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-rw-r--r--gerbonara/gerber/graphic_objects.py165
1 files changed, 165 insertions, 0 deletions
diff --git a/gerbonara/gerber/graphic_objects.py b/gerbonara/gerber/graphic_objects.py
new file mode 100644
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+++ b/gerbonara/gerber/graphic_objects.py
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+
+import graphic_primitives as gp
+
+class GerberObject:
+ _ : KW_ONLY
+ polarity_dark : bool = True
+
+ def to_primitives(self):
+ raise NotImplementedError()
+
+@dataclass
+class Flash(GerberObject):
+ x : float
+ y : float
+ aperture : object
+
+ def with_offset(self, dx, dy):
+ return replace(self, x=self.x+dx, y=self.y+dy)
+
+ def rotate(self, rotation, cx=None, cy=None):
+ self.x, self.y = gp.rotate_point(self.x, self.y, rotation, cx, cy)
+
+ def to_primitives(self):
+ yield from self.aperture.flash(self.x, self.y)
+
+ def to_statements(self, gs):
+ yield from gs.set_polarity(self.polarity_dark)
+ yield from gs.set_aperture(self.aperture)
+ yield FlashStmt(self.x, self.y)
+
+class Region(GerberObject):
+ def __init__(self, outline=[], arc_centers=None, *, polarity_dark):
+ super().__init__(self, polarity_dark=polarity_dark)
+ self.poly = gp.ArcPoly()
+
+ def with_offset(self, dx, dy):
+ return Region([ (x+dx, y+dy) for x, y in outline ], radii, polarity_dark=self.polarity_dark)
+
+ def rotate(self, angle, cx=0, cy=0):
+ self.poly.outline = [ gp.rotate_point(x, y, angle, cx, cy) for x, y in self.poly.outline ]
+ self.poly.arc_centers = [ gp.rotate_point(x, y, angle, cx, cy) for x, y in self.poly.arc_centers ]
+
+ def append(self, obj):
+ if not self.outline:
+ self.poly.outline.append(obj.p1)
+ self.poly.outline.append(obj.p2)
+
+ if isinstance(obj, Arc):
+ self.poly.arc_centers.append(obj.center)
+ else:
+ self.poly.arc_centers.append(None)
+
+ def to_primitives(self):
+ self.poly.polarity_dark = polarity_dark
+ yield self.poly
+
+ def to_statements(self, gs):
+ yield RegionStartStmt()
+
+ yield from gs.set_current_point(self.poly.outline[0])
+
+ for point, arc_center in zip(self.poly.outline, self.poly.arc_centers):
+ if arc_center is None:
+ yield from gs.set_interpolation_mode(LinearModeStmt)
+ yield InterpolateStmt(*point)
+
+ else:
+ cx, cy = arc_center
+ x2, y2 = point
+ yield from gs.set_interpolation_mode(CircularCCWModeStmt)
+ yield InterpolateStmt(x2, y2, cx-x2, cy-y2)
+
+ yield RegionEndStmt()
+
+
+class Line(GerberObject):
+ # Line with *round* end caps.
+ x1 : float
+ y1 : float
+ x2 : float
+ y2 : float
+ aperture : object
+
+ def with_offset(self, dx, dy):
+ return replace(self, x1=self.x1+dx, y1=self.y1+dy, x2=self.x2+dx, y2=self.y2+dy)
+
+ def rotate(self, rotation, cx=None, cy=None):
+ if cx is None:
+ cx = (self.x1 + self.x2) / 2
+ cy = (self.y1 + self.y2) / 2
+ self.x1, self.y1 = gp.rotate_point(self.x1, self.y1, rotation, cx, cy)
+ self.x2, self.y2 = gp.rotate_point(self.x2, self.y2, rotation, cx, cy)
+
+ @property
+ def p1(self):
+ return self.x1, self.y1
+
+ @property
+ def p2(self):
+ return self.x2, self.y2
+
+ def to_primitives(self):
+ yield gp.Line(*self.p1, *self.p2, self.aperture.equivalent_width, polarity_dark=self.polarity_dark)
+
+ def to_statements(self, gs):
+ yield from gs.set_aperture(self.aperture)
+ yield from gs.set_interpolation_mode(LinearModeStmt)
+ yield from gs.set_current_point(self.p1)
+ yield InterpolateStmt(*self.p2)
+
+
+class Arc(GerberObject):
+ x : float
+ y : float
+ r : float
+ angle1 : float # radians!
+ angle2 : float # radians!
+ aperture : object
+
+ @classmethod
+ def from_coords(kls, start, end, center_delta, aperture, flipped=False, polarity_dark=True):
+ x0, y0 = start
+ x1, y1 = end
+ dx, dy = center_delta
+ cx, cy = x0+dx, y0+dy
+ angle1 = math.atan2(y0-cy, x0-cx)
+ angle2 = math.atan2(y1-cy, x1-cx)
+ aperture = self.aperture
+ if flipped:
+ angle1, angle2 = angle2, angle1
+ r = math.sqrt(dx**2 + dy**2)
+ # r should be approximately (depending on coordinate resolution) equal for center->start and center->end
+ return kls(cx, cy, r, angle1, angle2, polarity_dark=polarity_dark)
+
+ def with_offset(self, dx, dy):
+ return replace(self, x=self.x+dx, y=self.y+dy)
+
+ @property
+ def p1(self):
+ return self.x + self.r*sin(self.angle1), self.y + self.r*cos(self.angle1)
+
+ @property
+ def p2(self):
+ return self.x + self.r*sin(self.angle2), self.y + self.r*cos(self.angle2)
+
+ @property
+ def center(self):
+ return (self.x, self.y)
+
+ def rotate(self, rotation, cx=None, cy=None):
+ self.x, self.y = gp.rotate_point(self.x, self.y, rotation, cx, cy)
+ self.angle1 = (self.angle1+rotation) % (2*math.pi)
+ self.angle2 = (self.angle2+rotation) % (2*math.pi)
+
+ def to_primitives(self):
+ yield gp.Arc(self.x, self.y, self.r, self.angle1, self.angle2, self.aperture.equivalent_width, polarity_dark=self.polarity_dark)
+
+ def to_statements(self, gs):
+ yield from gs.set_aperture(self.aperture)
+ yield from gs.set_interpolation_mode(CircularCCWModeStmt)
+ yield from gs.set_current_point(self.p1)
+ x2, y2 = self.p2
+ yield InterpolateStmt(x2, y2, self.x-x2, self.y-y2)
+
+