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Qt for Python Tutorial: Data Visualization Tool

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Revision as of 12:10, 14 December 2018 by CristianMaureiraFredes (talk | contribs) (Created page with "<syntaxhighlight lang="python" line='line'> import sys import argparse import pandas as pd from PySide2.QtCore import (QAbstractTableModel, QDateTime, QModelIndex,...")
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import sys
import argparse
import pandas as pd

from PySide2.QtCore import (QAbstractTableModel, QDateTime, QModelIndex,
                            Qt, QTimeZone, Slot)
from PySide2.QtGui import QColor, QPainter
from PySide2.QtWidgets import (QAction, QApplication, QHBoxLayout, QHeaderView,
                               QMainWindow, QSizePolicy, QTableView, QWidget)
from PySide2.QtCharts import QtCharts


class CustomTableModel(QAbstractTableModel):
    def __init__(self, data=None):
        QAbstractTableModel.__init__(self)
        self.color = None
        self.load_data(data)

    def load_data(self, data):
        self.input_dates = data[0].values
        self.input_magnitudes = data[1].values

        self.column_count = 2
        self.row_count = len(self.input_magnitudes)

    def rowCount(self, parent=QModelIndex()):
        return self.row_count

    def columnCount(self, parent=QModelIndex()):
        return self.column_count

    def headerData(self, section, orientation, role):
        if role != Qt.DisplayRole:
            return None
        if orientation == Qt.Horizontal:
            return ("Date", "Magnitude")[section]
        else:
            return "{}".format(section)

    def data(self, index, role=Qt.DisplayRole):
        column = index.column()
        row = index.row()

        if role == Qt.DisplayRole:
            if column == 0:
                raw_date = self.input_dates[row]
                date = "{}".format(raw_date.toPython())
                return date[:-3]
            elif column == 1:
                return "{:.2f}".format(self.input_magnitudes[row])
        elif role == Qt.BackgroundRole:
            return (QColor(Qt.white), QColor(self.color))[column]
        elif role == Qt.TextAlignmentRole:
            return Qt.AlignRight

        return None


class Widget(QWidget):
    def __init__(self, data):
        QWidget.__init__(self)

        # Getting the Model
        self.model = CustomTableModel(data)

        # Creating a QTableView
        self.table_view = QTableView()
        self.table_view.setModel(self.model)

        # QTableView Headers
        resize = QHeaderView.ResizeToContents
        self.horizontal_header = self.table_view.horizontalHeader()
        self.vertical_header = self.table_view.verticalHeader()
        self.horizontal_header.setSectionResizeMode(resize)
        self.vertical_header.setSectionResizeMode(resize)
        self.horizontal_header.setStretchLastSection(True)

        # Creating QChart
        self.chart = QtCharts.QChart()
        self.chart.setAnimationOptions(QtCharts.QChart.AllAnimations)
        self.add_series("Magnitude (Column 1)", [0, 1])

        # Creating QChartView
        self.chart_view = QtCharts.QChartView(self.chart)
        self.chart_view.setRenderHint(QPainter.Antialiasing)

        # QWidget Layout
        self.main_layout = QHBoxLayout()
        size = QSizePolicy(QSizePolicy.Preferred, QSizePolicy.Preferred)

        # Left layout
        size.setHorizontalStretch(1)
        self.table_view.setSizePolicy(size)
        self.main_layout.addWidget(self.table_view)

        # Right Layout
        size.setHorizontalStretch(4)
        self.chart_view.setSizePolicy(size)
        self.main_layout.addWidget(self.chart_view)

        # Set the layout to the QWidget
        self.setLayout(self.main_layout)

    def add_series(self, name, columns):
        # Create QLineSeries
        self.series = QtCharts.QLineSeries()
        self.series.setName(name)

        # Filling QLineSeries
        for i in range(self.model.rowCount()):
            # Getting the data
            t = self.model.index(i, 0).data()
            date_fmt = "yyyy-MM-dd HH:mm:ss.zzz"

            x = QDateTime().fromString(t, date_fmt).toMSecsSinceEpoch()
            y = float(self.model.index(i, 1).data())

            if x > 0 and y > 0:
                self.series.append(x, y)

        self.chart.addSeries(self.series)

        # Setting X-axis
        self.axis_x = QtCharts.QDateTimeAxis()
        self.axis_x.setTickCount(10)
        self.axis_x.setFormat("dd.MM (h:mm)")
        self.axis_x.setTitleText("Date")
        self.chart.addAxis(self.axis_x, Qt.AlignBottom)
        self.series.attachAxis(self.axis_x)
        # Setting Y-axis
        self.axis_y = QtCharts.QValueAxis()
        self.axis_y.setTickCount(10)
        self.axis_y.setLabelFormat("%.2f")
        self.axis_y.setTitleText("Magnitude")
        self.chart.addAxis(self.axis_y, Qt.AlignLeft)
        self.series.attachAxis(self.axis_y)

        # Getting the color from the QChart to use it on the QTableView
        self.model.color = "{}".format(self.series.pen().color().name())


def transform_date(utc, timezone=None):
    utc_fmt = "yyyy-MM-ddTHH:mm:ss.zzzZ"
    new_date = QDateTime().fromString(utc, utc_fmt)
    if timezone:
        new_date.setTimeZone(timezone)
    return new_date


def read_data(fname):
    # Read the CSV content
    df = pd.read_csv(fname)

    # Remove wrong magnitudes
    df = df.drop(df[df.mag < 0].index)
    magnitudes = df["mag"]

    # My local timezone
    timezone = QTimeZone(b"Europe/Berlin")

    # Get timestamp transformed to our timezone
    times = df["time"].apply(lambda x: transform_date(x, timezone))

    return times, magnitudes


class MainWindow(QMainWindow):
    def __init__(self, widget):
        QMainWindow.__init__(self)
        self.setWindowTitle("Eartquakes information")

        # Menu
        self.menu = self.menuBar()
        self.file_menu = self.menu.addMenu("File")

        # Exit QAction
        exit_action = QAction("Exit", self)
        exit_action.setShortcut("Ctrl+Q")
        exit_action.triggered.connect(self.exit_app)

        self.file_menu.addAction(exit_action)

        # Status Bar
        self.status = self.statusBar()
        self.status.showMessage("Data loaded and plotted")

        # Window dimensions
        geometry = app.desktop().availableGeometry(self)
        self.setFixedSize(geometry.width() * 0.8, geometry.height() * 0.7)
        self.setCentralWidget(widget)

    @Slot()
    def exit_app(self, checked):
        sys.exit()


if __name__ == "__main__":
    options = argparse.ArgumentParser()
    options.add_argument("-f", "--file", type=str, required=True)
    args = options.parse_args()
    data = read_data(args.file)

    # Qt Application
    app = QApplication(sys.argv)

    # QWidget
    widget = Widget(data)
    # QMainWindow using QWidget as central widget
    window = MainWindow(widget)

    window.show()
    sys.exit(app.exec_())