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-rw-r--r--gerbonara/aperture_macros/expression.py2
-rw-r--r--gerbonara/aperture_macros/parse.py4
-rw-r--r--gerbonara/cad/protoboard.py99
3 files changed, 83 insertions, 22 deletions
diff --git a/gerbonara/aperture_macros/expression.py b/gerbonara/aperture_macros/expression.py
index 44abf51..af43d9a 100644
--- a/gerbonara/aperture_macros/expression.py
+++ b/gerbonara/aperture_macros/expression.py
@@ -167,7 +167,7 @@ class VariableExpression(Expression):
def optimized(self, variable_binding={}):
if self.number in variable_binding:
- return ConstantExpression(variable_binding[self.number])
+ return ConstantExpression(expr(variable_binding[self.number]).optimized(variable_binding))
return self
def __eq__(self, other):
diff --git a/gerbonara/aperture_macros/parse.py b/gerbonara/aperture_macros/parse.py
index b8970ff..a4c2956 100644
--- a/gerbonara/aperture_macros/parse.py
+++ b/gerbonara/aperture_macros/parse.py
@@ -111,12 +111,12 @@ class ApertureMacro:
def to_gerber(self, unit=None):
comments = [ str(c) for c in self.comments ]
- variable_defs = [ f'${var.to_gerber(unit)}={expr}' for var, expr in enumerate(self.variables, start=1) ]
+ variable_defs = [ f'${var}={expr}' for var, expr in enumerate(self.variables, start=1) if expr is not None ]
primitive_defs = [ prim.to_gerber(unit) for prim in self.primitives ]
return '*\n'.join(comments + variable_defs + primitive_defs)
def to_graphic_primitives(self, offset, rotation, parameters : [float], unit=None, polarity_dark=True):
- variables = {i: v for i, v in enumerate(self.variables, start=1)}
+ variables = {i: v for i, v in enumerate(self.variables, start=1) if v is not None}
for number, value in enumerate(parameters, start=1):
if number in variables:
raise SyntaxError(f'Re-definition of aperture macro variable {number} through parameter {value}')
diff --git a/gerbonara/cad/protoboard.py b/gerbonara/cad/protoboard.py
index 09befde..b9a1065 100644
--- a/gerbonara/cad/protoboard.py
+++ b/gerbonara/cad/protoboard.py
@@ -551,6 +551,7 @@ class AlioCell(ObjectGroup):
self.link_trace_width = link_trace_width or unit(0.5, MM)
self.via_size = via_size or unit(0.4, MM)
self.border_x, self.border_y = False, False
+ self.inst_x, self.inst_y = None, None
@property
def single_sided(self):
@@ -559,6 +560,7 @@ class AlioCell(ObjectGroup):
def inst(self, x, y, border_x, border_y):
inst = copy(self)
inst.border_x, inst.border_y = border_x, border_y
+ inst.inst_x, inst.inst_y = x, y
return inst
def bounding_box(self, unit):
@@ -574,13 +576,68 @@ class AlioCell(ObjectGroup):
fe.offset(x, y, self.unit)
return fe
- main_ap = RectangleAperture(self.pitch - self.clearance, self.pitch - self.clearance, unit=self.unit).rotated(rotation)
+ var = VariableExpression
+ # parameters: [1: total height = pad width, 2: pitch, 3: trace width, 4: corner radius, 5: rotation, 6: clearance]
+ alio_main_macro = ApertureMacro('ALIOM', (
+ amp.CenterLine(MM, 1, var(2)-var(6), var(2)-var(3)-2*var(6), 0, 0, var(5)),
+ amp.Outline(MM, 0, 5, (
+ -var(2)/2, -var(2)/2,
+ -var(2)/2, -(var(7)-var(8)),
+ -var(7), -(var(7)-var(8)),
+ -(var(7)-var(8)), -var(7),
+ -(var(7)-var(8)), -var(2)/2,
+ -var(2)/2, -var(2)/2,
+ ), var(5)),
+ amp.Outline(MM, 0, 5, (
+ -var(2)/2, var(2)/2,
+ -var(2)/2, (var(7)-var(8)),
+ -var(7), (var(7)-var(8)),
+ -(var(7)-var(8)), var(7),
+ -(var(7)-var(8)), var(2)/2,
+ -var(2)/2, var(2)/2,
+ ), var(5)),
+ amp.Outline(MM, 0, 5, (
+ var(2)/2, -var(2)/2,
+ var(2)/2, -(var(7)-var(8)),
+ var(7), -(var(7)-var(8)),
+ (var(7)-var(8)), -var(7),
+ (var(7)-var(8)), -var(2)/2,
+ var(2)/2, -var(2)/2,
+ ), var(5)),
+ amp.Outline(MM, 0, 5, (
+ var(2)/2, var(2)/2,
+ var(2)/2, (var(7)-var(8)),
+ var(7), (var(7)-var(8)),
+ (var(7)-var(8)), var(7),
+ (var(7)-var(8)), var(2)/2,
+ var(2)/2, var(2)/2,
+ ), var(5)),
+ amp.Circle(MM, 0, 2*var(8), -var(7), -var(7), var(5)),
+ amp.Circle(MM, 0, 2*var(8), -var(7), var(7), var(5)),
+ amp.Circle(MM, 0, 2*var(8), var(7), -var(7), var(5)),
+ amp.Circle(MM, 0, 2*var(8), var(7), var(7), var(5)),
+ ), (
+ None, # 1
+ None, # 2
+ None, # 3
+ None, # 4
+ None, # 5
+ None, # 6
+ var(2)/2 - var(1)/2 + var(4), # 7
+ var(4)+var(6), # 8
+ ))
+ corner_radius = (self.link_pad_width - self.link_trace_width)/3
+ main_ap = ApertureMacroInstance(alio_main_macro, (self.link_pad_width, # 1
+ self.pitch, # 2
+ self.link_trace_width, # 3
+ corner_radius, # 4
+ rotation, # 5
+ self.clearance), unit=MM) # 6
main_drill = ExcellonTool(self.drill, plated=True, unit=self.unit)
via_drill = ExcellonTool(self.via_size, plated=True, unit=self.unit)
- var = VariableExpression
# parameters: [1: total height = pad width, 2: total width, 3: trace width, 4: corner radius, 5: rotation]
- alio_macro = ApertureMacro('ALIO', (
+ alio_macro = ApertureMacro('ALIOP', (
amp.CenterLine(MM, 1, var(1)-2*var(4), var(1), 0, 0, var(5)),
amp.CenterLine(MM, 1, var(1), var(1)-2*var(4), 0, 0, var(5)),
amp.Circle(MM, 1, 2*var(4), -var(1)/2+var(4), -var(1)/2+var(4), var(5)),
@@ -589,22 +646,21 @@ class AlioCell(ObjectGroup):
amp.Circle(MM, 1, 2*var(4), var(1)/2-var(4), var(1)/2-var(4), var(5)),
amp.CenterLine(MM, 1, var(2), var(3), -var(2)/2 + var(1)/2, 0, var(5)),
))
- corner_radius = (self.link_pad_width - self.link_trace_width)/3
- alio_clear = ApertureMacroInstance(alio_macro, (self.link_pad_width + 2*self.clearance, # 1
- self.pitch+self.clearance, # 2
- self.link_trace_width + 2*self.clearance, # 3
- corner_radius+self.clearance, # 4
- rotation), unit=MM) # 5
+ #alio_clear = ApertureMacroInstance(alio_macro, (self.link_pad_width + 2*self.clearance, # 1
+ # self.pitch+self.clearance, # 2
+ # self.link_trace_width + 2*self.clearance, # 3
+ # corner_radius+self.clearance, # 4
+ # rotation), unit=MM) # 5
alio_dark = ApertureMacroInstance(alio_macro, (self.link_pad_width, # 1
self.pitch-self.clearance, # 2
self.link_trace_width, # 3
corner_radius, # 4
rotation), unit=MM) # 5
- alio_clear_90 = ApertureMacroInstance(alio_macro, (self.link_pad_width + 2*self.clearance, # 1
- self.pitch+self.clearance, # 2
- self.link_trace_width + 2*self.clearance,# 3
- corner_radius+self.clearance, # 4
- rotation+90), unit=MM) # 5
+ #alio_clear_90 = ApertureMacroInstance(alio_macro, (self.link_pad_width + 2*self.clearance, # 1
+ # self.pitch+self.clearance, # 2
+ # self.link_trace_width + 2*self.clearance,# 3
+ # corner_radius+self.clearance, # 4
+ # rotation+90), unit=MM) # 5
alio_dark_90 = ApertureMacroInstance(alio_macro, (self.link_pad_width, # 1
self.pitch-self.clearance, # 2
self.link_trace_width, # 3
@@ -614,12 +670,17 @@ class AlioCell(ObjectGroup):
# all layers are identical here
for side, use in (('top', 'copper'), ('top', 'mask'), ('bottom', 'copper'), ('bottom', 'mask')):
layer_stack[side, use].objects.insert(0, xf(Flash(0, 0, aperture=main_ap, unit=self.unit)))
- if not (self.border_x or self.border_y):
- if side == 'top':
- layer_stack[side, use].objects.append(xf(Flash(self.pitch/2, self.pitch/2, aperture=alio_clear, polarity_dark=False, unit=self.unit)))
+ if side == 'top':
+ #layer_stack[side, use].objects.append(xf(Flash(self.pitch/2, self.pitch/2, aperture=alio_clear, polarity_dark=False, unit=self.unit)))
+ #if self.inst_y == 0:
+ # layer_stack[side, use].objects.append(xf(Flash(self.pitch/2, -self.pitch/2, aperture=alio_clear, polarity_dark=False, unit=self.unit)))
+ if not (self.border_x or self.border_y):
layer_stack[side, use].objects.append(xf(Flash(self.pitch/2, self.pitch/2, aperture=alio_dark, unit=self.unit)))
- else:
- layer_stack[side, use].objects.append(xf(Flash(self.pitch/2, self.pitch/2, aperture=alio_clear_90, polarity_dark=False, unit=self.unit)))
+ else:
+ #layer_stack[side, use].objects.append(xf(Flash(self.pitch/2, self.pitch/2, aperture=alio_clear_90, polarity_dark=False, unit=self.unit)))
+ #if self.inst_x == 0:
+ # layer_stack[side, use].objects.append(xf(Flash(-self.pitch/2, self.pitch/2, aperture=alio_clear, polarity_dark=False, unit=self.unit)))
+ if not (self.border_x or self.border_y):
layer_stack[side, use].objects.append(xf(Flash(self.pitch/2, self.pitch/2, aperture=alio_dark_90, unit=self.unit)))
layer_stack.drill_pth.append(Flash(x, y, aperture=main_drill, unit=self.unit))