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|
import sys
import math
import warnings
from copy import copy
from itertools import zip_longest, chain
from dataclasses import dataclass, field, KW_ONLY
from collections import defaultdict
from ..utils import LengthUnit, MM, rotate_point, svg_arc, sum_bounds, bbox_intersect, Tag, offset_bounds
from ..layers import LayerStack
from ..graphic_objects import Line, Arc, Flash
from ..apertures import Aperture, CircleAperture, ObroundAperture, RectangleAperture, ExcellonTool
from ..newstroke import Newstroke
def sgn(x):
return -1 if x < 0 else 1
class KeepoutError(ValueError):
def __init__(self, obj, keepout, *args, **kwargs):
super().__init__(*args, **kwargs)
self.obj = obj
self.keepout = keepout
newstroke_font = None
class Board:
def __init__(self, w=None, h=None, corner_radius=1.5, center=False, default_via_hole=0.4, default_via_diameter=0.8, x=0, y=0, rotation=0, unit=MM):
self.x, self.y = x, y
self.rotation = 0
self.objects = []
self.outline = []
self.extra_silk_top = []
self.extra_silk_bottom = []
self.keepouts = []
self.default_via_hole = MM(default_via_hole, unit)
self.default_via_diameter = MM(default_via_diameter, unit)
self.unit = unit
if w or h:
if w and h:
self.rounded_rect_outline(w, h, r=corner_radius, center=center)
self.w, self.h = w, h
else:
raise ValueError('Either both, w and h, or neither of them must be given.')
else:
self.w = self.h = None
@property
def abs_pos(self):
return self.x, self.y, self.rotation
def add_silk(self, side, obj):
if side not in ('top', 'bottom'):
raise ValueError('side must be one of "top" or "bottom".')
if side == 'top':
self.extra_silk_top.append(obj)
else:
self.extra_silk_bottom.append(obj)
def add_text(self, *args, **kwargs):
self.objects.append(Text(*args, **kwargs))
def add_keepout(self, bbox, unit=MM):
((_x_min, _y_min), (_x_max, _y_max)) = bbox
self.keepouts.append(MM.convert_bounds_from(unit, bbox))
def add(self, obj, keepout_errors='raise'):
if keepout_errors not in ('ignore', 'raise', 'warn', 'skip'):
raise ValueError('keepout_errors must be one of "ignore", "raise", "warn" or "skip".')
if keepout_errors != 'ignore':
for ko in self.keepouts:
if obj.overlaps(ko, unit=MM):
if keepout_errors == 'warn':
warnings.warn(msg)
elif keepout_errors == 'raise':
raise KeepoutError(obj, ko, msg)
return
obj.parent = self
self.objects.append(obj)
def via(self, x, y, diameter=None, hole=None, keepout_errors='raise', unit=MM):
diameter = diameter or unit(self.default_via_dia, MM)
hole = hole or unit(self.default_via_hole, MM)
obj = Via(x, y, diameter, hole, unit=unit, keepout_errors=keepout_errors)
self.add(obj)
return obj
def rounded_rect_outline(self, w, h, r=0, x0=None, y0=None, center=False, unit=MM):
if x0 is None:
x0 = -w/2 if center else 0
if y0 is None:
y0 = -h/2 if center else 0
ap = CircleAperture(0.05, unit=MM)
self.outline.append(Line(x0+r, y0, x0+w-r, y0, ap, unit=unit))
if r:
self.outline.append(Arc(x0+w-r, y0, x0+w, y0+r, 0, r, False, ap, unit=unit))
self.outline.append(Line(x0+w, y0+r, x0+w, y0+h-r, ap, unit=unit))
if r:
self.outline.append(Arc(x0+w, y0+h-r, x0+w-r, y0+h, -r, 0, False, ap, unit=unit))
self.outline.append(Line(x0+w-r, y0+h, x0+r, y0+h, ap, unit=unit))
if r:
self.outline.append(Arc(x0+r, y0+h, x0, y0+h-r, 0, -r, False, ap, unit=unit))
self.outline.append(Line(x0, y0+h-r, x0, y0+r, ap, unit=unit))
if r:
self.outline.append(Arc(x0, y0+r, x0+r, y0, r, 0, False, ap, unit=unit))
def layer_stack(self, layer_stack=None):
if layer_stack is None:
layer_stack = LayerStack()
for obj in chain(self.objects):
obj.render(layer_stack)
layer_stack['mechanical', 'outline'].objects.extend(self.outline)
layer_stack['top', 'silk'].objects.extend(self.extra_silk_top)
layer_stack['bottom', 'silk'].objects.extend(self.extra_silk_bottom)
return layer_stack
def svg(self, margin=0, arg_unit=MM, svg_unit=MM, force_bounds=None):
return self.layer_stack().to_svg(margin=margin, arg_unit=arg_unit, svg_unit=svg_unit,
force_bounds=force_bounds)
def pretty_svg(self, side='top', margin=0, arg_unit=MM, svg_unit=MM, force_bounds=None, inkscape=False, colors=None):
return self.layer_stack().to_pretty_svg(side=side, margin=margin, arg_unit=arg_unit, svg_unit=svg_unit,
force_bounds=force_bounds, inkscape=inkscape, colors=colors)
@dataclass
class Positioned:
x: float
y: float
_: KW_ONLY
rotation: float = 0.0
side: str = 'top'
unit: LengthUnit = MM
parent: object = None
def flip(self):
self.side = 'top' if self.side == 'bottom' else 'bottom'
@property
def abs_pos(self):
if self.parent is None:
px, py, pa = 0, 0, 0
else:
px, py, pa = self.parent.abs_pos
return self.x+px, self.y+py, self.rotation+pa
def bounding_box(self, unit=MM):
stack = LayerStack()
self.render(stack)
objects = chain(*(l.objects for l in stack.graphic_layers.values()),
stack.drill_pth.objects, stack.drill_npth.objects)
objects = list(objects)
#print('foo', type(self).__name__,
# [(type(obj).__name__, [prim.bounding_box() for prim in obj.to_primitives(unit)]) for obj in objects], file=sys.stderr)
return sum_bounds(prim.bounding_box() for obj in objects for prim in obj.to_primitives(unit))
def overlaps(self, bbox, unit=MM):
return bbox_intersect(self.bounding_box(unit), bbox)
@property
def single_sided(self):
return True
@dataclass
class ObjectGroup(Positioned):
top_copper: list = field(default_factory=list)
top_mask: list = field(default_factory=list)
top_silk: list = field(default_factory=list)
top_paste: list = field(default_factory=list)
bottom_copper: list = field(default_factory=list)
bottom_mask: list = field(default_factory=list)
bottom_silk: list = field(default_factory=list)
bottom_paste: list = field(default_factory=list)
drill_npth: list = field(default_factory=list)
drill_pth: list = field(default_factory=list)
objects: list = field(default_factory=list)
def render(self, layer_stack):
x, y, rotation = self.abs_pos
top, bottom = ('bottom', 'top') if self.side == 'bottom' else ('top', 'bottom')
for obj in self.objects:
obj.parent = self
obj.render(layer_stack)
for target, source in [
(layer_stack[top, 'copper'], self.top_copper),
(layer_stack[top, 'mask'], self.top_mask),
(layer_stack[top, 'silk'], self.top_silk),
(layer_stack[top, 'paste'], self.top_paste),
(layer_stack[bottom, 'copper'], self.bottom_copper),
(layer_stack[bottom, 'mask'], self.bottom_mask),
(layer_stack[bottom, 'silk'], self.bottom_silk),
(layer_stack[bottom, 'paste'], self.bottom_paste),
(layer_stack.drill_pth, self.drill_pth),
(layer_stack.drill_npth, self.drill_npth)]:
for fe in source:
fe = copy(fe)
fe.rotate(rotation)
fe.offset(x, y, self.unit)
target.objects.append(fe)
def bounding_box(self, unit=MM):
if math.isclose(self.rotation, 0, abs_tol=1e-3):
return offset_bounds(sum_bounds((obj.bounding_box(unit=unit) for obj in chain(
self.top_copper,
self.top_mask,
self.top_silk,
self.top_paste,
self.bottom_copper,
self.bottom_mask,
self.bottom_silk,
self.bottom_paste,
self.drill_npth,
self.drill_pth,
self.objects,
))), unit(self.x, self.unit), unit(self.y, self.unit))
else:
return super().bounding_box(unit)
@property
def single_sided(self):
any_top = self.top_copper or self.top_mask or self.top_paste or self.top_silk
any_bottom = self.bottom_copper or self.bottom_mask or self.bottom_paste or self.bottom_silk
any_drill = self.drill_npth or self.drill_pth
return not (any_drill or (any_top and any_bottom))
@dataclass
class Text(Positioned):
text: str
font_size: float = 2.5
stroke_width: float = 0.25
h_align: str = 'left'
v_align: str = 'bottom'
layer: str = 'silk'
polarity_dark: bool = True
def render(self, layer_stack):
obj_x, obj_y, rotation = self.abs_pos
global newstroke_font
if newstroke_font is None:
newstroke_font = Newstroke()
strokes = list(newstroke_font.render(self.text, size=self.font_size))
if not strokes:
return
xs = [x for points in strokes for x, _y in points]
ys = [y for points in strokes for _x, y in points]
min_x, min_y, max_x, max_y = min(xs), min(ys), max(xs), max(ys)
if self.h_align == 'left':
x0 = 0
elif self.h_align == 'center':
x0 = -max_x/2
elif self.h_align == 'right':
x0 = -max_x
else:
raise ValueError('h_align must be one of "left", "center", or "right".')
if self.v_align == 'top':
y0 = -(max_y - min_y)
elif self.v_align == 'middle':
y0 = -(max_y - min_y)/2
elif self.v_align == 'bottom':
y0 = 0
else:
raise ValueError('v_align must be one of "top", "middle", or "bottom".')
if self.side == 'bottom':
x0 += min_x + max_x
x_sign = -1
else:
x_sign = 1
ap = CircleAperture(self.stroke_width, unit=self.unit)
for stroke in strokes:
for (x1, y1), (x2, y2) in zip(stroke[:-1], stroke[1:]):
obj = Line(x0+x_sign*x1, y0-y1, x0+x_sign*x2, y0-y2, aperture=ap, unit=self.unit, polarity_dark=self.polarity_dark)
obj.rotate(rotation)
obj.offset(obj_x, obj_y)
layer_stack[self.side, self.layer].objects.append(obj)
@dataclass
class Pad(Positioned):
pass
@dataclass
class SMDPad(Pad):
copper_aperture: Aperture
mask_aperture: Aperture
paste_aperture: Aperture
silk_features: list = field(default_factory=list)
def render(self, layer_stack):
x, y, rotation = self.abs_pos
layer_stack[self.side, 'copper'].objects.append(Flash(x, y, self.copper_aperture.rotated(rotation), unit=self.unit))
layer_stack[self.side, 'mask' ].objects.append(Flash(x, y, self.mask_aperture.rotated(rotation), unit=self.unit))
if self.paste_aperture:
layer_stack[self.side, 'paste' ].objects.append(Flash(x, y, self.paste_aperture.rotated(rotation), unit=self.unit))
layer_stack[self.side, 'silk' ].objects.extend([copy(feature).rotate(rotation).offset(x, y, self.unit)
for feature in self.silk_features])
@classmethod
def rect(kls, x, y, w, h, rotation=0, side='top', mask_expansion=0.0, paste_expansion=0.0, paste=True, unit=MM):
ap_c = RectangleAperture(w, h, unit=unit)
ap_m = RectangleAperture(w+2*mask_expansion, h+2*mask_expansion, unit=unit)
ap_p = RectangleAperture(w+2*paste_expansion, h+2*paste_expansion, unit=unit) if paste else None
return kls(x, y, side=side, copper_aperture=ap_c, mask_aperture=ap_m, paste_aperture=ap_p, rotation=rotation,
unit=unit)
@classmethod
def circle(kls, x, y, dia, side='top', mask_expansion=0.0, paste_expansion=0.0, paste=True, unit=MM):
ap_c = CircleAperture(dia, unit=unit)
ap_m = CircleAperture(dia+2*mask_expansion, unit=unit)
ap_p = CircleAperture(dia+2*paste_expansion, unit=unit) if paste else None
return kls(x, y, side=side, copper_aperture=ap_c, mask_aperture=ap_m, paste_aperture=ap_p, unit=unit)
@dataclass
class THTPad(Pad):
drill_dia: float
pad_top: SMDPad
pad_bottom: SMDPad = None
aperture_inner: Aperture = None
plated: bool = True
def __post_init__(self):
if self.pad_bottom is None:
import sys
self.pad_bottom = copy(self.pad_top)
self.pad_bottom.flip()
self.pad_top.parent = self.pad_bottom.parent = self
if (self.pad_top.side, self.pad_bottom.side) != ('top', 'bottom'):
raise ValueError(f'The top and bottom pads must have side set to top and bottom, respectively. Currently, the top pad side is set to "{self.pad_top.side}" and the bottom pad side to "{self.pad_bottom.side}".')
def render(self, layer_stack):
x, y, rotation = self.abs_pos
self.pad_top.parent = self
self.pad_top.render(layer_stack)
if self.pad_bottom:
self.pad_bottom.parent = self
self.pad_bottom.render(layer_stack)
if self.aperture_inner is None:
(x_min, y_min), (x_max, y_max) = self.pad_top.bounding_box(MM)
w_top = x_max - x_min
h_top = y_max - y_min
if self.pad_bottom:
(x_min, y_min), (x_max, y_max) = self.pad_bottom.bounding_box(MM)
w_bottom = x_max - x_min
h_bottom = y_max - y_min
w_top = min(w_top, w_bottom)
h_top = min(h_top, h_bottom)
self.aperture_inner = CircleAperture(min(w_top, h_top), unit=MM)
for (side, use), layer in layer_stack.inner_layers:
layer.objects.append(Flash(x, y, self.aperture_inner.rotated(rotation), unit=self.unit))
hole = Flash(x, y, ExcellonTool(self.drill_dia, plated=self.plated, unit=self.unit), unit=self.unit)
if self.plated:
layer_stack.drill_pth.objects.append(hole)
else:
layer_stack.drill_npth.objects.append(hole)
@property
def single_sided(self):
return False
@classmethod
def rect(kls, x, y, hole_dia, w, h=None, rotation=0, mask_expansion=0.0, paste_expansion=0.0, paste=True, plated=True, unit=MM):
if h is None:
h = w
pad = SMDPad.rect(0, 0, w, h, mask_expansion=mask_expansion, paste_expansion=paste_expansion, paste=paste, unit=unit)
return kls(x, y, hole_dia, pad, rotation=rotation, plated=plated, unit=unit)
@classmethod
def circle(kls, x, y, hole_dia, dia, mask_expansion=0.0, paste_expansion=0.0, paste=True, plated=True, unit=MM):
pad = SMDPad.circle(0, 0, dia, mask_expansion=mask_expansion, paste_expansion=paste_expansion, paste=paste, unit=unit)
return kls(x, y, hole_dia, pad, plated=plated, unit=unit)
@classmethod
def obround(kls, x, y, hole_dia, w, h, rotation=0, mask_expansion=0.0, paste_expanson=0.0, paste=True, plated=True, unit=MM):
ap_c = ObroundAperture(w, h, unit=unit)
ap_m = ObroundAperture(w+2*mask_expansion, h+2*mask_expansion, unit=unit)
ap_p = ObroundAperture(w, h, unit=unit) if paste else None
pad = SMDPad(0, 0, side='top', copper_aperture=ap_c, mask_aperture=ap_m, paste_aperture=ap_p, unit=unit)
return kls(x, y, hole_dia, pad, rotation=rotation, plated=plated, unit=unit)
@dataclass
class Hole(Positioned):
diameter: float
mask_copper_margin: float = 0.2
def render(self, layer_stack):
x, y, rotation = self.abs_pos
hole = Flash(x, y, ExcellonTool(self.diameter, plated=False, unit=self.unit), unit=self.unit)
layer_stack.drill_npth.objects.append(hole)
if self.mask_copper_margin > 0:
mask = Flash(x, y, CircleAperture(self.mask_copper_margin, unit=self.unit), polarity_dark=False, unit=self.unit)
layer_stack['top', 'copper'].objects.append(mask)
layer_stack['bottom', 'copper'].objects.append(mask)
@property
def single_sided(self):
return False
@dataclass
class Via(Positioned):
diameter: float
hole: float
def render(self, layer_stack):
x, y, rotation = self.abs_pos
aperture = CircleAperture(diameter=self.diameter, unit=self.unit)
tool = ExcellonTool(diameter=self.hole, unit=self.unit)
for (side, use), layer in layer_stack.copper_layers:
layer.objects.append(Flash(x, y, aperture, unit=self.unit))
layer_stack.drill_pth.objects.append(Flash(x, y, tool, unit=self.unit))
@property
def single_sided(self):
return False
@dataclass
class Trace:
width: float
start: object = None
end: object = None
waypoints: [(float, float)] = field(default_factory=list)
style: str = 'oblique'
orientation: [str] = tuple() # 'top' or 'bottom'
roundover: float = 0
unit: LengthUnit = MM
parent: object = None
DIRECT = 'direct'
OBLIQUE = 'oblique'
ORTHO = 'ortho'
CW = 'cw'
CCW = 'ccw'
def _route(self, p1, p2, orientation):
x1, y1 = p1
x2, y2 = p2
dx = x2-x1
dy = y2-y1
yield p1
if self.style == 'direct' or \
math.isclose(x1, x2, abs_tol=1e-6) or math.isclose(y1, y2, abs_tol=1e-6) or \
(self.style == 'oblique' and math.isclose(dx, dy, abs_tol=1e-6)):
return
p = (abs(dy) > abs(dx)) == ((dx >= 0) == (dy >= 0))
if self.style == 'oblique':
if p == (orientation == 'cw'):
if abs(dy) > abs(dx):
yield (x1, y1+sgn(dy)*(abs(dy)-abs(dx)))
else:
yield (x1+sgn(dx)*(abs(dx)-abs(dy)), y1)
else:
if abs(dy) > abs(dx):
yield (x2, y1+sgn(dy)*abs(dx))
else:
yield (x1+sgn(dx)*abs(dy), y2)
else: # self.style == 'ortho'
if p == (orientation == 'cw'):
if abs(dy) > abs(dx):
yield (x1, y2)
else:
yield (x2, y1)
else:
if abs(dy) > abs(dx):
yield (x2, y1)
else:
yield (x1, y2)
@classmethod
def _midpoint(kls, p1, p2):
x1, y1 = p1
x2, y2 = p2
dx = x2 - x1
dy = y2 - y1
xm = x1 + dx / 2
ym = y1 + dy / 2
return (xm, ym)
@classmethod
def _point_on_line(kls, p1, p2, dist_from_p1):
x1, y1 = p1
x2, y2 = p2
dx = x2 - x1
dy = y2 - y1
dist = math.dist(p1, p2)
if math.isclose(dist, 0, abs_tol=1e-6):
return p2
xm = x1 + dx / dist * dist_from_p1
ym = y1 + dy / dist * dist_from_p1
return (xm, ym)
@classmethod
def _angle_between(kls, p1, p2, p3):
x1, y1 = p1
x2, y2 = p2
x3, y3 = p3
x1, y1 = x1 - x2, y1 - y2
x3, y3 = x3 - x2, y3 - y2
dot_product = x1*x3 + y1*y3
l1 = math.hypot(x1, y1)
l2 = math.hypot(x3, y3)
norm = dot_product / l1 / l2
return math.acos(min(1, max(-1, norm)))
def _round_over(self, points, aperture):
if math.isclose(self.roundover, 0, abs_tol=1e-6) or len(points) <= 2:
import sys
for p1, p2 in zip(points[:-1], points[1:]):
yield Line(*p1, *p2, aperture=aperture, unit=self.unit)
return
# here: len(points) >= 3
line_b = Line(*points[0], *self._midpoint(points[0], points[1]), aperture=aperture, unit=self.unit)
for p1, p2, p3 in zip(points[:-2], points[1:-1], points[2:]):
x1, y1 = p1
x2, y2 = p2
x3, y3 = p3
xa, ya = pa = self._midpoint(p1, p2)
xb, yb = pb = self._midpoint(p2, p3)
la = math.dist(pa, p2)
lb = math.dist(p2, pb)
alpha = self._angle_between(p1, p2, p3)
if alpha == 0:
l = Line(line_b.x1, line_b.y1, *p2, aperture=aperture, unit=self.unit)
line_b = Line(*p2, *pb, aperture=aperture, unit=self.unit)
yield l
continue
tr = self.roundover/math.tan(alpha/2)
t = min(la, lb, tr)
r = t*math.tan(alpha/2)
xs, ys = ps = self._point_on_line(p2, pa, t)
xe, ye = pe = self._point_on_line(p2, pb, t)
if math.isclose(t, la, abs_tol=1e-6):
if not math.isclose(line_b.curve_length(), 0, abs_tol=1e-6):
yield line_b
xs, ys = ps = pa
else:
yield Line(line_b.x1, line_b.y1, xs, ys, aperture=aperture, unit=self.unit)
if math.isclose(t, lb, abs_tol=1e-6):
xe, ye = pe = pb
line_b = Line(*pe, *pb, aperture=aperture, unit=self.unit)
if math.isclose(r, 0, abs_tol=1e-6):
continue
xc = -(y2 - ys) / t * r
yc = +(x2 - xs) / t * r
xsr = xs - x2
ysr = ys - y2
xer = xe - x2
yer = ye - y2
cross_product_z = xsr * yer - ysr * xer
clockwise = cross_product_z > 0
if clockwise:
xc, yc = -xc, -yc
yield Arc(*ps, *pe, xc, yc, clockwise, aperture=aperture, unit=self.unit)
yield Line(line_b.x1, line_b.y1, x3, y3, aperture=aperture, unit=self.unit)
def _to_graphic_objects(self):
start, end = self.start, self.end
if not isinstance(start, tuple):
*start, _rotation = start.abs_pos
if not isinstance(end, tuple):
*end, _rotation = end.abs_pos
aperture = CircleAperture(diameter=self.width, unit=self.unit)
points_in = [start, *self.waypoints, end]
points = []
for p1, p2, orientation in zip_longest(points_in[:-1], points_in[1:], self.orientation):
points.extend(self._route(p1, p2, orientation))
points.append(p2)
return self._round_over(points, aperture)
def render(self, layer_stack):
layer_stack[self.side, 'copper'].objects.extend(self._to_graphic_objects())
def _route_demo():
from ..utils import setup_svg, Tag
def pd_obj(objs):
objs = list(objs)
yield f'M {objs[0].x1}, {objs[0].y1}'
for obj in objs:
if isinstance(obj, Line):
yield f'L {obj.x2}, {obj.y2}'
else:
assert isinstance(obj, Arc)
yield svg_arc(obj.p1, obj.p2, obj.center_relative, obj.clockwise)
pd = lambda points: f'M {points[0][0]}, {points[0][1]} ' + ' '.join(f'L {x}, {y}' for x, y in points[1:])
font = Newstroke()
tags = []
for n in range(0, 8*6):
theta = 2*math.pi / (8*6) * n
dx, dy = math.cos(theta), math.sin(theta)
strokes = list(font.render(f'α={n/(8*6)*360}', size=0.2))
xs = [x for st in strokes for x, _y in st]
ys = [y for st in strokes for _x, y in st]
min_x, min_y, max_x, max_y = min(xs), min(ys), max(xs), max(ys)
xf = f'translate({n//6*1.1 + 0.1} {n%6*1.3 + 0.3}) scale(0.5 0.5) translate(1 1)'
txf = f'{xf} translate(0 -1.2) translate({-(max_x-min_x)/2} {-max_y})'
tags.append(Tag('circle', cx='0', cy='0', r='1',
fill='none', stroke='black', opacity='0.5', stroke_width='0.01',
transform=xf))
tags.append(Tag('path',
fill='none',
stroke='black', opacity='0.5', stroke_width='0.02', stroke_linejoin='round', stroke_linecap='round',
transform=txf, d=' '.join(pd(points) for points in strokes)))
#for r in [0.0, 0.1, 0.2, 0.3]:
for r in [0, 0.2]:
#tr = Trace(0.1, style='ortho', roundover=r, start=(0, 0), end=(dx, dy))
tr = Trace(0.1, style='oblique', roundover=r, start=(dx, dy), end=(0, 0))
#points_cw = list(tr._route((0, 0), (dx, dy), 'cw')) + [(dx, dy)]
#points_ccw = list(tr._route((0, 0), (dx, dy), 'ccw')) + [(dx, dy)]
tr.orientation = ['cw']
objs_cw = tr._to_graphic_objects()
tr.orientation = ['ccw']
objs_ccw = tr._to_graphic_objects()
tags.append(Tag('path',
fill='none',
stroke='red', stroke_width='0.01', stroke_linecap='round',
transform=xf, d=' '.join(pd_obj(objs_cw))))
tags.append(Tag('path',
fill='none',
stroke='blue', stroke_width='0.01', stroke_linecap='round',
transform=xf, d=' '.join(pd_obj(objs_ccw))))
#tags.append(Tag('path',
# fill='none',
# stroke='red', stroke_width='0.01', stroke_linecap='round',
# transform=xf, d=pd(points_cw)))
#tags.append(Tag('path',
# fill='none',
# stroke='blue', stroke_width='0.01', stroke_linecap='round',
# transform=xf, d=pd(points_ccw)))
print(setup_svg([Tag('g', tags, transform='scale(20 20)')], [(0, 0), (20*10*1.1 + 0.1, 20*10*1.3 + 0.1)]))
def _board_demo():
b = Board(100, 80)
p1 = THTPad.rect(10, 10, 0.9, 1.8)
b.add(p1)
p2 = THTPad.rect(20, 15, 0.9, 1.8)
b.add(p2)
b.add(Trace(0.5, p1, p2, style='ortho', roundover=1.5))
b.add_text(50, 50, 'Foobar')
print(b.pretty_svg())
b.layer_stack().save_to_directory('/tmp/testdir')
if __name__ == '__main__':
_board_demo()
#_route_demo()
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