예제 #1
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def get_icon(path: str) -> QPicture:
    if path in _icons_loaded:
        return _icons_loaded[path]
    pic = QPicture()
    pic.load(path)
    _icons_loaded[path] = pic
    return pic
예제 #2
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 def generatePicture(self):
     '''
     每个小的K线
     '''
     self.picture = QPicture()
     p = QPainter(self.picture)
     p.setPen(pg.mkPen('w'))# 白色
     w = (self.data[1][0] - self.data[0][0]) / 3.# 每个K线的宽度
     for (t, date, close, open, high, low, price_change) in self.data:
         # t:每个汇率数据的序号
         # date:日期
         # close:收盘价
         # open:开盘价
         # high:最高价
         # low:最低价
         # price_change:价格变化
         if open > close:
             p.setPen(pg.mkPen('g'))
             p.setBrush(pg.mkBrush('g'))
         else:
             p.setPen(pg.mkPen('r'))
             p.setBrush(pg.mkBrush('r'))
         # 如果收盘价高于开盘价,我们就用红色;如果收盘价低于开盘价,我们就用绿色
         if low != high:
             p.drawLine(QPointF(t, low), QPointF(t, high))
             # 当最高价和最低价不相同时,我们就画一条线,两点坐标是从最低价到最高价。
         p.drawRect(QRectF(t - w, open, w * 2, close - open))
         # 画出具体的收盘价、开盘价矩形图。这里注意下:要是close - open,矩形的方向是不一样的
     p.end()
    def createBottomToolbar(self):
        self.toolLayout = QHBoxLayout()
        self.toolLayout.addWidget(self.toolbar)

        self.loadingIndictator = QLabel()
        self.loadingMovie = QMovie('assets/loader.gif')
        self.emptyLoadingPicture = QPicture()
        self.emptyLoadingPicture.load('assets/empty_loader.png')
        self.stopLoadingIndicator()
        self.toolLayout.addWidget(self.loadingIndictator)

        self.toolLayout.addItem(
            QSpacerItem(20, 40, QSizePolicy.Minimum, QSizePolicy.Expanding))
        # self.toolLayout.addWidget(QSpacerItem(150, 10, QSizePolicy.Expanding))

        self.copyImagePushButton = QPushButton()
        # self.copyImagePushButton.setText("Copy")
        # self.copyImagePushButton.setMinimumWidth(1)
        # self.copyImagePushButton.style().standardIcon(QStyle.SP_DialogOpenButton)
        self.copyImagePushButton.setIcon(self.style().standardIcon(
            QStyle.SP_DialogSaveButton))
        self.toolLayout.addWidget(self.copyImagePushButton)
        self.copyImagePushButton.clicked.connect(self.copyPlotToClipboard)

        downsampleLabel = QLabel()
        downsampleLabel.setText("DS")
        self.downSampleInput = QSpinBox()
        self.downSampleInput.setValue(self.downsample)
        self.toolLayout.addWidget(downsampleLabel)
        self.toolLayout.addWidget(self.downSampleInput)
        self.downSampleInput.valueChanged.connect(self.changeDownSample)

        self.statusLabel = QLabel()
        self.toolLayout.addWidget(self.statusLabel)
예제 #4
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 def generatePicture(self):
     prema5 = 0
     prema10 = 0
     prema20 = 0
     self.picture = QPicture()  # 实例化一个绘图设备
     p = QPainter(self.picture)  # 在picture上实例化QPainter用于绘图
     w = (self.data[1][0] - self.data[0][0]) / 3
     for (t, open, close, min, max, ma5, ma10, ma20) in self.data:
         p.setPen(pg.mkPen('w'))  # 设置画笔颜色
         # print(t, open, close, min, max)
         p.drawLine(QPointF(t, min), QPointF(t, max))  # 绘制线条
         if open > close:  # 开盘价大于收盘价
             p.setBrush(pg.mkBrush('g'))  # 设置画刷颜色为绿
         else:
             p.setBrush(pg.mkBrush('r'))  # 设置画刷颜色为红
         p.drawRect(QRectF(t - w, open, w * 2, close - open))  # 绘制箱子
         if prema5 != 0:
             p.setPen(pg.mkPen('r'))
             p.drawLine(QPointF(t - 1, prema5), QPointF(t, ma5))
         prema5 = ma5
         if prema10 != 0:
             p.setPen(pg.mkPen('c'))
             p.drawLine(QPointF(t - 1, prema10), QPointF(t, ma10))
         prema10 = ma10
         if prema20 != 0:
             p.setPen(pg.mkPen('m'))
             p.drawLine(QPointF(t - 1, prema20), QPointF(t, ma20))
         prema20 = ma20
     p.end()
예제 #5
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 def sizeHint(self):
     if not self.sizeHint_:
         pic = QPicture()
         painter = QPainter(pic)
         getModuleAttrDict(Client.gameObject.module)['paintGame'](painter)
         painter.end()
         self.sizeHint_ = pic.boundingRect().size()
     return self.sizeHint_
예제 #6
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    def generatePicture(self):
        # 实例化一个绘图设备
        self.picture = QPicture()

        # 在picture上实例化QPainter用于绘图
        self.p = QPainter(self.picture)

        # 设置画笔颜色

        self.w = (self.data[1][0] - self.data[0][0]) / 3

        pre_ama = 0
        pre_ema12 = 0
        pre_ema20 = 0

        for (t, open, high, low, close, ama, ema12, ema20) in self.data:
            # 绘制线条
            self.p.setPen(pg.mkPen('w'))
            self.p.drawLine(QPointF(t, low), QPointF(t, high))
            # 开盘价大于收盘价
            if close >= open:
                # 设置画刷颜色为绿
                self.p.setPen(pg.mkPen('g'))
                self.p.setBrush(pg.mkBrush('g'))
            else:
                # 设置画刷颜色为红
                self.p.setPen(pg.mkPen('r'))
                self.p.setBrush(pg.mkBrush('r'))
            # 绘制箱子
            self.p.drawRect(QRectF(t - self.w, open, self.w * 2, close - open))

            # 根据是否被选中画均线
            if pre_ama != 0:
                if self.indicators_state[0]:
                    self.p.setPen(pg.mkPen('w'))
                    self.p.setBrush(pg.mkBrush('w'))
                    self.p.drawLine(QPointF(t - 1, pre_ama), QPointF(t, ama))
            pre_ama = ama

            if pre_ema12 != 0:
                if self.indicators_state[1]:
                    self.p.setPen(pg.mkPen('c'))
                    self.p.setBrush(pg.mkBrush('c'))
                    self.p.drawLine(QPointF(t - 1, pre_ema12),
                                    QPointF(t, ema12))
            pre_ema12 = ema12

            if pre_ema20 != 0:
                if self.indicators_state[2]:
                    self.p.setPen(pg.mkPen('m'))
                    self.p.setBrush(pg.mkBrush('m'))
                    self.p.drawLine(QPointF(t - 1, pre_ema20),
                                    QPointF(t, ema20))
            pre_ema20 = ema20

        self.p.end()
        self.last_t = t
예제 #7
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 def generatePicture(self):
     self.picture = QPicture()  # 实例化一个绘图设备
     p = QPainter(self.picture)  # 在picture上实例化QPainter用于绘图
     w = (self.data[1][0] - self.data[0][0]) / 3
     for (t, open, close, trade) in self.data:
         p.setPen(pg.mkPen('w'))  # 设置画笔颜色
         p.drawLine(QPointF(t, 0), QPointF(t, trade / 10000))  # 绘制线条
         if open > close:  # 开盘价大于收盘价
             p.setBrush(pg.mkBrush('g'))  # 设置画刷颜色为绿
         else:
             p.setBrush(pg.mkBrush('r'))  # 设置画刷颜色为红
         p.drawRect(QRectF(t - w, 0, w * 2, trade / 10000))  # 绘制箱子
     p.end()
예제 #8
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    def render_from_z_mask(z_buf_mask, context):
        z_buf_mask = convert_deep_to_alpha(z_buf_mask)
        # рисовать
        qp = QPainter()
        picture = QPicture()

        qp.begin(picture)
        for x in range(len(z_buf_mask)):
            for y in range(len(z_buf_mask[0])):

                # a = color_mask[x][y]
                a = QColor(Qt.black)
                a.setAlpha(z_buf_mask[x][y])

                qp.setPen(a)
                qp.drawPoint(x, y)
        qp.end()  # painting done
        picture.save("drawing.pic")  # save picture

        picture = QPicture()
        picture.load("drawing.pic")  # load picture
        qp = QPainter()
        qp.begin(context)  # paint in myImage
        qp.drawPicture(0, 0, picture)  # draw the picture at (0,0)
        qp.end()
예제 #9
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def render_avatar_image(image: QImage, size: float):
    if image.isNull():
        return None

    aspect_ratio = image.width() / image.height()
    if aspect_ratio > 1:
        width = size
        height = size / aspect_ratio
    else:
        width = size * aspect_ratio
        height = size

    x0 = (size - width) / 2
    y0 = (size - height) / 2

    path = QPainterPath()
    path.addEllipse(QRectF(x0, y0, width, height))
    picture = QPicture()
    painter = QPainter(picture)
    painter.setRenderHint(QPainter.Antialiasing, True)
    pen = QPen(Qt.black, 5)
    pen.setStyle(Qt.SolidLine)
    painter.setPen(pen)
    painter.setClipPath(path)
    painter.drawImage(
        QRectF(x0, y0, width, height),
        image,
    )
    painter.end()
    return picture
예제 #10
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def save_pdf(widget, filename, preview=False):
    # Creation du printer
    printer = QPrinter()
    file_names = filename
    printer.setOutputFileName(file_names)
    printer.setOutputFormat(QPrinter.PdfFormat)
    printer.setPageMargins(10, 10, 10, 10, QPrinter.Point)

    # Calcul le ratio de redimensionnement
    page_width = printer.pageRect().width()
    page_height = printer.pageRect().height()
    widget_width = widget.width()
    widget_height = widget.height()
    ratio = min(page_width / widget_width, page_height / widget_height)

    # Calcul du positionnement
    pos_x = max(0, (page_width - ratio * widget_width) / 2)
    pos_y = max(0, (page_height - ratio * widget_height) / 2)

    # Render le widget dans une image QPicture pour stocker
    # les directives de dessin
    picture = QPicture()
    widget_painter = QPainter(picture)
    widget_painter.scale(ratio, ratio)
    widget.render(widget_painter)
    widget_painter.end()

    # Render la QPicture en utilisant le QPrinter
    picture_painter = QPainter()
    picture_painter.begin(printer)
    picture_painter.drawPicture(QPointF(pos_x, pos_y), picture)
    picture_painter.end()

    if preview:
        affiche_pdf(file_names)
예제 #11
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def generateCode(article, week, lot):
    #function returns QPicture object containing DataMatrix code with given article, week, lot
    toBeEncoded = 'S/N %s, Lot %s, Date %s' % (article, lot, week)
    bar = toBeEncoded.encode('utf-8')
    encoded_bar = dmtx.encode(bar)
    img = Image.frombytes('RGB', (encoded_bar.width, encoded_bar.height),
                          encoded_bar.pixels)
    img = img.resize(qr_size)
    qimg = ImageQt(img)

    picture = QPicture()
    painter = QPainter()
    painter.begin(picture)

    if frame_options['pen-color'] != Qt.Qt.white:
        painter.setBrush(QBrush(Qt.Qt.white))
    painter.setFont(QFont(font['family'], font['size'], font['weight']))
    if frame_options['pen-color'] != Qt.Qt.white:
        old_pen = painter.pen()
        painter.setPen(
            QPen(frame_options['pen-color'], frame_options['pen-width']))
        painter.drawRoundedRect(0, 0, *label_size, frame_options['radius'],
                                frame_options['radius'])
        painter.setPen(old_pen)
    painter.drawText(*item_positions['article'], "S/N " + article)
    painter.drawText(*item_positions['week'], "Date " + week)
    painter.drawText(*item_positions['lot'], "Lot " + lot)
    painter.drawImage(*item_positions['code'], qimg)

    painter.end()
    return picture
예제 #12
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    def impression(self):
        # Creation du printer
        printer = QPrinter()
        dialog = QPrintDialog(printer, self)
        if dialog.exec_() != QDialog.Accepted:
            return
        printer.setPageMargins(10, 10, 10, 10, QPrinter.Point)

        # Calcul le ratio de redimensionnement
        page_width = printer.pageRect().width()
        page_height = printer.pageRect().height()
        widget_width = self.rapport.width()
        widget_height = self.rapport.height()
        ratio = min(page_width / widget_width, page_height / widget_height)

        # Calcul du positionnement
        pos_x = max(0, (page_width - ratio * widget_width) / 2)
        pos_y = max(0, (page_height - ratio * widget_height) / 2)

        # Render le widget dans une image QPicture pour stocker
        # les directives de dessin
        picture = QPicture()
        widget_painter = QPainter(picture)
        widget_painter.scale(ratio, ratio)
        self.rapport.render(widget_painter)
        widget_painter.end()

        # Render la QPicture en utilisant le QPrinter
        picture_painter = QPainter()
        picture_painter.begin(printer)
        picture_painter.drawPicture(QPointF(pos_x, pos_y), picture)
        picture_painter.end()
예제 #13
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 def __enter__(self) -> QPicture:
     """ Reset the current picture, size it to match the widget, and return it for rendering. """
     self._picture = picture = QPicture()
     rect = QRect()
     rect.setSize(self.size())
     picture.setBoundingRect(rect)
     return picture
예제 #14
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 def generatePicture(self):
     ## pre-computing a QPicture object allows paint() to run much more quickly,
     ## rather than re-drawing the shapes every time.
     self.picture = QPicture()
     p = QPainter(self.picture)
     p.setPen(pg.mkPen('w'))
     w = 1 / 3.
     for (open, max, min, close, vol, ma10, ma20, ma30,
          t) in self.data.values:
         p.drawLine(QPointF(t, min), QPointF(t, max))
         if open > close:
             p.setBrush(pg.mkBrush('g'))
         else:
             p.setBrush(pg.mkBrush('r'))
         p.drawRect(QRectF(t - w, open, w * 2, close - open))
     p.end()
예제 #15
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class CandlestickItem(pg.GraphicsObject):
    def __init__(self, data):
        pg.GraphicsObject.__init__(self)
        self.data = data  ## data must have fields: time, open, close, min, max
        self.generatePicture()

    def generatePicture(self):
        ## pre-computing a QPicture object allows paint() to run much more quickly,
        ## rather than re-drawing the shapes every time.
        self.picture = QPicture()
        painter = QPainter(self.picture)
        painter.setPen(pg.mkPen('w'))
        width = (self.data[1][0] - self.data[0][0]) / 3000.
        for (timestamp, open, high, low, close, _volume) in self.data:
            timestamp /= 1000
            #print(t, open, high, low, close)
            painter.drawLine(QPointF(timestamp, low), QPointF(timestamp, high))
            if open > close:
                painter.setBrush(pg.mkBrush('r'))
            else:
                painter.setBrush(pg.mkBrush('g'))
            painter.drawRect(
                QRectF(timestamp - width, open, width * 2, close - open))
        painter.end()

    def paint(self, p, *args):
        p.drawPicture(0, 0, self.picture)

    def boundingRect(self):
        ## boundingRect _must_ indicate the entire area that will be drawn on
        ## or else we will get artifacts and possibly crashing.
        ## (in this case, QPicture does all the work of computing the bouning rect for us)
        return QRectF(self.picture.boundingRect())
예제 #16
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class TradeItem(pg.GraphicsObject):
    def __init__(self, data):
        pg.GraphicsObject.__init__(self)
        self.data = data  # data里面必须有以下字段: 时间, 开盘价, 收盘价, 交易量
        self.generatePicture()  # 绑定按钮点击信号

    def generatePicture(self):
        self.picture = QPicture()  # 实例化一个绘图设备
        p = QPainter(self.picture)  # 在picture上实例化QPainter用于绘图
        w = (self.data[1][0] - self.data[0][0]) / 3
        for (t, open, close, trade) in self.data:
            p.setPen(pg.mkPen('w'))  # 设置画笔颜色
            p.drawLine(QPointF(t, 0), QPointF(t, trade / 10000))  # 绘制线条
            if open > close:  # 开盘价大于收盘价
                p.setBrush(pg.mkBrush('g'))  # 设置画刷颜色为绿
            else:
                p.setBrush(pg.mkBrush('r'))  # 设置画刷颜色为红
            p.drawRect(QRectF(t - w, 0, w * 2, trade / 10000))  # 绘制箱子
        p.end()

    def paint(self, p, *args):
        p.drawPicture(0, 0, self.picture)

    def boundingRect(self):
        return QRectF(self.picture.boundingRect())
예제 #17
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 def generatePicture(self):
     if self.opts["lut"] is None:
         lut = np.empty((len(self.xData), 4), dtype=int)
         pen = self.opts["pen"]
         if isinstance(pen, QPen):
             color = pen.color().getRgb()
         elif len(pen) == 3:
             color = list(pen) + [255]
         else:
             color = pen
         lut[:, :] = color
         self.opts["lut"] = lut
     # generate picture
     self.picture = QPicture()
     p = QPainter(self.picture)
     # if "connect" == "all"
     if isinstance(self.opts["connect"], str):
         lut_array = self.adjustLUT(N_segment=len(self.xData))
         # add to generated picture line by line
         for i, col_values in enumerate(lut_array[:-1]):
             p.setPen(pg.mkPen(col_values))
             p.drawLine(QPointF(self.xData[i], self.yData[i]), QPointF(self.xData[i+1], self.yData[i+1]))
     else:
         lut_array = self.adjustLUT(N_segment=(self.opts["connect"] == 0).sum())
         # add to generated picture with polyline
         polygonF = QPolygonF()
         idx = -1
         for x, y, c in zip(self.xData, self.yData, self.opts["connect"]):
             polygonF.append(QPointF(x, y))
             if c == 0:
                 idx += 1
                 p.setPen(pg.mkPen(lut_array[idx]))
                 p.drawPolyline(polygonF)
                 polygonF = QPolygonF()
예제 #18
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class VolItem(pg.GraphicsObject):
    """ 自定义Item """
    def __init__(self, data: pd.DataFrame):
        super(VolItem, self).__init__()
        self._data = data
        self._pic = QPicture()
        self.generatePicture()

    def generatePicture(self):
        """ 绘图 """
        p = QPainter(self._pic)
        p.setPen(pg.mkPen({'color': "CCCCCC"}))
        # 两个坐标点的1/3, 两个点的距离为横坐标的差
        # 如果使用时间来,会出现间隔不连续,因为股票数据时间本身是不连续的
        w = 1 / 3
        for row in self._data.itertuples():
            _t = getattr(row, 'Index')
            vol = getattr(row, 'vol') / 10000
            o_price = getattr(row, 'open')
            c_price = getattr(row, 'close')

            if o_price > c_price:
                p.setBrush(pg.mkBrush('g'))
            else:
                p.setBrush(pg.mkBrush('r'))

            p.drawRect(QRectF(_t - w, 0, w * 2, vol))

        p.end()

    def paint(self, p, *args):
        p.drawPicture(0, 0, self._pic)

    def boundingRect(self):
        return QRectF(self._pic.boundingRect())
예제 #19
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class CandlestickItem(pg.GraphicsObject):
    def __init__(self, data):
        pg.GraphicsObject.__init__(self)
        self.data = data  ## data must have fields: time, open, close, min, max
        self.generatePicture()

    def generatePicture(self):
        ## pre-computing a QPicture object allows paint() to run much more quickly,
        ## rather than re-drawing the shapes every time.
        self.picture = QPicture()
        p = QPainter(self.picture)
        p.setPen(pg.mkPen('w'))
        w = 1 / 3.
        for (open, max, min, close, vol, ma10, ma20, ma30,
             t) in self.data.values:
            p.drawLine(QPointF(t, min), QPointF(t, max))
            if open > close:
                p.setBrush(pg.mkBrush('g'))
            else:
                p.setBrush(pg.mkBrush('r'))
            p.drawRect(QRectF(t - w, open, w * 2, close - open))
        p.end()

    def paint(self, p, *args):
        p.drawPicture(0, 0, self.picture)

    def boundingRect(self):
        ## boundingRect _must_ indicate the entire area that will be drawn on
        ## or else we will get artifacts and possibly crashing.
        ## (in this case, QPicture does all the work of computing the bouning rect for us)
        return QRectF(self.picture.boundingRect())
예제 #20
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def paint_page(painter, page, page_rect):
    """
    Given a `painter` and a `page` (a widget presumably created parsing a
    wreport), renders the widget on the painter and returns a QPicture.
    """
    # make qwidget output vectorial, rendering directly on a printer
    # results in a raster image in the pdf
    page_pic = QPicture()
    wpainter = QPainter(page_pic)

    # set the BoundingRect of page_pic and the page size to page_rect
    page_pic.setBoundingRect(page_rect.toRect())
    page.resize(page_rect.toRect().width(), page_rect.toRect().height())

    page.render(wpainter, flags=QWidget.DrawChildren)
    wpainter.end()
    painter.drawPicture(0, 0, page_pic)
    return page_pic
예제 #21
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    def drawPicture(self):
        self._picture = QPicture()
        p = QPainter(self._picture)
        p.setPen(self._pen)
        p.setBrush(self._brush)

        # Now it works for bar plot with equalized gaps
        # TODO: extend it
        if len(self._x) > 1:
            width = self._width * (self._x[1] - self._x[0])
        else:
            width = self._width

        for x, y in zip(self._x, self._y):
            p.drawRect(QRectF(x - width/2, 0, width, y))

        p.end()
        self.prepareGeometryChange()
예제 #22
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 def generatePicture(self):
     ## pre-computing a QPicture object allows paint() to run much more quickly,
     ## rather than re-drawing the shapes every time.
     self.picture = QPicture()
     painter = QPainter(self.picture)
     painter.setPen(pg.mkPen('w'))
     width = (self.data[1][0] - self.data[0][0]) / 3000.
     for (timestamp, open, high, low, close, _volume) in self.data:
         timestamp /= 1000
         #print(t, open, high, low, close)
         painter.drawLine(QPointF(timestamp, low), QPointF(timestamp, high))
         if open > close:
             painter.setBrush(pg.mkBrush('r'))
         else:
             painter.setBrush(pg.mkBrush('g'))
         painter.drawRect(
             QRectF(timestamp - width, open, width * 2, close - open))
     painter.end()
예제 #23
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    def _prepareGraph(self):
        """Override."""
        self._graph = QPicture()
        p = QPainter(self._graph)
        p.setPen(self._pen)
        p.setBrush(self._brush)

        x, y = self.transformedData()
        # Now it works for bar plot with equalized gaps
        # TODO: extend it
        if len(x) > 1:
            width = self._width * (x[1] - x[0])
        else:
            width = self._width

        for px, py in zip(x, y):
            p.drawRect(QRectF(px - width / 2, 0, width, py))

        p.end()
예제 #24
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class CandlestickItem(pg.GraphicsObject):
    '''
    K线图,自定义CandlestickItem类,这个类继承了pyqtgraph.GraphicsObject
    '''
    def __init__(self, data):
        '''
        一些初始设置
        '''
        pg.GraphicsObject.__init__(self)
        self.data = data
        # 变量data表示我们需要带入的数据
        
        self.generatePicture()

    def generatePicture(self):
        '''
        每个小的K线
        '''
        self.picture = QPicture()
        p = QPainter(self.picture)
        p.setPen(pg.mkPen('w'))# 白色
        w = (self.data[1][0] - self.data[0][0]) / 3.# 每个K线的宽度
        for (t, date, close, open, high, low, price_change) in self.data:
            # t:每个汇率数据的序号
            # date:日期
            # close:收盘价
            # open:开盘价
            # high:最高价
            # low:最低价
            # price_change:价格变化
            if open > close:
                p.setPen(pg.mkPen('g'))
                p.setBrush(pg.mkBrush('g'))
            else:
                p.setPen(pg.mkPen('r'))
                p.setBrush(pg.mkBrush('r'))
            # 如果收盘价高于开盘价,我们就用红色;如果收盘价低于开盘价,我们就用绿色
            if low != high:
                p.drawLine(QPointF(t, low), QPointF(t, high))
                # 当最高价和最低价不相同时,我们就画一条线,两点坐标是从最低价到最高价。
            p.drawRect(QRectF(t - w, open, w * 2, close - open))
            # 画出具体的收盘价、开盘价矩形图。这里注意下:要是close - open,矩形的方向是不一样的
        p.end()

    def paint(self, p, *args):
        '''
        绘图
        '''
        p.drawPicture(0, 0, self.picture)

    def boundingRect(self):
        '''
        所有绘画必须限制在图元的边界矩形内
        '''
        return QRectF(self.picture.boundingRect())
예제 #25
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 def paintEvent(self, QPaintEvent):
     pic = QPicture()
     painter = QPainter(pic)
     getModuleAttrDict(Client.gameObject.module)['paintGame'](painter)
     painter.end()
     painter.begin(self)
     bRect = pic.boundingRect()
     self.sizeHint_ = bRect.size()
     painter.setWindow(bRect)
     painter.setViewTransformEnabled(True)
     width = self.width()
     height = self.height()
     if width * bRect.height() < height * bRect.width():
         pheight = (width * bRect.height()) / bRect.width()
         painter.setViewport(0, (height - pheight) / 2, width, pheight)
     else:
         pwidth = (height * bRect.width()) / bRect.height()
         painter.setViewport((width - pwidth) / 2, 0, pwidth, height)
     self.invTrafo = painter.combinedTransform().inverted()[0]
     pic.play(painter)
예제 #26
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    def renderSystem(self):
        self.picture = QPicture()
        qp = QPainter()

        # these offsets don't make sense anymore
        sz = self.size()
        self.xpos = sz.width() / 2
        self.ypos = sz.height() / 2

        qp.begin(self.picture)
        self.rendercurve(qp)
        qp.end()
        self.repaint()
예제 #27
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class PictureWidget(QWidget):
    """ Generic widget using a QPicture as a paint buffer. """

    def __init__(self, *args) -> None:
        super().__init__(*args)
        self._picture = QPicture()  # Last saved picture rendering.

    def __enter__(self) -> QPicture:
        """ Reset the current picture, size it to match the widget, and return it for rendering. """
        self._picture = picture = QPicture()
        rect = QRect()
        rect.setSize(self.size())
        picture.setBoundingRect(rect)
        return picture

    def __exit__(self, *_) -> None:
        """ Repaint the widget after rendering is complete. """
        self.update()

    def paintEvent(self, *_) -> None:
        """ Paint the saved picture on this widget when GUI repaint occurs. """
        with QPainter(self) as p:
            self._picture.play(p)

    # should be inherited from a: """ Mixin to send a signal on a context menu request (right-click). """

    contextMenuRequest = pyqtSignal([QPoint])

    def contextMenuEvent(self, event:QContextMenuEvent) -> None:
        pos = event.globalPos()
        self.contextMenuRequest.emit(pos)

    # should be inherited from a: """ Mixin to send a signal on any widget size change. """

    resized = pyqtSignal()

    def resizeEvent(self, *_) -> None:
        self.resized.emit()
예제 #28
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    def _drawPicture(self):
        """Override."""
        self._picture = QPicture()

        p = QPainter(self._picture)
        p.setRenderHint(QPainter.Antialiasing)
        p.setPen(self._pen)
        p.setBrush(self._brush)

        c = QPointF(self._cx, self._cy)
        for r in self._radials:
            p.drawEllipse(c, r, r)

        p.end()
예제 #29
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    def render_from_color_mask(color_mask, context):
        qp = QPainter()
        picture = QPicture()

        qp.begin(picture)
        for x in range(len(color_mask)):
            for y in range(len(color_mask[0])):

                a = color_mask[x][y]
                qp.setPen(a)
                qp.drawPoint(x, y)
        qp.end()  # painting done
        picture.save("drawing.pic")  # save picture

        picture = QPicture()
        picture.load("drawing.pic")  # load picture
        qp = QPainter()
        qp.begin(context)  # paint in myImage
        qp.drawPicture(0, 0, picture)  # draw the picture at (0,0)
        qp.end()
예제 #30
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class CandlestickItem(pg.GraphicsObject):
    df: pd.DataFrame
    y_min: float
    y_max: float

    def __init__(self):
        super().__init__()
        self.picture = QPicture()

    def set_data(self, df: pd.DataFrame):
        self.df = df
        self.y_min = self.df['low'].min()
        self.y_max = self.df['high'].max()
        print(f'<CandlestickItem> received {self.df.shape[0]} rows, value min = {self.y_min}, max = {self.y_max}')
        self.generate()

    def generate(self):
        painter = QPainter(self.picture)
        painter.setPen(pg.mkPen('w'))
        w = 1.0 / 3.0
        for i in range(self.df.shape[0]):
            if self.df.at[i, 'close'] > self.df.at[i, 'open']:
                painter.setPen(pg.mkPen('g'))
                painter.setBrush(pg.mkBrush('g'))
            elif self.df.at[i, 'close'] < self.df.at[i, 'open']:
                painter.setPen(pg.mkPen('r'))
                painter.setBrush(pg.mkBrush('r'))
            else:
                painter.setPen(pg.mkPen('w'))
                painter.setBrush(pg.mkBrush('w'))
            painter.drawLine(
                QPointF(i, self.df.at[i, 'low']), QPointF(i, self.df.at[i, 'high'])
            )
            painter.drawRect(
                QRectF(i - w, self.df.at[i, 'open'], w * 2, self.df.at[i, 'close'] - self.df.at[i, 'open'])
            )
        painter.end()

    def paint(self, p, *args):
        p.drawPicture(0, 0, self.picture)

    def boundingRect(self):
        return QRectF(self.picture.boundingRect())
예제 #31
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from PyQt5.QtCore import QRect, QRectF, QSizeF, QPointF, Qt
from PyQt5.QtGui import QPainter, QPicture, QFont, QColor
from PyQt5.QtWidgets import QApplication, QLabel

def drawNode(painter, angle, radius, text):
    size = 32767.0;
    painter.save();
    painter.rotate(-angle);
    painter.translate(radius, 0);
    painter.drawText(QRectF(0, -size/2.0, size, size), Qt.AlignVCenter, text);
    painter.restore();

if __name__ == "__main__":
    app = QApplication(sys.argv)

    pic = QPicture()
    pic.setBoundingRect(QRect(-100, -100, 200, 200))
    p = QPainter(pic)

    p.drawEllipse(0, 0, 3, 3)
    p.setFont(QFont("Helvetica", 25))
    for angle in range(0, 359, 30):
        drawNode(p, angle, 50, str(angle))
    p.end()

    l = QLabel()
    l.setPicture(pic);
    l.show();

    sys.exit(app.exec_())