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authorjaseg <git@jaseg.de>2023-04-05 16:06:03 +0200
committerjaseg <git@jaseg.de>2023-04-05 16:06:03 +0200
commit4c558f81116baf7dd63f6def6423175ea6a0e5d2 (patch)
treed7872b1450abf943558ae323de2a2bfc4470e088 /gerbonara
parentee0c1d38e6ba7a05c4e2b268fd73f0d9f779722b (diff)
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Add missing protoboard file, add powered proto layout
Diffstat (limited to 'gerbonara')
-rw-r--r--gerbonara/cad/protoboard.py341
1 files changed, 341 insertions, 0 deletions
diff --git a/gerbonara/cad/protoboard.py b/gerbonara/cad/protoboard.py
new file mode 100644
index 0000000..6ae8914
--- /dev/null
+++ b/gerbonara/cad/protoboard.py
@@ -0,0 +1,341 @@
+
+import sys
+import re
+import math
+from copy import copy, deepcopy
+import warnings
+
+from .primitives import *
+from ..graphic_objects import Region
+from ..apertures import RectangleAperture, CircleAperture
+
+
+class ProtoBoard(Board):
+ def __init__(self, w, h, content, margin=None, corner_radius=None, mounting_hole_dia=None, mounting_hole_offset=None, unit=MM):
+ corner_radius = corner_radius or unit(1.5, MM)
+ super().__init__(w, h, corner_radius, unit=unit)
+ self.margin = margin or unit(2, MM)
+ self.content = content
+
+ if mounting_hole_dia:
+ mounting_hole_offset = mounting_hole_offset or mounting_hole_dia*2
+ ko = mounting_hole_offset*2
+
+ self.add(Hole(mounting_hole_offset, mounting_hole_offset, mounting_hole_dia, unit=unit))
+ self.add(Hole(w-mounting_hole_offset, mounting_hole_offset, mounting_hole_dia, unit=unit))
+ self.add(Hole(mounting_hole_offset, h-mounting_hole_offset, mounting_hole_dia, unit=unit))
+ self.add(Hole(w-mounting_hole_offset, h-mounting_hole_offset, mounting_hole_dia, unit=unit))
+
+ self.keepouts.append(((0, 0), (ko, ko)))
+ self.keepouts.append(((w-ko, 0), (w, ko)))
+ self.keepouts.append(((0, h-ko), (ko, h)))
+ self.keepouts.append(((w-ko, h-ko), (w, h)))
+
+ self.generate()
+
+ def generate(self, unit=MM):
+ bbox = ((self.margin, self.margin), (self.w-self.margin, self.h-self.margin))
+ bbox = unit.convert_bounds_from(self.unit, bbox)
+ for obj in self.content.generate(bbox, unit):
+ self.add(obj, keepout_errors='skip')
+
+
+class PropLayout:
+ def __init__(self, content, direction, proportions):
+ self.content = list(content)
+ if direction not in ('h', 'v'):
+ raise ValueError('direction must be one of "h", or "v".')
+ self.direction = direction
+ self.proportions = list(proportions)
+ if len(content) != len(proportions):
+ raise ValueError('proportions and content must have same length')
+
+ def generate(self, bbox, unit=MM):
+ for bbox, child in self.layout_2d(bbox, unit):
+ yield from child.generate(bbox, unit)
+
+ def fit_size(self, w, h, unit=MM):
+ widths = []
+ heights = []
+ for ((x_min, y_min), (x_max, y_max)), child in self.layout_2d(((0, 0), (w, h)), unit):
+ if not isinstance(child, EmptyProtoArea):
+ widths.append(x_max - x_min)
+ heights.append(y_max - y_min)
+ if self.direction == 'h':
+ return sum(widths), max(heights)
+ else:
+ return max(widths), sum(heights)
+
+ def layout_2d(self, bbox, unit=MM):
+ (x, y), (w, h) = bbox
+ w, h = w-x, h-y
+
+ actual_l = 0
+ target_l = 0
+
+ for l, child in zip(self.layout(w if self.direction == 'h' else h, unit), self.content):
+ this_x, this_y = x, y
+ this_w, this_h = w, h
+ target_l += l
+
+ if self.direction == 'h':
+ this_w = target_l - actual_l
+ else:
+ this_h = target_l - actual_l
+
+ this_w, this_h = child.fit_size(this_w, this_h, unit)
+
+ if self.direction == 'h':
+ x += this_w
+ actual_l += this_w
+ this_h = h
+ else:
+ y += this_h
+ actual_l += this_h
+ this_w = w
+
+ yield ((this_x, this_y), (this_x+this_w, this_y+this_h)), child
+
+ def layout(self, length, unit=MM):
+ out = [ eval_value(value, MM(length, unit)) for value in self.proportions ]
+ total_length = sum(value for value in out if value is not None)
+ if length - total_length < -1e-6:
+ raise ValueError(f'Proportions sum to {total_length} mm, which is greater than the available space of {length} mm.')
+
+ leftover = length - total_length
+ sum_props = sum( (value or 1.0) for value in self.proportions if not isinstance(value, str) )
+ return [ unit(leftover * (value or 1.0) / sum_props if not isinstance(value, str) else calculated, MM)
+ for value, calculated in zip(self.proportions, out) ]
+
+ def __str__(self):
+ children = ', '.join( f'{elem}:{width}' for elem, width in zip(self.content, self.proportions))
+ return f'PropLayout[{self.direction.upper()}]({children})'
+
+
+class TwoSideLayout:
+ def __init__(self, top, bottom):
+ self.top, self.bottom = top, bottom
+
+ if not top.single_sided or not bottom.single_sided:
+ warnings.warn('Two-sided pattern used on one side of a TwoSideLayout')
+
+ def fit_size(self, w, h, unit=MM):
+ w1, h1 = self.top.fit_size(w, h, unit)
+ w2, h2 = self.bottom.fit_size(w, h, unit)
+ if isinstance(self.top, EmptyProtoArea):
+ if isinstance(self.bottom, EmptyProtoArea):
+ return w1, h1
+ return w2, h2
+ if isinstance(self.bottom, EmptyProtoArea):
+ return w1, h1
+ return max(w1, w2), max(h1, h2)
+
+ def generate(self, bbox, unit=MM):
+ yield from self.top.generate(bbox, unit)
+ for obj in self.bottom.generate(bbox, unit):
+ obj.side = 'bottom'
+ yield obj
+
+
+class PatternProtoArea:
+ def __init__(self, pitch_x, pitch_y=None, obj=None, unit=MM):
+ self.pitch_x = pitch_x
+ self.pitch_y = pitch_y or pitch_x
+ self.obj = obj
+ self.unit = unit
+
+ def fit_size(self, w, h, unit=MM):
+ (min_x, min_y), (max_x, max_y) = self.fit_rect(((0, 0), (w, h)))
+ return max_x-min_x, max_y-min_y
+
+ def fit_rect(self, bbox, unit=MM):
+ (x, y), (w, h) = bbox
+ w, h = w-x, h-y
+
+ w_mod = round((w + 5e-7) % unit(self.pitch_x, self.unit), 6)
+ h_mod = round((h + 5e-7) % unit(self.pitch_y, self.unit), 6)
+ w_fit, h_fit = round(w - w_mod, 6), round(h - h_mod, 6)
+
+ x = x + (w-w_fit)/2
+ y = y + (h-h_fit)/2
+ return (x, y), (x+w_fit, y+h_fit)
+
+ def generate(self, bbox, unit=MM):
+ (x, y), (w, h) = bbox
+ w, h = w-x, h-y
+ n_x = int(w//unit(self.pitch_x, self.unit))
+ n_y = int(h//unit(self.pitch_y, self.unit))
+ off_x = (w % unit(self.pitch_x, self.unit)) / 2
+ off_y = (h % unit(self.pitch_y, self.unit)) / 2
+
+ for i in range(n_x):
+ for j in range(n_y):
+ if hasattr(self.obj, 'inst'):
+ inst = self.obj.inst(i, j)
+ else:
+ inst = copy(self.obj)
+
+ inst.x = inst.unit(off_x + x, unit) + (i + 0.5) * inst.unit(self.pitch_x, self.unit)
+ inst.y = inst.unit(off_y + y, unit) + (j + 0.5) * inst.unit(self.pitch_y, self.unit)
+ yield inst
+
+ @property
+ def single_sided(self):
+ return self.obj.single_sided
+
+
+class EmptyProtoArea:
+ def __init__(self, copper_fill=False):
+ self.copper_fill = copper_fill
+
+ def fit_size(self, w, h, unit=MM):
+ return w, h
+
+ def generate(self, bbox, unit=MM):
+ if self.copper:
+ (min_x, min_y), (max_x, max_y) = bbox
+ yield ObjectGroup(top_copper=[Region([(min_x, min_y), (max_x, min_y), (max_x, max_y), (min_x, max_y)],
+ unit=unit, polarity_dark=True)])
+
+ @property
+ def single_sided(self):
+ return True
+
+
+class ManhattanPads(ObjectGroup):
+ def __init__(self, w, h=None, gap=0.2, unit=MM):
+ super().__init__(0, 0)
+ h = h or w
+ self.gap = gap
+ self.unit = unit
+
+ p = (w-2*gap)/2
+ q = (h-2*gap)/2
+ small_ap = RectangleAperture(p, q, unit=unit)
+
+ s = min(w, h) / 2 / math.sqrt(2)
+ large_ap = RectangleAperture(s, s, rotation=math.pi/4, unit=unit)
+ large_ap_neg = RectangleAperture(s+2*gap, s+2*gap, rotation=math.pi/4, unit=unit)
+
+ a = gap/2 + p/2
+ b = gap/2 + q/2
+
+ self.top_copper.append(Flash(-a, -b, aperture=small_ap, unit=unit))
+ self.top_copper.append(Flash(-a, b, aperture=small_ap, unit=unit))
+ self.top_copper.append(Flash( a, -b, aperture=small_ap, unit=unit))
+ self.top_copper.append(Flash( a, b, aperture=small_ap, unit=unit))
+ self.top_copper.append(Flash(0, 0, aperture=large_ap_neg, polarity_dark=False, unit=unit))
+ self.top_copper.append(Flash(0, 0, aperture=large_ap, unit=unit))
+ self.top_mask = self.top_copper
+
+
+class PoweredProto(ObjectGroup):
+ def __init__(self, pitch=None, drill=None, clearance=None, power_pad_dia=None, via_size=None, trace_width=None, unit=MM):
+ super().__init__(0, 0)
+ self.unit = unit
+ self.pitch = pitch = pitch or unit(2.54, MM)
+ self.drill = drill = drill or unit(0.9, MM)
+ self.clearance = clearance = clearance or unit(0.3, MM)
+ self.trace_width = trace_width = trace_width or unit(0.3, MM)
+ self.via_size = via_size = via_size or unit(0.4, MM)
+
+ main_pad_dia = pitch - trace_width - 2*clearance
+ power_pad_dia_max = math.sqrt(2)*pitch - main_pad_dia - 2*clearance
+ if power_pad_dia is None:
+ power_pad_dia = power_pad_dia_max - clearance # reduce some more to give the user more room
+ elif power_pad_dia > power_pad_dia_max:
+ warnings.warn(f'Power pad diameter {power_pad_dia} > {power_pad_dia_max} violates pad-to-pad clearance')
+ self.power_pad_dia = power_pad_dia
+
+ main_ap = CircleAperture(main_pad_dia, unit=unit)
+ power_ap = CircleAperture(self.power_pad_dia, unit=unit)
+
+ for l in [self.top_copper, self.bottom_copper]:
+ l.append(Flash(0, 0, aperture=main_ap, unit=unit))
+
+ l.append(Flash(-pitch/2, -pitch/2, aperture=power_ap, unit=unit))
+ l.append(Flash(-pitch/2, pitch/2, aperture=power_ap, unit=unit))
+ l.append(Flash( pitch/2, -pitch/2, aperture=power_ap, unit=unit))
+ l.append(Flash( pitch/2, pitch/2, aperture=power_ap, unit=unit))
+
+ self.drill_pth.append(Flash(0, 0, ExcellonTool(drill, plated=True, unit=unit), unit=unit))
+ self.drill_pth.append(Flash(-pitch/2, -pitch/2, ExcellonTool(via_size, plated=True, unit=unit), unit=unit))
+
+ self.top_mask = copy(self.top_copper)
+ self.bottom_mask = copy(self.bottom_copper)
+
+ self.line_ap = CircleAperture(trace_width, unit=unit)
+ self.top_copper.append(Line(-pitch/2, -pitch/2, -pitch/2, pitch/2, aperture=self.line_ap, unit=unit))
+ self.top_copper.append(Line(pitch/2, -pitch/2, pitch/2, pitch/2, aperture=self.line_ap, unit=unit))
+ self.bottom_copper.append(Line(-pitch/2, -pitch/2, pitch/2, -pitch/2, aperture=self.line_ap, unit=unit))
+ self.bottom_copper.append(Line(-pitch/2, pitch/2, pitch/2, pitch/2, aperture=self.line_ap, unit=unit))
+
+ def inst(self, x, y):
+ inst = copy(self)
+ if (x + y) % 2 == 0:
+ inst.drill_pth = inst.drill_pth[:-1]
+
+ c = self.power_pad_dia/2 + self.clearance
+ p = self.pitch/2
+
+ if x == 1:
+ inst.top_silk = [Line(-p, -p+c, -p, p-c, aperture=self.line_ap, unit=self.unit)]
+ elif x % 2 == 0:
+ inst.top_silk = [Line(p, -p+c, p, p-c, aperture=self.line_ap, unit=self.unit)]
+
+ if y == 0:
+ inst.bottom_silk = [Line(-p+c, -p, p-c, -p, aperture=self.line_ap, unit=self.unit)]
+ elif y % 2 == 1:
+ inst.bottom_silk = [Line(-p+c, p, p-c, p, aperture=self.line_ap, unit=self.unit)]
+
+ return inst
+
+ def bounding_box(self, unit=MM):
+ x, y, rotation = self.abs_pos
+ p = self.pitch/2
+ return unit.convert_bounds_from(self.unit, ((x-p, y-p), (x+p, y+p)))
+
+
+def convert_to_mm(value, unit):
+ unitl = unit.lower()
+ if unitl == 'mm':
+ return value
+ elif unitl == 'cm':
+ return value*10
+ elif unitl == 'in':
+ return value*25.4
+ elif unitl == 'mil':
+ return value/1000*25.4
+ else:
+ raise ValueError(f'Invalid unit {unit}, allowed units are mm, cm, in, and mil.')
+
+
+_VALUE_RE = re.compile('([0-9]*\.?[0-9]+)(cm|mm|in|mil|%)')
+def eval_value(value, total_length=None):
+ if not isinstance(value, str):
+ return None
+
+ m = _VALUE_RE.match(value.lower())
+ number, unit = m.groups()
+ if unit == '%':
+ if total_length is None:
+ raise ValueError('Percentages are not allowed for this value')
+ return total_length * float(number) / 100
+ return convert_to_mm(float(number), unit)
+
+
+def _demo():
+ #pattern1 = PatternProtoArea(2.54, obj=THTPad.circle(0, 0, 0.9, 1.8, paste=False))
+ #pattern2 = PatternProtoArea(1.2, 2.0, obj=SMDPad.rect(0, 0, 1.0, 1.8, paste=False))
+ #pattern3 = PatternProtoArea(2.54, 1.27, obj=SMDPad.rect(0, 0, 2.3, 1.0, paste=False))
+ #stack = TwoSideLayout(pattern2, pattern3)
+ #layout = PropLayout([pattern1, stack], 'h', [0.5, 0.5])
+ #pattern = PatternProtoArea(2.54, obj=ManhattanPads(2.54))
+ pattern = PatternProtoArea(2.54, obj=PoweredProto())
+ pb = ProtoBoard(100, 80, pattern, mounting_hole_dia=3.2, mounting_hole_offset=5)
+ print(pb.pretty_svg())
+ pb.layer_stack().save_to_directory('/tmp/testdir')
+
+
+if __name__ == '__main__':
+ _demo()