def paintEvent(self, event: QPaintEvent):
painter = QPainter(self)
painter.drawImage(self.rect(), self.image)
if self.show_frame:
painter.save()
pen = QPen()
pen.setWidth(2)
pen.setColor(QColor("black"))
painter.setPen(pen)
rect = QRect(1, 1, self.width() - 2, self.height() - 2)
painter.drawRect(rect)
pen.setColor(QColor("white"))
painter.setPen(pen)
rect = QRect(3, 3, self.width() - 6, self.height() - 6)
painter.drawRect(rect)
painter.restore()
if self.show_arrow:
painter.save()
triangle = QPolygonF()
dist = 4
point1 = QPoint(self.width() - self.triangle_width, 0)
size = QSize(20, self.height() // 2)
rect = QRect(point1, size)
painter.fillRect(rect, QColor("white"))
triangle.append(point1 + QPoint(dist, dist))
triangle.append(point1 + QPoint(size.width() - dist, dist))
triangle.append(point1 + QPoint(size.width() // 2,
size.height() - dist))
painter.setBrush(Qt.black)
painter.drawPolygon(triangle, Qt.WindingFill)
painter.restore()
def paintEvent(self, event: QtGui.QPaintEvent):
border_distance = 5
rect = self.rect()
mid = rect.y() + rect.height() / 2
line_begin = QPointF(rect.height() + 10 + self.text_size.width(), mid)
line_end = QPointF(rect.width() + rect.x() - 5, mid)
triangle = QPolygonF()
side_length = rect.height() - 2 * border_distance
triangle_height = side_length * sqrt(3) / 2
start_point = QPointF(rect.x() + border_distance, rect.y() + border_distance)
if self.isChecked():
triangle.append(start_point)
triangle.append(start_point + QPointF(0, side_length))
triangle.append(start_point + QPointF(triangle_height, side_length / 2))
else:
triangle.append(start_point)
triangle.append(start_point + QPointF(side_length, 0))
triangle.append(start_point + QPointF(side_length / 2, triangle_height))
painter = QPainter(self)
painter.setBrush(Qt.black)
top = rect.height() - (self.text_size.height() / 2)
painter.drawText(rect.height() + 5, top, self.info_text)
painter.drawPolygon(triangle, Qt.WindingFill)
painter.drawLine(QLineF(line_begin, line_end))
def paintEvent(self, event: QPaintEvent):
painter = QPainter(self)
painter.save()
painter.setRenderHint(QPainter.Antialiasing)
size = min(self.width(), self.height())
rect = QRect(0, 0, size, size)
painter.setBrush(self.background_color)
painter.setPen(self.background_color)
painter.drawEllipse(rect)
painter.setBrush(self.main_color)
painter.setPen(self.main_color)
factor = self.nominator / self.denominator
radius = size / 2
if factor > 0.5:
painter.drawChord(rect, 0, 16 * 360 * 0.5)
painter.drawChord(rect, 16 * 180, 16 * 360 * (factor - 0.5))
zero_point = QPointF(0, radius)
else:
painter.drawChord(rect, 0, 16 * 360 * factor)
zero_point = QPointF(size, radius)
mid_point = QPointF(radius, radius)
point = mid_point + QPointF(
math.cos(math.pi * (factor * 2)) * radius, -math.sin(math.pi * (factor * 2)) * radius
)
polygon = QPolygonF()
polygon += mid_point
polygon += zero_point
polygon += point
painter.drawPolygon(polygon)
painter.restore()
def draw_arrow(self, QPainter, point_1: QPointF,
point_2: QPointF) -> 'QPolygonF':
"""
绘制箭头。
:param QPainter:
:param point_1:
:param point_2:
:return:
"""
line = QLineF(point_1, point_2)
v = line.unitVector()
v.setLength(20) # 改变单位向量的大小,实际就是改变箭头长度
v.translate(QPointF(int(line.dx() / 2), int(line.dy() / 2)))
n = v.normalVector() # 法向量
n.setLength(n.length() * 0.2) # 这里设定箭头的宽度
n2 = n.normalVector().normalVector() # 两次法向量运算以后,就得到一个反向的法向量
p1 = v.p2()
p2 = n.p2()
p3 = n2.p2()
if PYSIDE2:
QPainter.drawPolygon([p1, p2, p3])
else:
QPainter.drawPolygon(p1, p2, p3)
return QPolygonF([p1, p2, p3, p1])
class QScale(QFrame):
"""
A bar-shaped indicator for scalar value.
Configurable features include indicator type (bar/pointer), scale tick
marks and orientation (horizontal/vertical).
Parameters
----------
parent : QWidget
The parent widget for the Scale
"""
def __init__(self, parent=None):
super(QScale, self).__init__(parent)
self._value = 1
self._lower_limit = -5
self._upper_limit = 5
self.position = None # unit: pixel
self._bg_color = QColor('darkgray')
self._bg_size_rate = 0.8 # from 0 to 1
self._indicator_color = QColor('black')
self._pointer_width_rate = 0.05
self._barIndicator = False
self._num_divisions = 10
self._show_ticks = True
self._tick_pen = QPen()
self._tick_color = QColor('black')
self._tick_width = 0
self._tick_size_rate = 0.1 # from 0 to 1
self._painter = QPainter()
self._painter_rotation = None
self._painter_translation_y = None
self._painter_translation_x = None
self._painter_scale_x = None
self._flip_traslation_y = None
self._flip_scale_y = None
self._widget_width = self.width()
self._widget_height = self.height()
self._orientation = Qt.Horizontal
self._inverted_appearance = False
self._flip_scale = False
self._scale_height = 35
self._origin_at_zero = False
self._origin_position = 0
self.set_position()
def adjust_transformation(self):
"""
This method sets parameters for the widget transformations (needed to for
orientation, flipping and appearance inversion).
"""
self.setMaximumSize(QWIDGETSIZE_MAX,
QWIDGETSIZE_MAX) # Unset fixed size
if self._orientation == Qt.Horizontal:
self._widget_width = self.width()
self._widget_height = self.height()
self._painter_translation_y = 0
self._painter_rotation = 0
self.setSizePolicy(QSizePolicy.Preferred, QSizePolicy.Fixed)
self.setFixedHeight(self._scale_height)
elif self._orientation == Qt.Vertical:
# Invert dimensions for paintEvent()
self._widget_width = self.height()
self._widget_height = self.width()
self._painter_translation_y = self._widget_width
self._painter_rotation = -90
self.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Expanding)
self.setFixedWidth(self._scale_height)
if self._inverted_appearance:
self._painter_translation_x = self._widget_width
self._painter_scale_x = -1
else:
self._painter_translation_x = 0
self._painter_scale_x = 1
if self._flip_scale:
self._flip_traslation_y = self._widget_height
self._flip_scale_y = -1
else:
self._flip_traslation_y = 0
self._flip_scale_y = 1
def set_tick_pen(self):
"""
Define pen style for drawing scale tick marks.
"""
self._tick_pen.setColor(self._tick_color)
self._tick_pen.setWidth(self._tick_width)
def draw_ticks(self):
"""
Draw tick marks on the scale.
"""
if not self._show_ticks:
return
self.set_tick_pen()
self._painter.setPen(self._tick_pen)
division_size = self._widget_width / self._num_divisions
tick_y0 = self._widget_height
tick_yf = (1 - self._tick_size_rate) * self._widget_height
for i in range(self._num_divisions + 1):
x = i * division_size
self._painter.drawLine(x, tick_y0, x, tick_yf) # x1, y1, x2, y2
def draw_bar(self):
"""
Draw a bar as indicator of current value.
"""
self.set_origin()
self.set_position()
if self.position < 0 or self.position > self._widget_width:
return
self._painter.setPen(Qt.transparent)
self._painter.setBrush(self._indicator_color)
bar_width = self.position - self._origin_position
bar_height = self._bg_size_rate * self._widget_height
self._painter.drawRect(self._origin_position, 0, bar_width, bar_height)
def draw_pointer(self):
"""
Draw a pointer as indicator of current value.
"""
self.set_position()
if self.position < 0 or self.position > self._widget_width:
return
self._painter.setPen(Qt.transparent)
self._painter.setBrush(self._indicator_color)
pointer_width = self._pointer_width_rate * self._widget_width
pointer_height = self._bg_size_rate * self._widget_height
points = [
QPoint(self.position, 0),
QPoint(self.position + 0.5 * pointer_width, 0.5 * pointer_height),
QPoint(self.position, pointer_height),
QPoint(self.position - 0.5 * pointer_width, 0.5 * pointer_height)
]
self._painter.drawPolygon(QPolygon(points))
def draw_indicator(self):
"""
Draw the selected indicator for current value.
"""
if self._barIndicator:
self.draw_bar()
else:
self.draw_pointer()
def draw_background(self):
"""
Draw the background of the scale.
"""
self._painter.setPen(Qt.transparent)
self._painter.setBrush(self._bg_color)
bg_width = self._widget_width
bg_height = self._bg_size_rate * self._widget_height
self._painter.drawRect(0, 0, bg_width, bg_height)
def paintEvent(self, event):
"""
Paint events are sent to widgets that need to update themselves,
for instance when part of a widget is exposed because a covering
widget was moved.
Parameters
----------
event : QPaintEvent
"""
self.adjust_transformation()
self._painter.begin(self)
self._painter.translate(
0, self._painter_translation_y) # Draw vertically if needed
self._painter.rotate(self._painter_rotation)
self._painter.translate(self._painter_translation_x,
0) # Invert appearance if needed
self._painter.scale(self._painter_scale_x, 1)
self._painter.translate(
0, self._flip_traslation_y) # Invert scale if needed
self._painter.scale(1, self._flip_scale_y)
self._painter.setRenderHint(QPainter.Antialiasing)
self.draw_background()
self.draw_ticks()
self.draw_indicator()
self._painter.end()
def calculate_position_for_value(self, value):
"""
Calculate the position (pixel) in which the pointer should be drawn for a given value.
"""
if value is None or value < self._lower_limit or value > self._upper_limit or \
self._upper_limit - self._lower_limit == 0:
proportion = -1 # Invalid
else:
proportion = (value - self._lower_limit) / (self._upper_limit -
self._lower_limit)
position = int(proportion * self._widget_width)
return position
def set_origin(self):
"""
Set the position (pixel) in which the origin should be drawn.
"""
if self._origin_at_zero:
self._origin_position = self.calculate_position_for_value(0)
else:
self._origin_position = 0
def set_position(self):
"""
Set the position (pixel) in which the pointer should be drawn.
"""
self.position = self.calculate_position_for_value(self._value)
def update_indicator(self):
"""
Update the position and the drawing of indicator.
"""
self.set_position()
self.repaint()
def set_value(self, value):
"""
Set a new current value for the indicator.
"""
self._value = value
self.update_indicator()
def set_upper_limit(self, new_limit):
"""
Set the scale upper limit.
Parameters
----------
new_limit : float
The upper limit of the scale.
"""
self._upper_limit = new_limit
def set_lower_limit(self, new_limit):
"""
Set the scale lower limit.
Parameters
----------
new_limit : float
The lower limit of the scale.
"""
self._lower_limit = new_limit
def get_show_ticks(self):
return self._show_ticks
def set_show_ticks(self, checked):
if self._show_ticks != bool(checked):
self._show_ticks = checked
self.repaint()
def get_orientation(self):
return self._orientation
def set_orientation(self, orientation):
self._orientation = orientation
self.adjust_transformation()
self.repaint()
def get_flip_scale(self):
return self._flip_scale
def set_flip_scale(self, checked):
self._flip_scale = bool(checked)
self.adjust_transformation()
self.repaint()
def get_inverted_appearance(self):
return self._inverted_appearance
def set_inverted_appearance(self, inverted):
self._inverted_appearance = inverted
self.adjust_transformation()
self.repaint()
def get_bar_indicator(self):
return self._barIndicator
def set_bar_indicator(self, checked):
if self._barIndicator != bool(checked):
self._barIndicator = checked
self.repaint()
def get_background_color(self):
return self._bg_color
def set_background_color(self, color):
self._bg_color = color
self.repaint()
def get_indicator_color(self):
return self._indicator_color
def set_indicator_color(self, color):
self._indicator_color = color
self.repaint()
def get_tick_color(self):
return self._tick_color
def set_tick_color(self, color):
self._tick_color = color
self.repaint()
def get_background_size_rate(self):
return self._bg_size_rate
def set_background_size_rate(self, rate):
if rate >= 0 and rate <= 1 and self._bg_size_rate != rate:
self._bg_size_rate = rate
self.repaint()
def get_tick_size_rate(self):
return self._tick_size_rate
def set_tick_size_rate(self, rate):
if rate >= 0 and rate <= 1 and self._tick_size_rate != rate:
self._tick_size_rate = rate
self.repaint()
def get_num_divisions(self):
return self._num_divisions
def set_num_divisions(self, divisions):
if isinstance(
divisions,
int) and divisions > 0 and self._num_divisions != divisions:
self._num_divisions = divisions
self.repaint()
def get_scale_height(self):
return self._scale_height
def set_scale_height(self, value):
self._scale_height = int(value)
self.adjust_transformation()
self.repaint()
def get_origin_at_zero(self):
return self._origin_at_zero
def set_origin_at_zero(self, checked):
if self._origin_at_zero != bool(checked):
self._origin_at_zero = checked
self.repaint()
def graph2icon(g: Graph,
width: int,
node_mode: bool,
show_label: bool,
monochrome: bool,
*,
except_node: Optional[int] = None,
engine: str = "",
pos: Optional[_Pos] = None) -> QIcon:
"""Draw a generalized chain graph."""
if engine:
pos = engine_picker(g, engine, node_mode)
if pos is None:
raise ValueError("no engine selected")
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:
color = color_qt('dark-gray') if monochrome else LINK_COLOR
color.setAlpha(150)
painter.setBrush(QBrush(color))
for link in g.vertices:
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 vertices
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))
class BaseCanvas(QWidget, metaclass=QABCMeta):
"""The subclass can draw a blank canvas more easier."""
@abstractmethod
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.setMouseTracking(True)
self.painter = QPainter()
# Origin coordinate
self.ox = self.width() / 2
self.oy = self.height() / 2
# Canvas zoom rate
self.zoom = 1.
# Joint size
self.joint_size = 5
# Canvas line width
self.link_width = 3
self.path_width = 3
# Font size
self.font_size = 15
# Show point mark or dimension
self.show_ticks = _TickMark.SHOW
self.show_point_mark = True
self.show_dimension = True
# Path track
self.path = _PathOption()
# Path solving
self.ranges: Dict[str, QRectF] = {}
self.target_path: Dict[int, Sequence[_Coord]] = {}
self.show_target_path = False
# Background
self.background = QImage()
self.background_opacity = 1.
self.background_scale = 1.
self.background_offset = QPointF(0, 0)
# Monochrome mode
self.monochrome = False
# Grab mode
self.__grab_mode = False
def switch_grab(self) -> None:
"""Start grab mode."""
self.__grab_mode = not self.__grab_mode
@staticmethod
def zoom_factor(width: int, height: int, x_right: float, x_left: float,
y_top: float, y_bottom: float) -> float:
"""Calculate the zoom factor."""
x_diff = x_left - x_right
y_diff = y_top - y_bottom
x_diff = x_diff if x_diff else 1.
y_diff = y_diff if y_diff else 1.
if width / x_diff < height / y_diff:
return width / x_diff
else:
return height / y_diff
@abstractmethod
def paintEvent(self, event: QPaintEvent) -> None:
"""Using a QPainter under 'self',
so just change QPen or QBrush before painting.
"""
if not self.__grab_mode:
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)
self.painter.drawImage(
QRectF(
self.background_offset * self.zoom,
QSizeF(rect.width(), 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
if self.show_ticks not in {_TickMark.SHOW, _TickMark.SHOW_NUM}:
return
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: float) -> int:
"""Draw tick."""
return int(v / self.zoom - v / self.zoom % 5)
# Draw tick
for x in range(indexing(x_l), indexing(x_r) + 1, 5):
if x == 0:
continue
is_ten = x % 10 == 0
end = QPointF(x * self.zoom, -10 if is_ten else -5)
self.painter.drawLine(QPointF(x, 0) * self.zoom, end)
if self.show_ticks == _TickMark.SHOW_NUM and is_ten:
self.painter.drawText(end + QPointF(0, 3), f"{x}")
for y in range(indexing(y_b), indexing(y_t) + 1, 5):
if y == 0:
continue
is_ten = y % 10 == 0
end = QPointF(10 if is_ten else 5, y * self.zoom)
self.painter.drawLine(QPointF(0, y) * self.zoom, end)
if self.show_ticks == _TickMark.SHOW_NUM and is_ten:
self.painter.drawText(end + QPointF(3, 0), f"{-y}")
# Please to call the "end" method when ending paint event.
def draw_circle(self, p: QPointF, r: float) -> None:
"""Draw circle."""
self.painter.drawEllipse(p, r, r)
def draw_point(self,
i: int,
cx: float,
cy: float,
fixed: bool,
color: Optional[Tuple[int, int, int]],
mul: int = 1) -> None:
"""Draw a joint."""
if self.monochrome or color is None:
color = Qt.black
else:
color = QColor(*color)
pen = QPen(color)
pen.setWidth(2)
self.painter.setPen(pen)
x = cx * self.zoom
y = cy * -self.zoom
if fixed:
# Draw a triangle below
self.painter.drawPolygon(
QPointF(x, y),
QPointF(x - self.joint_size, y + 2 * self.joint_size),
QPointF(x + self.joint_size, y + 2 * self.joint_size))
r = self.joint_size
for _ in range(1 if mul < 1 else mul):
self.draw_circle(QPointF(x, y), r)
r += 5
if not self.show_point_mark:
return
pen.setColor(Qt.darkGray)
pen.setWidth(2)
self.painter.setPen(pen)
text = f"[Point{i}]"
if self.show_dimension:
text += f":({cx:.02f}, {cy:.02f})"
self.painter.drawText(QPointF(x, y) + QPointF(6, -6), text)
def draw_ranges(self) -> None:
"""Draw rectangle ranges."""
pen = QPen()
pen.setWidth(5)
for i, (tag, rect) in enumerate(self.ranges.items()):
range_color = QColor(color_num(i + 1))
range_color.setAlpha(30)
self.painter.setBrush(range_color)
range_color.setAlpha(255)
pen.setColor(range_color)
self.painter.setPen(pen)
cx = rect.x() * self.zoom
cy = rect.y() * -self.zoom
if rect.width():
self.painter.drawRect(
QRectF(QPointF(cx, cy),
QSizeF(rect.width(), rect.height()) * self.zoom))
else:
self.draw_circle(QPointF(cx, cy), 3)
range_color.setAlpha(255)
pen.setColor(range_color)
self.painter.setPen(pen)
self.painter.drawText(QPointF(cx, cy) + QPointF(6, -6), tag)
self.painter.setBrush(Qt.NoBrush)
def draw_target_path(self) -> None:
"""Draw solving path."""
pen = QPen()
pen.setWidth(self.path_width)
for i, n in enumerate(sorted(self.target_path)):
path = self.target_path[n]
if self.monochrome:
line, dot = target_path_style(0)
else:
line, dot = target_path_style(i + 1)
pen.setColor(line)
self.painter.setPen(pen)
if len(path) == 1:
x, y = path[0]
p = QPointF(x, -y) * self.zoom
self.painter.drawText(p + QPointF(6, -6), f"P{n}")
pen.setColor(dot)
self.painter.setPen(pen)
self.draw_circle(p, self.joint_size)
else:
painter_path = QPainterPath()
for j, (x, y) in enumerate(path):
p = QPointF(x, -y) * self.zoom
self.draw_circle(p, self.joint_size)
if j == 0:
self.painter.drawText(p + QPointF(6, -6), f"P{n}")
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(line)
self.painter.setPen(pen)
self.painter.drawPath(painter_path)
for x, y in path:
pen.setColor(dot)
self.painter.setPen(pen)
self.draw_circle(
QPointF(x, -y) * self.zoom, 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 = '') -> None:
"""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 draw_curve(self, path: Sequence[_Coord]) -> None:
"""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:
p = QPointF(x, -y) * self.zoom
if i == 0:
painter_path.moveTo(p)
self.draw_circle(p, 2)
continue
if error:
painter_path.moveTo(p)
error = False
else:
painter_path.lineTo(p)
self.painter.drawPath(painter_path)
def draw_dot(self, path: Sequence[_Coord]) -> None:
"""Draw path as dots."""
if len(set(path)) < 2:
return
for i, (x, y) in enumerate(path):
if isnan(x):
continue
p = QPointF(x, -y) * self.zoom
if i == 0:
self.draw_circle(p, 2)
else:
self.painter.drawPoint(p)
def solution_polygon(
self, func: str, args: Sequence[str], target: str,
pos: Sequence[VPoint]) -> 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:
vpoint = pos[index]
tmp_list.append(QPointF(vpoint.cx, -vpoint.cy) * self.zoom)
return tmp_list, color
def draw_solution(self, func: str, args: Sequence[str], target: str,
pos: Sequence[VPoint]) -> None:
"""Draw the solution triangle."""
points, color = self.solution_polygon(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) -> None:
"""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)
@Slot(int)
def set_show_ticks(self, show: int):
"""Set the appearance of tick mark."""
self.show_ticks = _TickMark(show + 1)
self.update()
@Slot(bool)
def set_monochrome_mode(self, monochrome: bool) -> None:
"""Set monochrome mode."""
self.monochrome = monochrome
self.update()
class QScale(QFrame):
"""
A bar-shaped indicator for scalar value.
Configurable features include indicator type (bar/pointer), scale tick
marks and orientation (horizontal/vertical).
Parameters
----------
parent : QWidget
The parent widget for the Scale
"""
def __init__(self, parent=None):
super(QScale, self).__init__(parent)
self._value = 1
self._lower_limit = -5
self._upper_limit = 5
self.position = None # unit: pixel
self._bg_color = QColor('darkgray')
self._bg_size_rate = 0.8 # from 0 to 1
self._indicator_color = QColor('black')
self._pointer_width_rate = 0.05
self._barIndicator = False
self._num_divisions = 10
self._show_ticks = True
self._tick_pen = QPen()
self._tick_color = QColor('black')
self._tick_width = 0
self._tick_size_rate = 0.1 # from 0 to 1
self._painter = QPainter()
self._painter_rotation = None
self._painter_translation_y = None
self._painter_translation_x = None
self._painter_scale_x = None
self._flip_traslation_y = None
self._flip_scale_y = None
self._widget_width = self.width()
self._widget_height = self.height()
self._orientation = Qt.Horizontal
self._inverted_appearance = False
self._flip_scale = False
self._scale_height = 35
self._origin_at_zero = False
self._origin_position = 0
self.set_position()
def adjust_transformation(self):
"""
This method sets parameters for the widget transformations (needed to for
orientation, flipping and appearance inversion).
"""
self.setMaximumSize(QWIDGETSIZE_MAX, QWIDGETSIZE_MAX) # Unset fixed size
if self._orientation == Qt.Horizontal:
self._widget_width = self.width()
self._widget_height = self.height()
self._painter_translation_y = 0
self._painter_rotation = 0
self.setSizePolicy(QSizePolicy.Preferred, QSizePolicy.Fixed)
self.setFixedHeight(self._scale_height)
elif self._orientation == Qt.Vertical:
# Invert dimensions for paintEvent()
self._widget_width = self.height()
self._widget_height = self.width()
self._painter_translation_y = self._widget_width
self._painter_rotation = -90
self.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Expanding)
self.setFixedWidth(self._scale_height)
if self._inverted_appearance:
self._painter_translation_x = self._widget_width
self._painter_scale_x = -1
else:
self._painter_translation_x = 0
self._painter_scale_x = 1
if self._flip_scale:
self._flip_traslation_y = self._widget_height
self._flip_scale_y = -1
else:
self._flip_traslation_y = 0
self._flip_scale_y = 1
def set_tick_pen(self):
"""
Define pen style for drawing scale tick marks.
"""
self._tick_pen.setColor(self._tick_color)
self._tick_pen.setWidth(self._tick_width)
def draw_ticks(self):
"""
Draw tick marks on the scale.
"""
if not self._show_ticks:
return
self.set_tick_pen()
self._painter.setPen(self._tick_pen)
division_size = self._widget_width / self._num_divisions
tick_y0 = self._widget_height
tick_yf = (1 - self._tick_size_rate)*self._widget_height
for i in range(self._num_divisions+1):
x = i*division_size
self._painter.drawLine(x, tick_y0, x, tick_yf) # x1, y1, x2, y2
def draw_bar(self):
"""
Draw a bar as indicator of current value.
"""
self.set_origin()
self.set_position()
if self.position < 0 or self.position > self._widget_width:
return
self._painter.setPen(Qt.transparent)
self._painter.setBrush(self._indicator_color)
bar_width = self.position - self._origin_position
bar_height = self._bg_size_rate * self._widget_height
self._painter.drawRect(self._origin_position, 0, bar_width, bar_height)
def draw_pointer(self):
"""
Draw a pointer as indicator of current value.
"""
self.set_position()
if self.position < 0 or self.position > self._widget_width:
return
self._painter.setPen(Qt.transparent)
self._painter.setBrush(self._indicator_color)
pointer_width = self._pointer_width_rate * self._widget_width
pointer_height = self._bg_size_rate * self._widget_height
points = [
QPoint(self.position, 0),
QPoint(self.position + 0.5*pointer_width, 0.5*pointer_height),
QPoint(self.position, pointer_height),
QPoint(self.position - 0.5*pointer_width, 0.5*pointer_height)
]
self._painter.drawPolygon(QPolygon(points))
def draw_indicator(self):
"""
Draw the selected indicator for current value.
"""
if self._barIndicator:
self.draw_bar()
else:
self.draw_pointer()
def draw_background(self):
"""
Draw the background of the scale.
"""
self._painter.setPen(Qt.transparent)
self._painter.setBrush(self._bg_color)
bg_width = self._widget_width
bg_height = self._bg_size_rate * self._widget_height
self._painter.drawRect(0, 0, bg_width, bg_height)
def paintEvent(self, event):
"""
Paint events are sent to widgets that need to update themselves,
for instance when part of a widget is exposed because a covering
widget was moved.
Parameters
----------
event : QPaintEvent
"""
self.adjust_transformation()
self._painter.begin(self)
self._painter.translate(0, self._painter_translation_y) # Draw vertically if needed
self._painter.rotate(self._painter_rotation)
self._painter.translate(self._painter_translation_x, 0) # Invert appearance if needed
self._painter.scale(self._painter_scale_x, 1)
self._painter.translate(0, self._flip_traslation_y) # Invert scale if needed
self._painter.scale(1, self._flip_scale_y)
self._painter.setRenderHint(QPainter.Antialiasing)
self.draw_background()
self.draw_ticks()
self.draw_indicator()
self._painter.end()
def calculate_position_for_value(self, value):
"""
Calculate the position (pixel) in which the pointer should be drawn for a given value.
"""
if value < self._lower_limit or value > self._upper_limit or \
self._upper_limit - self._lower_limit == 0:
proportion = -1 # Invalid
else:
proportion = (value - self._lower_limit) / (self._upper_limit - self._lower_limit)
position = int(proportion * self._widget_width)
return position
def set_origin(self):
"""
Set the position (pixel) in which the origin should be drawn.
"""
if self._origin_at_zero:
self._origin_position = self.calculate_position_for_value(0)
else:
self._origin_position = 0
def set_position(self):
"""
Set the position (pixel) in which the pointer should be drawn.
"""
self.position = self.calculate_position_for_value(self._value)
def update_indicator(self):
"""
Update the position and the drawing of indicator.
"""
self.set_position()
self.repaint()
def set_value(self, value):
"""
Set a new current value for the indicator.
"""
self._value = value
self.update_indicator()
def set_upper_limit(self, new_limit):
"""
Set the scale upper limit.
Parameters
----------
new_limit : float
The upper limit of the scale.
"""
self._upper_limit = new_limit
def set_lower_limit(self, new_limit):
"""
Set the scale lower limit.
Parameters
----------
new_limit : float
The lower limit of the scale.
"""
self._lower_limit = new_limit
def get_show_ticks(self):
return self._show_ticks
def set_show_ticks(self, checked):
if self._show_ticks != bool(checked):
self._show_ticks = checked
self.repaint()
def get_orientation(self):
return self._orientation
def set_orientation(self, orientation):
self._orientation = orientation
self.adjust_transformation()
self.repaint()
def get_flip_scale(self):
return self._flip_scale
def set_flip_scale(self, checked):
self._flip_scale = bool(checked)
self.adjust_transformation()
self.repaint()
def get_inverted_appearance(self):
return self._inverted_appearance
def set_inverted_appearance(self, inverted):
self._inverted_appearance = inverted
self.adjust_transformation()
self.repaint()
def get_bar_indicator(self):
return self._barIndicator
def set_bar_indicator(self, checked):
if self._barIndicator != bool(checked):
self._barIndicator = checked
self.repaint()
def get_background_color(self):
return self._bg_color
def set_background_color(self, color):
self._bg_color = color
self.repaint()
def get_indicator_color(self):
return self._indicator_color
def set_indicator_color(self, color):
self._indicator_color = color
self.repaint()
def get_tick_color(self):
return self._tick_color
def set_tick_color(self, color):
self._tick_color = color
self.repaint()
def get_background_size_rate(self):
return self._bg_size_rate
def set_background_size_rate(self, rate):
if rate >= 0 and rate <=1 and self._bg_size_rate != rate:
self._bg_size_rate = rate
self.repaint()
def get_tick_size_rate(self):
return self._tick_size_rate
def set_tick_size_rate(self, rate):
if rate >= 0 and rate <=1 and self._tick_size_rate != rate:
self._tick_size_rate = rate
self.repaint()
def get_num_divisions(self):
return self._num_divisions
def set_num_divisions(self, divisions):
if isinstance(divisions, int) and divisions > 0 and self._num_divisions != divisions:
self._num_divisions = divisions
self.repaint()
def get_scale_height(self):
return self._scale_height
def set_scale_height(self, value):
self._scale_height = int(value)
self.adjust_transformation()
self.repaint()
def get_origin_at_zero(self):
return self._origin_at_zero
def set_origin_at_zero(self, checked):
if self._origin_at_zero != bool(checked):
self._origin_at_zero = checked
self.repaint()
def create_high_dpi_drop_indicator_pixmap(
self, size: QSizeF, area: DockWidgetArea,
mode: OverlayMode) -> QPixmap:
'''
Create high dpi drop indicator pixmap
Parameters
----------
size : QSizeF
area : DockWidgetArea
mode : OverlayMode
Returns
-------
value : QPixmap
'''
border_color = self.icon_color(IconColor.frame_color)
background_color = self.icon_color(IconColor.window_background_color)
window = self.public.window()
# QT version compatibility (TODO necessary for qtpy?)
device_pixel_ratio = (window.devicePixelRatioF()
if hasattr(window, 'devicePixelRatioF')
else window.devicePixelRatio())
pixmap_size = QSizeF(size * device_pixel_ratio)
pm = QPixmap(pixmap_size.toSize())
pm.fill(QColor(0, 0, 0, 0))
p = QPainter(pm)
pen = p.pen()
shadow_rect = QRectF(pm.rect())
base_rect = QRectF()
base_rect.setSize(shadow_rect.size() * 0.7)
base_rect.moveCenter(shadow_rect.center())
# Fill
shadow_color = self.icon_color(IconColor.shadow_color)
if shadow_color.alpha() == 255:
shadow_color.setAlpha(64)
p.fillRect(shadow_rect, shadow_color)
# Drop area rect.
p.save()
area_rect = QRectF()
area_line = QLineF()
non_area_rect = QRectF()
if area == DockWidgetArea.top:
area_rect = QRectF(base_rect.x(), base_rect.y(), base_rect.width(),
base_rect.height()*.5)
non_area_rect = QRectF(base_rect.x(), shadow_rect.height()*.5,
base_rect.width(), base_rect.height()*.5)
area_line = QLineF(area_rect.bottomLeft(), area_rect.bottomRight())
elif area == DockWidgetArea.right:
area_rect = QRectF(shadow_rect.width()*.5, base_rect.y(),
base_rect.width()*.5, base_rect.height())
non_area_rect = QRectF(base_rect.x(), base_rect.y(),
base_rect.width()*.5, base_rect.height())
area_line = QLineF(area_rect.topLeft(), area_rect.bottomLeft())
elif area == DockWidgetArea.bottom:
area_rect = QRectF(base_rect.x(), shadow_rect.height()*.5,
base_rect.width(), base_rect.height()*.5)
non_area_rect = QRectF(base_rect.x(), base_rect.y(),
base_rect.width(), base_rect.height()*.5)
area_line = QLineF(area_rect.topLeft(), area_rect.topRight())
elif area == DockWidgetArea.left:
area_rect = QRectF(base_rect.x(), base_rect.y(),
base_rect.width()*.5, base_rect.height())
non_area_rect = QRectF(shadow_rect.width()*.5, base_rect.y(),
base_rect.width()*.5, base_rect.height())
area_line = QLineF(area_rect.topRight(), area_rect.bottomRight())
baseSize = base_rect.size()
if (OverlayMode.container == mode
and area != DockWidgetArea.center):
base_rect = area_rect
p.fillRect(base_rect, background_color)
if area_rect.isValid():
pen = p.pen()
pen.setColor(border_color)
Color = self.icon_color(IconColor.overlay_color)
if Color.alpha() == 255:
Color.setAlpha(64)
p.setBrush(Color)
p.setPen(Qt.NoPen)
p.drawRect(area_rect)
pen = p.pen()
pen.setWidth(1)
pen.setColor(border_color)
pen.setStyle(Qt.DashLine)
p.setPen(pen)
p.drawLine(area_line)
p.restore()
p.save()
# Draw outer border
pen = p.pen()
pen.setColor(border_color)
pen.setWidth(1)
p.setBrush(Qt.NoBrush)
p.setPen(pen)
p.drawRect(base_rect)
# draw window title bar
p.setBrush(border_color)
frame_rect = QRectF(base_rect.topLeft(),
QSizeF(base_rect.width(), baseSize.height()/10))
p.drawRect(frame_rect)
p.restore()
# Draw arrow for outer container drop indicators
if (OverlayMode.container == mode and
area != DockWidgetArea.center):
arrow_rect = QRectF()
arrow_rect.setSize(baseSize)
arrow_rect.setWidth(arrow_rect.width()/4.6)
arrow_rect.setHeight(arrow_rect.height()/2)
arrow_rect.moveCenter(QPointF(0, 0))
arrow = QPolygonF()
arrow.append(arrow_rect.topLeft())
arrow.append(QPointF(arrow_rect.right(), arrow_rect.center().y()))
arrow.append(arrow_rect.bottomLeft())
p.setPen(Qt.NoPen)
p.setBrush(self.icon_color(IconColor.arrow_color))
p.setRenderHint(QPainter.Antialiasing, True)
p.translate(non_area_rect.center().x(), non_area_rect.center().y())
if area == DockWidgetArea.top:
p.rotate(-90)
elif area == DockWidgetArea.right:
...
elif area == DockWidgetArea.bottom:
p.rotate(90)
elif area == DockWidgetArea.left:
p.rotate(180)
p.drawPolygon(arrow)
pm.setDevicePixelRatio(device_pixel_ratio)
return pm
