diff --git a/gerbonara/aperture_macros/expression.py b/gerbonara/aperture_macros/expression.py index c9c0470..7c291cb 100644 --- a/gerbonara/aperture_macros/expression.py +++ b/gerbonara/aperture_macros/expression.py @@ -31,9 +31,6 @@ class Expression: def converted(self, unit): return self - def replace_mixed_subexpressions(self, unit): - return self - def calculate(self, variable_binding={}, unit=None): expr = self.converted(unit).optimized(variable_binding) if not isinstance(expr, ConstantExpression): @@ -104,9 +101,6 @@ class UnitExpression(Expression): def __repr__(self): return f'' - def replace_mixed_subexpressions(self, unit): - return self.converted(unit).replace_mixed_subexpressions(unit) - def converted(self, unit): if self.unit is None or unit is None or self.unit == unit: return self.expr @@ -198,9 +192,6 @@ class VariableExpression(Expression): def __eq__(self, other): return type(self) == type(other) and self.expr == other.expr - def replace_mixed_subexpressions(self, unit): - return VariableExpression(self.expr.replace_mixed_subexpressions(unit)) - def to_gerber(self, register_variable=None, unit=None): if register_variable is None: return self.expr.to_gerber(None, unit) @@ -356,17 +347,6 @@ class OperatorExpression(Expression): return expr(rv).optimized(variable_binding) - def replace_mixed_subexpressions(self, unit): - l = self.l.replace_mixed_subexpressions(unit) - if l._operator not in (None, self.op): - l = VariableExpression(self.l) - - r = self.r.replace_mixed_subexpressions(unit) - if r._operator not in (None, self.op): - r = VariableExpression(self.r) - - return OperatorExpression(self.op, l, r) - def to_gerber(self, register_variable=None, unit=None): lval = self.l.to_gerber(register_variable, unit) rval = self.r.to_gerber(register_variable, unit) diff --git a/gerbonara/aperture_macros/parse.py b/gerbonara/aperture_macros/parse.py index fb4f0fe..51c1f27 100644 --- a/gerbonara/aperture_macros/parse.py +++ b/gerbonara/aperture_macros/parse.py @@ -118,41 +118,32 @@ class ApertureMacro: pass return replace(self, primitives=tuple(new_primitives)) + def substitute_params(self, params, unit=None, macro_name=None): + params = dict(enumerate(params, start=1)) + return replace(self, + num_parameters=0, + name=macro_name, + primitives=tuple(p.substitute_params(params, unit) for p in self.primitives), + comments=(f'Fully substituted instance of {self.name} macro', + f'Original parameters {"X".join(map(str, params.values()))}')) + def to_gerber(self, settings): """ Serialize this macro's content (without the name) into Gerber using the given file unit """ comments = [ f'0 {c.replace("*", "_").replace("%", "_")}' for c in self.comments ] subexpression_variables = {} def register_variable(expr): - if not settings.allow_mixed_operators_in_aperture_macros: - expr = expr.replace_mixed_subexpressions(unit=settings.unit) - expr_str = expr.to_gerber(register_variable, settings.unit) if expr_str not in subexpression_variables: subexpression_variables[expr_str] = self.num_parameters + 1 + len(subexpression_variables) - return subexpression_variables[expr_str] - primitive_defs = [] - for prim in self.primitives: - if not settings.allow_mixed_operators_in_aperture_macros: - prim = prim.replace_mixed_subexpressions(unit=settings.unit) - - primitive_defs.append(prim.to_gerber(register_variable, settings)) - - variable_defs = [] - for expr_str, num in subexpression_variables.items(): - variable_defs.append(f'${num}={expr_str}') - + primitive_defs = [prim.to_gerber(register_variable, settings) for prim in self.primitives] + variable_defs = [f'${num}={expr_str}' for expr_str, num in subexpression_variables.items()] 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) 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}') - variables[number] = value - + parameters = dict(enumerate(parameters, start=1)) for primitive in self.primitives: yield from primitive.to_graphic_primitives(offset, rotation, variables, unit, polarity_dark) diff --git a/gerbonara/aperture_macros/primitive.py b/gerbonara/aperture_macros/primitive.py index 1738ff7..dce5677 100644 --- a/gerbonara/aperture_macros/primitive.py +++ b/gerbonara/aperture_macros/primitive.py @@ -51,14 +51,10 @@ class Primitive: getattr(self, field.name).optimized().to_gerber(register_variable, settings.unit) for field in fields(self) if issubclass(field.type, Expression)) - def replace_mixed_subexpressions(self, unit): - print('prim rms') - import pprint - out = replace(self, **{ - field.name: getattr(self, field.name).optimized().replace_mixed_subexpressions(unit) + def substitute_params(self, binding, unit): + out = replace(self, unit=unit, **{ + field.name: getattr(self, field.name).calculate(binding, unit) for field in fields(self) if issubclass(field.type, Expression)}) - pprint.pprint(self) - pprint.pprint(out) return out def __str__(self): @@ -111,6 +107,12 @@ class Circle(Primitive): x, y = x+offset[0], y+offset[1] return [ gp.Circle(x, y, calc.diameter/2, polarity_dark=(bool(calc.exposure) == polarity_dark)) ] + def substitute_params(self, binding, unit): + with self.Calculator(self, binding, unit) as calc: + x, y = rotate_point(calc.x, calc.y, -deg_to_rad(calc.rotation), 0, 0) + new = Circle(unit, self.exposure, calc.diameter, x, y) + return new + def dilated(self, offset, unit): return replace(self, diameter=self.diameter + UnitExpression(offset, unit)) @@ -144,6 +146,12 @@ class VectorLine(Primitive): return [ gp.Rectangle(center_x, center_y, length, calc.width, rotation=rotation, polarity_dark=(bool(calc.exposure) == polarity_dark)) ] + def substitute_params(self, binding, unit): + with self.Calculator(self, binding, unit) as calc: + x1, y1 = rotate_point(calc.start_x, calc.start_y, -deg_to_rad(calc.rotation), 0, 0) + x2, y2 = rotate_point(calc.end_x, calc.end_y, -deg_to_rad(calc.rotation), 0, 0) + return VectorLine(unit, calc.exposure, calc.width, x1, y1, x2, y2) + def dilated(self, offset, unit): return replace(self, width=self.width + UnitExpression(2*offset, unit)) @@ -174,6 +182,12 @@ class CenterLine(Primitive): return [ gp.Rectangle(x, y, w, h, rotation, polarity_dark=(bool(calc.exposure) == polarity_dark)) ] + def substitute_params(self, binding, unit): + with self.Calculator(self, binding, unit) as calc: + x1, y1 = rotate_point(calc.x, calc.y-calc.height/2, -deg_to_rad(calc.rotation), 0, 0) + x2, y2 = rotate_point(calc.x, calc.y+calc.height/2, -deg_to_rad(calc.rotation), 0, 0) + return VectorLine(unit, calc.exposure, calc.width, x1, y1, x2, y2) + def dilated(self, offset, unit): return replace(self, width=self.width + UnitExpression(2*offset, unit)) @@ -293,26 +307,17 @@ class Outline(Primitive): return f'' def to_gerber(self, register_variable=None, settings=None): - # Calculate out rotation since at least gerbv mis-renders Outlines with rotation other than zero. rotation = self.rotation.optimized() - coords = self.coords - if isinstance(rotation, ConstantExpression) and rotation != 0: - rotation = math.radians(rotation.value) - # This will work even with variables in x and y, we just need to pass in cx and cy as UnitExpressions - unit_zero = UnitExpression(expr(0), MM) - coords = [ rotate_point(x, y, -rotation, cx=unit_zero, cy=unit_zero) for x, y in self.points ] - coords = [ e for point in coords for e in point ] - if not settings.allow_mixed_operators_in_aperture_macros: - coords = [e.replace_mixed_subexpressions(unit=settings.unit) for e in coords] - - rotation = ConstantExpression(0) - - coords = ','.join(coord.optimized().to_gerber(register_variable, settings.unit) for coord in coords) + coords = ','.join(coord.optimized().to_gerber(register_variable, settings.unit) for coord in self.coords) return f'{self.code},{self.exposure.optimized().to_gerber(register_variable)},{len(self.coords)//2-1},{coords},{rotation.to_gerber(register_variable)}' - def replace_mixed_subexpressions(self, unit): - return replace(Primitive.replace_mixed_subexpressions(self, unit), - coords=[e.replace_mixed_subexpressions(unit) for e in self.coords]) + def substitute_params(self, binding, unit): + with self.Calculator(self, binding, unit) as calc: + rotation = calc.rotation + coords = [ rotate_point(x.calculate(binding, unit), y.calculate(binding, unit), -deg_to_rad(rotation), 0, 0) + for x, y in self.points ] + coords = [ e for point in coords for e in point ] + return Outline(unit, calc.exposure, calc.length, coords) def parameters(self): yield from Primitive.parameters(self) diff --git a/gerbonara/apertures.py b/gerbonara/apertures.py index 09b15d2..f057052 100644 --- a/gerbonara/apertures.py +++ b/gerbonara/apertures.py @@ -446,6 +446,11 @@ class ApertureMacroInstance(Aperture): def scaled(self, scale): return replace(self, macro=self.macro.scaled(scale)) + def calculate_out(self, unit=None, macro_name=None): + return replace(self, + parameters=tuple(), + macro=self.macro.substitute_params(self._params(unit), unit, macro_name)) + def _params(self, unit=None): # We ignore "unit" here as we convert the actual macro, not this instantiation. # We do this because here we do not have information about which parameter has which physical units. @@ -455,4 +460,3 @@ class ApertureMacroInstance(Aperture): parameters = parameters[:self.macro.num_parameters] return tuple(parameters) - diff --git a/gerbonara/cam.py b/gerbonara/cam.py index 8389425..e6bb651 100644 --- a/gerbonara/cam.py +++ b/gerbonara/cam.py @@ -56,11 +56,10 @@ class FileSettings: number_format : tuple = (None, None) #: At least the aperture macro implementations of gerbv and whatever JLCPCB uses are severely broken and simply #: ignore parentheses in numeric expressions without throwing an error or a warning, leading to broken rendering. - #: To avoid trouble with severely broken software like this, we split out any non-trivial numeric sub-expressions - #: into separate internal macro variables by default. + #: To avoid trouble with severely broken software like this, we just calculate out all macros by default. #: If you want to export the macros with their original formulaic expressions (which is completely fine by the - #: Gerber standard, btw), set this parameter to ``True`` before exporting. - allow_mixed_operators_in_aperture_macros: bool = False + #: Gerber standard, btw), set this parameter to ``False`` before exporting. + calculate_out_all_aperture_macros: bool = True # input validation def __setattr__(self, name, value): diff --git a/gerbonara/rs274x.py b/gerbonara/rs274x.py index ad78ceb..d5cbb34 100644 --- a/gerbonara/rs274x.py +++ b/gerbonara/rs274x.py @@ -284,12 +284,23 @@ class GerberFile(CamFile): self.dedup_apertures() am_stmt = lambda macro: f'%AM{macro.name}*\n{macro.to_gerber(settings)}*\n%' - for macro in self.aperture_macros(): - yield am_stmt(macro) - aperture_map = {ap: num for num, ap in enumerate(self.apertures(), start=10)} - for aperture, number in aperture_map.items(): - yield f'%ADD{number}{aperture.to_gerber(settings)}*%' + + if settings.calculate_out_all_aperture_macros: + adds = [] + for aperture, number in aperture_map.items(): + if isinstance(aperture, apertures.ApertureMacroInstance): + aperture = aperture.calculate_out(settings.unit, macro_name=f'CALCM{number}') + yield am_stmt(aperture.macro) + adds.append(f'%ADD{number}{aperture.to_gerber(settings)}*%') + yield from adds + + else: + for macro in self.aperture_macros(): + yield am_stmt(macro) + + for aperture, number in aperture_map.items(): + yield f'%ADD{number}{aperture.to_gerber(settings)}*%' def warn(msg, kls=SyntaxWarning): warnings.warn(msg, kls)