# Window.py -- Pamhyr
# Copyright (C) 2023 INRAE
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
# -*- coding: utf-8 -*-
import logging
from tools import timer, trace
from View.Tools.PamhyrWindow import PamhyrWindow
from View.Tools.PamhyrWidget import PamhyrWidget
from View.Tools.PamhyrDelegate import PamhyrExTimeDelegate
from PyQt5.QtGui import (
QKeySequence,
)
from PyQt5 import QtCore
from PyQt5.QtCore import (
Qt, QVariant, QAbstractTableModel, QCoreApplication,
pyqtSlot, pyqtSignal,
)
from PyQt5.QtWidgets import (
QDialogButtonBox, QPushButton, QLineEdit,
QFileDialog, QTableView, QAbstractItemView,
QUndoStack, QShortcut, QAction, QItemDelegate,
QHeaderView, QDoubleSpinBox, QVBoxLayout,
)
from View.Tools.Plot.PamhyrCanvas import MplCanvas
from View.Tools.Plot.PamhyrToolbar import PamhyrPlotToolbar
from View.BoundaryCondition.Edit.translate import BCETranslate
from View.BoundaryCondition.Edit.UndoCommand import SetMetaDataCommand
from View.BoundaryCondition.Edit.Table import TableModel
from View.BoundaryCondition.Edit.Plot import Plot
_translate = QCoreApplication.translate
logger = logging.getLogger()
class WD50Sigma(PamhyrWidget):
_pamhyr_ui = "d50sigma"
d50Changed = pyqtSignal(float)
sigmaChanged = pyqtSignal(float)
def __init__(self, parent=None):
super(WD50Sigma, self).__init__(
parent=parent
)
self.spinBox_d50 = self.find(QDoubleSpinBox, "doubleSpinBox_d50")
self.spinBox_sigma = self.find(QDoubleSpinBox, "doubleSpinBox_sigma")
self.spinBox_d50.valueChanged.connect(self.valueChangedD50)
self.spinBox_sigma.valueChanged.connect(self.valueChangedSigma)
def set_d50(self, d50):
self.spinBox_d50.valueChanged.disconnect(self.valueChangedD50)
self.spinBox_d50.setValue(float(d50))
self.spinBox_d50.valueChanged.connect(self.valueChangedD50)
def get_d50(self):
return float(self.spinBox_d50.value())
def set_sigma(self, sigma):
self.spinBox_sigma.valueChanged.disconnect(self.valueChangedSigma)
self.spinBox_sigma.setValue(float(sigma))
self.spinBox_sigma.valueChanged.connect(self.valueChangedSigma)
def get_sigma(self):
return float(self.spinBox_sigma.value())
@QtCore.pyqtSlot(float)
def valueChangedD50(self, value):
self.d50Changed.emit(value)
@QtCore.pyqtSlot(float)
def valueChangedSigma(self, value):
self.sigmaChanged.emit(value)
class EditBoundaryConditionWindow(PamhyrWindow):
_pamhyr_ui = "EditBoundaryConditions"
_pamhyr_name = "Edit Boundary Conditions"
def __init__(self, data=None, study=None, config=None, parent=None):
self._data = data
trad = BCETranslate()
self._long_types = trad.get_dict("long_types")
name = self._pamhyr_name
if self._data is not None:
node_name = (self._data.node.name if self._data.node is not None
else _translate("BoundaryCondition", "Not associate"))
name = (
_translate("Edit boundary condition", self._pamhyr_name) +
f" - {study.name} " +
f" - {self._data.name} ({self._data.id}) " +
f"({self._long_types[self._data.bctype]} - {node_name})"
)
super(EditBoundaryConditionWindow, self).__init__(
title=name,
study=study,
config=config,
trad=trad,
parent=parent
)
self._hash_data.append(data)
self.setup_table()
self.setup_plot()
self.setup_data()
self.setup_connections()
def setup_data(self):
self._is_solid = self._data.bctype == "SL"
if self._is_solid:
layout = self.find(QVBoxLayout, "verticalLayout_table")
self._d50sigma = WD50Sigma(parent=self)
layout.addWidget(self._d50sigma)
self._d50sigma.set_d50(self._data.d50)
self._d50sigma.set_sigma(self._data.sigma)
def setup_table(self):
headers = {}
table_headers = self._trad.get_dict("table_headers")
for h in self._data.header:
headers[h] = table_headers[h]
self._delegate_time = PamhyrExTimeDelegate(
data=self._data,
mode=self._study.time_system,
parent=self
)
table = self.find(QTableView, "tableView")
self._table = TableModel(
table_view=table,
table_headers=headers,
editable_headers=self._data.header,
delegates={
"time": self._delegate_time,
},
data=self._data,
undo=self._undo_stack,
opt_data=self._study.time_system
)
table.setModel(self._table)
table.setSelectionBehavior(QAbstractItemView.SelectRows)
table.horizontalHeader().setSectionResizeMode(QHeaderView.Stretch)
table.setAlternatingRowColors(True)
def setup_plot(self):
self.canvas = MplCanvas(width=5, height=4, dpi=100)
self.canvas.setObjectName("canvas")
self.toolbar = PamhyrPlotToolbar(
self.canvas, self
)
self.verticalLayout.addWidget(self.toolbar)
self.verticalLayout.addWidget(self.canvas)
self.plot = Plot(
canvas=self.canvas,
data=self._data,
mode=self._study.time_system,
trad=self._trad,
toolbar=self.toolbar,
)
self.plot.draw()
def setup_connections(self):
self.find(QAction, "action_add").triggered.connect(self.add)
self.find(QAction, "action_del").triggered.connect(self.delete)
self.find(QAction, "action_sort").triggered.connect(self.sort)
self._table.dataChanged.connect(self.update)
if self._is_solid:
self._d50sigma.d50Changed.connect(self.d50_changed)
self._d50sigma.sigmaChanged.connect(self.sigma_changed)
def d50_changed(self, value):
self._undo_stack.push(
SetMetaDataCommand(
self._data,
"d50", value
)
)
def sigma_changed(self, value):
self._undo_stack.push(
SetMetaDataCommand(
self._data,
"sigma", value
)
)
def widget_update(self):
if self._is_solid:
self._d50sigma.set_d50(self._data.d50)
self._d50sigma.set_sigma(self._data.sigma)
def update(self):
self.plot.update()
def index_selected_row(self):
table = self.find(QTableView, "tableView")
return table.selectionModel()\
.selectedRows()[0]\
.row()
def index_selected_rows(self):
table = self.find(QTableView, "tableView")
return list(
# Delete duplicate
set(
map(
lambda i: i.row(),
table.selectedIndexes()
)
)
)
def add(self):
rows = self.index_selected_rows()
if len(self._data) == 0 or len(rows) == 0:
self._table.add(0)
else:
self._table.add(rows[0])
self.plot.update()
def delete(self):
rows = self.index_selected_rows()
if len(rows) == 0:
return
self._table.delete(rows)
self.plot.update()
def sort(self):
self._table.sort(False)
self.plot.update()
def move_up(self):
row = self.index_selected_row()
self._table.move_up(row)
self.plot.update()
def move_down(self):
row = self.index_selected_row()
self._table.move_down(row)
self.plot.update()
def _copy(self):
rows = self.index_selected_rows()
table = []
table.append(self._data.header)
data = self._data.data
for row in rows:
table.append(list(data[row]))
self.copyTableIntoClipboard(table)
def _paste(self):
header, data = self.parseClipboardTable()
if len(data) == 0:
return
row = 0
rows = self.index_selected_rows()
if len(rows) != 0:
row = rows[0]
self._table.paste(row, header, data)
self.plot.update()
def _undo(self):
self._table.undo()
self.plot.update()
self.widget_update()
def _redo(self):
self._table.redo()
self.plot.update()
self.widget_update()