Exemple #1
0
    def __init__(self, master,
            id_priority_sort_function = lambda ids : ids,
            mesh_step = 20
        ):

        GUIFrame.__init__ (self, master)
        self.canvas = Canvas (self, 
            width = 100, # default width
            height = 100, # default height
            relief = RIDGE,
            background = "white",
            borderwidth = 1
        )

        self.canvas.pack(expand = 1, fill = BOTH)

        self.align = False
        self.mesh_step = IntVar(value = mesh_step)
        self.dragging = False
        self.off = None
        self.canvas.bind("<ButtonPress-1>", self.down, "+")
        self.canvas.bind("<ButtonRelease-1>", self.up, "+")
        self.canvas.bind("<Motion>", self.motion, "+")

        self.id_priority_sort_function = id_priority_sort_function
Exemple #2
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 def configure(self, **kw):
     if "xscrollcommand" in kw:
         self._xscrollcommand = kw.pop("xscrollcommand")
     if "yscrollcommand" in kw:
         self._yscrollcommand = kw.pop("yscrollcommand")
     if kw:
         Canvas.configure(self, **kw)
class DoubleScrollbarFrame(Frame):
    def __init__(self, master, **kwargs):
        '''
          Initialisation. The DoubleScrollbarFrame consist of :
            - an horizontal scrollbar
            - a  vertical   scrollbar
            - a canvas in which the user can place sub-elements
        '''

        Frame.__init__(self, master, **kwargs)

        # Canvas creation with double scrollbar
        self.hscrollbar = Scrollbar(self, orient=HORIZONTAL)
        self.vscrollbar = Scrollbar(self, orient=VERTICAL)
        self.sizegrip = Sizegrip(self)
        self.canvas = Canvas(self,
                             bd=0,
                             highlightthickness=0,
                             yscrollcommand=self.vscrollbar.set,
                             xscrollcommand=self.hscrollbar.set)
        self.vscrollbar.config(command=self.canvas.yview)
        self.hscrollbar.config(command=self.canvas.xview)

    def pack(self, **kwargs):
        '''
          Pack the scrollbar and canvas correctly in order to recreate the
          same look as MFC's windows.
        '''

        self.hscrollbar.pack(side=BOTTOM, fill=X, expand=FALSE)
        self.vscrollbar.pack(side=RIGHT, fill=Y, expand=FALSE)
        self.sizegrip.pack(in_=self.hscrollbar, side=BOTTOM, anchor="se")
        self.canvas.pack(side=LEFT, padx=5, pady=5, fill=BOTH, expand=TRUE)

        Frame.pack(self, **kwargs)
Exemple #4
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    def __init__(self, master, **kw):
        kw.setdefault("background", "white")
        self._xscrollcommand = kw.pop("xscrollcommand", None)
        self._yscrollcommand = kw.pop("yscrollcommand", None)
        self._encoding = kw.pop("encoding", "utf-8")
        self._encoding_errors = kw.pop("encoding_errors", "replace")
        stream = kw.pop("stream", None)

        Canvas.__init__(self, master, **kw)

        self.bind("<Configure>", self._on_configure, "+")
        bind_mouse_wheel(self, self._on_mouse_wheel)

        self.bind("<Enter>", self._on_enter, "+")

        self.bind("<Prior>", self._on_prior, "+") # Page Up
        self.bind("<Next>", self._on_next, "+") # Page Down

        self._var_total_lines = total_var = IntVar(self)
        total_var.set(0)
        # Contains showed line number. It's one greater than internally used
        # index of line.
        self._var_lineno = lineno_var = IntVar(self)
        lineno_var.set(1)

        # TODO: make it configurable
        fonts = [
            Font(font = ("Courier", 10, NORMAL)),
            Font(font = ("Courier", 10, BOLD)),
        ]
        self._main_font, self._lineno_font = fonts
        self._linespace = max(f.metrics("linespace") for f in fonts)
        # Note, padding space is used for selected lines highlighting.
        self._ylinepadding = 1
        self._lineno_padding = 10
        self._page_size = 100 # in lines
        self._page_width = 0 # in Canvas units
        self._x_offset = 0
        self._index = None # index of lines offsets

        self._stream = None
        # trigger the property
        self.stream = stream

        self._state = None

        # Selection is defined by two tuples: (lineidx, charidx)
        self._sel_start = None # first selected char
        self._sel_limit = None # a char immediately after last selected one
        self.selection_threshold = 10

        self.bind("<ButtonPress-1>", self._on_bt1_press, "+")
        self.bind("<ButtonRelease-1>", self._on_bt1_release, "+")
        self.bind("<Motion>", self._on_motion, "+")

        self.bind("<Control-Key>", self._on_ctrl_key, "+")
 def _create_ui(self):
     '''Create all UI widgets.'''
 
     #self._l = Label(self, text="My Ships")
     #self._l.grid(row=0)
     self._c = Canvas(self)
     self._c.grid(row=1)
     
     self._create_ships()
     
     self.pack_ui()
    def _create_ui(self):
        '''Create all UI objects.'''

        #self._tl = Label(self, text="Staged Ship", f)
        self._sl = Label(self, textvariable=self._ship_name)
        self._c = Canvas(self)
        self._c.config(width=self.CANVAS_WIDTH)
        self._rb = Button(self,
                          text="Rotate",
                          command=self.rotate_current_ship)

        self.pack_ui()
Exemple #7
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 def __init__(self, master, home=False):
     '''Create a new grid. home determines if this is your grid or the opponent's.'''
 
     Canvas.__init__(self, master)
     
     self.size = self.GRID_SIZE * self.RECT_SIZE + 2 * max(self.GRID_X_OFFSET, self.GRID_Y_OFFSET)
     self.config(height=self.size, width=self.size)
     
     self._home = home
     self._model = GridModel()
     
     self._make_grid()
     self.reset()
Exemple #8
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def main():
    root = Tk()
    sizex = 800
    sizey = 600
    posx = 100
    posy = 100
    root.wm_geometry("%dx%d+%d+%d" % (sizex, sizey, posx, posy))

    root.grid()
    root.rowconfigure(0, weight=1)
    root.columnconfigure(0, weight=1)

    myframe = Frame(root, relief=GROOVE, bd=1)
    myframe.grid(row=0, column=0, sticky="NESW")

    myframe.rowconfigure(0, weight=1)
    myframe.columnconfigure(0, weight=1)
    myframe.columnconfigure(1, weight=0)

    canvas = Canvas(myframe)
    canvas.grid(row=0, column=0, sticky="NESW")

    frame = Frame(canvas)
    myscrollbar = Scrollbar(myframe, orient="vertical", command=canvas.yview)
    myscrollbar.grid(row=0, column=1, sticky="NESW")
    canvas.configure(yscrollcommand=myscrollbar.set)

    canvas.create_window((0, 0), window=frame, anchor='nw')
    frame.bind("<Configure>", lambda e, c=canvas: myfunction(c, e))
    data(frame)
    root.mainloop()
Exemple #9
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    def __init__(self, master, home=False):
        '''Create a new grid. home determines if this is your grid or the opponent's.'''

        Canvas.__init__(self, master)

        self.size = self.GRID_SIZE * self.RECT_SIZE + 2 * max(
            self.GRID_X_OFFSET, self.GRID_Y_OFFSET)
        self.config(height=self.size, width=self.size)

        self._home = home
        self._model = GridModel()

        self._make_grid()
        self.reset()
Exemple #10
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 def __init__(self,
              master=None,
              min_val=0,
              max_val=100,
              converter=None,
              **kw):
     self.log = logging.getLogger(__name__)
     self.min_val = min_val
     self.max_val = max_val
     self.converter = converter
     kw['width'] = kw.get('width', 100)
     kw['height'] = kw.get('height', 10)
     kw['background'] = kw.get('background', "black")
     self.rect = None
     Canvas.__init__(*(self, master), **kw)
    def __init__(self, drs, size_canvas=True, canvas=None):
        """
        :param drs: ``DrtExpression``, The DRS to be drawn
        :param size_canvas: bool, True if the canvas size should be the exact size of the DRS
        :param canvas: ``Canvas`` The canvas on which to draw the DRS.  If none is given, create a new canvas.
        """
        master = None
        if not canvas:
            master = Tk()
            master.title("DRT")

            font = Font(family='helvetica', size=12)

            if size_canvas:
                canvas = Canvas(master, width=0, height=0)
                canvas.font = font
                self.canvas = canvas
                (right, bottom) = self._visit(drs, self.OUTERSPACE, self.TOPSPACE)

                width = max(right+self.OUTERSPACE, 100)
                height = bottom+self.OUTERSPACE
                canvas = Canvas(master, width=width, height=height)#, bg='white')
            else:
                canvas = Canvas(master, width=300, height=300)

            canvas.pack()
            canvas.font = font

        self.canvas = canvas
        self.drs = drs
        self.master = master
    def __init__(self, master, **kwargs):
        '''
          Initialisation. The DoubleScrollbarFrame consist of :
            - an horizontal scrollbar
            - a  vertical   scrollbar
            - a canvas in which the user can place sub-elements
        '''

        Frame.__init__(self, master, **kwargs)

        # Canvas creation with double scrollbar
        self.hscrollbar = Scrollbar(self, orient=HORIZONTAL)
        self.vscrollbar = Scrollbar(self, orient=VERTICAL)
        self.sizegrip = Sizegrip(self)
        self.canvas = Canvas(self,
                             bd=0,
                             highlightthickness=0,
                             yscrollcommand=self.vscrollbar.set,
                             xscrollcommand=self.hscrollbar.set)
        self.vscrollbar.config(command=self.canvas.yview)
        self.hscrollbar.config(command=self.canvas.xview)
Exemple #13
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    def __init__(self,
                 master,
                 id_priority_sort_function=lambda ids: ids,
                 mesh_step=20,
                 **kw):
        # override some defaults
        for arg, val in [("width", 100), ("height", 100), ("relief", RIDGE),
                         ("background", "white"), ("borderwidth", 1)]:
            kw.setdefault(arg, val)

        Canvas.__init__(self, master, **kw)

        self.align = False
        self.mesh_step = IntVar(value=mesh_step)
        self._state = None
        self.off = None
        self.bind("<ButtonPress-1>", self.down, "+")
        self.bind("<ButtonRelease-1>", self.up, "+")
        self.bind("<ButtonPress-3>", self.b3down, "+")
        self.bind("<ButtonRelease-3>", self.b3up, "+")
        self.bind("<Motion>", self.motion, "+")

        self.id_priority_sort_function = id_priority_sort_function
Exemple #14
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def add_scrollbars(outer, InnerType, *inner_args, **inner_kw):
    """ Creates widget of type `InnerType` inside `outer` widget and adds
vertical and horizontal scroll bars for created widget.
    """

    outer.rowconfigure(0, weight=1)
    outer.rowconfigure(1, weight=0)
    outer.columnconfigure(0, weight=1)
    outer.columnconfigure(1, weight=0)

    # container for inner frame, it supports scrolling
    canvas = Canvas(outer, width=1, height=1)
    canvas.grid(row=0, column=0, sticky="NESW")

    inner = InnerType(canvas, *inner_args, **inner_kw)

    inner_id = canvas.create_window((0, 0), window=inner, anchor="nw")

    h_sb = Scrollbar(outer, orient="horizontal", command=canvas.xview)
    h_sb._visible = False

    v_sb = Scrollbar(outer, orient="vertical", command=canvas.yview)
    v_sb._visible = False

    canvas.configure(xscrollcommand=h_sb.set, yscrollcommand=v_sb.set)

    def scrollbar_visibility():
        "Automatically shows & hides the scroll bar."

        cnv_w, cnv_h = canvas.winfo_width(), canvas.winfo_height()
        inner_w, inner_h = inner.winfo_width(), inner.winfo_height()

        if inner_w <= cnv_w:
            if h_sb._visible:
                h_sb.grid_forget()
                h_sb._visible = False
        else:
            if not h_sb._visible:
                h_sb.grid(row=1, column=0, sticky="NESW")
                h_sb._visible = True

        if inner_h <= cnv_h:
            if v_sb._visible:
                v_sb.grid_forget()
                v_sb._visible = False
        else:
            if not v_sb._visible:
                v_sb.grid(row=0, column=1, sticky="NESW")
                v_sb._visible = True

    def inner_configure(_):
        scrollbar_visibility()
        canvas.configure(
            scrollregion=canvas.bbox(ALL),
            # Require as many space as inner widget do.
            width=inner.winfo_reqwidth(),
            height=inner.winfo_reqheight())

    inner.bind("<Configure>", inner_configure, "+")

    def canvas_configure(e):
        scrollbar_visibility()
        # Get to the inner widget at least desired space.
        # Stretch it when possible.
        canvas.itemconfig(inner_id,
                          width=max(e.width, inner.winfo_reqwidth()),
                          height=max(e.height, inner.winfo_reqheight()))

    canvas.bind("<Configure>", canvas_configure, "+")

    return inner
Exemple #15
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class CFGDemo(object):
    def __init__(self, grammar, text):
        self._grammar = grammar
        self._text = text

        # Set up the main window.
        self._top = Tk()
        self._top.title('Context Free Grammar Demo')

        # Base font size
        self._size = IntVar(self._top)
        self._size.set(12) # = medium

        # Set up the key bindings
        self._init_bindings(self._top)

        # Create the basic frames
        frame1 = Frame(self._top)
        frame1.pack(side='left', fill='y', expand=0)
        self._init_menubar(self._top)
        self._init_buttons(self._top)
        self._init_grammar(frame1)
        self._init_treelet(frame1)
        self._init_workspace(self._top)

    #//////////////////////////////////////////////////
    # Initialization
    #//////////////////////////////////////////////////

    def _init_bindings(self, top):
        top.bind('<Control-q>', self.destroy)

    def _init_menubar(self, parent): pass

    def _init_buttons(self, parent): pass

    def _init_grammar(self, parent):
        self._prodlist = ProductionList(parent, self._grammar, width=20)
        self._prodlist.pack(side='top', fill='both', expand=1)
        self._prodlist.focus()
        self._prodlist.add_callback('select', self._selectprod_cb)
        self._prodlist.add_callback('move', self._selectprod_cb)

    def _init_treelet(self, parent):
        self._treelet_canvas = Canvas(parent, background='white')
        self._treelet_canvas.pack(side='bottom', fill='x')
        self._treelet = None

    def _init_workspace(self, parent):
        self._workspace = CanvasFrame(parent, background='white')
        self._workspace.pack(side='right', fill='both', expand=1)
        self._tree = None
        self.reset_workspace()

    #//////////////////////////////////////////////////
    # Workspace
    #//////////////////////////////////////////////////

    def reset_workspace(self):
        c = self._workspace.canvas()
        fontsize = int(self._size.get())
        node_font = ('helvetica', -(fontsize+4), 'bold')
        leaf_font = ('helvetica', -(fontsize+2))

        # Remove the old tree
        if self._tree is not None:
            self._workspace.remove_widget(self._tree)

        # The root of the tree.
        start = self._grammar.start().symbol()
        rootnode = TextWidget(c, start, font=node_font, draggable=1)

        # The leaves of the tree.
        leaves = []
        for word in self._text:
            leaves.append(TextWidget(c, word, font=leaf_font, draggable=1))

        # Put it all together into one tree
        self._tree = TreeSegmentWidget(c, rootnode, leaves,
                                       color='white')

        # Add it to the workspace.
        self._workspace.add_widget(self._tree)

        # Move the leaves to the bottom of the workspace.
        for leaf in leaves: leaf.move(0,100)

        #self._nodes = {start:1}
        #self._leaves = dict([(l,1) for l in leaves])

    def workspace_markprod(self, production):
        pass

    def _markproduction(self, prod, tree=None):
        if tree is None: tree = self._tree
        for i in range(len(tree.subtrees())-len(prod.rhs())):
            if tree['color', i] == 'white':
                self._markproduction

            for j, node in enumerate(prod.rhs()):
                widget = tree.subtrees()[i+j]
                if (isinstance(node, Nonterminal) and
                    isinstance(widget, TreeSegmentWidget) and
                    node.symbol == widget.label().text()):
                    pass # matching nonterminal
                elif (isinstance(node, string_types) and
                      isinstance(widget, TextWidget) and
                      node == widget.text()):
                    pass # matching nonterminal
                else: break
            else:
                # Everything matched!
                print('MATCH AT', i)

    #//////////////////////////////////////////////////
    # Grammar
    #//////////////////////////////////////////////////

    def _selectprod_cb(self, production):
        canvas = self._treelet_canvas

        self._prodlist.highlight(production)
        if self._treelet is not None: self._treelet.destroy()

        # Convert the production to a tree.
        rhs = production.rhs()
        for (i, elt) in enumerate(rhs):
            if isinstance(elt, Nonterminal): elt = Tree(elt)
        tree = Tree(production.lhs().symbol(), *rhs)

        # Draw the tree in the treelet area.
        fontsize = int(self._size.get())
        node_font = ('helvetica', -(fontsize+4), 'bold')
        leaf_font = ('helvetica', -(fontsize+2))
        self._treelet = tree_to_treesegment(canvas, tree,
                                            node_font=node_font,
                                            leaf_font=leaf_font)
        self._treelet['draggable'] = 1

        # Center the treelet.
        (x1, y1, x2, y2) = self._treelet.bbox()
        w, h = int(canvas['width']), int(canvas['height'])
        self._treelet.move((w-x1-x2)/2, (h-y1-y2)/2)

        # Mark the places where we can add it to the workspace.
        self._markproduction(production)

    def destroy(self, *args):
        self._top.destroy()

    def mainloop(self, *args, **kwargs):
        self._top.mainloop(*args, **kwargs)
class ShipWarPanel(Frame):
    '''Panel to keep track of ships during wartime.
    Track damage and status.'''
    
    ########### colors ############
    RECT_NULL_FILL = "forest green"
    RECT_HIT_FILL = "red"
    ###############################
    
    ######### geometry ############
    Y_SPACING = 20
    RECT_SIZE = 15
    LEFT_PADDING = 10
    TOP_PADDING = 10
    ###############################

    def __init__(self, master):
        Frame.__init__(self, master)
        self._create_ui()
        
    def _create_ui(self):
        '''Create all UI widgets.'''
    
        #self._l = Label(self, text="My Ships")
        #self._l.grid(row=0)
        self._c = Canvas(self)
        self._c.grid(row=1)
        
        self._create_ships()
        
        self.pack_ui()
        
    def update(self, ship, hit_list=None):
        '''Update the given ship.
        <ship> should be a Ship object.
        <hit_list> should be a binary list'''
        assert ship is not None
        if hit_list is None:
            hit_list = ship.get_hit_list()
        
        for i, r in enumerate(hit_list):
            item = self._ship_squares[ship.get_short_name()][i]
        
            if r:
                self._c.itemconfig(item, fill=self.RECT_HIT_FILL)
            else:
                self._c.itemconfig(item, fill=self.RECT_NULL_FILL)
        
    def reset(self):
        for ship in Ship.SHORT_NAMES:
            s = Ship(0, 0, ship, False)
            self.update(s, [0] * s.get_size())
            
    def redraw(self, model):
        '''Redraw the panel based on the GridModel.
        <model> is an instance of GridModel.'''
        
        for ship_name, ship in model.get_ships().items():
            self.update(ship)
            
        
    def _create_ships(self):
        '''Create ships on the canvas.'''
        
        self._ship_squares = {}
        
        for i, ship in enumerate(Ship.SHORT_NAMES):
            y = self.TOP_PADDING + i * (self.Y_SPACING * 2 + self.RECT_SIZE)
            s = Ship(0, 0, ship, False)
            self._c.create_text(self.LEFT_PADDING, y, text=s.get_full_name().title(), anchor=NW)
            
            self._ship_squares[ship] = [None] * s.get_size()
            
            for x in range(s.get_size()):
                self._ship_squares[ship][x] = self._c.create_rectangle(
                    self.LEFT_PADDING + x * self.RECT_SIZE,
                    y + self.Y_SPACING,
                    self.LEFT_PADDING + (x + 1) * self.RECT_SIZE,
                    y + self.Y_SPACING + self.RECT_SIZE,
                    fill=self.RECT_NULL_FILL,
                    outline="black"
                )
        
    def pack_ui(self):
        '''Remedy for my method of hiding frames.'''
    
        #self._l.pack()
        self._c.pack()
Exemple #17
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 def _init_treelet(self, parent):
     self._treelet_canvas = Canvas(parent, background="white")
     self._treelet_canvas.pack(side="bottom", fill="x")
     self._treelet = None
Exemple #18
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 def _init_treelet(self, parent):
     self._treelet_canvas = Canvas(parent, background='white')
     self._treelet_canvas.pack(side='bottom', fill='x')
     self._treelet = None
Exemple #19
0
    Canvas,
    Label,
    BOTH,
    Frame
)
from widgets import (
    CanvasFrame
)

if __name__ == "__main__":
    root = Tk()

    root.rowconfigure(0, weight = 1)
    root.columnconfigure(0, weight = 1)

    cnv = Canvas(root, bg = "white")
    cnv.grid(row = 0, column = 0, sticky = "NESW")

    cf = CanvasFrame(cnv, 100, 100)

    cnv.itemconfig(cf.id, width = 150, height = 150)

    Label(cf, text = "Test").pack(fill = BOTH, expand = 0)

    f2 = Frame(cf, bg = "white", width = 100, height = 100)
    f2.pack(fill = BOTH, expand = 1)

    def on_motion(e):
        print (e.x, e.y)

    f2.bind("<Motion>", on_motion, "+")
Exemple #20
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class CFGDemo(object):
    def __init__(self, grammar, text):
        self._grammar = grammar
        self._text = text

        # Set up the main window.
        self._top = Tk()
        self._top.title('Context Free Grammar Demo')

        # Base font size
        self._size = IntVar(self._top)
        self._size.set(12)  # = medium

        # Set up the key bindings
        self._init_bindings(self._top)

        # Create the basic frames
        frame1 = Frame(self._top)
        frame1.pack(side='left', fill='y', expand=0)
        self._init_menubar(self._top)
        self._init_buttons(self._top)
        self._init_grammar(frame1)
        self._init_treelet(frame1)
        self._init_workspace(self._top)

    # //////////////////////////////////////////////////
    # Initialization
    # //////////////////////////////////////////////////

    def _init_bindings(self, top):
        top.bind('<Control-q>', self.destroy)

    def _init_menubar(self, parent):
        pass

    def _init_buttons(self, parent):
        pass

    def _init_grammar(self, parent):
        self._prodlist = ProductionList(parent, self._grammar, width=20)
        self._prodlist.pack(side='top', fill='both', expand=1)
        self._prodlist.focus()
        self._prodlist.add_callback('select', self._selectprod_cb)
        self._prodlist.add_callback('move', self._selectprod_cb)

    def _init_treelet(self, parent):
        self._treelet_canvas = Canvas(parent, background='white')
        self._treelet_canvas.pack(side='bottom', fill='x')
        self._treelet = None

    def _init_workspace(self, parent):
        self._workspace = CanvasFrame(parent, background='white')
        self._workspace.pack(side='right', fill='both', expand=1)
        self._tree = None
        self.reset_workspace()

    # //////////////////////////////////////////////////
    # Workspace
    # //////////////////////////////////////////////////

    def reset_workspace(self):
        c = self._workspace.canvas()
        fontsize = int(self._size.get())
        node_font = ('helvetica', -(fontsize + 4), 'bold')
        leaf_font = ('helvetica', -(fontsize + 2))

        # Remove the old tree
        if self._tree is not None:
            self._workspace.remove_widget(self._tree)

        # The root of the tree.
        start = self._grammar.start().symbol()
        rootnode = TextWidget(c, start, font=node_font, draggable=1)

        # The leaves of the tree.
        leaves = []
        for word in self._text:
            leaves.append(TextWidget(c, word, font=leaf_font, draggable=1))

        # Put it all together into one tree
        self._tree = TreeSegmentWidget(c, rootnode, leaves, color='white')

        # Add it to the workspace.
        self._workspace.add_widget(self._tree)

        # Move the leaves to the bottom of the workspace.
        for leaf in leaves:
            leaf.move(0, 100)

        # self._nodes = {start:1}
        # self._leaves = dict([(l,1) for l in leaves])

    def workspace_markprod(self, production):
        pass

    def _markproduction(self, prod, tree=None):
        if tree is None:
            tree = self._tree
        for i in range(len(tree.subtrees()) - len(prod.rhs())):
            if tree['color', i] == 'white':
                self._markproduction  # FIXME: Is this necessary at all?

            for j, node in enumerate(prod.rhs()):
                widget = tree.subtrees()[i + j]
                if (
                    isinstance(node, Nonterminal)
                    and isinstance(widget, TreeSegmentWidget)
                    and node.symbol == widget.label().text()
                ):
                    pass  # matching nonterminal
                elif (
                    isinstance(node, string_types)
                    and isinstance(widget, TextWidget)
                    and node == widget.text()
                ):
                    pass  # matching nonterminal
                else:
                    break
            else:
                # Everything matched!
                print('MATCH AT', i)

    # //////////////////////////////////////////////////
    # Grammar
    # //////////////////////////////////////////////////

    def _selectprod_cb(self, production):
        canvas = self._treelet_canvas

        self._prodlist.highlight(production)
        if self._treelet is not None:
            self._treelet.destroy()

        # Convert the production to a tree.
        rhs = production.rhs()
        for (i, elt) in enumerate(rhs):
            if isinstance(elt, Nonterminal):
                elt = Tree(elt)
        tree = Tree(production.lhs().symbol(), *rhs)

        # Draw the tree in the treelet area.
        fontsize = int(self._size.get())
        node_font = ('helvetica', -(fontsize + 4), 'bold')
        leaf_font = ('helvetica', -(fontsize + 2))
        self._treelet = tree_to_treesegment(
            canvas, tree, node_font=node_font, leaf_font=leaf_font
        )
        self._treelet['draggable'] = 1

        # Center the treelet.
        (x1, y1, x2, y2) = self._treelet.bbox()
        w, h = int(canvas['width']), int(canvas['height'])
        self._treelet.move((w - x1 - x2) / 2, (h - y1 - y2) / 2)

        # Mark the places where we can add it to the workspace.
        self._markproduction(production)

    def destroy(self, *args):
        self._top.destroy()

    def mainloop(self, *args, **kwargs):
        self._top.mainloop(*args, **kwargs)
Exemple #21
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class CanvasDnD(GUIFrame):
    def __init__(self, master,
            id_priority_sort_function = lambda ids : ids,
            mesh_step = 20
        ):

        GUIFrame.__init__ (self, master)
        self.canvas = Canvas (self, 
            width = 100, # default width
            height = 100, # default height
            relief = RIDGE,
            background = "white",
            borderwidth = 1
        )

        self.canvas.pack(expand = 1, fill = BOTH)

        self.align = False
        self.mesh_step = IntVar(value = mesh_step)
        self.dragging = False
        self.off = None
        self.canvas.bind("<ButtonPress-1>", self.down, "+")
        self.canvas.bind("<ButtonRelease-1>", self.up, "+")
        self.canvas.bind("<Motion>", self.motion, "+")

        self.id_priority_sort_function = id_priority_sort_function

    def down(self, event):
        x, y = event.widget.canvasx(event.x), event.widget.canvasy(event.y)

        touched = self.canvas.find_overlapping(x - 1, y - 1, x + 1, y + 1)
        touched = [ t for t in touched if ("DnD" in self.canvas.gettags(t)) ]

        if not touched:
            return

        touched = self.id_priority_sort_function(touched)
        self.dnd_dragged = touched[0]

        offset = event.widget.coords(self.dnd_dragged)
        self.off = (x - offset[0], y - offset[1])

        #print str((x,y)) + " - " + str(self.off)

        self.dragging = True
        self.event_generate('<<DnDDown>>')

    def motion(self, event):
        if not self.dragging:
            return

        self.master.config(cursor = "fleur")
        c = self.canvas

        xy = c.canvasx(event.x), c.canvasy(event.y)
        points = c.coords(self.dnd_dragged)

        offset = self.off

        if self.align:
            new_pos = (
                xy[0] - offset[0],
                xy[1] - offset[1],
            )

            m = self.mesh_step.get()
            aligned_pos = (
                int(new_pos[0] / m) * m,
                int(new_pos[1] / m) * m
            )

            align_gain = (
                aligned_pos[0] - new_pos[0],
                aligned_pos[1] - new_pos[1]
            )
        else:
            align_gain = (0, 0)

        dxy = (
            xy[0] - (points[0] + offset[0]) + align_gain[0],
            xy[1] - (points[1] + offset[1]) + align_gain[1]
        )

        #print str(points) + " - " + str(self.off)

        tags = c.gettags(self.dnd_dragged)

        if "fixed_x" not in tags:
            for idx in xrange(0, len(points), 2):
                points[idx] = dxy[0] + points[idx]

        if "fixed_y" not in tags:
            for idx in xrange(1, len(points), 2):
                points[idx] = dxy[1] + points[idx]

        #print points

        c.coords(*([self.dnd_dragged] + points))

        self.event_generate('<<DnDMoved>>')

    def up(self, event):
        if self.dragging:
            self.master.config(cursor = "")
            self.dragging = False
            self.off = None
            self.event_generate('<<DnDUp>>')
            """ Right after event. Listeners should be able to get which id
            is not dragged now. """
            del self.dnd_dragged
class ShipPlacementPanel(Frame):
    '''A frame which contains visualizations for placing ships.'''

    # the size of a single tile
    SHIP_TILE_SIZE = 20
    SHIP_TILE_COLOR = "steel blue"
    TAG = "staging_ship"
    CANVAS_WIDTH = 150

    def __init__(self, master):
        '''Create a new panel with the given parent.'''

        Frame.__init__(self, master)
        self._ship_name = StringVar()
        self._create_ui()
        self.reset()

    def reset(self):
        '''Alias for unstage_all'''

        self.unstage_all()

    def _create_ui(self):
        '''Create all UI objects.'''

        #self._tl = Label(self, text="Staged Ship", f)
        self._sl = Label(self, textvariable=self._ship_name)
        self._c = Canvas(self)
        self._c.config(width=self.CANVAS_WIDTH)
        self._rb = Button(self,
                          text="Rotate",
                          command=self.rotate_current_ship)

        self.pack_ui()

    def pack_ui(self):
        '''(re) pack the UI.
        Created mostly to counter hiding by unpacking.'''

        #self._tl.pack()
        #self._tl.grid(row=0)
        self._sl.pack()
        self._sl.grid(row=1, pady=10)
        self._c.pack()
        self._c.grid(row=2, pady=15)
        self._rb.pack()
        self._rb.grid(row=3)

    def unstage_all(self):
        '''Remove all ships from staging area.
        Clear all staging preferences.'''

        self._staged_ship = None
        self._clear_staging_grid()
        self._ship_name.set("")
        self._disable_rotate_button()

    def _clear_staging_grid(self):
        '''Remove previously staged ships from staging grid.'''

        for item in self._c.find_withtag(self.TAG):
            self._c.delete(item)

    def _draw_staged_ship(self):
        '''Draw the currently staged ship.'''

        # remove prior drawings
        self._clear_staging_grid()

        if self._staged_ship.is_vertical():
            x = 0
            x_pad = (self._c.winfo_width() - self.SHIP_TILE_SIZE) / 2.0
            y_pad = (self._c.winfo_height() -
                     self.SHIP_TILE_SIZE * self._staged_ship.get_size()) / 2.0

            for y in range(self._staged_ship.get_size()):
                self._draw_ship_tile(x_pad + x * self.SHIP_TILE_SIZE,
                                     y_pad + y * self.SHIP_TILE_SIZE)
        else:
            y = 0
            x_pad = (self._c.winfo_width() -
                     self.SHIP_TILE_SIZE * self._staged_ship.get_size()) / 2.0
            y_pad = (self._c.winfo_height() - self.SHIP_TILE_SIZE) / 2.0

            for x in range(self._staged_ship.get_size()):
                self._draw_ship_tile(x_pad + x * self.SHIP_TILE_SIZE,
                                     y_pad + y * self.SHIP_TILE_SIZE)

    def add_ship(self, s):
        '''Alias for stage ship.'''

        self.stage_ship(s)

    def _disable_rotate_button(self):
        '''Disable / hide the rotate button.'''

        self._rb.grid_forget()

    def _enable_rotate_button(self):
        '''Enable / show the rotate button.'''

        self._rb.grid(row=3)

    def stage_ship(self, s):
        '''Add a ship to the staging area. 
        Display what it would look like on the grid.
        Create support for accidentally adding ship that isn't ready'''

        if s is not None:
            self._staged_ship = s
            self._ship_name.set(s.get_full_name().title())
            self._draw_staged_ship()

            self._enable_rotate_button()
        else:
            self._disable_rotate_button()

    def _draw_ship_tile(self, x, y):
        '''Draw a single tile for the ship at given coordinates.'''

        self._c.create_rectangle(x,
                                 y,
                                 x + self.SHIP_TILE_SIZE,
                                 y + self.SHIP_TILE_SIZE,
                                 fill=self.SHIP_TILE_COLOR,
                                 outline="black",
                                 tag=self.TAG)

    def get_staged_ship(self):
        '''Return the currently staged ship.'''

        return self._staged_ship

    def rotate_current_ship(self):
        '''Rotate the currently staged ship.'''

        if self._staged_ship is not None:
            self._staged_ship.rotate()
            self._draw_staged_ship()
Exemple #23
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        raise ValueError("Wrong layout: different number of groups in rows")

    offset_w = outer_pad
    for group in zip(*groups):
        offset_w += prepare_group(group, offset_w)

    w = offset_w + outer_pad
    h = max(b.h + b.y for b in all_buttons) + outer_pad
    return all_buttons, w, h


if __name__ == "__main__":
    root = Tk()
    root.title("Keyboard")

    cnv = Canvas(root, bg="white")
    cnv.pack(fill=BOTH, expand=True)

    buttons, w, h = generate_buttons()

    cnv.configure(width=w, height=h)

    lb_code = Label(root)
    lb_code.pack(fill=X, expand=False)

    def resize():
        # XXX: it's a bit less that ideally needed because of borders
        root.geometry("%ux%u" % (w, h + lb_code.winfo_reqheight()))

    root.after(10, resize)
Exemple #24
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 def _init_treelet(self, parent):
     self._treelet_canvas = Canvas(parent, background='white')
     self._treelet_canvas.pack(side='bottom', fill='x')
     self._treelet = None
Exemple #25
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from six.moves.tkinter import (Tk, RAISED, Canvas, BOTH, HORIZONTAL, VERTICAL)
from widgets import (AutoPanedWindow)

if __name__ == "__main__":
    r = Tk()
    r.title("AutoPanedWindow example")

    a = AutoPanedWindow(r, sashrelief=RAISED, orient=HORIZONTAL)
    a.pack(fill=BOTH, expand=True)

    a.add(Canvas(a, bg="red"), sticky="NESW")

    a1 = AutoPanedWindow(a, sashrelief=RAISED, orient=VERTICAL)
    a.add(a1, sticky="NESW")

    blue = Canvas(a1, bg="blue")
    a1.add(blue, sticky="NESW")

    green = Canvas(a1, bg="green")
    a1.add(green, sticky="NESW")

    a1.add(Canvas(a1, bg="brown"), after=blue, sticky="NESW")

    yellow = Canvas(a, bg="yellow")
    a.add(yellow, sticky="NESW")

    a.add(Canvas(a, bg="pink"), before=yellow, sticky="NESW")

    r.geometry("800x600")
    r.mainloop()
Exemple #26
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def add_scrollbars(outer, InnerType, *inner_args, **kw):
    """ Creates widget of type `InnerType` inside `outer` widget and adds
vertical and horizontal scroll bars for created widget.

:param kw:
    those arguments are passed to `InnerType` constructor except for:

    - row/column: `grid` coordinates inside `outer` (default: 0)
    - wheel: support wheel scrolling when mouse is over inner widget
        (default: False)
    - inner_kw: see below

    To pass same named arguments to `InnerType` wrap them into a `dict` and
pass it with name "inner_kw" in "kw".
    """

    row, column = kw.pop("row", 0), kw.pop("column", 0)
    wheel = kw.pop("wheel", False)

    kw.update(kw.pop("inner_kw", {}))

    outer.rowconfigure(row, weight=1)
    outer.rowconfigure(row + 1, weight=0)
    outer.columnconfigure(column, weight=1)
    outer.columnconfigure(column + 1, weight=0)

    # container for inner frame, it supports scrolling
    canvas = Canvas(outer, width=1, height=1)
    canvas.grid(row=row, column=row, sticky="NESW")

    inner = InnerType(canvas, *inner_args, **kw)

    inner_id = canvas.create_window((0, 0), window=inner, anchor="nw")

    h_sb = Scrollbar(outer, orient="horizontal", command=canvas.xview)
    h_sb._visible = False

    v_sb = Scrollbar(outer, orient="vertical", command=canvas.yview)
    v_sb._visible = False

    canvas.configure(xscrollcommand=h_sb.set, yscrollcommand=v_sb.set)

    def scrollbar_visibility():
        "Automatically shows & hides the scroll bar."

        cnv_w, cnv_h = canvas.winfo_width(), canvas.winfo_height()
        inner_w, inner_h = inner.winfo_width(), inner.winfo_height()

        if inner_w <= cnv_w:
            if h_sb._visible:
                h_sb.grid_forget()
                h_sb._visible = False
        else:
            if not h_sb._visible:
                h_sb.grid(row=row + 1, column=column, sticky="NESW")
                h_sb._visible = True

        if inner_h <= cnv_h:
            if v_sb._visible:
                v_sb.grid_forget()
                v_sb._visible = False
        else:
            if not v_sb._visible:
                v_sb.grid(row=row, column=column + 1, sticky="NESW")
                v_sb._visible = True

    def inner_configure(_):
        scrollbar_visibility()
        canvas.configure(
            scrollregion=canvas.bbox(ALL),
            # Require as many space as inner widget do.
            width=inner.winfo_reqwidth(),
            height=inner.winfo_reqheight())

    inner.bind("<Configure>", inner_configure, "+")

    def canvas_configure(e):
        scrollbar_visibility()
        # Get to the inner widget at least desired space.
        # Stretch it when possible.
        canvas.itemconfig(inner_id,
                          width=max(e.width, inner.winfo_reqwidth()),
                          height=max(e.height, inner.winfo_reqheight()))

    canvas.bind("<Configure>", canvas_configure, "+")

    if not wheel:
        return inner

    def on_wheel(e):
        w = e.widget

        # Is the `w`idget our inner?
        m = w
        while m is not None:
            if m is inner:
                break
            m = m.master
        else:
            # Outer widget
            return

        cls = w.winfo_class()

        if cls in WHEELED_WIDGETS:
            # When mouse pointer is over `WHEELED_WIDGETS` the canvas
            # must not be scrolled. But there are few exceptions for
            # convenience.
            try:
                a, b = w.yview()
            except:
                # not all "wheeled" widgets provides `yview` and those values
                # prevents heuristics about fully scrolled `w`idgets below.
                a, b = None, None

            if e.delta > 0:
                if a == 0.0:
                    pass  # w is fully scrolled up
                elif w.winfo_rooty() < canvas.winfo_rooty():
                    pass  # user does not see upper border of w
                    # XXX: we also have to prevent scrolling of `w` but
                    # returning "break" does not work.
                else:
                    return
            elif e.delta < 0:
                if b == 1.0:
                    pass  # w is fully scrolled down
                elif (w.winfo_rooty() + w.winfo_height() >
                      canvas.winfo_rooty() + canvas.winfo_height()):
                    pass  # user does not see bottom border of w
                else:
                    return
            else:
                return

        canvas.yview("scroll", -e.delta, "units")

    bind_all_mouse_wheel(inner, on_wheel, "+")

    return inner