def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal', sashrelief="raised")
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=10, pady=5)
self._right_pane = PanedWindow(self._panes)
self._panes.add(self._left_pane, sticky='n')
self._panes.add(self._right_pane)
self._group_select = GroupSelect(self._left_pane)
self._group_select.pack(expand=True, fill='x')
# spacer
Frame(self._left_pane, height=10).pack()
graph_controls = LabelFrame(self._left_pane, text="Graph options", padx=10, pady=5)
graph_controls.columnconfigure(1, weight=1)
graph_controls.pack(expand=True, fill='x')
self._show_graph_checkbutton = CheckBox(graph_controls, text='Show graph')
self._show_graph_checkbutton.select()
self._show_graph_checkbutton.grid(row=0, columnspan=2, sticky='w')
Label(graph_controls, text='Algorithm').grid(row=1, sticky='w')
self._graph_type = OptionList(graph_controls, values=MainWindow.GRAPH_TYPES.keys())
self._graph_type.config(width=15)
self._graph_type.grid(row=1, column=1, sticky='we')
# spacer
Frame(self._left_pane, height=10).pack()
self._go_button = Button(self._left_pane, text='Go', command=self._go)
self._go_button.pack()
def __init__(self, master, skeleton):
PanedWindow.__init__(self, master=master, height=400)
self.skeleton = skeleton
self.figure = Figure(figsize=(5,4), dpi=100)
self.subplots = {}
nrows = len(self.skeleton.units)
ncols = 3
plot_counter = 1
for u in self.skeleton.units.keys():
subplots = [None, None, None]
history = self.skeleton.units[u].history()
t = range(0, len(history[0]))
for a in range(0, 3):
subplot = self.figure.add_subplot(nrows, ncols, plot_counter, xlim=[0,200], ylim=[-90,90])
s = history[a]
subplot.plot(t,s)
plot_counter += 1
subplots[a] = subplot
self.subplots[u] = subplots
self.canvas = FigureCanvasTkAgg(self.figure, master=self)
self.canvas.show()
self.canvas.get_tk_widget().pack(side="top", fill="both", expand=1)
self.canvas.mpl_connect("key_press_event", self.pressed_key)
self.pack(fill="both", expand="yes")
def __init__(self, master, color="gray", size=60, sashpad=2, disallow_dragging=False, on_click=None, image=None, cursor=None, opaqueresize=True):
Tk_PanedWindow.__init__(self, master, showhandle = False, orient=self.ORIENT, sashpad=sashpad, opaqueresize=opaqueresize)
self._active_sash = None
self._on_click = on_click
self._image = image
self._color = color
self._cursor = cursor
self._configure_callbacks = []
if not opaqueresize:
disallow_dragging = True
self._disallow_dragging = disallow_dragging
self._handle_list = []
self._list_of_panes = []
if self.ORIENT == VERTICAL:
self._width= size
self._height = 2*sashpad
else:
self._width = 2*sashpad
self._height= size
if opaqueresize:
self.bind('<Button-1>', self._on_mark_sash)
self.bind('<B1-Motion>', self._on_drag_sash)
self.bind('<ButtonRelease-1>', self._on_release)
def _on_drag_sash(self, event):
coord_x = event.x
coord_y = event.y
Tk_PanedWindow.sash_place(self, self._active_sash, coord_x, coord_y)
self._update_position_all_handles()
return "break"
def _on_drag_sash(self, event):
coord_x = event.x
coord_y = event.y
Tk_PanedWindow.sash_place(self, self._active_sash, coord_x, coord_y)
self._update_position_all_handles()
return "break"
def __init__(self, gesture, master=None):
self.gesture = gesture
PanedWindow.__init__(self, master=master, height=500, orient="vertical")
self.pack(fill="both", expand="yes")
self.gesture_view = GestureView(gesture=self.gesture, master=self)
self.tools_view = ToolsView(gesture=self.gesture, master=self)
def __init__(self, root, title, map, width=WINDOW_W, height=WINDOW_H):
PanedWindow.__init__(self)
self.root = root
self.set_title(title)
self.set_map(map)
self.width = width
self.height = height
self.add_pane()
self.add_panel()
def initGUI(self):
frame = Frame(self, width=630, height=500)
self.panel = PanedWindow(frame, orient=HORIZONTAL)
self.LeftFrame(self.panel)
self.RightFrame(self.panel)
self.panel.add(self.LFrame)
self.panel.add(self.RFrame)
self.panel.pack()
frame.pack()
def printInfoAnt(self, i):
self.frameAnt = PanedWindow(self.FrameInfo, orient=VERTICAL)
t_Ant = Label(self.frameAnt, text="Information Ant : %d" % (i))
(t_brain, t_energie, t_acide) = self.getInfoAnt(i)
a_b = Label(self.frameAnt, text=t_brain)
a_e = Label(self.frameAnt, text=t_energie)
a_a = Label(self.frameAnt, text=t_acide)
t_Ant.pack(side=TOP)
self.frameAnt.add(t_Ant)
self.frameAnt.add(a_b)
self.frameAnt.add(a_e)
self.frameAnt.add(a_a)
self.frameAnt.pack()
def add_pane(self):
master = PanedWindow(bg=BACKGROUND_COLOR)
master.pack(side=LEFT)
master.propagate(0)
canvas = self.get_map().get_canvas()
hbar = Scrollbar(master, orient=HORIZONTAL)
hbar.pack(side=BOTTOM, fill=X)
hbar.config(command=canvas.xview)
vbar = Scrollbar(master, orient=VERTICAL)
vbar.pack(side=RIGHT, fill=Y)
vbar.config(command=canvas.yview)
canvas.config(xscrollcommand=hbar.set, yscrollcommand=vbar.set)
canvas.pack(side=LEFT, expand=True, fill=BOTH)
master.config(width=PANE_W, height=PANE_H)
master.add(canvas)
def __init__(self, parent, objectList):
Toplevel.__init__(self, parent)
self.protocol('WM_DELETE_WINDOW', self.destroy)
self._objectList = objectList
self._lb = Listbox(self, selectmode = SINGLE)
self._lb.pack()
self._buttons = PanedWindow(self)
for i in objectList.getKeysInOrder():
self._lb.insert(END, i)
addButton = Button(self._buttons, text="Add", command=self.onAdd)
addButton.pack(side=LEFT)
modifyButton = Button(self._buttons, text="Modify", command=self.onModify)
modifyButton.pack(side=LEFT)
deleteButton = Button(self._buttons, text="Delete", command=self.onDelete)
deleteButton.pack(side=LEFT)
cancelButton = Button(self._buttons, text="Cancel", command=self.onCancel)
cancelButton.pack(side=RIGHT)
self._buttons.pack(side=BOTTOM)
def __init__(self,
master,
color="gray",
size=60,
sashpad=2,
disallow_dragging=False,
on_click=None,
image=None,
cursor=None,
opaqueresize=True):
Tk_PanedWindow.__init__(self,
master,
showhandle=False,
orient=self.ORIENT,
sashpad=sashpad,
opaqueresize=opaqueresize)
self._active_sash = None
self._on_click = on_click
self._image = image
self._color = color
self._cursor = cursor
self._configure_callbacks = []
if not opaqueresize:
disallow_dragging = True
self._disallow_dragging = disallow_dragging
self._handle_list = []
self._list_of_panes = []
if self.ORIENT == VERTICAL:
self._width = size
self._height = 2 * sashpad
else:
self._width = 2 * sashpad
self._height = size
if opaqueresize:
self.bind('<Button-1>', self._on_mark_sash)
self.bind('<B1-Motion>', self._on_drag_sash)
self.bind('<ButtonRelease-1>', self._on_release)
def initGUI(self):
frame = Frame(self, width =630, height = 500)
self.panel = PanedWindow(frame, orient=HORIZONTAL)
self.LeftFrame(self.panel)
self.RightFrame(self.panel)
self.panel.add(self.LFrame)
self.panel.add(self.RFrame)
self.panel.pack()
frame.pack()
def add(self, pane, **kwargs):
Tk_PanedWindow.add(self, pane, **kwargs)
self._list_of_panes.append(pane)
quantity_of_panes = len(self._list_of_panes)
if quantity_of_panes >= 2:
handle_index = quantity_of_panes-2
handle = self.HANDLE_CLASS(self, handle_index, bg=self._color, height=self._height, width=self._width, cursor = self._cursor, disallow_dragging=self._disallow_dragging, on_click=self._on_click, image=self._image)
if self.ORIENT == VERTICAL:
handle.place(relx=0.5, anchor="c")
else:
handle.place(rely=0.5, anchor="c")
self._handle_list.append(handle)
callback_id1 = pane.bind("<Configure>", lambda event, handle_index=handle_index: self._on_configure_pane(handle_index), "+")
callback_id2 = self._list_of_panes[handle_index].bind("<Configure>", lambda event, handle_index=handle_index: self._on_configure_pane(handle_index), "+")
self._configure_callbacks.append((callback_id1,callback_id2))
def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal',
sashrelief="raised")
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes)
self._right_pane = PanedWindow(self._panes)
self._panes.add(self._left_pane, sticky='n')
self._panes.add(self._right_pane)
self._group_select = GroupSelect(self._left_pane)
self._group_select.pack(expand=True, fill='x')
self._show_graph_checkbutton = CheckBox(self._left_pane,
text='Show graph')
self._show_graph_checkbutton.select()
self._show_graph_checkbutton.pack()
self._go_button = Button(self._left_pane, text='Go', command=self._go)
self._go_button.pack()
def _init_components(self):
self._panes = PanedWindow(self,
orient='horizontal',
sashrelief="raised")
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes)
self._right_pane = PanedWindow(self._panes)
self._panes.add(self._left_pane, sticky='n')
self._panes.add(self._right_pane)
self._group_select = GroupSelect(self._left_pane)
self._group_select.pack(expand=True, fill='x')
self._show_graph_checkbutton = CheckBox(self._left_pane,
text='Show graph')
self._show_graph_checkbutton.select()
self._show_graph_checkbutton.pack()
self._go_button = Button(self._left_pane, text='Go', command=self._go)
self._go_button.pack()
def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal',
sashrelief='raised')
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=2, pady=2)
self._right_pane = Frame(self._panes)
self._panes.add(self._left_pane, width=500)
self._panes.add(self._right_pane)
# group name
group_name_pane = LabelFrame(self._left_pane, text="Group")
group_name_pane.pack(fill='x')
self._group_name = GroupNameLabel(group_name_pane, self._group)
self._group_name.pack(expand=True, fill='both')
# group order
group_order_pane = LabelFrame(self._left_pane, text="Order")
group_order_pane.pack(fill='x')
self._group_order = IntegerContainer(group_order_pane,
integer=self._group.order())
self._group_order.pack(expand=True, fill='both')
# apex
self._apex_pane = LabelFrame(self._left_pane, text="Apex")
self._apex_pane.pack(expand=True, fill='both')
self._apex_container = ApexListContainer(self._apex_pane,
apex=self._group.apex())
self._apex_container.pack(expand=True, fill='both')
self._show_graph_button = Button(self._right_pane, text='Show graph',
command=self._show_graph_canvas)
self._graph_canvas = None
if self._show_graph:
self._show_graph_canvas()
else:
self._show_graph_button.pack()
def printInfoAnt(self, i):
self.frameAnt = PanedWindow(self.FrameInfo, orient=VERTICAL)
t_Ant = Label(self.frameAnt, text="Information Ant : %d" %(i))
(t_brain,t_energie,t_acide) = self.getInfoAnt(i)
a_b = Label(self.frameAnt, text=t_brain)
a_e = Label(self.frameAnt, text=t_energie)
a_a = Label(self.frameAnt, text=t_acide)
t_Ant.pack(side = TOP)
self.frameAnt.add(t_Ant)
self.frameAnt.add(a_b)
self.frameAnt.add(a_e)
self.frameAnt.add(a_a)
self.frameAnt.pack()
def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal', sashrelief='raised')
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=2, pady=2)
self._right_pane = Frame(self._panes)
self._panes.add(self._left_pane, width=250)
self._panes.add(self._right_pane)
# group name
group_name_pane = LabelFrame(self._left_pane, text="Group", padx=10, pady=5)
group_name_pane.pack(fill='x')
self._group_name = GroupNameLabel(group_name_pane, self._group)
self._group_name.pack(expand=True, fill='both')
# group order
group_order_pane = LabelFrame(self._left_pane, text="Order", padx=10, pady=5)
group_order_pane.pack(fill='x')
self._group_order = IntegerContainer(group_order_pane, integer=self._group.order())
self._group_order.pack(expand=True, fill='both')
# apex
self._apex_pane = LabelFrame(self._left_pane, text="Apex", padx=10, pady=5)
self._apex_pane.pack(expand=True, fill='both')
self._apex_container = ApexListContainer(self._apex_pane, apex=self._group.apex())
self._apex_container.pack(expand=True, fill='both')
# graph controls
cocliques_frame = LabelFrame(self._left_pane, text="Cocliques", padx=10, pady=5)
cocliques_frame.pack(fill='x')
self._cocliques_button = Button(cocliques_frame, text="Calculate", command=self._show_cocliques)
self._cocliques_button.pack(anchor='nw')
self._cocliques_container = ListContainer(cocliques_frame)
self._cocliques_list = Listbox(self._cocliques_container)
self._cocliques_container.set_listbox(self._cocliques_list)
# Button(graph_controls, text='Group equivalent vertices').pack(anchor='nw')
# this is a button that show up instead of graph canvas if we uncheck 'Show graph' checkbox.
self._show_graph_button = Button(self._right_pane, text='Show graph',
command=self._show_graph_canvas)
self._graph_canvas = None
if self._show_graph:
self._show_graph_canvas()
else:
self._show_graph_button.pack()
def printTurn(self):
frameS = PanedWindow(self.FrameInfo, orient=HORIZONTAL)
turns = Label(frameS, text="Tour :")
self.var.set(str(self.selectTurn))
self.Spin_T = Spinbox(frameS,
values=self.turns.keys(),
command=self.updateSpin_turn,
textvariable=self.var)
self.Spin_T.bind('<Return>', self.validateTurn)
turns.pack()
self.Spin_T.pack()
frameS.add(turns)
frameS.add(self.Spin_T)
frameS.pack()
self.frameT = frameS
def printTurn(self):
frameS = PanedWindow(self.FrameInfo, orient=HORIZONTAL)
turns = Label(frameS, text="Tour :")
self.var.set(str(self.selectTurn))
self.Spin_T = Spinbox(frameS, values=self.turns.keys(), command =
self.updateSpin_turn ,textvariable=self.var)
self.Spin_T.bind('<Return>', self.validateTurn)
turns.pack()
self.Spin_T.pack()
frameS.add(turns)
frameS.add(self.Spin_T)
frameS.pack()
self.frameT = frameS
def add(self, pane, **kwargs):
Tk_PanedWindow.add(self, pane, **kwargs)
self._list_of_panes.append(pane)
quantity_of_panes = len(self._list_of_panes)
if quantity_of_panes >= 2:
handle_index = quantity_of_panes - 2
handle = self.HANDLE_CLASS(
self,
handle_index,
bg=self._color,
height=self._height,
width=self._width,
cursor=self._cursor,
disallow_dragging=self._disallow_dragging,
on_click=self._on_click,
image=self._image)
if self.ORIENT == VERTICAL:
handle.place(relx=0.5, anchor="c")
else:
handle.place(rely=0.5, anchor="c")
self._handle_list.append(handle)
callback_id1 = pane.bind("<Configure>",
lambda event, handle_index=handle_index:
self._on_configure_pane(handle_index),
"+")
callback_id2 = self._list_of_panes[handle_index].bind(
"<Configure>",
lambda event, handle_index=handle_index: self.
_on_configure_pane(handle_index),
"+")
self._configure_callbacks.append((callback_id1, callback_id2))
class Facade(Frame):
"""This is a Frame that contains group info, group order, apex and prime
graph.
"""
def __init__(self, parent, group, show_graph=True, graph_class=None, **kw):
"""
Parameters:
show_graph: whether to create and show graph instantly or provide a button to do that lately
graph_factory: callable accepting one argument - the Group instance and returning Graph instance. Note that
__str__ method of the callable is used in the UI.
"""
Frame.__init__(self, parent, **kw)
self._group = group
# self._show_apex = True
self._show_graph = show_graph
self._graph_class = graph_class
self._init_variables()
self._init_menu()
self._init_components()
@property
def group(self):
return self._group
@property
def apex_list_container(self):
return self._apex_container
@property
def graph_canvas(self):
return self._graph_canvas
def _show_graph_canvas(self):
self._show_graph_button.forget()
# TODO: add different layouts and other options
graph_class = self._graph_class
self.graph = graph_class(self._group)
self._graph_canvas = GraphCanvas(self._right_pane, SpringLayout(self.graph), caption=str(graph_class))
self._graph_canvas.pack(expand=True, fill='both')
self._graph_canvas.vertex_label_mode = self.getvar(
name=self.winfo_name() + ".vertexlabelposition")
self._iterations_plugin = IterationsPlugin()
self._iterations_plugin.apply(self._graph_canvas)
self.update_layout()
def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal', sashrelief='raised')
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=2, pady=2)
self._right_pane = Frame(self._panes)
self._panes.add(self._left_pane, width=250)
self._panes.add(self._right_pane)
# group name
group_name_pane = LabelFrame(self._left_pane, text="Group", padx=10, pady=5)
group_name_pane.pack(fill='x')
self._group_name = GroupNameLabel(group_name_pane, self._group)
self._group_name.pack(expand=True, fill='both')
# group order
group_order_pane = LabelFrame(self._left_pane, text="Order", padx=10, pady=5)
group_order_pane.pack(fill='x')
self._group_order = IntegerContainer(group_order_pane, integer=self._group.order())
self._group_order.pack(expand=True, fill='both')
# apex
self._apex_pane = LabelFrame(self._left_pane, text="Apex", padx=10, pady=5)
self._apex_pane.pack(expand=True, fill='both')
self._apex_container = ApexListContainer(self._apex_pane, apex=self._group.apex())
self._apex_container.pack(expand=True, fill='both')
# graph controls
cocliques_frame = LabelFrame(self._left_pane, text="Cocliques", padx=10, pady=5)
cocliques_frame.pack(fill='x')
self._cocliques_button = Button(cocliques_frame, text="Calculate", command=self._show_cocliques)
self._cocliques_button.pack(anchor='nw')
self._cocliques_container = ListContainer(cocliques_frame)
self._cocliques_list = Listbox(self._cocliques_container)
self._cocliques_container.set_listbox(self._cocliques_list)
# Button(graph_controls, text='Group equivalent vertices').pack(anchor='nw')
# this is a button that show up instead of graph canvas if we uncheck 'Show graph' checkbox.
self._show_graph_button = Button(self._right_pane, text='Show graph',
command=self._show_graph_canvas)
self._graph_canvas = None
if self._show_graph:
self._show_graph_canvas()
else:
self._show_graph_button.pack()
def _init_variables(self):
def set_default_var(self, name):
"""Sets widget-specific var with same value as root.
"""
default_var = self.getvar(name)
local_var_name = self.winfo_name() + "." + name
self.setvar(local_var_name, default_var)
return local_var_name
local_name = set_default_var(self, "vertexlabelposition")
tools.trace_variable(self, local_name, "w",
self._change_vertex_label_position)
def _change_vertex_label_position(self, name, *arg):
# override default value
self.setvar("vertexlabelposition", self.getvar(name))
if self._graph_canvas is not None:
self._graph_canvas.vertex_label_mode = self.getvar(name)
def _init_menu(self):
"""Init menu bar content.
"""
toplevel = self.winfo_toplevel()
if toplevel['menu']:
self._menu = self.nametowidget(name=toplevel['menu'])
else:
self._menu = Menu(toplevel)
toplevel['menu'] = self._menu
graph_options = Menu(self._menu, tearoff=0)
self._menu.add_cascade(label="Graph", menu=graph_options)
self._menu_index = self._menu.index("end")
vertex_label_position_menu = Menu(graph_options, tearoff=0)
graph_options.add_cascade(label="Label position", menu=vertex_label_position_menu)
menu_var = self.winfo_name() + ".vertexlabelposition"
vertex_label_position_menu.add_radiobutton(variable=menu_var, label="Auto", value="auto")
vertex_label_position_menu.add_radiobutton(variable=menu_var, label="Center", value="center")
graph_options.add_command(label="Save graph...", command=self.call_graph_save_dialog)
self.bind("<Destroy>", self.__destroy_menu)
#noinspection PyUnusedLocal
def __destroy_menu(self, event):
try:
self._menu.delete(self._menu_index)
except TclError:
pass
def _show_cocliques(self):
cocliques = self.graph.max_cocliques()
def select_coclique(*_):
index = next(iter(self._cocliques_list.curselection()), None)
if index is not None:
selected = cocliques[int(index)]
pick_state = self._graph_canvas.picked_vertex_state
pick_state.clear()
for value in selected:
pick_state.pick(self._graph_canvas.get_vertex(value))
self._cocliques_list.insert(0, *[', '.join(map(str, coclique)) for coclique in cocliques])
self._cocliques_list.bind("<Double-Button-1>", select_coclique)
self._cocliques_button.forget()
self._cocliques_container.pack(expand=True, fill='both')
def call_graph_save_dialog(self):
file_name = tkFileDialog.asksaveasfilename(defaultextension='.ps',
filetypes=[('PostScript', '.ps')], parent=self.winfo_toplevel(),
title="Save graph as image")
if file_name:
with codecs.open(file_name, 'w', encoding='utf-8') as f:
f.write(self._graph_canvas.postscript())
def update_layout(self):
try:
self._iterations_plugin.iterate(50)
except AttributeError:
pass
def _setup_ui(self):
self.parent.title('p2paste')
self.style = Style()
self.style.theme_use('default')
self.pack(fill=BOTH, expand=True)
'''Fixed top-frame with connection controls'''
frame_top = Frame(self)
frame_top.pack(fill=X, side=TOP)
label_nick = Label(frame_top, text="nickname:")
label_nick.pack(side=LEFT, padx=2, pady=2)
self.entry_nick = Entry(frame_top)
self.entry_nick.pack(side=LEFT, padx=2)
label_ip = Label(frame_top, text="ip:port")
label_ip.pack(side=LEFT, padx=2, pady=2)
self.entry_ip = Entry(frame_top)
self.entry_ip.pack(side=LEFT, padx=2)
self.button_connect = Button(frame_top, text="connect")
self.button_connect.pack(side=LEFT, padx=2)
self.button_disconnect = Button(frame_top, text="disconnect")
self.button_disconnect.pack(side=LEFT, padx=2)
label_port = Label(frame_top, text="port:")
label_port.pack(side=LEFT, padx=2, pady=2)
self.entry_port = Entry(frame_top, width=10)
self.entry_port.pack(side=LEFT, padx=2, pady=2)
self.button_host = Button(frame_top, text="host")
self.button_host.pack(side=LEFT, padx=2, pady=2)
self.button_close_server = Button(frame_top, text="close server")
self.button_close_server.pack(side=LEFT, padx=2)
'''Bottom frame with a PanedWindow, the main screen part'''
frame_bottom = Frame(self)
frame_bottom.pack(fill=BOTH, expand=True, side=TOP)
pw_main = PanedWindow(frame_bottom)
pw_main.pack(fill=BOTH, expand=True)
'''Left part of screen, contains paste-text, chat-text and chat-entry'''
frame_left = Frame(pw_main)
pw_main.add(frame_left)
'''Left-Bottom chat entry Frame with input controls'''
frame_chat_entry = Frame(frame_left)
frame_chat_entry.pack(fill=X, expand=True, side=BOTTOM)
self.entry_chat = Entry(frame_chat_entry)
self.entry_chat.pack(fill=X, expand=True, side=LEFT, padx=2, pady=2)
self.button_send_message = Button(frame_chat_entry, text="send")
self.button_send_message.pack(side=LEFT, padx=2, pady=2)
self.button_copy_chat = Button(frame_chat_entry, text="copy")
self.button_copy_chat.pack(side=LEFT, padx=2, pady=2)
'''Paste and chat box on the left side wrapped in a PanedWindow for resizability'''
pw_center = PanedWindow(frame_left, orient=VERTICAL)
pw_center.pack(fill=BOTH, expand=True, side=TOP)
'''Pastebox container'''
frame_paste = Frame(pw_center)
'''Input controls for Pastebox'''
frame_paste_controls = Frame(frame_paste)
frame_paste_controls.pack(fill=X, side=BOTTOM)
label_has_paste = Label(frame_paste_controls, text="paste permission:")
label_has_paste.pack(side=LEFT, padx=2, pady=2)
self.entry_has_paste = Entry(frame_paste_controls, width=8, state=DISABLED)
self.entry_has_paste.pack(side=LEFT, padx=2, pady=2)
self.button_request_paste = Button(frame_paste_controls, text="request")
self.button_request_paste.pack(side=LEFT, padx=2, pady=2)
self.button_clear_pastebox = Button(frame_paste_controls, text="clear")
self.button_clear_pastebox.pack(side=LEFT, padx=2, pady=2)
self.button_selectall_pastebox = Button(frame_paste_controls, text="select all")
self.button_selectall_pastebox.pack(side=LEFT, padx=2, pady=2)
self.button_copy_pastebox = Button(frame_paste_controls, text="copy")
self.button_copy_pastebox.pack(side=LEFT, padx=2, pady=2)
self.button_paste_pastebox = Button(frame_paste_controls, text="paste")
self.button_paste_pastebox.pack(side=LEFT, padx=2, pady=2)
self.button_send_pastebox = Button(frame_paste_controls, text="send")
self.button_send_pastebox.pack(side=LEFT, padx=2, pady=2)
'''Pastebox with scrollbars'''
sbx_text_paste = Scrollbar(frame_paste, orient=HORIZONTAL)
sbx_text_paste.pack(side=BOTTOM, fill=X, padx=2)
sby_text_paste = Scrollbar(frame_paste)
sby_text_paste.pack(side=RIGHT, fill=Y, pady=2)
self.text_paste = Text(
frame_paste,
wrap=NONE,
xscrollcommand=sbx_text_paste.set,
yscrollcommand=sby_text_paste.set
)
self.text_paste.pack(fill=BOTH, expand=True, padx=2, pady=2)
sbx_text_paste.config(command=self.text_paste.xview)
sby_text_paste.config(command=self.text_paste.yview)
pw_center.add(frame_paste)
self.pastebox_disabled()
'''Chatbox container'''
frame_chat = Frame(pw_center)
sby_text_chat = Scrollbar(frame_chat)
sby_text_chat.pack(side=RIGHT, fill=Y, pady=2)
self.text_chat = Text(
frame_chat,
wrap=WORD,
state=DISABLED,
yscrollcommand=sby_text_chat.set)
self.text_chat.pack(fill=BOTH, expand=True, padx=2, pady=2)
sby_text_chat.config(command=self.text_chat.yview)
pw_center.add(frame_chat)
'''Chat list on the right side'''
frame_chatlist = Frame(pw_main)
sby_chatlist = Scrollbar(frame_chatlist)
sby_chatlist.pack(side=RIGHT, fill=Y, pady=2)
self.listbox_clients = Listbox(frame_chatlist, yscrollcommand=sby_chatlist.set)
self.listbox_clients.pack(fill=BOTH, expand=True, padx=2, pady=2)
sby_chatlist.config(command=self.listbox_clients.yview)
pw_main.add(frame_chatlist)
def __init__(self, parent, pack_location=None, **kwargs):
pw.__init__(self, parent, **kwargs)
if pack_location:
self.pack(side=pack_location, fill='both', expand=True)
self.elements = {}
def __init__(self, root):
self.root = root
# Radio action buttons
self.action = None
self.sgmap_single_btn, self.krn_lib_btn, self.multi_map_btn = None, None, None
self.file_log_var = StringVar()
self.csv_file_var = StringVar()
self.krn_folder_var = StringVar()
self.output_folder_var = StringVar()
self.sgmap_folder_var = StringVar()
self.krn_ent_var = StringVar()
self.krn_var, self.hem_var = IntVar(), IntVar()
self.img, self.cdiag = None, None
self.lat_lbl, self.lat_entry = None, None
self.k_lbl, self.k_entry = None, None
self.zen_lbl, self.zen_entry = None, None
self.azi_lbl, self.azi_entry = None, None
self.krn_lvl, self.krn_entry, self.krn_btn = None, None, None
self.txt_redir, self.prg_log = None, None
self.map_btn, self.gen_krn_btn = None, None
# Sets window title, size, and icon on screen.
self.root.title("Skyglow Estimation Toolbox (SET)")
self.root.geometry('%dx%d+%d+%d' %
(constants.SW * 0.75, constants.SH * 0.75, 25, 25))
self.root.iconbitmap(os.path.join(os.getcwd(), constants.ICO))
self.root.resizable(False, False)
self.root.update_idletasks()
# Creates three paned windows for the main screen.
base = PanedWindow()
base.pack(fill=BOTH, expand=1)
sub1 = PanedWindow(base,
orient=VERTICAL,
height=self.root.winfo_height() * 3 / 4)
base.add(sub1)
sub2 = PanedWindow(sub1,
orient=HORIZONTAL,
height=self.root.winfo_height() / 5)
sub1.add(sub2)
# Creates frame for holding inputs.
self.input_frame = Frame(sub2)
sub2.add(self.input_frame)
# Creates frame for bottom half of main screen.
self.img_frame = Frame(sub1, bd=2, bg='white', relief="sunken")
sub1.add(self.img_frame)
# Creates canvas for displaying images.
self.img_canvas = Canvas(self.img_frame,
bd=2,
relief="groove",
width=constants.SW * 0.6,
height=self.root.winfo_height() * 3 / 4 * 0.9)
self.img_canvas.place(relx=.5, rely=.5, anchor=CENTER)
# Creates help button for link to documentation, instructions, and about.
self.help_btn = Menubutton(self.input_frame,
text="Help",
relief="raised",
bd=2,
width=8,
pady=1)
#self.help_btn.place(relx=1, rely=0, anchor=NE)
self.help_btn.grid(column=4, columnspan=1, row=0)
self.help_btn_menu = Menu(self.help_btn, tearoff=0)
doc = 'https://github.com/NASA-DEVELOP'
self.help_btn_menu.add_command(label="Documentation",
command=lambda: self.open_url(doc))
self.help_btn_menu.add_command(label="Instructions",
command=self.instructions)
self.help_btn_menu.add_separator()
self.help_btn_menu.add_command(label="About", command=self.about)
self.help_btn["menu"] = self.help_btn_menu
class MainWindow(Frame):
def __init__(self, **kw):
Frame.__init__(self, **kw)
self.winfo_toplevel().minsize(width=800, height=480)
self.pack(expand=True, fill='both')
self._init_variables()
self._init_components()
self._init_menu()
def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal',
sashrelief="raised")
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes)
self._right_pane = PanedWindow(self._panes)
self._panes.add(self._left_pane, sticky='n')
self._panes.add(self._right_pane)
self._group_select = GroupSelect(self._left_pane)
self._group_select.pack(expand=True, fill='x')
self._show_graph_checkbutton = CheckBox(self._left_pane,
text='Show graph')
self._show_graph_checkbutton.select()
self._show_graph_checkbutton.pack()
self._go_button = Button(self._left_pane, text='Go', command=self._go)
self._go_button.pack()
def _init_variables(self):
# init default properties
self.setvar("graphframeview", "onlyone")
self.setvar("vertexlabelposition", "auto")
def _init_menu(self):
toplevel = self.winfo_toplevel()
self._menu = Menu(toplevel)
toplevel['menu'] = self._menu
view = Menu(self._menu, tearoff=0)
self._menu.add_cascade(label="View", menu=view)
graph_view = Menu(view, tearoff=0)
view.add_cascade(label="View graphs", menu=graph_view)
graph_view.add_radiobutton(label="Only one", value="onlyone",
variable="graphframeview")
# graph_view.add_radiobutton(label="In a row", value="row",
# variable=graph_view_var)
graph_view.add_radiobutton(label="In separate window", value="window",
variable="graphframeview")
def _go(self):
view = self.getvar("graphframeview")
if view == "onlyone":
for child in self._right_pane.winfo_children():
child.destroy()
#if view in ("onlyone", "row"):
container = FrameWithCloseButton(self._right_pane)
self._right_pane.add(container, minsize=600)
else:
container = Toplevel()
facade = Facade(container, self._group_select.selected_group,
show_graph=self._show_graph_checkbutton.is_selected())
facade.pack(expand=True, fill='both')
def __init__(self, master, max_num_features, num_frames, mser_image):
Toplevel.__init__(self, master)
self.protocol('WM_DELETE_WINDOW', self.withdraw)
self.notebook = ttk.Notebook(self)
frame_feats = ttk.Frame(self.notebook)
frame_forest = ttk.Frame(self.notebook)
frame_mser = ttk.Frame(self.notebook)
frame_other = ttk.Frame(self.notebook)
self.notebook.add(frame_feats, text="Features ")
self.notebook.add(frame_forest, text=" Forest ")
self.notebook.add(frame_mser, text=" MSER ")
self.notebook.add(frame_other, text=" Other ")
self.max_num_feats = max_num_features
self.selection = None
self.mser_image = mser_image
rand_row = random.randint(1, 512 - 200)
rand_col = random.randint(1, 512 - 110)
self.mser_area = mser_image[rand_row:rand_row + 180,
rand_col:rand_col + 100]
# read images from icons folder
self.hf0_img = PhotoImage(file="./icons/hf0.gif")
self.hf1_img = PhotoImage(file="./icons/hf1.gif")
self.hf2_img = PhotoImage(file="./icons/hf2.gif")
self.hf3_img = PhotoImage(file="./icons/hf3.gif")
self.hf4_img = PhotoImage(file="./icons/hf4.gif")
self.hf5_img = PhotoImage(file="./icons/hf5.gif")
self.features_vars = list()
for i in range(max_num_features):
self.features_vars.append(IntVar())
Label(frame_feats,
text="Patch size (" + u"\N{GREEK SMALL LETTER PI}" + "):").grid(
row=0, column=0, pady=5)
self.patch_size_spinbox = Spinbox(frame_feats, from_=3, to=30, width=3)
self.patch_size_spinbox.delete(0, END)
self.patch_size_spinbox.insert(END, 10)
self.patch_size_spinbox.grid(row=0, column=1, padx=5)
f1 = ttk.Labelframe(frame_feats, text='Mean filter')
f1.grid(row=1, columnspan=2)
Label(f1, text=u"\N{GREEK SMALL LETTER PI}").grid(row=0, column=0)
Checkbutton(f1, text="R",
variable=self.features_vars[0]).grid(row=0, column=1)
Checkbutton(f1, text="G",
variable=self.features_vars[1]).grid(row=0, column=2)
Checkbutton(f1, text="B",
variable=self.features_vars[2]).grid(row=0, column=3)
Label(f1, text=u"\N{GREEK SMALL LETTER PI}" + "/2").grid(row=1,
column=0)
Checkbutton(f1, text="R",
variable=self.features_vars[3]).grid(row=1, column=1)
Checkbutton(f1, text="G",
variable=self.features_vars[4]).grid(row=1, column=2)
Checkbutton(f1, text="B",
variable=self.features_vars[5]).grid(row=1, column=3)
f2 = ttk.Labelframe(frame_feats, text="Gaussian filter")
f2.grid(row=2, columnspan=2)
Label(f2, text=str(1.0)).grid(row=0, column=0)
Checkbutton(f2, text="R",
variable=self.features_vars[6]).grid(row=0, column=1)
Checkbutton(f2, text="G",
variable=self.features_vars[7]).grid(row=0, column=2)
Checkbutton(f2, text="B",
variable=self.features_vars[8]).grid(row=0, column=3)
Label(f2, text=str(3.5)).grid(row=1, column=0)
Checkbutton(f2, text="R",
variable=self.features_vars[9]).grid(row=1, column=1)
Checkbutton(f2, text="G",
variable=self.features_vars[10]).grid(row=1, column=2)
Checkbutton(f2, text="B",
variable=self.features_vars[11]).grid(row=1, column=3)
f3 = ttk.Labelframe(frame_feats, text="Laplacian of gaussian")
f3.grid(row=3, columnspan=2)
Label(f3, text=str(2.0)).grid(row=0, column=0)
Checkbutton(f3, text="R",
variable=self.features_vars[12]).grid(row=0, column=1)
Checkbutton(f3, text="G",
variable=self.features_vars[13]).grid(row=0, column=2)
Checkbutton(f3, text="B",
variable=self.features_vars[14]).grid(row=0, column=3)
Label(f3, text=str(3.5)).grid(row=1, column=0)
Checkbutton(f3, text="R",
variable=self.features_vars[15]).grid(row=1, column=1)
Checkbutton(f3, text="G",
variable=self.features_vars[16]).grid(row=1, column=2)
Checkbutton(f3, text="B",
variable=self.features_vars[17]).grid(row=1, column=3)
f4 = ttk.Labelframe(frame_feats, text="Haar-like features")
f4.grid(row=1, rowspan=2, column=3, padx=5)
Checkbutton(f4, image=self.hf0_img,
variable=self.features_vars[18]).grid(row=0, column=0)
Checkbutton(f4, image=self.hf1_img,
variable=self.features_vars[19]).grid(row=0, column=1)
Checkbutton(f4, image=self.hf2_img,
variable=self.features_vars[20]).grid(row=1, column=0)
Checkbutton(f4, image=self.hf3_img,
variable=self.features_vars[21]).grid(row=1, column=1)
Checkbutton(f4, image=self.hf4_img,
variable=self.features_vars[22]).grid(row=2, column=0)
Checkbutton(f4, image=self.hf5_img,
variable=self.features_vars[23]).grid(row=2, column=1)
buttons_paned_window = PanedWindow(frame_feats, orient=VERTICAL)
buttons_paned_window.grid(row=3, column=3)
self.select_all_button = Button(buttons_paned_window,
text="Select all",
command=self._select_all)
buttons_paned_window.add(self.select_all_button)
self.clear_selection_button = Button(buttons_paned_window,
text="Clear selection",
command=self._clear_selection)
buttons_paned_window.add(self.clear_selection_button)
# default values
for j in [0, 1, 3, 6, 7, 9, 15, 21, 23]:
self.features_vars[j].set(1)
# FOREST FRAMES
# number of trees
f5 = ttk.Labelframe(frame_forest, text="Number of trees")
f5.grid(row=0, columnspan=2, pady=5, padx=5)
Label(f5, text="N").grid(row=1, column=0)
self.num_trees_scale = Scale(f5,
from_=5,
to=500,
resolution=5,
orient=HORIZONTAL)
self.num_trees_scale.set(300)
self.num_trees_scale.grid(row=0, column=1, rowspan=2)
# depth single tree
f6 = ttk.Labelframe(frame_forest, text="Depth single tree")
f6.grid(row=1, columnspan=2, pady=5, padx=5)
Label(f6, text="d").grid(row=1, column=0)
self.depth_tree_scale = Scale(f6, from_=2, to=20, orient=HORIZONTAL)
self.depth_tree_scale.set(3)
self.depth_tree_scale.grid(row=0, column=1, rowspan=2)
# percentage number of features
f7 = ttk.Labelframe(frame_forest, text="% subset of features")
f7.grid(row=2, columnspan=2, pady=5, padx=5)
Label(f7, text="m").grid(row=1, column=0)
self.percentage_feats_scale = Scale(f7,
from_=0.0,
to=1,
resolution=0.05,
orient=HORIZONTAL)
self.percentage_feats_scale.set(0.5)
self.percentage_feats_scale.grid(row=0, column=1, rowspan=2)
# mser frame
# delta
f8 = ttk.Labelframe(frame_mser, text="Delta")
f8.grid(row=0, columnspan=2, pady=5, padx=5)
Label(f8, text=u"\N{GREEK SMALL LETTER DELTA}").grid(row=1, column=0)
self.delta_scale = Scale(f8,
from_=1,
to=10,
resolution=1,
orient=HORIZONTAL)
self.delta_scale.set(2)
self.delta_scale.grid(row=0, column=1, rowspan=2)
# min area
f9 = ttk.Labelframe(frame_mser, text="Minimum area")
f9.grid(row=1, columnspan=2, pady=5, padx=5)
Label(f9, text="m").grid(row=1, column=0)
self.min_area_scale = Scale(f9, from_=2, to=200, orient=HORIZONTAL)
self.min_area_scale.set(10)
self.min_area_scale.grid(row=0, column=1, rowspan=2)
# percentage number of features
f10 = ttk.Labelframe(frame_mser, text="Maximum area")
f10.grid(row=2, columnspan=2, pady=5, padx=5)
Label(f10, text="M").grid(row=1, column=0)
self.max_area_scale = Scale(f10,
from_=50,
to=1000,
resolution=5,
orient=HORIZONTAL)
self.max_area_scale.set(350)
self.max_area_scale.grid(row=0, column=1, rowspan=2)
# mser image
f11 = ttk.Labelframe(frame_mser)
f11.grid(row=0, rowspan=3, column=2, padx=5)
self.mser_img_array = Image.fromarray(self.mser_area, "RGB")
self.mser_img = ImageTk.PhotoImage(self.mser_img_array)
img_label = Label(f11, image=self.mser_img)
img_label.grid(row=0, column=0)
buttons_p_w_mser = PanedWindow(f11, orient=HORIZONTAL)
try_button = Button(f11, text="Try", command=self.try_mser)
buttons_p_w_mser.add(try_button)
change_button = Button(f11, text="New img", command=self.change_mser)
buttons_p_w_mser.add(change_button)
buttons_p_w_mser.grid(row=1, column=0)
# other frame
f12 = ttk.Labelframe(frame_other, text="Refinement")
f12.grid(row=0, columnspan=2, pady=5, padx=5)
Label(f12, text=u"\N{GREEK CAPITAL LETTER PHI}_l").grid(row=1,
column=0)
self.low_thresh_scale = Scale(f12,
from_=0,
to=1,
resolution=0.05,
orient=HORIZONTAL,
length=90)
self.low_thresh_scale.set(0.45)
self.low_thresh_scale.grid(row=0, column=1, rowspan=2)
Label(f12, text=u"\N{GREEK CAPITAL LETTER PHI}_h").grid(row=3,
column=0)
self.high_thresh_scale = Scale(f12,
from_=0,
to=1,
resolution=0.05,
orient=HORIZONTAL,
length=90)
self.high_thresh_scale.set(0.65)
self.high_thresh_scale.grid(row=2, column=1, rowspan=2)
f13 = ttk.Labelframe(frame_other, text="Dots distance")
f13.grid(row=1, columnspan=2, pady=5, padx=5)
Label(f13, text=u" \N{GREEK SMALL LETTER SIGMA}").grid(row=1,
column=0)
self.dots_distance_scale = Scale(f13,
from_=1,
to=20,
resolution=1,
orient=HORIZONTAL,
length=90)
self.dots_distance_scale.set(6)
self.dots_distance_scale.grid(row=0, column=1, rowspan=2)
f14 = ttk.Labelframe(frame_other, text="Tracks")
f14.grid(row=0, column=3, pady=5, padx=5)
Label(f14, text="N").grid(row=1, column=0)
self.num_frames_tracks_spinbox = Spinbox(f14,
from_=2,
to=num_frames,
width=10)
self.num_frames_tracks_spinbox.delete(0, END)
self.num_frames_tracks_spinbox.insert(END, num_frames)
self.num_frames_tracks_spinbox.grid(row=0, column=1, rowspan=2)
Label(f14, text=u"\N{GREEK SMALL LETTER TAU}").grid(row=3, column=0)
self.gaps_scale = Scale(f14,
from_=1,
to=10,
resolution=1,
orient=HORIZONTAL,
length=90)
self.gaps_scale.set(2)
self.gaps_scale.grid(row=2, column=1, rowspan=2)
self.notebook.pack(padx=1, pady=1)
save_button = Button(self,
text=" Save and Close window ",
command=self.withdraw)
save_button.pack(pady=2)
def refreshWidget(self):
#print "refresh"
self.card_win.pack_forget()
#Card window
self.card_win = PanedWindow(self.card_win.master, orient=VERTICAL)
self.card_win.pack(side=TOP, expand=True, fill=BOTH, pady=2, padx=2)
#Create the name zone
name_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
name = StringVar()
name.set(self.name)
from deck_creation import blocked_creature
def modifName(*args):
old = self.name in blocked_creature
self.name = name.get()
if old or self.name in blocked_creature:
self.refreshWidget()
name.trace("w", modifName)
name_wid = Entry(name_zone, width=30, textvariable=name)
name_wid.pack()
name_zone.add(name_wid)
#Create the cost ad star stringvar
#print int(floor(self.getCost()))
self.cost = StringVar()
self.stars = StringVar()
cost_wid = Label(None,
textvariable=self.cost,
background='red',
width=5,
anchor=W)
star_wid = Label(None,
textvariable=self.stars,
background='blue',
anchor=E)
self.cost.set(str(int(floor(self.getCost()))))
self.stars.set("*" * self.getStars())
#Add them in name zone
name_zone.add(cost_wid)
name_zone.add(star_wid)
#Create an Image Zone
image_zone = Button(self.card_win, command=self.choosePhoto)
if hasattr(self, "photofile") and self.photofile:
print "Image: ", self.photofile
try:
img = Image.open(self.photofile)
except:
decomp = self.photofile.split('/')
for i in range(1, 6):
try:
fname = "/".join(decomp[-i:])
print "try to open", fname
img = Image.open(fname)
self.photofile = fname
break
except:
self.photofile = None
if self.photofile:
w, h = img.size
if w > 300 or h > 200:
img = img.resize((w / 2, h / 2), Image.LINEAR)
image_zone.image = ImageTk.PhotoImage(img)
image_zone.config(image=image_zone.image)
#print "IMAGE CHANGED"
else:
from os import path
fname = self.name.replace(" ", "_")
if path.isfile("Cards/" + fname + ".png"):
image_zone.config(text='image can be taken from\n' + "Cards/" +
fname + ".png",
background='white',
anchor=CENTER)
else:
image_zone.config(text='clic to choose image',
background='white',
anchor=CENTER)
image_zone.pack
# POWER ZONE
power_zone = PanedWindow(self.card_win, orient=VERTICAL)
#fenetre=self.card_win.master
def removePowerCreator(px):
def removePower(*args):
#print 'avant',list_pow
self.bonus.remove(px)
#print 'apres',list_pow
#self.card_win.pack_forget()
self.refreshWidget()
return removePower
for p in self.bonus:
powline = PanedWindow(self.card_win, orient=HORIZONTAL)
pow_wid = p.initWidget(powline)
powline.add(pow_wid)
removepow = Button(powline,
text="X",
command=removePowerCreator(p),
anchor=E)
removepow.pack()
powline.add(removepow)
power_zone.add(powline)
def addPower(*args):
name = addBonus.get()
print "added :", name
import cardPowers
self.bonus += [eval('cardPowers.' + name + '()')]
self.bonus[-1].parent = self.bonus
self.bonus[-1].card = self
#self.card_win.pack_forget()
self.refreshWidget()
#Add bonus Option menu
addBonus = StringVar(power_zone)
addBonus.set("add bonus") # default value
if not self.pv: addBonus_wid = getSpellMenu(power_zone, addBonus)
else: addBonus_wid = getBonusMenu(power_zone, addBonus)
addBonus.trace('w', addPower)
if self.pv > 0 or len(self.bonus) == 0:
addBonus_wid.pack()
#Add this to power zone
power_zone.add(addBonus_wid)
#Create save zone
save_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
lv = int(localopen("progression", "r").read())
if self.monster_type != "all" and not (lv < 8 and self.name
in blocked_creature):
save_wid = Button(save_zone, text="Save", command=self.postAndSave)
elif self.monster_type != "all":
save_wid = Button(save_zone,
text="creature in campaign",
command=None)
else:
save_wid = Button(save_zone, text="nead type", command=None)
save_wid.pack()
#Create the open button
save_zone.pack()
if Card.monster_list.keys():
self.opening = StringVar(save_zone)
self.opening.set("Open")
choice = Card.monster_list.keys()
choice.sort()
#print all_monsters.keys()
open_wid = OptionMenu(save_zone, self.opening, *choice)
self.opening.trace('w', self.Open)
open_wid.pack()
save_zone.add(open_wid)
if Card.monster_list.keys():
self.delete = StringVar(save_zone)
self.delete.set("Delete")
choice = Card.monster_list.keys()
choice.sort()
delete_wid = OptionMenu(save_zone, self.delete, *choice)
self.delete.trace('w', self.clicDelete)
delete_wid.pack()
save_zone.add(delete_wid)
#Create the type button
self.category = StringVar(save_zone)
self.category.set(self.monster_type)
choice = [
file2name(t, "_monsters.sav")
for t in glob.glob("CardFiles/*_monsters.sav")
]
if "recup" in choice:
choice.remove("recup")
#print all_monsters.keys()
category_wid = OptionMenu(save_zone, self.category, *choice)
self.category.trace('w', self.setFile)
category_wid.pack()
#Add it to save zone
save_zone.add(save_wid)
save_zone.add(category_wid)
#Create a new Strength zone for att and pv
strength_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
att = StringVar()
att.set(str(self.att))
pv = StringVar()
pv.set(str(self.pv))
def modifiedAttPv(*args):
print "modifiedAttPv"
self.pv = int(pv.get())
if self.pv < 1 and self.is_spell == False:
if len(self.bonus) == 0:
self.is_spell = True
self.refreshWidget()
else:
self.pv = 1
self.refreshWidget()
if self.pv > 0 and self.is_spell == True:
if len(self.bonus) == 0:
self.is_spell = False
self.refreshWidget()
else:
self.pv = 0
self.refreshWidget()
self.att = int(att.get())
self.getCost()
att_wid = Spinbox(strength_zone,
from_=0,
to=1000,
textvariable=att,
command=modifiedAttPv)
att_wid.pack()
strength_zone.add(att_wid)
strength_zone.add(
Label(strength_zone,
text=' ',
background='white',
anchor=CENTER))
pv_wid = Spinbox(strength_zone,
from_=0,
to=1000,
textvariable=pv,
command=modifiedAttPv)
pv_wid.pack()
strength_zone.add(pv_wid)
#Put it all in window
self.card_win.add(name_zone)
self.card_win.add(image_zone)
self.card_win.add(power_zone)
self.card_win.add(strength_zone)
self.card_win.add(save_zone)
self.card_win.pack()
class SelectionListbox(Toplevel):
def __init__(self, parent, objectList):
Toplevel.__init__(self, parent)
self.protocol('WM_DELETE_WINDOW', self.destroy)
self._objectList = objectList
self._lb = Listbox(self, selectmode = SINGLE)
self._lb.pack()
self._buttons = PanedWindow(self)
for i in objectList.getKeysInOrder():
self._lb.insert(END, i)
addButton = Button(self._buttons, text="Add", command=self.onAdd)
addButton.pack(side=LEFT)
modifyButton = Button(self._buttons, text="Modify", command=self.onModify)
modifyButton.pack(side=LEFT)
deleteButton = Button(self._buttons, text="Delete", command=self.onDelete)
deleteButton.pack(side=LEFT)
cancelButton = Button(self._buttons, text="Cancel", command=self.onCancel)
cancelButton.pack(side=RIGHT)
self._buttons.pack(side=BOTTOM)
def onAdd(self):
self._inputPanel = InputPanel(self, self._objectList.getElementKeys(), self.addCallBack)
def onModify(self):
ctr = self._lb.curselection()
key = self._lb.get(ctr)
print key
print self._objectList
self._inputPanel = InputPanel(self, self._objectList.getElementKeys(), self.modifyCallBack, key, self._objectList._resources[key])
def onDelete(self):
idx = self._lb.curselection()
self.deleteCallBack(idx)
def onCancel(self):
self.destroy()
def destroy(self):
Toplevel.destroy(self)
def addCallBack(self, cdict, key):
print "Add new element"
key = self._objectList.addFromDict(cdict)
self._lb.insert(END, key)
self._lb.update()
# self._inputPanel.destroy()
def modifyCallBack(self, cdict, key):
print "Modify Existing Element"
print cdict
print key
self._objectList.modifyElement(cdict, key)
print self._objectList._resources[key]
self._lb.update()
# self._inputPanel.destroy()
def deleteCallBack(self, idx):
print "Delete"
print idx
key = self._lb.get(idx)
self._objectList.deleteElement(key)
self._lb.delete(idx)
self._lb.update()
class MainWindow(Frame):
GRAPH_TYPES = OrderedDict([
("Prime Graph", graphs.PrimeGraph),
("Fast Graph", graphs.FastGraph)
])
def __init__(self, **kw):
Frame.__init__(self, **kw)
self.winfo_toplevel().minsize(width=600, height=400)
width = min(self.winfo_screenwidth(), 1280)
height = min(self.winfo_screenheight(), 720)
self.winfo_toplevel().geometry("{}x{}".format(width, height))
self.pack(expand=True, fill='both')
self._init_variables()
self._init_components()
self._init_menu()
def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal', sashrelief="raised")
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=10, pady=5)
self._right_pane = PanedWindow(self._panes)
self._panes.add(self._left_pane, sticky='n')
self._panes.add(self._right_pane)
self._group_select = GroupSelect(self._left_pane)
self._group_select.pack(expand=True, fill='x')
# spacer
Frame(self._left_pane, height=10).pack()
graph_controls = LabelFrame(self._left_pane, text="Graph options", padx=10, pady=5)
graph_controls.columnconfigure(1, weight=1)
graph_controls.pack(expand=True, fill='x')
self._show_graph_checkbutton = CheckBox(graph_controls, text='Show graph')
self._show_graph_checkbutton.select()
self._show_graph_checkbutton.grid(row=0, columnspan=2, sticky='w')
Label(graph_controls, text='Algorithm').grid(row=1, sticky='w')
self._graph_type = OptionList(graph_controls, values=MainWindow.GRAPH_TYPES.keys())
self._graph_type.config(width=15)
self._graph_type.grid(row=1, column=1, sticky='we')
# spacer
Frame(self._left_pane, height=10).pack()
self._go_button = Button(self._left_pane, text='Go', command=self._go)
self._go_button.pack()
def _init_variables(self):
# init default properties
self.setvar("graphframeview", "onlyone")
self.setvar("vertexlabelposition", "auto")
def _init_menu(self):
toplevel = self.winfo_toplevel()
self._menu = Menu(toplevel)
toplevel['menu'] = self._menu
view = Menu(self._menu, tearoff=0)
self._menu.add_cascade(label="View", menu=view)
graph_view = Menu(view, tearoff=0)
view.add_cascade(label="View graphs", menu=graph_view)
graph_view.add_radiobutton(variable="graphframeview", label="Only one", value="onlyone")
# graph_view.add_radiobutton(label="In a row", value="row",
# variable=graph_view_var)
graph_view.add_radiobutton(variable="graphframeview", label="In separate window", value="window")
def _go(self):
view = self.getvar("graphframeview")
if view == "onlyone":
for child in self._right_pane.winfo_children():
child.destroy()
#if view in ("onlyone", "row"):
container = FrameWithCloseButton(self._right_pane)
self._right_pane.add(container, minsize=600)
else:
container = Toplevel()
graph_class = MainWindow.GRAPH_TYPES[self._graph_type.variable.get()]
facade = Facade(container, self._group_select.selected_group,
show_graph=self._show_graph_checkbutton.is_selected(),
graph_class=graph_class)
facade.pack(expand=True, fill='both')
def __init__(self, master, smart_annotator):
Toplevel.__init__(self, master)
self.void_image = np.zeros((100, 100, 3))
self.smart_annotator = smart_annotator
self.current_point = None
self.index_frame = None
self.pos_data = list()
self.neg_data = list()
self.uncertain_dots = list()
self.current_point_img_array = Image.fromarray(self.void_image, "RGB")
self.current_point_img = ImageTk.PhotoImage(self.current_point_img_array)
img_label = Label(self, image=self.current_point_img)
img_label.pack()
button_paned_window = PanedWindow(self, orient=HORIZONTAL)
button_paned_window.pack()
self.probability_label = Label(self, text="0.0")
button_paned_window.add(self.probability_label)
yes_but = Button(self, text="Y", command=self.yes_command)
button_paned_window.add(yes_but)
no_but = Button(self, text="N", command=self.no_command)
button_paned_window.add(no_but)
maybe_but = Button(self, text="?", command=self.maybe_command)
button_paned_window.add(maybe_but)
self.protocol('WM_DELETE_WINDOW', self.intercept_close_action)
def initWidget(self,fenetre) :
#print "init"
self.card_win = PanedWindow(fenetre, orient=VERTICAL)
fenetre.child=self
self.refreshWidget()
def refreshWidget(self) :
#print "refresh"
self.card_win.pack_forget()
#Card window
self.card_win = PanedWindow(self.card_win.master, orient=VERTICAL)
self.card_win.pack(side=TOP, expand=True, fill=BOTH, pady=2, padx=2)
#Create the name zone
name_zone=PanedWindow(self.card_win, orient=HORIZONTAL)
name = StringVar()
name.set(self.name)
def modifName(*args) :
self.name=name.get()
name.trace("w", modifName)
name_wid=Entry(name_zone, width=30,textvariable=name)
name_wid.pack()
name_zone.add(name_wid)
#Create the cost ad star stringvar
#print int(floor(self.getCost()))
self.cost=StringVar()
self.stars=StringVar()
cost_wid=Label(None, textvariable=self.cost, background='red',width=5, anchor=W)
star_wid=Label(None, textvariable=self.stars, background='blue', anchor=E)
self.cost.set(str(int(floor(self.getCost()))))
self.stars.set("*"*self.getStars())
#Add them in name zone
name_zone.add(cost_wid)
name_zone.add(star_wid)
#Create an Image Zone
image_zone=Button(self.card_win, command=self.choosePhoto)
if hasattr(self,"photofile") and self.photofile :
print "Image: ",self.photofile
try :
img=Image.open(self.photofile)
except :
decomp=self.photofile.split('/')
for i in range(1,6) :
try :
fname="/".join(decomp[-i:])
print "try to open",fname
img=Image.open(fname)
self.photofile=fname
break
except :
self.photofile=None
if self.photofile :
w, h = img.size
if w>300 or h>200 :
img=img.resize((w/2,h/2),Image.LINEAR)
image_zone.image=ImageTk.PhotoImage(img)
image_zone.config(image=image_zone.image)
#print "IMAGE CHANGED"
else :
from os import path
name=self.name.replace(" ","_")
if path.isfile("Cards/"+name+".png") :
image_zone.config(text='image can be taken from\n'+"Cards/"+name+".png",background='white',anchor=CENTER)
else :
image_zone.config(text='clic to choose image',background='white',anchor=CENTER)
image_zone.pack
# POWER ZONE
power_zone=PanedWindow(self.card_win, orient=VERTICAL)
#fenetre=self.card_win.master
def removePowerCreator(px) :
def removePower(*args) :
#print 'avant',list_pow
self.bonus.remove(px)
#print 'apres',list_pow
#self.card_win.pack_forget()
self.refreshWidget()
return removePower
for p in self.bonus :
powline = PanedWindow(self.card_win, orient=HORIZONTAL)
pow_wid=p.initWidget(powline)
powline.add(pow_wid)
removepow=Button(powline, text="X", command=removePowerCreator(p), anchor=E)
removepow.pack()
powline.add(removepow)
power_zone.add(powline)
def addPower(*args) :
name=addBonus.get()
print "added :",name
import cardPowers
self.bonus+=[eval('cardPowers.'+name+'()')]
self.bonus[-1].parent=self.bonus
self.bonus[-1].card=self
#self.card_win.pack_forget()
self.refreshWidget()
#Add bonus Option menu
addBonus = StringVar(power_zone)
addBonus.set("add bonus") # default value
if not self.pv: addBonus_wid = getSpellMenu(power_zone, addBonus)
else: addBonus_wid = getBonusMenu(power_zone, addBonus)
addBonus.trace('w', addPower)
if self.pv>0 or len(self.bonus)==0 :
addBonus_wid.pack()
#Add this to power zone
power_zone.add(addBonus_wid)
#Create save zone
save_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
if self.monster_type != "all":
save_wid = Button(save_zone, text="Save", command=self.postAndSave)
else:
save_wid = Button(save_zone, text="---", command=None)
save_wid.pack()
#Create the open button
save_zone.pack()
if Card.monster_list.keys():
self.opening = StringVar(save_zone)
self.opening.set("Open")
choice = Card.monster_list.keys()
choice.sort()
#print all_monsters.keys()
open_wid = OptionMenu(save_zone, self.opening,*choice)
self.opening.trace('w', self.Open)
open_wid.pack()
save_zone.add(open_wid)
if Card.monster_list.keys():
self.delete = StringVar(save_zone)
self.delete.set("Delete")
choice = Card.monster_list.keys()
choice.sort()
delete_wid = OptionMenu(save_zone, self.delete,*choice)
self.delete.trace('w', self.clicDelete)
delete_wid.pack()
save_zone.add(delete_wid)
#Create the type button
self.category = StringVar(save_zone)
self.category.set(self.monster_type)
choice = [t[t.index("\\")+1:t.index("_monsters.sav")] for t in glob.glob("CardFiles/*_monsters.sav")]
if "recup" in choice:
choice.remove("recup")
#print all_monsters.keys()
category_wid = OptionMenu(save_zone, self.category,*choice)
self.category.trace('w', self.setFile)
category_wid.pack()
#Add it to save zone
save_zone.add(save_wid)
save_zone.add(category_wid)
#Create a new Strength zone for att and pv
strength_zone=PanedWindow(self.card_win, orient=HORIZONTAL)
att=StringVar()
att.set(str(self.att))
pv=StringVar() ; pv.set(str(self.pv))
def modifiedAttPv(*args) :
self.pv=int(pv.get())
if self.pv<1 and self.is_spell==False :
if len(self.bonus)==0 :
self.is_spell=True
self.refreshWidget()
else :
self.pv=1
self.refreshWidget()
if self.pv>0 and self.is_spell==True :
if len(self.bonus)==0 :
self.is_spell=False
self.refreshWidget()
else :
self.pv=0
self.refreshWidget()
self.att=int(att.get())
self.getCost()
att_wid = Spinbox(strength_zone, from_=0, to=1000,textvariable=att,command=modifiedAttPv)
att_wid.pack()
strength_zone.add(att_wid)
strength_zone.add(Label(strength_zone, text=' ', background='white',
anchor=CENTER))
pv_wid = Spinbox(strength_zone, from_=0, to=1000,textvariable=pv,command=modifiedAttPv)
pv_wid.pack()
strength_zone.add(pv_wid)
#Put it all in window
self.card_win.add(name_zone)
self.card_win.add(image_zone)
self.card_win.add(power_zone)
self.card_win.add(strength_zone)
self.card_win.add(save_zone)
self.card_win.pack()
def _init_components(self):
self._panes = PanedWindow(self,
orient='horizontal',
sashrelief='raised')
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=2, pady=2)
self._right_pane = Frame(self._panes)
self._panes.add(self._left_pane, width=250)
self._panes.add(self._right_pane)
# group name
group_name_pane = LabelFrame(self._left_pane,
text="Group",
padx=10,
pady=5)
group_name_pane.pack(fill='x')
self._group_name = GroupNameLabel(group_name_pane, self._group)
self._group_name.pack(expand=True, fill='both')
# group order
group_order_pane = LabelFrame(self._left_pane,
text="Order",
padx=10,
pady=5)
group_order_pane.pack(fill='x')
self._group_order = IntegerContainer(group_order_pane,
integer=self._group.order())
self._group_order.pack(expand=True, fill='both')
# apex
self._apex_pane = LabelFrame(self._left_pane,
text="Apex",
padx=10,
pady=5)
self._apex_pane.pack(expand=True, fill='both')
self._apex_container = ApexListContainer(self._apex_pane,
apex=self._group.apex())
self._apex_container.pack(expand=True, fill='both')
# graph controls
cocliques_frame = LabelFrame(self._left_pane,
text="Cocliques",
padx=10,
pady=5)
cocliques_frame.pack(fill='x')
self._cocliques_button = Button(cocliques_frame,
text="Calculate",
command=self._show_cocliques)
self._cocliques_button.pack(anchor='nw')
self._cocliques_container = ListContainer(cocliques_frame)
self._cocliques_list = Listbox(self._cocliques_container)
self._cocliques_container.set_listbox(self._cocliques_list)
# Button(graph_controls, text='Group equivalent vertices').pack(anchor='nw')
# this is a button that show up instead of graph canvas if we uncheck 'Show graph' checkbox.
self._show_graph_button = Button(self._right_pane,
text='Show graph',
command=self._show_graph_canvas)
self._graph_canvas = None
if self._show_graph:
self._show_graph_canvas()
else:
self._show_graph_button.pack()
class Facade(Frame):
"""This is a Frame that contains group info, group order, apex and prime
graph.
"""
def __init__(self, parent, group, show_graph=True, graph_class=None, **kw):
"""
Parameters:
show_graph: whether to create and show graph instantly or provide a button to do that lately
graph_factory: callable accepting one argument - the Group instance and returning Graph instance. Note that
__str__ method of the callable is used in the UI.
"""
Frame.__init__(self, parent, **kw)
self._group = group
# self._show_apex = True
self._show_graph = show_graph
self._graph_class = graph_class
self._init_variables()
self._init_menu()
self._init_components()
@property
def group(self):
return self._group
@property
def apex_list_container(self):
return self._apex_container
@property
def graph_canvas(self):
return self._graph_canvas
def _show_graph_canvas(self):
self._show_graph_button.forget()
# TODO: add different layouts and other options
graph_class = self._graph_class
self.graph = graph_class(self._group)
self._graph_canvas = GraphCanvas(self._right_pane,
SpringLayout(self.graph),
caption=str(graph_class))
self._graph_canvas.pack(expand=True, fill='both')
self._graph_canvas.vertex_label_mode = self.getvar(
name=self.winfo_name() + ".vertexlabelposition")
self._iterations_plugin = IterationsPlugin()
self._iterations_plugin.apply(self._graph_canvas)
self.update_layout()
def _init_components(self):
self._panes = PanedWindow(self,
orient='horizontal',
sashrelief='raised')
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=2, pady=2)
self._right_pane = Frame(self._panes)
self._panes.add(self._left_pane, width=250)
self._panes.add(self._right_pane)
# group name
group_name_pane = LabelFrame(self._left_pane,
text="Group",
padx=10,
pady=5)
group_name_pane.pack(fill='x')
self._group_name = GroupNameLabel(group_name_pane, self._group)
self._group_name.pack(expand=True, fill='both')
# group order
group_order_pane = LabelFrame(self._left_pane,
text="Order",
padx=10,
pady=5)
group_order_pane.pack(fill='x')
self._group_order = IntegerContainer(group_order_pane,
integer=self._group.order())
self._group_order.pack(expand=True, fill='both')
# apex
self._apex_pane = LabelFrame(self._left_pane,
text="Apex",
padx=10,
pady=5)
self._apex_pane.pack(expand=True, fill='both')
self._apex_container = ApexListContainer(self._apex_pane,
apex=self._group.apex())
self._apex_container.pack(expand=True, fill='both')
# graph controls
cocliques_frame = LabelFrame(self._left_pane,
text="Cocliques",
padx=10,
pady=5)
cocliques_frame.pack(fill='x')
self._cocliques_button = Button(cocliques_frame,
text="Calculate",
command=self._show_cocliques)
self._cocliques_button.pack(anchor='nw')
self._cocliques_container = ListContainer(cocliques_frame)
self._cocliques_list = Listbox(self._cocliques_container)
self._cocliques_container.set_listbox(self._cocliques_list)
# Button(graph_controls, text='Group equivalent vertices').pack(anchor='nw')
# this is a button that show up instead of graph canvas if we uncheck 'Show graph' checkbox.
self._show_graph_button = Button(self._right_pane,
text='Show graph',
command=self._show_graph_canvas)
self._graph_canvas = None
if self._show_graph:
self._show_graph_canvas()
else:
self._show_graph_button.pack()
def _init_variables(self):
def set_default_var(self, name):
"""Sets widget-specific var with same value as root.
"""
default_var = self.getvar(name)
local_var_name = self.winfo_name() + "." + name
self.setvar(local_var_name, default_var)
return local_var_name
local_name = set_default_var(self, "vertexlabelposition")
tools.trace_variable(self, local_name, "w",
self._change_vertex_label_position)
def _change_vertex_label_position(self, name, *arg):
# override default value
self.setvar("vertexlabelposition", self.getvar(name))
if self._graph_canvas is not None:
self._graph_canvas.vertex_label_mode = self.getvar(name)
def _init_menu(self):
"""Init menu bar content.
"""
toplevel = self.winfo_toplevel()
if toplevel['menu']:
self._menu = self.nametowidget(name=toplevel['menu'])
else:
self._menu = Menu(toplevel)
toplevel['menu'] = self._menu
graph_options = Menu(self._menu, tearoff=0)
self._menu.add_cascade(label="Graph", menu=graph_options)
self._menu_index = self._menu.index("end")
vertex_label_position_menu = Menu(graph_options, tearoff=0)
graph_options.add_cascade(label="Label position",
menu=vertex_label_position_menu)
menu_var = self.winfo_name() + ".vertexlabelposition"
vertex_label_position_menu.add_radiobutton(variable=menu_var,
label="Auto",
value="auto")
vertex_label_position_menu.add_radiobutton(variable=menu_var,
label="Center",
value="center")
graph_options.add_command(label="Save graph...",
command=self.call_graph_save_dialog)
self.bind("<Destroy>", self.__destroy_menu)
#noinspection PyUnusedLocal
def __destroy_menu(self, event):
try:
self._menu.delete(self._menu_index)
except TclError:
pass
def _show_cocliques(self):
cocliques = self.graph.max_cocliques()
def select_coclique(*_):
index = next(iter(self._cocliques_list.curselection()), None)
if index is not None:
selected = cocliques[int(index)]
pick_state = self._graph_canvas.picked_vertex_state
pick_state.clear()
for value in selected:
pick_state.pick(self._graph_canvas.get_vertex(value))
self._cocliques_list.insert(
0, *[', '.join(map(str, coclique)) for coclique in cocliques])
self._cocliques_list.bind("<Double-Button-1>", select_coclique)
self._cocliques_button.forget()
self._cocliques_container.pack(expand=True, fill='both')
def call_graph_save_dialog(self):
file_name = tkFileDialog.asksaveasfilename(
defaultextension='.ps',
filetypes=[('PostScript', '.ps')],
parent=self.winfo_toplevel(),
title="Save graph as image")
if file_name:
with codecs.open(file_name, 'w', encoding='utf-8') as f:
f.write(self._graph_canvas.postscript())
def update_layout(self):
try:
self._iterations_plugin.iterate(50)
except AttributeError:
pass
class Facade(Frame):
"""This is a Frame that contains group info, group order, apex and prime
graph.
"""
def __init__(self, parent, group, show_graph=True, **kw):
Frame.__init__(self, parent, **kw)
self._group = group
# self._show_apex = True
self._show_graph = show_graph
self._init_variables()
self._init_menu()
self._init_components()
@property
def group(self):
return self._group
@property
def apex_list_container(self):
return self._apex_container
@property
def graph_canvas(self):
return self._graph_canvas
def _show_graph_canvas(self):
self._show_graph_button.forget()
# TODO: add different layouts and other options
graph = self._group.prime_graph()
self._graph_canvas = GraphCanvas(self._right_pane, SpringLayout(graph))
self._graph_canvas.pack(expand=True, fill='both')
self._graph_canvas.vertex_label_mode = self.getvar(
name=self.winfo_name() + ".vertexlabelposition")
self._iterations_plugin = IterationsPlugin()
self._iterations_plugin.apply(self._graph_canvas)
self.update_layout()
def _init_components(self):
self._panes = PanedWindow(self, orient='horizontal',
sashrelief='raised')
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes, padx=2, pady=2)
self._right_pane = Frame(self._panes)
self._panes.add(self._left_pane, width=500)
self._panes.add(self._right_pane)
# group name
group_name_pane = LabelFrame(self._left_pane, text="Group")
group_name_pane.pack(fill='x')
self._group_name = GroupNameLabel(group_name_pane, self._group)
self._group_name.pack(expand=True, fill='both')
# group order
group_order_pane = LabelFrame(self._left_pane, text="Order")
group_order_pane.pack(fill='x')
self._group_order = IntegerContainer(group_order_pane,
integer=self._group.order())
self._group_order.pack(expand=True, fill='both')
# apex
self._apex_pane = LabelFrame(self._left_pane, text="Apex")
self._apex_pane.pack(expand=True, fill='both')
self._apex_container = ApexListContainer(self._apex_pane,
apex=self._group.apex())
self._apex_container.pack(expand=True, fill='both')
self._show_graph_button = Button(self._right_pane, text='Show graph',
command=self._show_graph_canvas)
self._graph_canvas = None
if self._show_graph:
self._show_graph_canvas()
else:
self._show_graph_button.pack()
def _init_variables(self):
def set_default_var(self, name):
"""Sets widget-specific var with same value as root.
"""
default_var = self.getvar(name)
local_var_name = self.winfo_name() + "." + name
self.setvar(local_var_name, default_var)
return local_var_name
local_name = set_default_var(self, "vertexlabelposition")
tools.trace_variable(self, local_name, "w",
self._change_vertex_label_position)
def _change_vertex_label_position(self, name, *arg):
# override default value
self.setvar("vertexlabelposition", self.getvar(name))
if self._graph_canvas is not None:
self._graph_canvas.vertex_label_mode = self.getvar(name)
def _init_menu(self):
toplevel = self.winfo_toplevel()
if toplevel['menu']:
self._menu = self.nametowidget(name=toplevel['menu'])
else:
self._menu = Menu(toplevel)
toplevel['menu'] = self._menu
graph_options = Menu(self._menu, tearoff=0)
self._menu.add_cascade(label="Graph", menu=graph_options)
self._menu_index = self._menu.index("end")
vertex_label_position = Menu(graph_options, tearoff=0)
graph_options.add_cascade(label="Label position",
menu=vertex_label_position)
vertexlabelposition_var = self.winfo_name() + ".vertexlabelposition"
vertex_label_position.add_radiobutton(label="Auto", value="auto",
variable=vertexlabelposition_var)
vertex_label_position.add_radiobutton(label="Center", value="center",
variable=vertexlabelposition_var)
graph_options.add_command(label="Save graph...",
command=self.call_graph_save_dialog)
self.bind("<Destroy>", self.__destroy_menu)
#noinspection PyUnusedLocal
def __destroy_menu(self, event):
try:
self._menu.delete(self._menu_index)
except TclError:
pass
def call_graph_save_dialog(self):
file_name = tkFileDialog.asksaveasfilename(defaultextension='.ps',
filetypes=[('PostScript', '.ps')], parent=self.winfo_toplevel(),
title="Save graph as image")
if file_name:
with codecs.open(file_name, 'w', encoding='utf-8') as file:
file.write(self._graph_canvas.postscript())
def update_layout(self):
try:
self._iterations_plugin.iterate(50)
except AttributeError:
pass
def initTextBoxes(self):
panedWindow = PanedWindow(self.parent, width=DIM_X, height=(DIM_Y - TOOLBAR_Y)/2+5, relief=FLAT)
# left-hand side: text box for the user to type into, plus a scrollbar
leftPanel = Frame(panedWindow)
scrollbar = Scrollbar(leftPanel, orient=VERTICAL)
self.textEditor = Text(leftPanel, background="PaleTurquoise", width=MAX_CHARS, font=self.customFont2,
wrap=WORD, height=(DIM_Y - TOOLBAR_Y)/2, yscrollcommand=scrollbar.set,
selectbackground="Turquoise")
self.textEditor.bind("<<Modified>>", self.textEditorModified)
self.resettingModifiedFlag = False
# add a scrollbar to the left-hand box
scrollbar.config(command=self.textEditor.yview)
scrollbar.pack(side=RIGHT, fill=Y)
self.textEditor.pack(side=LEFT, fill=BOTH, expand=1)
panedWindow.add(leftPanel)
# right hand side: help box, plus buttons to see different help screens
rightPanel = Frame(panedWindow)
scrollbar1 = Scrollbar(rightPanel, orient=VERTICAL)
boxPanel = Frame(rightPanel, width=DIM_Y/2, height=DIM_X - 2*TOOLBAR_Y)
self.helpBox = Text(boxPanel, background="LemonChiffon", font=self.customFont2, selectbackground="Gold",
wrap=WORD, height=15, yscrollcommand=scrollbar1.set)
# add a scrollbar to the right-hand box
scrollbar1.config(command=self.helpBox.yview)
scrollbar1.pack(side=RIGHT, fill=Y)
self.helpBox.pack(expand=1)
boxPanel.pack()
# add buttons to help box
helpboxWidth = self.helpBox.winfo_reqwidth()
buttonBar = Frame(rightPanel, relief=FLAT, background="LemonChiffon", height=BUTTON_Y, width=helpboxWidth)
img = Image.open("Graphics/backArrow.png")
self.backImg = ImageTk.PhotoImage(img)
prevButton = Button(buttonBar, relief=RAISED, background="LemonChiffon", image=self.backImg, borderwidth=1,
activebackground="Turquoise", height=BUTTON_Y, command=self.prevScreen)
prevButton.image = self.backImg
img = Image.open("Graphics/yourCode.png")
self.codeImg = ImageTk.PhotoImage(img)
yourCodeButton = Button(buttonBar, relief=RAISED, background="LemonChiffon", image=self.codeImg, borderwidth=1,
activebackground="Turquoise", height=BUTTON_Y, command=self.lastScreen)
yourCodeButton.image = self.codeImg
img = Image.open("Graphics/nextArrow.png")
self.nextImg = ImageTk.PhotoImage(img)
nextButton = Button(buttonBar, relief=RAISED, background="LemonChiffon", image=self.nextImg, borderwidth=1,
activebackground="Turquoise", height=BUTTON_Y, command=self.nextScreen)
nextButton.image = self.nextImg
prevButton.pack(side=LEFT)
nextButton.pack(side=RIGHT)
yourCodeButton.pack(padx=103)
buttonBar.pack(fill=X)
# set up tags to highlight errors in the text editor and do syntax highlighting
self.textEditor.tag_config("error", background="OrangeRed", foreground="White")
self.helpBox.tag_config("bold", font=self.boldFont)
self.helpBox.tag_config("ital", font=self.italFont)
self.helpBox.tag_config("underline", underline=1)
self.helpBox.tag_config("code", font=self.boldFont, foreground="DarkViolet")
panedWindow.add(rightPanel)
panedWindow.pack(fill=BOTH, expand=1)
class AntroidGUI(Tk):
def __init__(self):
Tk.__init__(self)
self.protocol("WM_DELETE_WINDOW", self.myquit)
self.etat = True
self.readstate = True
self.title("Antroid Map")
self.turns = {}
self.selectTurn = -1
self.caselength = 10
self.CaseMarge = 20
self.var = StringVar()
self.initGUI()
def initGUI(self):
frame = Frame(self, width=630, height=500)
self.panel = PanedWindow(frame, orient=HORIZONTAL)
self.LeftFrame(self.panel)
self.RightFrame(self.panel)
self.panel.add(self.LFrame)
self.panel.add(self.RFrame)
self.panel.pack()
frame.pack()
def LeftFrame(self, parent):
self.LFrame = Frame(parent, width=500, height=500)
self.maptroid = Canvas(self.LFrame, bg='black', width=500, height=500)
if self.selectTurn >= 0:
self.printMap()
self.maptroid.pack()
self.LFrame.pack()
def RightFrame(self, parent):
self.RFrame = Frame(parent, width=130, height=500)
if self.selectTurn >= 0:
self.printInfo()
self.FrameInfo = None
self.updateT = True
self.RFrame.pack()
def setreadstate(self, readstate):
self.readstate = readstate
def addTurn(self, turnnumber, turnvalue):
self.turns[turnnumber] = turnvalue
self.updateGui(turnnumber)
return self.etat
def updateGui(self, turn):
self.selectTurn = turn
self.updateMap()
self.updateInfo()
def updateMap(self):
self.maptroid.delete(ALL)
self.printMap()
def updateInfo(self):
if self.FrameInfo:
if self.updateT:
self.frameT.destroy()
self.printTurn()
self.frameAnts.destroy()
self.frameAnt.destroy()
self.printAnts()
self.updateT = True
else:
self.printInfo()
def updateSpin_turn(self):
turn = int(self.Spin_T.get())
self.updateT = False
self.updateGui(turn)
def validateTurn(self, event):
try:
turn = int(self.Spin_T.get())
except ValueError:
turn = self.selectTurn
if turn in self.turns.keys():
if turn != self.selectTurn:
self.updateT = False
self.updateGui(turn)
else:
turn = self.selectTurn
def choiceAnt(self, event):
i = self.listbox.curselection()
id_a = self.listbox.get(i)
self.frameAnt.destroy()
self.printInfoAnt(int(id_a))
def printInfo(self):
self.FrameInfo = Frame(self.RFrame)
self.printTurn()
self.printAnts()
self.FrameInfo.pack()
def printTurn(self):
frameS = PanedWindow(self.FrameInfo, orient=HORIZONTAL)
turns = Label(frameS, text="Tour :")
self.var.set(str(self.selectTurn))
self.Spin_T = Spinbox(frameS,
values=self.turns.keys(),
command=self.updateSpin_turn,
textvariable=self.var)
self.Spin_T.bind('<Return>', self.validateTurn)
turns.pack()
self.Spin_T.pack()
frameS.add(turns)
frameS.add(self.Spin_T)
frameS.pack()
self.frameT = frameS
def printAnts(self):
frameAnts = Frame(self.FrameInfo)
Text_A = Label(frameAnts, text="Fourmie :")
s1 = Scrollbar(frameAnts)
l1 = Listbox(frameAnts)
id_ants = self.checkAnts()
for i in id_ants:
l1.insert(i, str(i))
s1.config(command=l1.yview)
l1.config(yscrollcommand=s1.set)
l1.bind('<ButtonRelease-1>', self.choiceAnt)
self.listbox = l1
Text_A.pack(side=TOP)
l1.pack(side=LEFT)
s1.pack(side=RIGHT)
frameAnts.pack()
self.printInfoAnt(id_ants[0])
self.frameAnts = frameAnts
def printInfoAnt(self, i):
self.frameAnt = PanedWindow(self.FrameInfo, orient=VERTICAL)
t_Ant = Label(self.frameAnt, text="Information Ant : %d" % (i))
(t_brain, t_energie, t_acide) = self.getInfoAnt(i)
a_b = Label(self.frameAnt, text=t_brain)
a_e = Label(self.frameAnt, text=t_energie)
a_a = Label(self.frameAnt, text=t_acide)
t_Ant.pack(side=TOP)
self.frameAnt.add(t_Ant)
self.frameAnt.add(a_b)
self.frameAnt.add(a_e)
self.frameAnt.add(a_a)
self.frameAnt.pack()
def printMap(self):
turn = self.turns[self.selectTurn]
# Information on this turn
config = turn[0]
Yants = turn[1]
EAnts = turn[2]
InitMap = turn[3]
Cases = turn[4]
(MaxX, MaxY, N) = InitMap
self.MinX = 0
self.MinY = 0
MaxX_map = MaxX * self.caselength + (self.CaseMarge * 2)
MaxY_map = MaxY * self.caselength + (self.CaseMarge * 2)
#configure canvas
self.maptroid.config(scrollregion=(0, 0, MaxX_map, MaxY_map))
x1 = self.CaseMarge
y1 = self.CaseMarge
x2 = MaxX * self.caselength + self.CaseMarge
y2 = MaxY * self.caselength + self.CaseMarge
self.maptroid.create_rectangle(x1, y1, x2, y2, fill="white")
# affiche case
for case in Cases:
self.printCase(case)
# affiche your ants
for ant in Yants:
# nb A : Your Ant 'ID X Y DX DY E A B'
(id_a, x, y, dx, dy, e, a, b) = ant
self.printAnt((x, y, dx, dy, b))
# affiche enemy ants
for ant in EAnts:
self.printAnt(ant)
#to move map
self.maptroid.bind('<ButtonPress-1>', self.grab)
self.maptroid.bind('<B1-Motion>', self.drag)
self.maptroid.bind('<MouseWheel>', self.mapZoom)
self.maptroid.bind("<Button-4>", self.mapZoom)
self.maptroid.bind("<Button-5>", self.mapZoom)
def printCase(self, case):
(x, y, c, s) = case
(x1, y1, x2, y2) = self.getPoint(x, y)
color = COLOR[c][s]
if c % 2 == 0:
self.maptroid.create_rectangle(x1, y1, x2, y2, fill=color)
else:
self.maptroid.create_rectangle(x1,
y1,
x2,
y2,
fill=COLOR[GRASS][s])
self.maptroid.create_oval(x1, y1, x2, y2, fill=color)
def printAnt(self, ant):
(x, y, dx, dy, brain) = ant
(x1, y1, x2, y2) = self.getPoint(x, y)
self.maptroid.create_oval(x1, y1, x2, y2, fill="red4")
def getPoint(self, x, y):
x1 = (x - self.MinX) * self.caselength + self.CaseMarge
y1 = (y - self.MinY) * self.caselength + self.CaseMarge
x2 = x1 + self.caselength
y2 = y1 + self.caselength
return (x1, y1, x2, y2)
def grab(self, event):
self._y = event.y
self._x = event.x
def drag(self, event):
self.maptroid.yview('scroll', self._y - event.y, 'units')
self.maptroid.xview('scroll', self._x - event.x, 'units')
self._y = event.y
self._x = event.x
def mapZoom(self, event):
# respond to Linux or Windows wheel event
if event.num == 5 or event.delta == -120:
self.caselength -= 5
self.caselength = max(self.caselength, 10)
if event.num == 4 or event.delta == 120:
self.caselength += 5
self.caselength = min(self.caselength, 40)
self.CaseMarge = self.caselength
self.updateMap()
def getInfoAnt(self, id_ant):
turn = self.turns[self.selectTurn]
YAnt = turn[1]
B_Text = "Brain :"
E_Text = "Energie :"
A_Text = "Acide :"
for ant in YAnt:
(id_a, x, y, dx, dy, e, a, b) = ant
if b != 1:
b = 0
if (id_ant == id_a):
B_Text = "Brain : " + BRAIN[b]
E_Text = "Energie : %d" % (e)
A_Text = "Acide : %d" % (a)
return (B_Text, E_Text, A_Text)
def checkAnts(self):
turn = self.turns[self.selectTurn]
YAnt = turn[1]
ants_id = []
for ant in YAnt:
(id_a, x, y, dx, dy, e, a, b) = ant
ants_id.append(id_a)
return ants_id
def myquit(self):
self.etat = False
if not self.readstate:
self.quit()
class ClsGUI(Tk):
"""
Попытка создать ГУИ для репортера.
"""
def __init__(self):
"""
Создаёт интерфейс пользователя для репортера.
"""
def bind_win():
"""
Привязка событий к окнам.
"""
def quit_reporter(event=''):
"""
Выходит из репортера.
:param event:
"""
import sys
sys.exit()
def save_reporter(event=''):
"""
Сохраняет отчёт.
:param event:
"""
print '===report==='
_reporter = ClsSmallReporter()
self.txt_report.insert('1.0', _reporter.html_data)
def generate_report(event=''):
"""
Генерирует отчёт.
:param event:
"""
print '===report==='
reporter = ClsSmallReporter()
self.txt_report.insert('1.0', reporter.html_data)
self.bind('<Control-Q>', quit_reporter)
self.bind('<Control-q>', quit_reporter)
self.bind('<Control-S>', save_reporter)
self.bind('<Control-s>', save_reporter)
self.bind('<Control-G>', generate_report)
self.bind('<Control-g>', generate_report)
Tk.__init__(self)
self.frm_up = Frame(self)
self.mnu_file = None
self.mnu_custom = None
self.btn_exit = None
self.mnu_help = None
self.mnu_edit = None
self.txt_report = None
self.btn_edit = None
self.btn_save = None
self.pnl_menu = None
self.btn_custom = None
self.btn_generate = None
self.btn_file = None
self.btn_help = None
self.frm_midle = None
self.frm_down = None
self.title(LANG_RU['win_main'])
self.minsize(GEOMETRY['winMain_minSizeX'], GEOMETRY['winMain_minSizeY'])
self.maxsize(GEOMETRY['winMain_maxSizeX'], GEOMETRY['winMain_maxSizeY'])
self.create_up_frame()
self.create_frm_middle()
self.create_frm_down()
bind_win()
self.mainloop()
def create_up_frame(self):
"""
Создаёт верхний фрейм.
:type self: object
"""
self.create_menu_bar()
self.frm_up.pack(side='top', fill='x')
def create_frm_middle(self):
"""
Создаёт средний фрейм для отображения.
"""
self.frm_midle = Frame(self, border=2, relief='raised')
self.frm_midle.pack(side='top', expand=1, fill='both')
self.txt_report = Text(self.frm_midle, font='Consolas 9 normal')
self.txt_report.pack(side='top', fill='both', expand=1)
def create_frm_down(self):
"""
Создаёт нижний фрейм репортера.
"""
def btn_generate_click(event=''):
"""
Обработчик нижатия кнопки генератора отчёта.
:param event:
"""
print '===report==='
_reporter = ClsSmallReporter()
self.txt_report.insert('1.0', _reporter.html_data)
def create_btn_exit():
"""
Создаёт кнопки выхода из программы.
"""
def report_exit(event=''):
"""
Обработчик нажатия кнопки выхода из программы.
:param event:
"""
import sys
sys.exit()
self.btn_exit = Button(self.frm_down,
text=LANG_RU['btn_exit'],
command=report_exit,
bg='red')
self.btn_exit.pack(side='left', expand=1, fill='x')
def create_btn_save():
"""
Создаёт кнопку для сохранения отчёта.
"""
self.btn_save = Button(self.frm_down, text=LANG_RU['btn_save'])
self.btn_save.pack(side='left', expand=1, fill='x')
def create_btn_generate():
"""
Создаёт кнопку для генерации отчёта
"""
self.btn_generate = Button(self.frm_down,
text=LANG_RU['btn_generate'],
command=btn_generate_click)
self.btn_generate.pack(side='left', expand=1, fill='x')
self.frm_down = Frame(self)
create_btn_generate()
create_btn_save()
create_btn_exit()
self.frm_down.pack(side='bottom', fill='x')
def create_menu_bar(self):
"""
Создаёт линейку для меню программы.
"""
def create_mnu_file():
"""
Создаёт меню файл.
"""
self.btn_file = Menubutton(self.pnl_menu, text=LANG_RU['mnu_file'],
border=3, relief='groove')
self.mnu_file = Menu(self.btn_file)
self.btn_file.config(menu=self.mnu_file)
self.mnu_file.add_command(label=LANG_RU['mnuFile_New'],
accelerator='Ctrl+N')
self.mnu_file.add_command(label=LANG_RU['mnuFile_Open'],
accelerator='Ctrl+O')
self.mnu_file.add_separator()
self.mnu_file.add_command(label=LANG_RU['mnuFile_Save'],
accelerator='Ctrl+S')
self.mnu_file.add_command(label=LANG_RU['mnuFile_SaveAs'])
self.mnu_file.add_separator()
self.mnu_file.add_command(label=LANG_RU['mnuFile_Print'],
accelerator='Ctrl+P')
self.mnu_file.add_separator()
self.mnu_file.add_command(label=LANG_RU['mnuFile_Exit'],
accelerator='Ctrl+Q')
self.btn_file.pack(side='left')
def create_mnu_edit():
"""
Создаёт меню "Правка".
"""
self.btn_edit = Menubutton(self.pnl_menu,
text=LANG_RU['mnu_edit'],
border=3,
relief='groove')
self.mnu_edit = Menu(self.btn_edit)
self.btn_edit.config(menu=self.mnu_edit)
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Undo'],
accelerator='Ctrl+Z')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Redo'])
self.mnu_edit.add_separator()
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Copy'],
accelerator='Ctrl+C')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Cut'],
accelerator='Ctrl+X')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Paste'],
accelerator='Ctrl+V')
self.mnu_edit.add_separator()
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Find'],
accelerator='Ctrl+F')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Replace'],
accelerator='Ctrl+R')
self.btn_edit.pack(side='left')
def create_mnu_custom():
"""
Создаёт меню нстроек.
"""
self.btn_custom = Menubutton(self.pnl_menu, text='mnu_custom',
border=3, relief='groove')
self.mnu_custom = Menu(self.btn_custom)
self.btn_custom.config(menu=self.mnu_custom)
self.mnu_custom.add_command(label='Type files',
accelerator='Ctrl+D')
self.mnu_custom.add_command(label='--1')
self.mnu_custom.add_separator()
self.mnu_custom.add_command(label='--2', accelerator='---')
self.mnu_custom.add_command(label='--3', accelerator='---')
self.mnu_custom.add_command(label='--4', accelerator='---')
self.mnu_custom.add_separator()
self.btn_custom.pack(side='left')
def create_mnu_help():
"""
Создаёт меню "Справка".
"""
self.btn_help = Menubutton(self.pnl_menu,
text='mnu_help',
border=3,
relief='groove')
self.mnu_help = Menu(self.btn_help)
self.btn_help.config(menu=self.mnu_help)
self.mnu_help.add_command(label='Type files', accelerator='Ctrl+D')
self.mnu_help.add_command(label='--1')
self.mnu_custom.add_separator()
self.btn_help.pack(side='left')
self.pnl_menu = PanedWindow(self.frm_up, border=2, relief='raised')
create_mnu_file()
create_mnu_edit()
create_mnu_custom()
create_mnu_help()
self.pnl_menu.pack(side='left', expand=1, fill='x')
def initWidget(self, fenetre):
#print "init"
self.card_win = PanedWindow(fenetre, orient=VERTICAL)
fenetre.child = self
self.refreshWidget()
def __init__(self, *args, **kwargs):
'''
nodeName: The name of this node. Usually set by ModelNode.__setattr__ automatically.
figureMeta: Meta information of figure.
The rest parameters are passed to PanedWindow.__init__.
'''
nodeName = kwargs.pop('nodeName', '')
# lock
super(FigureBook, self).__init__(nodeName=nodeName)
figureMeta = None if 'figureMeta' not in kwargs \
else kwargs.pop('figureMeta')
kwargs['orient'] = HORIZONTAL
panedWindow = PanedWindow(*args, **kwargs)
panedWindow.config(sashwidth=4, sashrelief=GROOVE, bg='forestgreen')
# figureTabsStyle = Style()
# figureTabsStyle.configure('Figure.TNotebook', tabposition='sw')
# figureTabs = Notebook(panedWindow, style='Figure.TNotebook')
figureTabs = Notebook(panedWindow)
self.figureTabs = figureTabs
figureTabs.bind('<<NotebookTabChanged>>', self.onTabChange)
self.lockAttribute('figureTabs')
if figureMeta:
self.makeFigures(figureMeta)
self.lockElements()
panedWindow.add(figureTabs, stretch='always')
listPan = PanedWindow(panedWindow, orient=VERTICAL)
listPan.config(sashwidth=4, sashrelief=GROOVE, bg='forestgreen')
panedWindow.add(listPan, stretch='never')
listFrm = Frame(listPan)
listPan.add(listFrm, stretch='always')
Label(listFrm, text='Curves', bg='#b5d6b0').pack(side=TOP, fill=X)
self.__list = ScrolledList(listFrm, relief=GROOVE)
self.__list.listConfig(width=20)
self.__list.listClick = self.onListClick
self.__list.pack(fill=BOTH, expand=YES)
listFrm = Frame(listPan)
listPan.add(listFrm, stretch='never')
Label(listFrm, text='Indicators', bg='#b5d6b0').pack(side=TOP, fill=X)
self.__indicatorListbox = ScrolledList(listFrm, relief=GROOVE)
self.__indicatorListbox.listConfig(width=20)
self.__indicatorListbox.pack(fill=BOTH, expand=YES)
with self.attributeLock:
setMultiAttr(
self,
panedWindow=panedWindow,
gridGroupObserver=self.GridGroupObserver(self),
axisGroupObserver=self.AxisGroupObserver(self),
clearGroupObserver=self.ClearGroupObserver(self),
labelGroupObserver=self.LabelGroupObserver(self),
indicatorGroupObserver=self.IndicatorGroupObserver(self),
dataFigureObserver=self.DataFigureObserver(self),
dataPool=[])
class Card:
def __init__(self,
name="Nom monstre",
att=1,
pv=1,
bonus=None,
photo='',
monster_type="unknown"):
self.name = name
self.att = att
self.pv = pv
if not bonus:
bonus = [
] # a cause du fonctionnement etrange de python pour les valeurs d arguments [] par defaut
self.bonus = bonus
self.is_spell = (pv < 1)
self.photofile = photo
self.dumping_file = os.path.join("CardFiles",
monster_type + "_monsters.sav")
self.monster_type = monster_type
#global all_monsters
name = self.name.replace(" ", "_")
# try :
# self.image = image.load(os.path.join("Card",name+".png"))
# except :
# self.image=None
def constructor(self):
return ('Card("' + self.name + '",' + str(self.att) + "," +
str(self.pv) + ",[" +
",".join([p.constructor() for p in self.bonus]) + "]," +
repr(self.photofile) + ",'" + self.monster_type + "')")
def takePlace(self, *ar1, **ars):
pass
def addBonus(self, bonus):
self.bonus.append(bonus)
def getCost(self):
if self.pv > 0:
cost = self.att / 2. + self.pv / 2. + sum(
[p.getCost(self) for p in self.bonus])
else:
#print self.bonus
#if self.bonus :
#print self.bonus[0].getCost
#print self.bonus[0].getCost()
if len(self.bonus) > 1: print "** anomalie **"
cost = sum([p.getCost()
for p in self.bonus]) + 0.5 * (len(self.bonus) - 1)
if cost < 0: cost = 0
if hasattr(self, "cost") and self.cost != None:
# pour les monstres du save, l attribut cost est None
print "cout=", cost, " so ", int(floor(cost))
self.cost.set(int(floor(cost)))
self.getStars()
return cost
def getStars(self):
stars = sum([p.getStars() for p in self.bonus])
if stars > 2: stars = (stars - 1) * 2
if hasattr(self, "stars") and self.stars != None:
# pour les monstres du save, l attribut stars existe = None
self.stars.set('* ' * stars)
#print "stars=",stars
return stars
def getDescription(self):
for b in reversed(self.bonus):
try:
b.getDescription()
except Exception:
self.bonus.remove(b)
return self.name + " (" + str(self.att) + " " + str(
self.pv) + '\n' * bool(self.bonus) + '\n'.join(
[b.getDescription() for b in self.bonus]) + " )"
def getInlineDescription(self):
for b in reversed(self.bonus):
try:
b.getInlineDescription()
except Exception:
self.bonus.remove(b)
return self.name + " (" + str(self.att) + " " + str(
self.pv) + ' '.join([b.getInlineDescription()
for b in self.bonus]) + " )"
def postAndSave(self, *args):
if self.name == "nom monstre":
return
if not self.verifyBonus():
return
self.deleteCreature(self.name)
temp = self.category.get()
pygame.init()
fenetre = self.card_win.master
self.card_win.pack_forget()
self.save(None)
done = False
while not done:
for event in pygame.event.get():
if event.type == pygame.QUIT:
done = True
pygame.display.quit()
self = Card("nom monstre", 1, 1)
#card.pack_forget()
self.initWidget(fenetre)
self.category.set(temp)
self.setFile("dummy_arg")
def verifyBonus(self):
nb = [b.__class__.__name__ for b in self.bonus]
if len(set(nb)) != len(nb):
showinfo("Not Allowed", "You can't have twice the same bonus")
return False
for b1, b2 in [("Insaisissable", "Provocation"),
("Insaisissable", "Inciblable"),
("Camouflage", "Provocation"),
("NePeutPasAttaquer", "ALaPlaceDeLAttaque"),
("GardienDeVie", "QuandIlEstBlesse"),
("Charge", "NePeutPasRisposter"),
("NePeutPasRiposter", "NePeutPasAttaquer"),
("NePeutPasRiposter", "CoutReduit"),
("CoutReduit", "NePeutPasAttaquer")]:
if b1 in nb and b2 in nb:
showinfo(
"Not Allowed",
"You can't have this combination of powers: {0} and {1}".
format(b1, b2))
return False
return True
def save(self, *args):
image = self.createImage()
print "apres createImage"
name = self.name.replace(" ", "_")
pygame.image.save(image, "Cards/" + name + ".png")
print "save image done"
# now new monster
loaded_monsters = readMonsters(self.dumping_file)
#print "Monsters from file = ",file_monsters
#remove_widget(self)
loaded_monsters[self.name] = self
#print "Monsters from file (after) = ",file_monsters
global all_monsters
all_monsters.update(loaded_monsters)
#print "window reinit done"
with open(self.dumping_file, "wb") as savefile:
savefile.write("\n".join(
[m.constructor() for m in loaded_monsters.values()]))
# with open(self.dumping_file+".old","rb") as filepickle :
# print "now in file", self.dumping_file,":",pickle.load(filepickle).keys()
# filepickle.close()
with open(os.path.join("CardFiles", "all_monsters.sav"), "wb") as f:
f.write("\n".join([m.constructor()
for m in all_monsters.values()]))
recupfile = os.path.join("CardFiles", "recup_monsters.sav")
if (not os.path.isfile(recupfile)) or len(all_monsters) >= len(
open(recupfile, 'r').readlines()):
with open(recupfile, "wb") as f:
f.write("\n".join(
[m.constructor() for m in all_monsters.values()]))
print "SAVED in all_monsters.sav and recup_monsters.sav"
else:
print "WARNING : Recup monster file bigger than all monsters file"
def initWidget(self, fenetre):
#print "init"
self.card_win = PanedWindow(fenetre, orient=VERTICAL)
fenetre.child = self
self.refreshWidget()
def Open(self, *args):
print "open monster ", self.opening.get()
#deck_with_card = self.deck_check(self.opening.get())
if True:
self.card_win.pack_forget()
fenetre = self.card_win.master
#for i in Card.monster_list.keys() :
# print i, Card.monster_list[i].getInlineDescription()
self = Card.monster_list[self.opening.get()]
print self.name + " loaded"
if self.pv < 1:
self.is_spell = True
else:
self.is_spell = False
#self.card_win.pack_forget()
for b in self.bonus:
b.parent = self.bonus
b.card = self
self.initWidget(fenetre)
def clicDelete(self, *args):
#self.card_win.pack_forget()
#fenetre=self.card_win.master
"""
for i in all_monsters.keys() :
print i, all_monsters[i].getInlineDescription()
"""
creature = self.delete.get()
from deck_creation import blocked_creature
if creature in blocked_creature:
print "not possible : creature in campaign"
self.delete.set('delete')
return
if askyesno('Beware!', 'Confirm the deletion of ' + creature + "?"):
self.deleteCreature(creature)
self.card_win.pack_forget()
#self.initWidget(fenetre)
self.setFile(*args)
def deleteCreature(self, creature):
dm = None
global all_monsters
if not creature in all_monsters:
print creature, " is not in all_monsters"
try:
fm = os.path.join("CardFiles",
self.category.get() + "_monsters.sav")
dm = readMonsters(fm)
except:
print "error reading file ", fm
else:
print "delete monster ", creature
try:
fm = os.path.join("CardFiles",
(all_monsters[creature].monster_type) +
"_monsters.sav")
dm = readMonsters(fm)
except:
print "ERROR : no type for ", creature, " or read error"
del all_monsters[creature]
fall = os.path.join("CardFiles", "all_monsters.sav")
with open(fall, "wb") as savefile:
savefile.write("\n".join(
[m.constructor() for m in all_monsters.values()]))
print "deletion of monster ", creature, "done"
shutil.copyfile(fall, "CardFiles/recup_monsters.sav")
if dm and creature in dm:
del dm[creature]
with open(fm, "wb") as savefile:
savefile.write("\n".join(
[m.constructor() for m in dm.values()]))
print "deletion of monster ", creature, " in ", fm, " done"
else:
print creature, " not found in dedicated file"
def choosePhoto(self, *args):
from tkFileDialog import askopenfilename
#Tk().withdraw() # we don't want a full GUI, so keep the root window from appearing
filename = askopenfilename(
defaultextension=".gif",
filetypes=[('Jpg file', '*.jpg'), ('GIF file', '*.gif')]
) # show an "Open" dialog box and return the path to the selected file
if filename:
import os.path
chem = os.path.dirname(os.path.realpath(__file__)).replace(
'\\', '/') + '/'
print chem
if chem in filename:
filename = filename.replace(chem, '')
print "filename modif", filename
try:
Image.open(filename)
#ImageTk.PhotoImage(monimage)
self.photofile = filename
print "photo choosen !"
except Exception:
print "echec ouverture"
self.refreshWidget()
def setFile(self, *args):
self.dumping_file = os.path.join("CardFiles",
self.category.get() + "_monsters.sav")
print "Change dumping file to ", self.dumping_file
self.monster_type = self.category.get()
Card.monster_list = readMonsters(self.dumping_file)
#from cardPowers import *
self.refreshWidget()
def refreshWidget(self):
#print "refresh"
self.card_win.pack_forget()
#Card window
self.card_win = PanedWindow(self.card_win.master, orient=VERTICAL)
self.card_win.pack(side=TOP, expand=True, fill=BOTH, pady=2, padx=2)
#Create the name zone
name_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
name = StringVar()
name.set(self.name)
from deck_creation import blocked_creature
def modifName(*args):
old = self.name in blocked_creature
self.name = name.get()
if old or self.name in blocked_creature:
self.refreshWidget()
name.trace("w", modifName)
name_wid = Entry(name_zone, width=30, textvariable=name)
name_wid.pack()
name_zone.add(name_wid)
#Create the cost ad star stringvar
#print int(floor(self.getCost()))
self.cost = StringVar()
self.stars = StringVar()
cost_wid = Label(None,
textvariable=self.cost,
background='red',
width=5,
anchor=W)
star_wid = Label(None,
textvariable=self.stars,
background='blue',
anchor=E)
self.cost.set(str(int(floor(self.getCost()))))
self.stars.set("*" * self.getStars())
#Add them in name zone
name_zone.add(cost_wid)
name_zone.add(star_wid)
#Create an Image Zone
image_zone = Button(self.card_win, command=self.choosePhoto)
if hasattr(self, "photofile") and self.photofile:
print "Image: ", self.photofile
try:
img = Image.open(self.photofile)
except:
decomp = self.photofile.split('/')
for i in range(1, 6):
try:
fname = "/".join(decomp[-i:])
print "try to open", fname
img = Image.open(fname)
self.photofile = fname
break
except:
self.photofile = None
if self.photofile:
w, h = img.size
if w > 300 or h > 200:
img = img.resize((w / 2, h / 2), Image.LINEAR)
image_zone.image = ImageTk.PhotoImage(img)
image_zone.config(image=image_zone.image)
#print "IMAGE CHANGED"
else:
from os import path
fname = self.name.replace(" ", "_")
if path.isfile("Cards/" + fname + ".png"):
image_zone.config(text='image can be taken from\n' + "Cards/" +
fname + ".png",
background='white',
anchor=CENTER)
else:
image_zone.config(text='clic to choose image',
background='white',
anchor=CENTER)
image_zone.pack
# POWER ZONE
power_zone = PanedWindow(self.card_win, orient=VERTICAL)
#fenetre=self.card_win.master
def removePowerCreator(px):
def removePower(*args):
#print 'avant',list_pow
self.bonus.remove(px)
#print 'apres',list_pow
#self.card_win.pack_forget()
self.refreshWidget()
return removePower
for p in self.bonus:
powline = PanedWindow(self.card_win, orient=HORIZONTAL)
pow_wid = p.initWidget(powline)
powline.add(pow_wid)
removepow = Button(powline,
text="X",
command=removePowerCreator(p),
anchor=E)
removepow.pack()
powline.add(removepow)
power_zone.add(powline)
def addPower(*args):
name = addBonus.get()
print "added :", name
import cardPowers
self.bonus += [eval('cardPowers.' + name + '()')]
self.bonus[-1].parent = self.bonus
self.bonus[-1].card = self
#self.card_win.pack_forget()
self.refreshWidget()
#Add bonus Option menu
addBonus = StringVar(power_zone)
addBonus.set("add bonus") # default value
if not self.pv: addBonus_wid = getSpellMenu(power_zone, addBonus)
else: addBonus_wid = getBonusMenu(power_zone, addBonus)
addBonus.trace('w', addPower)
if self.pv > 0 or len(self.bonus) == 0:
addBonus_wid.pack()
#Add this to power zone
power_zone.add(addBonus_wid)
#Create save zone
save_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
lv = int(localopen("progression", "r").read())
if self.monster_type != "all" and not (lv < 8 and self.name
in blocked_creature):
save_wid = Button(save_zone, text="Save", command=self.postAndSave)
elif self.monster_type != "all":
save_wid = Button(save_zone,
text="creature in campaign",
command=None)
else:
save_wid = Button(save_zone, text="nead type", command=None)
save_wid.pack()
#Create the open button
save_zone.pack()
if Card.monster_list.keys():
self.opening = StringVar(save_zone)
self.opening.set("Open")
choice = Card.monster_list.keys()
choice.sort()
#print all_monsters.keys()
open_wid = OptionMenu(save_zone, self.opening, *choice)
self.opening.trace('w', self.Open)
open_wid.pack()
save_zone.add(open_wid)
if Card.monster_list.keys():
self.delete = StringVar(save_zone)
self.delete.set("Delete")
choice = Card.monster_list.keys()
choice.sort()
delete_wid = OptionMenu(save_zone, self.delete, *choice)
self.delete.trace('w', self.clicDelete)
delete_wid.pack()
save_zone.add(delete_wid)
#Create the type button
self.category = StringVar(save_zone)
self.category.set(self.monster_type)
choice = [
file2name(t, "_monsters.sav")
for t in glob.glob("CardFiles/*_monsters.sav")
]
if "recup" in choice:
choice.remove("recup")
#print all_monsters.keys()
category_wid = OptionMenu(save_zone, self.category, *choice)
self.category.trace('w', self.setFile)
category_wid.pack()
#Add it to save zone
save_zone.add(save_wid)
save_zone.add(category_wid)
#Create a new Strength zone for att and pv
strength_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
att = StringVar()
att.set(str(self.att))
pv = StringVar()
pv.set(str(self.pv))
def modifiedAttPv(*args):
print "modifiedAttPv"
self.pv = int(pv.get())
if self.pv < 1 and self.is_spell == False:
if len(self.bonus) == 0:
self.is_spell = True
self.refreshWidget()
else:
self.pv = 1
self.refreshWidget()
if self.pv > 0 and self.is_spell == True:
if len(self.bonus) == 0:
self.is_spell = False
self.refreshWidget()
else:
self.pv = 0
self.refreshWidget()
self.att = int(att.get())
self.getCost()
att_wid = Spinbox(strength_zone,
from_=0,
to=1000,
textvariable=att,
command=modifiedAttPv)
att_wid.pack()
strength_zone.add(att_wid)
strength_zone.add(
Label(strength_zone,
text=' ',
background='white',
anchor=CENTER))
pv_wid = Spinbox(strength_zone,
from_=0,
to=1000,
textvariable=pv,
command=modifiedAttPv)
pv_wid.pack()
strength_zone.add(pv_wid)
#Put it all in window
self.card_win.add(name_zone)
self.card_win.add(image_zone)
self.card_win.add(power_zone)
self.card_win.add(strength_zone)
self.card_win.add(save_zone)
self.card_win.pack()
def createImage(self, black=False):
width = 189 * 2
height = 277 * 2
screen = pygame.display.set_mode((width, height))
print "Type = ", self.monster_type
if self.monster_type in all_backgrounds.keys():
try:
bg = pygame.image.load(all_backgrounds[self.monster_type])
except:
print "error (? when load of bg"
else:
bg = pygame.image.load('gameAnimationImages/Card_face_avant.gif')
#fond = PhotoImage(file =bg,master=fenetre)
#ligne1 = canvas.create_line(75, 0, 75, 120)
#ligne2 = canvas.create_line(0, 60, 150, 60)
if self.photofile and not black:
try:
img = pygame.image.load(self.photofile)
except:
decomp = self.photofile.split('/')
for i in range(1, 6):
try:
fname = "/".join(decomp[-i:])
print "try to open", fname
img = pygame.image.load(fname)
self.photofile = fname
break
except:
pass
img = pygame.image.load(self.photofile)
w, h = img.get_size()
factor = max(140. * 2. / w, 90. * 2. / h)
img = pygame.transform.scale(img,
(int(w * factor), int(h * factor)))
#fenetre.photo=PhotoImage(file=self.photofile,master=canvas)
#img=ImageTk.PhotoImage(img,master=fenetre)
screen.blit(img,
(width / 2. - w * factor / 2., 140. - h * factor / 4.))
else:
try:
name = self.name.replace(" ", "_")
img = pygame.image.load("Cards/" + name + ".png")
print "* Found for image ", "Cards/" + name + ".png"
screen.blit(img, (0, 0))
except:
pass
screen.blit(bg, (0, 0))
pygame.font.init()
#print pygame.font.get_fonts()
if self.monster_type in white_font_types:
color = (255, 255, 255)
else:
color = (0, 0, 0)
centerText(screen, (width / 2. + 10., 33. * 2.), self.name,
36 - (len(self.name) > 11) * (len(self.name) - 11) / 3,
color)
#txt = canvas.create_text(101, 32, text=self.name, font=("Calibri",12-(len(self.name)>11)*(len(self.name)-11)/5,"bold"), anchor=CENTER)
if not (self.is_spell):
centerText(screen, (24 * 2., 258 * 2.), str(self.att), 40, color)
centerText(screen, (169 * 2., 255 * 2.), str(self.pv), 40, color)
else:
centerText(screen, (width / 2., 265 * 2.), "SPELL", 30, color)
#elif self.is_spell:
# txt = canvas.create_text(100,265, text="SPELL", anchor=CENTER, font=("Calibri",14,'bold'))
#txt = canvas.create_text(22,35, text=int(floor(self.getCost())), anchor=CENTER, font=("Calibri",18,'bold'))
centerText(screen, (22 * 2., 35 * 2.), str(int(floor(self.getCost()))),
50, color)
#txt1 = canvas.create_text(92,257, text='*'*self.getStars(), anchor=CENTER, font=("Calibri",26,'bold'))
centerText(screen, (92 * 2., 257 * 2.), '*' * self.getStars(), 60,
color)
if not (self.monster_type == "unknown"):
if self.monster_type in all_type_colors:
Color = all_type_colors[self.monster_type]
else:
Color = "human"
else:
Color = "human"
centerText(screen, (95 * 2., 142 * 2.), self.monster_type.capitalize(),
26, Color)
if len(self.bonus) > 0:
powers = "e%96".join([b.getDescription() for b in self.bonus])
powers = [p.split("\n") for p in powers.split("e%96")]
print "powers are ", powers
else:
powers = ""
#print "POWERS = ", powers
if powers:
space = min([80., 160. / sum([len(p) * 3 + 2 for p in powers])])
print "Space: ", space
line = 0
for i, b in enumerate(powers):
size = min([36., 500. / max([len(p) for p in b]) * 2.])
for x, part in enumerate(b):
centerText(screen, (90 * 2., 167 * 2. + line * space), part,
int(size), color)
line += 3
line += 2
#canvas.pack()
#print "toto!"
pygame.display.flip()
return screen
def init_as_invocation(self, master):
# monster widget in invocation widget
#print "monster init_as_invocation"
self.content = StringVar()
self.content.set(self.name)
self.content.trace("w", self.is_changed_as_invocation)
l = Card.monster_list.keys()
"""
if self.parent.name in l:
l.remove(self.parent.name)
"""
self.widget = OptionMenu(master, self.content, *l)
return self.widget
def is_changed_as_invocation(self, *args):
print "monster is_changed_as_invocation"
if self.content.get() != "Troll gris":
new = Card.monster_list[self.content.get()]
else:
new = Card("Troll gris", 4, 4)
#print self.content.get()
if self.parent:
#parent.spell=new
#print "self.parent = True"
self.parent.monster = new
new.parent = self.parent
new.card = self.card
else:
raise "ce cas existe ?! me dire comment"
self.bonus[self.bonus.index(self)] = new
#self.card_win.pack_forget()
self.card.refreshWidget()
def __init__(self, *args, **kwargs):
"""
nodeName: The name of this node. Usually set by ModelNode.__setattr__ automatically.
figureMeta: Meta information of figure.
The rest parameters are passed to PanedWindow.__init__.
"""
nodeName = kwargs.pop("nodeName", "")
# lock
super(FigureBook, self).__init__(nodeName=nodeName)
figureMeta = None if "figureMeta" not in kwargs else kwargs.pop("figureMeta")
kwargs["orient"] = HORIZONTAL
panedWindow = PanedWindow(*args, **kwargs)
panedWindow.config(sashwidth=4, sashrelief=GROOVE, bg="forestgreen")
# figureTabsStyle = Style()
# figureTabsStyle.configure('Figure.TNotebook', tabposition='sw')
# figureTabs = Notebook(panedWindow, style='Figure.TNotebook')
figureTabs = Notebook(panedWindow)
self.figureTabs = figureTabs
figureTabs.bind("<<NotebookTabChanged>>", self.onTabChange)
self.lockAttribute("figureTabs")
if figureMeta:
self.makeFigures(figureMeta)
self.lockElements()
panedWindow.add(figureTabs, stretch="always")
listPan = PanedWindow(panedWindow, orient=VERTICAL)
listPan.config(sashwidth=4, sashrelief=GROOVE, bg="forestgreen")
panedWindow.add(listPan, stretch="never")
listFrm = Frame(listPan)
listPan.add(listFrm, stretch="always")
Label(listFrm, text="Curves", bg="#b5d6b0").pack(side=TOP, fill=X)
self.__list = ScrolledList(listFrm, relief=GROOVE)
self.__list.listConfig(width=20)
self.__list.listClick = self.onListClick
self.__list.pack(fill=BOTH, expand=YES)
listFrm = Frame(listPan)
listPan.add(listFrm, stretch="never")
Label(listFrm, text="Indicators", bg="#b5d6b0").pack(side=TOP, fill=X)
self.__indicatorListbox = ScrolledList(listFrm, relief=GROOVE)
self.__indicatorListbox.listConfig(width=20)
self.__indicatorListbox.pack(fill=BOTH, expand=YES)
with self.attributeLock:
setMultiAttr(
self,
panedWindow=panedWindow,
gridGroupObserver=self.GridGroupObserver(self),
axisGroupObserver=self.AxisGroupObserver(self),
clearGroupObserver=self.ClearGroupObserver(self),
labelGroupObserver=self.LabelGroupObserver(self),
indicatorGroupObserver=self.IndicatorGroupObserver(self),
dataFigureObserver=self.DataFigureObserver(self),
dataPool=[],
)
def __init__(self, data, master=None):
PanedWindow.__init__(self, master=master)
self.data = data
self.create_widgets()
self.pack(fill="both", expand="yes")
def _on_configure_pane(self, sash_index):
x, y = Tk_PanedWindow.sash_coord(self, sash_index)
self._handle_list[sash_index].place(x=x)
def __init__(self, parent, pack_location=None, **kwargs):
pw.__init__(self, parent, **kwargs)
if pack_location:
self.pack(side=pack_location, fill='both', expand=True)
self.elements = {}
class Card :
def __init__(self,name,att,pv) :
self.name=name
self.att = att
self.pv = pv
self.bonus=[]
self.is_spell=False
self.photofile=None
self.dumping_file = "CardFiles/unknown_monsters.sav"
self.monster_type = "unknown"
global all_monsters
name=self.name.replace(" ","_")
try :
self.image = image.load("Card/"+name+".png")
except :
self.image=None
def takePlace(self,*ar1,**ars) :
pass
def addBonus(self,bonus) :
self.bonus.append(bonus)
def getCost(self) :
if self.pv > 0 :
cost=self.att/2.+self.pv/2.+sum([p.getCost(self) for p in self.bonus])
else :
#print self.bonus
#if self.bonus :
#print self.bonus[0].getCost
#print self.bonus[0].getCost()
if len(self.bonus)>1 : print "** anomalie **"
cost=sum([p.getCost() for p in self.bonus])+0.5*(len(self.bonus)-1)
if cost < 0: cost = 0
if hasattr(self,"cost") and self.cost!=None :
# pour les monstres du save, l attribut cost est None
print "cout=",cost," so ",int(floor(cost))
self.cost.set(int(floor(cost)))
self.getStars()
return cost
def getStars(self):
stars = sum([p.getStars() for p in self.bonus])
if stars>2 : stars=(stars-1)*2
if hasattr(self,"stars") and self.stars != None :
# pour les monstres du save, l attribut stars existe = None
self.stars.set('* '*stars)
#print "stars=",stars
return stars
def getDescription(self):
for b in reversed(self.bonus) :
try :
b.getDescription()
except Exception :
self.bonus.remove(b)
return self.name +" ("+str(self.att)+" "+str(self.pv)+'\n'*bool(self.bonus)+'\n'.join(
[b.getDescription() for b in self.bonus]) +" )"
def getInlineDescription(self):
for b in reversed(self.bonus) :
try :
b.getInlineDescription()
except Exception :
self.bonus.remove(b)
return self.name +" ("+str(self.att)+" "+str(self.pv)+' '.join(
[b.getInlineDescription() for b in self.bonus]) +" )"
def postAndSave(self,*args):
if self.name=="nom monstre" :
return
if not self.verifyBonus() :
return
self.deleteCreature(self.name)
temp=self.category.get()
pygame.init()
fenetre=self.card_win.master
self.card_win.pack_forget()
self.save(None)
done=False
while not done :
for event in pygame.event.get() :
if event.type == pygame.QUIT :
done=True
pygame.display.quit()
self = Card("nom monstre",1,1)
#card.pack_forget()
self.initWidget(fenetre)
self.category.set(temp)
self.setFile("dummy_arg")
def verifyBonus(self) :
nb=[b.__class__.__name__ for b in self.bonus]
if len(set(nb))!=len(nb) :
showinfo("Not Allowed","You can't have twice the same bonus")
return False
for b1,b2 in [("Insaisissable","Provocation"),("Insaisissable","Inciblable"),
("Camouflage","Provocation"),("NePeutPasAttaquer","ALaPlaceDeLAttaque"),
("GardienDeVie","QuandIlEstBlesse")] :
if b1 in nb and b2 in nb :
showinfo("Not Allowed","You can't have this combination of powers: {0} and {1}".format(b1,b2))
return False
return True
def save(self,*args):
image = self.createImage()
print "apres createImage"
name=self.name.replace(" ","_")
pygame.image.save(image,"Cards/"+name+".png")
print "save image done"
# now new monster
global all_monsters
with open(self.dumping_file,"rb") as filepickle :
loaded_monsters = pickle.load(filepickle)
filepickle.close()
#print "Monsters from file = ",file_monsters
remove_widget(self)
loaded_monsters[self.name] = self
#print "Monsters from file (after) = ",file_monsters
all_monsters.update(loaded_monsters)
print "window reinit done"
with open(self.dumping_file,"wb") as filepickle :
pickle.dump(loaded_monsters , filepickle,2 )
with open(self.dumping_file,"rb") as filepickle :
print "now in file", self.dumping_file,":",pickle.load(filepickle).keys()
filepickle.close()
with open("CardFiles/all_monsters.sav", "wb" ) as f :
pickle.dump(all_monsters , f ,2)
f.close()
import os.path
if not os.path.isfile("CardFiles/recup_monsters.sav") or len(all_monsters)>=len(pickle.load(open("CardFiles/recup_monsters.sav","rb"))):
shutil.copyfile("CardFiles/all_monsters.sav","CardFiles/recup_monsters.sav")
print "SAVED in all_monsters.sav and recup_monsters.sav"
else:
print len(pickle.load(open("CardFiles/recup_monsters.sav","rb")))
import time
print "sleep"
time.sleep(1)
shutil.copyfile("CardFiles/recup_monsters.sav","CardFiles/all_monsters.sav")
pickle.dump(all_monsters , open( "CardFiles/all_monsters.sav", "wb" ),2 )
all_monsters = pickle.load(open( "CardFiles/all_monsters.sav", "rb" ))
print "ERROR IN ALL MONSTERS"
def initWidget(self,fenetre) :
#print "init"
self.card_win = PanedWindow(fenetre, orient=VERTICAL)
fenetre.child=self
self.refreshWidget()
def Open(self,*args) :
print "open monster ", self.opening.get()
lv = int(open("progression","r").read())
deck_with_card = self.deck_check(self.opening.get())
if not(lv<8 and any(["Decks\\"+d.replace(" ","_")+".dek" in deck_with_card for d in blocked_decks])):
self.card_win.pack_forget()
fenetre=self.card_win.master
#for i in Card.monster_list.keys() :
# print i, Card.monster_list[i].getInlineDescription()
self = Card.monster_list[self.opening.get()]
print self.name +" loaded"
if not("CardFiles" in self.dumping_file):
self.dumping_file = "CardFiles\\"+self.dumping_file
if self.pv<1 :
self.is_spell=True
else :
self.is_spell=False
#self.card_win.pack_forget()
for b in self.bonus:
b.parent = self.bonus
b.card = self
self.initWidget(fenetre)
else:
self.opening.set("Open")
showinfo("Impossible","You can't open this card as it is in a deck of the Campaign")
#self.refreshWidget()
def clicDelete(self,*args) :
#self.card_win.pack_forget()
#fenetre=self.card_win.master
"""
for i in all_monsters.keys() :
print i, all_monsters[i].getInlineDescription()
"""
creature= self.delete.get()
if askyesno('Beware!', 'Confirm the deletion of '+creature+"?"):
check = self.deck_check(creature)
if not(check):
self.deleteCreature(creature)
else:
showinfo("Erreur","Impossible de detruire la creature car elle est dans "+",".join(check))
self.card_win.pack_forget()
#self.initWidget(fenetre)
self.setFile(*args)
def deck_check(self,creature):
decks = glob.glob("Decks\\*.dek")
content = []
for d in decks:
print "deck",d
with open(d,"r") as fil: # problem with python : I wanted to use "rb"
deck = pickle.load(fil)
if creature in deck.keys():
content.append(d)
return content
def deleteCreature(self,creature) :
global all_monsters
if not creature in all_monsters :
print creature," not in all_monsters"
try :
f="CardFiles/"+self.category.get()+"_monsters.sav"
d = pickle.load(open(f,"rb"))
del d[creature]
pickle.dump(d,open(f,"wb"),2)
except:
pass
else :
print "delete monster ", creature
if hasattr(all_monsters[creature],"dumping_file") :
files = glob.glob(all_monsters[creature].dumping_file)
else:
files=None
if files :
f = pickle.load(open(files[0],"rb"))
try:
del f[creature]
pickle.dump(f,open(files[0],"wb"),2)
print "Deleted in ",files[0]
except:
print "Error in deletion in dumping (dedicated) file"
else :
if hasattr(all_monsters[creature],"dumping_file") :
print all_monsters[creature].dumping_file," not found"
else :
print "no dumping file"
del all_monsters[creature]
pickle.dump(all_monsters , open( "CardFiles/all_monsters.sav", "wb" ),2 )
print "deletion of monster ", creature, "done"
shutil.copyfile("CardFiles/all_monsters.sav","CardFiles/recup_monsters.sav")
#print all_monsters.keys()
def choosePhoto(self,*args) :
from tkFileDialog import askopenfilename
#Tk().withdraw() # we don't want a full GUI, so keep the root window from appearing
filename = askopenfilename(defaultextension=".gif",filetypes=[('Jpg file','*.jpg'),('GIF file','*.gif')]) # show an "Open" dialog box and return the path to the selected file
if filename:
import os.path
chem=os.path.dirname(os.path.realpath(__file__)).replace('\\','/')+'/'
print chem
if chem in filename :
filename=filename.replace(chem,'')
print "filename modif",filename
try :
Image.open(filename)
#ImageTk.PhotoImage(monimage)
self.photofile=filename
print "photo choosen !"
except Exception :
print "echec ouverture"
self.refreshWidget()
def setFile(self,*args):
self.dumping_file = "CardFiles/"+self.category.get()+"_monsters.sav"
print "Change dumping file to ",self.dumping_file
self.monster_type = self.category.get()
with open( self.dumping_file, "rb") as f:
Card.monster_list = pickle.load( f)
f.close()
self.refreshWidget()
def refreshWidget(self) :
#print "refresh"
self.card_win.pack_forget()
#Card window
self.card_win = PanedWindow(self.card_win.master, orient=VERTICAL)
self.card_win.pack(side=TOP, expand=True, fill=BOTH, pady=2, padx=2)
#Create the name zone
name_zone=PanedWindow(self.card_win, orient=HORIZONTAL)
name = StringVar()
name.set(self.name)
def modifName(*args) :
self.name=name.get()
name.trace("w", modifName)
name_wid=Entry(name_zone, width=30,textvariable=name)
name_wid.pack()
name_zone.add(name_wid)
#Create the cost ad star stringvar
#print int(floor(self.getCost()))
self.cost=StringVar()
self.stars=StringVar()
cost_wid=Label(None, textvariable=self.cost, background='red',width=5, anchor=W)
star_wid=Label(None, textvariable=self.stars, background='blue', anchor=E)
self.cost.set(str(int(floor(self.getCost()))))
self.stars.set("*"*self.getStars())
#Add them in name zone
name_zone.add(cost_wid)
name_zone.add(star_wid)
#Create an Image Zone
image_zone=Button(self.card_win, command=self.choosePhoto)
if hasattr(self,"photofile") and self.photofile :
print "Image: ",self.photofile
try :
img=Image.open(self.photofile)
except :
decomp=self.photofile.split('/')
for i in range(1,6) :
try :
fname="/".join(decomp[-i:])
print "try to open",fname
img=Image.open(fname)
self.photofile=fname
break
except :
self.photofile=None
if self.photofile :
w, h = img.size
if w>300 or h>200 :
img=img.resize((w/2,h/2),Image.LINEAR)
image_zone.image=ImageTk.PhotoImage(img)
image_zone.config(image=image_zone.image)
#print "IMAGE CHANGED"
else :
from os import path
name=self.name.replace(" ","_")
if path.isfile("Cards/"+name+".png") :
image_zone.config(text='image can be taken from\n'+"Cards/"+name+".png",background='white',anchor=CENTER)
else :
image_zone.config(text='clic to choose image',background='white',anchor=CENTER)
image_zone.pack
# POWER ZONE
power_zone=PanedWindow(self.card_win, orient=VERTICAL)
#fenetre=self.card_win.master
def removePowerCreator(px) :
def removePower(*args) :
#print 'avant',list_pow
self.bonus.remove(px)
#print 'apres',list_pow
#self.card_win.pack_forget()
self.refreshWidget()
return removePower
for p in self.bonus :
powline = PanedWindow(self.card_win, orient=HORIZONTAL)
pow_wid=p.initWidget(powline)
powline.add(pow_wid)
removepow=Button(powline, text="X", command=removePowerCreator(p), anchor=E)
removepow.pack()
powline.add(removepow)
power_zone.add(powline)
def addPower(*args) :
name=addBonus.get()
print "added :",name
import cardPowers
self.bonus+=[eval('cardPowers.'+name+'()')]
self.bonus[-1].parent=self.bonus
self.bonus[-1].card=self
#self.card_win.pack_forget()
self.refreshWidget()
#Add bonus Option menu
addBonus = StringVar(power_zone)
addBonus.set("add bonus") # default value
if not self.pv: addBonus_wid = getSpellMenu(power_zone, addBonus)
else: addBonus_wid = getBonusMenu(power_zone, addBonus)
addBonus.trace('w', addPower)
if self.pv>0 or len(self.bonus)==0 :
addBonus_wid.pack()
#Add this to power zone
power_zone.add(addBonus_wid)
#Create save zone
save_zone = PanedWindow(self.card_win, orient=HORIZONTAL)
if self.monster_type != "all":
save_wid = Button(save_zone, text="Save", command=self.postAndSave)
else:
save_wid = Button(save_zone, text="---", command=None)
save_wid.pack()
#Create the open button
save_zone.pack()
if Card.monster_list.keys():
self.opening = StringVar(save_zone)
self.opening.set("Open")
choice = Card.monster_list.keys()
choice.sort()
#print all_monsters.keys()
open_wid = OptionMenu(save_zone, self.opening,*choice)
self.opening.trace('w', self.Open)
open_wid.pack()
save_zone.add(open_wid)
if Card.monster_list.keys():
self.delete = StringVar(save_zone)
self.delete.set("Delete")
choice = Card.monster_list.keys()
choice.sort()
delete_wid = OptionMenu(save_zone, self.delete,*choice)
self.delete.trace('w', self.clicDelete)
delete_wid.pack()
save_zone.add(delete_wid)
#Create the type button
self.category = StringVar(save_zone)
self.category.set(self.monster_type)
choice = [t[t.index("\\")+1:t.index("_monsters.sav")] for t in glob.glob("CardFiles/*_monsters.sav")]
if "recup" in choice:
choice.remove("recup")
#print all_monsters.keys()
category_wid = OptionMenu(save_zone, self.category,*choice)
self.category.trace('w', self.setFile)
category_wid.pack()
#Add it to save zone
save_zone.add(save_wid)
save_zone.add(category_wid)
#Create a new Strength zone for att and pv
strength_zone=PanedWindow(self.card_win, orient=HORIZONTAL)
att=StringVar()
att.set(str(self.att))
pv=StringVar() ; pv.set(str(self.pv))
def modifiedAttPv(*args) :
self.pv=int(pv.get())
if self.pv<1 and self.is_spell==False :
if len(self.bonus)==0 :
self.is_spell=True
self.refreshWidget()
else :
self.pv=1
self.refreshWidget()
if self.pv>0 and self.is_spell==True :
if len(self.bonus)==0 :
self.is_spell=False
self.refreshWidget()
else :
self.pv=0
self.refreshWidget()
self.att=int(att.get())
self.getCost()
att_wid = Spinbox(strength_zone, from_=0, to=1000,textvariable=att,command=modifiedAttPv)
att_wid.pack()
strength_zone.add(att_wid)
strength_zone.add(Label(strength_zone, text=' ', background='white',
anchor=CENTER))
pv_wid = Spinbox(strength_zone, from_=0, to=1000,textvariable=pv,command=modifiedAttPv)
pv_wid.pack()
strength_zone.add(pv_wid)
#Put it all in window
self.card_win.add(name_zone)
self.card_win.add(image_zone)
self.card_win.add(power_zone)
self.card_win.add(strength_zone)
self.card_win.add(save_zone)
self.card_win.pack()
def createImage(self):
width=189*2; height=277*2
screen = pygame.display.set_mode((width,height))
print "Type = ",self.monster_type
if self.monster_type in all_backgrounds.keys():
try:
bg = pygame.image.load(all_backgrounds[self.monster_type])
except:
print "error (? when load of bg"
else:
bg = pygame.image.load('gameAnimationImages/Card_face_avant.gif')
#fond = PhotoImage(file =bg,master=fenetre)
#ligne1 = canvas.create_line(75, 0, 75, 120)
#ligne2 = canvas.create_line(0, 60, 150, 60)
if self.photofile :
try :
img=pygame.image.load(self.photofile)
except :
decomp=self.photofile.split('/')
for i in range(1,6) :
try :
fname="/".join(decomp[-i:])
print "try to open",fname
img=pygame.image.load(fname)
self.photofile=fname
break
except:
pass
img = pygame.image.load(self.photofile)
w, h = img.get_size()
factor=max(140.*2./w,90.*2./h)
img=pygame.transform.scale(img,(int(w*factor),int(h*factor)))
#fenetre.photo=PhotoImage(file=self.photofile,master=canvas)
#img=ImageTk.PhotoImage(img,master=fenetre)
screen.blit(img,(width/2.-w*factor/2.,140.-h*factor/4.))
else :
try :
name=self.name.replace(" ","_")
img=pygame.image.load("Cards/"+name+".png")
print "* Found for image ","Cards/"+name+".png"
screen.blit(img,(0,0))
except :
pass
screen.blit(bg,(0,0))
pygame.font.init()
#print pygame.font.get_fonts()
if self.monster_type in white_font_types:
color = (255,255,255)
else:
color = (0,0,0)
centerText(screen,(width/2.+10.,33.*2.),self.name,36-(len(self.name)>11)*(len(self.name)-11)/3,color)
#txt = canvas.create_text(101, 32, text=self.name, font=("Calibri",12-(len(self.name)>11)*(len(self.name)-11)/5,"bold"), anchor=CENTER)
if not(self.is_spell):
centerText(screen,(24*2.,258*2.),str(self.att),40,color)
centerText(screen,(169*2.,255*2.),str(self.pv),40,color)
else :
centerText(screen,(width/2.,265*2.),"SPELL",30,color)
#elif self.is_spell:
# txt = canvas.create_text(100,265, text="SPELL", anchor=CENTER, font=("Calibri",14,'bold'))
#txt = canvas.create_text(22,35, text=int(floor(self.getCost())), anchor=CENTER, font=("Calibri",18,'bold'))
centerText(screen,(22*2.,35*2.),str(int(floor(self.getCost()))),50,color)
#txt1 = canvas.create_text(92,257, text='*'*self.getStars(), anchor=CENTER, font=("Calibri",26,'bold'))
centerText(screen,(92*2.,257*2.),'*'*self.getStars(),60,color)
if not(self.monster_type == "unknown"):
if self.monster_type in all_type_colors:
Color = all_type_colors[self.monster_type]
else:
Color = "black"
else:
Color = "black"
centerText(screen,(95*2.,142*2.),self.monster_type.capitalize(),26,Color)
if len(self.bonus)>0 :
powers = "e%96".join([b.getDescription() for b in self.bonus])
powers = [p.split("\n") for p in powers.split("e%96")]
print "powers are ",powers
else :
powers =""
#print "POWERS = ", powers
if powers:
space=min([80., 160./sum([len(p)*3+2 for p in powers])])
print "Space: ",space
line = 0
for i,b in enumerate(powers):
size = min([36.,500./max([len(p) for p in b]) * 2.])
for x,part in enumerate(b):
centerText(screen,(90*2.,167*2.+line*space),part,int(size),color)
line += 3
line += 2
#canvas.pack()
#print "toto!"
pygame.display.flip()
return screen
def init_as_invocation(self,master):
# monster widget in invocation widget
#print "monster init_as_invocation"
self.content=StringVar()
self.content.set(self.name)
self.content.trace("w", self.is_changed_as_invocation)
l = Card.monster_list.keys()
"""
if self.parent.name in l:
l.remove(self.parent.name)
"""
self.widget=OptionMenu(master,self.content,*l)
return self.widget
def is_changed_as_invocation(self,*args):
print "monster is_changed_as_invocation"
if self.content.get()!= "Troll gris":
new= Card.monster_list[self.content.get()]
else:
new = Card("Troll gris",4,4)
#print self.content.get()
if self.parent :
#parent.spell=new
#print "self.parent = True"
self.parent.monster=new
new.parent = self.parent
new.card=self.card
else :
raise "ce cas existe ?! me dire comment"
self.bonus[self.bonus.index(self)]=new
#self.card_win.pack_forget()
self.card.refreshWidget()
def __init__(self, master, max_num_features, num_frames, mser_image):
Toplevel.__init__(self, master)
self.protocol('WM_DELETE_WINDOW', self.withdraw)
self.notebook = ttk.Notebook(self)
frame_feats = ttk.Frame(self.notebook)
frame_forest = ttk.Frame(self.notebook)
frame_mser = ttk.Frame(self.notebook)
frame_other = ttk.Frame(self.notebook)
self.notebook.add(frame_feats, text="Features ")
self.notebook.add(frame_forest, text=" Forest ")
self.notebook.add(frame_mser, text=" MSER ")
self.notebook.add(frame_other, text=" Other ")
self.max_num_feats = max_num_features
self.selection = None
self.mser_image = mser_image
rand_row = random.randint(1, 512-200)
rand_col = random.randint(1, 512-110)
self.mser_area = mser_image[rand_row:rand_row+180, rand_col:rand_col+100]
# read images from icons folder
self.hf0_img = PhotoImage(file="./icons/hf0.gif")
self.hf1_img = PhotoImage(file="./icons/hf1.gif")
self.hf2_img = PhotoImage(file="./icons/hf2.gif")
self.hf3_img = PhotoImage(file="./icons/hf3.gif")
self.hf4_img = PhotoImage(file="./icons/hf4.gif")
self.hf5_img = PhotoImage(file="./icons/hf5.gif")
self.features_vars = list()
for i in range(max_num_features):
self.features_vars.append(IntVar())
Label(frame_feats, text="Patch size (" + u"\N{GREEK SMALL LETTER PI}" + "):").grid(row=0, column=0, pady=5)
self.patch_size_spinbox = Spinbox(frame_feats, from_=3, to=30, width=3)
self.patch_size_spinbox.delete(0, END)
self.patch_size_spinbox.insert(END, 10)
self.patch_size_spinbox.grid(row=0, column=1, padx=5)
f1 = ttk.Labelframe(frame_feats, text='Mean filter')
f1.grid(row=1, columnspan=2)
Label(f1, text=u"\N{GREEK SMALL LETTER PI}").grid(row=0, column=0)
Checkbutton(f1, text="R", variable=self.features_vars[0]).grid(row=0, column=1)
Checkbutton(f1, text="G", variable=self.features_vars[1]).grid(row=0, column=2)
Checkbutton(f1, text="B", variable=self.features_vars[2]).grid(row=0, column=3)
Label(f1, text=u"\N{GREEK SMALL LETTER PI}" + "/2").grid(row=1, column=0)
Checkbutton(f1, text="R", variable=self.features_vars[3]).grid(row=1, column=1)
Checkbutton(f1, text="G", variable=self.features_vars[4]).grid(row=1, column=2)
Checkbutton(f1, text="B", variable=self.features_vars[5]).grid(row=1, column=3)
f2 = ttk.Labelframe(frame_feats, text="Gaussian filter")
f2.grid(row=2, columnspan=2)
Label(f2, text=str(1.0)).grid(row=0, column=0)
Checkbutton(f2, text="R", variable=self.features_vars[6]).grid(row=0, column=1)
Checkbutton(f2, text="G", variable=self.features_vars[7]).grid(row=0, column=2)
Checkbutton(f2, text="B", variable=self.features_vars[8]).grid(row=0, column=3)
Label(f2, text=str(3.5)).grid(row=1, column=0)
Checkbutton(f2, text="R", variable=self.features_vars[9]).grid(row=1, column=1)
Checkbutton(f2, text="G", variable=self.features_vars[10]).grid(row=1, column=2)
Checkbutton(f2, text="B", variable=self.features_vars[11]).grid(row=1, column=3)
f3 = ttk.Labelframe(frame_feats, text="Laplacian of gaussian")
f3.grid(row=3, columnspan=2)
Label(f3, text=str(2.0)).grid(row=0, column=0)
Checkbutton(f3, text="R", variable=self.features_vars[12]).grid(row=0, column=1)
Checkbutton(f3, text="G", variable=self.features_vars[13]).grid(row=0, column=2)
Checkbutton(f3, text="B", variable=self.features_vars[14]).grid(row=0, column=3)
Label(f3, text=str(3.5)).grid(row=1, column=0)
Checkbutton(f3, text="R", variable=self.features_vars[15]).grid(row=1, column=1)
Checkbutton(f3, text="G", variable=self.features_vars[16]).grid(row=1, column=2)
Checkbutton(f3, text="B", variable=self.features_vars[17]).grid(row=1, column=3)
f4 = ttk.Labelframe(frame_feats, text="Haar-like features")
f4.grid(row=1, rowspan=2, column=3, padx=5)
Checkbutton(f4, image=self.hf0_img, variable=self.features_vars[18]).grid(row=0, column=0)
Checkbutton(f4, image=self.hf1_img, variable=self.features_vars[19]).grid(row=0, column=1)
Checkbutton(f4, image=self.hf2_img, variable=self.features_vars[20]).grid(row=1, column=0)
Checkbutton(f4, image=self.hf3_img, variable=self.features_vars[21]).grid(row=1, column=1)
Checkbutton(f4, image=self.hf4_img, variable=self.features_vars[22]).grid(row=2, column=0)
Checkbutton(f4, image=self.hf5_img, variable=self.features_vars[23]).grid(row=2, column=1)
buttons_paned_window = PanedWindow(frame_feats, orient=VERTICAL)
buttons_paned_window.grid(row=3, column=3)
self.select_all_button = Button(buttons_paned_window, text="Select all", command=self._select_all)
buttons_paned_window.add(self.select_all_button)
self.clear_selection_button = Button(buttons_paned_window, text="Clear selection", command=self._clear_selection)
buttons_paned_window.add(self.clear_selection_button)
# default values
for j in [0, 1, 3, 6, 7, 9, 15, 21, 23]:
self.features_vars[j].set(1)
# FOREST FRAMES
# number of trees
f5 = ttk.Labelframe(frame_forest, text="Number of trees")
f5.grid(row=0, columnspan=2, pady=5, padx=5)
Label(f5, text="N").grid(row=1, column=0)
self.num_trees_scale = Scale(f5, from_=5, to=500, resolution=5, orient=HORIZONTAL)
self.num_trees_scale.set(300)
self.num_trees_scale.grid(row=0, column=1, rowspan=2)
# depth single tree
f6 = ttk.Labelframe(frame_forest, text="Depth single tree")
f6.grid(row=1, columnspan=2, pady=5, padx=5)
Label(f6, text="d").grid(row=1, column=0)
self.depth_tree_scale = Scale(f6, from_=2, to=20, orient=HORIZONTAL)
self.depth_tree_scale.set(3)
self.depth_tree_scale.grid(row=0, column=1, rowspan=2)
# percentage number of features
f7 = ttk.Labelframe(frame_forest, text="% subset of features")
f7.grid(row=2, columnspan=2, pady=5, padx=5)
Label(f7, text="m").grid(row=1, column=0)
self.percentage_feats_scale = Scale(f7, from_=0.0, to=1, resolution=0.05, orient=HORIZONTAL)
self.percentage_feats_scale.set(0.5)
self.percentage_feats_scale.grid(row=0, column=1, rowspan=2)
# mser frame
# delta
f8 = ttk.Labelframe(frame_mser, text="Delta")
f8.grid(row=0, columnspan=2, pady=5, padx=5)
Label(f8, text=u"\N{GREEK SMALL LETTER DELTA}").grid(row=1, column=0)
self.delta_scale = Scale(f8, from_=1, to=10, resolution=1, orient=HORIZONTAL)
self.delta_scale.set(2)
self.delta_scale.grid(row=0, column=1, rowspan=2)
# min area
f9 = ttk.Labelframe(frame_mser, text="Minimum area")
f9.grid(row=1, columnspan=2, pady=5, padx=5)
Label(f9, text="m").grid(row=1, column=0)
self.min_area_scale = Scale(f9, from_=2, to=200, orient=HORIZONTAL)
self.min_area_scale.set(10)
self.min_area_scale.grid(row=0, column=1, rowspan=2)
# percentage number of features
f10 = ttk.Labelframe(frame_mser, text="Maximum area")
f10.grid(row=2, columnspan=2, pady=5, padx=5)
Label(f10, text="M").grid(row=1, column=0)
self.max_area_scale = Scale(f10, from_=50, to=1000, resolution=5, orient=HORIZONTAL)
self.max_area_scale.set(350)
self.max_area_scale.grid(row=0, column=1, rowspan=2)
# mser image
f11 = ttk.Labelframe(frame_mser)
f11.grid(row=0, rowspan=3, column=2, padx=5)
self.mser_img_array = Image.fromarray(self.mser_area, "RGB")
self.mser_img = ImageTk.PhotoImage(self.mser_img_array)
img_label = Label(f11, image=self.mser_img)
img_label.grid(row=0, column=0)
buttons_p_w_mser = PanedWindow(f11, orient=HORIZONTAL)
try_button = Button(f11, text="Try", command=self.try_mser)
buttons_p_w_mser.add(try_button)
change_button = Button(f11, text="New img", command=self.change_mser)
buttons_p_w_mser.add(change_button)
buttons_p_w_mser.grid(row=1, column=0)
# other frame
f12 = ttk.Labelframe(frame_other, text="Refinement")
f12.grid(row=0, columnspan=2, pady=5, padx=5)
Label(f12, text=u"\N{GREEK CAPITAL LETTER PHI}_l").grid(row=1, column=0)
self.low_thresh_scale = Scale(f12, from_=0, to=1, resolution=0.05, orient=HORIZONTAL, length=90)
self.low_thresh_scale.set(0.45)
self.low_thresh_scale.grid(row=0, column=1, rowspan=2)
Label(f12, text=u"\N{GREEK CAPITAL LETTER PHI}_h").grid(row=3, column=0)
self.high_thresh_scale = Scale(f12, from_=0, to=1, resolution=0.05, orient=HORIZONTAL, length=90)
self.high_thresh_scale.set(0.65)
self.high_thresh_scale.grid(row=2, column=1, rowspan=2)
f13 = ttk.Labelframe(frame_other, text="Dots distance")
f13.grid(row=1, columnspan=2, pady=5, padx=5)
Label(f13, text=u" \N{GREEK SMALL LETTER SIGMA}").grid(row=1, column=0)
self.dots_distance_scale = Scale(f13, from_=1, to=20, resolution=1, orient=HORIZONTAL, length=90)
self.dots_distance_scale.set(6)
self.dots_distance_scale.grid(row=0, column=1, rowspan=2)
f14 = ttk.Labelframe(frame_other, text="Tracks")
f14.grid(row=0, column=3, pady=5, padx=5)
Label(f14, text="N").grid(row=1, column=0)
self.num_frames_tracks_spinbox = Spinbox(f14, from_=2, to=num_frames, width=10)
self.num_frames_tracks_spinbox.delete(0, END)
self.num_frames_tracks_spinbox.insert(END, num_frames)
self.num_frames_tracks_spinbox.grid(row=0, column=1, rowspan=2)
Label(f14, text=u"\N{GREEK SMALL LETTER TAU}").grid(row=3, column=0)
self.gaps_scale = Scale(f14, from_=1, to=10, resolution=1, orient=HORIZONTAL, length=90)
self.gaps_scale.set(2)
self.gaps_scale.grid(row=2, column=1, rowspan=2)
self.notebook.pack(padx=1, pady=1)
save_button = Button(self, text=" Save and Close window ", command=self.withdraw)
save_button.pack(pady=2)
def __init__(self, r):
self.load_img = ImageTk.PhotoImage(file=PATH + '/ico/load.png')
self.save_img = ImageTk.PhotoImage(file=PATH + '/ico/save.png')
self.__root = r # Root of program
self.__file = '' # Current file in use
self.xrange = self.yrange = (0, 1000
) # X and Y range for scrolling plot
self.panx = self.pany = 0 # Pan values for shifting map
self.plot = Plot.baseplot # Current selected plot
self.__label_file_dialog = None
self.new_file_flag = False
self.option_menu = None
self.shape_var = StringVar()
self.__data_block = LoadData('Empty')
self.plot_type = IntVar()
self.width = self.__root.winfo_screenwidth()
self.height = self.__root.winfo_screenheight()
logger.info('Screen resolution: ' + str(self.width) + 'x' +
str(self.height))
base_pane = PanedWindow()
base_pane.pack(fill=BOTH, expand=1)
sectioned_pane = PanedWindow(orient=VERTICAL)
base_pane.add(sectioned_pane)
top_paned_window = PanedWindow(sectioned_pane, orient=HORIZONTAL)
sectioned_pane.add(top_paned_window)
# Frame to hold dialog for browsing files
self.__dialog_frame = Frame(top_paned_window)
self.__dialog_frame.pack(side=LEFT)
self.__dialog_shape_frame = Frame(top_paned_window)
self.__dialog_shape_frame.pack(side=RIGHT)
# Bottom half the screen
bottom_paned_window = PanedWindow(sectioned_pane)
sectioned_pane.add(bottom_paned_window)
# The frame on which we will set out canvas for drawing etc.
self.__drawplot_frame = Frame(bottom_paned_window,
width=constants.WIDTH,
height=constants.HEIGHT)
# Matplotlib backend objects
self.__parent_fig = Figure(figsize=(16, 11))
self.__fig = self.__parent_fig.add_subplot(1, 1, 1)
self.__parent_fig.set_tight_layout(True)
self.__drawplot_canvas = FigureCanvasTkAgg(
self.__parent_fig, master=self.__drawplot_frame)
# Create ToolsWindow class and pass itself + the root
logger.info('Creating ToolsWindow')
self.__child = ToolsWindow(self.__drawplot_canvas, self, r)
logger.info('Creating ShapeManager')
self.__shapemanager = ShapeManager(self.__fig, self.__drawplot_canvas,
self)
logger.info('Binding matplotlib backend to canvas and frame')
self.__toolbar = NavigationToolbar2CALIPSO(
self, self.__drawplot_canvas, self.__child.coordinate_frame)
# pack and display canvas
self.__drawplot_canvas.get_tk_widget().pack(side=TOP,
fill=BOTH,
expand=1)
self.__drawplot_frame.pack()
self.__root.protocol('WM_DELETE_WINDOW', self.close)
def create_menu_bar(self):
"""
Создаёт линейку для меню программы.
"""
def create_mnu_file():
"""
Создаёт меню файл.
"""
self.btn_file = Menubutton(self.pnl_menu, text=LANG_RU['mnu_file'],
border=3, relief='groove')
self.mnu_file = Menu(self.btn_file)
self.btn_file.config(menu=self.mnu_file)
self.mnu_file.add_command(label=LANG_RU['mnuFile_New'],
accelerator='Ctrl+N')
self.mnu_file.add_command(label=LANG_RU['mnuFile_Open'],
accelerator='Ctrl+O')
self.mnu_file.add_separator()
self.mnu_file.add_command(label=LANG_RU['mnuFile_Save'],
accelerator='Ctrl+S')
self.mnu_file.add_command(label=LANG_RU['mnuFile_SaveAs'])
self.mnu_file.add_separator()
self.mnu_file.add_command(label=LANG_RU['mnuFile_Print'],
accelerator='Ctrl+P')
self.mnu_file.add_separator()
self.mnu_file.add_command(label=LANG_RU['mnuFile_Exit'],
accelerator='Ctrl+Q')
self.btn_file.pack(side='left')
def create_mnu_edit():
"""
Создаёт меню "Правка".
"""
self.btn_edit = Menubutton(self.pnl_menu,
text=LANG_RU['mnu_edit'],
border=3,
relief='groove')
self.mnu_edit = Menu(self.btn_edit)
self.btn_edit.config(menu=self.mnu_edit)
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Undo'],
accelerator='Ctrl+Z')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Redo'])
self.mnu_edit.add_separator()
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Copy'],
accelerator='Ctrl+C')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Cut'],
accelerator='Ctrl+X')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Paste'],
accelerator='Ctrl+V')
self.mnu_edit.add_separator()
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Find'],
accelerator='Ctrl+F')
self.mnu_edit.add_command(label=LANG_RU['mnuEdit_Replace'],
accelerator='Ctrl+R')
self.btn_edit.pack(side='left')
def create_mnu_custom():
"""
Создаёт меню нстроек.
"""
self.btn_custom = Menubutton(self.pnl_menu, text='mnu_custom',
border=3, relief='groove')
self.mnu_custom = Menu(self.btn_custom)
self.btn_custom.config(menu=self.mnu_custom)
self.mnu_custom.add_command(label='Type files',
accelerator='Ctrl+D')
self.mnu_custom.add_command(label='--1')
self.mnu_custom.add_separator()
self.mnu_custom.add_command(label='--2', accelerator='---')
self.mnu_custom.add_command(label='--3', accelerator='---')
self.mnu_custom.add_command(label='--4', accelerator='---')
self.mnu_custom.add_separator()
self.btn_custom.pack(side='left')
def create_mnu_help():
"""
Создаёт меню "Справка".
"""
self.btn_help = Menubutton(self.pnl_menu,
text='mnu_help',
border=3,
relief='groove')
self.mnu_help = Menu(self.btn_help)
self.btn_help.config(menu=self.mnu_help)
self.mnu_help.add_command(label='Type files', accelerator='Ctrl+D')
self.mnu_help.add_command(label='--1')
self.mnu_custom.add_separator()
self.btn_help.pack(side='left')
self.pnl_menu = PanedWindow(self.frm_up, border=2, relief='raised')
create_mnu_file()
create_mnu_edit()
create_mnu_custom()
create_mnu_help()
self.pnl_menu.pack(side='left', expand=1, fill='x')
def _update_position_all_handles(self):
for sash_index, handle in enumerate(self._handle_list):
x, y = Tk_PanedWindow.sash_coord(self, sash_index)
handle.place(x=x)
def BuildMainFrame(self):
from Tkinter import Menu, IntVar, StringVar, Toplevel, Listbox, Frame, PanedWindow, Text, Scrollbar, Entry
from Tkinter import X, N, S, W, E, VERTICAL, TOP, END, DISABLED, RAISED
menu = Menu(self.master,activeborderwidth=0,bd=0)
self.master.config(menu=menu)
filemenu = Menu(menu,tearoff=0,bd=1,activeborderwidth=0)
menu.add_cascade(label="File", underline=0, menu=filemenu)
filemenu.add_command(label="New", accelerator='Ctrl+N',command=self.NewCommand)
filemenu.add_command(label="Open...",accelerator='Ctrl+O', command=self.OpenCommand)
filemenu.add_command(label="Save as...",accelerator='Ctrl+S', command=self.SaveCommand)
filemenu.add_separator()
filemenu.add_command(label="Quit",accelerator='Ctrl+Q', command=self.QuitCommand)
self.log_on = IntVar()
self.log_on.set(1)
self.output_to_file = StringVar()
self.output_to_file.set('n')
scriptmenu = Menu(menu,tearoff=0,bd=1,activeborderwidth=0)
modulenames = ['vmtkscripts']
for modulename in modulenames:
scriptsubmenu = self.BuildScriptMenu(menu,modulename)
if scriptsubmenu:
scriptmenu.add_cascade(label=modulename,menu=scriptsubmenu)
editmenu = Menu(menu,tearoff=0,bd=1,activeborderwidth=0)
menu.add_cascade(label="Edit",underline=0, menu=editmenu)
editmenu.add_cascade(label="Insert script",menu=scriptmenu)
editmenu.add_command(label="Insert file name", accelerator='Ctrl+F',command=self.InsertFileName)
editmenu.add_separator()
editmenu.add_command(label="Clear input", command=self.ClearInputCommand)
editmenu.add_command(label="Clear output", command=self.ClearOutputCommand)
editmenu.add_command(label="Clear all", command=self.ClearAllCommand)
editmenu.add_separator()
editmenu.add_checkbutton(label="Log", variable=self.log_on)
editmenu.add_separator()
editmenu.add_radiobutton(label="No output to file", variable=self.output_to_file,value='n')
editmenu.add_radiobutton(label="Write output to file", variable=self.output_to_file,value='w')
editmenu.add_radiobutton(label="Append output to file", variable=self.output_to_file,value='a')
editmenu.add_command(label="Output file...", command=self.OutputFileCommand)
runmenu = Menu(menu,tearoff=0,bd=1,activeborderwidth=0)
menu.add_cascade(label="Run", underline=0, menu=runmenu)
runmenu.add_command(label="Run all", command=self.RunAllCommand)
runmenu.add_command(label="Run current line", command=self.RunLineCommand)
runmenu.add_command(label="Run selection", command=self.RunSelectionCommand)
helpmenu = Menu(menu,tearoff=0,bd=1,activeborderwidth=0)
menu.add_cascade(label="Help", underline=0, menu=helpmenu)
helpmenu.add_command(label="Help", underline=0, accelerator='F1',command=self.ShowHelpCommand)
helpmenu.add_command(label="About", underline=0, command=self.AboutCommand)
self.master.bind("<Control-KeyPress-q>", self.QuitHandler)
self.master.bind("<Control-KeyPress-n>", self.NewHandler)
self.master.bind("<Control-KeyPress-o>", self.OpenHandler)
self.master.bind("<Control-KeyPress-s>", self.SaveHandler)
self.master.bind("<Control-KeyPress-f>", self.InsertFileNameHandler)
self.master.bind("<KeyPress-F1>", self.ShowHelpHandler)
self.master.bind("<KeyPress>", self.KeyPressHandler)
self.wordIndex = ['1.0','1.0']
self.suggestionswindow = Toplevel(bg='#ffffff',bd=0,height=50,width=600,highlightthickness=0,takefocus=True)
self.suggestionswindow.overrideredirect(1)
self.suggestionslist = Listbox(self.suggestionswindow,bg='#ffffff',bd=1,fg='#336699',activestyle='none',highlightthickness=0,height=9)
self.suggestionslist.insert(END,"foo")
self.suggestionslist.pack(side=TOP,fill=X)
self.suggestionswindow.bind("<KeyPress>", self.TopKeyPressHandler)
self.suggestionswindow.withdraw()
self.master.rowconfigure(0,weight=1)
self.master.columnconfigure(0,weight=1)
content = Frame(self.master,bd=0,padx=2,pady=2)
content.grid(row=0,column=0,sticky=N+S+W+E)
content.rowconfigure(0,weight=1,minsize=50)
content.rowconfigure(1,weight=0)
content.columnconfigure(0,weight=1)
panes = PanedWindow(content,orient=VERTICAL,bd=1,sashwidth=8,sashpad=0,sashrelief=RAISED,showhandle=True)
panes.grid(row=0,column=0,sticky=N+S+W+E)
frame1 = Frame(panes,bd=0)
frame1.grid(row=0,column=0,sticky=N+S+W+E)
frame1.columnconfigure(0,weight=1)
frame1.columnconfigure(1,weight=0)
frame1.rowconfigure(0,weight=1)
panes.add(frame1,height=300,minsize=20)
frame2 = Frame(panes,bd=0)
frame2.grid(row=1,column=0,sticky=N+S+W+E)
frame2.columnconfigure(0,weight=1)
frame2.columnconfigure(1,weight=0)
frame2.rowconfigure(0,weight=1)
panes.add(frame2,minsize=20)
self.text_input = Text(frame1, bg='#ffffff',bd=1,highlightthickness=0)
self.text_input.bind("<KeyPress>", self.KeyPressHandler)
self.text_input.bind("<Button-3>", self.PopupHandler)
self.text_input.bind("<Control-Return>", self.RunKeyboardHandler)
self.input_scrollbar = Scrollbar(frame1,orient=VERTICAL,command=self.text_input.yview)
self.text_input["yscrollcommand"] = self.input_scrollbar.set
self.text_output = Text(frame2,state=DISABLED,bd=1,bg='#ffffff',highlightthickness=0)
self.output_scrollbar = Scrollbar(frame2,orient=VERTICAL,command=self.text_output.yview)
self.text_output["yscrollcommand"] = self.output_scrollbar.set
self.text_entry = Entry(content,bd=1,bg='#ffffff',state=DISABLED,highlightthickness=0)
self.text_input.focus_set()
self.text_input.grid(row=0,column=0,sticky=N+S+W+E)
self.input_scrollbar.grid(row=0,column=1,sticky=N+S+W+E)
self.text_output.grid(row=0,column=0,sticky=N+S+W+E)
self.output_scrollbar.grid(row=0,column=1,sticky=N+S+W+E)
self.text_entry.grid(row=1,column=0,sticky=N+S+W+E)
self.popupmenu = Menu(self.text_input, tearoff=1, bd=0)
self.popupmenu.add_command(label="Context help", command=self.ShowHelpCommand)
self.popupmenu.add_cascade(label="Insert script",menu=scriptmenu)
self.popupmenu.add_command(label="Insert file name...", command=self.InsertFileName)
self.popupmenu.add_separator()
self.popupmenu.add_command(label="Run all", command=self.RunAllCommand)
self.popupmenu.add_command(label="Run current line", command=self.RunLineCommand)
self.popupmenu.add_command(label="Run selection", command=self.RunSelectionCommand)
self.output_stream = TkPadOutputStream(self.text_output)
self.input_stream = TkPadInputStream(self.text_entry,self.output_stream)
class MainWindow(Frame):
def __init__(self, **kw):
Frame.__init__(self, **kw)
self.winfo_toplevel().minsize(width=800, height=480)
self.pack(expand=True, fill='both')
self._init_variables()
self._init_components()
self._init_menu()
def _init_components(self):
self._panes = PanedWindow(self,
orient='horizontal',
sashrelief="raised")
self._panes.pack(expand=True, fill='both')
self._left_pane = Frame(self._panes)
self._right_pane = PanedWindow(self._panes)
self._panes.add(self._left_pane, sticky='n')
self._panes.add(self._right_pane)
self._group_select = GroupSelect(self._left_pane)
self._group_select.pack(expand=True, fill='x')
self._show_graph_checkbutton = CheckBox(self._left_pane,
text='Show graph')
self._show_graph_checkbutton.select()
self._show_graph_checkbutton.pack()
self._go_button = Button(self._left_pane, text='Go', command=self._go)
self._go_button.pack()
def _init_variables(self):
# init default properties
self.setvar("graphframeview", "onlyone")
self.setvar("vertexlabelposition", "auto")
def _init_menu(self):
toplevel = self.winfo_toplevel()
self._menu = Menu(toplevel)
toplevel['menu'] = self._menu
view = Menu(self._menu, tearoff=0)
self._menu.add_cascade(label="View", menu=view)
graph_view = Menu(view, tearoff=0)
view.add_cascade(label="View graphs", menu=graph_view)
graph_view.add_radiobutton(label="Only one",
value="onlyone",
variable="graphframeview")
# graph_view.add_radiobutton(label="In a row", value="row",
# variable=graph_view_var)
graph_view.add_radiobutton(label="In separate window",
value="window",
variable="graphframeview")
def _go(self):
view = self.getvar("graphframeview")
if view == "onlyone":
for child in self._right_pane.winfo_children():
child.destroy()
#if view in ("onlyone", "row"):
container = FrameWithCloseButton(self._right_pane)
self._right_pane.add(container, minsize=600)
else:
container = Toplevel()
facade = Facade(container,
self._group_select.selected_group,
show_graph=self._show_graph_checkbutton.is_selected())
facade.pack(expand=True, fill='both')
def _update_position_all_handles(self):
for sash_index, handle in enumerate(self._handle_list):
x,y = Tk_PanedWindow.sash_coord(self, sash_index)
handle.place(x=x)
def _on_configure_pane(self, sash_index):
x,y = Tk_PanedWindow.sash_coord(self, sash_index)
self._handle_list[sash_index].place(x=x)
def BuildMainFrame(self):
from Tkinter import Menu, IntVar, StringVar, Toplevel, Listbox, Frame, PanedWindow, Text, Scrollbar, Entry
from Tkinter import X, N, S, W, E, VERTICAL, TOP, END, DISABLED, RAISED
menu = Menu(self.master, activeborderwidth=0, bd=0)
self.master.config(menu=menu)
filemenu = Menu(menu, tearoff=0, bd=1, activeborderwidth=0)
menu.add_cascade(label="File", underline=0, menu=filemenu)
filemenu.add_command(label="New",
accelerator='Ctrl+N',
command=self.NewCommand)
filemenu.add_command(label="Open...",
accelerator='Ctrl+O',
command=self.OpenCommand)
filemenu.add_command(label="Save as...",
accelerator='Ctrl+S',
command=self.SaveCommand)
filemenu.add_separator()
filemenu.add_command(label="Quit",
accelerator='Ctrl+Q',
command=self.QuitCommand)
self.log_on = IntVar()
self.log_on.set(1)
self.output_to_file = StringVar()
self.output_to_file.set('n')
scriptmenu = Menu(menu, tearoff=0, bd=1, activeborderwidth=0)
modulenames = ['vmtkscripts']
for modulename in modulenames:
scriptsubmenu = self.BuildScriptMenu(menu, modulename)
if scriptsubmenu:
scriptmenu.add_cascade(label=modulename, menu=scriptsubmenu)
editmenu = Menu(menu, tearoff=0, bd=1, activeborderwidth=0)
menu.add_cascade(label="Edit", underline=0, menu=editmenu)
editmenu.add_cascade(label="Insert script", menu=scriptmenu)
editmenu.add_command(label="Insert file name",
accelerator='Ctrl+F',
command=self.InsertFileName)
editmenu.add_separator()
editmenu.add_command(label="Clear input",
command=self.ClearInputCommand)
editmenu.add_command(label="Clear output",
command=self.ClearOutputCommand)
editmenu.add_command(label="Clear all", command=self.ClearAllCommand)
editmenu.add_separator()
editmenu.add_checkbutton(label="Log", variable=self.log_on)
editmenu.add_separator()
editmenu.add_radiobutton(label="No output to file",
variable=self.output_to_file,
value='n')
editmenu.add_radiobutton(label="Write output to file",
variable=self.output_to_file,
value='w')
editmenu.add_radiobutton(label="Append output to file",
variable=self.output_to_file,
value='a')
editmenu.add_command(label="Output file...",
command=self.OutputFileCommand)
runmenu = Menu(menu, tearoff=0, bd=1, activeborderwidth=0)
menu.add_cascade(label="Run", underline=0, menu=runmenu)
runmenu.add_command(label="Run all", command=self.RunAllCommand)
runmenu.add_command(label="Run current line",
command=self.RunLineCommand)
runmenu.add_command(label="Run selection",
command=self.RunSelectionCommand)
helpmenu = Menu(menu, tearoff=0, bd=1, activeborderwidth=0)
menu.add_cascade(label="Help", underline=0, menu=helpmenu)
helpmenu.add_command(label="Help",
underline=0,
accelerator='F1',
command=self.ShowHelpCommand)
helpmenu.add_command(label="About",
underline=0,
command=self.AboutCommand)
self.master.bind("<Control-KeyPress-q>", self.QuitHandler)
self.master.bind("<Control-KeyPress-n>", self.NewHandler)
self.master.bind("<Control-KeyPress-o>", self.OpenHandler)
self.master.bind("<Control-KeyPress-s>", self.SaveHandler)
self.master.bind("<Control-KeyPress-f>", self.InsertFileNameHandler)
self.master.bind("<KeyPress-F1>", self.ShowHelpHandler)
self.master.bind("<KeyPress>", self.KeyPressHandler)
self.wordIndex = ['1.0', '1.0']
self.suggestionswindow = Toplevel(bg='#ffffff',
bd=0,
height=50,
width=600,
highlightthickness=0,
takefocus=True)
self.suggestionswindow.overrideredirect(1)
self.suggestionslist = Listbox(self.suggestionswindow,
bg='#ffffff',
bd=1,
fg='#336699',
activestyle='none',
highlightthickness=0,
height=9)
self.suggestionslist.insert(END, "foo")
self.suggestionslist.pack(side=TOP, fill=X)
self.suggestionswindow.bind("<KeyPress>", self.TopKeyPressHandler)
self.suggestionswindow.withdraw()
self.master.rowconfigure(0, weight=1)
self.master.columnconfigure(0, weight=1)
content = Frame(self.master, bd=0, padx=2, pady=2)
content.grid(row=0, column=0, sticky=N + S + W + E)
content.rowconfigure(0, weight=1, minsize=50)
content.rowconfigure(1, weight=0)
content.columnconfigure(0, weight=1)
panes = PanedWindow(content,
orient=VERTICAL,
bd=1,
sashwidth=8,
sashpad=0,
sashrelief=RAISED,
showhandle=True)
panes.grid(row=0, column=0, sticky=N + S + W + E)
frame1 = Frame(panes, bd=0)
frame1.grid(row=0, column=0, sticky=N + S + W + E)
frame1.columnconfigure(0, weight=1)
frame1.columnconfigure(1, weight=0)
frame1.rowconfigure(0, weight=1)
panes.add(frame1, height=300, minsize=20)
frame2 = Frame(panes, bd=0)
frame2.grid(row=1, column=0, sticky=N + S + W + E)
frame2.columnconfigure(0, weight=1)
frame2.columnconfigure(1, weight=0)
frame2.rowconfigure(0, weight=1)
panes.add(frame2, minsize=20)
self.text_input = Text(frame1,
bg='#ffffff',
bd=1,
highlightthickness=0)
self.text_input.bind("<KeyPress>", self.KeyPressHandler)
self.text_input.bind("<Button-3>", self.PopupHandler)
self.text_input.bind("<Control-Return>", self.RunKeyboardHandler)
self.input_scrollbar = Scrollbar(frame1,
orient=VERTICAL,
command=self.text_input.yview)
self.text_input["yscrollcommand"] = self.input_scrollbar.set
self.text_output = Text(frame2,
state=DISABLED,
bd=1,
bg='#ffffff',
highlightthickness=0)
self.output_scrollbar = Scrollbar(frame2,
orient=VERTICAL,
command=self.text_output.yview)
self.text_output["yscrollcommand"] = self.output_scrollbar.set
self.text_entry = Entry(content,
bd=1,
bg='#ffffff',
state=DISABLED,
highlightthickness=0)
self.text_input.focus_set()
self.text_input.grid(row=0, column=0, sticky=N + S + W + E)
self.input_scrollbar.grid(row=0, column=1, sticky=N + S + W + E)
self.text_output.grid(row=0, column=0, sticky=N + S + W + E)
self.output_scrollbar.grid(row=0, column=1, sticky=N + S + W + E)
self.text_entry.grid(row=1, column=0, sticky=N + S + W + E)
self.popupmenu = Menu(self.text_input, tearoff=1, bd=0)
self.popupmenu.add_command(label="Context help",
command=self.ShowHelpCommand)
self.popupmenu.add_cascade(label="Insert script", menu=scriptmenu)
self.popupmenu.add_command(label="Insert file name...",
command=self.InsertFileName)
self.popupmenu.add_separator()
self.popupmenu.add_command(label="Run all", command=self.RunAllCommand)
self.popupmenu.add_command(label="Run current line",
command=self.RunLineCommand)
self.popupmenu.add_command(label="Run selection",
command=self.RunSelectionCommand)
self.output_stream = TkPadOutputStream(self.text_output)
self.input_stream = TkPadInputStream(self.text_entry,
self.output_stream)
def __init__(self):
Game.__init__(self)
import socket
self.local = self.host = socket.gethostbyname(
socket.gethostname()) # Get local machine ip
from Tkinter import Tk, PanedWindow, StringVar, Entry, Button, VERTICAL, HORIZONTAL, Label
fenetre = Tk()
fenetre.title('Socket parameters')
self.netgame_win = PanedWindow(fenetre, orient=VERTICAL)
host_zone = PanedWindow(self.netgame_win, orient=HORIZONTAL)
host = StringVar()
host.set(self.local)
def modifHost(*args):
self.host = host.get()
if self.local == self.host:
start_button.config(text="Create")
else:
start_button.config(text="Join")
host.trace("w", modifHost)
host_wid = Entry(host_zone, width=30, textvariable=host)
host_wid.pack()
host_label = Label(fenetre, text="Host (you are " + self.local + ") :")
host_zone.add(host_label)
host_zone.add(host_wid)
self.netgame_win.add(host_zone)
port_zone = PanedWindow(self.netgame_win, orient=HORIZONTAL)
port = StringVar()
self.port = 52333
port.set(str(self.port))
# adress_wid=Label(None, textvariable=self.cost, background='red',width=5, anchor=W)
def modifPort(*args):
self.port = port.get()
port.trace("w", modifPort)
port_wid = Entry(port_zone, width=30, textvariable=port)
port_wid.pack()
port_label = Label(fenetre, text="Port :")
port_zone.add(port_label)
port_zone.add(port_wid)
self.netgame_win.add(port_zone)
#Create the open button
def start():
fenetre.destroy()
start_button = Button(self.netgame_win, text="Create", command=start)
self.netgame_win.add(start_button)
self.netgame_win.pack()
fenetre.focus_set()
start_button.focus()
fenetre.mainloop()
# Import socket module
self.soc = socket.socket() # Reserve a port for your service.
if self.local == self.host:
self.soc.bind((self.host, self.port)) # Bind to the port
print "socket listening"
self.soc.listen(5) # Now wait for client connection.
self.soc, addr = self.soc.accept(
) # Establish connection with client.
print 'Got connection from', addr
#self.soc.send('Thank you for connecting')
#c.close() # Close the connection
self.firstplayer = choice([1, 2])
print "FIRST PLAYER IS", 1
self.soc.send(str(3 - self.firstplayer))
else:
self.soc.connect((self.host, self.port))
print "connect ok"
p = self.soc.recv(1024)
try:
self.firstplayer = int(p)
except:
print "error concerning first player, got ", p
