Exemple #1
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 def on_save_atlas_clicked(self):
     """Save function as same as type synthesis widget."""
     count = self.collection_list.count()
     if not count:
         return
     lateral, ok = QInputDialog.getInt(self, "Atlas",
                                       "The number of lateral:", 5, 1, 10)
     if not ok:
         return
     fileName = self.outputTo("Atlas image", Qt_images)
     if not fileName:
         return
     icon_size = self.collection_list.iconSize()
     width = icon_size.width()
     image_main = QImage(
         QSize(lateral * width if count > lateral else count * width,
               ((count // lateral) + bool(count % lateral)) * width),
         self.collection_list.item(0).icon().pixmap(
             icon_size).toImage().format())
     image_main.fill(QColor(Qt.white).rgb())
     painter = QPainter(image_main)
     for row in range(count):
         image = self.collection_list.item(row).icon().pixmap(
             icon_size).toImage()
         painter.drawImage(
             QPointF(row % lateral * width, row // lateral * width), image)
     painter.end()
     pixmap = QPixmap()
     pixmap.convertFromImage(image_main)
     pixmap.save(fileName, format=QFileInfo(fileName).suffix())
     self.saveReplyBox("Atlas", fileName)
Exemple #2
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    def __save_atlas(self):
        """Save function as same as type synthesis widget."""
        count = self.collection_list.count()
        if not count:
            return

        lateral, ok = QInputDialog.getInt(self, "Atlas",
                                          "The number of lateral:", 5, 1)
        if not ok:
            return

        file_name = self.output_to("Atlas image", qt_image_format)
        if not file_name:
            return

        icon_size = self.collection_list.iconSize()
        width = icon_size.width()
        image_main = QImage(
            QSize(lateral * width if count > lateral else count * width,
                  ((count // lateral) + bool(count % lateral)) * width),
            self.collection_list.item(0).icon().pixmap(
                icon_size).toImage().format())
        image_main.fill(Qt.transparent)
        painter = QPainter(image_main)
        for row in range(count):
            image = self.collection_list.item(row).icon().pixmap(
                icon_size).toImage()
            painter.drawImage(
                QPointF(row % lateral * width, row // lateral * width), image)
        painter.end()
        pixmap = QPixmap()
        pixmap.convertFromImage(image_main)
        pixmap.save(file_name)
        self.save_reply_box("Atlas", file_name)
    def __typeCombine(self, row: int) -> List[Graph]:
        """Combine and show progress dialog."""
        item = self.Expression_number.item(row)
        progdlg = QProgressDialog("Analysis of the topology...", "Cancel", 0,
                                  100, self)
        progdlg.setAttribute(Qt.WA_DeleteOnClose, True)
        progdlg.setWindowTitle("Type synthesis - ({})".format(item.text()))
        progdlg.setMinimumSize(QSize(500, 120))
        progdlg.setModal(True)
        progdlg.show()

        def stopFunc():
            """If stop by GUI."""
            QCoreApplication.processEvents()
            progdlg.setValue(progdlg.value() + 1)
            return progdlg.wasCanceled()

        def setjobFunc(job: str, maximum: float):
            """New job."""
            progdlg.setLabelText(job)
            progdlg.setValue(0)
            progdlg.setMaximum(maximum + 1)

        answer, time = topo(item.links, not self.graph_degenerate.isChecked(),
                            setjobFunc, stopFunc)
        self.time_label.setText("{}[min] {:.2f}[s]".format(
            int(time // 60), time % 60))
        progdlg.setValue(progdlg.maximum())
        if answer:
            return [Graph(G.edges) for G in answer]
Exemple #4
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def graph(G: Graph,
          width: int,
          engine: [str, Dict[int, Tuple[float, float]]],
          node_mode: bool = False,
          except_node: int = None) -> QIcon:
    """Draw a linkage graph."""
    try:
        pos = engine_picker(G, engine, node_mode)
    except EngineError as e:
        raise e
    width_ = -inf
    for x, y in pos.values():
        if abs(x) > width_:
            width_ = x
        if abs(y) > width_:
            width_ = y
    width_ *= 2 * 1.2
    image = QImage(QSize(width_, width_), QImage.Format_ARGB32_Premultiplied)
    image.fill(Qt.transparent)
    painter = QPainter(image)
    painter.translate(image.width() / 2, image.height() / 2)
    pen = QPen()
    r = width_ / 50
    pen.setWidth(r)
    painter.setPen(pen)
    if node_mode:
        for l1, l2 in G.edges:
            painter.drawLine(QPointF(pos[l1][0], -pos[l1][1]),
                             QPointF(pos[l2][0], -pos[l2][1]))
    else:
        painter.setBrush(QBrush(QColor(226, 219, 190, 150)))
        for link in G.nodes:
            if link == except_node:
                continue
            #Distance sorted function from canvas
            painter.drawPolygon(*convex_hull([(pos[n][0], -pos[n][1])
                                              for n, edge in edges_view(G)
                                              if link in edge]))
    for k, (x, y) in pos.items():
        if node_mode:
            color = colorNum(len(list(G.neighbors(k))) - 1)
        else:
            if except_node in tuple(G.edges)[k]:
                color = colorQt('Green')
            else:
                color = colorQt('Blue')
        pen.setColor(color)
        painter.setPen(pen)
        painter.setBrush(QBrush(color))
        painter.drawEllipse(QPointF(x, -y), r, r)
    painter.end()
    icon = QIcon(QPixmap.fromImage(image).scaledToWidth(width))
    return icon
Exemple #5
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    def __save_atlas(self):
        """Saving all the atlas to image file.

        We should turn transparent background to white first.
        Then using QImage class to merge into one image.
        """
        file_name = ""
        lateral = 0
        if self.save_edges_auto.isChecked():
            lateral, ok = QInputDialog.getInt(self, "Atlas",
                                              "The number of lateral:", 5, 1,
                                              10)
            if not ok:
                return
            file_name = self.outputTo("Atlas image", qt_image_format)
            if file_name:
                reply = QMessageBox.question(
                    self, "Type synthesis", "Do you want to Re-synthesis?",
                    (QMessageBox.Yes | QMessageBox.YesToAll
                     | QMessageBox.Cancel), QMessageBox.Yes)
                if reply == QMessageBox.Yes:
                    self.__structure_synthesis()
                elif reply == QMessageBox.YesToAll:
                    self.__structure_synthesis_all()
        count = self.structure_list.count()
        if not count:
            return
        if not lateral:
            lateral, ok = QInputDialog.getInt(self, "Atlas",
                                              "The number of lateral:", 5, 1,
                                              10)
            if not ok:
                return
        if not file_name:
            file_name = self.outputTo("Atlas image", qt_image_format)
        if not file_name:
            return
        width = self.structure_list.iconSize().width()
        image_main = QImage(
            QSize(lateral * width if count > lateral else count * width,
                  ((count // lateral) + bool(count % lateral)) * width),
            self.__atlas_image(0).format())
        image_main.fill(QColor(Qt.white).rgb())
        painter = QPainter(image_main)
        for row in range(count):
            image = self.__atlas_image(row)
            painter.drawImage(
                QPointF(row % lateral * width, row // lateral * width), image)
        painter.end()
        pixmap = QPixmap()
        pixmap.convertFromImage(image_main)
        pixmap.save(file_name, format=QFileInfo(file_name).suffix())
        self.saveReplyBox("Atlas", file_name)
Exemple #6
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 def __init__(self, Title, mechanism_data=[], parent=None):
     super(ChartDialog, self).__init__(parent)
     self.setWindowTitle("Chart")
     self.setWindowFlags(self.windowFlags() | Qt.WindowMaximizeButtonHint)
     self.setSizeGripEnabled(True)
     self.setModal(True)
     self.setMinimumSize(QSize(800, 600))
     self.Title = Title
     self.mechanism_data = mechanism_data
     #Widgets
     main_layout = QVBoxLayout(self)
     main_layout.setContentsMargins(6, 6, 6, 6)
     self.tabWidget = QTabWidget(self)
     self.setChart("Fitness / Generation Chart", 0, 1)
     self.setChart("Generation / Time Chart", 2, 0)
     self.setChart("Fitness / Time Chart", 2, 1)
     main_layout.addWidget(self.tabWidget)
Exemple #7
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    def __init__(self, title, algorithm_data, parent: QWidget):
        """Add three tabs of chart."""
        super(ChartDialog, self).__init__(parent)
        self.setWindowTitle("Chart")
        self.setWindowFlags(self.windowFlags() | Qt.WindowMaximizeButtonHint)
        self.setSizeGripEnabled(True)
        self.setModal(True)
        self.setMinimumSize(QSize(800, 600))

        self.__title = title
        self.__algorithm_data = algorithm_data

        # Widgets
        main_layout = QVBoxLayout(self)
        main_layout.setContentsMargins(6, 6, 6, 6)
        self.tabWidget = QTabWidget(self)
        self.__set_chart("Fitness / Generation Chart", 0, 1)
        self.__set_chart("Generation / Time Chart", 2, 0)
        self.__set_chart("Fitness / Time Chart", 2, 1)
        main_layout.addWidget(self.tabWidget)
Exemple #8
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 def __init__(self, item):
     QGraphicsView.__init__(self)
     scene = QGraphicsScene(self)
     self.setScene(scene)
     item.setMinimumSize(QSize(150, 150))
     item.setMaximum(36000)
     item.setSingleStep(100)
     item.setPageStep(100)
     item.setInvertedAppearance(True)
     item.setWrapping(True)
     item.setNotchTarget(.1)
     item.setNotchesVisible(True)
     graphics_item = scene.addWidget(item)
     graphics_item.setRotation(-90)
     #make the QGraphicsView invisible.
     self.setHorizontalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
     self.setVerticalScrollBarPolicy(Qt.ScrollBarAlwaysOff)
     self.setFixedHeight(item.height())
     self.setFixedWidth(item.width())
     self.setStyleSheet("border: 0px;")
Exemple #9
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def to_graph(graph: Graph,
             width: int,
             engine: Union[str, Dict[int, Tuple[float, float]]],
             node_mode: bool = False,
             except_node: int = None) -> QIcon:
    """Draw a generalized chain graph."""
    pos: Pos = engine_picker(graph, engine, node_mode)
    width_bound = -float('inf')
    for x, y in pos.values():
        if abs(x) > width_bound:
            width_bound = x
        if abs(y) > width_bound:
            width_bound = y
    width_bound *= 2.2
    image = QImage(QSize(int(width_bound), int(width_bound)),
                   QImage.Format_ARGB32_Premultiplied)
    image.fill(Qt.transparent)
    painter = QPainter(image)
    painter.translate(image.width() / 2, image.height() / 2)
    pen = QPen()
    r = width_bound / 50
    pen.setWidth(int(r))
    painter.setPen(pen)

    # Draw edges.
    if node_mode:
        for l1, l2 in graph.edges:
            if except_node in {l1, l2}:
                pen.setColor(color_qt('Gray'))
            else:
                pen.setColor(color_qt('Black'))
            painter.setPen(pen)

            painter.drawLine(QPointF(pos[l1][0], -pos[l1][1]),
                             QPointF(pos[l2][0], -pos[l2][1]))
    else:
        painter.setBrush(QBrush(QColor(226, 219, 190, 150)))
        for link in graph.nodes:
            if link == except_node:
                pen.setColor(color_qt('Gray'))
            else:
                pen.setColor(color_qt('Black'))
            painter.setPen(pen)

            painter.drawPolygon(*convex_hull([(pos[n][0], -pos[n][1])
                                              for n, edge in edges_view(graph)
                                              if link in edge],
                                             as_qpoint=True))

    # Draw nodes.
    for k, (x, y) in pos.items():
        if node_mode:
            color = color_num(len(list(graph.neighbors(k))) - 1)
            if k == except_node:
                color.setAlpha(150)
        else:
            if except_node in dict(edges_view(graph))[k]:
                color = color_qt('Green')
            else:
                color = color_qt('Blue')
        pen.setColor(color)
        painter.setPen(pen)
        painter.setBrush(QBrush(color))
        painter.drawEllipse(QPointF(x, -y), r, r)
    painter.end()
    icon = QIcon(QPixmap.fromImage(image).scaledToWidth(width))
    return icon
Exemple #10
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def colorIcons(name: str, size: int = 20) -> QIcon:
    """Get color block as QIcon by name."""
    colorBlock = QPixmap(QSize(size, size))
    colorBlock.fill(colorQt(name))
    return QIcon(colorBlock)
Exemple #11
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def to_graph(
    g: Graph,
    width: int,
    engine: Union[str, Pos],
    node_mode: bool,
    show_label: bool,
    monochrome: bool,
    *,
    except_node: Optional[int] = None
) -> QIcon:
    """Draw a generalized chain graph."""
    pos: Pos = engine_picker(g, engine, node_mode)
    if not pos:
        pixmap = QPixmap(width, width)
        pixmap.fill(Qt.transparent)
        return QIcon(pixmap)

    width_bound = -float('inf')
    for x, y in pos.values():
        if abs(x) > width_bound:
            width_bound = x
        if abs(y) > width_bound:
            width_bound = y
    width_bound *= 2.5
    image = QImage(
        QSize(int(width_bound), int(width_bound)),
        QImage.Format_ARGB32_Premultiplied
    )
    image.fill(Qt.transparent)
    painter = QPainter(image)
    painter.translate(image.width() / 2, image.height() / 2)
    pen = QPen()
    r = int(width_bound / 50)
    pen.setWidth(r)
    painter.setPen(pen)
    _font.setPixelSize(r * 6)
    painter.setFont(_font)

    # Draw edges.
    if node_mode:
        for l1, l2 in g.edges:
            if except_node in {l1, l2}:
                pen.setColor(Qt.gray)
            else:
                pen.setColor(Qt.black)
            painter.setPen(pen)

            painter.drawLine(
                QPointF(pos[l1][0], -pos[l1][1]),
                QPointF(pos[l2][0], -pos[l2][1])
            )
    else:
        if monochrome:
            color = QColor(Qt.darkGray)
        else:
            color = QColor(226, 219, 190)
        color.setAlpha(150)
        painter.setBrush(QBrush(color))
        for link in g.nodes:
            if link == except_node:
                pen.setColor(Qt.gray)
            else:
                pen.setColor(Qt.black)
            painter.setPen(pen)

            painter.drawPolygon(*convex_hull([
                (pos[n][0], -pos[n][1])
                for n, edge in edges_view(g) if link in edge
            ], as_qpoint=True))

    # Draw nodes.
    for k, (x, y) in pos.items():
        if node_mode:
            color = color_num(len(list(g.neighbors(k))) - 1)
            if k == except_node:
                color.setAlpha(150)
        else:
            if monochrome:
                color = Qt.black
            elif except_node in dict(edges_view(g))[k]:
                color = color_qt('Green')
            else:
                color = color_qt('Blue')
        pen.setColor(color)
        painter.setPen(pen)
        painter.setBrush(QBrush(color))
        point = QPointF(x, -y)
        painter.drawEllipse(point, r, r)
        if show_label:
            pen.setColor(Qt.darkMagenta)
            painter.setPen(pen)
            painter.drawText(point, str(k))
    painter.end()
    return QIcon(QPixmap.fromImage(image).scaledToWidth(width))