Пример #1
0
 def render(self):  #draw
     box = RectangleShape(self.size)
     box.position = self.position
     box.outline_thickness = 1
     box.outline_color = Color(255, 0, 0, 100)
     box.fill_color = Color(0, 0, 0, 10)
     self.box = box
Пример #2
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 def _create_box(self):  #draw
     size = self.size
     position = self.position
     #
     Box = RectangleShape(size)
     Box.position = position
     Box.fill_color = Color(255, 255, 255)
     Box.outline_color = Color(0, 0, 0)
     Box.outline_thickness = 1
     #
     self.Box = Box
     #
     self._create_box_shading()
Пример #3
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 def __init__(self):
     self._create_corners()
     self.snap = True
     self.color = Color(255, 255, 255, 255)
     self.expand = True
     self.selected = False
     self.absolute = False
Пример #4
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class _Rendered_Grid_Room(Drawable, Rectangle):
    # Drawable, forwards to Sprite
    # * Generated and rendered ONCE globally when called.

    #################################
    # PUBLIC

    sprite = None

    def __init__(self):
        Drawable.__init__(self)
        self.w, self.h = ROOM_WIDTH, ROOM_HEIGHT
        self._create_Lines()
        self._render_Lines()

    def draw(self, target, states):
        self._draw_Lines(target, states)

    #

    color = Color(255, 255, 255, 255)

    #################################
    # PRIVATE

    # Lines
    _rows = []
    _columns = []

    def _create_Lines(self):  #init

        self._columns = []
        for x in range(self.tile_w + 1):
            w = 1
            if x == 0 or x == self.tile_w: w = 5
            r = RectangleShape((w, self.h))
            r.fill_color = self.color
            r.position = self.x + (TILE * x) - (w / 2), self.y
            self._columns.append(r)

        self._rows = []
        for y in range(self.tile_h + 1):
            h = 1
            if y == 0 or y == self.tile_h: h = 5
            r = RectangleShape((self.w, h))
            r.fill_color = self.color
            r.position = self.x, self.y + (TILE * y) - (h / 2)
            self._rows.append(r)

    # Rendering
    _texture = RenderTexture(ROOM_WIDTH + 1, ROOM_HEIGHT + 1)

    def _render_Lines(self):  #init
        for line in self._columns + self._rows:
            self._texture.draw(line)
        self._texture.display()
        self.sprite = Sprite(self._texture.texture)

    def _draw_Lines(self, target, states):  #draw
        target.draw(self.sprite, states)
Пример #5
0
        def _create_highlight(self):  #init, controls

            #Find the position of the current box.
            char = self().character

            x, y = 0, 0
            if char in Text_Ref.characters.upper():
                x = Text_Ref.characters.upper().index(char)
                y = 0
            if char in Text_Ref.characters:
                x = Text_Ref.characters.index(char)
                y = 1
            if char in Text_Ref.grammar:
                x = Text_Ref.grammar.index(char)
                y = 2
            if char in Text_Ref.numbers:
                x = Text_Ref.numbers.index(char)
                y = 3

            #Highlight it
            w, h = 8, 12
            highlight = RectangleShape((w, h))
            highlight.position = w * x, h * y
            highlight.fill_color = Color(100, 100, 100, 100)
            self.highlight = highlight
Пример #6
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 def _create_box_shading(self):  #_create_box
     w = self.w
     x, y = self.x, self.y2 - 2
     #
     Box_shading = RectangleShape((w, 2))
     Box_shading.fill_color = Color(150, 150, 150)
     Box_shading.position = x, y
     #
     self.Box_shading = Box_shading
Пример #7
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    def _create_baseLine(self):

        if self.using == "x":
            self.baseLine = RectangleShape((self.w, 0))
            self.baseLine.position = self.x, self.center[1]
        if self.using == "y":
            self.baseLine = RectangleShape((0, self.h))
            self.baseLine.position = self.center[0], self.y

        self.baseLine.outline_thickness = 1
        self.baseLine.outline_color = Color(0, 0, 0)

        #color
        b = self.baseLine
        c = b.outline_color
        c.a = self.alpha
        b.outline_color = c
Пример #8
0
class Grid_Room(Drawable, Rectangle):
    # Drawable
    # * Uses a pre-rendered sprite. Size cannot be changed.
    # (Sprite is rendered ONCE as a global upon access.)

    #################################
    # PUBLIC

    def draw(self, target, states):
        self._Grid_Room.sprite.position = self.position
        target.draw(self._Grid_Room, states)

    #################################
    # PRIVATE

    _Grid_Room = _Rendered_Grid_Room()
    _Grid_Room.sprite.color = Color(0, 0, 0, 100)


################################################
Пример #9
0
    def texture_slices(self, columns, sprites, bob):
        x = 0

        for column in columns:
            try: # XXX This is crap, should check in the fix_distance
                height = int((64 / column[0] * PP_DISTANCE)+.5)
            except(ZeroDivisionError):
                height = int(64 * PP_DISTANCE+.5)

            if column[3] == True:
                sprites[x].color = Color(200,200,200,255)
            else:
                sprites[x].color = Color.WHITE

            sprites[x].set_texture_rect(IntRect(column[2]+64*column[1],0,1,64))
            sprites[x].position = (x, PP_HEIGHT/2 - height/2 + bob)
            sprites[x].scale = (1, height / 64)
            x += 1

        return sprites
Пример #10
0
    def _create_vertices(self):  #Room.render
        self.vertices = []

        #points
        point1 = Vertex()
        point2 = Vertex()
        point3 = Vertex()
        point4 = Vertex()
        points = [point1, point2, point3, point4]

        #position
        x1, y1, x2, y2 = self.points
        point1.position = x1, y1
        point2.position = x2, y1
        point3.position = x2, y2
        point4.position = x1, y2

        #clip
        if self.texture == None:
            for point in points:
                point.tex_coords = 0, 0
                point.color = Color(0, 0, 0, 0)
        else:
            clip_x, clip_y = self.clip

            x1 = (clip_x + 0) * TILE
            y1 = (clip_y + 0) * TILE
            x2 = (clip_x + 1) * TILE
            y2 = (clip_y + 1) * TILE

            point1.tex_coords = x1, y1
            point2.tex_coords = x2, y1
            point3.tex_coords = x2, y2
            point4.tex_coords = x1, y2

        for point in points:
            self.vertices.append(point)
Пример #11
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	class active_colors:
		normal_color = Color(240,240,240)
		hovered_color = Color(255,255,255)
		held_color = hovered_color
		selected_color = hovered_color
Пример #12
0
class Button(Box):
    # State Handling
    # 	* Hovering, Pressing, Selecting
    # Graphics
    # 	* Rises based on state.
    # 	* Colored based on state.
    #	* (Optional) contains text.

    w, h = 50, 20

    def __init__(self):
        Box.__init__(self)
        self._init_Text()

    def controls(self, Key, Mouse, Camera):
        self._hover(Mouse)
        self._select(Mouse)
        self._held(Mouse)
        self._color_states()
        Box.controls(self, Key, Mouse, Camera)

    def draw(self, target, states):
        Box.draw(self, target, states)
        self._draw_Text(target, states)

    ####################
    ### STATE HANDLING

    hovered = False
    held = False
    selected = False

    def _hover(self, Mouse):
        self.hovered = Mouse.inside(self)

    def _held(self, Mouse):
        if Mouse.left.pressed():
            if self.hovered:
                self.held = True
                self.rise = 0
        elif not Mouse.left.held():
            self.held = False
            self.rise = self.old_rise

    def _select(self, Mouse):
        self.selected = False
        if not Mouse.left.held():
            if self.held:
                self.selected = True

    ### COLORING

    box_fill = Color(240, 240, 240)
    old_fill = box_fill
    hovered_color = Color(255, 255, 255)
    held_color = hovered_color
    selected_color = hovered_color

    def _color_states(self):
        self.box_fill = self.old_fill
        if self.hovered:
            self.box_fill = self.hovered_color
        if self.held:
            self.box_fill = self.held_color
        if self.selected:
            self.box_fill = self.selected_color

    ### TEXT (Optional)
    # Create, pos/alpha, draw

    def _init_Text(self):
        self.text = ""
        self._Text = Text(Font("speech"))
        self._text = self.text

    def _draw_Text(self, target, states):
        #update text
        if self._text != self.text:
            self._Text.write(self.text)
        #color
        text = self._Text
        c = text.color
        c.a = self.alpha
        text.color = c
        #pos
        text.center = self.center
        text.y -= self.rise_offset
        #draw
        target.draw(text)
Пример #13
0
class Cursor(Rectangle):

    #################################
    # PUBLIC

    absolute = False
    expand = True
    color = Color(255, 255, 255, 255)
    selected = False  #readonly

    def __init__(self):
        self._create_corners()
        self.snap = True
        self.color = Color(255, 255, 255, 255)
        self.expand = True
        self.selected = False
        self.absolute = False

    def controls(self, Key, Mouse, Camera):
        self._update_position(Mouse, Camera)
        if self.expand:
            self._expand(Mouse, Camera)

    def draw(self, target, states):
        self._update_corners_position()
        self._update_corners_alpha()
        self._draw_corners(target, states)

    #################################
    # PRIVATE

    # Position
    _selected = False

    def _update_position(self, Mouse, Camera):
        if not self._selected:
            self.tile_position = Mouse.tile_position
            self.tile_size = 0, 0
            if self.absolute:
                self.tile_x = int(self.tile_x / Camera.zoom)
                self.tile_y = int(self.tile_y / Camera.zoom)
                self.tile_x += Camera.tile_x
                self.tile_y += Camera.tile_y

            if not Mouse.left.released():
                self.selected = False

    _start_anchor = 0, 0
    _finish_anchor = 0, 0

    def _expand(self, Mouse, Camera):
        #LOGIC
        #start
        if Mouse.left.pressed() and not self._selected:
            self._selected = True
            self._start_anchor = Mouse.tile_position
            if self.absolute:
                self._start_anchor[0] += Camera.tile_x
                self._start_anchor[1] += Camera.tile_y

        #loop
        if self._selected:
            self._finish_anchor = Mouse.tile_position
            if self.absolute:
                self._finish_anchor[0] += Camera.tile_x
                self._finish_anchor[1] += Camera.tile_y

        #reset
        self.selected = False
        if not Mouse.left.held():
            if self._selected: self.selected = True
            self._selected = False
            self._start_anchor = 0, 0
            self._finish_anchor = 0, 0

        #EFFECTS
        if self._selected:
            x1, y1, x2, y2 = self._start_anchor + self._finish_anchor
            if x1 > x2: x2, x1 = x1, x2
            if y1 > y2: y2, y1 = y1, y2
            self.tile_position = x1, y1
            self.tile_size = x2 - x1, y2 - y1

    # Corners
    # color
    _corners = []

    def _create_corners(self):
        self._corners = []
        t = Texture.from_file("assets/ui/cursor.png")
        s1 = MySprite(t)
        s1.clip.set(8, 8)
        s1.clip.use(0, 0)
        s2 = MySprite(t)
        s2.clip.set(8, 8)
        s2.clip.use(2, 0)
        s3 = MySprite(t)
        s3.clip.set(8, 8)
        s3.clip.use(0, 2)
        s4 = MySprite(t)
        s4.clip.set(8, 8)
        s4.clip.use(2, 2)
        s2.origin = -TILE + 8, 0
        s3.origin = 0, -TILE + 8
        s4.origin = -TILE + 8, -TILE + 8
        self._corners = [[s1, s2], [s3, s4]]

    def _update_corners_position(self):
        self._corners[0][0].position = self.x1, self.y1
        self._corners[0][1].position = self.x2, self.y1
        self._corners[1][0].position = self.x1, self.y2
        self._corners[1][1].position = self.x2, self.y2

    def _update_corners_alpha(self):
        for side in self._corners:
            for edge in side:
                edge.color = self.color

    def _draw_corners(self, target, states):
        for side in self._corners:
            for edge in side:
                target.draw(edge, states)
Пример #14
0
 class active_colors:
     normal_color = Color(0, 255, 0)
     hovered_color = Color(100, 255, 100)
     held_color = hovered_color
     selected_color = hovered_color
Пример #15
0
 def clear(self, color):
     self._events()
     c = Color(*color)
     self.window.clear(c)
Пример #16
0
 def __init__(self, position, letter):
     self.position = position
     self.size = 0, 0
     self.letter = letter
     self.color = Color(255, 255, 255, 255)
Пример #17
0
 def color(self, c):
     color = [v for v in c]
     for letter in self.letters:
         letter.color = Color(*color)
     self._color = Color(*color)
Пример #18
0
class Text(_Text, Drawable, Rectangle):

    color = None
    x, y, w, h = 0, 0, 0, 0
    follow = True  #for UI

    def __init__(self, Font):
        self.Font = Font

    def draw(self, target, states):
        self._create_vertex_array()
        target.draw(self.vertex_array, self.render_states)

    #

    #CALL
    string = ""

    def write(self, string):
        self.string = string
        self._create_letters()
        self._create_vertex_array()

    #POSITION
    _x, _y = 0, 0

    @property
    def x(self):
        return self._x

    @x.setter
    def x(self, x):
        amt = x - self._x
        self._x = x
        for letter in self.letters:
            letter.x += amt

    @property
    def y(self):
        return self._y

    @y.setter
    def y(self, y):
        amt = y - self._y
        self._y = y
        for letter in self.letters:
            letter.y += amt

    @property
    def w(self):
        try:
            w = 0
            for letter in self.letters:
                new_w = letter.x2 - self.letters[0].x1
                if new_w > w: w = new_w
            return w
        except:
            return 0

    @property
    def h(self):
        try:
            return self.letters[-1].y2 - self.letters[0].y1
        except:
            return 0

    #

    #COLOR
    _color = Color(255, 255, 255, 255)

    @property
    def color(self):
        return self._color

    @color.setter
    def color(self, c):
        color = [v for v in c]
        for letter in self.letters:
            letter.color = Color(*color)
        self._color = Color(*color)

    _alpha = 255

    @property
    def alpha(self):
        return self._alpha

    @alpha.setter
    def alpha(self, a):
        for letter in self.letters:
            c = letter.color
            c.a = a
            letter.color = c
        self._alpha = a

    #

    class Letter(_Letter, Rectangle):
        # * Position
        # * Color

        def __init__(self, position, letter):
            self.position = position
            self.size = 0, 0
            self.letter = letter
            self.color = Color(255, 255, 255, 255)
Пример #19
0
 def shadow(self):  #draw
     w, h = self.size
     b = RectangleShape((w, self.rise))
     b.position = self.x, self.y2
     b.fill_color = Color(0, 0, 0, 255)
     return b
Пример #20
0
def main():
    logg.info('Starting the main function')

    #Instancing, etc.

    main_view = View().from_rect(
        FloatRect(0, 0, PP_WIDTH, PP_HEIGHT + BAR_HEIGHT))
    window = RenderWindow(
        VideoMode(PP_WIDTH * SCALE, (PP_HEIGHT + BAR_HEIGHT) * SCALE),
        GAME_TITLE + ' v.' + GAME_VERSION)
    window.framerate_limit = 61
    window.view = main_view

    # INITIALIZE TEXTURES HERE OR AFTER \o/
    TEXTURE_WALL = Texture.load_from_file('main/walls.png')
    TEXTURE_BAR = Texture.load_from_file('main/bar.png')
    TEXTURE_HUDWEAPONS = Texture.load_from_file('main/hud_weapons.png')
    TEXTURE_FACES = Texture.load_from_file('main/faces.png')
    TEXTURE_NUMBERS = Texture.load_from_file('main/numbers.png')
    TEXTURE_WEAPONS = Texture.load_from_file('main/weapons.png')
    TEXTURE_ENEMIES = Texture.load_from_file('main/test.png')

    #Create an instance for all game variables and loop functions
    # and set the level to TESTLEVEL
    game = Gameworld(TEXTURE_ENEMIES)
    game.create_dict_map()
    game.player.gamemap = game.current_level
    game.init_physics()
    game.physics.mob_bodies(game.entities)

    #prepare the hud

    hud = Hud(player=game.player,
              background=TEXTURE_BAR,
              faces=TEXTURE_FACES,
              hudweapons=TEXTURE_HUDWEAPONS,
              weapons=TEXTURE_WEAPONS,
              numbers=TEXTURE_NUMBERS)

    #prepare the wall textures

    wall_sprites = game.create_wall_sprite_list(TEXTURE_WALL)

    rays = Raycaster(player=game.player,
                     sprites=wall_sprites,
                     gamemap=game.current_level)

    #prepare other stuff

    player_action = ''

    running = True
    nofocus = False

    ##
    # MAIN LOOP
    ##

    logg.info('Main loop starting...')
    while running:

        #iterate events

        for event in window.iter_events():
            if event.type == Event.CLOSED or player_action == 'quit':
                running = False

            if event.type == Event.LOST_FOCUS:
                nofocus = True
            elif event.type == Event.GAINED_FOCUS:
                nofocus = False

            if event.type == Event.KEY_RELEASED:
                if game.player.bob > 0:  #level the headbobbing
                    game.player.bob -= .5
                elif game.player.bob < 0:
                    game.player.bob += .5

                game.player.strafing = False
                #disable speed limiter for moving in 2 axii

        window.clear(Color(235, 235, 235,
                           255))  #clear the window of everything

        for sprite in wall_sprites:  #draw walls
            window.draw(sprite)

        #draw entities here
        for entity in game.entities:
            if entity.visible == True:
                for sprite_slice in entity.sprite:
                    window.draw(sprite_slice)

        hud.display(window)  #draw the hud

        debug_txt = text('[' + str(draw_fps(frame)) + '] ' +
                         str("{0:.2f}".format(game.player.ux)) + '(' +
                         str(game.player.x) + '),' +
                         str("{0:.2f}".format(game.player.uy)) + '(' +
                         str(game.player.y) + '):' + str(game.player.heading),
                         style=1)
        window.draw(debug_txt)

        wall_sprites = rays.texture_slices(
            rays.cast_rays(), wall_sprites,
            game.player.bob)  #determine which walls to display

        #determine wich entities to display and prepare
        for entity in game.entities:  #calculate the distance of entities to the player
            entity.distance_to_player(game.player)
            # print(str(round(entity.distance, 2)) + " " + str(entity.x) + "," + str(entity.y))

        game.entities.sort(key=lambda x: x.distance,
                           reverse=True)  #sort entities based on the distance

        for entity in game.entities:
            entity.set_sprite_for_display(game.player, rays.distances)

        ###
        # TIMERS
        ###

        if game.player.attack_delay > 0 and game.player.attack == True:
            game.player.attack_delay -= 1
        elif game.player.attack == True and game.player.attack_delay == 0:
            game.player.attack = False
            game.player.attack_delay = 2
        elif game.player.attack == False and game.player.attack_delay > 0:
            game.player.attack_delay -= 1

        if len(game.doors) != 0:
            # print('lol doors')
            for door in game.doors:
                # print(door.openess)
                state = door.open_close()
                # print(state)
                if state == 'done':
                    # print('removing doors')
                    game.doors.remove(door)

        game.physics.world.ClearForces()

        if not nofocus:
            player_action = game.handle_keys()  #player input

        game.physics.world.Step(1.0 / 60.0, 10, 8)

        game.player.update_position()
        for entity in game.entities:
            entity.update_position()

        window.display()  #blit to window

    window.close()

    logg.info('Terminating. Have a nice day.')
    logg.info('Average FPS: %s', round(average_fps / all_frames, 2))
Пример #21
0
class Cancel_Button(Button):

    hovered_color = Color(255, 150, 150)
    held_color = Color.RED
    selected_color = Color.RED
    text = "Nah"
Пример #22
0
 class active_colors:
     normal_color = Color(100, 100, 100)
     hovered_color = Color(150, 150, 150)
     held_color = hovered_color
     selected_color = hovered_color
Пример #23
0
class Accept_Button(Button):
    hovered_color = Color(150, 255, 150)
    held_color = Color.GREEN
    selected_color = Color.GREEN
    text = "Sure"