def getLinkPointForParameter(self, paramIndex):
offsetX = 25
if isinstance(self.element, Algorithm) and self.element.paramsFolded:
paramIndex = -1
offsetX = 17
font = QFont('Verdana', 8)
font.setPixelSize(12)
fm = QFontMetricsF(font)
if isinstance(self.element, Algorithm):
h = -(fm.height() * 1.2) * (paramIndex + 2) - fm.height() / 2.0 + 8
h = h - ModelerGraphicItem.BOX_HEIGHT / 2.0
else:
h = 0
return QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + offsetX, h)
def getAdjustedText(self, text):
font = QFont('Verdana', 8)
font.setPixelSize(12)
fm = QFontMetricsF(font)
w = fm.width(text)
if w < self.BOX_WIDTH - 25 - FlatButtonGraphicItem.WIDTH:
return text
text = text[0:-3] + '…'
w = fm.width(text)
while w > self.BOX_WIDTH - 25 - FlatButtonGraphicItem.WIDTH:
text = text[0:-4] + '…'
w = fm.width(text)
return text
def getLinkPointForOutput(self, outputIndex):
if isinstance(self.element, Algorithm) and self.element.algorithm.outputs:
outputIndex = (outputIndex if not self.element.outputsFolded else -1)
text = self.getAdjustedText(self.element.algorithm.outputs[outputIndex].description)
font = QFont('Verdana', 8)
font.setPixelSize(12)
fm = QFontMetricsF(font)
w = fm.width(text)
h = fm.height() * 1.2 * (outputIndex + 1) + fm.height() / 2.0
y = h + ModelerGraphicItem.BOX_HEIGHT / 2.0 + 5
x = (-ModelerGraphicItem.BOX_WIDTH / 2 + 33 + w
+ 5 if not self.element.outputsFolded else 10)
return QPointF(x, y)
else:
return QPointF(0, 0)
def boundingRect(self):
font = QFont('Verdana', 8)
font.setPixelSize(12)
fm = QFontMetricsF(font)
unfolded = isinstance(self.element, QgsProcessingModelChildAlgorithm) and not self.element.parametersCollapsed()
numParams = len([a for a in self.element.algorithm().parameterDefinitions() if not a.isDestination()]) if unfolded else 0
unfolded = isinstance(self.element, QgsProcessingModelChildAlgorithm) and not self.element.outputsCollapsed()
numOutputs = len(self.element.algorithm().outputDefinitions()) if unfolded else 0
hUp = fm.height() * 1.2 * (numParams + 2)
hDown = fm.height() * 1.2 * (numOutputs + 2)
rect = QRectF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 - hUp,
ModelerGraphicItem.BOX_WIDTH + 2,
ModelerGraphicItem.BOX_HEIGHT + hDown + hUp)
return rect
def boundingRect(self):
font = QFont('Verdana', 8)
font.setPixelSize(12)
fm = QFontMetricsF(font)
unfolded = isinstance(self.element, Algorithm) and not self.element.paramsFolded
numParams = len(self.element.algorithm.parameters) if unfolded else 0
unfolded = isinstance(self.element, Algorithm) and not self.element.outputsFolded
numOutputs = len(self.element.algorithm.outputs) if unfolded else 0
hUp = fm.height() * 1.2 * (numParams + 2)
hDown = fm.height() * 1.2 * (numOutputs + 2)
rect = QRectF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 - hUp,
ModelerGraphicItem.BOX_WIDTH + 2,
ModelerGraphicItem.BOX_HEIGHT + hDown + hUp)
return rect
def polygon(self):
font = QFont('Verdana', 8)
font.setPixelSize(12)
fm = QFontMetricsF(font)
hUp = fm.height() * 1.2 * (len(self.element.parameters) + 2)
hDown = fm.height() * 1.2 * (len(self.element.outputs) + 2)
pol = QPolygonF([
QPointF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 - hUp),
QPointF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2,
(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 + hDown),
QPointF((ModelerGraphicItem.BOX_WIDTH + 2) / 2,
(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 + hDown),
QPointF((ModelerGraphicItem.BOX_WIDTH + 2) / 2,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 - hUp),
QPointF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 - hUp)
])
return pol
def boundingRect(self):
font = QFont('Verdana', 8)
font.setPixelSize(12)
fm = QFontMetricsF(font)
unfolded = isinstance(self.element, QgsProcessingModelChildAlgorithm
) and not self.element.parametersCollapsed()
numParams = len([
a for a in self.element.algorithm().parameterDefinitions()
if not a.isDestination()
]) if unfolded else 0
unfolded = isinstance(self.element, QgsProcessingModelChildAlgorithm
) and not self.element.outputsCollapsed()
numOutputs = len(
self.element.algorithm().outputDefinitions()) if unfolded else 0
hUp = fm.height() * 1.2 * (numParams + 2)
hDown = fm.height() * 1.2 * (numOutputs + 2)
rect = QRectF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2 - hUp,
ModelerGraphicItem.BOX_WIDTH + 2,
ModelerGraphicItem.BOX_HEIGHT + hDown + hUp)
return rect
def paint(self, painter, option, widget=None):
rect = QRectF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2.0,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2.0,
ModelerGraphicItem.BOX_WIDTH + 2,
ModelerGraphicItem.BOX_HEIGHT + 2)
if isinstance(self.element, QgsProcessingModelParameter):
color = QColor(238, 242, 131)
stroke = QColor(234, 226, 118)
selected = QColor(116, 113, 68)
elif isinstance(self.element, QgsProcessingModelChildAlgorithm):
color = QColor(255, 255, 255)
stroke = Qt.gray
selected = QColor(50, 50, 50)
else:
color = QColor(172, 196, 114)
stroke = QColor(90, 140, 90)
selected = QColor(42, 65, 42)
if self.isSelected():
stroke = selected
color = color.darker(110)
painter.setPen(QPen(stroke, 0)) # 0 width "cosmetic" pen
painter.setBrush(QBrush(color, Qt.SolidPattern))
painter.drawRect(rect)
font = QFont('Verdana', 8)
font.setPixelSize(12)
painter.setFont(font)
painter.setPen(QPen(Qt.black))
text = self.getAdjustedText(self.text)
if isinstance(self.element, QgsProcessingModelChildAlgorithm) and not self.element.isActive():
painter.setPen(QPen(Qt.gray))
text = text + "\n(deactivated)"
fm = QFontMetricsF(font)
text = self.getAdjustedText(self.text)
h = fm.ascent()
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 25, ModelerGraphicItem.BOX_HEIGHT / 2.0 - h + 1)
painter.drawText(pt, text)
painter.setPen(QPen(Qt.black))
if isinstance(self.element, QgsProcessingModelChildAlgorithm):
h = -(fm.height() * 1.2)
h = h - ModelerGraphicItem.BOX_HEIGHT / 2.0 + 5
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 25, h)
painter.drawText(pt, 'In')
i = 1
if not self.element.parametersCollapsed():
for param in [p for p in self.element.algorithm().parameterDefinitions() if not p.isDestination()]:
if not param.flags() & QgsProcessingParameterDefinition.FlagHidden:
text = self.getAdjustedText(param.description())
h = -(fm.height() * 1.2) * (i + 1)
h = h - ModelerGraphicItem.BOX_HEIGHT / 2.0 + 5
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 33, h)
painter.drawText(pt, text)
i += 1
h = fm.height() * 1.1
h = h + ModelerGraphicItem.BOX_HEIGHT / 2.0
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 25, h)
painter.drawText(pt, 'Out')
if not self.element.outputsCollapsed():
for i, out in enumerate(self.element.algorithm().outputDefinitions()):
text = self.getAdjustedText(out.description())
h = fm.height() * 1.2 * (i + 2)
h = h + ModelerGraphicItem.BOX_HEIGHT / 2.0
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 33, h)
painter.drawText(pt, text)
if self.pixmap:
painter.drawPixmap(-(ModelerGraphicItem.BOX_WIDTH / 2.0) + 3, -8,
self.pixmap)
elif self.picture:
painter.drawPicture(-(ModelerGraphicItem.BOX_WIDTH / 2.0) + 3, -8,
self.picture)
def paint(self, painter, option, widget=None):
rect = QRectF(-(ModelerGraphicItem.BOX_WIDTH + 2) / 2.0,
-(ModelerGraphicItem.BOX_HEIGHT + 2) / 2.0,
ModelerGraphicItem.BOX_WIDTH + 2,
ModelerGraphicItem.BOX_HEIGHT + 2)
if isinstance(self.element, QgsProcessingModelParameter):
color = QColor(238, 242, 131)
stroke = QColor(234, 226, 118)
selected = QColor(116, 113, 68)
elif isinstance(self.element, QgsProcessingModelChildAlgorithm):
color = QColor(255, 255, 255)
stroke = Qt.gray
selected = QColor(50, 50, 50)
else:
color = QColor(172, 196, 114)
stroke = QColor(90, 140, 90)
selected = QColor(42, 65, 42)
if self.isSelected():
stroke = selected
color = color.darker(110)
painter.setPen(QPen(stroke, 0)) # 0 width "cosmetic" pen
painter.setBrush(QBrush(color, Qt.SolidPattern))
painter.drawRect(rect)
font = QFont('Verdana', 8)
font.setPixelSize(12)
painter.setFont(font)
painter.setPen(QPen(Qt.black))
text = self.getAdjustedText(self.text)
if isinstance(self.element, QgsProcessingModelChildAlgorithm
) and not self.element.isActive():
painter.setPen(QPen(Qt.gray))
text = text + "\n(deactivated)"
fm = QFontMetricsF(font)
text = self.getAdjustedText(self.text)
h = fm.ascent()
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 25,
ModelerGraphicItem.BOX_HEIGHT / 2.0 - h + 1)
painter.drawText(pt, text)
painter.setPen(QPen(Qt.black))
if isinstance(self.element, QgsProcessingModelChildAlgorithm):
h = -(fm.height() * 1.2)
h = h - ModelerGraphicItem.BOX_HEIGHT / 2.0 + 5
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 25, h)
painter.drawText(pt, 'In')
i = 1
if not self.element.parametersCollapsed():
for param in [
p for p in
self.element.algorithm().parameterDefinitions()
if not p.isDestination()
]:
if not param.flags(
) & QgsProcessingParameterDefinition.FlagHidden:
text = self.getAdjustedText(param.description())
h = -(fm.height() * 1.2) * (i + 1)
h = h - ModelerGraphicItem.BOX_HEIGHT / 2.0 + 5
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 33, h)
painter.drawText(pt, text)
i += 1
h = fm.height() * 1.1
h = h + ModelerGraphicItem.BOX_HEIGHT / 2.0
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 25, h)
painter.drawText(pt, 'Out')
if not self.element.outputsCollapsed():
for i, out in enumerate(
self.element.algorithm().outputDefinitions()):
text = self.getAdjustedText(out.description())
h = fm.height() * 1.2 * (i + 2)
h = h + ModelerGraphicItem.BOX_HEIGHT / 2.0
pt = QPointF(-ModelerGraphicItem.BOX_WIDTH / 2 + 33, h)
painter.drawText(pt, text)
if self.pixmap:
painter.drawPixmap(-(ModelerGraphicItem.BOX_WIDTH / 2.0) + 3, -8,
self.pixmap)
elif self.picture:
painter.drawPicture(-(ModelerGraphicItem.BOX_WIDTH / 2.0) + 3, -8,
self.picture)
