def set_drawing_style(self, sloppiness=0.0):
"""Set the drawing style for the diagram. 0.0 is straight,
2.0 is very sloppy. If the sloppiness is set to be anything
greater than 0.0, the FreeHandPainter instances will be used
for both the item painter and the box painter. Otherwise, by
default, the ItemPainter is used for the item and
BoundingBoxPainter for the box."""
view = self.view
if sloppiness:
item_painter = FreeHandPainter(ItemPainter(), sloppiness=sloppiness)
box_painter = FreeHandPainter(BoundingBoxPainter(), sloppiness=sloppiness)
else:
item_painter = ItemPainter()
box_painter = BoundingBoxPainter()
view.painter = (
PainterChain()
.append(item_painter)
.append(HandlePainter())
.append(FocusedItemPainter())
.append(ToolPainter())
)
view.bounding_box_painter = box_painter
view.queue_draw_refresh()
def update_painters(self, view):
sloppiness = self.properties.get("diagram.sloppiness", 0)
if sloppiness:
view.painter = FreeHandPainter(ItemPainter(), sloppiness)
view.bounding_box_painter = FreeHandPainter(
BoundingBoxPainter(), sloppiness
)
else:
view.painter = ItemPainter()
def update_painters(self, view):
self.logger.info('Updating painters')
self.logger.debug('View is %s' % view)
sloppiness = self.properties('diagram.sloppiness', 0)
self.logger.debug('Sloppiness is %s' % sloppiness)
if sloppiness:
view.painter = FreeHandPainter(ItemPainter(), sloppiness)
view.bounding_box_painter = FreeHandPainter(BoundingBoxPainter(), sloppiness)
else:
view.painter = ItemPainter()
def update_painters(self, view):
logger.info("Updating painters")
logger.debug("View is %s" % view)
sloppiness = self.properties("diagram.sloppiness", 0)
logger.debug("Sloppiness is %s" % sloppiness)
if sloppiness:
view.painter = FreeHandPainter(ItemPainter(), sloppiness)
view.bounding_box_painter = FreeHandPainter(
BoundingBoxPainter(), sloppiness)
else:
view.painter = ItemPainter()
def set_drawing_style(self):
"""Set the drawing style for the diagram based on the active style
sheet."""
assert self.view
assert self.diagram_css
style = self.diagram.style(StyledDiagram(self.diagram, self.view))
bg = style.get("background-color")
self.diagram_css.load_from_data(
f"diagramview {{ background-color: rgba({int(255*bg[0])}, {int(255*bg[1])}, {int(255*bg[2])}, {bg[3]}) }}"
.encode() if bg else "".encode())
sloppiness = style.get("line-style", 0.0)
item_painter = ItemPainter()
view = self.view
if sloppiness:
item_painter = FreeHandPainter(ItemPainter(),
sloppiness=sloppiness)
view.painter = (PainterChain().append(item_painter).append(
HandlePainter()).append(FocusedItemPainter()).append(
ToolPainter()))
view.bounding_box_painter = BoundingBoxPainter(item_painter)
view.queue_draw_refresh()
def update_painters(self, view, diagram):
style = diagram.style(StyledDiagram(diagram))
sloppiness = style.get("line-style", 0.0)
if sloppiness:
view.painter = FreeHandPainter(ItemPainter(), sloppiness)
else:
view.painter = ItemPainter()
view.bounding_box_painter = BoundingBoxPainter(view.painter)
def create_window(canvas, title, zoom=1.0):
view = GtkView()
view.painter = (
PainterChain()
.append(FreeHandPainter(ItemPainter()))
.append(HandlePainter())
.append(FocusedItemPainter())
.append(ToolPainter())
)
view.bounding_box_painter = FreeHandPainter(BoundingBoxPainter(ItemPainter()))
w = Gtk.Window()
w.set_title(title)
w.set_default_size(400, 120)
h = Gtk.HBox()
w.add(h)
# VBox contains buttons that can be used to manipulate the canvas:
v = Gtk.VBox()
v.set_property("border-width", 3)
v.set_property("spacing", 2)
f = Gtk.Frame()
f.set_property("border-width", 1)
f.add(v)
h.pack_start(f, False, True, 0)
v.add(Gtk.Label.new("Item placement:"))
b = Gtk.Button.new_with_label("Add box")
def on_clicked(button, view):
# view.window.set_cursor(Gdk.Cursor.new(Gdk.CursorType.CROSSHAIR))
view.tool.grab(PlacementTool(view, factory(view, MyBox), HandleTool(), 2))
b.connect("clicked", on_clicked, view)
v.add(b)
b = Gtk.Button.new_with_label("Add line")
def on_clicked(button):
view.tool.grab(PlacementTool(view, factory(view, MyLine), HandleTool(), 1))
b.connect("clicked", on_clicked)
v.add(b)
v.add(Gtk.Label.new("Zooming:"))
b = Gtk.Button.new_with_label("Zoom in")
def on_clicked(button):
view.zoom(1.2)
b.connect("clicked", on_clicked)
v.add(b)
b = Gtk.Button.new_with_label("Zoom out")
def on_clicked(button):
view.zoom(1 / 1.2)
b.connect("clicked", on_clicked)
v.add(b)
v.add(Gtk.Label.new("Misc:"))
b = Gtk.Button.new_with_label("Split line")
def on_clicked(button):
if isinstance(view.focused_item, Line):
segment = Segment(view.focused_item, view)
segment.split_segment(0)
view.queue_draw_item(view.focused_item)
b.connect("clicked", on_clicked)
v.add(b)
b = Gtk.Button.new_with_label("Delete focused")
def on_clicked(button):
if view.focused_item:
canvas.remove(view.focused_item)
b.connect("clicked", on_clicked)
v.add(b)
v.add(Gtk.Label.new("State:"))
b = Gtk.ToggleButton.new_with_label("Record")
def on_toggled(button):
global undo_list
if button.get_active():
print("start recording")
del undo_list[:]
state.subscribers.add(undo_handler)
else:
print("stop recording")
state.subscribers.remove(undo_handler)
b.connect("toggled", on_toggled)
v.add(b)
b = Gtk.Button.new_with_label("Play back")
def on_clicked(self):
global undo_list
apply_me = list(undo_list)
del undo_list[:]
print("Actions on the undo stack:", len(apply_me))
apply_me.reverse()
saveapply = state.saveapply
for event in apply_me:
print("Undo: invoking", event)
saveapply(*event)
print("New undo stack size:", len(undo_list))
# Visualize each event:
# while Gtk.events_pending():
# Gtk.main_iteration()
b.connect("clicked", on_clicked)
v.add(b)
v.add(Gtk.Label.new("Export:"))
b = Gtk.Button.new_with_label("Write demo.png")
def on_clicked(button):
svgview = View(view.canvas)
svgview.painter = ItemPainter()
# Update bounding boxes with a temporary CairoContext
# (used for stuff like calculating font metrics)
tmpsurface = cairo.ImageSurface(cairo.FORMAT_ARGB32, 0, 0)
tmpcr = cairo.Context(tmpsurface)
svgview.update_bounding_box(tmpcr)
tmpcr.show_page()
tmpsurface.flush()
w, h = svgview.bounding_box.width, svgview.bounding_box.height
surface = cairo.ImageSurface(cairo.FORMAT_ARGB32, int(w), int(h))
cr = cairo.Context(surface)
svgview.matrix.translate(-svgview.bounding_box.x, -svgview.bounding_box.y)
cr.save()
svgview.paint(cr)
cr.restore()
cr.show_page()
surface.write_to_png("demo.png")
b.connect("clicked", on_clicked)
v.add(b)
b = Gtk.Button.new_with_label("Write demo.svg")
def on_clicked(button):
svgview = View(view.canvas)
svgview.painter = ItemPainter()
# Update bounding boxes with a temporaly CairoContext
# (used for stuff like calculating font metrics)
tmpsurface = cairo.ImageSurface(cairo.FORMAT_ARGB32, 0, 0)
tmpcr = cairo.Context(tmpsurface)
svgview.update_bounding_box(tmpcr)
tmpcr.show_page()
tmpsurface.flush()
w, h = svgview.bounding_box.width, svgview.bounding_box.height
surface = cairo.SVGSurface("demo.svg", w, h)
cr = cairo.Context(surface)
svgview.matrix.translate(-svgview.bounding_box.x, -svgview.bounding_box.y)
svgview.paint(cr)
cr.show_page()
surface.flush()
surface.finish()
b.connect("clicked", on_clicked)
v.add(b)
b = Gtk.Button.new_with_label("Dump QTree")
def on_clicked(button, li):
view._qtree.dump()
b.connect("clicked", on_clicked, [0])
v.add(b)
b = Gtk.Button.new_with_label("Pickle (save)")
def on_clicked(button, li):
f = open("demo.pickled", "wb")
try:
import pickle
pickle.dump(view.canvas, f)
finally:
f.close()
b.connect("clicked", on_clicked, [0])
v.add(b)
b = Gtk.Button.new_with_label("Unpickle (load)")
def on_clicked(button, li):
f = open("demo.pickled", "rb")
try:
import pickle
canvas = pickle.load(f)
canvas.update_now()
finally:
f.close()
create_window(canvas, "Unpickled diagram")
b.connect("clicked", on_clicked, [0])
v.add(b)
b = Gtk.Button.new_with_label("Unpickle (in place)")
def on_clicked(button, li):
f = open("demo.pickled", "rb")
try:
import pickle
canvas = pickle.load(f)
finally:
f.close()
# [i.request_update() for i in canvas.get_all_items()]
canvas.update_now()
view.canvas = canvas
b.connect("clicked", on_clicked, [0])
v.add(b)
b = Gtk.Button.new_with_label("Reattach (in place)")
def on_clicked(button, li):
view.canvas = None
view.canvas = canvas
b.connect("clicked", on_clicked, [0])
v.add(b)
# Add the actual View:
view.canvas = canvas
view.zoom(zoom)
view.set_size_request(150, 120)
s = Gtk.ScrolledWindow.new()
s.set_hexpand(True)
s.add(view)
h.add(s)
w.show_all()
w.connect("destroy", Gtk.main_quit)
def handle_changed(view, item, what):
print(what, "changed: ", item)
view.connect("focus-changed", handle_changed, "focus")
view.connect("hover-changed", handle_changed, "hover")
view.connect("selection-changed", handle_changed, "selection")
def create_window(canvas, title, zoom=1.0):
view = GtkView()
view.painter = PainterChain(). \
append(FreeHandPainter(ItemPainter())). \
append(HandlePainter()). \
append(FocusedItemPainter()). \
append(ToolPainter())
view.bounding_box_painter = FreeHandPainter(BoundingBoxPainter())
w = gtk.Window()
w.set_title(title)
h = gtk.HBox()
w.add(h)
# VBox contains buttons that can be used to manipulate the canvas:
v = gtk.VBox()
v.set_property('border-width', 3)
v.set_property('spacing', 2)
f = gtk.Frame()
f.set_property('border-width', 1)
f.add(v)
h.pack_start(f, expand=False)
v.add(gtk.Label('Item placement:'))
b = gtk.Button('Add box')
def on_clicked(button, view):
#view.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.CROSSHAIR))
view.tool.grab(
PlacementTool(view, factory(view, MyBox), HandleTool(), 2))
b.connect('clicked', on_clicked, view)
v.add(b)
b = gtk.Button('Add line')
def on_clicked(button):
view.tool.grab(
PlacementTool(view, factory(view, MyLine), HandleTool(), 1))
b.connect('clicked', on_clicked)
v.add(b)
v.add(gtk.Label('Zooming:'))
b = gtk.Button('Zoom in')
def on_clicked(button):
view.zoom(1.2)
b.connect('clicked', on_clicked)
v.add(b)
b = gtk.Button('Zoom out')
def on_clicked(button):
view.zoom(1 / 1.2)
b.connect('clicked', on_clicked)
v.add(b)
v.add(gtk.Label('Misc:'))
b = gtk.Button('Split line')
def on_clicked(button):
if isinstance(view.focused_item, Line):
segment = Segment(view.focused_item, view)
segment.split_segment(0)
view.queue_draw_item(view.focused_item)
b.connect('clicked', on_clicked)
v.add(b)
b = gtk.Button('Delete focused')
def on_clicked(button):
if view.focused_item:
canvas.remove(view.focused_item)
#print 'items:', canvas.get_all_items()
b.connect('clicked', on_clicked)
v.add(b)
v.add(gtk.Label('State:'))
b = gtk.ToggleButton('Record')
def on_toggled(button):
global undo_list
if button.get_active():
print 'start recording'
del undo_list[:]
state.subscribers.add(undo_handler)
else:
print 'stop recording'
state.subscribers.remove(undo_handler)
b.connect('toggled', on_toggled)
v.add(b)
b = gtk.Button('Play back')
def on_clicked(self):
global undo_list
apply_me = list(undo_list)
del undo_list[:]
print 'Actions on the undo stack:', len(apply_me)
apply_me.reverse()
saveapply = state.saveapply
for event in apply_me:
print 'Undo: invoking', event
saveapply(*event)
print 'New undo stack size:', len(undo_list)
# Visualize each event:
#while gtk.events_pending():
# gtk.main_iteration()
b.connect('clicked', on_clicked)
v.add(b)
v.add(gtk.Label('Export:'))
b = gtk.Button('Write demo.png')
def on_clicked(button):
svgview = View(view.canvas)
svgview.painter = ItemPainter()
# Update bounding boxes with a temporaly CairoContext
# (used for stuff like calculating font metrics)
tmpsurface = cairo.ImageSurface(cairo.FORMAT_ARGB32, 0, 0)
tmpcr = cairo.Context(tmpsurface)
svgview.update_bounding_box(tmpcr)
tmpcr.show_page()
tmpsurface.flush()
w, h = svgview.bounding_box.width, svgview.bounding_box.height
surface = cairo.ImageSurface(cairo.FORMAT_ARGB32, int(w), int(h))
cr = cairo.Context(surface)
svgview.matrix.translate(-svgview.bounding_box.x,
-svgview.bounding_box.y)
cr.save()
svgview.paint(cr)
cr.restore()
cr.show_page()
surface.write_to_png('demo.png')
b.connect('clicked', on_clicked)
v.add(b)
b = gtk.Button('Write demo.svg')
def on_clicked(button):
svgview = View(view.canvas)
svgview.painter = ItemPainter()
# Update bounding boxes with a temporaly CairoContext
# (used for stuff like calculating font metrics)
tmpsurface = cairo.ImageSurface(cairo.FORMAT_ARGB32, 0, 0)
tmpcr = cairo.Context(tmpsurface)
svgview.update_bounding_box(tmpcr)
tmpcr.show_page()
tmpsurface.flush()
w, h = svgview.bounding_box.width, svgview.bounding_box.height
surface = cairo.SVGSurface('demo.svg', w, h)
cr = cairo.Context(surface)
svgview.matrix.translate(-svgview.bounding_box.x,
-svgview.bounding_box.y)
svgview.paint(cr)
cr.show_page()
surface.flush()
surface.finish()
b.connect('clicked', on_clicked)
v.add(b)
b = gtk.Button('Dump QTree')
def on_clicked(button, li):
view._qtree.dump()
b.connect('clicked', on_clicked, [0])
v.add(b)
b = gtk.Button('Pickle (save)')
def on_clicked(button, li):
f = open('demo.pickled', 'w')
try:
import cPickle as pickle
pickle.dump(view.canvas, f)
finally:
f.close()
b.connect('clicked', on_clicked, [0])
v.add(b)
b = gtk.Button('Unpickle (load)')
def on_clicked(button, li):
f = open('demo.pickled', 'r')
try:
import cPickle as pickle
canvas = pickle.load(f)
canvas.update_now()
finally:
f.close()
create_window(canvas, 'Unpickled diagram')
b.connect('clicked', on_clicked, [0])
v.add(b)
b = gtk.Button('Unpickle (in place)')
def on_clicked(button, li):
f = open('demo.pickled', 'r')
try:
import cPickle as pickle
canvas = pickle.load(f)
finally:
f.close()
#[i.request_update() for i in canvas.get_all_items()]
canvas.update_now()
view.canvas = canvas
b.connect('clicked', on_clicked, [0])
v.add(b)
b = gtk.Button('Reattach (in place)')
def on_clicked(button, li):
view.canvas = None
view.canvas = canvas
b.connect('clicked', on_clicked, [0])
v.add(b)
# Add the actual View:
view.canvas = canvas
view.zoom(zoom)
view.set_size_request(150, 120)
s = gtk.ScrolledWindow()
s.add(view)
h.add(s)
w.show_all()
w.connect('destroy', gtk.main_quit)
def handle_changed(view, item, what):
print what, 'changed: ', item
view.connect('focus-changed', handle_changed, 'focus')
view.connect('hover-changed', handle_changed, 'hover')
view.connect('selection-changed', handle_changed, 'selection')
