diff options
Diffstat (limited to 'gerbonara/gerber/apertures.py')
-rw-r--r-- | gerbonara/gerber/apertures.py | 110 |
1 files changed, 51 insertions, 59 deletions
diff --git a/gerbonara/gerber/apertures.py b/gerbonara/gerber/apertures.py index e362e0d..b05457d 100644 --- a/gerbonara/gerber/apertures.py +++ b/gerbonara/gerber/apertures.py @@ -3,7 +3,7 @@ import math from dataclasses import dataclass, replace, fields, InitVar, KW_ONLY from .aperture_macros.parse import GenericMacros -from .utils import convert_units +from .utils import MM, Inch from . import graphic_primitives as gp @@ -12,11 +12,11 @@ def _flash_hole(self, x, y, unit=None): if getattr(self, 'hole_rect_h', None) is not None: return [*self.primitives(x, y, unit), gp.Rectangle((x, y), - (self.convert_to(self.hole_dia, unit), self.convert_to(self.hole_rect_h, unit)), + (self.unit.to(unit, self.hole_dia), self.unit.to(unit, self.hole_rect_h)), rotation=self.rotation, polarity_dark=False)] elif self.hole_dia is not None: return [*self.primitives(x, y, unit), - gp.Circle(x, y, self.convert_to(self.hole_dia/2, unit), polarity_dark=False)] + gp.Circle(x, y, self.unit.to(unit, self.hole_dia/2), polarity_dark=False)] else: return self.primitives(x, y, unit) @@ -31,8 +31,6 @@ class Length: def __init__(self, obj_type): self.type = obj_type -CONVERSION_FACTOR = {None: 1, 'mm': 25.4, 'inch': 1/25.4} - @dataclass class Aperture: _ : KW_ONLY @@ -45,12 +43,6 @@ class Aperture: else: return 'circle' - def convert(self, value, unit): - return convert_units(value, self.unit, unit) - - def convert_from(self, value, unit): - return convert_units(value, unit, self.unit) - def params(self, unit=None): out = [] for f in fields(self): @@ -59,7 +51,7 @@ class Aperture: val = getattr(self, f.name) if isinstance(f.type, Length): - val = self.convert_to(val, unit) + val = self.unit.to(unit, val) out.append(val) return out @@ -82,7 +74,7 @@ class Aperture: def __eq__(self, other): # We need to choose some unit here. - return hasattr(other, to_gerber) and self.to_gerber('mm') == other.to_gerber('mm') + return hasattr(other, to_gerber) and self.to_gerber(MM) == other.to_gerber(MM) def _rotate_hole_90(self): if self.hole_rect_h is None: @@ -98,7 +90,7 @@ class ExcellonTool(Aperture): depth_offset : Length(float) = 0 def primitives(self, x, y, unit=None): - return [ gp.Circle(x, y, self.convert_to(self.diameter/2, unit)) ] + return [ gp.Circle(x, y, self.unit.to(unit, self.diameter/2)) ] def to_xnc(self, settings): z_off += 'Z' + settings.write_gerber_value(self.depth_offset) if self.depth_offset is not None else '' @@ -121,11 +113,11 @@ class ExcellonTool(Aperture): z_off = '' if self.depth_offset is None else f' z_offset={self.depth_offset}' return f'<Excellon Tool d={self.diameter:.3f}{plated}{z_off}>' - def equivalent_width(self, unit=None): - return self.convert_to(self.diameter, unit) + def equivalent_width(self, unit=MM): + return self.unit.to(unit, self.diameter) - def dilated(self, offset, unit='mm'): - offset = self.convert_from(offset, unit) + def dilated(self, offset, unit=MM): + offset = self.unit.to(unit, offset) return replace(self, diameter=self.diameter+2*offset) def _rotated(self): @@ -134,10 +126,10 @@ class ExcellonTool(Aperture): return self.to_macro(self.rotation) def to_macro(self): - return ApertureMacroInstance(GenericMacros.circle, self.params(unit='mm')) + return ApertureMacroInstance(GenericMacros.circle, self.params(unit=MM)) def params(self, unit=None): - return self.convert_to(self.diameter, unit) + return [self.unit.to(unit, self.diameter)] @dataclass @@ -150,7 +142,7 @@ class CircleAperture(Aperture): rotation : float = 0 # radians; for rectangular hole; see hack in Aperture.to_gerber def primitives(self, x, y, unit=None): - return [ gp.Circle(x, y, self.convert_to(self.diameter/2, unit)) ] + return [ gp.Circle(x, y, self.unit.to(unit, self.diameter/2)) ] def __str__(self): return f'<circle aperture d={self.diameter:.3}>' @@ -158,10 +150,10 @@ class CircleAperture(Aperture): flash = _flash_hole def equivalent_width(self, unit=None): - return self.convert_to(self.diameter, unit) + return self.unit.to(unit, self.diameter) - def dilated(self, offset, unit='mm'): - offset = self.convert_from(offset, unit) + def dilated(self, offset, unit=MM): + offset = self.unit.from(unit, offset) return replace(self, diameter=self.diameter+2*offset, hole_dia=None, hole_rect_h=None) def _rotated(self): @@ -171,13 +163,13 @@ class CircleAperture(Aperture): return self.to_macro(self.rotation) def to_macro(self): - return ApertureMacroInstance(GenericMacros.circle, self.params(unit='mm')) + return ApertureMacroInstance(GenericMacros.circle, self.params(unit=MM)) def params(self, unit=None): return strip_right( - self.convert_to(self.diameter, unit), - self.convert_to(self.hole_dia, unit), - self.convert_to(self.hole_rect_h, unit)) + self.unit.to(unit, self.diameter), + self.unit.to(unit, self.hole_dia), + self.unit.to(unit, self.hole_rect_h)) @dataclass @@ -191,7 +183,7 @@ class RectangleAperture(Aperture): rotation : float = 0 # radians def primitives(self, x, y, unit=None): - return [ gp.Rectangle(x, y, self.convert_to(self.w, unit), self.convert_to(self.h, unit), rotation=self.rotation) ] + return [ gp.Rectangle(x, y, self.unit.to(unit, self.w), self.unit.to(unit, self.h), rotation=self.rotation) ] def __str__(self): return f'<rect aperture {self.w:.3}x{self.h:.3}>' @@ -199,10 +191,10 @@ class RectangleAperture(Aperture): flash = _flash_hole def equivalent_width(self, unit=None): - return self.convert_to(math.sqrt(self.w**2 + self.h**2), unit) + return self.unit.to(unit, math.sqrt(self.w**2 + self.h**2)) - def dilated(self, offset, unit='mm'): - offset = self.convert_from(offset, unit) + def dilated(self, offset, unit=MM): + offset = self.unit.from(unit, offset) return replace(self, w=self.w+2*offset, h=self.h+2*offset, hole_dia=None, hole_rect_h=None) def _rotated(self): @@ -215,18 +207,18 @@ class RectangleAperture(Aperture): def to_macro(self): return ApertureMacroInstance(GenericMacros.rect, - [self.convert_to(self.w, 'mm'), - self.convert_to(self.h, 'mm'), - self.convert_to(self.hole_dia, 'mm') or 0, - self.convert_to(self.hole_rect_h, 'mm') or 0, + [self.unit.to(MM, self.w), + self.unit.to(MM, self.h), + self.unit.to(MM, self.hole_dia) or 0, + self.unit.to(MM, self.hole_rect_h) or 0, self.rotation]) def params(self, unit=None): return strip_right( - self.convert_to(self.w, unit), - self.convert_to(self.h, unit), - self.convert_to(self.hole_dia, unit), - self.convert_to(self.hole_rect_h, unit)) + self.unit.to(unit, self.w), + self.unit.to(unit, self.h), + self.unit.to(unit, self.hole_dia), + self.unit.to(unit, self.hole_rect_h)) @dataclass @@ -240,15 +232,15 @@ class ObroundAperture(Aperture): rotation : float = 0 def primitives(self, x, y, unit=None): - return [ gp.Obround(x, y, self.convert_to(self.w, unit), self.convert_to(self.h, unit), rotation=self.rotation) ] + return [ gp.Obround(x, y, self.unit.to(unit, self.w), self.unit.to(unit, self.h), rotation=self.rotation) ] def __str__(self): return f'<obround aperture {self.w:.3}x{self.h:.3}>' flash = _flash_hole - def dilated(self, offset, unit='mm'): - offset = self.convert_from(offset, unit) + def dilated(self, offset, unit=MM): + offset = self.unit.from(unit, offset) return replace(self, w=self.w+2*offset, h=self.h+2*offset, hole_dia=None, hole_rect_h=None) def _rotated(self): @@ -263,18 +255,18 @@ class ObroundAperture(Aperture): # generic macro only supports w > h so flip x/y if h > w inst = self if self.w > self.h else replace(self, w=self.h, h=self.w, **_rotate_hole_90(self), rotation=self.rotation-90) return ApertureMacroInstance(GenericMacros.obround, - [self.convert_to(inst.w, 'mm'), - self.convert_to(ints.h, 'mm'), - self.convert_to(inst.hole_dia, 'mm'), - self.convert_to(inst.hole_rect_h, 'mm'), + [self.unit.to(MM, inst.w), + self.unit.to(MM, ints.h), + self.unit.to(MM, inst.hole_dia), + self.unit.to(MM, inst.hole_rect_h), inst.rotation]) def params(self, unit=None): return strip_right( - self.convert_to(self.w, unit), - self.convert_to(self.h, unit), - self.convert_to(self.hole_dia, unit), - self.convert_to(self.hole_rect_h, unit)) + self.unit.to(unit, self.w), + self.unit.to(unit, self.h), + self.unit.to(unit, self.hole_dia), + self.unit.to(unit, self.hole_rect_h)) @dataclass @@ -289,13 +281,13 @@ class PolygonAperture(Aperture): self.n_vertices = int(self.n_vertices) def primitives(self, x, y, unit=None): - return [ gp.RegularPolygon(x, y, self.convert_to(self.diameter, unit)/2, self.n_vertices, rotation=self.rotation) ] + return [ gp.RegularPolygon(x, y, self.unit.to(unit, self.diameter)/2, self.n_vertices, rotation=self.rotation) ] def __str__(self): return f'<{self.n_vertices}-gon aperture d={self.diameter:.3}' - def dilated(self, offset, unit='mm'): - offset = self.convert_from(offset, unit) + def dilated(self, offset, unit=MM): + offset = self.unit.from(unit, offset) return replace(self, diameter=self.diameter+2*offset, hole_dia=None) flash = _flash_hole @@ -304,16 +296,16 @@ class PolygonAperture(Aperture): return self def to_macro(self): - return ApertureMacroInstance(GenericMacros.polygon, self.params('mm')) + return ApertureMacroInstance(GenericMacros.polygon, self.params(MM)) def params(self, unit=None): rotation = self.rotation % (2*math.pi / self.n_vertices) if self.rotation is not None else None if self.hole_dia is not None: - return self.convert_to(self.diameter, unit), self.n_vertices, rotation, self.convert_to(self.hole_dia, unit) + return self.unit.to(unit, self.diameter), self.n_vertices, rotation, self.unit.to(unit, self.hole_dia) elif rotation is not None and not math.isclose(rotation, 0): - return self.convert_to(self.diameter, unit), self.n_vertices, rotation + return self.unit.to(unit, self.diameter), self.n_vertices, rotation else: - return self.convert_to(self.diameter, unit), self.n_vertices + return self.unit.to(unit, self.diameter), self.n_vertices @dataclass class ApertureMacroInstance(Aperture): @@ -330,7 +322,7 @@ class ApertureMacroInstance(Aperture): offset=(x, y), rotation=self.rotation, parameters=self.parameters, unit=unit) - def dilated(self, offset, unit='mm'): + def dilated(self, offset, unit=MM): return replace(self, macro=self.macro.dilated(offset, unit)) def _rotated(self): |