def updatePaintNode(self, oldNode: QSGGeometryNode, _):
if oldNode == None:
node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), self._segment_count)
geometry.setLineWidth(3)
geometry.setDrawingMode(QSGGeometry.DrawLineStrip)
node.setGeometry(geometry)
node.setFlag(QSGNode.OwnsGeometry)
material = QSGFlatColorMaterial()
material.setColor(QColor(45, 100, 120))
node.setMaterial(material)
node.setFlag(QSGNode.OwnsMaterial)
else:
node = oldNode
geometry = node.geometry()
geometry.allocate(self._segment_count)
itemSize = self.size()
vertices = geometry.vertexDataAsPoint2D()
x1 = self._p1.x()
y1 = self._p1.y()
vertices[0].set(x1, y1)
x2 = self._p2.x()
y2 = self._p2.y()
vertices[1].set(x2, y2)
print(vertices[1].x)
node.markDirty(QSGNode.DirtyGeometry)
return node
def updatePaintNode(self, old_node, _):
if not old_node:
self.node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(),
self.m_segment_count)
geometry.setLineWidth(2)
geometry.setDrawingMode(QSGGeometry.DrawLineStrip)
self.node.setGeometry(geometry)
self.node.setFlag(QSGNode.OwnsGeometry)
material = QSGFlatColorMaterial()
material.setColor(QColor(255, 0, 0))
self.node.setMaterial(material)
self.node.setFlag(QSGNode.OwnsMaterial)
else:
geometry = self.node.geometry()
geometry.allocate(self.m_segment_count)
w = self.width()
h = self.height()
vertices = geometry.vertexDataAsPoint2D()
for i in range(self.m_segment_count):
t = i / (self.m_segment_count - 1)
invt = 1 - t
pos = invt * invt * invt * self.m_p1 \
+ 3 * invt * invt * t * self.m_p2 \
+ 3 * invt * t * t * self.m_p3 \
+ t * t * t * self.m_p4
vertices[i].set(pos.x() * w, pos.y() * h)
self.node.markDirty(QSGNode.DirtyGeometry)
return self.node
def updatePaintNode(self, old_node, node_data):
if self._container is None:
return self._root_node
if self._showsig_trig:
self._showsig_trig = False
if self._root_node is not None:
self._root_node.removeAllChildNodes()
del self._root_node
self._root_node = None
if self._root_node is None:
self._root_node = QSGNode()
for i in range(self._container.num_signals):
# создаем ноды для рисования графиков
transform_node = QSGTransformNode()
transform_matrix = transform_node.matrix()
transform_matrix.translate(0, self._lineshift_y * (2 * i + 1))
transform_matrix.scale(self._xscales[i], -self._yscale)
transform_node.setMatrix(transform_matrix)
transform_node.markDirty(QSGNode.DirtyMatrix)
geometry_node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(),
self._visible_signal_sizes[i])
geometry.setLineWidth(1.0)
geometry.setDrawingMode(QSGGeometry.GL_LINE_STRIP)
geometry_node.setGeometry(geometry)
geometry_node.setFlag(QSGNode.OwnsGeometry)
material = QSGFlatColorMaterial()
material.setColor(QColor("#4CAF50"))
geometry_node.setMaterial(material)
geometry_node.setFlag(QSGNode.OwnsMaterial)
transform_node.appendChildNode(geometry_node)
self._root_node.appendChildNode(transform_node)
eeg_signals = self._container.signals
fd = self._container.fd
for i in range(self._container.num_signals):
curr_signal = eeg_signals[i]
curr_timeaxe = self._time_axes[i]
curr_transform_node = self._root_node.childAtIndex(i)
curr_geometry_node = curr_transform_node.firstChild()
curr_geometry = curr_geometry_node.geometry()
curr_vertexes = curr_geometry.vertexDataAsPoint2D()
curr_shift = int(self._time_shift * fd[i])
for j in range(self._visible_signal_sizes[i]):
curr_vertexes[j].set(curr_timeaxe[j],
curr_signal[j + curr_shift])
curr_geometry_node.markDirty(QSGNode.DirtyGeometry)
return self._root_node
def updatePaintNode(self, paint_node, update_data):
if paint_node is None:
paint_node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), 6, 12)
geometry.setDrawingMode(QSGGeometry.GL_TRIANGLES)
geometry.vertexDataAsPoint2D()[0].set(self._corner_size, 0)
geometry.vertexDataAsPoint2D()[1].set(0, self._corner_size)
geometry.vertexDataAsPoint2D()[2].set(0, self.height())
geometry.vertexDataAsPoint2D()[3].set(self.width() - self._corner_size,
self.height())
geometry.vertexDataAsPoint2D()[4].set(
self.width(),
self.height() - self._corner_size)
geometry.vertexDataAsPoint2D()[5].set(self.width(), 0)
geometry.indexDataAsUShort()[0] = 0
geometry.indexDataAsUShort()[1] = 1
geometry.indexDataAsUShort()[2] = 2
geometry.indexDataAsUShort()[3] = 0
geometry.indexDataAsUShort()[4] = 2
geometry.indexDataAsUShort()[5] = 3
geometry.indexDataAsUShort()[6] = 0
geometry.indexDataAsUShort()[7] = 3
geometry.indexDataAsUShort()[8] = 4
geometry.indexDataAsUShort()[9] = 0
geometry.indexDataAsUShort()[10] = 4
geometry.indexDataAsUShort()[11] = 5
paint_node.setGeometry(geometry)
material = QSGFlatColorMaterial()
material.setColor(self._color)
paint_node.setMaterial(material)
# For PyQt 5.4, I need to store these otherwise they will be garbage collected before rendering
# and never show up, but otherwise never crash.
self._paint_node = paint_node
self._geometry = geometry
self._material = material
return paint_node
def updatePaintNode(self, paint_node, update_data):
if paint_node is None:
paint_node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), 6, 12)
geometry.setDrawingMode(QSGGeometry.GL_TRIANGLES)
geometry.vertexDataAsPoint2D()[0].set(self._corner_size, 0)
geometry.vertexDataAsPoint2D()[1].set(0, self._corner_size)
geometry.vertexDataAsPoint2D()[2].set(0, self.height())
geometry.vertexDataAsPoint2D()[3].set(self.width() - self._corner_size, self.height())
geometry.vertexDataAsPoint2D()[4].set(self.width(), self.height() - self._corner_size)
geometry.vertexDataAsPoint2D()[5].set(self.width(), 0)
geometry.indexDataAsUShort()[0] = 0
geometry.indexDataAsUShort()[1] = 1
geometry.indexDataAsUShort()[2] = 2
geometry.indexDataAsUShort()[3] = 0
geometry.indexDataAsUShort()[4] = 2
geometry.indexDataAsUShort()[5] = 3
geometry.indexDataAsUShort()[6] = 0
geometry.indexDataAsUShort()[7] = 3
geometry.indexDataAsUShort()[8] = 4
geometry.indexDataAsUShort()[9] = 0
geometry.indexDataAsUShort()[10] = 4
geometry.indexDataAsUShort()[11] = 5
paint_node.setGeometry(geometry)
material = QSGFlatColorMaterial()
material.setColor(self._color)
paint_node.setMaterial(material)
# For PyQt 5.4, I need to store these otherwise they will be garbage collected before rendering
# and never show up, but otherwise never crash.
self._paint_node = paint_node
self._geometry = geometry
self._material = material
return paint_node
def updatePaintNode(self, oldNode, nodeData):
if self._root_node is None:
self._root_node = QSGGeometryNode()
geometry = QSGGeometry(
QSGGeometry.defaultAttributes_Point2D(), self._segmentCount
)
geometry.setLineWidth(2)
geometry.setDrawingMode(QSGGeometry.GL_LINE_STRIP)
self._root_node.setGeometry(geometry)
self._root_node.setFlag(QSGNode.OwnsGeometry)
material = QSGFlatColorMaterial()
material.setColor(QColor(255, 0, 0))
self._root_node.setMaterial(material)
self._root_node.setFlag(QSGNode.OwnsMaterial)
else:
geometry = self._root_node.geometry()
geometry.allocate(self._segmentCount)
w = self.width()
h = self.height()
vertices = geometry.vertexDataAsPoint2D()
for i in range(self._segmentCount):
t = i / float(self._segmentCount - 1)
invt = 1 - t
pos = (
invt * invt * invt * self._p1
+ 3 * invt * invt * t * self._p2
+ 3 * invt * t * t * self._p3
+ t * t * t * self._p4
)
vertices[i].set(pos.x() * w, pos.y() * h)
self._root_node.markDirty(QSGNode.DirtyGeometry)
return self._root_node
def updatePaintNode(self, oldNode, nodeData):
if self._root_node is None:
self._root_node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(),
self._segmentCount)
geometry.setLineWidth(2)
geometry.setDrawingMode(QSGGeometry.GL_LINE_STRIP)
self._root_node.setGeometry(geometry)
self._root_node.setFlag(QSGNode.OwnsGeometry)
material = QSGFlatColorMaterial()
material.setColor(QColor(255, 0, 0))
self._root_node.setMaterial(material)
self._root_node.setFlag(QSGNode.OwnsMaterial)
else:
geometry = self._root_node.geometry()
geometry.allocate(self._segmentCount)
w = self.width()
h = self.height()
vertices = geometry.vertexDataAsPoint2D()
for i in range(self._segmentCount):
t = i / float(self._segmentCount - 1)
invt = 1 - t
pos = invt * invt * invt * self._p1 \
+ 3 * invt * invt * t * self._p2 \
+ 3 * invt * t * t * self._p3 \
+ t * t * t * self._p4
vertices[i].set(pos.x() * w, pos.y() * h)
self._root_node.markDirty(QSGNode.DirtyGeometry)
return self._root_node
def updatePaintNode(self, paint_node, update_data):
self._node = QSGGeometryNode()
self._geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), 6, 12)
self._geometry.setDrawingMode(0x0004)
self._geometry.vertexDataAsPoint2D()[0].set(self._corner_size, 0)
self._geometry.vertexDataAsPoint2D()[1].set(0, self._corner_size)
self._geometry.vertexDataAsPoint2D()[2].set(0, self.height())
self._geometry.vertexDataAsPoint2D()[3].set(self.width() - self._corner_size, self.height())
self._geometry.vertexDataAsPoint2D()[4].set(self.width(), self.height() - self._corner_size)
self._geometry.vertexDataAsPoint2D()[5].set(self.width(), 0)
self._geometry.indexDataAsUShort()[0] = 0
self._geometry.indexDataAsUShort()[1] = 1
self._geometry.indexDataAsUShort()[2] = 2
self._geometry.indexDataAsUShort()[3] = 0
self._geometry.indexDataAsUShort()[4] = 2
self._geometry.indexDataAsUShort()[5] = 3
self._geometry.indexDataAsUShort()[6] = 0
self._geometry.indexDataAsUShort()[7] = 3
self._geometry.indexDataAsUShort()[8] = 4
self._geometry.indexDataAsUShort()[9] = 0
self._geometry.indexDataAsUShort()[10] = 4
self._geometry.indexDataAsUShort()[11] = 5
self._node.setGeometry(self._geometry)
self._material = QSGFlatColorMaterial()
self._material.setColor(self._color)
self._node.setMaterial(self._material)
return self._node
def updatePaintNode(self, paint_node, update_data):
if paint_node is None:
paint_node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), 7, 9)
geometry.setDrawingMode(QSGGeometry.GL_TRIANGLES)
vertex_data = geometry.vertexDataAsPoint2D()
vertex_data[0].set(0, 0)
vertex_data[1].set(0, self.height())
vertex_data[2].set(self.width(), self.height())
vertex_data[3].set(self.width(), 0)
# no arrow by default
vertex_data[4].set(0, 0)
vertex_data[5].set(0, 0)
vertex_data[6].set(0, 0)
target_offset = self._target - QPoint(self.x(), self.y())
arrow_on_side = -1 # no arrow
arrow_size = 0
arrow_offset = 0
if target_offset.x() >= 0 and target_offset.x() <= self.width():
arrow_size = min(self._arrow_size, self.width() / 2)
arrow_offset = max(
arrow_size, min(self.width() - arrow_size, target_offset.x()))
if target_offset.y() < 0:
# top
vertex_data[4].set(arrow_offset - arrow_size, 0)
vertex_data[5].set(arrow_offset, -arrow_size)
vertex_data[6].set(arrow_offset + arrow_size, 0)
arrow_on_side = 0
elif target_offset.y() > self.height():
# bottom
vertex_data[4].set(arrow_offset - arrow_size, self.height())
vertex_data[5].set(arrow_offset, self.height() + arrow_size)
vertex_data[6].set(arrow_offset + arrow_size, self.height())
arrow_on_side = 2
elif target_offset.y() >= 0 and target_offset.y() <= self.height():
arrow_size = min(self._arrow_size, self.height() / 2)
arrow_offset = max(
arrow_size, min(self.height() - arrow_size, target_offset.y()))
if target_offset.x() < 0:
# left
vertex_data[4].set(0, arrow_offset - arrow_size)
vertex_data[5].set(-arrow_size, arrow_offset)
vertex_data[6].set(0, arrow_offset + arrow_size)
arrow_on_side = 3
elif target_offset.x() > self.width():
# right
vertex_data[4].set(self.width(), arrow_offset - arrow_size)
vertex_data[5].set(self.width() + arrow_size, arrow_offset)
vertex_data[6].set(self.width(), arrow_offset + arrow_size)
arrow_on_side = 1
index_data = geometry.indexDataAsUShort()
index_data[0] = 0
index_data[1] = 1
index_data[2] = 2
index_data[3] = 0
index_data[4] = 2
index_data[5] = 3
index_data[6] = 4
index_data[7] = 5
index_data[8] = 6
paint_node.setGeometry(geometry)
material = QSGFlatColorMaterial()
material.setColor(self._color)
paint_node.setMaterial(material)
if self._border_width > 0:
if paint_node.childCount() == 0:
paint_node.appendChildNode(QSGGeometryNode())
border_node = paint_node.firstChild()
border_vertices = []
border_vertices.append((0, 0))
if arrow_on_side == 0:
border_vertices.append((arrow_offset - arrow_size, 0))
border_vertices.append((arrow_offset, -arrow_size))
border_vertices.append((arrow_offset + arrow_size, 0))
border_vertices.append((self.width(), 0))
if arrow_on_side == 1:
border_vertices.append(
(self.width(), arrow_offset - arrow_size))
border_vertices.append(
(self.width() + arrow_size, arrow_offset))
border_vertices.append(
(self.width(), arrow_offset + arrow_size))
border_vertices.append((self.width(), self.height()))
if arrow_on_side == 2:
border_vertices.append(
(arrow_offset + arrow_size, self.height()))
border_vertices.append(
(arrow_offset, self.height() + arrow_size))
border_vertices.append(
(arrow_offset - arrow_size, self.height()))
border_vertices.append((0, self.height()))
if arrow_on_side == 3:
border_vertices.append((0, arrow_offset + arrow_size))
border_vertices.append((-arrow_size, arrow_offset))
border_vertices.append((0, arrow_offset - arrow_size))
border_geometry = QSGGeometry(
QSGGeometry.defaultAttributes_Point2D(),
2 * len(border_vertices), 0)
border_geometry.setDrawingMode(QSGGeometry.GL_LINES)
border_geometry.setLineWidth(self._border_width)
border_vertex_data = border_geometry.vertexDataAsPoint2D()
for index in range(len(border_vertices)):
start_vertex = border_vertices[index]
end_vertex = border_vertices[index + 1] if index < len(
border_vertices) - 1 else border_vertices[0]
border_vertex_data[2 * index].set(start_vertex[0],
start_vertex[1])
border_vertex_data[2 * index + 1].set(end_vertex[0],
end_vertex[1])
border_node.setGeometry(border_geometry)
border_material = QSGFlatColorMaterial()
border_material.setColor(self._border_color)
border_node.setMaterial(border_material)
else:
border_node = None
border_geometry = None
border_material = None
paint_node.removeAllChildNodes()
# For PyQt 5.4, I need to store these otherwise they will be garbage collected before rendering
# and never show up, but otherwise never crash.
self._node = paint_node
self._geometry = geometry
self._material = material
self._border_node = border_node
self._border_geometry = border_geometry
self._border_material = border_material
return paint_node
def updatePaintNode(self, paint_node, update_data):
if paint_node is None:
paint_node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), 7, 9)
geometry.setDrawingMode(QSGGeometry.GL_TRIANGLES)
geometry.vertexDataAsPoint2D()[0].set(0, 0)
geometry.vertexDataAsPoint2D()[1].set(0, self.height())
geometry.vertexDataAsPoint2D()[2].set(self.width(), self.height())
geometry.vertexDataAsPoint2D()[3].set(self.width(), 0)
# no arrow by default
geometry.vertexDataAsPoint2D()[4].set(0, 0)
geometry.vertexDataAsPoint2D()[5].set(0, 0)
geometry.vertexDataAsPoint2D()[6].set(0, 0)
target_offset = self._target - QPoint(self.x(), self.y())
if target_offset.x() >= 0 and target_offset.x() <= self.width():
arrow_size = min(self._arrow_size, self.width()/2)
arrow_offset = max(arrow_size, min(self.width() - arrow_size, target_offset.x()))
if target_offset.y() < 0:
# top
geometry.vertexDataAsPoint2D()[4].set(arrow_offset - arrow_size, 0)
geometry.vertexDataAsPoint2D()[5].set(arrow_offset, - arrow_size)
geometry.vertexDataAsPoint2D()[6].set(arrow_offset + arrow_size, 0)
elif target_offset.y() > self.height():
# bottom
geometry.vertexDataAsPoint2D()[4].set(arrow_offset - arrow_size, self.height())
geometry.vertexDataAsPoint2D()[5].set(arrow_offset, self.height() +arrow_size)
geometry.vertexDataAsPoint2D()[6].set(arrow_offset + arrow_size, self.height())
elif target_offset.y() >= 0 and target_offset.y() <= self.height():
arrow_size = min(self._arrow_size, self.height()/2)
arrow_offset = max(arrow_size, min(self.height() - arrow_size, target_offset.y()))
if target_offset.x() < 0:
# left
geometry.vertexDataAsPoint2D()[4].set(0, arrow_offset - arrow_size)
geometry.vertexDataAsPoint2D()[5].set(-arrow_size, arrow_offset)
geometry.vertexDataAsPoint2D()[6].set(0, arrow_offset + arrow_size)
elif target_offset.x() > self.width():
# right
geometry.vertexDataAsPoint2D()[4].set(self.width(), arrow_offset - arrow_size)
geometry.vertexDataAsPoint2D()[5].set(self.width() + arrow_size, arrow_offset)
geometry.vertexDataAsPoint2D()[6].set(self.width(), arrow_offset + arrow_size)
geometry.indexDataAsUShort()[0] = 0
geometry.indexDataAsUShort()[1] = 1
geometry.indexDataAsUShort()[2] = 2
geometry.indexDataAsUShort()[3] = 0
geometry.indexDataAsUShort()[4] = 2
geometry.indexDataAsUShort()[5] = 3
geometry.indexDataAsUShort()[6] = 4
geometry.indexDataAsUShort()[7] = 5
geometry.indexDataAsUShort()[8] = 6
paint_node.setGeometry(geometry)
material = QSGFlatColorMaterial()
material.setColor(self._color)
paint_node.setMaterial(material)
# For PyQt 5.4, I need to store these otherwise they will be garbage collected before rendering
# and never show up, but otherwise never crash.
self._paint_node = paint_node
self._geometry = geometry
self._material = material
return paint_node
def updatePaintNode(self, paint_node, update_data):
if paint_node is None:
paint_node = QSGGeometryNode()
geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), 7, 9)
geometry.setDrawingMode(QSGGeometry.GL_TRIANGLES)
geometry.vertexDataAsPoint2D()[0].set(0, 0)
geometry.vertexDataAsPoint2D()[1].set(0, self.height())
geometry.vertexDataAsPoint2D()[2].set(self.width(), self.height())
geometry.vertexDataAsPoint2D()[3].set(self.width(), 0)
# no arrow by default
geometry.vertexDataAsPoint2D()[4].set(0, 0)
geometry.vertexDataAsPoint2D()[5].set(0, 0)
geometry.vertexDataAsPoint2D()[6].set(0, 0)
target_offset = self._target - QPoint(self.x(), self.y())
if target_offset.x() >= 0 and target_offset.x() <= self.width():
arrow_size = min(self._arrow_size, self.width() / 2)
arrow_offset = max(
arrow_size, min(self.width() - arrow_size, target_offset.x()))
if target_offset.y() < 0:
# top
geometry.vertexDataAsPoint2D()[4].set(
arrow_offset - arrow_size, 0)
geometry.vertexDataAsPoint2D()[5].set(arrow_offset,
-arrow_size)
geometry.vertexDataAsPoint2D()[6].set(
arrow_offset + arrow_size, 0)
elif target_offset.y() > self.height():
# bottom
geometry.vertexDataAsPoint2D()[4].set(
arrow_offset - arrow_size, self.height())
geometry.vertexDataAsPoint2D()[5].set(
arrow_offset,
self.height() + arrow_size)
geometry.vertexDataAsPoint2D()[6].set(
arrow_offset + arrow_size, self.height())
elif target_offset.y() >= 0 and target_offset.y() <= self.height():
arrow_size = min(self._arrow_size, self.height() / 2)
arrow_offset = max(
arrow_size, min(self.height() - arrow_size, target_offset.y()))
if target_offset.x() < 0:
# left
geometry.vertexDataAsPoint2D()[4].set(
0, arrow_offset - arrow_size)
geometry.vertexDataAsPoint2D()[5].set(-arrow_size,
arrow_offset)
geometry.vertexDataAsPoint2D()[6].set(
0, arrow_offset + arrow_size)
elif target_offset.x() > self.width():
# right
geometry.vertexDataAsPoint2D()[4].set(
self.width(), arrow_offset - arrow_size)
geometry.vertexDataAsPoint2D()[5].set(
self.width() + arrow_size, arrow_offset)
geometry.vertexDataAsPoint2D()[6].set(
self.width(), arrow_offset + arrow_size)
geometry.indexDataAsUShort()[0] = 0
geometry.indexDataAsUShort()[1] = 1
geometry.indexDataAsUShort()[2] = 2
geometry.indexDataAsUShort()[3] = 0
geometry.indexDataAsUShort()[4] = 2
geometry.indexDataAsUShort()[5] = 3
geometry.indexDataAsUShort()[6] = 4
geometry.indexDataAsUShort()[7] = 5
geometry.indexDataAsUShort()[8] = 6
paint_node.setGeometry(geometry)
material = QSGFlatColorMaterial()
material.setColor(self._color)
paint_node.setMaterial(material)
# For PyQt 5.4, I need to store these otherwise they will be garbage collected before rendering
# and never show up, but otherwise never crash.
self._paint_node = paint_node
self._geometry = geometry
self._material = material
return paint_node
class AngledCornerRectangle(QQuickItem):
def __init__(self, parent = None):
super().__init__(parent)
self.setFlag(QQuickItem.ItemHasContents)
self._corner_size = 0
self._color = QColor(255, 255, 255, 255)
self._geometry = None
self._material = None
self._node = None
def getCornerSize(self):
return self._corner_size
def setCornerSize(self, size):
if size != self._corner_size:
self._corner_size = size
self.update()
self.cornerSizeChanged.emit()
cornerSizeChanged = pyqtSignal()
cornerSize = pyqtProperty(float, fget=getCornerSize, fset=setCornerSize, notify=cornerSizeChanged)
def setColor(self, color):
if color != self._color:
self._color = color
self.update()
self.colorChanged.emit()
colorChanged = pyqtSignal()
@pyqtProperty(QColor, fset=setColor, notify=colorChanged)
def color(self):
return self._color
def updatePaintNode(self, paint_node, update_data):
self._node = QSGGeometryNode()
self._geometry = QSGGeometry(QSGGeometry.defaultAttributes_Point2D(), 6, 12)
self._geometry.setDrawingMode(0x0004)
self._geometry.vertexDataAsPoint2D()[0].set(self._corner_size, 0)
self._geometry.vertexDataAsPoint2D()[1].set(0, self._corner_size)
self._geometry.vertexDataAsPoint2D()[2].set(0, self.height())
self._geometry.vertexDataAsPoint2D()[3].set(self.width() - self._corner_size, self.height())
self._geometry.vertexDataAsPoint2D()[4].set(self.width(), self.height() - self._corner_size)
self._geometry.vertexDataAsPoint2D()[5].set(self.width(), 0)
self._geometry.indexDataAsUShort()[0] = 0
self._geometry.indexDataAsUShort()[1] = 1
self._geometry.indexDataAsUShort()[2] = 2
self._geometry.indexDataAsUShort()[3] = 0
self._geometry.indexDataAsUShort()[4] = 2
self._geometry.indexDataAsUShort()[5] = 3
self._geometry.indexDataAsUShort()[6] = 0
self._geometry.indexDataAsUShort()[7] = 3
self._geometry.indexDataAsUShort()[8] = 4
self._geometry.indexDataAsUShort()[9] = 0
self._geometry.indexDataAsUShort()[10] = 4
self._geometry.indexDataAsUShort()[11] = 5
self._node.setGeometry(self._geometry)
self._material = QSGFlatColorMaterial()
self._material.setColor(self._color)
self._node.setMaterial(self._material)
return self._node
