Пример #1
0
 def Topologic_result_context_menu(self, point):
     """Context menu for the type synthesis results."""
     index = self.Topologic_result.currentIndex().row()
     self.add_collection.setEnabled(index>-1)
     self.copy_edges.setEnabled(index>-1)
     self.copy_image.setEnabled(index>-1)
     action = self.popMenu_topo.exec_(self.Topologic_result.mapToGlobal(point))
     if not action:
         return
     clipboard = QApplication.clipboard()
     if action==self.add_collection:
         self.addCollection(self.answer[index].edges)
     elif action==self.copy_edges:
         clipboard.setText(str(self.answer[index].edges))
     elif action==self.copy_image:
         #Turn the transparent background to white.
         image1 = self.atlas_image()
         image2 = QImage(image1.size(), image1.format())
         image2.fill(QColor(Qt.white).rgb())
         painter = QPainter(image2)
         painter.drawImage(QPointF(0, 0), image1)
         painter.end()
         pixmap = QPixmap()
         pixmap.convertFromImage(image2)
         clipboard.setPixmap(pixmap)
Пример #2
0
    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)
Пример #3
0
 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)
Пример #4
0
    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)
Пример #5
0
class BaseCanvas(QWidget):

    """The subclass can draw a blank canvas more easier."""

    def __init__(self, parent: QWidget):
        """Set the parameters for drawing."""
        super(BaseCanvas, self).__init__(parent)
        self.setSizePolicy(QSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding))
        self.setFocusPolicy(Qt.StrongFocus)
        self.painter = QPainter()

        # Origin coordinate.
        self.ox = self.width() / 2
        self.oy = self.height() / 2
        # Canvas zoom rate.
        self.rate = 2.
        self.zoom = 2. * self.rate
        # Joint size.
        self.joint_size = 3
        # Canvas line width.
        self.link_width = 3
        self.path_width = 3
        # Font size.
        self.font_size = 15
        # Show point mark or dimension.
        self.show_point_mark = True
        self.show_dimension = True
        # Path track.
        self.Path = _Path()
        # Path solving.
        self.target_path = {}
        self.show_target_path = False
        # Background
        self.background = QImage()
        self.background_opacity = 1.
        self.background_scale = 1
        self.background_offset = QPointF(0, 0)

    def paintEvent(self, event):
        """Using a QPainter under 'self',
        so just change QPen or QBrush before painting.
        """
        self.painter.begin(self)
        self.painter.fillRect(event.rect(), QBrush(Qt.white))
        # Translation
        self.painter.translate(self.ox, self.oy)
        # Background
        if not self.background.isNull():
            rect = self.background.rect()
            self.painter.setOpacity(self.background_opacity)
            img_origin: QPointF = self.background_offset * self.zoom
            self.painter.drawImage(
                QRectF(img_origin, QSizeF(
                    rect.width() * self.background_scale * self.zoom,
                    rect.height() * self.background_scale * self.zoom
                )),
                self.background,
                QRectF(rect)
            )
            self.painter.setOpacity(1)
        # Show frame.
        pen = QPen(Qt.blue)
        pen.setWidth(1)
        self.painter.setPen(pen)
        self.painter.setFont(QFont("Arial", self.font_size))
        # Draw origin lines.
        pen.setColor(Qt.gray)
        self.painter.setPen(pen)
        x_l = -self.ox
        x_r = self.width() - self.ox
        self.painter.drawLine(QPointF(x_l, 0), QPointF(x_r, 0))
        y_t = self.height() - self.oy
        y_b = -self.oy
        self.painter.drawLine(QPointF(0, y_b), QPointF(0, y_t))

        def indexing(v):
            """Draw tick."""
            return int(v / self.zoom - v / self.zoom % 5)

        for x in range(indexing(x_l), indexing(x_r) + 1, 5):
            self.painter.drawLine(
                QPointF(x, 0) * self.zoom,
                QPointF(x * self.zoom, -10 if x % 10 == 0 else -5)
            )
        for y in range(indexing(y_b), indexing(y_t) + 1, 5):
            self.painter.drawLine(
                QPointF(0, y) * self.zoom,
                QPointF(10 if y % 10 == 0 else 5, y * self.zoom)
            )
        # Please to call the "end" method when ending paint event.
        # self.painter.end()

    def drawPoint(
        self,
        i: int,
        cx,
        cy,
        fix: bool,
        color: QColor
    ):
        """Draw a joint."""
        pen = QPen(color)
        pen.setWidth(2)
        self.painter.setPen(pen)
        x = cx * self.zoom
        y = cy * -self.zoom
        if fix:
            bottom = y + 20
            width = 10
            # Draw a triangle below.
            self.painter.drawPolygon(
                QPointF(x, y),
                QPointF(x - width, bottom),
                QPointF(x + width, bottom)
            )
            r = self.joint_size * 2
        else:
            r = self.joint_size
        self.painter.drawEllipse(QPointF(x, y), r, r)

        if not self.show_point_mark:
            return
        pen.setColor(Qt.darkGray)
        pen.setWidth(2)
        self.painter.setPen(pen)
        text = f"[{i}]" if type(i) == str else f"[Point{i}]"
        if self.show_dimension:
            text += f":({cx:.02f}, {cy:.02f})"
        self.painter.drawText(QPointF(x, y) + QPointF(6, -6), text)

    def drawTargetPath(self):
        """Draw solving path."""
        pen = QPen()
        pen.setWidth(self.path_width)
        for i, name in enumerate(sorted(self.target_path)):
            path = self.target_path[name]
            road, dot, brush = target_path_style(i)
            pen.setColor(road)
            self.painter.setPen(pen)
            self.painter.setBrush(brush)
            if len(path) == 1:
                x, y = path[0]
                p = QPointF(x, -y) * self.zoom
                self.painter.drawText(p + QPointF(6, -6), name)
                pen.setColor(dot)
                self.painter.setPen(pen)
                self.painter.drawEllipse(p, self.joint_size, self.joint_size)
            else:
                painter_path = QPainterPath()
                for j, (x, y) in enumerate(path):
                    p = QPointF(x, -y) * self.zoom
                    self.painter.drawEllipse(p, self.joint_size, self.joint_size)
                    if j == 0:
                        self.painter.drawText(p + QPointF(6, -6), name)
                        painter_path.moveTo(p)
                    else:
                        x2, y2 = path[j - 1]
                        self.__draw_arrow(x, -y, x2, -y2, zoom=True)
                        painter_path.lineTo(p)
                pen.setColor(road)
                self.painter.setPen(pen)
                self.painter.drawPath(painter_path)
                for x, y in path:
                    pen.setColor(dot)
                    self.painter.setPen(pen)
                    p = QPointF(x, -y) * self.zoom
                    self.painter.drawEllipse(p, self.joint_size, self.joint_size)
        self.painter.setBrush(Qt.NoBrush)

    def __draw_arrow(
        self,
        x1: float,
        y1: float,
        x2: float,
        y2: float,
        *,
        zoom: bool = False,
        text: str = ''
    ):
        """Front point -> Back point"""
        if zoom:
            x1 *= self.zoom
            y1 *= self.zoom
            x2 *= self.zoom
            y2 *= self.zoom
        a = atan2(y2 - y1, x2 - x1)
        x1 = (x1 + x2) / 2 - 7.5 * cos(a)
        y1 = (y1 + y2) / 2 - 7.5 * sin(a)
        first_point = QPointF(x1, y1)
        self.painter.drawLine(first_point, QPointF(
            x1 + 15 * cos(a + radians(20)),
            y1 + 15 * sin(a + radians(20))
        ))
        self.painter.drawLine(first_point, QPointF(
            x1 + 15 * cos(a - radians(20)),
            y1 + 15 * sin(a - radians(20))
        ))
        if not text:
            return
        # Font
        font = self.painter.font()
        font_copy = QFont(font)
        font.setBold(True)
        font.setPointSize(font.pointSize() + 8)
        self.painter.setFont(font)
        # Color
        pen = self.painter.pen()
        color = pen.color()
        pen.setColor(color.darker())
        self.painter.setPen(pen)
        self.painter.drawText(first_point, text)
        pen.setColor(color)
        self.painter.setPen(pen)
        self.painter.setFont(font_copy)

    def drawCurve(self, path: Sequence[Tuple[float, float]]):
        """Draw path as curve."""
        if len(set(path)) <= 2:
            return
        painter_path = QPainterPath()
        error = False
        for i, (x, y) in enumerate(path):
            if isnan(x):
                error = True
                self.painter.drawPath(painter_path)
                painter_path = QPainterPath()
            else:
                x *= self.zoom
                y *= -self.zoom
                if i == 0:
                    painter_path.moveTo(x, y)
                    self.painter.drawEllipse(QPointF(x, y), self.joint_size, self.joint_size)
                    continue
                if error:
                    painter_path.moveTo(x, y)
                    error = False
                else:
                    painter_path.lineTo(x, y)
        self.painter.drawPath(painter_path)

    def drawDot(self, path: Sequence[Tuple[float, float]]):
        """Draw path as dots."""
        if len(set(path)) <= 2:
            return
        for x, y in path:
            if isnan(x):
                continue
            self.painter.drawPoint(QPointF(x, -y) * self.zoom)

    def solutionPolygon(
        self,
        func: str,
        args: Sequence[str],
        target: str,
        pos: Union[Tuple[VPoint, ...], Dict[int, Tuple[float, float]]]
    ) -> Tuple[List[QPointF], QColor]:
        """Get solution polygon."""
        if func == 'PLLP':
            color = QColor(121, 171, 252)
            params = [args[0], args[-1]]
        elif func == 'PLAP':
            color = QColor(249, 84, 216)
            params = [args[0]]
        else:
            if func == 'PLPP':
                color = QColor(94, 255, 185)
            else:
                # PXY
                color = QColor(249, 175, 27)
            params = [args[0]]
        params.append(target)
        tmp_list = []
        for name in params:
            try:
                index = int(name.replace('P', ''))
            except ValueError:
                continue
            else:
                x, y = pos[index]
                tmp_list.append(QPointF(x, -y) * self.zoom)
        return tmp_list, color

    def drawSolution(
        self,
        func: str,
        args: Sequence[str],
        target: str,
        pos: Union[Tuple[VPoint, ...], Dict[int, Tuple[float, float]]]
    ):
        """Draw the solution triangle."""
        points, color = self.solutionPolygon(func, args, target, pos)

        color.setAlpha(150)
        pen = QPen(color)
        pen.setWidth(self.joint_size)
        self.painter.setPen(pen)

        def draw_arrow(index: int, text: str):
            """Draw arrow."""
            self.__draw_arrow(
                points[-1].x(),
                points[-1].y(),
                points[index].x(),
                points[index].y(),
                text=text
            )

        draw_arrow(0, args[1])
        if func == 'PLLP':
            draw_arrow(1, args[2])
        color.setAlpha(30)
        self.painter.setBrush(QBrush(color))
        self.painter.drawPolygon(QPolygonF(points))
        self.painter.setBrush(Qt.NoBrush)