Esempio n. 1
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def write_comparator(canvas, t=I):
    width = GS
    t = I.move((0.5 * width, 0.0)).transform(t)
    Line(COMPARATOR_POINTS, I.scale(0.3, 0.3).transform(t)).write(canvas)
    Line(COMPARATOR_POINTS, I.scale(-0.3, -0.3).transform(t)).write(canvas)
    Line(EQ_TRIANGLE, I.scale(-1.3, 1.3).transform(t)).write(canvas)
    return t.move(t.transform_vector((0.5 * GS, 0.0)))
Esempio n. 2
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def write_converter(labels, canvas, t=I):
    width = GS
    t = I.move((0.5 * width, 0.0)).transform(t)
    Square(I.scale(1.5, 1.5).transform(t)).write(canvas)
    Line(((-0.75, -0.75), (0.75, 0.75)), t).write(canvas)
    canvas.text(labels[0], t.transform_point((-0.35, 0.35)))
    canvas.text(labels[1], t.transform_point((0.35, -0.35)))
    return t.move(t.transform_vector((0.5 * width, 0.0)))
Esempio n. 3
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def write_temp_sensor(canvas, t = I):
    width = GS
    t = I.move((0.5 * width, 0.0)).transform(t)
    Square(I.scale(RESISTOR_RATIO, 1.0).move((0.0, 0.0)).transform(t)).write(canvas)
    Line(((0.4, 0.4), (-0.4, -0.4), (-0.7, -0.4)), t).write(canvas)
    # Square(I.scale(1.5, 1.5).transform(t)).write(canvas)
    canvas.text('$\\vartheta$', t.transform_point((-0.55, -0.4)), position='n')
    return I.move((0.2 * GS, 0.0)).transform(t)
Esempio n. 4
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def write_pump(canvas, transf=I):
    symbol = Circle(transf)
    symbol.write(canvas)
    t = I.scale(-0.6, 0.6).transform(transf)
    symbol = Line(EQ_TRIANGLE, t)
    symbol.write(canvas)
    return transf.move(transf.transform_vector((1.5, 0.0)))
Esempio n. 5
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def write_arrow(canvas, t=I):
    width = GS
    Line(((0.3, 0.0), (width - 0.3, 0.0)), t).write(canvas)
    Line(EQ_TRIANGLE,
         I.scale(-0.3, 0.3).move(
             (width - 0.3, 0.0)).transform(t)).write(canvas)
    return t.move(t.transform_vector((width, 0.0)))
Esempio n. 6
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def write_pump(canvas, transf=I):
    if canvas is not None:
        symbol = Circle(transf)
        symbol.write(canvas)
        t = I.scale(-0.6, 0.6).transform(transf)
        symbol = Line(EQ_TRIANGLE, t)
        symbol.write(canvas)
    return transf.r_move(-0.5, 0.0), transf.r_move(0.5, 0.0)
Esempio n. 7
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def write_join(canvas, t1, t2):
    x1, y1 = t1.get_offset()
    x2, y2 = t2.get_offset()
    x = max((x1, x2)) + 0.5
    y = 0.5 * (y1 + y2)
    Line([(x1, y1), (x, y1), (x, y2), (x2, y2)]).write(canvas)
    Line([(x, y), (x + 0.5, y)]).write(canvas)
    return I.move_to((x + 0.5, y))
Esempio n. 8
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def clip_margins(canvas, left=0.0, top=0.0, right=0.0, bottom=0.0):
    width, height = canvas.clip_region.get_size()
    width -= left + right
    height -= top + bottom
    return LocalScheme(
        canvas=canvas,
        t=I.r_move(*canvas.clip_region.lb_point)\
            .r_move(left, bottom)\
            .r_move(0.5*width, 0.5*height),
        clip_region=ClipRegion((-0.5*width, -0.5*height), (0.5*width, 0.5*height))
    )
Esempio n. 9
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def write_fork(canvas, t=I):
    width = GS
    Line(((0.3, 0.0), (width - 0.3, 0.0)), t).write(canvas)
    Line(((width - 0.3, 1.25 * GS), (0.5 * width, 1.25 * GS),
          (0.5 * width, -1.25 * GS), (width - 0.3, -1.25 * GS)),
         t).write(canvas)
    Line(EQ_TRIANGLE,
         I.scale(-0.3, 0.3).move(
             (width - 0.3, 1.25 * GS)).transform(t)).write(canvas)
    Line(EQ_TRIANGLE,
         I.scale(-0.3, 0.3).move(
             (width - 0.3, 0.0)).transform(t)).write(canvas)
    Line(EQ_TRIANGLE,
         I.scale(-0.3, 0.3).move(
             (width - 0.3, -1.25 * GS)).transform(t)).write(canvas)
    return [
        I.move((width, 1.25 * GS)).transform(t),
        I.move((width, 0.0)).transform(t),
        I.move((width, -1.25 * GS)).transform(t)
    ]
Esempio n. 10
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def clip_rb(canvas, width, height):
    return LocalScheme(canvas=canvas,
                       t=I.r_move(*canvas.clip_region.get_rb_point()).r_move(
                           -0.5 * width, 0.5 * height),
                       clip_region=ClipRegion((-0.5 * width, -0.5 * height),
                                              (0.5 * width, 0.5 * height)))
Esempio n. 11
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 def move(self, offset):
     return LocalScheme(self,
                        t=I.r_move(*offset),
                        clip_region=self.clip_region.move(offset))
Esempio n. 12
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 def move(self, offset=(0.0, 0.0)):
     return LocalScheme(
         canvas=self,
         t=I.r_move(*offset),
         clip_region=self.clip_region
     )
Esempio n. 13
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def write_radiator(canvas, transf=I):
    symbol = Square(I.scale(3.0, 4.0).transform(transf))
    symbol.write(canvas)
    return transf.move(transf.transform_vector((4.0, 0.0)))
Esempio n. 14
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                                               0),
                                         labels=['21', '', '14'])
# paralelne ke kontaktum rele je ta spinaci svorka
tsp = write_disconnect_terminal(canvas, t2)
tj = write_join(canvas, tno, tsp)
# civka solenoidu
write_n(canvas, write_wire(canvas, write_coil(canvas, tj)))
# civka rele
tc = write_coil(canvas, t1.r_move(0.0, 1.5), labels=['A1', 'A2'])
write_wire(canvas, tc.r_move(-2.5, 0.0))
tt = write_wire(canvas, tc)
write_gnd(canvas, tt)
# kontakt modulu quido
tco, tnc, tno = write_change_over_switch(canvas,
                                         get_t(write_change_over_switch,
                                               tc.r_move(-2.5, 0.0), 2),
                                         labels=['C1', 'NC1', 'NO1'])
write_wire(canvas, tco.r_move(-1.5, 0.0))
write_ref(canvas, tco.r_move(-1.5, 0.0), text='WD')

tco, tc, to = write_change_over_switch(canvas,
                                       I.r_move(0.0, 7.0),
                                       labels=['c1', 'nc1', 'no1'])
tc, tsc, tso = write_rele(canvas,
                          write_wire(canvas, to),
                          labels=['A1', 'A2', '21', '', '14'])
write_gnd(canvas, write_wire(canvas, tc))
write_n(canvas, write_wire(canvas, write_coil(canvas, write_wire(canvas,
                                                                 tso))))
write_disconnect_terminal(canvas, tc.r_move(2.0, 0.0))
Esempio n. 15
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def get_t(write_fn, t1, i):
    t2 = write_fn(None)[i]
    x1, y1 = t1.get_offset()
    x2, y2 = t2.get_offset()
    dx, dy = x1 - x2, y1 - y2
    return I.r_move(dx, dy)
Esempio n. 16
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def write_heater(canvas, transf=I):
    if canvas is not None:
        t = I.scale(2.0, 3.0).transform(transf)
        symbol = Square(t)
        symbol.write(canvas)
    return transf.r_move(-1.0, 0.0), transf.r_move(1.0, 0.0)
Esempio n. 17
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def write_heater(canvas, transf=I):
    t = I.scale(3.0, 4.0).transform(transf)
    symbol = Square(t)
    symbol.write(canvas)
    return transf.move(transf.transform_vector((3.0, 0.0)))
Esempio n. 18
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def write_radiator(canvas, transf=I):
    if canvas is not None:
        symbol = Square(I.scale(2.0, 3.0).transform(transf))
        symbol.write(canvas)
    return transf.r_move(-1.0, 0.0), transf.r_move(1.0, 0.0)
Esempio n. 19
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def draw_frame(canvas, geometry):
    """ It draw a scheme frame on the given schema. """

    #raw_size=canvas.get_size()
    # Vykresovy list
    drawing_frame_size = geometry['DRAWING_FRAME_SIZE']
    grid_frame_size = geometry['GRID_FRAME_SIZE']
    outer_frame_size = geometry['OUTER_FRAME_SIZE']
    schema = canvas.move([0.5 * d for d in canvas.clip_region.get_size()])
    schema.draw_rect(*outer_frame_size, style='tiny')  # draw outer frame
    schema.draw_rect(*grid_frame_size, style='tiny')  #
    schema.draw_rect(*drawing_frame_size, style='normal')
    frame_margin = 0.5 * (outer_frame_size[0] - drawing_frame_size[0])
    # draw center marks
    x, y = grid_frame_size
    x, y = 0.5 * x, 0.5 * y
    size = grid_frame_size[0] - drawing_frame_size[0]
    schema.draw_hline(x, 0, -size)
    schema.draw_hline(-x, 0, size)
    schema.draw_vline(0, y, -size)
    schema.draw_vline(0, -y, size)
    # center triangles
    schema.draw_line(
        I.r_move(x - 5.0, 0.0).r_scale(-5.0,
                                       5.0).transform_points(EQ_TRIANGLE))
    schema.draw_line(
        I.r_move(0.0, -y + 5.0).r_scale(
            -5.0, 5.0).rotate_vect().transform_points(EQ_TRIANGLE))
    # draw grid
    y = 0.5 * grid_frame_size[1]
    hgrid, vgrid = geometry['GRID']
    size = 0.5 * size
    dist = 0.5 * grid_frame_size[0] / hgrid
    for i in range(hgrid - 1):
        x = (i + 1) * dist
        schema.draw_vline(x, y, -size)
        schema.draw_vline(-x, y, -size)
        schema.draw_vline(x, -y, size)
        schema.draw_vline(-x, -y, size)
        schema.text(GRID_NUMBERS[hgrid - 1 - i],
                    (-x + 0.5 * dist, y - 0.5 * size),
                    size='large')
        schema.text(GRID_NUMBERS[hgrid + i], (x - 0.5 * dist, y - 0.5 * size),
                    size='large')
        schema.text(GRID_NUMBERS[hgrid - 1 - i],
                    (-x + 0.5 * dist, -y + 0.5 * size),
                    size='large')
        schema.text(GRID_NUMBERS[hgrid + i], (x - 0.5 * dist, -y + 0.5 * size),
                    size='large')
    schema.text(GRID_NUMBERS[0], (-(hgrid - 0.5) * dist, y - 0.5 * size),
                size='large')
    schema.text(GRID_NUMBERS[hgrid * 2 - 1],
                ((hgrid - 0.5) * dist, y - 0.5 * size),
                size='large')
    schema.text(GRID_NUMBERS[0], (-(hgrid - 0.5) * dist, -y + 0.5 * size),
                size='large')
    schema.text(GRID_NUMBERS[hgrid * 2 - 1],
                ((hgrid - 0.5) * dist, -y + 0.5 * size),
                size='large')

    dist = 0.5 * grid_frame_size[1] / vgrid
    x = 0.5 * grid_frame_size[0]
    for i in range(vgrid - 1):
        x = 0.5 * grid_frame_size[0]
        y = (i + 1) * dist
        schema.draw_hline(x, y, -size)
        schema.draw_hline(x, -y, -size)
        schema.draw_hline(-x, y, size)
        schema.draw_hline(-x, -y, size)
        x = x - 0.5 * size
        y = (i + 0.5) * dist
        schema.text(GRID_LETTERS[vgrid - 1 - i], (x, y), size='large')
        schema.text(GRID_LETTERS[vgrid - 1 - i], (-x, y), size='large')
        schema.text(GRID_LETTERS[vgrid + i], (x, -y), size='large')
        schema.text(GRID_LETTERS[vgrid + i], (-x, -y), size='large')
    x = 0.5 * (grid_frame_size[0] - size)
    y = (vgrid - 0.5) * dist
    schema.text(GRID_LETTERS[0], (x, y), size='large')
    schema.text(GRID_LETTERS[0], (-x, y), size='large')
    schema.text(GRID_LETTERS[2 * vgrid - 1], (x, -y), size='large')
    schema.text(GRID_LETTERS[2 * vgrid - 1], (-x, -y), size='large')
    # draw cut marks
    cut_points = ((0.0, 0.0), (10.0, 0.0), (10.0, 2.0), (2.0, 2.0),
                  (2.0, 10.0), (0.0, 10.0), (0.0, 0.0))
    x = 0.5 * grid_frame_size[0] + 2.0
    y = 0.5 * grid_frame_size[1] + 2.0
    schema.draw_line(
        I.r_scale(1.0, 1.0).r_move(-x, -y).transform_points(cut_points))
    schema.draw_line(
        I.r_scale(1.0, -1.0).r_move(-x, -y).transform_points(cut_points))
    schema.draw_line(
        I.r_scale(-1.0, 1.0).r_move(-x, -y).transform_points(cut_points))
    schema.draw_line(
        I.r_scale(-1.0, -1.0).r_move(-x, -y).transform_points(cut_points))

    return LocalScheme(
        schema, I.r_move(frame_margin, frame_margin),
        schema.clip_region.margins(frame_margin).move(
            (frame_margin, frame_margin)))