コード例 #1
0
class SerialInputGui(QWidget):
    def __init__(self):
        super().__init__()

        self.layout = QGridLayout()
        self._setup()
        self.setLayout(self.layout)

    def send(self):
        text = self.text.toPlainText()
        self.text.clear()

    def send_if_checked(self):
        if self.send_on_enter.isChecked():
            self.send()

    def _setup(self):
        self.text = QPlainTextEdit()
        self.text.setReadOnly(False)
        #self.text.returnPressed.connect(self.send_if_checked)

        send_button = QPushButton("Send")
        send_button.clicked.connect(self.send)

        self.send_on_enter = QCheckBox("Send on Enter")
        self.send_on_enter.setCheckState(Qt.Checked)

        self.layout.addWidget(self.text, 0, 0, -1, 1)
        self.layout.addWidget(send_button, 0, 1, 1, 1)
        self.layout.addWidget(self.send_on_enter, 1, 1, 1, 1)
コード例 #2
0
    def funcDisplayFacilities(self):
        for i in reversed(range(self.facilitiesTable.rowCount())):
            self.facilitiesTable.removeRow(i)

        cur = db.cur
        facilities = cur.execute("SELECT * FROM facilities")

        for row_data in facilities:
            row_number = self.facilitiesTable.rowCount()
            self.facilitiesTable.insertRow(row_number)
            # Add checkboxes to the table
            qwidget = QWidget()
            checkbox = QCheckBox()
            checkbox.setCheckState(Qt.Unchecked)
            checkbox.stateChanged.connect(self.funcActivateBtnsWithCheckbox)
            qhboxlayout = QHBoxLayout(qwidget)
            qhboxlayout.addWidget(checkbox)
            qhboxlayout.setAlignment(Qt.AlignCenter)
            self.facilitiesTable.setCellWidget(row_number, 0, qwidget)
            self.facilitiesTable.setItem(row_number, 0,
                                         QTableWidgetItem(row_number))

            for column_number, data in enumerate(row_data, start=1):
                if column_number == 1:
                    self.facilitiesTable.setItem(
                        row_number, column_number,
                        QTableWidgetItem("FCL#" + str(data)))
                else:
                    self.facilitiesTable.setItem(row_number, column_number,
                                                 QTableWidgetItem(str(data)))

        self.facilitiesTable.setEditTriggers(QAbstractItemView.NoEditTriggers)
        self.facilitiesTable.setSelectionBehavior(QTableView.SelectRows)
コード例 #3
0
ファイル: ui_resizable.py プロジェクト: polkah/polibeepsync
    def paint(self, painter, option, index):
        checked = bool(index.data())
        checkbox = QCheckBox()

        if (index.flags() & Qt.ItemIsEditable) > 0:
            checkbox.setEnabled(True)
        else:
            checkbox.setEnabled(False)

        # Implement tristate checkboxe for folder nodes
        if checked:
            checkbox.setCheckState(Qt.Checked)
        else:
            checkbox.setCheckState(Qt.Unchecked)

        if self.parent():
            checkbox.setStyleSheet(self.parent().styleSheet())

        width = option.widget.columnWidth(1)
        height = option.widget.rowHeight(0)

        painter.save()
        painter.translate(option.rect.topLeft())
        checkbox.rect = option.rect
        checkbox.setFixedSize(width, height)
        checkbox.render(painter, QPoint(0, 0))
        painter.restore()
コード例 #4
0
class ToggleButton:
    def __init__(self, frame_text: str, checkbox_text: str = 'Default'):
        self.box = QVBoxLayout()
        self.lbl = QLabel(frame_text)

        self.checkbox = QCheckBox(checkbox_text)
        self.checkbox.setCheckState(Qt.Unchecked)

        self.numeric = QSpinBox()
        self.numeric.setValue(-1)

        self.box.addWidget(self.lbl)
        self.box.addWidget(self.numeric)
        self.box.addWidget(self.checkbox)

        self.checkbox.stateChanged.connect(self.checkbox_toggle)
        self.numeric.valueChanged.connect(self.numeric_change)

        self.use_default = False
        self.value = -1

    @Slot()
    def checkbox_toggle(self, checked):
        self.use_default = self.checkbox.checkState() == Qt.Checked
        self.numeric.setDisabled(self.use_default)

    @Slot()
    def numeric_change(self, checked):
        self.value = self.numeric.value()
コード例 #5
0
    def funcSearchIssues(self):
        value = self.searchIssuesEntry.text()
        if value == "":
            QMessageBox.information(self, "Warning", "Search string cannot be empty")
            self.funcDisplayIssues()
        else:
            # Erase search entry
            self.searchIssuesEntry.setText("")
            try:
                query = "SELECT * FROM issues WHERE " \
                        "issue_id LIKE ? " \
                        "OR issue_date LIKE ?" \
                        "OR issue_priority LIKE ?" \
                        "OR issue_observer LIKE ?" \
                        "OR issue_team LIKE ?" \
                        "OR issue_inspection LIKE ?" \
                        "OR issue_theme LIKE ?" \
                        "OR issue_facility LIKE ?" \
                        "OR issue_fac_supervisor LIKE ?" \
                        "OR issue_spec_loc LIKE ?" \
                        "OR issue_insp_dept LIKE ?" \
                        "OR issue_insp_contr LIKE ?" \
                        "OR issue_insp_subcontr LIKE ?" \
                        "OR issue_deadline LIKE ?"
                results = db.cur.execute(query,
                                         ('%' + value + '%', '%' + value + '%',
                                          '%' + value + '%', '%' + value + '%',
                                          '%' + value + '%', '%' + value + '%',
                                          '%' + value + '%', '%' + value + '%',
                                          '%' + value + '%', '%' + value + '%',
                                          '%' + value + '%', '%' + value + '%',
                                          '%' + value + '%', '%' + value + '%',)).fetchall()
                if results == []:
                    QMessageBox.information(self, "Info", "Nothing was found")
                    self.funcDisplayIssues()
                else:
                    for i in reversed(range(self.issuesTable.rowCount())):
                        self.issuesTable.removeRow(i)

                    for row_data in results:
                        row_number = self.issuesTable.rowCount()
                        self.issuesTable.insertRow(row_number)
                        # Add checkboxes to the table
                        qwidget = QWidget()
                        checkbox = QCheckBox()
                        checkbox.setCheckState(Qt.Unchecked)
                        qhboxlayout = QHBoxLayout(qwidget)
                        qhboxlayout.addWidget(checkbox)
                        qhboxlayout.setAlignment(Qt.AlignCenter)
                        self.issuesTable.setCellWidget(row_number, 0, qwidget)
                        self.issuesTable.setItem(row_number, 0, QTableWidgetItem(row_number))
                        for column_number, data in enumerate(row_data, start=1):
                            if column_number == 1:
                                self.issuesTable.setItem(row_number, column_number,
                                                         QTableWidgetItem("ISS#" + str(data)))
                            else:
                                self.issuesTable.setItem(row_number, column_number, QTableWidgetItem(str(data)))
            except:
                QMessageBox.information(self, "Info", "Cannot access database")
コード例 #6
0
    def __init__(self):
        super().__init__()
        checkbox = QCheckBox("3옵션 체크박스")
        checkbox.stateChanged.connect(self.state_changed)
        checkbox.setTristate(True)
        checkbox.setCheckState(Qt.PartiallyChecked)

        self.setCentralWidget(checkbox)
コード例 #7
0
    def __init__(self):
        super().__init__()

        self.setWindowTitle("My App")

        widget = QCheckBox("This is a checkbox")
        widget.setCheckState(Qt.Checked)

        # For tristate: widget.setCheckState(Qt.PartiallyChecked)
        # Or: widget.setTristate(True)
        widget.stateChanged.connect(self.show_state)

        self.setCentralWidget(widget)
コード例 #8
0
    def _createCheckableType(self, a: PluginAttribute):
        """
        Creates widget for attribute of CHECKABLE type.
        
        :param a: The attribute.
        :type a: PluginAttribute
        :return: Widget for attribute.
        :rtype: QWidget
        """

        inputW = QCheckBox()
        inputW.setCheckState(Qt.Checked if a.value else Qt.Unchecked)
        inputW.stateChanged.connect(a.setValue)

        return self._createWidget(a, inputW, False)
コード例 #9
0
    def paint(self, painter, option, index):
        checked = bool(index.data())
        checkbox = QCheckBox()

        if (index.flags() & Qt.ItemIsEditable) > 0:
            checkbox.setEnabled(True)
        else:
            checkbox.setEnabled(False)

        if checked:
            checkbox.setCheckState(Qt.Checked)
        else:
            checkbox.setCheckState(Qt.Unchecked)

        checkbox.rect = self.getCheckBoxRect(option)

        #checkbox.setCheckState(QStyle.State_Enabled)

        style = '''QCheckBox, QRadioButton {
                color: #546E7A;
            }

            QCheckBox::indicator::unchecked  {
                background-color: #FFFFFF;
                border: 1px solid #536D79;
            }

            QCheckBox::indicator::checked, QTreeView::indicator::checked {
                background-color: qradialgradient(cx:0.5, cy:0.5, fx:0.25, fy:0.15, radius:0.3, stop:0 #80CBC4, stop:1 #FFFFFF);
                border: 1px solid #536D79;
            }


            QCheckBox::indicator:disabled, QRadioButton::indicator:disabled, QTreeView::indicator:disabled {
                background-color: #444444;			/* Not sure what this looks like */
            }

            QCheckBox::indicator::checked:disabled, QRadioButton::indicator::checked:disabled, QTreeView::indicator::checked:disabled {  
                background-color: qradialgradient(cx:0.5, cy:0.5, fx:0.25, fy:0.15, radius:0.3, stop:0 #BBBBBB, stop:1 #444444); /* Not sure what this looks like */
            }

            '''
        checkbox.setStyleSheet(style)

        painter.save()
        painter.translate(option.rect.topLeft())
        checkbox.render(painter, QPoint(0, 0))
        painter.restore()
コード例 #10
0
class DFAStateEditor(QDialog):
    signalEditedStateInfo = Signal(dict, dict)

    def __init__(self, state=None):
        super(DFAStateEditor, self).__init__()
        self.setModal(True)
        self.initialInfo = {
            'stateId': state.id,
            'isAcceptable': state.isAcceptable
        }
        self.isAcceptableCheckBox = QCheckBox('State is acceptable ', self)
        self.accepted = QPushButton('OK', self)
        self.rejected = QPushButton('Cancel', self)

        if state is not None:
            self.setCheckBox(self.isAcceptableCheckBox, state.isAcceptable)
        else:
            self.isAcceptableCheckBox.setCheckState(QCheckBox.Unchecked)

        self.accepted.clicked.connect(self.sendCollectedInfo)
        self.rejected.clicked.connect(self.reject)

        self.setMaximumHeight(200)
        self.setMaximumWidth(200)

        layout = QGridLayout()
        # layout.setParent(self)
        layout.addWidget(self.isAcceptableCheckBox, 0, 0)
        layout.addWidget(self.accepted, 1, 0)
        layout.addWidget(self.rejected, 1, 1)
        self.setLayout(layout)

    def setCheckBox(self, checkbox, value):
        if value is True:
            checkbox.setChecked(True)
        else:
            checkbox.setChecked(False)

    @Slot()
    def sendCollectedInfo(self):
        info = {
            'stateId': self.initialInfo['stateId'],
            'isAcceptable': self.isAcceptableCheckBox.isChecked()
        }
        self.signalEditedStateInfo.emit(info, self.initialInfo)
        self.accept()
コード例 #11
0
class MillerArrayTableForm(QDialog):
    def __init__(self, parent=None):
        super(MillerArrayTableForm, self).__init__(parent.window)
        self.setWindowFlag(Qt.WindowContextHelpButtonHint, False)
        self.setWindowTitle("Tabulated Reflection Data")
        self.precision_spinBox = QSpinBox()
        self.precision_spinBox.setSingleStep(1)
        self.precision_spinBox.setRange(1, 20)
        self.precision_spinBox.setValue(3)
        self.precision_spinBox.valueChanged.connect(parent.onPrecisionChanged)
        precision_labeltxt = QLabel()
        precision_labeltxt.setText("Precision:")
        self.SortComboBox = QComboBox()
        self.SortComboBox.activated.connect(parent.onSortComboBoxSelchange)
        sort_labeltxt = QLabel()
        sort_labeltxt.setText("Sort according to:")
        self.sortChkbox = QCheckBox()
        self.sortChkbox.setCheckState(Qt.Unchecked)
        self.sortChkbox.setText("Ascending order")
        self.sortChkbox.clicked.connect(parent.onSortChkbox)
        self.myGroupBox = QGroupBox()
        self.layout = QGridLayout()
        self.layout.addWidget(precision_labeltxt, 0, 0, 1, 1)
        self.layout.addWidget(self.precision_spinBox, 0, 1, 1, 1)
        self.layout.addWidget(sort_labeltxt, 0, 2, 1, 1)
        self.layout.addWidget(self.SortComboBox, 0, 3, 1, 1)
        self.layout.addWidget(self.sortChkbox, 0, 4, 1, 1)
        self.layout.addWidget(parent.millerarraytable, 1, 0, 1, 5)
        self.layout.setColumnStretch(0, 0)
        self.layout.setColumnStretch(1, 0)
        self.layout.setColumnStretch(2, 0)
        self.layout.setColumnStretch(3, 0)
        self.layout.setColumnStretch(4, 1)
        self.myGroupBox.setLayout(self.layout)
        self.mainLayout = QGridLayout()
        self.mainLayout.addWidget(self.myGroupBox, 0, 0)
        self.setLayout(self.mainLayout)

    def eventFilter(self, source, event):
        if (event.type() == QEvent.KeyPress
                and event.matches(QKeySequence.Copy)):
            self.parent().parent.millerarraytable.copySelection()
            return True
        return super(MillerArrayTableForm, self).eventFilter(source, event)
コード例 #12
0
    def funcDisplayPeople(self):
        for i in reversed(range(self.peopleTable.rowCount())):
            self.peopleTable.removeRow(i)

        cur = db.cur
        people = cur.execute("SELECT * FROM people")

        for row_data in people:
            row_number = self.peopleTable.rowCount()
            self.peopleTable.insertRow(row_number)
            # Add checkboxes to the table
            widget = QWidget()
            checkBox = QCheckBox()
            checkBox.setCheckState(Qt.Unchecked)
            checkBox.stateChanged.connect(self.funcActivateBtnsWithCheckbox)
            hBoxLayout = QHBoxLayout(widget)
            hBoxLayout.addWidget(checkBox)
            hBoxLayout.setAlignment(Qt.AlignCenter)
            self.peopleTable.setCellWidget(row_number, 0, widget)
            self.peopleTable.setItem(row_number, 0,
                                     QTableWidgetItem(row_number))
            # Add photo photos_thumbnails to the table
            thumbWidget = QWidget()
            pic = QPixmap(str(row_data[10]))
            thumbLabel = QLabel()
            thumbLabel.setPixmap(pic)
            thumbLayout = QHBoxLayout(thumbWidget)
            thumbLayout.addWidget(thumbLabel)
            self.peopleTable.setCellWidget(row_number, 1, thumbWidget)
            self.peopleTable.setItem(row_number, 0,
                                     QTableWidgetItem(row_number))
            # Fill the rest of the data
            for column_number, data in enumerate(row_data, start=2):
                if column_number == 2:
                    self.peopleTable.setItem(
                        row_number, column_number,
                        QTableWidgetItem("PRN#" + str(data)))
                else:
                    self.peopleTable.setItem(row_number, column_number,
                                             QTableWidgetItem(str(data)))

        self.peopleTable.setEditTriggers(QAbstractItemView.NoEditTriggers)
        self.peopleTable.setSelectionBehavior(QTableView.SelectRows)
コード例 #13
0
    def createTopLeftGroupBox(self):
        self.topLeftGroupBox = QGroupBox("Group 1")

        radioButton1 = QRadioButton("Radio button 1")
        radioButton2 = QRadioButton("Radio button 2")
        radioButton3 = QRadioButton("Radio button 3")
        radioButton1.setChecked(True)

        checkBox = QCheckBox("Tri-state check box")
        checkBox.setTristate(True)
        checkBox.setCheckState(Qt.PartiallyChecked)

        layout = QVBoxLayout()
        layout.addWidget(radioButton1)
        layout.addWidget(radioButton2)
        layout.addWidget(radioButton3)
        layout.addWidget(checkBox)
        layout.addStretch(1)
        self.topLeftGroupBox.setLayout(layout)
コード例 #14
0
ファイル: OTIOExportUI.py プロジェクト: vvzen/hiero-otio
class OTIOExportUI(hiero.ui.TaskUIBase):
    def __init__(self, preset):
        """Initialize"""
        hiero.ui.TaskUIBase.__init__(
            self,
            OTIOExportTask,
            preset,
            "OTIO Exporter"
        )

    def includeMarkersCheckboxChanged(self, state):
        # Slot to handle change of checkbox state
        self._preset.properties()["includeTags"] = state == QtCore.Qt.Checked

    def populateUI(self, widget, exportTemplate):
        layout = widget.layout()
        formLayout = FormLayout()

        # Hiero ~= 10.0v4
        if layout is None:
            layout = formLayout
            widget.setLayout(layout)

        else:
            layout.addLayout(formLayout)

        # Checkboxes for whether the OTIO should contain markers or not
        self.includeMarkersCheckbox = QCheckBox()
        self.includeMarkersCheckbox.setToolTip(
            "Enable to include Tags as markers in the exported OTIO file."
        )
        self.includeMarkersCheckbox.setCheckState(QtCore.Qt.Unchecked)

        if self._preset.properties()["includeTags"]:
            self.includeMarkersCheckbox.setCheckState(QtCore.Qt.Checked)

        self.includeMarkersCheckbox.stateChanged.connect(
            self.includeMarkersCheckboxChanged
        )

        # Add Checkbox to layout
        formLayout.addRow("Include Tags:", self.includeMarkersCheckbox)
コード例 #15
0
ファイル: simpleSelector.py プロジェクト: SouthAngel/vimSet
class BasicSelector(SimpleSelector):

    # User-visible usage message.  Can be used as tool tip.
    kUsage = maya.stringTable['y_simpleSelector.kBasicSelectorUsage']

    # User-visible display type.
    kDisplayType = maya.stringTable[
        'y_simpleSelector.kBasicSelectorDisplayType']

    # Corresponding data model type.
    kModelType = selector.BasicSelector.kTypeName

    def __init__(self, selector):
        super(BasicSelector, self).__init__(selector)
        self.includeHierarchy = None

    def build(self, layout):
        super(BasicSelector, self).build(layout, populate=False)
        self._setupIncludeHierarchy(self.addToCollectionGroupBoxLayout)
        self.populateFields()

    def _setupIncludeHierarchy(self, layout):
        self.includeHierarchy = QCheckBox(
            maya.stringTable['y_simpleSelector.kIncludeHierarchy'])
        self.includeHierarchy.setToolTip(
            maya.stringTable['y_simpleSelector.kIncludeHierarchyTooltipStr'])
        self.includeHierarchy.stateChanged.connect(
            lambda x: self.setIncludeHierarchy(x == Qt.Checked))
        layout.addWidget(self.includeHierarchy)

    @ifNotBlockChangeMessages
    def setIncludeHierarchy(self, value):
        self._selector.setIncludeHierarchy(value)

    @guard.member('_blockChangeMessages', True)
    def populateFields(self):
        super(BasicSelector, self).populateFields()
        self.includeHierarchy.setCheckState(
            Qt.Checked if self._selector.getIncludeHierarchy(
            ) else Qt.Unchecked)
コード例 #16
0
    def __init__(self):
        super().__init__()

        self.setWindowTitle("My App")

        widget = QLabel("Hello")
        # In order to modify the font, we retrieve it,
        # change it, and set it back
        font = widget.font()
        font.setPointSize(30)
        widget.setFont(font)
        widget.setAlignment(Qt.AlignHCenter | Qt.AlignVCenter)
        widget.setPixmap(QPixmap('assets/example.jpg'))
        widget.setScaledContents(True)
        widget.setFixedSize(QSize(200, 100))

        checkbox = QCheckBox("A checkbox")
        checkbox.setCheckState(Qt.Checked)
        checkbox.setTristate(True)
        checkbox.stateChanged.connect(self.show_state)

        # self.setCentralWidget(checkbox)
        self.setCentralWidget(widget)
コード例 #17
0
ファイル: chrono.py プロジェクト: Almazys/chrono
    def createNotificationPopup(self):
        popup = QDialog(self)
        popup.setFixedSize(popup.sizeHint().height(), popup.sizeHint().width())
        popup.setWindowTitle("Évènements")
        innerLayout = QVBoxLayout()

        GroupBox = QGroupBox("Activer les notifications")
        GroupBox.setCheckable(True)
        GroupBox.setChecked(self.notification)

        checkBox_popup = QCheckBox("Afficher une popup")
        checkBox_notification = QCheckBox("Afficher une notification")
        checkBox_sound = QCheckBox("Jouer un son")

        if self.notification_popup:
            checkBox_popup.setCheckState(Qt.Checked)
        if self.notification_tray:
            checkBox_notification.setCheckState(Qt.Checked)
        if self.notification_sound:
            checkBox_sound.setCheckState(Qt.Checked)

        innerLayout.addWidget(checkBox_popup)
        innerLayout.addWidget(checkBox_notification)
        innerLayout.addWidget(checkBox_sound)
        innerLayout.addStretch(1)
        GroupBox.setLayout(innerLayout)

        button = QPushButton("Ok")
        button.clicked.connect(lambda: self.changeNotificationSettings(
            popup, GroupBox, checkBox_popup, checkBox_notification,
            checkBox_sound))

        outerLayout = QVBoxLayout()
        outerLayout.addWidget(GroupBox)
        outerLayout.addWidget(button)
        popup.setLayout(outerLayout)

        popup.exec_()
コード例 #18
0
ファイル: export.py プロジェクト: rsbekti/Facepager
class ExportFileDialog(QFileDialog):
    """
    Create a custom Export-File Dialog with options like BOM etc.
    """
    def __init__(self, *args, **kwargs):
        super(ExportFileDialog, self).__init__(*args, **kwargs)

        self.mainWindow = self.parent()
        self.setWindowTitle("Export nodes to CSV")
        self.setAcceptMode(QFileDialog.AcceptSave)
        self.setOption(QFileDialog.DontUseNativeDialog)
        #self.setFilter("CSV Files (*.csv)")
        self.setDefaultSuffix("csv")

        self.optionBOM = QCheckBox("Use a BOM", self)
        self.optionBOM.setCheckState(Qt.CheckState.Checked)

        self.optionLinebreaks = QCheckBox("Remove line breaks", self)
        self.optionLinebreaks.setCheckState(Qt.CheckState.Checked)

        self.optionSeparator = QComboBox(self)
        self.optionSeparator.insertItems(0, [";", "\\t", ","])
        self.optionSeparator.setEditable(True)

        # if none or all are selected, export all
        # if one or more are selected, export selective
        self.optionAll = QComboBox(self)
        self.optionAll.insertItems(0, [
            'All nodes (faster for large datasets, ordered by internal ID)',
            'Selected nodes (ordered like shown in nodes view)'
        ])
        if self.mainWindow.tree.noneOrAllSelected():
            self.optionAll.setCurrentIndex(0)
        else:
            self.optionAll.setCurrentIndex(1)

        layout = self.layout()
        row = layout.rowCount()
        layout.addWidget(QLabel('Options'), row, 0)

        options = QHBoxLayout()
        options.addWidget(self.optionBOM)
        options.addWidget(self.optionLinebreaks)
        options.addWidget(QLabel('Separator'))
        options.addWidget(self.optionSeparator)
        options.addStretch(1)

        layout.addLayout(options, row, 1, 1, 2)

        layout.addWidget(QLabel('Export mode'), row + 2, 0)
        layout.addWidget(self.optionAll, row + 2, 1, 1, 2)
        self.setLayout(layout)

        if self.exec_():

            if os.path.isfile(self.selectedFiles()[0]):
                os.remove(self.selectedFiles()[0])
            output = open(self.selectedFiles()[0],
                          'w',
                          newline='',
                          encoding='utf8')
            if self.optionBOM.isChecked():
                output.write('\ufeff')

            try:
                if self.optionAll.currentIndex() == 0:
                    self.exportAllNodes(output)
                else:
                    self.exportSelectedNodes(output)
            finally:
                output.close()

    def exportSelectedNodes(self, output):
        progress = ProgressBar("Exporting data...", self.mainWindow)

        #indexes = self.mainWindow.tree.selectionModel().selectedRows()
        #if child nodes should be exported as well, uncomment this line an comment the previous one
        indexes = self.mainWindow.tree.selectedIndexesAndChildren()
        indexes = list(indexes)
        progress.setMaximum(len(indexes))

        try:
            delimiter = self.optionSeparator.currentText()
            delimiter = delimiter.encode('utf-8').decode('unicode_escape')
            writer = csv.writer(output,
                                delimiter=delimiter,
                                quotechar='"',
                                quoting=csv.QUOTE_ALL,
                                doublequote=True,
                                lineterminator='\r\n')

            #headers
            row = [
                str(val)
                for val in self.mainWindow.tree.treemodel.getRowHeader()
            ]
            if self.optionLinebreaks.isChecked():
                row = [
                    val.replace('\n', ' ').replace('\r', ' ') for val in row
                ]

            writer.writerow(row)

            #rows
            for no in range(len(indexes)):
                if progress.wasCanceled:
                    break

                row = [
                    str(val) for val in
                    self.mainWindow.tree.treemodel.getRowData(indexes[no])
                ]
                if self.optionLinebreaks.isChecked():
                    row = [
                        val.replace('\n', ' ').replace('\r', ' ')
                        for val in row
                    ]

                writer.writerow(row)

                progress.step()

        finally:
            progress.close()

    def exportAllNodes(self, output):
        progress = ProgressBar("Exporting data...", self.mainWindow)
        progress.setMaximum(Node.query.count())

        try:
            delimiter = self.optionSeparator.currentText()
            delimiter = delimiter.encode('utf-8').decode('unicode_escape')
            writer = csv.writer(output,
                                delimiter=delimiter,
                                quotechar='"',
                                quoting=csv.QUOTE_ALL,
                                doublequote=True,
                                lineterminator='\r\n')

            #headers
            row = [
                "level", "id", "parent_id", "object_id", "object_type",
                "query_status", "query_time", "query_type"
            ]
            for key in self.mainWindow.tree.treemodel.customcolumns:
                row.append(key)
            if self.optionLinebreaks.isChecked():
                row = [
                    val.replace('\n', ' ').replace('\r', ' ') for val in row
                ]

            writer.writerow(row)

            #rows
            page = 0

            while True:
                allnodes = Node.query.offset(page * 5000).limit(5000)
                if allnodes.count() == 0:
                    break
                for node in allnodes:
                    if progress.wasCanceled:
                        break
                    row = [
                        node.level, node.id, node.parent_id, node.objectid,
                        node.objecttype, node.querystatus, node.querytime,
                        node.querytype
                    ]
                    for key in self.mainWindow.tree.treemodel.customcolumns:
                        row.append(node.getResponseValue(key))

                    if self.optionLinebreaks.isChecked():
                        row = [
                            str(val).replace('\n', ' ').replace('\r', ' ')
                            for val in row
                        ]

                    writer.writerow(row)
                    # step the Bar
                    progress.step()
                if progress.wasCanceled:
                    break
                else:
                    page += 1

        finally:
            progress.close()
コード例 #19
0
class NGL_HKLViewer(QWidget):
    def __init__(self, parent=None):
        super(NGL_HKLViewer, self).__init__(parent)

        self.verbose = 0
        self.UseOSbrowser = False
        self.jscriptfname = ""
        self.devmode = False
        for e in sys.argv:
            if "verbose" in e:
                self.verbose = e.split("verbose=")[1]
            if "UseOSbrowser" in e:
                self.UseOSbrowser = e.split("UseOSbrowser=")[1]
            if "jscriptfname" in e:
                self.jscriptfname = e.split("jscriptfname=")[1]
            if "devmode" in e:
                self.devmode = True

        self.zmq_context = None
        self.bufsize = 20000

        self.originalPalette = QApplication.palette()

        self.openFileNameButton = QPushButton("Load reflection file")
        self.openFileNameButton.setDefault(True)
        self.openFileNameButton.clicked.connect(self.OpenReflectionsFile)

        self.debugbutton = QPushButton("Debug")
        self.debugbutton.clicked.connect(self.DebugInteractively)

        self.settingsbtn = QPushButton("Settings")
        self.settingsbtn.clicked.connect(self.SettingsDialog)

        self.mousemoveslider = QSlider(Qt.Horizontal)
        self.mousemoveslider.setMinimum(0)
        self.mousemoveslider.setMaximum(300)
        self.mousemoveslider.setValue(0)
        self.mousemoveslider.sliderReleased.connect(
            self.onFinalMouseSensitivity)
        self.mousemoveslider.valueChanged.connect(self.onMouseSensitivity)
        self.mousesensitxtbox = QLineEdit('')
        self.mousesensitxtbox.setReadOnly(True)
        self.fontspinBox = QDoubleSpinBox()
        self.fontspinBox.setSingleStep(1)
        self.fontspinBox.setRange(4, 50)
        self.font = QFont()
        self.font.setFamily(self.font.defaultFamily())
        self.fontspinBox.setValue(self.font.pointSize())
        #self.fontspinBox.setValue(self.font.pixelSize())
        self.fontspinBox.valueChanged.connect(self.onFontsizeChanged)
        self.Fontsize_labeltxt = QLabel()
        self.Fontsize_labeltxt.setText("Font size:")

        self.cameraPerspectCheckBox = QCheckBox()
        self.cameraPerspectCheckBox.setText("Perspective camera")
        self.cameraPerspectCheckBox.clicked.connect(self.onCameraPerspect)
        self.cameraPerspectCheckBox.setCheckState(Qt.Unchecked)

        self.settingsform = SettingsForm(self)

        self.MillerComboBox = QComboBox()
        self.MillerComboBox.activated.connect(self.onMillerComboSelchange)
        #self.MillerComboBox.setSizeAdjustPolicy(QComboBox.AdjustToContents)

        self.MillerLabel = QLabel()
        self.MillerLabel.setText("Selected HKL Scene")

        self.HKLnameedit = QLineEdit('')
        self.HKLnameedit.setReadOnly(True)
        self.textInfo = QTextEdit()
        self.textInfo.setLineWrapMode(QTextEdit.NoWrap)
        self.textInfo.setReadOnly(True)

        labels = [
            "Label", "Type", "no. of HKLs", "Span of HKLs", "Min Max data",
            "Min Max sigmas", "d_min, d_max", "Symmetry unique", "Anomalous"
        ]
        self.millertable = QTableWidget(0, len(labels))
        self.millertable.setHorizontalHeaderLabels(labels)
        self.millertable.horizontalHeader().setDefaultAlignment(Qt.AlignLeft)
        # don't allow editing this table
        self.millertable.setEditTriggers(QTableWidget.NoEditTriggers)

        self.createExpansionBox()
        self.createFileInfoBox()
        self.CreateSliceTabs()
        self.createRadiiScaleGroupBox()
        self.createBinsBox()
        self.CreateFunctionTabs()

        mainLayout = QGridLayout()
        mainLayout.addWidget(self.FileInfoBox, 0, 0)
        mainLayout.addWidget(self.MillerLabel, 1, 0)
        mainLayout.addWidget(self.MillerComboBox, 2, 0)
        mainLayout.addWidget(self.functionTabWidget, 3, 0)
        mainLayout.addWidget(self.settingsbtn, 4, 0, 1, 1)

        #import code, traceback; code.interact(local=locals(), banner="".join( traceback.format_stack(limit=10) ) )
        if self.UseOSbrowser == False:
            self.BrowserBox = QWebEngineView()
            mainLayout.addWidget(self.BrowserBox, 0, 1, 5, 3)
            self.BrowserBox.setUrl("https://cctbx.github.io/")
            #self.BrowserBox.setUrl("https://webglreport.com/")
            #self.BrowserBox.loadFinished.connect(self.onLoadFinished)
            mainLayout.setColumnStretch(2, 1)

        mainLayout.setRowStretch(0, 1)
        mainLayout.setRowStretch(1, 0)
        mainLayout.setRowStretch(2, 1)
        mainLayout.setRowStretch(3, 1)
        mainLayout.setColumnStretch(4, 0)
        self.setLayout(mainLayout)

        self.setWindowTitle("HKL-Viewer")
        self.cctbxproc = None
        self.LaunchCCTBXPython()
        self.out = None
        self.err = None
        self.comboviewwidth = 0
        self.hklscenes_arrays = []
        self.array_infotpls = []
        self.matching_arrays = []
        self.bin_infotpls = None
        self.bin_opacities = None
        self.html_url = ""
        self.spacegroups = []
        self.info = []
        self.infostr = ""
        self.fileisvalid = False
        self.NewFileLoaded = False
        self.NewHKLscenes = False
        self.updatingNbins = False
        self.binstableitemchanges = False

        self.show()

    def SettingsDialog(self):
        self.settingsform.show()

    def update(self):
        if self.cctbxproc:
            if self.cctbxproc.stdout:
                print(self.cctbxproc.stdout.read().decode("utf-8"))
            if self.cctbxproc.stderr:
                print(self.cctbxproc.stderr.read().decode("utf-8"))
        if self.out:
            print(self.out.decode("utf-8"))
        if self.err:
            print(self.err.decode("utf-8"))
        if self.zmq_context:
            try:
                msg = self.socket.recv(
                    flags=zmq.NOBLOCK
                )  #To empty the socket from previous messages
                msgstr = msg.decode()
                self.infodict = eval(msgstr)
                #print("received from cctbx: " + str(self.infodict))
                if self.infodict:

                    if self.infodict.get("hklscenes_arrays"):
                        self.hklscenes_arrays = self.infodict.get(
                            "hklscenes_arrays", [])

                    if self.infodict.get("array_infotpls"):
                        self.array_infotpls = self.infodict.get(
                            "array_infotpls", [])

                    if self.infodict.get("bin_data_label"):
                        self.BinDataComboBox.setCurrentText(
                            self.infodict["bin_data_label"])

                    if self.infodict.get("bin_infotpls"):
                        self.bin_infotpls = self.infodict["bin_infotpls"]

                        self.nbins = len(self.bin_infotpls)
                        self.updatingNbins = True
                        self.Nbins_spinBox.setValue(self.nbins)
                        self.updatingNbins = False
                        self.binstable.clearContents()
                        self.binstable.setRowCount(self.nbins)
                        for row, bin_infotpl in enumerate(self.bin_infotpls):
                            for col, elm in enumerate(bin_infotpl):
                                # only allow changing the last column with opacity values
                                if col != 3:
                                    item = QTableWidgetItem(str(elm))
                                else:
                                    item = QTableWidgetItem()
                                    item.setFlags(Qt.ItemIsUserCheckable
                                                  | Qt.ItemIsEnabled)
                                    item.setCheckState(Qt.Checked)
                                item.setFlags(item.flags() ^ Qt.ItemIsEditable)
                                self.binstable.setItem(row, col, item)
                        if self.bin_opacities:
                            self.update_table_opacities()

                    if self.infodict.get("bin_opacities"):
                        self.bin_opacities = self.infodict["bin_opacities"]
                        if self.binstable.rowCount() > 0:
                            self.update_table_opacities()

                    if self.infodict.get("html_url"):
                        self.html_url = self.infodict["html_url"]
                        if self.UseOSbrowser == False:
                            self.BrowserBox.setUrl(self.html_url)
                            # workaround for background colour bug in chromium
                            # https://bugreports.qt.io/browse/QTBUG-41960
                            self.BrowserBox.page().setBackgroundColor(
                                QColor(100, 100, 100, 1.0))

                    if self.infodict.get("spacegroups"):
                        self.spacegroups = self.infodict.get("spacegroups", [])
                        self.SpaceGroupComboBox.clear()
                        self.SpaceGroupComboBox.addItems(self.spacegroups)

                    if self.infodict.get("merge_data"):
                        self.mergedata = self.infodict["merge_data"]

                    currentinfostr = ""
                    if self.infodict.get("info"):
                        currentinfostr = self.infodict.get("info", [])

                    if self.infodict.get("NewFileLoaded"):
                        self.NewFileLoaded = self.infodict.get(
                            "NewFileLoaded", False)

                    if self.infodict.get("NewHKLscenes"):
                        self.NewHKLscenes = self.infodict.get(
                            "NewHKLscenes", False)

                    self.fileisvalid = True
                    #print("ngl_hkl_infodict: " + str(ngl_hkl_infodict))

                    if currentinfostr:
                        #print(currentinfostr)
                        self.infostr += currentinfostr + "\n"
                        # display no more than self.bufsize bytes of text
                        self.infostr = self.infostr[-self.bufsize:]
                        self.textInfo.setPlainText(self.infostr)
                        self.textInfo.verticalScrollBar().setValue(
                            self.textInfo.verticalScrollBar().maximum())

                    if self.NewFileLoaded and self.NewHKLscenes:
                        #if self.mergedata == True : val = Qt.CheckState.Checked
                        #if self.mergedata == None : val = Qt.CheckState.PartiallyChecked
                        #if self.mergedata == False : val = Qt.CheckState.Unchecked
                        #self.mergecheckbox.setCheckState(val )
                        #print("got hklscenes: " + str(self.hklscenes_arrays))

                        self.MillerComboBox.clear()
                        self.MillerComboBox.addItems(
                            [e[3] for e in self.hklscenes_arrays])
                        self.MillerComboBox.setCurrentIndex(
                            -1)  # unselect the first item in the list
                        self.comboviewwidth = 0
                        for e in self.hklscenes_arrays:
                            self.comboviewwidth = max(
                                self.comboviewwidth,
                                self.MillerComboBox.fontMetrics().width(e[3]))
                        self.MillerComboBox.view().setMinimumWidth(
                            self.comboviewwidth)

                        self.millertable.clearContents()
                        self.millertable.setRowCount(len(
                            self.hklscenes_arrays))
                        for n, millarr in enumerate(self.array_infotpls):
                            for m, elm in enumerate(millarr):
                                self.millertable.setItem(
                                    n, m, QTableWidgetItem(str(elm)))
                        self.functionTabWidget.setDisabled(True)
                        self.NewFileLoaded = False

                    if self.NewHKLscenes:
                        self.BinDataComboBox.clear()
                        self.BinDataComboBox.addItems(
                            ["Resolution"] +
                            [e[3] for e in self.hklscenes_arrays])
                        self.BinDataComboBox.view().setMinimumWidth(
                            self.comboviewwidth)
                        #self.BinDataComboBox.setCurrentIndex(-1) # unselect the first item in the list
                        self.NewHKLscenes = False

            except Exception as e:
                errmsg = str(e)
                if "Resource temporarily unavailable" not in errmsg:
                    print(errmsg + traceback.format_exc(limit=10))
                pass

    def onFinalMouseSensitivity(self):
        val = self.mousemoveslider.value() / 100.0
        self.NGL_HKL_command(
            'NGL_HKLviewer.viewer.NGL.mouse_sensitivity = %f' % val)

    def onMouseSensitivity(self):
        val = self.mousemoveslider.value() / 100.0
        self.mousesensitxtbox.setText("%2.2f" % val)

    def onFontsizeChanged(self, val):
        font = app.font()
        font.setPointSize(val)
        app.setFont(font)
        self.settingsform.setFixedSize(self.settingsform.sizeHint())

    def onCameraPerspect(self, val):
        if self.cameraPerspectCheckBox.isChecked():
            self.NGL_HKL_command("NGL_HKLviewer.camera_type = perspective")
        else:
            self.NGL_HKL_command("NGL_HKLviewer.camera_type = orthographic")

    def MergeData(self):
        if self.mergecheckbox.checkState() == Qt.CheckState.Checked:
            self.NGL_HKL_command('NGL_HKLviewer.mergedata = True')
        if self.mergecheckbox.checkState() == Qt.CheckState.PartiallyChecked:
            self.NGL_HKL_command('NGL_HKLviewer.mergedata = None')
        if self.mergecheckbox.checkState() == Qt.CheckState.Unchecked:
            self.NGL_HKL_command('NGL_HKLviewer.mergedata = False')

    def ExpandToP1(self):
        if self.expandP1checkbox.isChecked():
            self.NGL_HKL_command('NGL_HKLviewer.viewer.expand_to_p1 = True')
        else:
            self.NGL_HKL_command('NGL_HKLviewer.viewer.expand_to_p1 = False')

    def ExpandAnomalous(self):
        if self.expandAnomalouscheckbox.isChecked():
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.expand_anomalous = True')
        else:
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.expand_anomalous = False')

    def showSysAbsent(self):
        if self.sysabsentcheckbox.isChecked():
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.show_systematic_absences = True')
        else:
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.show_systematic_absences = False')

    def showMissing(self):
        if self.missingcheckbox.isChecked():
            self.NGL_HKL_command('NGL_HKLviewer.viewer.show_missing = True')
        else:
            self.NGL_HKL_command('NGL_HKLviewer.viewer.show_missing = False')

    def showOnlyMissing(self):
        if self.onlymissingcheckbox.isChecked():
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.show_only_missing = True')
        else:
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.show_only_missing = False')

    def showSlice(self):
        if self.showslicecheckbox.isChecked():
            self.NGL_HKL_command('NGL_HKLviewer.viewer.slice_mode = True')
            if self.expandP1checkbox.isChecked():
                self.NGL_HKL_command("""NGL_HKLviewer.viewer {
                                                       expand_to_p1 = True
                                                       inbrowser = False
                                                    }
                             """)
            if self.expandAnomalouscheckbox.isChecked():
                self.NGL_HKL_command("""NGL_HKLviewer.viewer {
                                                       expand_anomalous = True
                                                       inbrowser = False
                                                     }
                             """)
        else:
            self.NGL_HKL_command("""NGL_HKLviewer.viewer {
                                                      slice_mode = False
                                                      inbrowser = True
                                                    }
                            """)

    def onSliceComboSelchange(self, i):
        rmin = self.array_infotpls[self.MillerComboBox.currentIndex()][3][0][i]
        rmax = self.array_infotpls[self.MillerComboBox.currentIndex()][3][1][i]
        self.sliceindexspinBox.setRange(rmin, rmax)
        self.NGL_HKL_command("NGL_HKLviewer.viewer.slice_axis = %s" %
                             self.sliceaxis[i])

    def onSliceIndexChanged(self, val):
        self.sliceindex = val
        self.NGL_HKL_command("NGL_HKLviewer.viewer.slice_index = %d" %
                             self.sliceindex)

    def onBindataComboSelchange(self, i):
        if self.BinDataComboBox.currentText():
            if self.BinDataComboBox.currentIndex() > 0:
                bin_scene_label = str(self.BinDataComboBox.currentIndex() - 1)
            else:
                bin_scene_label = "Resolution"
            self.NGL_HKL_command("NGL_HKLviewer.bin_scene_label = %s" %
                                 bin_scene_label)

    def update_table_opacities(self, allalpha=None):
        bin_opacitieslst = eval(self.bin_opacities)
        self.binstable_isready = False
        for binopacity in bin_opacitieslst:
            if not allalpha:
                alpha = float(binopacity.split(",")[0])
            else:
                alpha = allalpha
            bin = int(binopacity.split(",")[1])
            item = QTableWidgetItem()
            item.setFlags(Qt.ItemIsUserCheckable | Qt.ItemIsEnabled)
            if alpha < 0.5:
                item.setCheckState(Qt.Unchecked)
            else:
                item.setCheckState(Qt.Checked)
            item.setFlags(item.flags() ^ Qt.ItemIsEditable)
            self.binstable.setItem(bin, 3, item)
        self.binstable_isready = True

    def SetOpaqueAll(self):
        if self.binstableitemchanges:
            return
        bin_opacitieslst = eval(self.bin_opacities)
        nbins = len(bin_opacitieslst)
        sum = 0
        for binopacity in bin_opacitieslst:
            sum += float(binopacity.split(",")[0])
        if sum >= nbins:
            self.OpaqueAllCheckbox.setCheckState(Qt.Checked)
        if sum == 0:
            self.OpaqueAllCheckbox.setCheckState(Qt.Unchecked)
        if sum > 0.0 and sum < nbins:
            self.OpaqueAllCheckbox.setCheckState(Qt.PartiallyChecked)

    def onBinsTableItemChanged(self, item):
        row = item.row()
        column = item.column()
        try:
            if item.checkState() == Qt.Unchecked:
                newval = 0
            else:
                newval = 1.0
            if column == 3 and self.binstable_isready:  # changing opacity
                assert (newval <= 1.0 and newval >= 0.0)
                bin_opacitieslst = eval(self.bin_opacities)
                bin_opacitieslst[row] = str(newval) + ', ' + str(row)
                self.bin_opacities = str(bin_opacitieslst)
                self.SetOpaqueAll()
                self.NGL_HKL_command(
                    'NGL_HKLviewer.viewer.NGL.bin_opacities = "%s"' %
                    self.bin_opacities)
        except Exception as e:
            print(str(e))
            #self.binstable.currentItem().setText( self.currentSelectedBinsTableVal)

    def onBinsTableItemSelectionChanged(self):
        row = self.binstable.currentItem().row()
        column = self.binstable.currentItem().column()
        self.currentSelectedBinsTableVal = self.binstable.currentItem().text()
        #print( "in itemSelectionChanged " + self.currentSelectedBinsTableVal)

    def onOpaqueAll(self):
        self.binstableitemchanges = True
        bin_opacitieslst = eval(self.bin_opacities)
        nbins = len(bin_opacitieslst)
        bin_opacitieslst = []
        self.binstable_isready = False
        if self.OpaqueAllCheckbox.isChecked():
            for i in range(nbins):
                bin_opacitieslst.append("1.0, %d" % i)
        else:
            for i in range(nbins):
                bin_opacitieslst.append("0.0, %d" % i)
        self.bin_opacities = str(bin_opacitieslst)
        self.NGL_HKL_command('NGL_HKLviewer.viewer.NGL.bin_opacities = "%s"' %
                             self.bin_opacities)
        self.binstableitemchanges = False
        self.binstable_isready = True

    """
  def onLoadFinished(self, val):
    pass
    #print("web page finished loading now")


  def onBinsTableitemActivated(self, item):
    row = item.row()
    column = item.column()
    currentval = item.text()
    #print( "in itemActivated " + currentval)


  def onBinsTableCellentered(self, row, col):
    pass
    #print( "in Cellentered " + self.binstable.currentItem().text() )


  def onBinsTableCellPressed(self, row, col):
    pass
    #print( "in CellPressed " + self.binstable.currentItem().text() )
  """

    def onNbinsChanged(self, val):
        self.nbins = val
        if not self.updatingNbins:  # avoid possible endless loop to cctbx
            self.NGL_HKL_command("NGL_HKLviewer.nbins = %d" % self.nbins)

    def onRadiiScaleChanged(self, val):
        self.radii_scale = val
        self.NGL_HKL_command("""
      NGL_HKLviewer.viewer {
        nth_power_scale_radii = %f
        scale = %f
      }
      """ % (self.nth_power_scale, self.radii_scale))

    def onPowerScaleChanged(self, val):
        self.nth_power_scale = val
        self.NGL_HKL_command("""
      NGL_HKLviewer.viewer {
        nth_power_scale_radii = %f
        scale = %f
      }
      """ % (self.nth_power_scale, self.radii_scale))

    def onManualPowerScale(self):
        if self.ManualPowerScalecheckbox.isChecked():
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.nth_power_scale_radii = %f' %
                self.nth_power_scale)
            self.power_scale_spinBox.setEnabled(True)
        else:
            self.NGL_HKL_command(
                'NGL_HKLviewer.viewer.nth_power_scale_radii = -1.0')
            self.power_scale_spinBox.setEnabled(False)
            self.nth_power_scale = -1.0

    def OpenReflectionsFile(self):
        options = QFileDialog.Options()
        fileName, filtr = QFileDialog.getOpenFileName(
            self, "Load reflections file", "",
            "All Files (*);;MTZ Files (*.mtz);;CIF (*.cif)", "", options)
        if fileName:
            self.HKLnameedit.setText(fileName)
            #self.infostr = ""
            self.textInfo.setPlainText("")
            self.fileisvalid = False
            self.NGL_HKL_command('NGL_HKLviewer.filename = "%s"' % fileName)
            self.MillerComboBox.clear()
            self.BinDataComboBox.clear()

    def createExpansionBox(self):
        self.SpaceGroupComboBox = QComboBox()
        self.SpaceGroupComboBox.activated.connect(self.SpacegroupSelchange)

        self.SpacegroupLabel = QLabel()
        self.SpacegroupLabel.setText("Space Subgroups")

        self.mergecheckbox = QCheckBox()
        self.mergecheckbox.setText("Merge data")
        #self.mergecheckbox.setTristate (True)
        self.mergecheckbox.clicked.connect(self.MergeData)

        self.expandP1checkbox = QCheckBox()
        self.expandP1checkbox.setText("Expand to P1")
        self.expandP1checkbox.clicked.connect(self.ExpandToP1)

        self.expandAnomalouscheckbox = QCheckBox()
        self.expandAnomalouscheckbox.setText("Show Friedel pairs")
        self.expandAnomalouscheckbox.clicked.connect(self.ExpandAnomalous)

        self.sysabsentcheckbox = QCheckBox()
        self.sysabsentcheckbox.setText("Show Systematic Absences")
        self.sysabsentcheckbox.clicked.connect(self.showSysAbsent)

        self.missingcheckbox = QCheckBox()
        self.missingcheckbox.setText("Show Missing")
        self.missingcheckbox.clicked.connect(self.showMissing)

        self.onlymissingcheckbox = QCheckBox()
        self.onlymissingcheckbox.setText("Only Show Missing")
        self.onlymissingcheckbox.clicked.connect(self.showOnlyMissing)

        self.ExpansionBox = QGroupBox("Expansions")
        layout = QGridLayout()
        layout.addWidget(self.SpacegroupLabel, 0, 0)
        layout.addWidget(self.SpaceGroupComboBox, 0, 1)
        #layout.addWidget(self.mergecheckbox,             1, 0)
        layout.addWidget(self.expandP1checkbox, 1, 0)
        layout.addWidget(self.expandAnomalouscheckbox, 1, 1)
        layout.addWidget(self.sysabsentcheckbox, 2, 0)
        layout.addWidget(self.missingcheckbox, 3, 0)
        layout.addWidget(self.onlymissingcheckbox, 3, 1)
        layout.setRowStretch(0, 0)
        layout.setRowStretch(1, 0)
        layout.setRowStretch(2, 0)
        layout.setRowStretch(3, 1)
        self.ExpansionBox.setLayout(layout)

    def CreateSliceTabs(self):
        self.showslicecheckbox = QCheckBox()
        self.showslicecheckbox.setText("Show Slice")
        self.showslicecheckbox.clicked.connect(self.showSlice)

        self.sliceindexspinBox = QDoubleSpinBox()
        self.sliceindex = 0
        self.sliceindexspinBox.setValue(self.sliceindex)
        self.sliceindexspinBox.setDecimals(0)
        self.sliceindexspinBox.setSingleStep(1)
        self.sliceindexspinBox.setRange(0, 20)
        self.sliceindexspinBox.valueChanged.connect(self.onSliceIndexChanged)

        self.SliceLabelComboBox = QComboBox()
        self.SliceLabelComboBox.activated.connect(self.onSliceComboSelchange)
        self.sliceaxis = ["h", "k", "l"]
        self.SliceLabelComboBox.addItems(self.sliceaxis)

        self.sliceTabWidget = QTabWidget()
        tab1 = QWidget()
        layout1 = QGridLayout()
        layout1.addWidget(self.showslicecheckbox, 0, 0, 1, 1)
        layout1.addWidget(self.SliceLabelComboBox, 0, 1, 1, 1)
        layout1.addWidget(self.sliceindexspinBox, 0, 2, 1, 1)
        tab1.setLayout(layout1)

        tab2 = QWidget()
        layout2 = QGridLayout()

        self.hvec_spinBox = QDoubleSpinBox(self.sliceTabWidget)
        self.hvecval = 2.0
        self.hvec_spinBox.setValue(self.hvecval)
        self.hvec_spinBox.setDecimals(2)
        self.hvec_spinBox.setSingleStep(0.5)
        self.hvec_spinBox.setRange(-100.0, 10.0)
        self.hvec_spinBox.valueChanged.connect(self.onHvecChanged)
        self.hvec_Label = QLabel()
        self.hvec_Label.setText("H")
        layout2.addWidget(self.hvec_Label, 0, 0, 1, 1)
        layout2.addWidget(self.hvec_spinBox, 0, 1, 1, 1)

        self.kvec_spinBox = QDoubleSpinBox(self.sliceTabWidget)
        self.kvecval = 0.0
        self.kvec_spinBox.setValue(self.kvecval)
        self.kvec_spinBox.setDecimals(2)
        self.kvec_spinBox.setSingleStep(0.5)
        self.kvec_spinBox.setRange(-100.0, 100.0)
        self.kvec_spinBox.valueChanged.connect(self.onKvecChanged)
        self.kvec_Label = QLabel()
        self.kvec_Label.setText("K")
        layout2.addWidget(self.kvec_Label, 1, 0, 1, 1)
        layout2.addWidget(self.kvec_spinBox, 1, 1, 1, 1)

        self.lvec_spinBox = QDoubleSpinBox(self.sliceTabWidget)
        self.lvecval = 0.0
        self.lvec_spinBox.setValue(self.lvecval)
        self.lvec_spinBox.setDecimals(2)
        self.lvec_spinBox.setSingleStep(0.5)
        self.lvec_spinBox.setRange(-100.0, 100.0)
        self.lvec_spinBox.valueChanged.connect(self.onLvecChanged)
        self.lvec_Label = QLabel()
        self.lvec_Label.setText("L")
        layout2.addWidget(self.lvec_Label, 2, 0, 1, 1)
        layout2.addWidget(self.lvec_spinBox, 2, 1, 1, 1)

        self.hkldist_spinBox = QDoubleSpinBox(self.sliceTabWidget)
        self.hkldistval = 0.0
        self.hkldist_spinBox.setValue(self.hkldistval)
        self.hkldist_spinBox.setDecimals(2)
        self.hkldist_spinBox.setSingleStep(0.5)
        self.hkldist_spinBox.setRange(-100.0, 100.0)
        self.hkldist_spinBox.valueChanged.connect(self.onHKLdistChanged)
        self.hkldist_Label = QLabel()
        self.hkldist_Label.setText("Distance from Origin")
        layout2.addWidget(self.hkldist_Label, 3, 0, 1, 1)
        layout2.addWidget(self.hkldist_spinBox, 3, 1, 1, 1)

        self.clipwidth_spinBox = QDoubleSpinBox(self.sliceTabWidget)
        self.clipwidthval = 0.5
        self.clipwidth_spinBox.setValue(self.clipwidthval)
        self.clipwidth_spinBox.setDecimals(2)
        self.clipwidth_spinBox.setSingleStep(0.05)
        self.clipwidth_spinBox.setRange(0.0, 100.0)
        self.clipwidth_spinBox.valueChanged.connect(self.onClipwidthChanged)
        self.clipwidth_Label = QLabel()
        self.clipwidth_Label.setText("Clip Plane Width")
        layout2.addWidget(self.clipwidth_Label, 4, 0, 1, 1)
        layout2.addWidget(self.clipwidth_spinBox, 4, 1, 1, 1)

        self.ClipBox = QGroupBox("Normal Vector to Clip Plane")
        self.ClipBox.setLayout(layout2)

        layout3 = QGridLayout()
        self.ClipPlaneChkBox = QCheckBox(self.sliceTabWidget)
        self.ClipPlaneChkBox.setText(
            "Use clip plane normal to HKL vector pointing out")
        self.ClipPlaneChkBox.clicked.connect(self.onClipPlaneChkBox)

        layout3.addWidget(self.ClipPlaneChkBox, 0, 0)
        layout3.addWidget(self.ClipBox, 1, 0)
        tab2.setLayout(layout3)
        self.sliceTabWidget.addTab(tab1, "Explicit Slicing")
        self.sliceTabWidget.addTab(tab2, "Clip Plane Slicing")
        self.ClipBox.setDisabled(True)

    def onClipPlaneChkBox(self):
        if self.ClipPlaneChkBox.isChecked():
            self.ClipBox.setDisabled(False)
            philstr = """NGL_HKLviewer.normal_clip_plane {
  h = %s
  k = %s
  l = %s
  hkldist = %s
  clipwidth = %s
}
  NGL_HKLviewer.viewer.NGL.fixorientation = %s

      """ %(self.hvecval, self.kvecval, self.lvecval, self.hkldistval, self.clipwidthval, \
                                    str(self.fixedorientcheckbox.isChecked()) )
            self.NGL_HKL_command(philstr)
        else:
            self.ClipBox.setDisabled(True)
            self.NGL_HKL_command(
                "NGL_HKLviewer.normal_clip_plane.clipwidth = None")

    def onClipwidthChanged(self, val):
        self.clipwidthval = val
        self.NGL_HKL_command("NGL_HKLviewer.normal_clip_plane.clipwidth = %f" %
                             self.clipwidthval)

    def onHKLdistChanged(self, val):
        self.hkldistval = val
        self.NGL_HKL_command("NGL_HKLviewer.normal_clip_plane.hkldist = %f" %
                             self.hkldistval)

    def onHvecChanged(self, val):
        self.hvecval = val
        self.NGL_HKL_command("NGL_HKLviewer.normal_clip_plane.h = %f" %
                             self.hvecval)

    def onKvecChanged(self, val):
        self.kvecval = val
        self.NGL_HKL_command("NGL_HKLviewer.normal_clip_plane.k = %f" %
                             self.kvecval)

    def onLvecChanged(self, val):
        self.lvecval = val
        self.NGL_HKL_command("NGL_HKLviewer.normal_clip_plane.l = %f" %
                             self.lvecval)

    def onFixedorient(self):
        self.NGL_HKL_command('NGL_HKLviewer.viewer.NGL.fixorientation = %s' \
                                        %str(self.fixedorientcheckbox.isChecked()))

    def onMillerComboSelchange(self, i):
        self.NGL_HKL_command("NGL_HKLviewer.scene_id = %d" % i)
        #self.MillerComboBox.setCurrentIndex(i)
        if self.MillerComboBox.currentText():
            self.functionTabWidget.setEnabled(True)
            self.expandAnomalouscheckbox.setEnabled(True)
            # don' allow anomalous expansion for data that's already anomalous
            for arrayinfo in self.array_infotpls:
                isanomalous = arrayinfo[-1]
                label = arrayinfo[0]
                if isanomalous and label == self.MillerComboBox.currentText(
                )[:len(label)]:
                    self.expandAnomalouscheckbox.setDisabled(True)
        else:
            self.functionTabWidget.setDisabled(True)

        self.SpaceGroupComboBox.clear()
        self.SpaceGroupComboBox.addItems(self.spacegroups)
        # need to supply issymunique flag in infotuple
        #if self.hklscenes_arrays[ i ][6] == 0:
        #  self.mergecheckbox.setEnabled(True)
        #else:
        #  self.mergecheckbox.setEnabled(False)

    def createFileInfoBox(self):
        self.FileInfoBox = QGroupBox("Reflection File Information")
        layout = QGridLayout()
        layout.addWidget(self.openFileNameButton, 0, 0, 1, 2)
        if self.devmode:
            layout.addWidget(self.debugbutton, 0, 2, 1, 1)
        layout.addWidget(self.HKLnameedit, 1, 0, 1, 3)
        layout.addWidget(self.millertable, 2, 0, 1, 3)
        layout.addWidget(self.textInfo, 3, 0, 1, 3)
        #layout.setColumnStretch(1, 2)
        self.FileInfoBox.setLayout(layout)

    def createRadiiScaleGroupBox(self):
        self.RadiiScaleGroupBox = QGroupBox("Radii Size of HKL Spheres")

        self.ManualPowerScalecheckbox = QCheckBox()
        self.ManualPowerScalecheckbox.setText(
            "Manual Power Scaling of Sphere Radii")
        self.ManualPowerScalecheckbox.clicked.connect(self.onManualPowerScale)

        self.power_scale_spinBox = QDoubleSpinBox(self.RadiiScaleGroupBox)
        self.nth_power_scale = 0.5
        self.power_scale_spinBox.setValue(self.nth_power_scale)
        self.power_scale_spinBox.setDecimals(2)
        self.power_scale_spinBox.setSingleStep(0.05)
        self.power_scale_spinBox.setRange(0.0, 1.0)
        self.power_scale_spinBox.valueChanged.connect(self.onPowerScaleChanged)
        self.power_scale_spinBox.setEnabled(False)
        self.powerscaleLabel = QLabel()
        self.powerscaleLabel.setText("Power scale Factor")

        self.radii_scale_spinBox = QDoubleSpinBox(self.RadiiScaleGroupBox)
        self.radii_scale = 1.0
        self.radii_scale_spinBox.setValue(self.radii_scale)
        self.radii_scale_spinBox.setDecimals(1)
        self.radii_scale_spinBox.setSingleStep(0.1)
        self.radii_scale_spinBox.setRange(0.2, 2.0)
        self.radii_scale_spinBox.valueChanged.connect(self.onRadiiScaleChanged)
        self.radiiscaleLabel = QLabel()
        self.radiiscaleLabel.setText("Linear Scale Factor")

        layout = QGridLayout()
        layout.addWidget(self.ManualPowerScalecheckbox, 1, 0, 1, 2)
        layout.addWidget(self.powerscaleLabel, 2, 0, 1, 2)
        layout.addWidget(self.power_scale_spinBox, 2, 1, 1, 2)
        layout.addWidget(self.radiiscaleLabel, 3, 0, 1, 2)
        layout.addWidget(self.radii_scale_spinBox, 3, 1, 1, 2)
        layout.setColumnStretch(0, 1)
        layout.setColumnStretch(1, 0)
        self.RadiiScaleGroupBox.setLayout(layout)

    def createBinsBox(self):
        self.binstable = QTableWidget(0, 4)
        self.binstable_isready = False
        labels = [
            "no. of HKLs", "lower bin value", "upper bin value", "opacity"
        ]
        self.binstable.setHorizontalHeaderLabels(labels)
        self.binstable.horizontalHeader().setDefaultAlignment(Qt.AlignLeft)
        self.bindata_labeltxt = QLabel()
        self.bindata_labeltxt.setText("Data binned:")
        self.Nbins_spinBox = QSpinBox()
        self.Nbins_spinBox.setSingleStep(1)
        self.Nbins_spinBox.setRange(1, 40)
        self.Nbins_spinBox.valueChanged.connect(self.onNbinsChanged)
        self.Nbins_labeltxt = QLabel()
        self.Nbins_labeltxt.setText("Number of bins:")

        self.OpaqueAllCheckbox = QCheckBox()
        #self.OpaqueAllCheckbox.setTristate()
        self.OpaqueAllCheckbox.setText("Show all data in bins")
        self.OpaqueAllCheckbox.clicked.connect(self.onOpaqueAll)

        self.binstable.itemChanged.connect(self.onBinsTableItemChanged)
        self.binstable.itemSelectionChanged.connect(
            self.onBinsTableItemSelectionChanged)
        self.BinDataComboBox = QComboBox()
        self.BinDataComboBox.activated.connect(self.onBindataComboSelchange)
        self.BinsGroupBox = QGroupBox("Bins")
        layout = QGridLayout()
        layout.addWidget(self.bindata_labeltxt, 0, 0)
        layout.addWidget(self.BinDataComboBox, 0, 1)
        layout.addWidget(self.Nbins_labeltxt, 0, 2)
        layout.addWidget(self.Nbins_spinBox, 0, 3)
        layout.addWidget(self.OpaqueAllCheckbox, 1, 2)
        layout.addWidget(self.binstable, 2, 0, 1, 4)
        layout.setColumnStretch(0, 0)
        layout.setColumnStretch(1, 2)
        layout.setColumnStretch(3, 1)
        self.BinsGroupBox.setLayout(layout)

    def DebugInteractively(self):
        import code, traceback
        code.interact(local=locals(),
                      banner="".join(traceback.format_stack(limit=10)))

    def CreateFunctionTabs(self):
        self.functionTabWidget = QTabWidget()
        tab1 = QWidget()
        layout1 = QGridLayout()
        layout1.addWidget(self.ExpansionBox, 0, 0)
        layout1.setRowStretch(0, 0)
        tab1.setLayout(layout1)

        tab2 = QWidget()
        layout2 = QGridLayout()

        self.fixedorientcheckbox = QCheckBox(self.sliceTabWidget)
        self.fixedorientcheckbox.setText(
            "Fix orientation but allow zoom and translation")
        self.fixedorientcheckbox.clicked.connect(self.onFixedorient)
        layout2.addWidget(self.fixedorientcheckbox, 0, 0)

        layout2.addWidget(self.sliceTabWidget, 1, 0)
        tab2.setLayout(layout2)

        tab3 = QWidget()
        layout3 = QGridLayout()
        layout3.addWidget(self.RadiiScaleGroupBox, 0, 0)
        tab3.setLayout(layout3)

        tab4 = QWidget()
        layout4 = QGridLayout()
        layout4.addWidget(self.BinsGroupBox, 0, 0)
        tab4.setLayout(layout4)

        self.functionTabWidget.addTab(tab1, "Expand")
        self.functionTabWidget.addTab(tab2, "Slice")
        self.functionTabWidget.addTab(tab3, "Size")
        self.functionTabWidget.addTab(tab4, "Bins")
        self.functionTabWidget.setDisabled(True)

    def SpacegroupSelchange(self, i):
        self.NGL_HKL_command("NGL_HKLviewer.spacegroup_choice = %d" % i)

    def find_free_port(self):
        import socket
        s = socket.socket()
        s.bind(('', 0))  # Bind to a free port provided by the host.
        port = s.getsockname()[1]
        s.close()
        return port

    def LaunchCCTBXPython(self):
        self.sockport = self.find_free_port()
        self.zmq_context = zmq.Context()
        self.socket = self.zmq_context.socket(zmq.PAIR)
        self.socket.bind("tcp://127.0.0.1:%s" % self.sockport)
        try:
            msg = self.socket.recv(
                flags=zmq.NOBLOCK)  #To empty the socket from previous messages
        except Exception as e:
            pass
        cmdargs = 'cctbx.python.bat -i -c "from crys3d.hklview import cmdlineframes;' \
         + ' myHKLview = cmdlineframes.HKLViewFrame(useGuiSocket=%s, high_quality=True,' %self.sockport \
         + ' jscriptfname = \'%s\', ' %self.jscriptfname \
         + ' verbose=%s, UseOSBrowser= %s )"\n' %(self.verbose, str(self.UseOSbrowser))
        self.cctbxproc = subprocess.Popen(cmdargs,
                                          shell=True,
                                          stdin=subprocess.PIPE,
                                          stdout=sys.stdout,
                                          stderr=sys.stderr)
        #time.sleep(1)

    def NGL_HKL_command(self, cmdstr):
        #print("sending:\n" + cmdstr)
        self.socket.send(bytes(cmdstr, "utf-8"))
コード例 #20
0
    def __init__(self, game):
        """
        La fenêtre principale est initialisée avec l'organisation suivante :

        +--------------------------------------------------------------------------+
        |              self.menu = self.menuBar()                                  |
        |                                                                          |
        +--------------------------------------------------------------------------+
        |       toolbar = QToolBar()  (déplacement/sélection des robots,           |
        |                     boutons annuler, indice et solution)                 |
        +------------------------layout0 = QHBoxLayout()---------------------------+
        |    layout2 = QHBoxLayout()                  +      moves_label           |
        | l                    +                      |                            |
        | a  grid_choice       |  nb_robots_choice    |     (affichage des         |
        +-y--------------------+----------------------+  L                         |
        | o                                           |  a  mouvements effectués)  |
        | u                                           |  y                         |
        | t                                           +--o-------------------------+
        | =          label = QLabel()                 |  u                         |
        | Q                                           |  t     tip_label           |
        | V          contient la grille de jeu        |  3                         |
        | B                                           |      (Affichage de l'indice|
        | o                                           |  =                         |
        | x                                           |      si demandé)           |
        | L                                           |  Q                         |
        | a                                           +--V+------------------------+
        | y                                           |  B     solution_label      |
        | o                                           |  o                         |
        | u                                           |  x   (Affichage de la      |
        | t                                           |                            |
        |                                             |      solution si demandée) |
        +---------------------------------------------+----------------------------+

        """

        super().__init__()
        self.game = game
        self.initial_game_state = self.game.get_state()
        self.number_moves = 0
        self.setWindowTitle("Robot Ricochet")
        self.resize(self.DIMENSION + 150, self.DIMENSION + 100)

        # label contient la grille de jeu
        self.label = QLabel()
        canvas = QPixmap(self.DIMENSION, self.DIMENSION)
        canvas.fill(Qt.white)
        self.label.setPixmap(canvas)

        # layout0 contient, à gauche, les barres d'outils et la grille,
        # et à droite, la liste des états et l'indice affiché par le solveur

        layout0 = QHBoxLayout()
        layout0.setContentsMargins(0, 0, 0, 0)
        layout0.setSpacing(0)

        layout = QVBoxLayout()
        layout.setContentsMargins(0, 0, 0, 0)
        layout.setSpacing(0)
        layout2 = QHBoxLayout()

        # Choix de la grille
        self.choice_of_grid_menu()

        # choix du nombre de robots
        self.nb_robots_choice_menu()

        # CheckBox placement aléatoire
        widget3 = QCheckBox("Placement aléatoire des robots et de l'objectif")
        widget3.setCheckState(Qt.Checked)
        widget3.stateChanged.connect(self.placer_aleatoirement)

        # layout2 contient les 3 widgets horizontaux de choix de grille, robots et aléa
        layout2.addWidget(self.grid_choice)
        layout2.addWidget(self.nb_robots_choice)
        #layout2.addWidget(widget3)
        layout2.setContentsMargins(0, 0, 0, 0)
        layout2.setSpacing(0)
        widget2 = QWidget()
        widget2.setLayout(layout2)

        layout.addWidget(widget2)
        layout.addWidget(self.label)

        # liste des mouvement effectués, indice et solution:
        layout3 = QVBoxLayout()
        layout3.setContentsMargins(0, 0, 0, 0)
        layout3.setSpacing(0)

        self.moves_label = QLabel()
        self.print_moves_list()
        self.tip_label = QLabel()
        self.solution_label = QLabel()

        layout3.addWidget(self.moves_label)
        layout3.addWidget(self.tip_label)
        layout3.addWidget(self.solution_label)

        layout0.addLayout(layout)
        layout0.addLayout(layout3)
        widget = QWidget()
        widget.setLayout(layout0)
        self.setCentralWidget(widget)

        # Menu
        self.menu = self.menuBar()
        self.file_menu = self.menu.addMenu("File")
        self.help_menu = self.menu.addMenu("Aide et instructions")  # A faire
        self.size_fenetre = self.geometry()

        # Play QAction
        play_action = QAction("Réinitialiser !", self)
        play_action.triggered.connect(self.replay)
        self.file_menu.addAction(play_action)

        # Open_grid QAction
        open_grid_action = QAction("Ouvrir une grille", self)
        open_grid_action.setShortcut('Ctrl+O')
        open_grid_action.triggered.connect(self.open_grid)
        self.file_menu.addAction(open_grid_action)

        # Open_game QAction
        open_game_action = QAction("Ouvrir un jeu", self)
        open_game_action.triggered.connect(self.open_game)
        self.file_menu.addAction(open_game_action)

        # Save_grid QAction
        save_grid_action = QAction("Enregistrer cette grille", self)
        save_grid_action.triggered.connect(self.save_grid)
        self.file_menu.addAction(save_grid_action)

        # Save_game QAction
        save_game_action = QAction("Enregistrer ce jeu", self)
        save_game_action.triggered.connect(self.save_game)
        self.file_menu.addAction(save_game_action)

        # Exit QAction
        exit_action = QAction("Quitter", self)
        exit_action.setShortcut(QKeySequence.Quit)
        exit_action.triggered.connect(self.close)
        self.file_menu.addAction(exit_action)

        # Help QAction
        help_action = QAction("Aide", self)
        help_action.triggered.connect(self.help)
        self.help_menu.addAction(help_action)
        self.toolbar_menus()

        #Le robot rouge est sélectionné par défaut
        self.selected_robot = 'R'

        self.draw_robots_and_goal()
コード例 #21
0
ファイル: my_gui.py プロジェクト: 13918487529/git_test
class MyGui(QWidget, GitCmd):
    def __init__(self, title="Create By ZZZ", path=DEFAULT_GIT_REPO):
        super(MyGui, self).__init__()
        GitCmd.__init__(self, path)  # 初始化命令
        self.show_info = None
        self.cmd_history = None
        self.cmd_history_cmd_list = list()
        # 复选框
        self.check_box_select_all = None
        self.check_box = list()
        self.check_box_button = None
        # 默认值
        self.show_log_num = DEFAULT_GIT_LOG_NUM
        self.file_list = DEFAULT_GIT_ADD_LIST
        self.gridLayout = QGridLayout(self)
        self.setGeometry(100, 100, 800, 700)
        self.setWindowTitle(title)
        # 记录当前widget最大行号
        self.max_line_no = 0

    # - - - - - - - - -  - - - - - - - - -  - - - - - - - - -  - - - - - - - - -
    # 显示信息相关
    def add_info_text(self):
        # 添加消息显示框,我们使用列表方式显示
        self.show_info = QListWidget()
        self.show_info.setFixedSize(800, 600)
        self.gridLayout.addWidget(self.show_info, 0, 0, 1, 4)
        # 单击触发绑定的槽函数
        self.show_info.itemClicked.connect(self.text_block_clicked)

        # 命令行显示,我们使用下拉框
        self.cmd_history = QComboBox()
        self.gridLayout.addWidget(self.cmd_history, 1, 0, 1, 4)
        # 设置行号
        self.max_line_no = 2

    def add_cmd(self, cmd):
        if len(self.cmd_history_cmd_list) < 10:
            self.cmd_history_cmd_list.append(cmd)
        else:
            self.cmd_history_cmd_list = self.cmd_history_cmd_list[1:].append(cmd)
        self.cmd_history.clear()
        self.cmd_history.addItems(reversed(self.cmd_history_cmd_list))

    def update_cmd(self, extra: str):
        cur_cmd = self.cmd_history.currentText().split(" ")
        new_cmd = cur_cmd[:2] + [extra]  # 拆分出来git和后面的命令,拼接参数
        if cur_cmd:
            self.cmd_history.setItemText(0, " ".join(new_cmd))

    # 对每一行都进行上色
    def my_print(self, text_list: list, background: list):
        # self.show_info.clear() 这个可以清空显示
        self.show_info.addItems([".  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . .  .  .  .  .  .  .  .  "
                                 ".  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . .  .  .  .  .  .  .  .  "])
        for ind in range(len(text_list)):
            item = QListWidgetItem('%s' % text_list[ind])
            item.setBackground(QColor(background[ind]))  # 上色
            self.show_info.addItem(item)
        self.show_info.scrollToBottom()  # 自动到最后行

    @staticmethod
    def text_block_clicked(item):
        # 这里没有什么要做的
        # QMessageBox.information(self, "命令历史", "你选择了: " + item.text())
        pass
    # . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

    # - - - - - - - - -  - - - - - - - - -  - - - - - - - - -  - - - - - - - - -
    # 添加按钮
    def add_git_button(self):
        cmd_add = QPushButton('Git Add')
        cmd_reset = QPushButton('Git Reset')
        cmd_status = QPushButton('Git Status')
        cmd_log = QPushButton('Git Log')
        cmd_run = QPushButton('Run Cmd')
        line_no = self.max_line_no
        self.gridLayout.addWidget(cmd_add, line_no, 0)
        self.gridLayout.addWidget(cmd_reset, line_no, 1)
        self.gridLayout.addWidget(cmd_status, line_no, 2)
        self.gridLayout.addWidget(cmd_log, line_no, 3)
        self.gridLayout.addWidget(cmd_run, line_no + 1, 0)
        self.max_line_no = self.max_line_no + 2
        cmd_log.clicked.connect(self.git_log)
        cmd_add.clicked.connect(self.git_add)
        cmd_reset.clicked.connect(self.git_reset)
        cmd_status.clicked.connect(self.git_status)
        cmd_run.clicked.connect(self.run_git)

    def run_git(self):
        cur_cmd = self.cmd_history.currentText()
        # 执行代码
        if cur_cmd.startswith("git add"):
            result, background = self.cmd_git_add(self.file_list)
            self.my_print(result, background)
        elif cur_cmd.startswith("git status"):
            result, background = self.cmd_git_status()
            self.my_print(result, background)
        elif cur_cmd.startswith("git log"):
            result, background = self.cmd_git_log(self.show_log_num)
            self.my_print(result, background)
        elif cur_cmd.startswith("git reset"):
            result, background = self.cmd_git_reset(self.file_list)
            self.my_print(result, background)

    def git_log(self):
        # 日常清理
        self.cleanup()
        # 记录命令
        self.add_cmd("git log -" + self.show_log_num)
        # 可以直接运行
        self.run_git()

    def git_add(self):
        # 日常清理
        self.cleanup()
        # 文件选择
        files = self.get_file_list_by_status()
        self.create_check_box(files)
        # 记录命令
        self.add_cmd("git add .")

    def git_status(self):
        # 日常清理
        self.cleanup()
        # 记录命令
        self.add_cmd("git status")
        # 可以直接运行
        self.run_git()

    def git_reset(self):
        # 日常清理
        self.cleanup()
        # 文件选择
        files = self.get_file_list_by_status()
        self.create_check_box(files)
        # 记录命令
        self.add_cmd("git reset .")

    # - - - - - - - - -  - - - - - - - - -  - - - - - - - - -  - - - - - - - - -
    # 创建复选框
    def create_check_box(self, opt_list: list):
        # 创建
        self.check_box_select_all = QCheckBox('全选')
        # lambda可以传参:lambda: self.check_box_changes_all(<参数>)
        self.check_box_select_all.stateChanged.connect(lambda: self.check_box_changes_all())
        for ind in range(len(opt_list)):
            self.check_box.append(QCheckBox(opt_list[ind]))
            self.check_box[ind].stateChanged.connect(lambda: self.check_box_changes())
        # self.check_box_button = QPushButton('提交')
        # 布局
        ind = self.max_line_no
        self.gridLayout.addWidget(self.check_box_select_all, ind, 0)
        ind = ind + 1
        for check_box in self.check_box:
            self.gridLayout.addWidget(check_box, ind, 0)
            ind = ind + 1
        # self.gridLayout.addWidget(self.check_box_button, ind, 0)
        # 添加按钮回调
        # self.check_box_button.clicked.connect(self.check_box_ok)
        # 更新行号
        # self.max_line_no = ind + 1
        self.max_line_no = ind

    def check_box_ok(self):
        # 清除小部件
        if self.check_box:
            self.file_list.clear()
            for check_box in self.check_box:
                # 更新列表
                # if check_box.checkState() == Qt.Checked:
                #     self.file_list.append(check_box.text())
                # 清除
                check_box.deleteLater()
            self.check_box.clear()
        if self.check_box_select_all:
            self.check_box_select_all.deleteLater()
            self.check_box_select_all = None
        if self.check_box_button:
            self.check_box_button.deleteLater()
            self.check_box_button = None

    def check_box_changes_all(self):
        if self.check_box_select_all.checkState() == Qt.Checked:
            for check_box in self.check_box:
                check_box.setChecked(True)
        elif self.check_box_select_all.checkState() == Qt.Unchecked:
            for check_box in self.check_box:
                check_box.setChecked(False)

    def check_box_changes(self):
        all_checked = True
        # one_checked = False
        self.file_list.clear()
        for check_box in self.check_box:
            if not check_box.isChecked():
                all_checked = False  # 只要有一个没勾选
            else:
                self.file_list.append(check_box.text())  # 更新列表
            # else:
            #     one_checked = True  # 只要有一个勾选
        if all_checked:
            self.check_box_select_all.setCheckState(Qt.Checked)
        # elif one_checked:
            # self.check_box_select_all.setTristate()  # 设置为3态选择框
            # self.check_box_select_all.setCheckState(Qt.PartiallyChecked)
        # else:
        #   self.check_box_select_all.setTristate()  # 设置为3态选择框
        #   self.check_box_select_all.setCheckState(Qt.Unchecked)

        # 更新命令
        files = " ".join(self.file_list)
        self.update_cmd(files)

    # - - - - - - - - -  - - - - - - - - -  - - - - - - - - -  - - - - - - - - -
    # 清理临时的小部件
    def cleanup(self):
        self.check_box_ok()

    # - - - - - - - - -  - - - - - - - - -  - - - - - - - - -  - - - - - - - - -
    # 例子
    def addButtonExample(self):
        # 创建一些小部件放在顶级窗口中
        btn = QPushButton('press me')
        text = QLineEdit('enter text')
        listw = QListWidget()
        listw.addItems(["aa", "bb", "cc"])
        # self.gridLayout = QGridLayout(self)
        # 将部件添加到布局中的适当位置,
        # addWidget参数:Widget实例, 起始row, 起始column, 占多少行(高度),占多少列(宽度)
        self.gridLayout.addWidget(btn, 0, 0)
        self.gridLayout.addWidget(text, 1, 0)
        self.gridLayout.addWidget(listw, 2, 0)
        # self.setLayout(self.gridLayout)

    # 画图1
    def linePlot(self):
        plt1 = pg.PlotWidget()
        plt1.plot([i for i in range(10)], [i * i for i in range(10)])
        self.gridLayout.addWidget(plt1, 0, 1, 1, 1)

    # 画图2
    def scatterPlot(self):
        plt2 = pg.PlotWidget()
        x = np.random.normal(size=1000)
        y = np.random.normal(size=1000)
        plt2.plot(x, y, pen=None, symbol="o")
        self.gridLayout.addWidget(plt2, 1, 1, 1, 1)

    # 画图3
    def three_curves(self):
        plt3 = pg.PlotWidget(title="Three plot curves")
        x = np.arange(1000)
        y = np.random.normal(size=(3, 1000))
        for i in range(3):
            plt3.plot(x, y[i], pen=(i, 3))  # setting pen=(i,3) 自动创建3个不同颜色的笔
        self.gridLayout.addWidget(plt3, 2, 1, 1, 1)
コード例 #22
0
    def funcListPeople(self):
        if self.allPeopleRadioBtn.isChecked():
            self.funcDisplayPeople()
        elif self.employeesPeopleRadioBtn.isChecked():
            try:
                query = "SELECT * FROM people WHERE person_empl_type = 'Employee'"
                people = db.cur.execute(query).fetchall()

                for i in reversed(range(self.peopleTable.rowCount())):
                    self.peopleTable.removeRow(i)

                for row_data in people:
                    row_number = self.peopleTable.rowCount()
                    self.peopleTable.insertRow(row_number)
                    # Add checkboxes to the table
                    widget = QWidget()
                    checkBox = QCheckBox()
                    checkBox.setCheckState(Qt.Unchecked)
                    hBoxLayout = QHBoxLayout(widget)
                    hBoxLayout.addWidget(checkBox)
                    hBoxLayout.setAlignment(Qt.AlignCenter)
                    self.peopleTable.setCellWidget(row_number, 0, widget)
                    self.peopleTable.setItem(row_number, 0,
                                             QTableWidgetItem(row_number))
                    # Add photo photos_thumbnails to the table
                    thumbWidget = QWidget()
                    pic = QPixmap(
                        "assets/media/people-media/photos_thumbnails/01Aug2020_18h01mtrtgzteuzuspxrp_thumbnail.png"
                    )
                    thumbLabel = QLabel()
                    thumbLabel.setPixmap(pic)
                    thumbLayout = QHBoxLayout(thumbWidget)
                    thumbLayout.addWidget(thumbLabel)
                    self.peopleTable.setCellWidget(row_number, 1, thumbWidget)
                    self.peopleTable.setItem(row_number, 0,
                                             QTableWidgetItem(row_number))
                    # Fill the rest of the data
                    for column_number, data in enumerate(row_data, start=2):
                        if column_number == 2:
                            self.peopleTable.setItem(
                                row_number, column_number,
                                QTableWidgetItem("PRN#" + str(data)))
                        else:
                            self.peopleTable.setItem(
                                row_number, column_number,
                                QTableWidgetItem(str(data)))
            except:
                QMessageBox.information(self, "Info", "Cannot access database")
        elif self.contractorsPeopleRadioBtn.isChecked():
            try:
                query = "SELECT * FROM people WHERE person_empl_type = 'Contractor'"
                people = db.cur.execute(query).fetchall()

                for i in reversed(range(self.peopleTable.rowCount())):
                    self.peopleTable.removeRow(i)

                for row_data in people:
                    row_number = self.peopleTable.rowCount()
                    self.peopleTable.insertRow(row_number)
                    # Add checkboxes to the table
                    widget = QWidget()
                    checkBox = QCheckBox()
                    checkBox.setCheckState(Qt.Unchecked)
                    hBoxLayout = QHBoxLayout(widget)
                    hBoxLayout.addWidget(checkBox)
                    hBoxLayout.setAlignment(Qt.AlignCenter)
                    self.peopleTable.setCellWidget(row_number, 0, widget)
                    self.peopleTable.setItem(row_number, 0,
                                             QTableWidgetItem(row_number))
                    # Add photo photos_thumbnails to the table
                    thumbWidget = QWidget()
                    pic = QPixmap(
                        "assets/media/people-media/photos_thumbnails/01Aug2020_18h01mtrtgzteuzuspxrp_thumbnail.png"
                    )
                    thumbLabel = QLabel()
                    thumbLabel.setPixmap(pic)
                    thumbLayout = QHBoxLayout(thumbWidget)
                    thumbLayout.addWidget(thumbLabel)
                    self.peopleTable.setCellWidget(row_number, 1, thumbWidget)
                    self.peopleTable.setItem(row_number, 0,
                                             QTableWidgetItem(row_number))
                    # Fill the rest of the data
                    for column_number, data in enumerate(row_data, start=2):
                        if column_number == 2:
                            self.peopleTable.setItem(
                                row_number, column_number,
                                QTableWidgetItem("PRN#" + str(data)))
                        else:
                            self.peopleTable.setItem(
                                row_number, column_number,
                                QTableWidgetItem(str(data)))
            except:
                QMessageBox.information(self, "Info", "Cannot access database")
        elif self.subcontractorsPeopleRadioBtn.isChecked():
            try:
                query = "SELECT * FROM people WHERE person_empl_type = 'Subcontractor'"
                people = db.cur.execute(query).fetchall()

                for i in reversed(range(self.peopleTable.rowCount())):
                    self.peopleTable.removeRow(i)

                for row_data in people:
                    row_number = self.peopleTable.rowCount()
                    self.peopleTable.insertRow(row_number)
                    # Add checkboxes to the table
                    widget = QWidget()
                    checkBox = QCheckBox()
                    checkBox.setCheckState(Qt.Unchecked)
                    hBoxLayout = QHBoxLayout(widget)
                    hBoxLayout.addWidget(checkBox)
                    hBoxLayout.setAlignment(Qt.AlignCenter)
                    self.peopleTable.setCellWidget(row_number, 0, widget)
                    self.peopleTable.setItem(row_number, 0,
                                             QTableWidgetItem(row_number))
                    # Add photo photos_thumbnails to the table
                    thumbWidget = QWidget()
                    pic = QPixmap(
                        "assets/media/people-media/photos_thumbnails/01Aug2020_18h01mtrtgzteuzuspxrp_thumbnail.png"
                    )
                    thumbLabel = QLabel()
                    thumbLabel.setPixmap(pic)
                    thumbLayout = QHBoxLayout(thumbWidget)
                    thumbLayout.addWidget(thumbLabel)
                    self.peopleTable.setCellWidget(row_number, 1, thumbWidget)
                    self.peopleTable.setItem(row_number, 0,
                                             QTableWidgetItem(row_number))
                    # Fill the rest of the data
                    for column_number, data in enumerate(row_data, start=2):
                        if column_number == 2:
                            self.peopleTable.setItem(
                                row_number, column_number,
                                QTableWidgetItem("PRN#" + str(data)))
                        else:
                            self.peopleTable.setItem(
                                row_number, column_number,
                                QTableWidgetItem(str(data)))
            except:
                QMessageBox.information(self, "Info", "Cannot access database")
コード例 #23
0
ファイル: tracemallocqt.py プロジェクト: hbata/qt_tracemalloc
class StatsManager:
    GROUP_BY = ['filename', 'lineno', 'traceback']
    # index in the combo box
    GROUP_BY_FILENAME = 0
    GROUP_BY_LINENO = 1
    GROUP_BY_TRACEBACK = 2

    def __init__(self, window, app):
        self.app = app
        self.window = window
        self.snapshots = window.snapshots
        self.source = window.source
        self.filename_parts = 3
        self._auto_refresh = False

        self.filters = []
        self.history = History(self)

        self.model = StatsModel(self)
        self.view = QTableView(window)
        self.view.setModel(self.model)
        self.cumulative_checkbox = QCheckBox(window.tr("Cumulative sizes"),
                                             window)
        self.group_by = QtGui.QComboBox(window)
        self.group_by.addItems([
            window.tr("Filename"),
            window.tr("Line number"),
            window.tr("Traceback"),
        ])

        self.filters_label = QLabel(window)
        self.summary = QLabel(window)
        self.view.verticalHeader().hide()
        self.view.resizeColumnsToContents()
        self.view.setSortingEnabled(True)

        window.connect(self.group_by,
                       QtCore.SIGNAL("currentIndexChanged(int)"),
                       self.group_by_changed)
        window.connect(self.view,
                       QtCore.SIGNAL("doubleClicked(const QModelIndex&)"),
                       self.double_clicked)
        window.connect(self.cumulative_checkbox,
                       QtCore.SIGNAL("stateChanged(int)"),
                       self.change_cumulative)
        window.connect(self.snapshots.load_button,
                       QtCore.SIGNAL("clicked(bool)"), self.load_snapshots)
        window.connect(
            self.view.selectionModel(),
            QtCore.SIGNAL(
                "selectionChanged(const QItemSelection&, const QItemSelection&)"
            ), self.selection_changed)

        self.clear()
        self._auto_refresh = True

    def clear(self):
        del self.filters[:]
        self.cumulative_checkbox.setCheckState(Qt.Unchecked)
        self.group_by.setCurrentIndex(self.GROUP_BY_FILENAME)
        self.history.clear()
        self.append_history()
        self.refresh()

    def load_snapshots(self, checked):
        self.source.clear()
        self.clear()

    def append_history(self):
        group_by = self.group_by.currentIndex()
        filters = self.filters[:]
        cumulative = self.cumulative_checkbox.checkState()
        state = HistoryState(group_by, filters, cumulative)
        self.history.append(state)

    def restore_state(self, state):
        self.filters = state.filters[:]
        self._auto_refresh = False
        self.cumulative_checkbox.setCheckState(state.cumulative)
        self.group_by.setCurrentIndex(state.group_by)
        self._auto_refresh = True
        self.refresh()

    def format_filename(self, filename):
        parts = filename.split(os.path.sep)
        if len(parts) > self.filename_parts:
            parts = [MORE_TEXT] + parts[-self.filename_parts:]
        return os.path.join(*parts)

    def get_group_by(self):
        index = self.group_by.currentIndex()
        return self.GROUP_BY[index]

    def get_cumulative(self):
        return (self.cumulative_checkbox.checkState() == Qt.Checked)

    def refresh(self):
        group_by = self.get_group_by()
        if group_by != 'traceback':
            cumulative = self.get_cumulative()
        else:
            # FIXME: add visual feedback
            cumulative = False
        snapshot1, snapshot2 = self.snapshots.load_snapshots(self.filters)

        self.view.clearSelection()
        group_by = self.get_group_by()
        self.model.set_stats(snapshot1, snapshot2, group_by, cumulative)

        self.view.resizeColumnsToContents()
        self.view.sortByColumn(self.model.get_default_sort_column(),
                               Qt.DescendingOrder)

        if self.filters:
            filters = []
            for filter in self.filters:
                text = self.format_filename(filter.filename_pattern)
                if filter.lineno:
                    text = "%s:%s" % (text, filter.lineno)
                if filter.all_frames:
                    text += self.window.tr(" (any frame)")
                if filter.inclusive:
                    text = fmt(self.window.tr("include %s"), text)
                else:
                    text = fmt(self.window.tr("exclude %s"), text)
                filters.append(text)
            filters_text = ", ".join(filters)
        else:
            filters_text = self.window.tr("(none)")
        filters_text = fmt(self.window.tr("Filters: %s"), filters_text)
        self.filters_label.setText(filters_text)

        total = self.model.total_text
        lines = len(self.model.stats)
        if group_by == 'filename':
            lines = fmt(self.window.tr("Files: %s"), lines)
        elif group_by == 'lineno':
            lines = fmt(self.window.tr("Lines: %s"), lines)
        else:
            lines = fmt(self.window.tr("Tracebacks: %s"), lines)
        total = fmt(self.window.tr("%s - Total: %s"), lines, total)
        self.summary.setText(total)

    def selection_changed(self, selected, unselected):
        indexes = selected.indexes()
        if not indexes:
            return
        stat = self.model.get_stat(indexes[0])
        if stat is None:
            return
        self.source.set_traceback(stat.traceback,
                                  self.get_group_by() != 'filename')
        self.source.show_frame(stat.traceback[0])

    def double_clicked(self, index):
        stat = self.model.get_stat(index)
        if stat is None:
            return
        group_by = self.get_group_by()
        if group_by == 'filename':
            all_frames = self.get_cumulative()
            self.filters.append(
                tracemalloc.Filter(True,
                                   stat.traceback[0].filename,
                                   all_frames=all_frames))
            self._auto_refresh = False
            self.group_by.setCurrentIndex(self.GROUP_BY_LINENO)
            self.append_history()
            self._auto_refresh = True
            self.refresh()
        elif group_by == 'lineno':
            # Replace filter by filename with filter by line
            new_filter = tracemalloc.Filter(True,
                                            stat.traceback[0].filename,
                                            stat.traceback[0].lineno,
                                            all_frames=False)
            if self.filters:
                old_filter = self.filters[-1]
                replace = (old_filter.inclusive == new_filter.inclusive
                           and old_filter.filename_pattern
                           == new_filter.filename_pattern
                           and old_filter.lineno == None)
            else:
                replace = False
            if replace:
                self.filters[-1] = new_filter
            else:
                self.filters.append(new_filter)
            self._auto_refresh = False
            self.group_by.setCurrentIndex(self.GROUP_BY_TRACEBACK)
            self.append_history()
            self._auto_refresh = True
            self.refresh()

    def group_by_changed(self, index):
        if not self._auto_refresh:
            return
        self.append_history()
        self.refresh()

    def change_cumulative(self, state):
        if not self._auto_refresh:
            return
        self.append_history()
        self.refresh()
コード例 #24
0
ファイル: export.py プロジェクト: strohne/Facepager
class ExportFileDialog(QFileDialog):
    """
    Create a custom Export-File Dialog with options like BOM etc.
    """

    def __init__(self,*args,**kwargs):
        super(ExportFileDialog,self).__init__(*args,**kwargs)

        self.mainWindow = self.parent()
        self.setWindowTitle("Export nodes to CSV")
        self.setAcceptMode(QFileDialog.AcceptSave)
        self.setOption(QFileDialog.DontUseNativeDialog)
        #self.setFilter("CSV Files (*.csv)")
        self.setDefaultSuffix("csv")

        self.optionBOM = QCheckBox("Use a BOM",self)
        self.optionBOM.setCheckState(Qt.CheckState.Checked)

        self.optionLinebreaks = QCheckBox("Remove line breaks",self)
        self.optionLinebreaks.setCheckState(Qt.CheckState.Checked)

        self.optionSeparator = QComboBox(self)
        self.optionSeparator.insertItems(0, [";","\\t",","])
        self.optionSeparator.setEditable(True)

        #self.optionLinebreaks.setCheckState(Qt.CheckState.Checked)

        self.optionWide = QCheckBox("Convert to wide format (experimental feature)",self)
        self.optionWide.setCheckState(Qt.CheckState.Unchecked)

        # if none or all are selected, export all
        # if one or more are selected, export selective
        self.optionAll = QComboBox(self)
        self.optionAll.insertItems(0, ['All nodes (faster for large datasets, ordered by internal ID)','Selected nodes (ordered like shown in nodes view)'])
        if self.mainWindow.tree.noneOrAllSelected():
            self.optionAll.setCurrentIndex(0)
        else:
            self.optionAll.setCurrentIndex(1)

        layout = self.layout()
        row = layout.rowCount()
        layout.addWidget(QLabel('Options'),row,0)

        options = QHBoxLayout()
        options.addWidget(self.optionBOM)
        options.addWidget(self.optionLinebreaks)
        options.addWidget(QLabel('Separator'))
        options.addWidget(self.optionSeparator)
        options.addStretch(1)

        layout.addLayout(options,row,1,1,2)

        layout.addWidget(QLabel('Post processing'),row+1,0)
        layout.addWidget(self.optionWide,row+1,1,1,2)

        layout.addWidget(QLabel('Export mode'),row+2,0)
        layout.addWidget(self.optionAll,row+2,1,1,2)
        self.setLayout(layout)

        if self.exec_():

            if os.path.isfile(self.selectedFiles()[0]):
                os.remove(self.selectedFiles()[0])
            output = open(self.selectedFiles()[0], 'w', newline='', encoding='utf8')
            if self.optionBOM.isChecked() and not self.optionWide.isChecked():
                output.write('\ufeff')

            try:
                if self.optionAll.currentIndex() == 0:
                    self.exportAllNodes(output)
                else:
                    self.exportSelectedNodes(output)
            finally:
                output.close()

            if self.optionWide.isChecked():
                self.convertToWideFormat(self.selectedFiles()[0])


    def exportSelectedNodes(self,output):
        progress = ProgressBar("Exporting data...", self.mainWindow)

        #indexes = self.mainWindow.tree.selectionModel().selectedRows()
        #if child nodes should be exported as well, uncomment this line an comment the previous one
        indexes = self.mainWindow.tree.selectedIndexesAndChildren()
        progress.setMaximum(len(indexes))

        try:
            delimiter = self.optionSeparator.currentText()
            delimiter = delimiter.encode('utf-8').decode('unicode_escape')
            writer = csv.writer(output, delimiter=delimiter, quotechar='"', quoting=csv.QUOTE_ALL, doublequote=True,
                                lineterminator='\r\n')


            #headers
            row = [str(val) for val in self.mainWindow.tree.treemodel.getRowHeader()]
            if self.optionLinebreaks.isChecked():
                row = [val.replace('\n', ' ').replace('\r',' ') for val in row]

            writer.writerow(row)

            #rows
            for no in range(len(indexes)):
                if progress.wasCanceled:
                    break

                row = [str(val) for val in self.mainWindow.tree.treemodel.getRowData(indexes[no])]
                if self.optionLinebreaks.isChecked():
                    row = [val.replace('\n', ' ').replace('\r',' ') for val in row]

                writer.writerow(row)

                progress.step()

        finally:
            progress.close()


    def exportAllNodes(self,output):
        progress = ProgressBar("Exporting data...", self.mainWindow)
        progress.setMaximum(Node.query.count())


        try:
            delimiter = self.optionSeparator.currentText()
            delimiter = delimiter.encode('utf-8').decode('unicode_escape')
            writer = csv.writer(output, delimiter=delimiter, quotechar='"', quoting=csv.QUOTE_ALL, doublequote=True,
                                lineterminator='\r\n')

            #headers
            row = ["level", "id", "parent_id", "object_id", "object_type", "query_status", "query_time",
                   "query_type"]
            for key in self.mainWindow.tree.treemodel.customcolumns:
                row.append(key)
            if self.optionLinebreaks.isChecked():
                row = [val.replace('\n', ' ').replace('\r',' ') for val in row]

            writer.writerow(row)

            #rows
            page = 0

            while True:
                allnodes = Node.query.offset(page * 5000).limit(5000)
                if allnodes.count() == 0:
                    break
                for node in allnodes:
                    if progress.wasCanceled:
                        break
                    row = [node.level, node.id, node.parent_id, node.objectid, node.objecttype,
                           node.querystatus, node.querytime, node.querytype]
                    for key in self.mainWindow.tree.treemodel.customcolumns:
                        row.append(node.getResponseValue(key))

                    if self.optionLinebreaks.isChecked():
                        row = [str(val).replace('\n', ' ').replace('\r',' ') for val in row]

                    writer.writerow(row)
                    # step the Bar
                    progress.step()
                if progress.wasCanceled:
                    break
                else:
                    page += 1

        finally:
            progress.close()

    def convertToWideFormat(self,filename):
        progress = ProgressBar("Converting data...", self.mainWindow)
        try:
            #Separate levels
            def flattenTable(fulltable,levelcol,idcol,parentidcol,countchildren,removeempty):
                fulltable[[levelcol]] = fulltable[[levelcol]].astype(int)

                levels = dict(list(fulltable.groupby(levelcol)))
                minlevel = fulltable.level.min()
                for level, data in sorted(levels.items()):
                    #First level is the starting point for the following merges
                    if level == minlevel:
                        #data = data[[idcol,'object_id','object_type']]
                        data = data.add_prefix('level_{}-'.format(level))
                        flattable = data
                    else:
                        #Aggregate object types and join them
                        for col_countchildren in countchildren:
                            children = data[parentidcol].groupby([data[parentidcol],data[col_countchildren]]).count()
                            children = children.unstack(col_countchildren)
                            children['total'] = children.sum(axis=1)
                            children = children.add_prefix('level_{}-children-{}-'.format(level-1,col_countchildren))

                            leftkey = 'level_{}-id'.format(level-1)
                            flattable = merge(flattable,children,how='left',left_on=leftkey,right_index=True)
                            flattable[children.columns.values.tolist()] = flattable[children.columns.values.tolist()].fillna(0).astype(int)

                        #Join data
                        data['childnumber'] = data.groupby(parentidcol).cumcount()
                        leftkey = 'level_{}-{}'.format(level-1,idcol)
                        rightkey = 'level_{}-{}'.format(level,parentidcol)
                        data = data.drop([levelcol],axis=1)
                        data = data.add_prefix('level_{}-'.format(level))
                        flattable = merge(flattable,data,how="outer",left_on=leftkey,right_on=rightkey)

                if removeempty:
                    flattable = flattable.dropna(axis=1,how='all')
                return flattable

            try:
                #delimiter
                delimiter = self.optionSeparator.currentText()
                delimiter = delimiter.encode('utf-8').decode('unicode_escape')

                #open
                data = read_csv(filename, sep=delimiter,encoding='utf-8',dtype=str)

                #convert
                newdata = flattenTable(data,'level','id','parent_id',['object_type','query_status','query_type'],False)


                #save
                outfile = open(filename, 'w',newline='',encoding='utf8')
                try:
                    if self.optionBOM.isChecked():
                        outfile.write('\ufeff') #UTF8 BOM
                    newdata.to_csv(outfile,sep=delimiter,index=False,encoding="utf-8")
                finally:
                    outfile.close()
            except Exception as e:
                self.mainWindow.logmessage(e)
        finally:
            progress.close()
コード例 #25
0
class ExportDialog(QWidget):
    def __init__(self, parent=None):
        super().__init__(parent)
        self.model = ExportChangesModel()
        self.error_dialog = None
        self.setWindowIcon(QIcon("paragon.ico"))
        self.setWindowTitle("Export")

        main_layout = QVBoxLayout(self)
        self.export_button = QPushButton()
        self.export_button.setText("Export")
        self.main_view = QTreeView()
        self.main_view.setModel(self.model)
        self.main_view.setHeaderHidden(True)
        self.main_view.setEditTriggers(
            QtWidgets.QAbstractItemView.NoEditTriggers)
        self.remember_selections_checkbox = QCheckBox()
        self.remember_selections_checkbox.setText("Remember selections.")
        main_layout.addWidget(self.export_button)
        main_layout.addWidget(self.main_view)
        main_layout.addWidget(self.remember_selections_checkbox)
        self.setLayout(main_layout)

        self.main_view.expanded.connect(self._on_item_expanded)
        self.export_button.clicked.connect(self._on_export_triggered)
        self.remember_selections_checkbox.stateChanged.connect(
            self._on_remember_selections_state_changed)

        self._set_remember_checkbox_state_from_settings()

    def _set_remember_checkbox_state_from_settings(self):
        settings_service = locator.get_static("SettingsService")
        if settings_service.get_remember_exports():
            self.remember_selections_checkbox.setCheckState(QtCore.Qt.Checked)

    @staticmethod
    def _on_remember_selections_state_changed(state: int):
        should_remember = state == QtCore.Qt.Checked
        locator.get_static("SettingsService").set_remember_exports(
            should_remember)

    def closeEvent(self, event: QtGui.QCloseEvent):
        self.model.save_selected_items_tree()
        event.accept()

    def _on_export_triggered(self):
        file_name, ok = QFileDialog.getSaveFileName(
            self, caption="Select Changes File Destination", filter="*.json")
        if ok:
            self._try_export_and_write(file_name)

    def _try_export_and_write(self, file_name):
        logging.debug("Exporting selected data to %s" % file_name)
        try:
            export_data = self.model.export_selected_items()
            with open(file_name, "w", encoding="utf-8") as f:
                json.dump(export_data, f, indent=4, ensure_ascii=False)
        except:
            logging.exception("An error occurred while exporting data.")
            self.error_dialog = ErrorDialog(
                "An error occurred while exporting. See the log for details.")
            self.error_dialog.show()

    def _on_item_expanded(self, index: QModelIndex):
        self.model.update_data_for_index(index)
コード例 #26
0
ファイル: ToolBox.py プロジェクト: bakhyeonjae/Sherlock
class ToolBox(QVBoxLayout):

    sig = QtCore.Signal(object)
    listThread = None
    groupBoxThreadInfo = None
    threadvbox = None
    mode = None

    def __init__(self, mode, parentQWidget = None):
        QVBoxLayout.__init__(self)

        self.sig.connect(self.addThreadList)
        self.mode = mode

        self.sizePolicy = QSizePolicy(QSizePolicy.Fixed, QSizePolicy.Expanding)

        self.groupBoxSearch = QGroupBox()
        self.groupBoxSearch.setStyleSheet("QGroupBox {border: 1px solid gray; border-radius: 4px; };")
        vboxSearch = QVBoxLayout()
        self.searchTitle = QLabel("Search Messages")
        vboxSearch.addWidget(self.searchTitle)
        self.searchHLayout = QHBoxLayout()
        self.editTextSearch = QTextEdit('')
        self.editTextSearch.setFixedSize(200,30)
        self.buttonSearch = QPushButton('Search')
        self.buttonSearch.setFixedSize(100,30)
        self.buttonSearch.clicked.connect(self.searchMsg)
        vboxSearch.addWidget(self.editTextSearch)
        self.searchHLayout.addWidget(self.buttonSearch)
        self.searchCursor = QLabel()
        self.searchHLayout.addWidget(self.searchCursor)
        vboxSearch.addLayout(self.searchHLayout)
        self.browseHLayout = QHBoxLayout()
        self.buttonLookUp = QPushButton('\u21e7')  #Arrow up
        self.buttonLookUp.setFixedWidth(100)
        self.buttonLookUp.clicked.connect(self.moveToPrev)
        self.buttonLookDown = QPushButton('\u21e9') #Arrow down
        self.buttonLookDown.setFixedWidth(100)
        self.buttonLookDown.clicked.connect(self.moveToNext)
        self.browseHLayout.addWidget(self.buttonLookUp)
        self.browseHLayout.addWidget(self.buttonLookDown)
        vboxSearch.addLayout(self.browseHLayout)
        self.groupBoxSearch.setLayout(vboxSearch)
        self.addWidget(self.groupBoxSearch)
        self.groupBoxSearch.setSizePolicy(QSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed))

        self.buttonHiddenLifelines = QPushButton('Show hidden life-lines')
        self.buttonHiddenLifelines.setFixedWidth(200)
        self.buttonHiddenLifelines.clicked.connect(self.showHiddenLifelines)
        self.addWidget(self.buttonHiddenLifelines)

        self.buttonHiddenMessages = QPushButton('Show hidden Messages')
        self.buttonHiddenMessages.setFixedWidth(200)
        self.buttonHiddenMessages.clicked.connect(self.showHiddenMessages)
        self.addWidget(self.buttonHiddenMessages)

        if const.mode_interactive == mode:
            self.buttonCapture = QPushButton('Capture')
            self.buttonCapture.setFixedWidth(200)
            self.buttonCapture.clicked.connect(self.notifyCapture)
            self.addWidget(self.buttonCapture)
        self.msgRcv = []
        self.msgInfo = QLabel("Message Info.")
        self.groupBoxMessageInfo = QGroupBox()
        self.groupBoxMessageInfo.setStyleSheet("QGroupBox {border: 1px solid gray; border-radius: 9px; margin-top: 0.5em} QGroupBox::title {subcontrol-origin: margin; left: 10px; padding: 0 3px 0 3px;")
        vbox = QVBoxLayout()
        vbox.addWidget(self.msgInfo)
        self.tableTime = QTableWidget(3,2)
        self.tableTime.setHorizontalHeaderLabels(['-','time'])
        self.tableTime.setColumnWidth(0,80)
        self.tableTime.setColumnWidth(1,150)
        vwidth = self.tableTime.verticalHeader().length()
        hwidth = self.tableTime.horizontalHeader().height()
        fwidth = self.tableTime.frameWidth() * 2
        self.tableTime.setFixedHeight(vwidth + hwidth + fwidth)
        self.tableTime.horizontalHeader().setStretchLastSection(True)
        self.tableTime.setItem(0,0,QTableWidgetItem('begin'))
        self.tableTime.setItem(0,1,QTableWidgetItem(' - '))
        self.tableTime.setItem(1,0,QTableWidgetItem('end'))
        self.tableTime.setItem(1,1,QTableWidgetItem(' - '))
        self.tableTime.setItem(2,0,QTableWidgetItem('duration'))
        self.tableTime.setItem(2,1,QTableWidgetItem(' - '))
        vbox.addWidget(self.tableTime)

        self.titleArg = QLabel('Argument List')
        vbox.addWidget(self.titleArg)

        max_arg_num = 10
        self.tableArgs = QTableWidget(max_arg_num,2)
        self.tableArgs.setHorizontalHeaderLabels(['type','value'])
        for idx in range(0,max_arg_num):
            self.tableArgs.setItem(idx,0,QTableWidgetItem())
            self.tableArgs.setItem(idx,1,QTableWidgetItem())
        self.tableArgs.horizontalHeader().setStretchLastSection(True)
        vbox.addWidget(self.tableArgs)

        self.titleArg = QLabel('Return Value List')
        vbox.addWidget(self.titleArg)

        max_ret_num = 4
        self.tableRet = QTableWidget(max_ret_num,2)
        self.tableRet.setHorizontalHeaderLabels(['type','value'])
        for idx in range(0,max_ret_num):
            self.tableRet.setItem(idx,0,QTableWidgetItem())
            self.tableRet.setItem(idx,1,QTableWidgetItem())
        self.tableRet.horizontalHeader().setStretchLastSection(True)
        vwidth = self.tableRet.verticalHeader().length()
        hwidth = self.tableRet.horizontalHeader().height()
        fwidth = self.tableRet.frameWidth() * 2
        self.tableRet.setFixedHeight(vwidth + hwidth + fwidth)
        vbox.addWidget(self.tableRet)

        self.buttonSrcView = QPushButton('view code')
        self.buttonSrcView.setFixedWidth(200)
        self.buttonSrcView.clicked.connect(self.openSourceViewer)
        self.buttonHide = QPushButton('Hide')
        self.buttonHide.setFixedWidth(200)
        self.buttonHide.clicked.connect(self.notifyHide)
        self.buttonHideAllMsg = QPushButton('Hide All')
        self.buttonHideAllMsg.setFixedWidth(200)
        self.buttonHideAllMsg.clicked.connect(self.hideAllMsgNamedAsSelected)
        self.groupBoxMessageInfo.setLayout(vbox)
        self.checkHideCircular = QCheckBox('Hide Circular Messages')
        self.checkHideCircular.setCheckState(QtCore.Qt.Unchecked)
        self.checkHideCircular.stateChanged.connect(self.changeHideCircularMessage)
        self.addWidget(self.checkHideCircular)
        self.addWidget(self.groupBoxMessageInfo)
        self.groupBoxMessageInfo.setSizePolicy(self.sizePolicy)

    def reset(self):
        for idx in reversed(range(0,self.listThread.count())):
            self.listThread.takeItem(idx)

    def setMsgInfoMessage(self,msg):
        self.strMessage = msg

    def changeHideCircularMessage(self,state):
        if state == QtCore.Qt.Unchecked:
            self.diagramView.hideCircularChanged(False)
        elif state == QtCore.Qt.Checked:
            self.diagramView.hideCircularChanged(True)
    
    def setMsgInfoModule(self,module):
        self.strModule = module

    def updateSearchStatus(self,curr,number):
        self.searchCursor.setText("%d/%d" % (curr,number))

    def connectSourceViewer(self,viewer):
        self.srcViewer = viewer

    def openSourceViewer(self):
        self.srcViewer.openViewer(self.strModule,self.strMessage)

    def setMessageInfoTime(self,begin,end,duration):
        self.tableTime.item(0,1).setText(begin)
        self.tableTime.item(1,1).setText(end)
        self.tableTime.item(2,1).setText(duration + ' msec')

    def setMessageInfoArg(self,listParam,listArg):
        # Clear the contents in the table
        max_arg_num = 10
        for idx in range(0,max_arg_num):
            self.tableArgs.item(idx,0).setText('')
            self.tableArgs.item(idx,1).setText('')

        if listArg:
            for idx, text in enumerate(listArg):
                self.tableArgs.item(idx,1).setText(text)
            for idx, text in enumerate(listParam):
                self.tableArgs.item(idx,0).setText(text)
        else:
            for idx in range(0,self.tableArgs.rowCount()):
                self.tableArgs.item(idx,1).setText('')
                self.tableArgs.item(idx,0).setText('')

    def setMessageInfoRet(self,listRet):
        if listRet:
            for idx, text in enumerate(listRet):
                self.tableRet.item(idx,1).setText(text)
        else:
            for idx in range(0,self.tableRet.rowCount()):
                self.tableRet.item(idx,1).setText('')
                self.tableRet.item(idx,0).setText('')

    def notifyInteractiveStateChanged(self,state):
        if const.mode_interactive != self.mode:
            return

        if const.STATE_INTERACTIVE_CAPTURING == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Stop Capture')
        if const.STATE_INTERACTIVE_PROCESSING == state:
            self.buttonCapture.setEnabled(False)
        if const.STATE_INTERACTIVE_IDLE == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Capture')
        if const.STATE_INTERACTIVE_RESET == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Capture')
        elif const.STATE_INTERACTIVE_ACTIVE == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Capture')

    def setMessageInfo(self,info):
        self.msgInfo.setText(info)

    def setAvailable(self,threads):
        self.sig.emit(threads)

    def toggleThreadDisplay(self,item):
        print(self.listThread.currentRow())
        #if item.isSelected():
        #    print(item.text() + "  is selected")
        #else:
        #    print(item.text() + "  is not selected")
        self.diagramView.showThread(self.listThread.currentRow(),item.isSelected())

    def hideAllMsgNamedAsSelected(self):
        self.diagramView.hideAllMessageSelected()

    def addThreadList(self,threads):

        if not self.groupBoxThreadInfo:
            self.groupBoxThreadInfo = QGroupBox()
            self.threadInfo = QLabel("Thread Info.")
            self.groupBoxThreadInfo.setStyleSheet("QGroupBox {border: 1px solid gray; border-radius: 9px; margin-top: 0.5em} QGroupBox::title {subcontrol-origin: margin; left: 10px; padding: 0 3px 0 3px;")

        if not self.threadvbox:
            self.threadvbox = QVBoxLayout()

        if not self.listThread:
            self.listThread = QListWidget()
            
        self.listThread.setFixedWidth(200)
        self.listThread.setSelectionMode(QAbstractItemView.MultiSelection)
        QtCore.QObject.connect(self.listThread, QtCore.SIGNAL("itemClicked(QListWidgetItem *)"), self.toggleThreadDisplay)
        self.threadvbox.addWidget(self.threadInfo)
        self.threadvbox.addWidget(self.listThread)
        self.groupBoxThreadInfo.setLayout(self.threadvbox)
        self.addWidget(self.groupBoxThreadInfo)
        self.groupBoxThreadInfo.setSizePolicy(self.sizePolicy)

        for id in threads:
            item = QListWidgetItem(id)
            self.listThread.addItem(item)

    def connectController(self,controller):
        self.controller = controller
        self.connect(controller,QtCore.SIGNAL('setAvailable()'),self.setAvailable)
       
    def connectDiagramView(self,view):
        self.diagramView = view
 
    def disconnectMsgRcv(self,receiver):
        print("Implement this method !!! disconnectMsgRcv")

    def connectMsgRcv(self,receiver):
        self.msgRcv.append(receiver)

    def notifyHide(self):
        for rcv in self.msgRcv:
            rcv.activateHide(True)

    def showHiddenLifelines(self):
        response, selected_items = HiddenDialog.HiddenDialog.getSelectedItems(self.diagramView.getHiddenLifeLines())
        if response:
            self.diagramView.showLifelines(selected_items)

    def showHiddenMessages(self):
        response, selected_items = HiddenMessageDialog.HiddenMessageDialog.getSelectedItems(self.diagramView.getHiddenMessages(),self.diagramView.getHiddenLifeLines())
        if response:
            if selected_items[3] in self.diagramView.getHiddenLifeLines():
                confirmation = ShowLifeLineDialog.ShowLifeLineDialog.confirmToShowLifeLine(selected_items[3])
                if confirmation:
                    self.diagramView.showLifelines([selected_items[3]])
                    self.diagramView.showMessages(selected_items)
            else:
                self.diagramView.showMessages(selected_items)

    def notifyCapture(self):
        for rcv in self.msgRcv:
            rcv.activateCapture(True)
    
    def moveToPrev(self):
        for rcv in self.msgRcv:
            rcv.moveToPrev()
        
    def moveToNext(self):
        for rcv in self.msgRcv:
            rcv.moveToNext()

    def searchMsg(self):
        str = self.editTextSearch.toPlainText()
        for rcv in self.msgRcv:
            rcv.searchMessage(str)
コード例 #27
0
ファイル: ToolBox.py プロジェクト: bakhyeonjae/Sherlock
class ToolBox(QVBoxLayout):

    sig = QtCore.Signal(object)
    listThread = None
    groupBoxThreadInfo = None
    threadvbox = None
    mode = None

    def __init__(self, mode, parentQWidget=None):
        QVBoxLayout.__init__(self)

        self.sig.connect(self.addThreadList)
        self.mode = mode

        self.sizePolicy = QSizePolicy(QSizePolicy.Fixed, QSizePolicy.Expanding)

        self.groupBoxSearch = QGroupBox()
        self.groupBoxSearch.setStyleSheet(
            "QGroupBox {border: 1px solid gray; border-radius: 4px; };")
        vboxSearch = QVBoxLayout()
        self.searchTitle = QLabel("Search Messages")
        vboxSearch.addWidget(self.searchTitle)
        self.searchHLayout = QHBoxLayout()
        self.editTextSearch = QTextEdit('')
        self.editTextSearch.setFixedSize(200, 30)
        self.buttonSearch = QPushButton('Search')
        self.buttonSearch.setFixedSize(100, 30)
        self.buttonSearch.clicked.connect(self.searchMsg)
        vboxSearch.addWidget(self.editTextSearch)
        self.searchHLayout.addWidget(self.buttonSearch)
        self.searchCursor = QLabel()
        self.searchHLayout.addWidget(self.searchCursor)
        vboxSearch.addLayout(self.searchHLayout)
        self.browseHLayout = QHBoxLayout()
        self.buttonLookUp = QPushButton('\u21e7')  #Arrow up
        self.buttonLookUp.setFixedWidth(100)
        self.buttonLookUp.clicked.connect(self.moveToPrev)
        self.buttonLookDown = QPushButton('\u21e9')  #Arrow down
        self.buttonLookDown.setFixedWidth(100)
        self.buttonLookDown.clicked.connect(self.moveToNext)
        self.browseHLayout.addWidget(self.buttonLookUp)
        self.browseHLayout.addWidget(self.buttonLookDown)
        vboxSearch.addLayout(self.browseHLayout)
        self.groupBoxSearch.setLayout(vboxSearch)
        self.addWidget(self.groupBoxSearch)
        self.groupBoxSearch.setSizePolicy(
            QSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed))

        self.buttonHiddenLifelines = QPushButton('Show hidden life-lines')
        self.buttonHiddenLifelines.setFixedWidth(200)
        self.buttonHiddenLifelines.clicked.connect(self.showHiddenLifelines)
        self.addWidget(self.buttonHiddenLifelines)

        self.buttonHiddenMessages = QPushButton('Show hidden Messages')
        self.buttonHiddenMessages.setFixedWidth(200)
        self.buttonHiddenMessages.clicked.connect(self.showHiddenMessages)
        self.addWidget(self.buttonHiddenMessages)

        if const.mode_interactive == mode:
            self.buttonCapture = QPushButton('Capture')
            self.buttonCapture.setFixedWidth(200)
            self.buttonCapture.clicked.connect(self.notifyCapture)
            self.addWidget(self.buttonCapture)
        self.msgRcv = []
        self.msgInfo = QLabel("Message Info.")
        self.groupBoxMessageInfo = QGroupBox()
        self.groupBoxMessageInfo.setStyleSheet(
            "QGroupBox {border: 1px solid gray; border-radius: 9px; margin-top: 0.5em} QGroupBox::title {subcontrol-origin: margin; left: 10px; padding: 0 3px 0 3px;"
        )
        vbox = QVBoxLayout()
        vbox.addWidget(self.msgInfo)
        self.tableTime = QTableWidget(3, 2)
        self.tableTime.setHorizontalHeaderLabels(['-', 'time'])
        self.tableTime.setColumnWidth(0, 80)
        self.tableTime.setColumnWidth(1, 150)
        vwidth = self.tableTime.verticalHeader().length()
        hwidth = self.tableTime.horizontalHeader().height()
        fwidth = self.tableTime.frameWidth() * 2
        self.tableTime.setFixedHeight(vwidth + hwidth + fwidth)
        self.tableTime.horizontalHeader().setStretchLastSection(True)
        self.tableTime.setItem(0, 0, QTableWidgetItem('begin'))
        self.tableTime.setItem(0, 1, QTableWidgetItem(' - '))
        self.tableTime.setItem(1, 0, QTableWidgetItem('end'))
        self.tableTime.setItem(1, 1, QTableWidgetItem(' - '))
        self.tableTime.setItem(2, 0, QTableWidgetItem('duration'))
        self.tableTime.setItem(2, 1, QTableWidgetItem(' - '))
        vbox.addWidget(self.tableTime)

        self.titleArg = QLabel('Argument List')
        vbox.addWidget(self.titleArg)

        max_arg_num = 10
        self.tableArgs = QTableWidget(max_arg_num, 2)
        self.tableArgs.setHorizontalHeaderLabels(['type', 'value'])
        for idx in range(0, max_arg_num):
            self.tableArgs.setItem(idx, 0, QTableWidgetItem())
            self.tableArgs.setItem(idx, 1, QTableWidgetItem())
        self.tableArgs.horizontalHeader().setStretchLastSection(True)
        vbox.addWidget(self.tableArgs)

        self.titleArg = QLabel('Return Value List')
        vbox.addWidget(self.titleArg)

        max_ret_num = 4
        self.tableRet = QTableWidget(max_ret_num, 2)
        self.tableRet.setHorizontalHeaderLabels(['type', 'value'])
        for idx in range(0, max_ret_num):
            self.tableRet.setItem(idx, 0, QTableWidgetItem())
            self.tableRet.setItem(idx, 1, QTableWidgetItem())
        self.tableRet.horizontalHeader().setStretchLastSection(True)
        vwidth = self.tableRet.verticalHeader().length()
        hwidth = self.tableRet.horizontalHeader().height()
        fwidth = self.tableRet.frameWidth() * 2
        self.tableRet.setFixedHeight(vwidth + hwidth + fwidth)
        vbox.addWidget(self.tableRet)

        self.buttonSrcView = QPushButton('view code')
        self.buttonSrcView.setFixedWidth(200)
        self.buttonSrcView.clicked.connect(self.openSourceViewer)
        self.buttonHide = QPushButton('Hide')
        self.buttonHide.setFixedWidth(200)
        self.buttonHide.clicked.connect(self.notifyHide)
        self.buttonHideAllMsg = QPushButton('Hide All')
        self.buttonHideAllMsg.setFixedWidth(200)
        self.buttonHideAllMsg.clicked.connect(self.hideAllMsgNamedAsSelected)
        self.groupBoxMessageInfo.setLayout(vbox)
        self.checkHideCircular = QCheckBox('Hide Circular Messages')
        self.checkHideCircular.setCheckState(QtCore.Qt.Unchecked)
        self.checkHideCircular.stateChanged.connect(
            self.changeHideCircularMessage)
        self.addWidget(self.checkHideCircular)
        self.addWidget(self.groupBoxMessageInfo)
        self.groupBoxMessageInfo.setSizePolicy(self.sizePolicy)

    def reset(self):
        for idx in reversed(range(0, self.listThread.count())):
            self.listThread.takeItem(idx)

    def setMsgInfoMessage(self, msg):
        self.strMessage = msg

    def changeHideCircularMessage(self, state):
        if state == QtCore.Qt.Unchecked:
            self.diagramView.hideCircularChanged(False)
        elif state == QtCore.Qt.Checked:
            self.diagramView.hideCircularChanged(True)

    def setMsgInfoModule(self, module):
        self.strModule = module

    def updateSearchStatus(self, curr, number):
        self.searchCursor.setText("%d/%d" % (curr, number))

    def connectSourceViewer(self, viewer):
        self.srcViewer = viewer

    def openSourceViewer(self):
        self.srcViewer.openViewer(self.strModule, self.strMessage)

    def setMessageInfoTime(self, begin, end, duration):
        self.tableTime.item(0, 1).setText(begin)
        self.tableTime.item(1, 1).setText(end)
        self.tableTime.item(2, 1).setText(duration + ' msec')

    def setMessageInfoArg(self, listParam, listArg):
        # Clear the contents in the table
        max_arg_num = 10
        for idx in range(0, max_arg_num):
            self.tableArgs.item(idx, 0).setText('')
            self.tableArgs.item(idx, 1).setText('')

        if listArg:
            for idx, text in enumerate(listArg):
                self.tableArgs.item(idx, 1).setText(text)
            for idx, text in enumerate(listParam):
                self.tableArgs.item(idx, 0).setText(text)
        else:
            for idx in range(0, self.tableArgs.rowCount()):
                self.tableArgs.item(idx, 1).setText('')
                self.tableArgs.item(idx, 0).setText('')

    def setMessageInfoRet(self, listRet):
        if listRet:
            for idx, text in enumerate(listRet):
                self.tableRet.item(idx, 1).setText(text)
        else:
            for idx in range(0, self.tableRet.rowCount()):
                self.tableRet.item(idx, 1).setText('')
                self.tableRet.item(idx, 0).setText('')

    def notifyInteractiveStateChanged(self, state):
        if const.mode_interactive != self.mode:
            return

        if const.STATE_INTERACTIVE_CAPTURING == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Stop Capture')
        if const.STATE_INTERACTIVE_PROCESSING == state:
            self.buttonCapture.setEnabled(False)
        if const.STATE_INTERACTIVE_IDLE == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Capture')
        if const.STATE_INTERACTIVE_RESET == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Capture')
        elif const.STATE_INTERACTIVE_ACTIVE == state:
            self.buttonCapture.setEnabled(True)
            self.buttonCapture.setText('Capture')

    def setMessageInfo(self, info):
        self.msgInfo.setText(info)

    def setAvailable(self, threads):
        self.sig.emit(threads)

    def toggleThreadDisplay(self, item):
        print(self.listThread.currentRow())
        #if item.isSelected():
        #    print(item.text() + "  is selected")
        #else:
        #    print(item.text() + "  is not selected")
        self.diagramView.showThread(self.listThread.currentRow(),
                                    item.isSelected())

    def hideAllMsgNamedAsSelected(self):
        self.diagramView.hideAllMessageSelected()

    def addThreadList(self, threads):

        if not self.groupBoxThreadInfo:
            self.groupBoxThreadInfo = QGroupBox()
            self.threadInfo = QLabel("Thread Info.")
            self.groupBoxThreadInfo.setStyleSheet(
                "QGroupBox {border: 1px solid gray; border-radius: 9px; margin-top: 0.5em} QGroupBox::title {subcontrol-origin: margin; left: 10px; padding: 0 3px 0 3px;"
            )

        if not self.threadvbox:
            self.threadvbox = QVBoxLayout()

        if not self.listThread:
            self.listThread = QListWidget()

        self.listThread.setFixedWidth(200)
        self.listThread.setSelectionMode(QAbstractItemView.MultiSelection)
        QtCore.QObject.connect(self.listThread,
                               QtCore.SIGNAL("itemClicked(QListWidgetItem *)"),
                               self.toggleThreadDisplay)
        self.threadvbox.addWidget(self.threadInfo)
        self.threadvbox.addWidget(self.listThread)
        self.groupBoxThreadInfo.setLayout(self.threadvbox)
        self.addWidget(self.groupBoxThreadInfo)
        self.groupBoxThreadInfo.setSizePolicy(self.sizePolicy)

        for id in threads:
            item = QListWidgetItem(id)
            self.listThread.addItem(item)

    def connectController(self, controller):
        self.controller = controller
        self.connect(controller, QtCore.SIGNAL('setAvailable()'),
                     self.setAvailable)

    def connectDiagramView(self, view):
        self.diagramView = view

    def disconnectMsgRcv(self, receiver):
        print("Implement this method !!! disconnectMsgRcv")

    def connectMsgRcv(self, receiver):
        self.msgRcv.append(receiver)

    def notifyHide(self):
        for rcv in self.msgRcv:
            rcv.activateHide(True)

    def showHiddenLifelines(self):
        response, selected_items = HiddenDialog.HiddenDialog.getSelectedItems(
            self.diagramView.getHiddenLifeLines())
        if response:
            self.diagramView.showLifelines(selected_items)

    def showHiddenMessages(self):
        response, selected_items = HiddenMessageDialog.HiddenMessageDialog.getSelectedItems(
            self.diagramView.getHiddenMessages(),
            self.diagramView.getHiddenLifeLines())
        if response:
            if selected_items[3] in self.diagramView.getHiddenLifeLines():
                confirmation = ShowLifeLineDialog.ShowLifeLineDialog.confirmToShowLifeLine(
                    selected_items[3])
                if confirmation:
                    self.diagramView.showLifelines([selected_items[3]])
                    self.diagramView.showMessages(selected_items)
            else:
                self.diagramView.showMessages(selected_items)

    def notifyCapture(self):
        for rcv in self.msgRcv:
            rcv.activateCapture(True)

    def moveToPrev(self):
        for rcv in self.msgRcv:
            rcv.moveToPrev()

    def moveToNext(self):
        for rcv in self.msgRcv:
            rcv.moveToNext()

    def searchMsg(self):
        str = self.editTextSearch.toPlainText()
        for rcv in self.msgRcv:
            rcv.searchMessage(str)
コード例 #28
0
class AreaSelectTool(QWidget):
    ''' Select areas of your screen '''
    def __init__(self, screen_size, pixel_ratio):
        super(AreaSelectTool, self).__init__()

        # account for high-dpi screens
        self.screen_size = screen_size
        self.pixel_ratio = pixel_ratio

        # keep track of area(s) selected
        self.selected_areas = []
        # TODO add method to detect screen size...
        screen = {
            "top": 0,
            "left": 0,
            "width": screen_size.width(),
            "height": screen_size.height()
        }
        self.camera = Camera(screen, pixel_ratio)

        # ---------- Setup GUI ----------

        self.layout = QVBoxLayout(self)
        # camera controls
        self.camera_button = QPushButton("Start Camera")
        self.camera_button.clicked.connect(self.toggle_camera)
        # setup widget for selecting areas of the screen
        self.area_edit_widget = AreaEditWidget()
        self._make_connection(self.area_edit_widget)
        # button to add / remove a specific area
        self.edit_area_button = QPushButton("Add / Remove Areas")
        self.edit_area_button.clicked.connect(self.edit_area)
        # checkbox to show / hide selected areas
        self.show_selected_areas = QCheckBox("Show Selected Areas")
        self.show_selected_areas.setCheckState(Qt.CheckState.Checked)
        self.show_selected_areas.stateChanged.connect(
            self.toggle_selected_areas)
        # save the selected areas to a file
        self.save_button = QPushButton("Save and Exit")
        self.save_button.clicked.connect(self.save)
        # reset selected areas
        self.reset_button = QPushButton("Reset")
        self.reset_button.clicked.connect(self.reset)
        # add all ui elements to layout
        self.layout.addWidget(self.camera_button)
        self.layout.addWidget(self.edit_area_button)
        self.layout.addWidget(self.show_selected_areas)
        self.layout.addWidget(self.reset_button)
        self.layout.addWidget(self.save_button)

    def _make_connection(self, ssw_object):
        # connect the buttons to AreaEditWidgets signals
        ssw_object.areaSelected.connect(self.area_selected)
        ssw_object.areaRemoved.connect(self.area_removed)

    def edit_area(self):
        self.hide()
        self.area_edit_widget.resize(self.screen_size.width(),
                                     self.screen_size.height())
        self.area_edit_widget.show()

    def toggle_camera(self):
        # update the list of areas to segment
        self.camera.rects_to_segment = []
        for area in self.selected_areas:
            self.camera.rects_to_segment.append(area.geometry())
        # show / hide selected areas
        self.toggle_selected_areas()
        # start / stop the camera
        if not self.camera._running:
            self.camera.start()
            self.camera_button.setText("Stop Camera")
        else:
            self.camera.terminate()
            self.camera_button.setText("Start Camera")

    @Slot(QRect)
    def area_selected(self, rect):
        self.area_edit_widget.hide()
        # add the selected area
        # new_area = HeadsUpWidget(opacity=0.5)
        new_area = HeadsUpWidget()
        new_area.setGeometry(rect)
        new_area.randomize_color()
        new_area.show()
        # add the new area to the list
        self.selected_areas.append(new_area)
        self.show()

    @Slot(QPoint)
    def area_removed(self, pos):
        self.area_edit_widget.hide()
        # remove the area that was clicked on
        for i, a in enumerate(self.selected_areas):
            if a.geometry().contains(pos):
                a.close()
                del self.selected_areas[i]

        self.show()

    def toggle_selected_areas(self):
        for area in self.selected_areas:
            if not area.isHidden():
                area.hide()
            else:
                area.show()

    def reset(self):
        '''remove all selected areas'''
        for area in self.selected_areas:
            area.close()

        del self.selected_areas
        self.selected_areas = []

    def save(self):
        '''Save the selected areas to a json file and quit the app'''
        outdict = {
            i: [
                a.geometry().x(),
                a.geometry().y(),
                a.geometry().width(),
                a.geometry().height()
            ]
            for i, a in enumerate(self.selected_areas)
        }
        # FIXME switch to something else like pickle
        with open('rects.json', 'w') as outfile:
            json.dump(outdict, outfile)

        app.exit()
コード例 #29
0
class LayerManager(QWidget):
    """ Class to manage the layers of a viewer. Allow to change the order of layers by drag and drop.
    """
    def __init__(self, viewer):
        super(LayerManager, self).__init__()

        self.selected_layer = None

        self.viewer = viewer
        self.layers = dict()

        self.layer_widget = Layers(self.viewer)
        self.alpha_slider = QSlider(QtCore.Qt.Horizontal)
        self.checkbox_enable = QCheckBox()
        self.alpha_label = QLabel(f"Select Layer to change Opacity")
        self.enable_label = QLabel(f"Select Layer to enable/disable")

        layout = QGridLayout()
        layout.addWidget(self.layer_widget, 0, 0, 1, 1)
        layout.addWidget(self.alpha_label, 1, 0, 1, 1)
        layout.addWidget(self.alpha_slider, 2, 0, 1, 1)
        layout.addWidget(self.enable_label, 3, 0, 1, 1)
        layout.addWidget(self.checkbox_enable, 4, 0, 1, 1)
        self.setLayout(layout)

        self.layer_widget.itemClicked.connect(self.select_layer)
        self.checkbox_enable.stateChanged.connect(self.checkbox_changed)
        self.alpha_slider.valueChanged.connect(self.slider_changed)
        self.alpha_slider.setValue(99)

    def add_layer(self, layer, name, state=True):
        """ Add new layer to be managed.

        Args:
            layer (Object): object that implements a draw function.
            name (str): String which is the name of the layer.
        """
        self.layers[name] = {"layer": layer, "alpha": 1, "state": state}

        self.layer_widget.addItem(name)

    def get_layers(self):
        """ Get list of layers representing the order of the LayerManager in the UI.

        Returns:
            [Objects]: objects which implement a draw function
        """
        names = [
            self.layer_widget.item(i).data(0)
            for i in range(self.layer_widget.count())
        ]
        result = [(self.layers[name]["layer"], self.layers[name]["alpha"])
                  for name in names if self.layers[name]["state"]]
        return result

    def select_layer(self, item):
        """ Select a layer to change opacity.

        Args:
            item: item of the list
        """
        name = item.data(0)
        self.selected_layer = name
        self.alpha_label.setText(f"Opacity ({self.selected_layer}):")
        self.enable_label.setText(f"Enable/Disable ({self.selected_layer}):")

        # set slider to current value
        value = self.layers[name]["alpha"]
        value = value * 100 - 1
        self.alpha_slider.setValue(value)

        # set checkbox
        state = self.layers[name]["state"]
        if state:
            self.checkbox_enable.setCheckState(Qt.Checked)
        else:
            self.checkbox_enable.setCheckState(Qt.Unchecked)

    def slider_changed(self, value):
        """ Callback when the opacity slider was moved.

        Args:
            value (int): slider value 0-99
        """
        value = (value + 1) / 100
        if self.selected_layer in self.layers:
            self.layers[self.selected_layer]["alpha"] = value
        self.viewer.update()

    def checkbox_changed(self):
        """ Callback when the Checkbox is changed. The layer is (not) drawn anymore.
        """
        if self.selected_layer in self.layers:
            if self.checkbox_enable.isChecked():
                self.layers[self.selected_layer]["state"] = True
            else:
                self.layers[self.selected_layer]["state"] = False
            self.viewer.update()
コード例 #30
0
ファイル: export.py プロジェクト: theqa0/Facepager
class ExportFileDialog(QFileDialog):
    """
    Create a custom Export-File Dialog with options like BOM etc.
    """
    def __init__(self, *args, **kwargs):
        super(ExportFileDialog, self).__init__(*args, **kwargs)

        self.mainWindow = self.parent()
        self.setWindowTitle("Export nodes to CSV")
        self.setAcceptMode(QFileDialog.AcceptSave)
        self.setOption(QFileDialog.DontUseNativeDialog)
        #self.setFilter("CSV Files (*.csv)")
        self.setDefaultSuffix("csv")

        self.optionBOM = QCheckBox("Use a BOM", self)
        self.optionBOM.setCheckState(Qt.CheckState.Checked)

        self.optionLinebreaks = QCheckBox("Remove line breaks", self)
        self.optionLinebreaks.setCheckState(Qt.CheckState.Checked)

        self.optionSeparator = QComboBox(self)
        self.optionSeparator.insertItems(0, [";", "\\t", ","])
        self.optionSeparator.setEditable(True)

        #self.optionLinebreaks.setCheckState(Qt.CheckState.Checked)

        self.optionWide = QCheckBox(
            "Convert to wide format (experimental feature)", self)
        self.optionWide.setCheckState(Qt.CheckState.Unchecked)

        # if none or all are selected, export all
        # if one or more are selected, export selective
        self.optionAll = QComboBox(self)
        self.optionAll.insertItems(0, [
            'All nodes (faster for large datasets, ordered by internal ID)',
            'Selected nodes (ordered like shown in nodes view)'
        ])
        if self.mainWindow.tree.noneOrAllSelected():
            self.optionAll.setCurrentIndex(0)
        else:
            self.optionAll.setCurrentIndex(1)

        layout = self.layout()
        row = layout.rowCount()
        layout.addWidget(QLabel('Options'), row, 0)

        options = QHBoxLayout()
        options.addWidget(self.optionBOM)
        options.addWidget(self.optionLinebreaks)
        options.addWidget(QLabel('Separator'))
        options.addWidget(self.optionSeparator)
        options.addStretch(1)

        layout.addLayout(options, row, 1, 1, 2)

        layout.addWidget(QLabel('Post processing'), row + 1, 0)
        layout.addWidget(self.optionWide, row + 1, 1, 1, 2)

        layout.addWidget(QLabel('Export mode'), row + 2, 0)
        layout.addWidget(self.optionAll, row + 2, 1, 1, 2)
        self.setLayout(layout)

        if self.exec_():

            if os.path.isfile(self.selectedFiles()[0]):
                os.remove(self.selectedFiles()[0])
            output = open(self.selectedFiles()[0],
                          'w',
                          newline='',
                          encoding='utf8')
            if self.optionBOM.isChecked() and not self.optionWide.isChecked():
                output.write('\ufeff')

            try:
                if self.optionAll.currentIndex() == 0:
                    self.exportAllNodes(output)
                else:
                    self.exportSelectedNodes(output)
            finally:
                output.close()

            if self.optionWide.isChecked():
                self.convertToWideFormat(self.selectedFiles()[0])

    def exportSelectedNodes(self, output):
        progress = ProgressBar("Exporting data...", self.mainWindow)

        #indexes = self.mainWindow.tree.selectionModel().selectedRows()
        #if child nodes should be exported as well, uncomment this line an comment the previous one
        indexes = self.mainWindow.tree.selectedIndexesAndChildren()
        indexes = list(indexes)
        progress.setMaximum(len(indexes))

        try:
            delimiter = self.optionSeparator.currentText()
            delimiter = delimiter.encode('utf-8').decode('unicode_escape')
            writer = csv.writer(output,
                                delimiter=delimiter,
                                quotechar='"',
                                quoting=csv.QUOTE_ALL,
                                doublequote=True,
                                lineterminator='\r\n')

            #headers
            row = [
                str(val)
                for val in self.mainWindow.tree.treemodel.getRowHeader()
            ]
            if self.optionLinebreaks.isChecked():
                row = [
                    val.replace('\n', ' ').replace('\r', ' ') for val in row
                ]

            writer.writerow(row)

            #rows
            for no in range(len(indexes)):
                if progress.wasCanceled:
                    break

                row = [
                    str(val) for val in
                    self.mainWindow.tree.treemodel.getRowData(indexes[no])
                ]
                if self.optionLinebreaks.isChecked():
                    row = [
                        val.replace('\n', ' ').replace('\r', ' ')
                        for val in row
                    ]

                writer.writerow(row)

                progress.step()

        finally:
            progress.close()

    def exportAllNodes(self, output):
        progress = ProgressBar("Exporting data...", self.mainWindow)
        progress.setMaximum(Node.query.count())

        try:
            delimiter = self.optionSeparator.currentText()
            delimiter = delimiter.encode('utf-8').decode('unicode_escape')
            writer = csv.writer(output,
                                delimiter=delimiter,
                                quotechar='"',
                                quoting=csv.QUOTE_ALL,
                                doublequote=True,
                                lineterminator='\r\n')

            #headers
            row = [
                "level", "id", "parent_id", "object_id", "object_type",
                "query_status", "query_time", "query_type"
            ]
            for key in self.mainWindow.tree.treemodel.customcolumns:
                row.append(key)
            if self.optionLinebreaks.isChecked():
                row = [
                    val.replace('\n', ' ').replace('\r', ' ') for val in row
                ]

            writer.writerow(row)

            #rows
            page = 0

            while True:
                allnodes = Node.query.offset(page * 5000).limit(5000)
                if allnodes.count() == 0:
                    break
                for node in allnodes:
                    if progress.wasCanceled:
                        break
                    row = [
                        node.level, node.id, node.parent_id, node.objectid,
                        node.objecttype, node.querystatus, node.querytime,
                        node.querytype
                    ]
                    for key in self.mainWindow.tree.treemodel.customcolumns:
                        row.append(node.getResponseValue(key))

                    if self.optionLinebreaks.isChecked():
                        row = [
                            str(val).replace('\n', ' ').replace('\r', ' ')
                            for val in row
                        ]

                    writer.writerow(row)
                    # step the Bar
                    progress.step()
                if progress.wasCanceled:
                    break
                else:
                    page += 1

        finally:
            progress.close()

    def convertToWideFormat(self, filename):
        progress = ProgressBar("Converting data...", self.mainWindow)
        try:
            #Separate levels
            def flattenTable(fulltable, levelcol, idcol, parentidcol,
                             countchildren, removeempty):
                fulltable[[levelcol]] = fulltable[[levelcol]].astype(int)

                levels = dict(list(fulltable.groupby(levelcol)))
                minlevel = fulltable.level.min()
                for level, data in sorted(levels.items()):
                    #First level is the starting point for the following merges
                    if level == minlevel:
                        #data = data[[idcol,'object_id','object_type']]
                        data = data.add_prefix('level_{}-'.format(level))
                        flattable = data
                    else:
                        #Aggregate object types and join them
                        for col_countchildren in countchildren:
                            children = data[parentidcol].groupby(
                                [data[parentidcol],
                                 data[col_countchildren]]).count()
                            children = children.unstack(col_countchildren)
                            children['total'] = children.sum(axis=1)
                            children = children.add_prefix(
                                'level_{}-children-{}-'.format(
                                    level - 1, col_countchildren))

                            leftkey = 'level_{}-id'.format(level - 1)
                            flattable = merge(flattable,
                                              children,
                                              how='left',
                                              left_on=leftkey,
                                              right_index=True)
                            flattable[children.columns.values.tolist(
                            )] = flattable[children.columns.values.tolist(
                            )].fillna(0).astype(int)

                        #Join data
                        data['childnumber'] = data.groupby(
                            parentidcol).cumcount()
                        leftkey = 'level_{}-{}'.format(level - 1, idcol)
                        rightkey = 'level_{}-{}'.format(level, parentidcol)
                        data = data.drop([levelcol], axis=1)
                        data = data.add_prefix('level_{}-'.format(level))
                        flattable = merge(flattable,
                                          data,
                                          how="outer",
                                          left_on=leftkey,
                                          right_on=rightkey)

                if removeempty:
                    flattable = flattable.dropna(axis=1, how='all')
                return flattable

            try:
                #delimiter
                delimiter = self.optionSeparator.currentText()
                delimiter = delimiter.encode('utf-8').decode('unicode_escape')

                #open
                data = read_csv(filename,
                                sep=delimiter,
                                encoding='utf-8',
                                dtype=str)

                #convert
                newdata = flattenTable(
                    data, 'level', 'id', 'parent_id',
                    ['object_type', 'query_status', 'query_type'], False)

                #save
                outfile = open(filename, 'w', newline='', encoding='utf8')
                try:
                    if self.optionBOM.isChecked():
                        outfile.write('\ufeff')  #UTF8 BOM
                    newdata.to_csv(outfile,
                                   sep=delimiter,
                                   index=False,
                                   encoding="utf-8")
                finally:
                    outfile.close()
            except Exception as e:
                self.mainWindow.logmessage(e)
        finally:
            progress.close()
コード例 #31
0
class SerialDeviceGui(QWidget):
    def __init__(self, gui_parent, name="Default"):
        super().__init__()
        self.name = name
        self.serial = None
        self.gui_parent = gui_parent

        self.layout = QGridLayout()
        self._setup()
        self.setLayout(self.layout)

    def remove(self):
        self.gui_parent.remove_device(self)

    def read(self):
        if self.serial:
            if self.serial.in_waiting > 0:
                return self.serial.read(self.serial.in_waiting).decode(
                    self.encoding, errors='ignore')

    def write(self, bytes):
        if self.serial:
            self.serial.write(bytes)

    def apply(self):
        self.name = self.name_entry.text()
        self.gui_parent.update_device_list()
        if self.baudrate_entry_checkbox.isChecked():
            baudrate = int(self.baudrate_entry_standard.currentText())
        else:
            baudrate = self.baudrate_entry_manual.value()
        if self.location_entry_checkbox.isChecked():
            location = self.location_entry_existing.currentText().split()[0]
        else:
            location = self.location_entry_manual.text()
        stopbits = int(self.stopbits_entry.currentText())
        self.encoding = self.encoding_entry.currentText()
        if self.serial:
            self.serial.close()
        self.serial = serial.Serial(location, baudrate, stopbits=stopbits)

    def update_locations(self):
        devices = list_ports.comports(True)
        devices = [str(d) for d in devices]
        self.location_entry_existing.clear()
        self.location_entry_existing.addItems(devices)

    def update_location_existing(self):
        if self.location_entry_checkbox.isChecked():
            self.location_entry.setCurrentWidget(self.location_entry_existing)
        else:
            self.location_entry_manual.setText(
                self.location_entry_existing.currentText())
            self.location_entry.setCurrentWidget(self.location_entry_manual)

    def update_baudrate_standard(self):
        if self.baudrate_entry_checkbox.isChecked():
            self.baudrate_entry.setCurrentWidget(self.baudrate_entry_standard)
        else:
            self.baudrate_entry_manual.setValue(
                int(self.baudrate_entry_standard.currentText()))
            self.baudrate_entry.setCurrentWidget(self.baudrate_entry_manual)

    def _setup(self):
        self.name_entry = QLineEdit()
        self.name_entry.setText(self.name)

        self.location_entry = QStackedWidget()
        self.location_entry.setFixedHeight(25)  # FIXME: set policy not size
        self.location_entry_existing = QComboBox()
        self.location_entry_manual = QLineEdit()
        self.location_entry.addWidget(self.location_entry_existing)
        self.location_entry.addWidget(self.location_entry_manual)
        self.location_entry_checkbox = QCheckBox("Existing")
        self.location_entry_checkbox.setCheckState(Qt.Checked)
        self.location_entry_checkbox.stateChanged.connect(
            self.update_location_existing)
        location_entry_refresh = QPushButton("Refresh")
        location_entry_refresh.clicked.connect(self.update_locations)

        self.baudrate_entry = QStackedWidget()
        self.baudrate_entry.setFixedHeight(25)  # FIXME: set policy not size
        self.baudrate_entry_standard = QComboBox()
        self.baudrate_entry_manual = QSpinBox()
        self.baudrate_entry_manual.setRange(0, 16000000)
        self.baudrate_entry.addWidget(self.baudrate_entry_standard)
        self.baudrate_entry.addWidget(self.baudrate_entry_manual)
        self.baudrate_entry_standard.addItems(
            [str(s) for s in STANDARD_BAUDRATES])
        self.baudrate_entry_checkbox = QCheckBox("Standard Rate")
        self.baudrate_entry_checkbox.setCheckState(Qt.Checked)
        self.baudrate_entry_checkbox.stateChanged.connect(
            self.update_baudrate_standard)

        self.encoding_entry = QComboBox()
        self.encoding_entry.addItems(ENCODINGS)

        self.stopbits_entry = QComboBox()
        self.stopbits_entry.addItems([str(s) for s in STOPBITS])

        apply_button = QPushButton("Apply")
        apply_button.clicked.connect(self.apply)

        remove_button = QPushButton("Remove")
        remove_button.clicked.connect(self.remove)

        n = 0
        self.layout.addWidget(QLabel("name:"), n, 0, 1, 1)
        self.layout.addWidget(self.name_entry, n, 1, 1, -1)
        n += 1
        self.layout.addWidget(QLabel("location:"), n, 0, 1, 1)
        self.layout.addWidget(self.location_entry, n, 1, 1, 1)
        self.layout.addWidget(self.location_entry_checkbox, n, 2, 1, 1)
        self.layout.addWidget(location_entry_refresh, n, 3, 1, 1)
        n += 1
        self.layout.addWidget(QLabel("baudrate:"), n, 0, 1, 1)
        self.layout.addWidget(self.baudrate_entry, n, 1, 1, 1)
        self.layout.addWidget(self.baudrate_entry_checkbox, n, 2, 1, -1)
        n += 1
        self.layout.addWidget(QLabel("encoding:"), n, 0, 1, 1)
        self.layout.addWidget(self.encoding_entry, n, 1, 1, -1)
        n += 1
        self.layout.addWidget(QLabel("stopbits:"), n, 0, 1, 1)
        self.layout.addWidget(self.stopbits_entry, n, 1, 1, -1)
        n += 1
        self.layout.addWidget(apply_button, n, 0, 1, -1)
        n += 1
        self.layout.addWidget(remove_button, n, 0, 1, -1)
        n += 1
        self.layout.addWidget(QLabel(), n, 0, -1, -1)

        self.update_baudrate_standard()
        self.update_location_existing()
コード例 #32
0
    def searchPeople(self):
        value = self.searchPeopleEntry.text()
        if value == "":
            QMessageBox.information(self, "Warning",
                                    "Search string cannot be empty")
            self.funcDisplayPeople()
        else:
            # Erase search entry
            self.searchPeopleEntry.setText("")
            try:
                query = "SELECT * FROM people WHERE " \
                        "person_id LIKE ? " \
                        "OR person_first_name LIKE ?" \
                        "OR person_last_name LIKE ?" \
                        "OR person_title LIKE ?" \
                        "OR person_phone LIKE ?" \
                        "OR person_email LIKE ?" \
                        "OR person_location LIKE ?" \
                        "OR person_empl_type LIKE ?"
                results = db.cur.execute(query, (
                    '%' + value + '%',
                    '%' + value + '%',
                    '%' + value + '%',
                    '%' + value + '%',
                    '%' + value + '%',
                    '%' + value + '%',
                    '%' + value + '%',
                    '%' + value + '%',
                )).fetchall()
                if results == []:
                    QMessageBox.information(self, "Info", "Nothing was found")
                    self.displayPeople()
                else:
                    for i in reversed(range(self.peopleTable.rowCount())):
                        self.peopleTable.removeRow(i)

                    for row_data in results:
                        row_number = self.peopleTable.rowCount()
                        self.peopleTable.insertRow(row_number)
                        # Add checkboxes to the table
                        qwidget = QWidget()
                        checkbox = QCheckBox()
                        checkbox.setCheckState(Qt.Unchecked)
                        qhboxlayout = QHBoxLayout(qwidget)
                        qhboxlayout.addWidget(checkbox)
                        qhboxlayout.setAlignment(Qt.AlignCenter)
                        self.peopleTable.setCellWidget(row_number, 0, qwidget)
                        self.peopleTable.setItem(row_number, 0,
                                                 QTableWidgetItem(row_number))
                        # Add photo photos_thumbnails to the table
                        thumbWidget = QWidget()
                        pic = QPixmap(
                            "assets/media/people-media/photos_thumbnails/01Aug2020_18h01mtrtgzteuzuspxrp_thumbnail.png"
                        )
                        thumbLabel = QLabel()
                        thumbLabel.setPixmap(pic)
                        thumbLayout = QHBoxLayout(thumbWidget)
                        thumbLayout.addWidget(thumbLabel)
                        self.peopleTable.setCellWidget(row_number, 1,
                                                       thumbWidget)
                        self.peopleTable.setItem(row_number, 0,
                                                 QTableWidgetItem(row_number))

                        for column_number, data in enumerate(row_data,
                                                             start=2):
                            if column_number == 2:
                                self.peopleTable.setItem(
                                    row_number, column_number,
                                    QTableWidgetItem("PRN#" + str(data)))
                            else:
                                self.peopleTable.setItem(
                                    row_number, column_number,
                                    QTableWidgetItem(str(data)))
            except:
                QMessageBox.information(self, "Info", "Cannot access database")
コード例 #33
0
class MemDumpWindow(QWidget):

    kill_signal = Signal(bool)

    def __init__(self, qmp, base=0, max=constants['block_size']):
        super().__init__()

        self.flag = False
        self.threshold = 2048 # number of resident bytes

        self.qmp = qmp
        self.init_ui()

        self.baseAddress = base
        self.maxAddress = self.baseAddress

        self.delta = 4 # adds a small buffer area for scrolling action to happen

        self.sem = QSemaphore(1) # semaphore for controlling access to the enabling / disabling of the scroll listening
        self.pos = self.chr_display.verticalScrollBar().value()

        self.highlight_sem = QSemaphore(1) # semaphore for controlling access to highlighting state
        self.is_highlighted = False
        self.highlight_addr = 0

        self.endian = Endian.little
        self.endian_sem = QSemaphore(1)

        self.hash = randint(0, 0xfffffffffffffff)

        icon = QIcon('package/icons/nasa.png')
        self.setWindowIcon(icon)

        self.max_size = 0xfffffffffffffff

        self.qmp.pmem.connect(self.update_text)
        self.grab_data(val=self.baseAddress, size=min(max, constants['block_size'] + base)-self.baseAddress)

        self.t = MyThread(self)
        self.t.timing_signal.connect(lambda:self.grab_data(val=self.baseAddress, size=self.maxAddress-self.baseAddress, grouping=self.grouping.currentText(), refresh=True))
        self.qmp.stateChanged.connect(self.t.halt)
        self.t.running = self.qmp.running
        self.t.start()

        self.show()
        

    def init_ui(self):   
        self.hbox = QHBoxLayout() # holds widgets for refresh button, desired address, and size to grab
        self.vbox = QVBoxLayout() # main container
        self.lower_hbox = QSplitter() # holds memory views
        self.lower_container = QHBoxLayout() # holds  lower_hbox and the endian_vbox
        self.endian_vbox = QVBoxLayout()

        self.hbox.addWidget(QLabel('Address:'))
        self.address = QLineEdit()
        self.hbox.addWidget(self.address)

        self.hbox.addWidget(QLabel('Size:'))
        self.size = QLineEdit()
        self.hbox.addWidget(self.size)

        self.hbox.addWidget(QLabel('Grouping:'))
        self.grouping = QComboBox()
        self.grouping.addItems(['1','2','4','8'])
        self.hbox.addWidget(self.grouping)

        self.search = QPushButton('Search')
        self.search.clicked.connect(lambda:self.find(self.address.text(), constants['block_size']))
        self.hbox.addWidget(self.search)

        self.refresh = QPushButton('Refresh')
        self.refresh.clicked.connect(lambda:self.grab_data(val=self.address.text(), size=self.size.text(), grouping=self.grouping.currentText(), refresh=True))
        self.hbox.addWidget(self.refresh)

        self.save = QPushButton('Save')
        self.save.clicked.connect(lambda: self.save_to_file())
        self.disable_save(self.qmp.running)
        self.qmp.stateChanged.connect(self.disable_save)
        self.hbox.addWidget(self.save)

        self.auto_refresh = QCheckBox('Auto Refresh')
        self.auto_refresh.setCheckState(Qt.CheckState.Checked)
        self.auto_refresh.stateChanged.connect(self.auto_refresh_check)
        self.hbox.addWidget(self.auto_refresh)

        self.vbox.addLayout(self.hbox)
        
        # textbox for addresses
        self.addresses = QTextEdit()
        self.addresses.setReadOnly(True)
        self.addresses.setVerticalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
        self.addresses.setLineWrapMode(QTextEdit.NoWrap)
        self.addresses.setCurrentFont(QFont('Courier New'))
        self.addresses.setGeometry(0,0,150,500)
        self.lower_hbox.addWidget(self.addresses)

        # textbox for hex display of memory
        self.mem_display = QTextEdit()
        self.mem_display.setReadOnly(True)
        self.mem_display.setVerticalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
        self.mem_display.setLineWrapMode(QTextEdit.NoWrap)
        self.mem_display.setCurrentFont(QFont('Courier New'))
        self.mem_display.setGeometry(0,0,600,500)
        self.lower_hbox.addWidget(self.mem_display)
        
        # textbox for char display of memory
        self.chr_display = QTextEdit()
        self.chr_display.setReadOnly(True)
        self.chr_display.setVerticalScrollBarPolicy(Qt.ScrollBarAlwaysOn)
        self.chr_display.setLineWrapMode(QTextEdit.NoWrap)
        self.chr_display.setCurrentFont(QFont('Courier New'))
        self.mem_display.setGeometry(0,0,400,500)
        self.lower_hbox.addWidget(self.chr_display)

        self.lower_container.addWidget(self.lower_hbox)

        self.mem_display.verticalScrollBar().valueChanged.connect(self.addresses.verticalScrollBar().setValue) #synchronizes addresses's scroll bar to mem_display's 
        self.addresses.verticalScrollBar().valueChanged.connect(self.mem_display.verticalScrollBar().setValue) #synchronizes mem_display's scroll to addresses's, allowing for searching for addresses to scrol mem_display to the desired point 
        self.chr_display.verticalScrollBar().valueChanged.connect(self.mem_display.verticalScrollBar().setValue)  
        self.mem_display.verticalScrollBar().valueChanged.connect(self.chr_display.verticalScrollBar().setValue)  

        self.chr_display.verticalScrollBar().valueChanged.connect(self.handle_scroll) # allows us to do scrolling

        # setting up endiannes selection buttons
        self.little = QRadioButton("Little Endian")
        self.little.click()
        self.little.clicked.connect(lambda:self.change_endian(Endian.little))
        self.big = QRadioButton("Big Endian")
        self.big.clicked.connect(lambda:self.change_endian(Endian.big))
        self.endian_vbox.addWidget(self.little)
        self.endian_vbox.addWidget(self.big)
        self.endian_vbox.addSpacing(400)

        self.lower_container.addLayout(self.endian_vbox)

        self.vbox.addLayout(self.lower_container)
        self.vbox.setSpacing(10)
        self.setLayout(self.vbox)
        self.setWindowTitle("Memory Dump")
        self.setGeometry(100, 100, 1550, 500)

    def disable_save(self, val):
        self.save.setEnabled(not val)

    def save_to_file(self):
        try:
            filename = QFileDialog().getSaveFileName(self, 'Save', '.', options=QFileDialog.DontUseNativeDialog)
        except Exception as e:
            return

        if filename[0] == '':
            return

        args = {
            'val': self.baseAddress,
            'size': self.maxAddress - self.baseAddress,
            'filename': filename[0]
        }

        self.qmp.command('pmemsave', args=args)
        



    def auto_refresh_check(self, value):
        if self.auto_refresh.checkState() == Qt.CheckState.Checked and not self.t.isRunning():
            self.t = MyThread(self)
            self.t.timing_signal.connect(lambda:self.grab_data(val=self.baseAddress, size=self.maxAddress-self.baseAddress, grouping=self.grouping.currentText(), refresh=True))
            self.t.start()
        elif self.auto_refresh.checkState() == Qt.CheckState.Unchecked:
            self.kill_signal.emit(True)


    def closeEvent(self, event):
        self.kill_signal.emit(True)
        self.qmp.pmem.disconnect(self.update_text)
        while True:
            if self.sem.tryAcquire(1, 1):
                break
            self.sem.release(10)
        event.accept()


    def update_text(self, value):
        if not value or value['hash'] != self.hash: # semaphore must be held before entering this function
            return
        byte = value['vals']
        if self.refresh:
            self.clear_highlight()
            self.addresses.clear()  # clearing to refresh data, other regions will be refilled through scrolling
            self.mem_display.clear()
            self.chr_display.clear()
            
        s = [''] * ceil((len(byte) / (16))) # hex representation of memory
        addresses =  '' # addresses
        count = self.baseAddress # keeps track of each 16 addresses
        if self.pos == self.max:  # scrolling down
            count = self.maxAddress 

        self.maxAddress = max(count + (len(byte)), self.maxAddress)
 

        first = True
        chars = [''] * len(s) # char represenation of memory
        index = 0
        self.endian_sem.acquire()
        nums = ''
        for tup in byte:
            b = tup['val']
            if count % 16 == 0:
                if first:
                    addresses += f'0x{count:08x}' 
                    first = False
                else:
                    addresses += f'\n0x{count:08x}' 

                    index += 1
            count += 1
             
            if self.endian == Endian.big:
                if tup['ismapped']:
                    nums = f'{b:02x}' + nums
                    chars[index] += f'{char_convert(b):3}'
                else:
                    nums = '**' + nums
                    chars[index] += f'{".":3}'

            elif self.endian == Endian.little:  
                if tup['ismapped']:     
                    nums += f'{b:02x}'      
                    chars[index] = f'{char_convert(b):3}' + chars[index]
                else:
                    nums = '**' + nums
                    chars[index] = f'{".":3}' + chars[index]

            if count % self.group == 0:
                if self.endian == Endian.big:
                    s[index] += nums + ' '
                elif self.endian == Endian.little:
                     s[index] = nums + ' ' + s[index]
                nums = ''
                #print(f'"{s[index]}"')
        self.endian_sem.release()

        s = '\n'.join(s)
        chars = '\n'.join(chars)

        scroll_goto = self.pos

        if self.pos > self.max - self.delta:  # scrolling down
            self.addresses.append(addresses)
            self.mem_display.append(s)
            self.chr_display.append(chars)
            if self.flag:
                self.flag = False
                scroll_goto = (1 - constants['block_size'] / self.threshold) * self.max
            else:
                scroll_goto = self.max

        elif self.pos < self.min + self.delta:    # scrolling  up
            addr_cur = self.addresses.textCursor()
            mem_cur = self.mem_display.textCursor()
            chr_cur = self.chr_display.textCursor()

            addr_cur.setPosition(0)
            mem_cur.setPosition(0)
            chr_cur.setPosition(0)

            self.addresses.setTextCursor(addr_cur)
            self.mem_display.setTextCursor(mem_cur)
            self.chr_display.setTextCursor(chr_cur)

            self.addresses.insertPlainText(addresses + '\n')
            self.mem_display.insertPlainText(s + '\n')
            self.chr_display.insertPlainText(chars + '\n')
            
            if self.flag:
                self.flag = False
                scroll_goto = (constants['block_size'] / self.threshold) * self.max
            else:
                scroll_goto = self.chr_display.verticalScrollBar().maximum() - self.max

        else:
            self.addresses.setPlainText(addresses)
            self.mem_display.setPlainText(s)
            self.chr_display.setPlainText(chars)

        self.highlight_sem.acquire()
        if self.is_highlighted:
            self.highlight_sem.release()
            self.highlight(self.highlight_addr, self.group)
        else:
            self.highlight_sem.release()

        self.chr_display.verticalScrollBar().setValue(scroll_goto)
        self.chr_display.verticalScrollBar().valueChanged.connect(self.handle_scroll)
        self.sem.release()


    def grab_data(self, val=0, size=constants['block_size'], grouping=1, refresh=False):       
        if val == None:
            val = 0
        if size == None:
            size = 1024

        if type(val) == str:
            try:
                val = int(val, 0)
            except Exception:
                val = 0
        
        if type(size) == str:
            try:
                size = int(size, 0)
            except Exception:
                size = constants['block_size']

        if type(grouping) == str:
            try:
                grouping = int(grouping, 0)
            except:
                grouping = 1

        if grouping not in [1, 2, 4, 8]:
            grouping = 1

        if val < 0:
            val = 0
        if val >= self.max_size:
            return
        if size < 0:
            size = constants['block_size']
        if size > self.threshold:
            size = self.threshold
        

        self.sem.acquire()

        val = val - (val % 16)
        if val < self.baseAddress or refresh:
            self.baseAddress = val
        if size % 16 != 0:
            size = size + (16 - (size % 16))
        if val + size > self.max_size:
            size = self.max_size - val
        
        try:
            self.chr_display.verticalScrollBar().valueChanged.disconnect(self.handle_scroll)
        except:
            pass
        self.pos = self.chr_display.verticalScrollBar().value()
        self.max = self.chr_display.verticalScrollBar().maximum()
        self.min = self.chr_display.verticalScrollBar().minimum()
        self.group = grouping

        self.refresh = refresh
        if refresh: 
            self.maxAddress = self.baseAddress
            
            self.highlight_sem.acquire()
            if self.is_highlighted and self.highlight_addr not in range(val, val + size):
                self.is_highlighted = False
                self.pos = 0
            self.highlight_sem.release()

        args = {
                'addr': val,
                'size': size,
                'hash': self.hash,
                'grouping': 1
                }
        self.qmp.command('get-pmem', args=args)


    def find(self, addr, size):
        try:
            addr = int(addr, 0)
        except ValueError as e:
            print(e)
            return
        if self.baseAddress <= addr and addr <= self.maxAddress:
            group = self.grouping.currentText()
            try:
                group = int(group, 0)
                if group not in [1, 2, 4, 8]:
                    group = 1
            except:
                group = 1
            self.highlight(addr, group)
            
        else:
            self.highlight_sem.acquire()
            self.is_highlighted = True
            self.highlight_addr = addr
            self.highlight_sem.release()
            self.grab_data(val=addr, size=size, refresh=True )


    def clear_highlight(self):
        fmt = QTextCharFormat()
        fmt.setFont('Courier New')
        # clearing past highlights
        addr_cur = self.addresses.textCursor()  # getting cursors
        mem_cur = self.mem_display.textCursor()
        chr_cur = self.chr_display.textCursor()

        addr_cur.select(QTextCursor.Document)   # selecting entire document
        mem_cur.select(QTextCursor.Document)
        chr_cur.select(QTextCursor.Document)
        
        addr_cur.setCharFormat(fmt) # adding format
        mem_cur.setCharFormat(fmt)
        chr_cur.setCharFormat(fmt)


    def highlight(self, addr, group):
        self.clear_highlight()
        
        # adding new highlights
        fmt = QTextCharFormat()
        fmt.setBackground(Qt.cyan)
        fmt.setFont('Courier New')

        addr_block = self.addresses.document().findBlockByLineNumber((addr - self.baseAddress) // 16) # gets linenos 
        mem_block = self.mem_display.document().findBlockByLineNumber((addr - self.baseAddress) // 16)
        chr_block = self.chr_display.document().findBlockByLineNumber((addr - self.baseAddress) // 16)

        addr_cur = self.addresses.textCursor()  # getting cursors
        mem_cur = self.mem_display.textCursor()
        chr_cur = self.chr_display.textCursor()


        char_offset = 0
        mem_offset = 0
        self.endian_sem.acquire()
        if self.endian == Endian.big:
            mem_offset = ((addr % 16) // group) * (2 * group + 1)
            char_offset = (addr % 16) * 3
        elif self.endian == Endian.little:
            mem_offset = (((16 / group) - 1 )* (2 * group + 1)) - ((addr % 16) // group) * (2 * group + 1)
            char_offset = (15*3) - ((addr % 16) * 3)
        self.endian_sem.release()
        addr_cur.setPosition(addr_block.position()) # getting positions
        mem_cur.setPosition(mem_block.position() + mem_offset) # gives character offset within 16 byte line
        chr_cur.setPosition(chr_block.position() + char_offset) # sets position of char

        chr_text = self.chr_display.toPlainText()
        if chr_text[chr_cur.position()] == '\\' and chr_cur.position() + 1 < len(chr_text) and chr_text[chr_cur.position() + 1] in ['0', 'n', 't']:
            chr_cur.setPosition(chr_cur.position() + 2, mode=QTextCursor.KeepAnchor) 
        else:
            chr_cur.setPosition(chr_cur.position() + 1, mode=QTextCursor.KeepAnchor) 


        addr_cur.select(QTextCursor.LineUnderCursor)    # selects whole line
        mem_cur.select(QTextCursor.WordUnderCursor)     # selects just one word

        addr_cur.setCharFormat(fmt) # setting format
        mem_cur.setCharFormat(fmt)
        chr_cur.setCharFormat(fmt)

        self.addresses.setTextCursor(addr_cur)
        self.mem_display.setTextCursor(mem_cur)
        self.chr_display.setTextCursor(chr_cur)
        
        self.highlight_sem.acquire()
        self.is_highlighted = True
        self.highlight_addr = addr
        self.highlight_sem.release()


    def handle_scroll(self):
        if self.baseAddress > 0 and self.chr_display.verticalScrollBar().value() < self.chr_display.verticalScrollBar().minimum() + self.delta:
            size = constants['block_size']
            if self.maxAddress - self.baseAddress >= self.threshold:
                self.flag = True
                self.grab_data(val=self.baseAddress - constants['block_size'], size=self.threshold, refresh=True, grouping=self.grouping.currentText())
                return
            if self.baseAddress < size:
                size = self.baseAddress
            self.grab_data(val=self.baseAddress-size, size=size, grouping=self.grouping.currentText())
        elif self.chr_display.verticalScrollBar().value() > self.chr_display.verticalScrollBar().maximum() - self.delta and self.maxAddress <= self.max_size:
            if self.maxAddress - self.baseAddress >= self.threshold:
                self.flag = True
                self.grab_data(val=self.baseAddress + constants['block_size'], size=self.threshold, refresh=True, grouping=self.grouping.currentText())
            else:
                self.grab_data(val=self.maxAddress, grouping=self.grouping.currentText())
      
      
    def change_endian(self, endian):
        self.endian_sem.acquire()
        if endian == Endian.little:
            self.endian = endian
        elif endian == Endian.big:
            self.endian = endian
        self.endian_sem.release()