from __future__ import annotations from nmreval.nmr.coupling import * from nmreval.distributions import ColeCole, ColeDavidson, HavriliakNegami, KWW, LogGaussian from nmreval.utils import pi from nmreval.utils.text import convert from ..Qt import QtGui, QtCore, QtWidgets from ..lib.forms import SelectionWidget, Widget from .._py.t1_calc_dialog import Ui_Dialog class QRelaxCalc(QtWidgets.QDialog, Ui_Dialog): newData = QtCore.pyqtSignal(dict) def __init__(self, parent=None): super().__init__(parent=parent) self.setupUi(self) self.graphs = {} self.specdens = [ColeCole, ColeDavidson, HavriliakNegami, KWW] self.coupling = [Quadrupolar, HomoDipolar, Czjzek] self.tau_parameter = [] for line_edit in [self.ea_lineEdit, self.tau0_lineEdit, self.start_lineEdit, self.stop_lineEdit, self.tau0_vft_lineEdit, self.b_vft_lineEdit, self.t0_vft_lineEdit]: line_edit.setValidator(QtGui.QDoubleValidator()) for s in self.specdens: self.specdens_combobox.addItem(s.name) for c in self.coupling: self.coupling_combobox.addItem(c.name) self.specdens_combobox.currentIndexChanged.connect(self.update_specdens_model) self.coupling_combobox.currentIndexChanged.connect(self.update_coupling_model) self.buttonGroup.buttonClicked.connect(self.change_axis) self.update_specdens_model(0) self.update_coupling_model(0) self.temp_combo_change(0) self.tau_combo_changed(0) self.change_axis(self.radioButton) def set_graphs(self, graphs: dict): self.graph_combobox.clear() self.tau_graph_combobox.clear() self.tau_graph_combobox.blockSignals(True) for key, (name, _) in graphs.items(): self.graph_combobox.addItem(name, userData=key) self.tau_graph_combobox.addItem(name, userData=key) self.tau_graph_combobox.blockSignals(False) self.graphs = graphs self.update_specdens_model(self.specdens_combobox.currentIndex()) self.update_coupling_model(self.coupling_combobox.currentIndex()) self.tau_graph_changed(self.tau_graph_combobox.currentIndex()) def update_graphs(self, graphs: list[tuple[str, str]]): current_id = self.graph_combobox.currentData() self.graph_combobox.clear() for (gid, name) in graphs: self.graph_combobox.addItem(name, userData=gid) self.graph_combobox.setCurrentIndex(self.graph_combobox.findData(current_id, QtCore.Qt.UserRole)) @QtCore.pyqtSlot(int, name='on_graph_checkbox_stateChanged') def changed_state(self, checked): self.graph_combobox.setEnabled(checked != QtCore.Qt.Checked) @QtCore.pyqtSlot(int, name='on_tau_graph_combobox_currentIndexChanged') def tau_graph_changed(self, idx: int): key = self.tau_graph_combobox.itemData(idx) self.tau_set_combobox.clear() if self.graphs: for (set_key, set_name) in self.graphs[key][1]: self.tau_set_combobox.addItem(set_name, userData=set_key) @QtCore.pyqtSlot(QtWidgets.QAbstractButton) def change_axis(self, bttn: QtWidgets.QRadioButton): self.temp_widget.setVisible(bttn in [self.radioButton_3, self.radioButton_4]) if bttn == self.radioButton_2: self.label_7.setText('\u03c4 / s') else: self.label_7.setText('\u03c9 / Hz') @QtCore.pyqtSlot(int, name='on_temp_combobox_curr#entIndexChanged') def temp_combo_change(self, idx: int): self.arr_widget.setVisible(idx == 0) self.vft_widget.setVisible(idx == 1) @QtCore.pyqtSlot(int, name='on_x_input_combobox_currentIndexChanged') def tau_combo_changed(self, idx: int): self.range_widget.setVisible(idx == 0) self.data_widget.setVisible(idx == 1) @QtCore.pyqtSlot(int) def update_coupling_model(self, idx: int): while self.verticalLayout_4.count(): item = self.verticalLayout_4.takeAt(0) try: item.widget().deleteLater() except AttributeError: pass if self.coupling[idx].parameter is not None: for p in self.coupling[idx].parameter: _temp = Widget(convert(p), tree=self.graphs, collapsing=True, parent=self) self.verticalLayout_4.addWidget(_temp) if self.coupling[idx].choice is not None: for c in self.coupling[idx].choice: _temp = SelectionWidget(*c, parent=self) self.verticalLayout_4.addWidget(_temp) @QtCore.pyqtSlot(int) def update_specdens_model(self, idx): while self.verticalLayout_3.count(): item = self.verticalLayout_3.takeAt(0) try: item.widget().deleteLater() except AttributeError: pass if self.specdens[idx].parameter is not None: for param in self.specdens[idx].parameter: _temp = Widget(convert(param), tree=self.graphs, collapsing=True, parent=self) self.verticalLayout_3.addWidget(_temp) def get_taus(self, dic: dict): dic['tau_type'] = {0: 'raw', 1: 'mean', 2: 'peak', 3: 'logmean'}[self.xtype_combobox.currentIndex()] dic['axis1'] = {self.radioButton: 'tau', self.radioButton_2: 'omega', self.radioButton_3: 't', self.radioButton_4: 'invt1000'}[self.buttonGroup.checkedButton()] dic['val2'] = float(self.second_x_lineEdit.text()) if dic['axis1'] != 'omega': dic['val2'] *= 2*pi idx = self.x_input_combobox.currentIndex() if idx == 0: dic['pts'] = (float(self.start_lineEdit.text()), float(self.stop_lineEdit.text()), self.spinBox.value(), self.checkBox.isChecked()) if self.buttonGroup.checkedButton() in [self.radioButton_3, self.radioButton_4]: if self.temp_combobox.currentIndex() == 0: dic['t_param'] = (float(self.tau0_lineEdit.text()), float(self.ea_lineEdit.text())) else: dic['t_param'] = (float(self.tau0_vft_lineEdit.text()), float(self.b_vft_lineEdit.text()), float(self.t0_vft_lineEdit.text())) else: dic['pts'] = (self.tau_set_combobox.currentData(), self.y_radioButton.isChecked()) def get_coupling(self, dic): dic['coup'] = self.coupling[self.coupling_combobox.currentIndex()] parameter = [] kwargs = {} for i in range(self.verticalLayout_4.count()): p = self.verticalLayout_4.itemAt(i).widget() if isinstance(p, Widget): parameter.append(p.value) elif isinstance(p, SelectionWidget): kwargs.update(p.value) else: raise TypeError('WTF: Unknown widget', p) dic['cp_param'] = (parameter, kwargs) def get_specdens(self, dic): dic['spec_dens'] = self.specdens[self.specdens_combobox.currentIndex()] parameter = [] kwargs = {} for i in range(self.verticalLayout_3.count()): p = self.verticalLayout_3.itemAt(i).widget() if isinstance(p, Widget): parameter.append(p.value) elif isinstance(p, SelectionWidget): kwargs[p.argname] = p.value else: raise TypeError('WTF?: Unknown widget', p) dic['sd_param'] = (parameter, kwargs) def calc_relaxation(self): opts = {} self.get_taus(opts) self.get_coupling(opts) self.get_specdens(opts) opts['out'] = {0: 't1', 1: 't2'}[self.relax_combox.currentIndex()] opts['graph'] = '' if self.graph_checkbox.isChecked() else self.graph_combobox.currentData() self.newData.emit(opts) def accept(self): self.calc_relaxation() super().accept()