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@ -15,7 +15,7 @@ from ..library import ILibrary, SINGLE_USE_PREFIX
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from ..error import PortError, BuildError
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from ..error import PortError, BuildError
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from ..ports import PortList, Port
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from ..ports import PortList, Port
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from ..abstract import Abstract
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from ..abstract import Abstract
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from ..utils import SupportsBool
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from ..utils import SupportsBool, rotation_matrix_2d
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from .tools import Tool
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from .tools import Tool
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from .utils import ell
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from .utils import ell
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from .builder import Builder
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from .builder import Builder
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@ -431,6 +431,92 @@ class Pather(Builder):
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)
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)
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def path_into(
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self,
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portspec_src: str,
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portspec_dst: str,
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*,
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tool_port_names: tuple[str, str] = ('A', 'B'),
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out_ptype: str = 'unk',
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plug_destination: bool = True,
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**kwargs,
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) -> Self:
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if self._dead:
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logger.error('Skipping path_into() since device is dead')
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return self
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port_src = self.pattern[portspec_src]
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port_dst = self.pattern[portspec_dst]
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if port_src.rotation is None:
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raise PortError(f'Port {portspec_src} has no rotation and cannot be used for path_into()')
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if port_dst.rotation is None:
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raise PortError(f'Port {portspec_dst} has no rotation and cannot be used for path_into()')
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if not numpy.isclose(port_src.rotation % (pi / 2), 0):
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raise BuildError('path_to was asked to route from non-manhattan port')
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if not numpy.isclose(port_dst.rotation % (pi / 2), 0):
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raise BuildError('path_to was asked to route to non-manhattan port')
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src_is_horizontal = numpy.isclose(port_src.rotation % pi, 0)
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dst_is_horizontal = numpy.isclose(port_dst.rotation % pi, 0)
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xs, ys = port_src.offset
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xd, yd = port_dst.offset
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angle = (port_dst.rotation - port_src.rotation) % (2 * pi)
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src_ne = port_src.rotation % (2 * pi) > (3 * pi /4) # path from src will go north or east
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def get_jog(ccw: SupportsBool, length: float) -> float:
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tool = self.tools.get(portspec_src, self.tools[None])
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in_ptype = 'unk' # Could use port_src.ptype, but we're assuming this is after one bend already...
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tree2 = tool.path(ccw, length, in_ptype=in_ptype, port_names=('A', 'B'), out_ptype=out_ptype, **kwargs)
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top2 = tree2.top_pattern()
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jog = rotation_matrix_2d(top2['A'].rotation) @ (top2['B'].offset - top2['A'].offset)
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return jog[1]
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dst_extra_args = {'out_ptype': out_ptype}
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if plug_destination:
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dst_extra_args['plug_into'] = portspec_dst
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src_args = {**kwargs, 'tool_port_names': tool_port_names}
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dst_args = {**src_args, **dst_extra_args}
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if src_is_horizontal and not dst_is_horizontal:
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# single bend should suffice
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self.path_to(portspec_src, angle > pi, x=xd, **src_args)
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self.path_to(portspec_src, None, y=yd, **dst_args)
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elif dst_is_horizontal and not src_is_horizontal:
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# single bend should suffice
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self.path_to(portspec_src, angle > pi, y=yd, **src_args)
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self.path_to(portspec_src, None, x=xd, **dst_args)
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elif numpy.isclose(angle, pi):
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if src_is_horizontal and ys == yd:
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# straight connector
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self.path_to(portspec_src, None, x=xd, **dst_args)
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elif not src_is_horizontal and xs == xd:
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# straight connector
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self.path_to(portspec_src, None, y=yd, **dst_args)
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elif src_is_horizontal:
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# figure out how much x our y-segment (2nd) takes up, then path based on that
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y_len = numpy.abs(yd - ys)
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ccw2 = src_ne != (yd > ys)
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jog = get_jog(ccw2, y_len) * numpy.sign(xd - xs)
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self.path_to(portspec_src, not ccw2, x=xd - jog, **src_args)
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self.path_to(portspec_src, ccw2, y=yd, **dst_args)
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else:
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# figure out how much y our x-segment (2nd) takes up, then path based on that
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x_len = numpy.abs(xd - xs)
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ccw2 = src_ne != (xd < xs)
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jog = get_jog(ccw2, x_len) * numpy.sign(yd - ys)
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self.path_to(portspec_src, not ccw2, y=yd - jog, **src_args)
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self.path_to(portspec_src, ccw2, x=xd, **dst_args)
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elif numpy.isclose(angle, 0):
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raise BuildError(f'Don\'t know how to route a U-bend at this time!')
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else:
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raise BuildError(f'Don\'t know how to route ports with relative angle {angle}')
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return self
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def mpath(
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def mpath(
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self,
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self,
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portspec: str | Sequence[str],
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portspec: str | Sequence[str],
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