def __init__(self, parent=None):
super().__init__(parent)
self.setFocusPolicy(Qt.StrongFocus)
self.setAcceptDrops(True)
self._currentTool = BaseTool()
self._mouseDown = False
self._preview = False
# inbound notification
app = QApplication.instance()
app.dispatcher.addObserver(self, "_needsUpdate", "glyphViewUpdate")
def __init__(self, parent=None):
super().__init__(parent)
self.setFocusPolicy(Qt.StrongFocus)
self.setAcceptDrops(True)
self._currentTool = BaseTool()
self._currentToolActivated = False
self._eventFilter = KeyEventFilter(self)
font = self.window().font_()
self._layoutManager = LayoutManager(font, self)
self._mouseDown = False
self._preview = False
self._defaultDrawingAttributes["showGlyphSelection"] = True
# inbound notifications
app = QApplication.instance()
app.dispatcher.addObserver(self, "_needsUpdate", "glyphViewUpdate")
app.dispatcher.addObserver(self, "_preferencesChanged",
"preferencesChanged")
self.readSettings()
class GlyphCanvasView(GlyphContextView):
glyphNamesChanged = pyqtSignal()
toolModified = pyqtSignal(object)
def __init__(self, parent=None):
super().__init__(parent)
self.setFocusPolicy(Qt.StrongFocus)
self.setAcceptDrops(True)
self._currentTool = BaseTool()
self._currentToolActivated = False
self._eventFilter = KeyEventFilter(self)
font = self.window().font_()
self._layoutManager = LayoutManager(font, self)
self._mouseDown = False
self._preview = False
self._defaultDrawingAttributes["showGlyphSelection"] = True
# inbound notifications
app = QApplication.instance()
app.dispatcher.addObserver(self, "_needsUpdate", "glyphViewUpdate")
app.dispatcher.addObserver(self, "_preferencesChanged",
"preferencesChanged")
self.readSettings()
def readSettings(self):
drawingAttributes = settings.drawingAttributes()
for attr, value in drawingAttributes.items():
self.setDefaultDrawingAttribute(attr, value)
# --------------
# Custom Methods
# --------------
def inputNames(self):
return self._layoutManager.glyphList()
def setInputNames(self, names):
self._layoutManager.setGlyphList(names)
def layoutManager(self):
return self._layoutManager
def setGlyphRecords(self, glyphRecords):
# TODO: should we also NAK in mouseDown here?
app = QApplication.instance()
app.postNotification("glyphViewGlyphsWillChange")
# TODO: secondly stop calling tool disabled when it's just
# the glyph changing?
# e.g. def toolGlyphWillChange(self, newGlyph)
self._setCurrentToolEnabled(False)
super().setGlyphRecords(glyphRecords)
self._setCurrentToolEnabled(True)
app.postNotification("glyphViewGlyphsChanged")
self.glyphNamesChanged.emit()
def previewEnabled(self):
return self._preview
def setPreviewEnabled(self, value):
if value and self._mouseDown:
return
if value != self._preview:
self._preview = value
if value:
self.setCursor(Qt.OpenHandCursor)
else:
self.setCursor(self._currentTool.cursor)
self.update()
# -------------
# Notifications
# -------------
def _subscribeToGlyphs(self, glyphRecords):
super()._subscribeToGlyphs(glyphRecords)
handledGlyphs = set()
for glyphRecord in glyphRecords:
glyph = glyphRecord.glyph
if glyph in handledGlyphs:
continue
handledGlyphs.add(glyph)
glyph.addObserver(self, "_glyphNameChanged", "Glyph.NameChanged")
glyph.addObserver(self, "_glyphSelectionChanged",
"Glyph.SelectionChanged")
def _unsubscribeFromGlyphs(self):
handledGlyphs = set()
for glyphRecord in self._glyphRecords:
glyph = glyphRecord.glyph
if glyph in handledGlyphs:
continue
handledGlyphs.add(glyph)
glyph.removeObserver(self, "Glyph.NameChanged")
glyph.removeObserver(self, "Glyph.SelectionChanged")
super()._unsubscribeFromGlyphs()
def _glyphNameChanged(self, notification):
self.glyphNamesChanged.emit()
def _glyphSelectionChanged(self, notification):
self.update()
# app
def _needsUpdate(self, notification):
self.update()
def _preferencesChanged(self, notification):
self.readSettings()
# ---------------
# Display Control
# ---------------
def drawingAttribute(self, attr, flags):
toolOverride = self._currentTool.drawingAttribute(attr, flags)
if toolOverride is not None:
return toolOverride
return super().drawingAttribute(attr, flags)
def drawingColor(self, attr, flags):
toolOverride = self._currentTool.drawingColor(attr, flags)
if toolOverride is not None:
return toolOverride
return super().drawingColor(attr, flags)
# defaults
def showSelection(self):
return self.defaultDrawingAttribute("showGlyphSelection")
def setShowSelection(self, value):
self.setDefaultDrawingAttribute("showGlyphSelection", value)
# ---------------
# Drawing helpers
# ---------------
def drawGlyphBackground(self, painter, glyph, flags):
if not self._preview:
super().drawGlyphBackground(painter, glyph, flags)
def drawBackground(self, painter, index):
app = QApplication.instance()
data = dict(widget=self, painter=painter, index=index)
app.postNotification("glyphViewDrawBackground", data)
self._currentTool.paintBackground(painter, index)
def drawGlyphLayer(self, painter, glyph, flags):
if self._preview:
if flags.isActiveLayer:
self.drawFillAndPoints(painter, glyph, flags)
else:
super().drawGlyphLayer(painter, glyph, flags)
def drawForeground(self, painter, index):
app = QApplication.instance()
data = dict(widget=self, painter=painter, index=index)
app.postNotification("glyphViewDrawForeground", data)
self._currentTool.paint(painter, index)
# drawing primitives
def drawMetrics(self, painter, glyph, flags):
# TODO: should this have its own parameter?
if self._impliedPointSize > GlyphViewMinSizeForGrid:
viewportRect = (self.mapRectToCanvas(self.rect()).adjusted(
0, 0, 2, 2).getRect())
drawing.drawGrid(painter, self._inverseScale, viewportRect)
super().drawMetrics(painter, glyph, flags)
def drawImage(self, painter, glyph, flags):
drawing.drawGlyphImage(painter, glyph, self._inverseScale)
def drawGuidelines(self, painter, glyph, flags):
drawText = self._impliedPointSize > GlyphViewMinSizeForDetails
viewportRect = self.mapRectToCanvas(self.rect()).getRect()
if self.drawingAttribute("showFontGuidelines", flags):
drawing.drawFontGuidelines(painter,
glyph,
self._inverseScale,
viewportRect,
drawText=drawText)
if self.drawingAttribute("showGlyphGuidelines", flags):
drawing.drawGlyphGuidelines(painter,
glyph,
self._inverseScale,
viewportRect,
drawText=drawText)
def drawFillAndPoints(self, painter, glyph, flags):
contourFillColor = self.drawingColor("contourFillColor", flags)
componentFillColor = (contourFillColor if self._preview else
self.drawingColor("componentFillColor", flags))
drawFill = self._preview or self.drawingAttribute(
"showGlyphFill", flags)
drawComponentFill = self._preview or self.drawingAttribute(
"showGlyphComponentFill", flags)
drawSelection = not self._preview and self.drawingAttribute(
"showGlyphSelection", flags)
drawing.drawGlyphFillAndStroke(
painter,
glyph,
self._inverseScale,
contourFillColor=contourFillColor,
componentFillColor=componentFillColor,
drawFill=drawFill,
drawComponentFill=drawComponentFill,
drawSelection=drawSelection,
drawStroke=False,
)
if self._preview or not self._impliedPointSize > GlyphViewMinSizeForDetails:
return
drawStartPoints = self.drawingAttribute("showGlyphStartPoints", flags)
drawOnCurves = self.drawingAttribute("showGlyphOnCurvePoints", flags)
drawOffCurves = self.drawingAttribute("showGlyphOffCurvePoints", flags)
drawCoordinates = self.drawingAttribute("showGlyphPointCoordinates",
flags)
drawing.drawGlyphPoints(
painter,
glyph,
self._inverseScale,
drawOnCurves=drawOnCurves,
drawOffCurves=drawOffCurves,
drawStartPoints=drawStartPoints,
drawCoordinates=drawCoordinates,
backgroundColor=self._backgroundColor,
)
def drawStroke(self, painter, glyph, flags):
drawDetails = self._impliedPointSize > GlyphViewMinSizeForDetails
drawStroke = self.drawingAttribute("showGlyphStroke", flags)
drawComponentStroke = self.drawingAttribute("showGlyphComponentStroke",
flags)
drawing.drawGlyphFillAndStroke(
painter,
glyph,
self._inverseScale,
drawFill=False,
drawComponentFill=False,
drawStroke=drawStroke,
drawComponentStroke=drawComponentStroke,
drawSelection=False,
partialAliasing=drawDetails,
)
def drawAnchors(self, painter, glyph, flags):
if not self._impliedPointSize > GlyphViewMinSizeForDetails:
return
drawing.drawGlyphAnchors(painter, glyph, self._inverseScale)
# ---------------
# QWidget methods
# ---------------
def showEvent(self, event):
super().showEvent(event)
self._setCurrentToolEnabled(True)
def hideEvent(self, event):
super().hideEvent(event)
self._setCurrentToolEnabled(False)
self._preview = False
def closeEvent(self, event):
super().closeEvent(event)
if event.isAccepted():
self._setCurrentToolEnabled(False)
app = QApplication.instance()
app.dispatcher.removeObserver(self, "glyphViewUpdate")
app.dispatcher.removeObserver(self, "parametersChanged")
def dragEnterEvent(self, event):
mimeData = event.mimeData()
if mimeData.hasUrls():
url = mimeData.urls()[0]
if url.isLocalFile():
path = url.toLocalFile()
ext = os.path.splitext(path)[1][1:]
formats = QImageReader.supportedImageFormats() + ["glif"]
if ext.lower() in formats:
event.acceptProposedAction()
return
super().dragEnterEvent(event)
def dropEvent(self, event):
mimeData = event.mimeData()
if mimeData.hasUrls():
paths = mimeData.urls()
# pick just one image
path = paths[0].toLocalFile()
fileName = os.path.basename(path)
with open(path, "rb") as imgFile:
data = imgFile.read()
ext = os.path.splitext(path)[1][1:]
# TODO: make sure we cleanup properly when replacing an image with
# another
if ext.lower() == "glif":
otherGlyph = self._glyph.__class__()
try:
readGlyphFromString(data, otherGlyph,
otherGlyph.getPointPen())
except Exception as e:
errorReports.showCriticalException(e)
return
self._glyph.beginUndoGroup()
otherGlyph.drawPoints(self._glyph.getPointPen())
self._glyph.endUndoGroup()
return
if ext.lower() == "svg":
try:
svgPath = SVGPath.fromstring(data)
except Exception as e:
errorReports.showCriticalException(e)
return
self._glyph.beginUndoGroup()
svgPath.draw(self._glyph.getPen())
self._glyph.endUndoGroup()
return
if ext.lower() != "png":
# convert
img = QImage(path)
data = QByteArray()
buffer = QBuffer(data)
buffer.open(QIODevice.WriteOnly)
img.save(buffer, "PNG")
# format
data = bytearray(data)
fileName = "%s.png" % os.path.splitext(fileName)[0]
imageSet = self._glyph.font.images
try:
imageSet[fileName] = data
except Exception as e:
errorReports.showCriticalException(e)
return
image = self._glyph.instantiateImage()
image.fileName = fileName
self._glyph.image = image
event.setAccepted(True)
else:
super().dropEvent(event)
def contextMenuEvent(self, event):
self._redirectEvent(event, self._currentTool.contextMenuEvent, True)
app = QApplication.instance()
data = dict(event=event, widget=self)
# TODO: sending an event that doesn't contain the menu isn't
# extremely useful
app.postNotification("glyphViewContextMenu", data)
def keyPressEvent(self, event):
# TODO: put this in event filter?
if self._currentTool.grabKeyboard and event.key() == Qt.Key_Escape:
ok = self.setCurrentTool(self._previousTool)
if ok:
self.toolModified.emit(self._previousTool)
# Note: not needed, only for parity with keyReleaseEvent
if not self._currentTool.grabKeyboard and event.key() == Qt.Key_Space:
event.ignore()
return
self._redirectEvent(event, self._currentTool.keyPressEvent)
app = QApplication.instance()
data = dict(event=event, widget=self)
app.postNotification("glyphViewKeyPress", data)
def keyReleaseEvent(self, event):
# TODO: I don't know why we have to do this for releaseEvent
if not self._currentTool.grabKeyboard and event.key() == Qt.Key_Space:
event.ignore()
return
self._redirectEvent(event, self._currentTool.keyReleaseEvent)
app = QApplication.instance()
data = dict(event=event, widget=self)
app.postNotification("glyphViewKeyRelease", data)
def mousePressEvent(self, event):
self._mouseDown = True
if self._preview:
self._panOrigin = event.globalPos()
self.setCursor(Qt.ClosedHandCursor)
return
self._redirectEvent(event, self._currentTool.mousePressEvent, True)
app = QApplication.instance()
data = dict(event=event, widget=self)
app.postNotification("glyphViewMousePress", data)
def mouseMoveEvent(self, event):
if self._preview and hasattr(self, "_panOrigin"):
pos = event.globalPos()
self.scrollBy(pos - self._panOrigin)
self._panOrigin = pos
return
self._redirectEvent(event, self._currentTool.mouseMoveEvent, True)
app = QApplication.instance()
data = dict(event=event, widget=self)
app.postNotification("glyphViewMouseMove", data)
def mouseReleaseEvent(self, event):
self._redirectEvent(event, self._currentTool.mouseReleaseEvent, True)
app = QApplication.instance()
data = dict(event=event, widget=self)
app.postNotification("glyphViewMouseRelease", data)
if hasattr(self, "_panOrigin"):
if self._preview:
self.setCursor(Qt.OpenHandCursor)
del self._panOrigin
self._mouseDown = False
def mouseDoubleClickEvent(self, event):
self._redirectEvent(event, self._currentTool.mouseDoubleClickEvent,
True)
app = QApplication.instance()
data = dict(event=event, widget=self)
app.postNotification("glyphViewMouseDoubleClick", data)
# ------------
# Canvas tools
# ------------
# current tool
def _setCurrentToolEnabled(self, value):
if self._currentToolActivated == value:
return
self._currentToolActivated = value
if value:
self._currentTool.toolActivated()
if self._currentTool.grabKeyboard:
self.window().installEventFilter(self._eventFilter)
else:
if self._currentTool.grabKeyboard:
self.window().removeEventFilter(self._eventFilter)
self._currentTool.toolDisabled()
def currentTool(self):
return self._currentTool
def setCurrentTool(self, tool):
if self._mouseDown:
return False
self._setCurrentToolEnabled(False)
if tool.grabKeyboard:
self._previousTool = self._currentTool
self._currentTool = tool
self.setCursor(tool.cursor)
self._setCurrentToolEnabled(True)
return True
def _redirectEvent(self, event, callback, transmute=False):
if self._preview:
return
# construct a new event with pos in canvas coordinates
if transmute:
if isinstance(event, QContextMenuEvent):
canvasPos = self.mapToCanvas(event.pos())
event = event.__class__(event.reason(), canvasPos,
event.globalPos(), event.modifiers())
event.localPos = lambda: canvasPos
elif isinstance(event, QMouseEvent):
# TODO: not redirect mouse events if there's no glyph?
# if not self._glyphRecords:
# return
canvasPos = self.mapToCanvas(event.localPos())
event = event.__class__(
event.type(),
canvasPos,
event.windowPos(),
event.screenPos(),
event.button(),
event.buttons(),
event.modifiers(),
)
else:
raise ValueError(f"cannot transmute event: {event}")
callback(event)
# items location
def _itemsAt(self, func, obj, justOne=True):
"""
Go through all anchors, points and components (in this order) in the
glyph, construct their canvas path and list items for which
*func(path, obj)* returns True, or only return the first item if
*justOne* is set to True.
An item is a (contour, index) or (element, None) tuple. Point objects
aren't returned directly because their usefulness is limited barring
their parent contour.
Here is a sample *func* function that tests whether item with path
*path* contains *pos*:
def myFunction(path, pos):
return path.contains(pos)
This is useful to find out whether an item was clicked on canvas.
"""
scale = self._inverseScale
# TODO: export this from drawing or use QSettings.
# XXX: outdated
# anchor
anchorSize = 7 * scale
anchorHalfSize = anchorSize / 2
# offCurve
offSize = 5 * scale
offHalf = offSize / 2
offStrokeWidth = 2.5 * scale
# onCurve
onSize = 6.5 * scale
onHalf = onSize / 2
onStrokeWidth = 1.5 * scale
# onCurve smooth
smoothSize = 8 * scale
smoothHalf = smoothSize / 2
# guideline pt
guidelineStrokeWidth = 1 * scale
if not justOne:
ret = dict(anchors=[],
points=[],
components=[],
guidelines=[],
image=None)
if self._glyph is None:
if justOne:
return None
return ret
flags = GlyphFlags(True)
# anchors
if self.drawingAttribute("showGlyphAnchors", flags):
for anchor in reversed(self._glyph.anchors):
path = QPainterPath()
path.addEllipse(
anchor.x - anchorHalfSize,
anchor.y - anchorHalfSize,
anchorSize,
anchorSize,
)
if func(path, obj):
if justOne:
return anchor
ret["anchors"].append(anchor)
# points
if self.drawingAttribute("showGlyphOnCurvePoints", flags):
for contour in reversed(self._glyph):
for index, point in enumerate(contour):
path = QPainterPath()
if point.segmentType is None:
x = point.x - offHalf
y = point.y - offHalf
path.addEllipse(x, y, offSize, offSize)
strokeWidth = offStrokeWidth
else:
if point.smooth:
x = point.x - smoothHalf
y = point.y - smoothHalf
path.addEllipse(x, y, smoothSize, smoothSize)
else:
x = point.x - onHalf
y = point.y - onHalf
path.addRect(x, y, onSize, onSize)
strokeWidth = onStrokeWidth
path = _shapeFromPath(path, strokeWidth)
if func(path, obj):
if justOne:
return (contour, index)
ret["points"].append((contour, index))
# components
for component in reversed(self._glyph.components):
path = component.getRepresentation("TruFont.QPainterPath")
if func(path, obj):
if justOne:
return component
ret["components"].append(component)
# guideline
# TODO: we should further dispatch with showFontGuidelines,
# although both are bind in the UI
if self.drawingAttribute("showGlyphGuidelines", flags):
for guideline in UIGlyphGuidelines(self._glyph):
if None not in (guideline.x, guideline.y):
# point
x = guideline.x - smoothHalf
y = guideline.y - smoothHalf
path = QPainterPath()
path.addEllipse(x, y, smoothSize, smoothSize)
path = _shapeFromPath(path, guidelineStrokeWidth)
if func(path, obj):
if justOne:
return guideline
ret["guidelines"].append(guideline)
# TODO: catch line if selected
# image
if self.drawingAttribute("showGlyphImage", flags):
image = self._glyph.image
pixmap = image.getRepresentation("defconQt.QPixmap")
if pixmap is not None:
path = QPainterPath()
transform = QTransform(*image.transformation)
rect = transform.mapRect(QRectF(pixmap.rect()))
path.addRect(*rect.getCoords())
if func(path, obj):
if justOne:
return image
ret["image"] = image
if not justOne:
return ret
return None
def itemAt(self, pos):
"""
Find one item at *pos*.
An item is a (point, contour) or (anchor, None) or (component, None)
tuple.
"""
return self.itemsAt(pos, True)
def itemsAt(self, pos, items=False):
"""
Find items at *pos*.
"""
return self._itemsAt(lambda path, pos: path.contains(pos), pos, items)
def items(self, rect):
"""
Find items that intersect with *rect* (can be any QPainterPath).
"""
return self._itemsAt(lambda path, rect: path.intersects(rect), rect,
False)
class GlyphCanvasWidget(GlyphWidget):
def __init__(self, parent=None):
super().__init__(parent)
self.setFocusPolicy(Qt.StrongFocus)
self.setAcceptDrops(True)
self._currentTool = BaseTool()
self._mouseDown = False
self._preview = False
# inbound notification
app = QApplication.instance()
app.dispatcher.addObserver(self, "_needsUpdate", "glyphViewUpdate")
# --------------
# Custom Methods
# --------------
def setGlyph(self, glyph):
app = QApplication.instance()
app.postNotification("glyphViewGlyphWillChange")
self._currentTool.toolDisabled()
super().setGlyph(glyph)
self._currentTool.toolActivated()
app.postNotification("glyphViewGlyphChanged")
# --------------------
# Notifications
# --------------------
def _needsUpdate(self, notification):
self.update()
# ---------------
# Drawing helpers
# ---------------
def drawingAttribute(self, attr, layerName):
# TODO: work more on a sound model for this
if attr == "showGlyphStroke":
return True
else:
return super().drawingAttribute(attr, layerName)
def drawBackground(self, painter):
app = QApplication.instance()
data = dict(
widget=self,
painter=painter,
)
app.postNotification("glyphViewDrawBackground", data)
def drawGlyphLayer(self, painter, glyph, layerName):
if self._preview:
if layerName is None:
self.drawFillAndStroke(painter, glyph, layerName)
else:
super().drawGlyphLayer(painter, glyph, layerName)
def drawGuidelines(self, painter, glyph, layerName):
drawText = self._impliedPointSize > GlyphViewMinSizeForDetails
if self.drawingAttribute("showFontGuidelines", layerName):
drawing.drawFontGuidelines(
painter, glyph, self._inverseScale, self._drawingRect,
drawText=drawText)
if self.drawingAttribute("showGlyphGuidelines", layerName):
drawing.drawGlyphGuidelines(
painter, glyph, self._inverseScale, self._drawingRect,
drawText=drawText)
def drawFillAndStroke(self, painter, glyph, layerName):
if self._preview:
contourFillColor = componentFillColor = Qt.black
drawSelection = False
showFill = True
showStroke = False
else:
contourFillColor = componentFillColor = None
drawSelection = layerName is None
showFill = self.drawingAttribute("showGlyphFill", layerName)
showStroke = self.drawingAttribute("showGlyphStroke", layerName)
drawing.drawGlyphFillAndStroke(
painter, glyph, self._inverseScale, self._drawingRect,
componentFillColor=componentFillColor,
contourFillColor=contourFillColor, drawFill=showFill,
drawSelection=drawSelection, drawStroke=showStroke)
def drawPoints(self, painter, glyph, layerName):
if not self._impliedPointSize > GlyphViewMinSizeForDetails:
return
drawStartPoints = self.drawingAttribute(
"showGlyphStartPoints", layerName)
drawOnCurves = self.drawingAttribute(
"showGlyphOnCurvePoints", layerName)
drawOffCurves = self.drawingAttribute(
"showGlyphOffCurvePoints", layerName)
drawCoordinates = self.drawingAttribute(
"showGlyphPointCoordinates", layerName)
drawing.drawGlyphPoints(
painter, glyph, self._inverseScale, self._drawingRect,
drawStartPoints=drawStartPoints, drawOnCurves=drawOnCurves,
drawOffCurves=drawOffCurves, drawCoordinates=drawCoordinates)
def drawAnchors(self, painter, glyph, layerName):
if not self._impliedPointSize > GlyphViewMinSizeForDetails:
return
drawing.drawGlyphAnchors(
painter, glyph, self._inverseScale, self._drawingRect)
def drawForeground(self, painter):
app = QApplication.instance()
data = dict(
widget=self,
painter=painter,
)
app.postNotification("glyphViewDrawForeground", data)
self._currentTool.paint(painter)
# ---------------
# QWidget methods
# ---------------
def closeEvent(self, event):
super().closeEvent(event)
if event.isAccepted():
self._currentTool.toolDisabled()
app = QApplication.instance()
app.dispatcher.removeObserver(self, "glyphViewUpdate")
def dragEnterEvent(self, event):
mimeData = event.mimeData()
if mimeData.hasUrls():
url = mimeData.urls()[0]
if url.isLocalFile():
path = url.toLocalFile()
ext = os.path.splitext(path)[1][1:]
if ext.lower() in QImageReader.supportedImageFormats():
event.acceptProposedAction()
return
super().dragEnterEvent(event)
def dropEvent(self, event):
mimeData = event.mimeData()
if mimeData.hasUrls():
paths = mimeData.urls()
# pick just one image
path = paths[0].toLocalFile()
fileName = os.path.basename(path)
with open(path, "rb") as imgFile:
data = imgFile.read()
ext = os.path.splitext(path)[1][1:]
# TODO: make sure we cleanup properly when replacing an image with
# another
if ext.lower() != "png":
# convert
img = QImage(path)
data = QByteArray()
buffer = QBuffer(data)
buffer.open(QIODevice.WriteOnly)
img.save(buffer, 'PNG')
# format
data = bytearray(data)
fileName = "%s.png" % os.path.splitext(fileName)[0]
imageSet = self._glyph.font.images
try:
imageSet[fileName] = data
except Exception as e:
errorReports.showCriticalException(e)
return
image = self._glyph.instantiateImage()
image.fileName = fileName
event.setAccepted(True)
else:
super().dropEvent(event)
def keyPressEvent(self, event):
if not event.isAutoRepeat() and event.key() == Qt.Key_Space:
if not self._mouseDown:
self._preview = True
self.update()
self._redirectEvent(event, self._currentTool.keyPressEvent)
app = QApplication.instance()
data = dict(
event=event,
widget=self,
)
app.postNotification("glyphViewKeyPress", data)
def keyReleaseEvent(self, event):
if not event.isAutoRepeat() and event.key() == Qt.Key_Space:
self._preview = False
self.update()
self._redirectEvent(event, self._currentTool.keyReleaseEvent)
app = QApplication.instance()
data = dict(
event=event,
widget=self,
)
app.postNotification("glyphViewKeyRelease", data)
def mousePressEvent(self, event):
self._mouseDown = True
self._redirectEvent(event, self._currentTool.mousePressEvent, True)
app = QApplication.instance()
data = dict(
event=event,
widget=self,
)
app.postNotification("glyphViewMousePress", data)
def mouseMoveEvent(self, event):
self._redirectEvent(event, self._currentTool.mouseMoveEvent, True)
app = QApplication.instance()
data = dict(
event=event,
widget=self,
)
app.postNotification("glyphViewMouseMove", data)
def mouseReleaseEvent(self, event):
self._redirectEvent(event, self._currentTool.mouseReleaseEvent, True)
app = QApplication.instance()
data = dict(
event=event,
widget=self,
)
app.postNotification("glyphViewMouseRelease", data)
self._mouseDown = False
def mouseDoubleClickEvent(self, event):
self._redirectEvent(
event, self._currentTool.mouseDoubleClickEvent, True)
app = QApplication.instance()
data = dict(
event=event,
widget=self,
)
app.postNotification("glyphViewMouseDoubleClick", data)
# ------------
# Canvas tools
# ------------
# current tool
def currentTool(self):
return self._currentTool
def setCurrentTool(self, tool):
if self._mouseDown:
return False
self._currentTool.toolDisabled()
self._currentTool = tool
self._currentTool.toolActivated()
return True
def _redirectEvent(self, event, callback, transmuteMouseEvent=False):
if self._preview:
return
if transmuteMouseEvent:
# construct a new event with pos in canvas coordinates
canvasPos = self.mapToCanvas(event.localPos())
event = QMouseEvent(
event.type(),
canvasPos,
event.windowPos(),
event.screenPos(),
event.button(),
event.buttons(),
event.modifiers()
)
callback(event)
# items location
def _itemsAt(self, func, obj, justOne=True):
"""
Go through all anchors, points and components (in this order) in the
glyph, construct their canvas path and list items for which
*func(path, obj)* returns True, or only return the first item if
*justOne* is set to True.
An item is a (point, contour) or (anchor, None) or (component, None)
tuple. The second argument permits accessing parent contour to post
notifications.
Here is a sample *func* function that tests whether item with path
*path* contains *pos*:
def myFunction(path, pos):
return path.contains(pos)
This is useful to find out whether an item was clicked on canvas.
"""
scale = self._inverseScale
# TODO: export this from drawing or use QSettings.
# anchor
anchorSize = 6 * scale
anchorHalfSize = anchorSize / 2
# offCurve
offWidth = 5 * scale
offHalf = offWidth / 2
offStrokeWidth = 3 * scale
# onCurve
onWidth = 7 * scale
onHalf = onWidth / 2
onStrokeWidth = 1.5 * scale
# onCurve smooth
smoothWidth = 8 * scale
smoothHalf = smoothWidth / 2
# guideline pt
guidelineStrokeWidth = 1 * scale
if not justOne:
ret = dict(
anchors=[],
contours=[],
points=[],
components=[],
guidelines=[],
image=None,
)
# anchors
for anchor in reversed(self._glyph.anchors):
path = QPainterPath()
path.addEllipse(anchor.x - anchorHalfSize,
anchor.y - anchorHalfSize, anchorSize, anchorSize)
if func(path, obj):
if justOne:
return (anchor, None)
ret["anchors"].append(anchor)
# points
for contour in reversed(self._glyph):
for point in contour:
path = QPainterPath()
if point.segmentType is None:
x = point.x - offHalf
y = point.y - offHalf
path.addEllipse(x, y, offWidth, offWidth)
strokeWidth = offStrokeWidth
else:
if point.smooth:
x = point.x - smoothHalf
y = point.y - smoothHalf
path.addEllipse(x, y, smoothWidth, smoothWidth)
else:
x = point.x - onHalf
y = point.y - onHalf
path.addRect(x, y, onWidth, onWidth)
strokeWidth = onStrokeWidth
path = _shapeFromPath(path, strokeWidth)
if func(path, obj):
if justOne:
return (point, contour)
ret["contours"].append(contour)
ret["points"].append(point)
# components
for component in reversed(self._glyph.components):
path = component.getRepresentation("TruFont.QPainterPath")
if func(path, obj):
if justOne:
return (component, None)
ret["components"].append(component)
# guideline
for guideline in UIGlyphGuidelines(self._glyph):
if None not in (guideline.x, guideline.y):
# point
x = guideline.x - smoothHalf
y = guideline.y - smoothHalf
path = QPainterPath()
path.addEllipse(x, y, smoothWidth, smoothWidth)
path = _shapeFromPath(path, guidelineStrokeWidth)
if func(path, obj):
if justOne:
return (guideline, None)
ret["guidelines"].append(guideline)
# TODO: catch line if selected
# image
image = self._glyph.image
pixmap = image.getRepresentation("defconQt.QPixmap")
if pixmap is not None:
path = QPainterPath()
transform = QTransform(*image.transformation)
rect = transform.mapRect(QRectF(pixmap.rect()))
path.addRect(*rect.getCoords())
if func(path, obj):
if justOne:
return (image, None)
ret["image"] = image
if not justOne:
return ret
return None
def itemAt(self, pos):
"""
Find one item at *pos*.
An item is a (point, contour) or (anchor, None) or (component, None)
tuple.
"""
return self.itemsAt(pos, True)
def itemsAt(self, pos, items=False):
"""
Find items at *pos*.
"""
return self._itemsAt(lambda path, pos: path.contains(pos), pos, items)
def items(self, rect):
"""
Find items that intersect with *rect* (can be any QPainterPath).
"""
return self._itemsAt(
lambda path, rect: path.intersects(rect), rect, False)
