid = max(0.5, volume**0.333 / 200.0)
form.apbs_grid.setValue(grid)
if n < 1:
label = 'Selection is invalid'
color = '#f66'
elif has_props == ['YES', 'YES']:
label = 'No preparation necessary, selection has charges and radii'
form.do_prepare.setChecked(False)
color = '#6f6'
else:
label = 'Selection needs preparation (partial_charge: %s, elec_radius: %s)' % tuple(
has_props)
form.do_prepare.setChecked(True)
color = '#fc6'
form.label_sele_has.setText(label)
form.label_sele_has.setStyleSheet('background: %s; padding: 5' % color)
check_sele_timer.start(0)
@form.apbs_exe_browse.clicked.connect
def _():
fnames = getOpenFileNames(None,
filter='apbs (apbs*);;All Files (*)')[0]
if fnames:
form.apbs_exe.setText(fnames[0])
@form.pdb2pqr_exe_browse.clicked.connect
def _():
fnames = getOpenFileNames(
None, filter='pdb2pqr (pdb2pqr*);;All Files (*)')[0]
if fnames:
form.pdb2pqr_exe.setText(fnames[0])
# hook up events
form.input_sele.currentIndexChanged.connect(
lambda: check_sele_timer.start(0))
form.input_sele.editTextChanged.connect(
lambda: check_sele_timer.start(1000))
form.button_ok.clicked.connect(run)
# "Register" opens a web browser
@form.button_register.clicked.connect
def _():
import webbrowser
webbrowser.open("http://www.poissonboltzmann.org/")
@form.button_load.clicked.connect
def _():
fnames = getOpenFileNames(None,
filter='APBS Input (*.in);;All Files (*)')[0]
if fnames:
contents = load_apbs_in(form, fnames[0])
set_apbs_in(contents)
@form.button_reset.clicked.connect
def _():
set_apbs_in(electrostatics.template_apbs_in)
form._dialog.show()
form._dialog.resize(500, 600)
def dialog(_self=None):
if _self is None:
from pymol import cmd as _self
from pymol.Qt import QtWidgets
from pymol.Qt.utils import loadUi
names = _self.get_object_list('enabled')
if len(names) < 2 and _self.count_states('enabled') < 2:
msg = "Need 2 molecular objects or one multistate object"
QtWidgets.QMessageBox.warning(None, "Warning", msg)
return
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'morph.ui')
form = loadUi(uifile, dialog)
# pre-fill form with likely data
form.input_sele1.addItems(names)
form.input_sele2.addItems(names)
if len(names) > 1:
form.input_sele2.setEditText(names[1])
else:
form.input_state1.setValue(0)
form.input_name.setText(_self.get_unused_name("morph"))
def get_command(*args):
morph = "linear"
if form.input_method_rigimol.isChecked():
morph = 'rigimol'
sele1 = form.input_sele1.currentText()
sele2 = form.input_sele2.currentText()
try:
nstates1 = _self.count_states(sele1)
nstates2 = _self.count_states(sele2)
form.input_state1.setMaximum(nstates1)
form.input_state2.setMaximum(nstates2)
except Exception as e:
nstates1 = 1
print(e)
state1 = form.input_state1.value()
state2 = form.input_state2.value()
allstates = (state1 == 0 and nstates1 > 1)
if allstates:
sele2 = sele1
state2 = 0
form.input_sele2.setDisabled(allstates)
form.input_state2.setDisabled(allstates)
form.superpose.setDisabled(allstates)
command = (
'morph %s, %s, %s, %d, %d, %d, %d, %s' %
(form.input_name.text(), sele1, sele2, state1, state2,
form.input_refinement.value(), form.input_steps.value(), morph))
if not allstates and form.superpose.isChecked():
command = (('align %s, %s, '
'mobile_state=%d, target_state=%d\n' %
(form.input_sele1.currentText(),
form.input_sele2.currentText(), state1, state2)) +
command)
return command
def update_output_command(*args):
form.output_command.setText(get_command())
def run():
_self.do(get_command())
# hook up events
form.input_sele1.editTextChanged.connect(update_output_command)
form.input_sele2.editTextChanged.connect(update_output_command)
form.input_state1.valueChanged.connect(update_output_command)
form.input_state2.valueChanged.connect(update_output_command)
form.superpose.stateChanged.connect(update_output_command)
form.input_refinement.valueChanged.connect(update_output_command)
form.input_steps.valueChanged.connect(update_output_command)
form.input_method_rigimol.toggled.connect(update_output_command)
form.input_method_linear.toggled.connect(update_output_command)
form.input_name.textChanged.connect(update_output_command)
form.button_ok.clicked.connect(run)
update_output_command()
dialog.show()
def pyvol_window():
""" """
import os
from pymol.Qt import QtCore, QtWidgets
from pymol.Qt.utils import loadUi
dialog = QtWidgets.QDialog()
uifile = os.path.join(os.path.dirname(__file__), 'pyvolgui.ui')
form = loadUi(uifile, dialog)
def browse_pocket_file(form):
""" Launches a window to select a file
"""
pocket_file_name = QtWidgets.QFileDialog.getOpenFileNames(
None,
'Open file',
os.getcwd(),
filter='Pocket Files (*.obj *.csv)')[0][0]
form.pocket_file_ledit.setText(pocket_file_name)
def install_pyvol(form):
""" Attempts a de novo PyVOL installation using pip
"""
import distutils
import subprocess
import sys
form.status_label.setText("Installing PyVOL and its dependencies")
subprocess.check_output(
[sys.executable, "-m", "pip", "install", "bio-pyvol"])
msms_exe = distutils.spawn.find_executable("msms")
if msms_exe == None:
if os.name in ['posix']:
conda_path = os.path.join(os.path.dirname(sys.executable),
"conda")
if not os.path.isfile(conda_path):
conda_path = "conda"
subprocess.check_output(
[conda_path, "install", "-y", "-c", "bioconda", "msms"])
msms_exe = distutils.spawn.find_executable("msms")
try:
from pymol import cmd
from pyvol import pymol_interface
cmd.extend('pocket', pymol_interface.pocket)
cmd.extend('load_pocket', pymol_interface.load_pocket)
except:
pass
refresh_installation_status(form)
def uninstall_pyvol(form):
""" Attempts to uninstall PyVOL using pip
"""
import subprocess
import sys
form.status_label.setText("Uninstalling PyVOL")
subprocess.check_output(
[sys.executable, "-m", "pip", "uninstall", "-y", "bio-pyvol"])
msg = QtWidgets.QMessageBox()
msg.setIcon(QtWidgets.QMessageBox.Information)
msg.setWindowTitle("PyVOL Backend Uninstalled")
msg.setInformativeText(
"The PyVOL backend has been uninstalled; however, the plugin must also be uninstalled using PyMOL's plugin manager."
)
msg.setStandardButtons(QtWidgets.QMessageBox.Ok)
msg.setMinimumSize(QtCore.QSize(600, 200)) # Doesn't seem to work
msg.exec_()
refresh_installation_status(form)
def update_pyvol(form):
""" Attempts to update PyVOL using pip
"""
import subprocess
import sys
form.status_label.setText("Updating PyVOL")
subprocess.check_output(
[sys.executable, "-m", "pip", "install", "--upgrade", "bio-pyvol"])
msg = QtWidgets.QMessageBox()
msg.setIcon(QtWidgets.QMessageBox.Information)
msg.setWindowTitle("PyVOL Updated")
msg.setInformativeText(
"The PyVOL backend has been updated; however, PyMOL will not load the new code until it is restarted."
)
msg.setStandardButtons(QtWidgets.QMessageBox.Ok)
msg.setMinimumSize(QtCore.QSize(600, 200)) # Doesn't seem to work
msg.exec_()
refresh_installation_status(form)
def refresh_installation_status(form, check_for_updates=False):
""" Check for updates and adjust the GUI to reflect the current installation status and availability of updates
Args:
check_for_updates (bool): query servers to see if an update is available? (Default value = False)
"""
import distutils.spawn
import json
import subprocess
import sys
def apply_color(string, color):
""" Applies a color to html text
Args:
string (str): text
color (str): color to apply
Returns:
colored_text (str): html formatted text
"""
return "<font color='{0}'>{1}</font>".format(color, string)
all_pckgs = subprocess.check_output(
[sys.executable, "-m", "pip", "list",
"--format=json"]).decode('utf-8').strip()
pckgs = json.loads(all_pckgs)
pyvol_version = None
biopython_version = None
numpy_version = None
pandas_version = None
scipy_version = None
sklearn_version = None
trimesh_version = None
pyvol_installed = False
for pckg in pckgs:
if pckg["name"] == "bio-pyvol":
pyvol_version = pckg["version"]
pyvol_installed = True
for pckg in pckgs:
if pckg["name"] == "biopython":
biopython_version = pckg["version"]
if pyvol_installed:
biopython_version = apply_color(biopython_version, "green")
elif pckg["name"] == "numpy":
numpy_version = pckg["version"]
if pyvol_installed:
numpy_version = apply_color(numpy_version, "green")
elif pckg["name"] == "pandas":
pandas_version = pckg["version"]
if pyvol_installed:
pandas_version = apply_color(pandas_version, "green")
elif pckg["name"] == "scipy":
scipy_version = pckg["version"]
if pyvol_installed:
scipy_version = apply_color(scipy_version, "green")
elif pckg["name"] == "scikit-learn":
sklearn_version = pckg["version"]
if pyvol_installed:
sklearn_version = apply_color(sklearn_version, "green")
elif pckg["name"] == "trimesh":
trimesh_version = pckg["version"]
if pyvol_installed:
trimesh_version = apply_color(trimesh_version, "green")
if pyvol_version is None:
pyvol_version = apply_color("not found", "red")
if biopython_version is None:
biopython_version = apply_color("not found", "red")
if numpy_version is None:
numpy_version = apply_color("not found", "red")
if pandas_version is None:
pandas_version = apply_color("not found", "red")
if scipy_version is None:
scipy_version = apply_color("not found", "red")
if sklearn_version is None:
sklearn_version = apply_color("not found", "red")
if trimesh_version is None:
trimesh_version = apply_color("not found", "red")
msms_exe = distutils.spawn.find_executable("msms")
if msms_exe == None:
msms_exe = apply_color("not found", "red")
else:
msms_exe = apply_color(msms_exe, "green")
# check whether an update is available for PyVOL and modify the GUI appropriately
update_available = False
if pyvol_installed and (msms_exe is not None):
form.run_tab.setEnabled(True)
form.run_button.setEnabled(True)
form.load_tab.setEnabled(True)
form.uninstall_button.setEnabled(True)
form.uninstall_button.clicked.connect(
lambda: uninstall_pyvol(form))
form.setWindowTitle("PyVOL v{0}".format(pyvol_version))
if check_for_updates:
avail_pckgs = subprocess.check_output([
sys.executable, "-m", "pip", "list", "--outdated",
"--format=json"
]).decode('utf-8').strip()
avail = json.loads(avail_pckgs)
for pckg in avail:
if pckg["name"] == "bio-pyvol":
update_available = True
pyvol_version = apply_color(
"{0} ({1} available)".format(
pyvol_version, pckg['latest_version']), "blue")
break
if update_available:
form.status_label.setText("Update available")
form.install_button.setText("Update PyVOL")
form.install_button.clicked.connect(
lambda: update_pyvol(form))
else:
form.status_label.setText("PyVOL is up-to-date")
pyvol_version = apply_color(
"{0} (up-to-date)".format(pyvol_version), "green")
form.install_button.setText("Check for Updates")
form.install_button.clicked.connect(
lambda: refresh_installation_status(
form, check_for_updates=True))
else:
form.install_button.setText("Check for Updates")
form.status_label.setText("PyVOL is installed")
form.install_button.clicked.connect(
lambda: refresh_installation_status(
form, check_for_updates=True))
else:
if not pyvol_installed:
form.status_label.setText("PyVOL is not installed")
else:
form.status_label.setText(
"PyVOL has been installed but cannot run without MSMS")
form.run_tab.setEnabled(False)
form.run_button.setEnabled(False)
form.load_tab.setEnabled(False)
form.tabWidget.setCurrentIndex(2)
form.install_button.setText("Install PyVOL")
form.install_button.clicked.connect(lambda: install_pyvol(form))
form.uninstall_button.setEnabled(False)
gui_version = None
if pyvol_installed and (not update_available):
expected_gui_version = None
try:
import pyvol
expected_gui_version = pyvol.__guiversion__
if __version__ == expected_gui_version:
gui_version = apply_color(__version__, "green")
else:
gui_version = apply_color(
"{0} ({1} expected)".format(__version__,
expected_gui_version),
"blue")
form.status_label.setText(
"GUI version mismatch--check whether PyVOL is up-to-date and reinstall the plugin if necessary using the PyMOL plugin manager or directly from the project <a href='https://github.com/schlessingerlab/pyvol/blob/master/pyvolgui.zip'>github</a>."
)
except:
gui_version = __version__
else:
gui_version = __version__
form.install_status_browser.setText(
(" pyvol: {0}<br>"
" pyvol gui: {8}<br>"
" biopython: {1}<br>"
" numpy: {2}<br>"
" pandas: {3}<br>"
" scipy: {4}<br>"
" sklearn: {5}<br>"
" trimesh: {6}<br>"
" msms exe: {7}<br><br>").format(
pyvol_version, biopython_version, numpy_version,
pandas_version, scipy_version, sklearn_version,
trimesh_version, msms_exe, gui_version))
def run_gui_load(form):
""" Loads a precalculated pocket into PyMOL
"""
from pyvol import pymol_interface
# Loading Parameters
pocket_file = form.pocket_file_ledit.text()
if form.load_solid_rbutton.isChecked():
display_mode = "solid"
elif form.load_mesh_rbutton.isChecked():
display_mode = "mesh"
elif form.load_spheres_rbutton.isChecked():
display_mode = "spheres"
color = form.load_color_ledit.text()
alpha = form.load_alpha_ledit.text()
prefix = form.load_prefix_ledit.text()
if color == "":
color = None
if alpha == "":
alpha = None
if prefix == "":
prefix = None
if not os.path.isfile(pocket_file):
logger.error("Supplied file not found: {0}".format(pocket_file))
return
else:
pymol_interface.load_pocket(pocket_file,
name=prefix,
display_mode=display_mode,
color=color,
alpha=alpha)
def run_gui_pyvol(form):
""" Runs a PyVOL calculation
"""
from pyvol import pymol_interface
# Basic Parameters
protein = form.prot_sele_ledit.text()
excl_org = form.excl_org_cbox.isChecked()
min_rad = form.min_rad_ledit.text()
max_rad = form.max_rad_ledit.text()
constrain_inputs = form.constrain_cbox.isChecked()
# Pocket Selection
minimum_volume = None
ligand = None
lig_incl_rad = None
lig_excl_rad = None
residue = None
resid = None
pocket_coordinate = None
if form.all_rbutton.isChecked():
mode = "all"
minimum_volume = form.min_volume_ledit.text()
elif form.largest_rbutton.isChecked():
mode = "largest"
elif form.ligand_rbutton.isChecked():
mode = "specific"
ligand = form.lig_sele_ledit.text()
if form.lig_incl_rad_ledit.text() != "":
lig_incl_rad = form.lig_incl_rad_ledit.text()
if form.lig_excl_rad_ledit.text() != "":
lig_excl_rad = form.lig_excl_rad_ledit.text()
elif form.residue_rbutton.isChecked():
mode = "specific"
residue = form.residue_sele_ledit.text()
elif form.resid_rbutton.isChecked():
mode = "specific"
resid = form.resid_ledit.text()
elif form.coordinate_rbutton.isChecked():
mode = "specific"
pocket_coordinate = form.coordinate_ledit.text()
# Partitioning Parameters
subdivide = form.subdivide_cbox.isChecked()
if not subdivide:
subdivide = None
max_clusters = form.max_clusters_ledit.text()
min_subpocket_rad = form.min_internal_rad_ledit.text()
min_subpocket_surf_rad = form.min_surf_rad_ledit.text()
# Display and Output Options
if form.solid_rbutton.isChecked():
display_mode = "solid"
elif form.mesh_rbutton.isChecked():
display_mode = "mesh"
elif form.spheres_rbutton.isChecked():
display_mode = "spheres"
color = form.color_ledit.text()
alpha = form.alpha_ledit.text()
prefix = form.prefix_ledit.text()
if prefix == "":
prefix = None
output_dir = form.output_dir_ledit.text()
if output_dir == "":
output_dir = None
pymol_interface.pocket(protein=protein,
mode=mode,
ligand=ligand,
pocket_coordinate=pocket_coordinate,
residue=residue,
resid=resid,
prefix=prefix,
min_rad=min_rad,
max_rad=max_rad,
lig_excl_rad=lig_excl_rad,
lig_incl_rad=lig_incl_rad,
display_mode=display_mode,
color=color,
alpha=alpha,
output_dir=output_dir,
subdivide=subdivide,
minimum_volume=minimum_volume,
min_subpocket_rad=min_subpocket_rad,
min_subpocket_surf_rad=min_subpocket_surf_rad,
max_clusters=max_clusters,
excl_org=excl_org,
constrain_inputs=constrain_inputs)
refresh_installation_status(form)
form.close_button.clicked.connect(dialog.close)
form.run_button.clicked.connect(lambda: run_gui_pyvol(form))
form.browse_button.clicked.connect(lambda: browse_pocket_file(form))
form.load_button.clicked.connect(lambda: run_gui_load(form))
dialog.show()
