def scroll_up(self, args):
if state.get_shift_pressed():
offset = state.get_base_offset()
self.hscroll_base(offset[0] - state.get_grid_step()[0])
elif state.get_ctrl_pressed():
offset = state.get_base_offset()
self.vscroll_base(offset[1] - state.get_grid_step()[1])
else:
scale = state.get_scale()
state.set_scale((scale[0] + 0.1, scale[1] + 0.1))
self.mw.widget.update()
scale = state.get_scale()
self.mw.scale_label.set_text("Scale: %.1f:%.1f" % (scale[0], scale[1]))
def scroll_up(self, args):
if state.get_shift_pressed():
offset = state.get_base_offset()
self.hscroll_base(offset[0]-state.get_grid_step()[0])
elif state.get_ctrl_pressed():
offset = state.get_base_offset()
self.vscroll_base(offset[1]-state.get_grid_step()[1])
else:
scale = state.get_scale()
state.set_scale((scale[0]+0.1, scale[1]+0.1))
self.mw.widget.update()
scale = state.get_scale()
self.mw.scale_label.set_text("Scale: %.1f:%.1f"%(scale[0], scale[1]))
def screen_left_release(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0] - offset[0]) / scale[0]
cy = (args[0][1] - offset[1]) / scale[1]
state.reset_left_press_start()
def screen_left_release(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0]-offset[0])/scale[0]
cy = (args[0][1]-offset[1])/scale[1]
state.reset_left_press_start()
def do_expose_event(self, event):
cr_gdk = self.window.cairo_create()
surface = cr_gdk.get_target()
cr_surf = cairo.ImageSurface(cairo.FORMAT_ARGB32, event.area.width, event.area.height)
cr = cairo.Context(cr_surf)
# Restrict Cairo to the exposed area; avoid extra work
cr.rectangle(event.area.x, event.area.y, event.area.width, event.area.height)
cr.clip()
cr.set_source_rgb(1.0, 1.0, 1.0)
cr.rectangle(0, 0, int(event.area.width), int(event.area.height))
cr.fill()
w = event.area.width
h = event.area.height
scale = state.get_scale()
print "scale:", scale
grid = state.get_grid()
cr.set_source_rgb(0, 0, 0)
cr.set_line_width(0.1)
for y in range(0, h, scale*grid):
cr.move_to(0, y)
cr.line_to(w, y)
for x in range(0, w, scale*grid):
cr.move_to(x, 0)
cr.line_to(x, h)
cr.stroke()
cr_gdk.set_source_surface(cr_surf)
cr_gdk.paint()
def screen_left_press(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0] - offset[0]) / scale[0]
cy = (args[0][1] - offset[1]) / scale[1]
state.set_left_press_start((cx, cy))
grid_step = state.get_grid_step()
layer = state.get_active_layer()
def screen_left_press(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0]-offset[0])/scale[0]
cy = (args[0][1]-offset[1])/scale[1]
state.set_left_press_start((cx, cy))
grid_step = state.get_grid_step()
layer = state.get_active_layer()
def pointer_motion(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0] - offset[0]) / scale[0]
cy = (args[0][1] - offset[1]) / scale[1]
pointer_position = (cx, cy)
grid_step = state.get_grid_step()
nx = int(pointer_position[0] / grid_step[0]) * grid_step[0]
ny = int(pointer_position[1] / grid_step[1]) * grid_step[1]
pointer_position = [nx, ny]
layer = state.get_active_layer()
if layer != None:
if state.get_put_layer_object():
self.mw.widget.update()
if state.get_left_press_start() != None:
prev_position = state.get_pointer_position()
proxys = layer.get_selected_proxys()
for p in proxys:
if not p in self.relative_coords:
self.relative_coords[p] = utils.mk_vect(
(cx, cy), p.get_position())
nx = cx + self.relative_coords[p][0]
ny = cy + self.relative_coords[p][1]
p.set_position((int(nx / grid_step[0]) * grid_step[0],
int(ny / grid_step[1]) * grid_step[1]))
layer.resort_all_proxys()
if state.is_selection_mode():
if state.get_update_selection_box_selection():
state.update_selection_box(nx, ny)
sb = state.get_selection_box()
select_aabb = utils.AABB(sb[0], sb[1], sb[2], sb[3])
self.deselect_all(None, noupdate=True)
for p in layer.get_proxy_lst():
p_aabb = p.get_aabb()
if (p_aabb != None):
#print "proxy_aabb:", p_aabb
#print "select:", select_aabb
overlap = select_aabb.aabb_in_aabb(p_aabb)
#print "overlap",overlap
if (overlap != utils.OverlapEnum.no_overlap) and (
overlap !=
utils.OverlapEnum.fully_lays_inside):
p.set_selected()
layer.add_proxy_to_selected_fast(p)
self.mw.widget.update()
state.set_pointer_position(pointer_position)
self.mw.cursor_pos_label.set_text("Pos: %.3f:%.3f" % (cx, cy))
def do_expose_event(self, event):
# Create the cairo context
#state.offset = (self.allocation.width/2,self.allocation.height/2)
state.set_screen_offset(
(self.allocation.width / 2, self.allocation.height / 2))
scale = state.get_scale()
offset = state.get_offset()
cr_gdk = self.window.cairo_create()
surface = cr_gdk.get_target()
cr_surf = cairo.ImageSurface(cairo.FORMAT_ARGB32,
int(state.atlas_size * scale[0]),
int(state.atlas_size * scale[1]))
cr = cairo.Context(cr_surf)
# Restrict Cairo to the exposed area; avoid extra work
cr.rectangle(event.area.x, event.area.y, event.area.width,
event.area.height)
cr.clip()
cr.set_source_rgb(1.0, 1.0, 1.0)
cr.rectangle(0, 0, int(state.atlas_size * scale[0]),
int(state.atlas_size * scale[1]))
cr.fill()
cr.set_source_rgb(0, 0, 0)
cr.set_line_width(0.1)
cr.translate(offset[0], offset[1])
cr.scale(scale[0], scale[1])
grid_step = state.get_grid_step()
for y in range(0, int(self.allocation.height / scale[1]),
grid_step[1]):
cr.move_to(0, y)
cr.line_to(self.allocation.width / scale[0], y)
for x in range(0, int(self.allocation.width / scale[0]), grid_step[0]):
cr.move_to(x, 0)
cr.line_to(x, self.allocation.height / scale[1])
cr.stroke()
cr.identity_matrix()
images = state.get_images()
cr.translate(offset[0], offset[1])
cr.scale(state.scale[0], state.scale[1])
for img in images:
img.draw(cr)
cr.identity_matrix()
cr_gdk.set_source_surface(cr_surf)
cr_gdk.paint()
def pointer_motion(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0]-offset[0])/scale[0]
cy = (args[0][1]-offset[1])/scale[1]
pointer_position = (cx, cy)
grid_step = state.get_grid_step()
nx = int(pointer_position[0]/grid_step[0])*grid_step[0]
ny = int(pointer_position[1]/grid_step[1])*grid_step[1]
pointer_position = [nx, ny]
layer = state.get_active_layer()
if layer != None:
if state.get_put_layer_object():
self.mw.widget.update()
if state.get_left_press_start() != None:
prev_position = state.get_pointer_position()
proxys = layer.get_selected_proxys()
for p in proxys:
if not p in self.relative_coords:
self.relative_coords[p] = utils.mk_vect((cx, cy), p.get_position())
nx = cx + self.relative_coords[p][0]
ny = cy + self.relative_coords[p][1]
p.set_position((int(nx/grid_step[0])*grid_step[0], int(ny/grid_step[1])*grid_step[1]))
layer.resort_all_proxys()
if state.is_selection_mode():
if state.get_update_selection_box_selection():
state.update_selection_box(nx, ny)
sb = state.get_selection_box()
select_aabb = utils.AABB(sb[0], sb[1], sb[2], sb[3])
self.deselect_all(None, noupdate=True)
for p in layer.get_proxy_lst():
p_aabb = p.get_aabb()
if (p_aabb != None):
#print "proxy_aabb:", p_aabb
#print "select:", select_aabb
overlap = select_aabb.aabb_in_aabb(p_aabb)
#print "overlap",overlap
if (overlap != utils.OverlapEnum.no_overlap) and (overlap != utils.OverlapEnum.fully_lays_inside):
p.set_selected()
layer.add_proxy_to_selected_fast(p)
self.mw.widget.update()
state.set_pointer_position(pointer_position)
self.mw.cursor_pos_label.set_text("Pos: %.3f:%.3f"%(cx, cy))
def do_expose_event(self, event):
# Create the cairo context
#state.offset = (self.allocation.width/2,self.allocation.height/2)
state.set_screen_offset((self.allocation.width/2, self.allocation.height/2))
scale = state.get_scale()
offset = state.get_offset()
cr_gdk = self.window.cairo_create()
surface = cr_gdk.get_target()
cr_surf = cairo.ImageSurface(cairo.FORMAT_ARGB32, int(state.atlas_size*scale[0]), int(state.atlas_size*scale[1]))
cr = cairo.Context(cr_surf)
# Restrict Cairo to the exposed area; avoid extra work
cr.rectangle(event.area.x, event.area.y, event.area.width, event.area.height)
cr.clip()
cr.set_source_rgb(1.0, 1.0, 1.0)
cr.rectangle(0, 0, int(state.atlas_size*scale[0]), int(state.atlas_size*scale[1]))
cr.fill()
cr.set_source_rgb(0, 0, 0)
cr.set_line_width(0.1)
cr.translate(offset[0], offset[1])
cr.scale(scale[0], scale[1])
grid_step = state.get_grid_step()
for y in range(0, int(self.allocation.height/scale[1]), grid_step[1]):
cr.move_to(0, y)
cr.line_to(self.allocation.width/scale[0], y)
for x in range(0, int(self.allocation.width/scale[0]), grid_step[0]):
cr.move_to(x, 0)
cr.line_to(x, self.allocation.height/scale[1])
cr.stroke()
cr.identity_matrix()
images = state.get_images()
cr.translate(offset[0], offset[1])
cr.scale(state.scale[0], state.scale[1])
for img in images:
img.draw(cr)
cr.identity_matrix()
cr_gdk.set_source_surface(cr_surf)
cr_gdk.paint()
def pointer_motion(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0]-offset[0])/scale[0]
cy = (args[0][1]-offset[1])/scale[1]
pointer_position = (cx, cy)
if state.get_left_press_start() != None:
prev_position = state.get_pointer_position()
grid_step = state.get_grid_step()
images = state.get_selected_images()
for i in images:
nx = cx + self.relative_coords[i][0]
ny = cy + self.relative_coords[i][1]
i.set_origin((int(nx/grid_step[0])*grid_step[0], int(ny/grid_step[1])*grid_step[1]))
self.mw.widget.update()
state.set_pointer_position(pointer_position)
self.mw.cursor_pos_label.set_text("%.3f:%.3f"%(cx, cy))
def pointer_motion(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0] - offset[0]) / scale[0]
cy = (args[0][1] - offset[1]) / scale[1]
pointer_position = (cx, cy)
if state.get_left_press_start() != None:
prev_position = state.get_pointer_position()
grid_step = state.get_grid_step()
images = state.get_selected_images()
for i in images:
nx = cx + self.relative_coords[i][0]
ny = cy + self.relative_coords[i][1]
i.set_origin((int(nx / grid_step[0]) * grid_step[0],
int(ny / grid_step[1]) * grid_step[1]))
self.mw.widget.update()
state.set_pointer_position(pointer_position)
self.mw.cursor_pos_label.set_text("%.3f:%.3f" % (cx, cy))
def screen_left_press(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0] - offset[0]) / scale[0]
cy = (args[0][1] - offset[1]) / scale[1]
state.set_left_press_start((cx, cy))
images = state.get_images()
selected_images = state.get_selected_images()
if state.get_shift_pressed():
for img in images:
if img.point_in_aabb([cx, cy]):
if not img.get_selected():
state.add_im_to_selected(img)
else:
del self.relative_coords[img]
state.remove_im_from_selected(img)
else:
selected = None
for img in images:
if img.point_in_aabb([cx, cy]):
selected = img
if selected != None:
if selected.get_selected():
state.unselect_all_images()
self.relative_coords = {}
else:
state.unselect_all_images()
self.relative_coords = {}
state.add_im_to_selected(selected)
self.mw.widget.update()
selected_images = state.get_selected_images()
self.relative_coords = {}
for i in selected_images:
self.relative_coords[i] = utils.mk_vect((cx, cy), i.get_origin())
def screen_left_press(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0]-offset[0])/scale[0]
cy = (args[0][1]-offset[1])/scale[1]
state.set_left_press_start((cx, cy))
images = state.get_images()
selected_images = state.get_selected_images()
if state.get_shift_pressed():
for img in images:
if img.point_in_aabb([cx, cy]):
if not img.get_selected():
state.add_im_to_selected(img)
else:
del self.relative_coords[img]
state.remove_im_from_selected(img)
else:
selected = None
for img in images:
if img.point_in_aabb([cx, cy]):
selected = img
if selected != None:
if selected.get_selected():
state.unselect_all_images()
self.relative_coords = {}
else:
state.unselect_all_images()
self.relative_coords = {}
state.add_im_to_selected(selected)
self.mw.widget.update()
selected_images = state.get_selected_images()
self.relative_coords = {}
for i in selected_images:
self.relative_coords[i] = utils.mk_vect((cx, cy), i.get_origin())
def do_expose_event(self, event):
# Create the cairo context
#state.offset = (self.allocation.width/2,self.allocation.height/2)
#state.set_screen_offset((self.allocation.width/2, self.allocation.height/2))
state.set_screen_offset((0, 0))
scale = state.get_scale()
offset = state.get_offset()
cr_gdk = self.window.cairo_create()
surface = cr_gdk.get_target()
size = state.get_map_size_px()
cr_surf = cairo.ImageSurface(cairo.FORMAT_ARGB32, event.area.width, event.area.height)
cr = cairo.Context(cr_surf)
# Restrict Cairo to the exposed area; avoid extra work
cr.rectangle(event.area.x, event.area.y, event.area.width, event.area.height)
cr.clip()
cr.set_source_rgb(1.0, 1.0, 1.0)
cr.rectangle(0, 0, int(size[0]*scale[0]), int(size[1]*scale[1]))
cr.fill()
layers = state.get_layers()
pointer = state.get_pointer_position()
if len(layers) == 0:
cr.set_source_rgb(0.1, 0.1, 0.1)
f_size = 13
cr.set_font_size(f_size)
text = "There is no layer yet, add one please"
(x, y, width, height, dx, dy) = cr.text_extents(text)
cr.move_to(self.allocation.width/2-width/2, self.allocation.height/2)
cr.show_text(text);
else:
layer = state.get_active_layer()
if state.get_put_layer_object():
lo = layer.get_selected_layer_object()
cr.translate(offset[0]+pointer[0], offset[1]+pointer[1])
cr.scale(scale[0], scale[1])
lo.draw_preview(cr)
cr.identity_matrix()
for l in layers:
cr.translate(offset[0], offset[1])
cr.scale(scale[0], scale[1])
if l == layer:
l.draw(cr, 1.0)
else:
l.draw(cr, 0.8)
cr.identity_matrix()
cr.set_source_rgb(0, 0, 0)
cr.set_line_width(0.1)
cr.translate(offset[0], offset[1])
cr.scale(scale[0], scale[1])
grid_step = state.get_grid_step()
for y in range(0, int(size[1]), grid_step[1]):
cr.move_to(0, y)
cr.line_to(size[0], y)
for x in range(0, int(size[0]), grid_step[0]):
cr.move_to(x, 0)
cr.line_to(x, size[1])
cr.stroke()
cr.identity_matrix()
screen_size = state.get_screen_size()
cr.set_source_rgba(0.5, 0.5, 0.5, 0.5)
cr.rectangle(int(screen_size[0]*scale[0]), 0, event.area.width, event.area.height)
cr.fill()
cr.set_source_rgba(0.5, 0.5, 0.5, 0.5)
cr.rectangle(0, int(screen_size[1]*scale[1]), event.area.width, event.area.height)
cr.fill()
sel_box = state.get_selection_box()
if state.is_selection_mode():
sx = min(sel_box[0], sel_box[2])
ex = max(sel_box[0], sel_box[2])
sy = min(sel_box[1], sel_box[3])
ey = max(sel_box[1], sel_box[3])
w = ex - sx
h = ey - sy
sel_box = [sx, sy, w, h]
#print "sel_box:", sel_box
#print "offset:", offset, "scale:", scale
cr.set_source_rgba(0.7, 0.7, 0.9, 0.5)
cr.rectangle(int(sel_box[0]*scale[0]), int(sel_box[1]*scale[1]), int(sel_box[2]*scale[0]), int(sel_box[3]*scale[1]))
cr.fill()
cr_gdk.set_source_surface(cr_surf)
cr_gdk.paint()
def scroll_down(self, args):
scale = state.get_scale()
if scale[0] > 0.2:
state.set_scale((scale[0] - 0.1, scale[1] - 0.1))
self.mw.widget.update()
def scroll_up(self, args):
scale = state.get_scale()
state.set_scale((scale[0] + 0.1, scale[1] + 0.1))
self.mw.widget.update()
def scroll_up(self, args):
scale = state.get_scale()
state.set_scale((scale[0]+0.1, scale[1]+0.1))
self.mw.widget.update()
def screen_left_release(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0]-offset[0])/scale[0]
cy = (args[0][1]-offset[1])/scale[1]
grid_step = state.get_grid_step()
layer = state.get_active_layer()
if layer != None:
if state.is_selection_mode():
pass
else:
if state.get_put_layer_object():
state.unset_put_layer_object()
nx = int(cx/grid_step[0])*grid_step[0]
ny = int(cy/grid_step[1])*grid_step[1]
pt = [nx, ny]
layer.add_proxy(pt)
self.update_layer_objects_list(None)
proxy_lst = layer.get_proxy_lst()
if state.get_shift_pressed():
for p in proxy_lst:
if p.point_in_aabb([cx, cy]):
if not p.get_selected():
self.general_set_selected_element({"lst": self.mw.lo_gtklist, "name": p.name, "element": p})
layer.add_proxy_to_selected(p)
layer.set_ignore_next_selection_change()
else:
if p in self.relative_coords:
del self.relative_coords[p]
self.general_unselect_element({"lst": self.mw.lo_gtklist, "name": p.name})
layer.remove_proxy_from_selected(p)
else:
selected = None
for p in proxy_lst:
if p.point_in_aabb([cx, cy]):
selected = p
if selected != None:
if selected.get_selected():
self.relative_coords = {}
self.general_unselect_all_elements({"lst": self.mw.lo_gtklist})
print "click"
layer.unselect_all_proxys()
else:
self.relative_coords = {}
self.general_set_selected_element({"lst": self.mw.lo_gtklist, "name": selected.name, "element": selected})
layer.add_proxy_to_selected(p)
layer.set_ignore_next_selection_change()
self.mw.widget.update()
selected_proxys = layer.get_selected_proxys()
if len(selected_proxys) == 2:
if layer.get_layer_type() == LayerType.meta:
self.mw.layer_set_child_button.set_sensitive(True)
self.relative_coords = {}
for p in selected_proxys:
self.relative_coords[p] = utils.mk_vect((cx, cy), p.get_position())
state.unset_left_press_start()
def scroll_down(self, args):
scale = state.get_scale()
if scale[0]>0.2:
state.set_scale((scale[0]-0.1, scale[1]-0.1))
self.mw.widget.update()
def screen_left_release(self, args):
offset = state.get_offset()
scale = state.get_scale()
cx = (args[0][0] - offset[0]) / scale[0]
cy = (args[0][1] - offset[1]) / scale[1]
grid_step = state.get_grid_step()
layer = state.get_active_layer()
if layer != None:
if state.is_selection_mode():
pass
else:
if state.get_put_layer_object():
state.unset_put_layer_object()
nx = int(cx / grid_step[0]) * grid_step[0]
ny = int(cy / grid_step[1]) * grid_step[1]
pt = [nx, ny]
layer.add_proxy(pt)
self.update_layer_objects_list(None)
proxy_lst = layer.get_proxy_lst()
if state.get_shift_pressed():
for p in proxy_lst:
if p.point_in_aabb([cx, cy]):
if not p.get_selected():
self.general_set_selected_element({
"lst":
self.mw.lo_gtklist,
"name":
p.name,
"element":
p
})
layer.add_proxy_to_selected(p)
layer.set_ignore_next_selection_change()
else:
if p in self.relative_coords:
del self.relative_coords[p]
self.general_unselect_element({
"lst": self.mw.lo_gtklist,
"name": p.name
})
layer.remove_proxy_from_selected(p)
else:
selected = None
for p in proxy_lst:
if p.point_in_aabb([cx, cy]):
selected = p
if selected != None:
if selected.get_selected():
self.relative_coords = {}
self.general_unselect_all_elements(
{"lst": self.mw.lo_gtklist})
print "click"
layer.unselect_all_proxys()
else:
self.relative_coords = {}
self.general_set_selected_element({
"lst":
self.mw.lo_gtklist,
"name":
selected.name,
"element":
selected
})
layer.add_proxy_to_selected(p)
layer.set_ignore_next_selection_change()
self.mw.widget.update()
selected_proxys = layer.get_selected_proxys()
if len(selected_proxys) == 2:
if layer.get_layer_type() == LayerType.meta:
self.mw.layer_set_child_button.set_sensitive(True)
self.relative_coords = {}
for p in selected_proxys:
self.relative_coords[p] = utils.mk_vect((cx, cy),
p.get_position())
state.unset_left_press_start()