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37 Commits

Author SHA1 Message Date
8d671ed709 bump version to v3.2
Highlights:
- Pather.path_into() for connecting into existing ports
- Pattern.plugged() for removing ports which were manually pathed into
  each other.
- Defined ordering/comparsions to enable sorting patterns and shapes
- numpy 2.0 compatibility
- Fix bounds calculation for arrays with manhattan rotations
- Bugfixes for DXF and OASIS
- Speed improvement for default Library.get_name() and GDS writing
2024-07-29 21:00:40 -07:00
a816a7db8e allow numpy v2.0 2024-07-29 18:24:31 -07:00
a8a42bba1d speed up b64suffix by using a simple array lookup instead of base64.b64encode 2024-07-29 11:30:31 -07:00
da7118f521 misc cleanup 2024-07-29 03:13:36 -07:00
ef6c5df386 be more consistent about when copies are made 2024-07-29 03:13:23 -07:00
ad0adec8e8 numpy.array(..., copy=False) -> numpy.asarray(...)
For numpy 2.0
2024-07-29 02:37:48 -07:00
8fd6896a71 set stacklevel=1 2024-07-28 20:41:17 -07:00
1ae3ffb9a2 linter cleanup 2024-07-28 20:35:37 -07:00
810a09f18b simplify comparison 2024-07-28 20:34:25 -07:00
97688ffae1 don't want to use context manager here 2024-07-28 20:32:55 -07:00
445c5690e1 use path.open 2024-07-28 20:32:55 -07:00
7e1f617274 fix bug where use_mmap was ignored 2024-07-28 20:32:53 -07:00
b10803efe9 pass along string arg 2024-07-28 20:31:41 -07:00
5f0a450ffa no need for string annotation 2024-07-28 20:31:41 -07:00
aa3636ebc6 flatten indent 2024-07-28 20:31:41 -07:00
48ffc9709e double quotes for docstrings 2024-07-28 20:31:41 -07:00
5cdafd580f don't need ABCMeta here 2024-07-28 20:31:41 -07:00
2cf187fdb8 def-in-loop needs assigments for vars 2024-07-28 20:31:41 -07:00
99e55f931c refactor to single-line conditional assignments 2024-07-28 20:31:41 -07:00
c48b427c77 mark some missing annotations as intentional 2024-07-28 20:31:41 -07:00
62fc64c344 iteration and collection simplifications 2024-07-28 20:31:41 -07:00
f304217d76 format is ok 2024-07-28 20:31:41 -07:00
ae21a2132e handle int-based cell references 2024-07-28 20:31:41 -07:00
e159c80b0c improve error generation and handling 2024-07-28 20:31:41 -07:00
38e9d5c250 use strict zip 2024-07-28 20:31:41 -07:00
5614eea3b4 Update DXF reading 2024-07-28 20:31:41 -07:00
8035daee7e mark intentionally unused args 2024-07-28 20:31:41 -07:00
4c69e773fd pass kwargs down into gen_straight() 2024-07-28 20:31:41 -07:00
39d9b88fa4 flatten indentation where it makes sense 2024-07-28 20:31:29 -07:00
9d5b1ef5e6 type annotation updates 2024-07-28 19:44:04 -07:00
3d50ff0070 add ruff config 2024-07-28 19:37:57 -07:00
01fe53dc79 fix final assignment and clarify what's going 2024-07-28 19:37:20 -07:00
d5adf57bc6 fix repr outside of class 2024-07-28 19:35:44 -07:00
4c721feaec re-exports: import x as x 2024-07-28 19:34:17 -07:00
6ec94fb3c3 import Sequence et al from collections.abc not typing 2024-07-28 19:33:16 -07:00
b1d78b9acb mkdir examples/layouts/ 2024-07-28 19:28:26 -07:00
dca918e63f notes for more todos 2024-07-28 19:28:05 -07:00
52 changed files with 440 additions and 299 deletions

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@ -233,3 +233,5 @@ my_pattern.ref(_make_my_subpattern(), offset=..., ...)
* Tests tests tests * Tests tests tests
* check renderpather * check renderpather
* pather and renderpather examples * pather and renderpather examples
* context manager for retool
* allow a specific mismatch when connecting ports

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@ -99,6 +99,7 @@ def main():
print('\nAdded aref_test') print('\nAdded aref_test')
folder = Path('./layouts/') folder = Path('./layouts/')
folder.mkdir(exist_ok=True)
print(f'...writing files to {folder}...') print(f'...writing files to {folder}...')
gds1 = folder / 'rep.gds.gz' gds1 = folder / 'rep.gds.gz'

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@ -1,4 +1,4 @@
from typing import Sequence from collections.abc import Sequence
import numpy import numpy
from numpy import pi from numpy import pi

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@ -1,4 +1,4 @@
from typing import Sequence, Mapping from collections.abc import Sequence, Mapping
import numpy import numpy
from numpy import pi from numpy import pi

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@ -1,4 +1,5 @@
from typing import Sequence, Callable, Any from typing import Any
from collections.abc import Sequence, Callable
from pprint import pformat from pprint import pformat
import numpy import numpy

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@ -1,7 +1,7 @@
""" """
Manual wire routing tutorial: Pather and BasicTool Manual wire routing tutorial: Pather and BasicTool
""" """
from typing import Callable from collections.abc import Callable
from numpy import pi from numpy import pi
from masque import Pather, RenderPather, Library, Pattern, Port, layer_t, map_layers from masque import Pather, RenderPather, Library, Pattern, Port, layer_t, map_layers
from masque.builder.tools import BasicTool, PathTool from masque.builder.tools import BasicTool, PathTool

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@ -2,7 +2,7 @@
Routines for creating normalized 2D lattices and common photonic crystal Routines for creating normalized 2D lattices and common photonic crystal
cavity designs. cavity designs.
""" """
from typing import Sequence from collection.abc import Sequence
import numpy import numpy
from numpy.typing import ArrayLike, NDArray from numpy.typing import ArrayLike, NDArray
@ -233,8 +233,8 @@ def ln_shift_defect(
# Shift holes # Shift holes
# Expand shifts as necessary # Expand shifts as necessary
tmp_a = numpy.array(shifts_a) tmp_a = numpy.asarray(shifts_a)
tmp_r = numpy.array(shifts_r) tmp_r = numpy.asarray(shifts_r)
n_shifted = max(tmp_a.size, tmp_r.size) n_shifted = max(tmp_a.size, tmp_r.size)
shifts_a = numpy.ones(n_shifted) shifts_a = numpy.ones(n_shifted)

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@ -1,7 +1,7 @@
""" """
Manual wire routing tutorial: RenderPather an PathTool Manual wire routing tutorial: RenderPather an PathTool
""" """
from typing import Callable from collections.abc import Callable
from masque import RenderPather, Library, Pattern, Port, layer_t, map_layers from masque import RenderPather, Library, Pattern, Port, layer_t, map_layers
from masque.builder.tools import PathTool from masque.builder.tools import PathTool
from masque.file.gdsii import writefile from masque.file.gdsii import writefile

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@ -28,25 +28,65 @@
can accept a `Mapping[str, Pattern]` and wrap it in a `LibraryView` internally. can accept a `Mapping[str, Pattern]` and wrap it in a `LibraryView` internally.
""" """
from .utils import layer_t, annotations_t, SupportsBool from .utils import (
from .error import MasqueError, PatternError, LibraryError, BuildError layer_t as layer_t,
from .shapes import Shape, Polygon, Path, Circle, Arc, Ellipse annotations_t as annotations_t,
from .label import Label SupportsBool as SupportsBool,
from .ref import Ref )
from .pattern import Pattern, map_layers, map_targets, chain_elements from .error import (
MasqueError as MasqueError,
PatternError as PatternError,
LibraryError as LibraryError,
BuildError as BuildError,
)
from .shapes import (
Shape as Shape,
Polygon as Polygon,
Path as Path,
Circle as Circle,
Arc as Arc,
Ellipse as Ellipse,
)
from .label import Label as Label
from .ref import Ref as Ref
from .pattern import (
Pattern as Pattern,
map_layers as map_layers,
map_targets as map_targets,
chain_elements as chain_elements,
)
from .library import ( from .library import (
ILibraryView, ILibrary, ILibraryView as ILibraryView,
LibraryView, Library, LazyLibrary, ILibrary as ILibrary,
AbstractView, TreeView, Tree, LibraryView as LibraryView,
Library as Library,
LazyLibrary as LazyLibrary,
AbstractView as AbstractView,
TreeView as TreeView,
Tree as Tree,
)
from .ports import (
Port as Port,
PortList as PortList,
)
from .abstract import Abstract as Abstract
from .builder import (
Builder as Builder,
Tool as Tool,
Pather as Pather,
RenderPather as RenderPather,
RenderStep as RenderStep,
BasicTool as BasicTool,
PathTool as PathTool,
)
from .utils import (
ports2data as ports2data,
oneshot as oneshot,
) )
from .ports import Port, PortList
from .abstract import Abstract
from .builder import Builder, Tool, Pather, RenderPather, RenderStep, BasicTool, PathTool
from .utils import ports2data, oneshot
__author__ = 'Jan Petykiewicz' __author__ = 'Jan Petykiewicz'
__version__ = '3.1' __version__ = '3.2'
version = __version__ # legacy version = __version__ # legacy

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@ -97,7 +97,7 @@ class Abstract(PortList):
Returns: Returns:
self self
""" """
pivot = numpy.array(pivot) pivot = numpy.asarray(pivot, dtype=float)
self.translate_ports(-pivot) self.translate_ports(-pivot)
self.rotate_ports(rotation) self.rotate_ports(rotation)
self.rotate_port_offsets(rotation) self.rotate_port_offsets(rotation)

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@ -1,5 +1,10 @@
from .builder import Builder from .builder import Builder as Builder
from .pather import Pather from .pather import Pather as Pather
from .renderpather import RenderPather from .renderpather import RenderPather as RenderPather
from .utils import ell from .utils import ell as ell
from .tools import Tool, RenderStep, BasicTool, PathTool from .tools import (
Tool as Tool,
RenderStep as RenderStep,
BasicTool as BasicTool,
PathTool as PathTool,
)

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@ -1,7 +1,8 @@
""" """
Simplified Pattern assembly (`Builder`) Simplified Pattern assembly (`Builder`)
""" """
from typing import Self, Sequence, Mapping from typing import Self
from collections.abc import Sequence, Mapping
import copy import copy
import logging import logging
from functools import wraps from functools import wraps
@ -137,7 +138,7 @@ class Builder(PortList):
@classmethod @classmethod
def interface( def interface(
cls, cls: type['Builder'],
source: PortList | Mapping[str, Port] | str, source: PortList | Mapping[str, Port] | str,
*, *,
library: ILibrary | None = None, library: ILibrary | None = None,
@ -275,7 +276,7 @@ class Builder(PortList):
logger.error('Skipping plug() since device is dead') logger.error('Skipping plug() since device is dead')
return self return self
if not isinstance(other, (str, Abstract, Pattern)): if not isinstance(other, str | Abstract | Pattern):
# We got a Tree; add it into self.library and grab an Abstract for it # We got a Tree; add it into self.library and grab an Abstract for it
other = self.library << other other = self.library << other
@ -347,7 +348,7 @@ class Builder(PortList):
logger.error('Skipping place() since device is dead') logger.error('Skipping place() since device is dead')
return self return self
if not isinstance(other, (str, Abstract, Pattern)): if not isinstance(other, str | Abstract | Pattern):
# We got a Tree; add it into self.library and grab an Abstract for it # We got a Tree; add it into self.library and grab an Abstract for it
other = self.library << other other = self.library << other

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@ -1,7 +1,8 @@
""" """
Manual wire/waveguide routing (`Pather`) Manual wire/waveguide routing (`Pather`)
""" """
from typing import Self, Sequence, MutableMapping, Mapping from typing import Self
from collections.abc import Sequence, MutableMapping, Mapping
import copy import copy
import logging import logging
from pprint import pformat from pprint import pformat
@ -174,7 +175,7 @@ class Pather(Builder):
@classmethod @classmethod
def from_builder( def from_builder(
cls, cls: type['Pather'],
builder: Builder, builder: Builder,
*, *,
tools: Tool | MutableMapping[str | None, Tool] | None = None, tools: Tool | MutableMapping[str | None, Tool] | None = None,
@ -194,7 +195,7 @@ class Pather(Builder):
@classmethod @classmethod
def interface( def interface(
cls, cls: type['Pather'],
source: PortList | Mapping[str, Port] | str, source: PortList | Mapping[str, Port] | str,
*, *,
library: ILibrary | None = None, library: ILibrary | None = None,
@ -657,7 +658,7 @@ class Pather(Builder):
if not bound_types: if not bound_types:
raise BuildError('No bound type specified for mpath') raise BuildError('No bound type specified for mpath')
elif len(bound_types) > 1: if len(bound_types) > 1:
raise BuildError(f'Too many bound types specified for mpath: {bound_types}') raise BuildError(f'Too many bound types specified for mpath: {bound_types}')
bound_type = tuple(bound_types)[0] bound_type = tuple(bound_types)[0]
@ -671,13 +672,13 @@ class Pather(Builder):
# Not a bus, so having a container just adds noise to the layout # Not a bus, so having a container just adds noise to the layout
port_name = tuple(portspec)[0] port_name = tuple(portspec)[0]
return self.path(port_name, ccw, extensions[port_name], tool_port_names=tool_port_names, **kwargs) return self.path(port_name, ccw, extensions[port_name], tool_port_names=tool_port_names, **kwargs)
else:
bld = Pather.interface(source=ports, library=self.library, tools=self.tools) bld = Pather.interface(source=ports, library=self.library, tools=self.tools)
for port_name, length in extensions.items(): for port_name, length in extensions.items():
bld.path(port_name, ccw, length, tool_port_names=tool_port_names, **kwargs) bld.path(port_name, ccw, length, tool_port_names=tool_port_names, **kwargs)
name = self.library.get_name(base_name) name = self.library.get_name(base_name)
self.library[name] = bld.pattern self.library[name] = bld.pattern
return self.plug(Abstract(name, bld.pattern.ports), {sp: 'in_' + sp for sp in ports.keys()}) # TODO safe to use 'in_'? return self.plug(Abstract(name, bld.pattern.ports), {sp: 'in_' + sp for sp in ports}) # TODO safe to use 'in_'?
# TODO def bus_join()? # TODO def bus_join()?

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@ -1,7 +1,8 @@
""" """
Pather with batched (multi-step) rendering Pather with batched (multi-step) rendering
""" """
from typing import Self, Sequence, Mapping, MutableMapping from typing import Self
from collections.abc import Sequence, Mapping, MutableMapping
import copy import copy
import logging import logging
from collections import defaultdict from collections import defaultdict
@ -127,7 +128,7 @@ class RenderPather(PortList):
@classmethod @classmethod
def interface( def interface(
cls, cls: type['RenderPather'],
source: PortList | Mapping[str, Port] | str, source: PortList | Mapping[str, Port] | str,
*, *,
library: ILibrary | None = None, library: ILibrary | None = None,
@ -247,7 +248,7 @@ class RenderPather(PortList):
other_tgt = self.library[other.name] other_tgt = self.library[other.name]
# get rid of plugged ports # get rid of plugged ports
for kk in map_in.keys(): for kk in map_in:
if kk in self.paths: if kk in self.paths:
self.paths[kk].append(RenderStep('P', None, self.ports[kk].copy(), self.ports[kk].copy(), None)) self.paths[kk].append(RenderStep('P', None, self.ports[kk].copy(), self.ports[kk].copy(), None))
@ -560,7 +561,7 @@ class RenderPather(PortList):
if not bound_types: if not bound_types:
raise BuildError('No bound type specified for mpath') raise BuildError('No bound type specified for mpath')
elif len(bound_types) > 1: if len(bound_types) > 1:
raise BuildError(f'Too many bound types specified for mpath: {bound_types}') raise BuildError(f'Too many bound types specified for mpath: {bound_types}')
bound_type = tuple(bound_types)[0] bound_type = tuple(bound_types)[0]

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@ -3,7 +3,8 @@ Tools are objects which dynamically generate simple single-use devices (e.g. wir
# TODO document all tools # TODO document all tools
""" """
from typing import Sequence, Literal, Callable, Any from typing import Literal, Any
from collections.abc import Sequence, Callable
from abc import ABCMeta # , abstractmethod # TODO any way to make Tool ok with implementing only one method? from abc import ABCMeta # , abstractmethod # TODO any way to make Tool ok with implementing only one method?
from dataclasses import dataclass from dataclasses import dataclass
@ -222,8 +223,8 @@ class Tool:
self, self,
batch: Sequence[RenderStep], batch: Sequence[RenderStep],
*, *,
port_names: Sequence[str] = ('A', 'B'), port_names: Sequence[str] = ('A', 'B'), # noqa: ARG002 (unused)
**kwargs, **kwargs, # noqa: ARG002 (unused)
) -> ILibrary: ) -> ILibrary:
""" """
Render the provided `batch` of `RenderStep`s into geometry, returning a tree Render the provided `batch` of `RenderStep`s into geometry, returning a tree
@ -312,7 +313,7 @@ class BasicTool(Tool, metaclass=ABCMeta):
*, *,
in_ptype: str | None = None, in_ptype: str | None = None,
out_ptype: str | None = None, out_ptype: str | None = None,
**kwargs, **kwargs, # noqa: ARG002 (unused)
) -> tuple[Port, LData]: ) -> tuple[Port, LData]:
# TODO check all the math for L-shaped bends # TODO check all the math for L-shaped bends
if ccw is not None: if ccw is not None:
@ -404,7 +405,7 @@ class BasicTool(Tool, metaclass=ABCMeta):
ipat, iport_theirs, _iport_ours = in_transition ipat, iport_theirs, _iport_ours = in_transition
pat.plug(ipat, {port_names[1]: iport_theirs}) pat.plug(ipat, {port_names[1]: iport_theirs})
if not numpy.isclose(straight_length, 0): if not numpy.isclose(straight_length, 0):
straight_pat = gen_straight(straight_length) straight_pat = gen_straight(straight_length, **kwargs)
if append: if append:
pat.plug(straight_pat, {port_names[1]: sport_in}, append=True) pat.plug(straight_pat, {port_names[1]: sport_in}, append=True)
else: else:
@ -454,7 +455,7 @@ class PathTool(Tool, metaclass=ABCMeta):
in_ptype: str | None = None, in_ptype: str | None = None,
out_ptype: str | None = None, out_ptype: str | None = None,
port_names: tuple[str, str] = ('A', 'B'), port_names: tuple[str, str] = ('A', 'B'),
**kwargs, **kwargs, # noqa: ARG002 (unused)
) -> Library: ) -> Library:
out_port, dxy = self.planL( out_port, dxy = self.planL(
ccw, ccw,
@ -485,9 +486,9 @@ class PathTool(Tool, metaclass=ABCMeta):
ccw: SupportsBool | None, ccw: SupportsBool | None,
length: float, length: float,
*, *,
in_ptype: str | None = None, in_ptype: str | None = None, # noqa: ARG002 (unused)
out_ptype: str | None = None, out_ptype: str | None = None,
**kwargs, **kwargs, # noqa: ARG002 (unused)
) -> tuple[Port, NDArray[numpy.float64]]: ) -> tuple[Port, NDArray[numpy.float64]]:
# TODO check all the math for L-shaped bends # TODO check all the math for L-shaped bends
@ -521,7 +522,7 @@ class PathTool(Tool, metaclass=ABCMeta):
batch: Sequence[RenderStep], batch: Sequence[RenderStep],
*, *,
port_names: Sequence[str] = ('A', 'B'), port_names: Sequence[str] = ('A', 'B'),
**kwargs, **kwargs, # noqa: ARG002 (unused)
) -> ILibrary: ) -> ILibrary:
path_vertices = [batch[0].start_port.offset] path_vertices = [batch[0].start_port.offset]

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@ -1,4 +1,5 @@
from typing import Mapping, Sequence, SupportsFloat, cast, TYPE_CHECKING from typing import SupportsFloat, cast, TYPE_CHECKING
from collections.abc import Mapping, Sequence
from pprint import pformat from pprint import pformat
import numpy import numpy
@ -112,7 +113,7 @@ def ell(
is_horizontal = numpy.isclose(rotations[0] % pi, 0) is_horizontal = numpy.isclose(rotations[0] % pi, 0)
if bound_type in ('ymin', 'ymax') and is_horizontal: if bound_type in ('ymin', 'ymax') and is_horizontal:
raise BuildError(f'Asked for {bound_type} position but ports are pointing along the x-axis!') raise BuildError(f'Asked for {bound_type} position but ports are pointing along the x-axis!')
elif bound_type in ('xmin', 'xmax') and not is_horizontal: if bound_type in ('xmin', 'xmax') and not is_horizontal:
raise BuildError(f'Asked for {bound_type} position but ports are pointing along the y-axis!') raise BuildError(f'Asked for {bound_type} position but ports are pointing along the y-axis!')
direction = rotations[0] + pi # direction we want to travel in (+pi relative to port) direction = rotations[0] + pi # direction we want to travel in (+pi relative to port)
@ -201,7 +202,7 @@ def ell(
if extension < 0: if extension < 0:
ext_floor = -numpy.floor(extension) ext_floor = -numpy.floor(extension)
raise BuildError(f'Position is too close by at least {ext_floor}. Total extensions would be\n\t' raise BuildError(f'Position is too close by at least {ext_floor}. Total extensions would be\n\t'
+ '\n\t'.join(f'{key}: {off}' for key, off in zip(ports.keys(), offsets))) + '\n\t'.join(f'{key}: {off}' for key, off in zip(ports.keys(), offsets, strict=True)))
result = dict(zip(ports.keys(), offsets)) result = dict(zip(ports.keys(), offsets, strict=True))
return result return result

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@ -6,7 +6,8 @@ Notes:
* ezdxf sets creation time, write time, $VERSIONGUID, and $FINGERPRINTGUID * ezdxf sets creation time, write time, $VERSIONGUID, and $FINGERPRINTGUID
to unique values, so byte-for-byte reproducibility is not achievable for now to unique values, so byte-for-byte reproducibility is not achievable for now
""" """
from typing import Any, Callable, Mapping, cast, TextIO, IO from typing import Any, cast, TextIO, IO
from collections.abc import Mapping, Callable
import io import io
import logging import logging
import pathlib import pathlib
@ -15,6 +16,7 @@ import gzip
import numpy import numpy
import ezdxf import ezdxf
from ezdxf.enums import TextEntityAlignment from ezdxf.enums import TextEntityAlignment
from ezdxf.entities import LWPolyline, Polyline, Text, Insert
from .utils import is_gzipped, tmpfile from .utils import is_gzipped, tmpfile
from .. import Pattern, Ref, PatternError, Label from .. import Pattern, Ref, PatternError, Label
@ -38,7 +40,7 @@ def write(
top_name: str, top_name: str,
stream: TextIO, stream: TextIO,
*, *,
dxf_version='AC1024', dxf_version: str = 'AC1024',
) -> None: ) -> None:
""" """
Write a `Pattern` to a DXF file, by first calling `.polygonize()` to change the shapes Write a `Pattern` to a DXF file, by first calling `.polygonize()` to change the shapes
@ -204,26 +206,25 @@ def read(
return mlib, library_info return mlib, library_info
def _read_block(block) -> tuple[str, Pattern]: def _read_block(block: ezdxf.layouts.BlockLayout | ezdxf.layouts.Modelspace) -> tuple[str, Pattern]:
name = block.name name = block.name
pat = Pattern() pat = Pattern()
for element in block: for element in block:
eltype = element.dxftype() if isinstance(element, LWPolyline | Polyline):
if eltype in ('POLYLINE', 'LWPOLYLINE'): if isinstance(element, LWPolyline):
if eltype == 'LWPOLYLINE': points = numpy.asarray(element.get_points())
points = numpy.array(tuple(element.lwpoints)) elif isinstance(element, Polyline):
else: points = numpy.asarray(element.points())[:, :2]
points = numpy.array(tuple(element.points()))
attr = element.dxfattribs() attr = element.dxfattribs()
layer = attr.get('layer', DEFAULT_LAYER) layer = attr.get('layer', DEFAULT_LAYER)
if points.shape[1] == 2: if points.shape[1] == 2:
raise PatternError('Invalid or unimplemented polygon?') raise PatternError('Invalid or unimplemented polygon?')
#shape = Polygon()
elif points.shape[1] > 2: if points.shape[1] > 2:
if (points[0, 2] != points[:, 2]).any(): if (points[0, 2] != points[:, 2]).any():
raise PatternError('PolyLine has non-constant width (not yet representable in masque!)') raise PatternError('PolyLine has non-constant width (not yet representable in masque!)')
elif points.shape[1] == 4 and (points[:, 3] != 0).any(): if points.shape[1] == 4 and (points[:, 3] != 0).any():
raise PatternError('LWPolyLine has bulge (not yet representable in masque!)') raise PatternError('LWPolyLine has bulge (not yet representable in masque!)')
width = points[0, 2] width = points[0, 2]
@ -238,9 +239,9 @@ def _read_block(block) -> tuple[str, Pattern]:
pat.shapes[layer].append(shape) pat.shapes[layer].append(shape)
elif eltype in ('TEXT',): elif isinstance(element, Text):
args = dict( args = dict(
offset=numpy.array(element.get_pos()[1])[:2], offset=numpy.asarray(element.get_placement()[1])[:2],
layer=element.dxfattribs().get('layer', DEFAULT_LAYER), layer=element.dxfattribs().get('layer', DEFAULT_LAYER),
) )
string = element.dxfattribs().get('text', '') string = element.dxfattribs().get('text', '')
@ -251,7 +252,7 @@ def _read_block(block) -> tuple[str, Pattern]:
pat.label(string=string, **args) pat.label(string=string, **args)
# else: # else:
# pat.shapes[args['layer']].append(Text(string=string, height=height, font_path=????)) # pat.shapes[args['layer']].append(Text(string=string, height=height, font_path=????))
elif eltype in ('INSERT',): elif isinstance(element, Insert):
attr = element.dxfattribs() attr = element.dxfattribs()
xscale = attr.get('xscale', 1) xscale = attr.get('xscale', 1)
yscale = attr.get('yscale', 1) yscale = attr.get('yscale', 1)
@ -261,7 +262,7 @@ def _read_block(block) -> tuple[str, Pattern]:
mirrored, extra_angle = normalize_mirror((yscale < 0, xscale < 0)) mirrored, extra_angle = normalize_mirror((yscale < 0, xscale < 0))
rotation = numpy.deg2rad(attr.get('rotation', 0)) + extra_angle rotation = numpy.deg2rad(attr.get('rotation', 0)) + extra_angle
offset = numpy.array(attr.get('insert', (0, 0, 0)))[:2] offset = numpy.asarray(attr.get('insert', (0, 0, 0)))[:2]
args = dict( args = dict(
target=attr.get('name', None), target=attr.get('name', None),
@ -336,10 +337,10 @@ def _mrefs_to_drefs(
def _shapes_to_elements( def _shapes_to_elements(
block: ezdxf.layouts.BlockLayout | ezdxf.layouts.Modelspace, block: ezdxf.layouts.BlockLayout | ezdxf.layouts.Modelspace,
shapes: dict[layer_t, list[Shape]], shapes: dict[layer_t, list[Shape]],
polygonize_paths: bool = False,
) -> None: ) -> None:
# Add `LWPolyline`s for each shape. # Add `LWPolyline`s for each shape.
# Could set do paths with width setting, but need to consider endcaps. # Could set do paths with width setting, but need to consider endcaps.
# TODO: can DXF do paths?
for layer, sseq in shapes.items(): for layer, sseq in shapes.items():
attribs = dict(layer=_mlayer2dxf(layer)) attribs = dict(layer=_mlayer2dxf(layer))
for shape in sseq: for shape in sseq:

View File

@ -19,7 +19,8 @@ Notes:
* GDS creation/modification/access times are set to 1900-01-01 for reproducibility. * GDS creation/modification/access times are set to 1900-01-01 for reproducibility.
* Gzip modification time is set to 0 (start of current epoch, usually 1970-01-01) * Gzip modification time is set to 0 (start of current epoch, usually 1970-01-01)
""" """
from typing import Callable, Iterable, Mapping, IO, cast, Any from typing import IO, cast, Any
from collections.abc import Iterable, Mapping, Callable
import io import io
import mmap import mmap
import logging import logging
@ -356,7 +357,7 @@ def _mrefs_to_grefs(refs: dict[str | None, list[Ref]]) -> list[klamath.library.R
if isinstance(rep, Grid): if isinstance(rep, Grid):
b_vector = rep.b_vector if rep.b_vector is not None else numpy.zeros(2) b_vector = rep.b_vector if rep.b_vector is not None else numpy.zeros(2)
b_count = rep.b_count if rep.b_count is not None else 1 b_count = rep.b_count if rep.b_count is not None else 1
xy = numpy.array(ref.offset) + numpy.array([ xy = numpy.asarray(ref.offset) + numpy.array([
[0.0, 0.0], [0.0, 0.0],
rep.a_vector * rep.a_count, rep.a_vector * rep.a_count,
b_vector * b_count, b_vector * b_count,
@ -408,8 +409,8 @@ def _annotations_to_properties(annotations: annotations_t, max_len: int = 126) -
for key, vals in annotations.items(): for key, vals in annotations.items():
try: try:
i = int(key) i = int(key)
except ValueError: except ValueError as err:
raise PatternError(f'Annotation key {key} is not convertable to an integer') raise PatternError(f'Annotation key {key} is not convertable to an integer') from err
if not (0 < i < 126): if not (0 < i < 126):
raise PatternError(f'Annotation key {key} converts to {i} (must be in the range [1,125])') raise PatternError(f'Annotation key {key} converts to {i} (must be in the range [1,125])')
@ -596,19 +597,19 @@ def load_libraryfile(
path = pathlib.Path(filename) path = pathlib.Path(filename)
stream: IO[bytes] stream: IO[bytes]
if is_gzipped(path): if is_gzipped(path):
if mmap: if use_mmap:
logger.info('Asked to mmap a gzipped file, reading into memory instead...') logger.info('Asked to mmap a gzipped file, reading into memory instead...')
gz_stream = gzip.open(path, mode='rb') gz_stream = gzip.open(path, mode='rb') # noqa: SIM115
stream = io.BytesIO(gz_stream.read()) # type: ignore stream = io.BytesIO(gz_stream.read()) # type: ignore
else: else:
gz_stream = gzip.open(path, mode='rb') gz_stream = gzip.open(path, mode='rb') # noqa: SIM115
stream = io.BufferedReader(gz_stream) # type: ignore stream = io.BufferedReader(gz_stream) # type: ignore
else: else: # noqa: PLR5501
if mmap: if use_mmap:
base_stream = open(path, mode='rb', buffering=0) base_stream = path.open(mode='rb', buffering=0) # noqa: SIM115
stream = mmap.mmap(base_stream.fileno(), 0, access=mmap.ACCESS_READ) # type: ignore stream = mmap.mmap(base_stream.fileno(), 0, access=mmap.ACCESS_READ) # type: ignore
else: else:
stream = open(path, mode='rb') stream = path.open(mode='rb') # noqa: SIM115
return load_library(stream, full_load=full_load, postprocess=postprocess) return load_library(stream, full_load=full_load, postprocess=postprocess)

View File

@ -14,7 +14,8 @@ Note that OASIS references follow the same convention as `masque`,
Notes: Notes:
* Gzip modification time is set to 0 (start of current epoch, usually 1970-01-01) * Gzip modification time is set to 0 (start of current epoch, usually 1970-01-01)
""" """
from typing import Any, Callable, Iterable, IO, Mapping, cast, Sequence from typing import Any, IO, cast
from collections.abc import Sequence, Iterable, Mapping, Callable
import logging import logging
import pathlib import pathlib
import gzip import gzip
@ -297,7 +298,7 @@ def read(
cap_start = path_cap_map[element.get_extension_start()[0]] cap_start = path_cap_map[element.get_extension_start()[0]]
cap_end = path_cap_map[element.get_extension_end()[0]] cap_end = path_cap_map[element.get_extension_end()[0]]
if cap_start != cap_end: if cap_start != cap_end:
raise Exception('masque does not support multiple cap types on a single path.') # TODO handle multiple cap types raise PatternError('masque does not support multiple cap types on a single path.') # TODO handle multiple cap types
cap = cap_start cap = cap_start
path_args: dict[str, Any] = {} path_args: dict[str, Any] = {}
@ -452,6 +453,8 @@ def read(
for placement in cell.placements: for placement in cell.placements:
target, ref = _placement_to_ref(placement, lib) target, ref = _placement_to_ref(placement, lib)
if isinstance(target, int):
target = lib.cellnames[target].nstring.string
pat.refs[target].append(ref) pat.refs[target].append(ref)
mlib[cell_name] = pat mlib[cell_name] = pat
@ -692,9 +695,9 @@ def properties_to_annotations(
assert proprec.values is not None assert proprec.values is not None
for value in proprec.values: for value in proprec.values:
if isinstance(value, (float, int)): if isinstance(value, float | int):
values.append(value) values.append(value)
elif isinstance(value, (NString, AString)): elif isinstance(value, NString | AString):
values.append(value.string) values.append(value.string)
elif isinstance(value, PropStringReference): elif isinstance(value, PropStringReference):
values.append(propstrings[value.ref].string) # dereference values.append(propstrings[value.ref].string) # dereference

View File

@ -1,7 +1,7 @@
""" """
SVG file format readers and writers SVG file format readers and writers
""" """
from typing import Mapping from collections.abc import Mapping
import warnings import warnings
import numpy import numpy
@ -50,7 +50,7 @@ def writefile(
bounds = pattern.get_bounds(library=library) bounds = pattern.get_bounds(library=library)
if bounds is None: if bounds is None:
bounds_min, bounds_max = numpy.array([[-1, -1], [1, 1]]) bounds_min, bounds_max = numpy.array([[-1, -1], [1, 1]])
warnings.warn('Pattern had no bounds (empty?); setting arbitrary viewbox') warnings.warn('Pattern had no bounds (empty?); setting arbitrary viewbox', stacklevel=1)
else: else:
bounds_min, bounds_max = bounds bounds_min, bounds_max = bounds
@ -117,7 +117,7 @@ def writefile_inverted(
bounds = pattern.get_bounds(library=library) bounds = pattern.get_bounds(library=library)
if bounds is None: if bounds is None:
bounds_min, bounds_max = numpy.array([[-1, -1], [1, 1]]) bounds_min, bounds_max = numpy.array([[-1, -1], [1, 1]])
warnings.warn('Pattern had no bounds (empty?); setting arbitrary viewbox') warnings.warn('Pattern had no bounds (empty?); setting arbitrary viewbox', stacklevel=1)
else: else:
bounds_min, bounds_max = bounds bounds_min, bounds_max = bounds
@ -154,9 +154,9 @@ def poly2path(vertices: ArrayLike) -> str:
Returns: Returns:
SVG path-string. SVG path-string.
""" """
verts = numpy.array(vertices, copy=False) verts = numpy.asarray(vertices)
commands = 'M{:g},{:g} '.format(verts[0][0], verts[0][1]) commands = 'M{:g},{:g} '.format(verts[0][0], verts[0][1]) # noqa: UP032
for vertex in verts[1:]: for vertex in verts[1:]:
commands += 'L{:g},{:g}'.format(vertex[0], vertex[1]) commands += 'L{:g},{:g}'.format(vertex[0], vertex[1]) # noqa: UP032
commands += ' Z ' commands += ' Z '
return commands return commands

View File

@ -1,7 +1,8 @@
""" """
Helper functions for file reading and writing Helper functions for file reading and writing
""" """
from typing import IO, Iterator, Mapping from typing import IO
from collections.abc import Iterator, Mapping
import re import re
import pathlib import pathlib
import logging import logging
@ -116,7 +117,7 @@ def clean_pattern_vertices(pat: Pattern) -> Pattern:
for shapes in pat.shapes.values(): for shapes in pat.shapes.values():
remove_inds = [] remove_inds = []
for ii, shape in enumerate(shapes): for ii, shape in enumerate(shapes):
if not isinstance(shape, (Polygon, Path)): if not isinstance(shape, Polygon | Path):
continue continue
try: try:
shape.clean_vertices() shape.clean_vertices()
@ -128,7 +129,7 @@ def clean_pattern_vertices(pat: Pattern) -> Pattern:
def is_gzipped(path: pathlib.Path) -> bool: def is_gzipped(path: pathlib.Path) -> bool:
with open(path, 'rb') as stream: with path.open('rb') as stream:
magic_bytes = stream.read(2) magic_bytes = stream.read(2)
return magic_bytes == b'\x1f\x8b' return magic_bytes == b'\x1f\x8b'

View File

@ -49,7 +49,7 @@ class Label(PositionableImpl, RepeatableImpl, AnnotatableImpl, Bounded, Pivotabl
annotations: annotations_t | None = None, annotations: annotations_t | None = None,
) -> None: ) -> None:
self.string = string self.string = string
self.offset = numpy.array(offset, dtype=float, copy=True) self.offset = numpy.array(offset, dtype=float)
self.repetition = repetition self.repetition = repetition
self.annotations = annotations if annotations is not None else {} self.annotations = annotations if annotations is not None else {}
@ -94,7 +94,7 @@ class Label(PositionableImpl, RepeatableImpl, AnnotatableImpl, Bounded, Pivotabl
Returns: Returns:
self self
""" """
pivot = numpy.array(pivot, dtype=float) pivot = numpy.asarray(pivot, dtype=float)
self.translate(-pivot) self.translate(-pivot)
self.offset = numpy.dot(rotation_matrix_2d(rotation), self.offset) self.offset = numpy.dot(rotation_matrix_2d(rotation), self.offset)
self.translate(+pivot) self.translate(+pivot)

View File

@ -14,17 +14,14 @@ Classes include:
- `AbstractView`: Provides a way to use []-indexing to generate abstracts for patterns in the linked - `AbstractView`: Provides a way to use []-indexing to generate abstracts for patterns in the linked
library. Generated with `ILibraryView.abstract_view()`. library. Generated with `ILibraryView.abstract_view()`.
""" """
from typing import Callable, Self, Type, TYPE_CHECKING, cast, TypeAlias, Protocol, Literal from typing import Self, TYPE_CHECKING, cast, TypeAlias, Protocol, Literal
from typing import Iterator, Mapping, MutableMapping, Sequence from collections.abc import Iterator, Mapping, MutableMapping, Sequence, Callable
import logging import logging
import base64
import struct
import re import re
import copy import copy
from pprint import pformat from pprint import pformat
from collections import defaultdict from collections import defaultdict
from abc import ABCMeta, abstractmethod from abc import ABCMeta, abstractmethod
from functools import lru_cache
import numpy import numpy
from numpy.typing import ArrayLike, NDArray from numpy.typing import ArrayLike, NDArray
@ -176,7 +173,7 @@ class ILibraryView(Mapping[str, 'Pattern'], metaclass=ABCMeta):
tops = tuple(self.keys()) tops = tuple(self.keys())
if skip is None: if skip is None:
skip = set([None]) skip = {None}
if isinstance(tops, str): if isinstance(tops, str):
tops = (tops,) tops = (tops,)
@ -213,7 +210,7 @@ class ILibraryView(Mapping[str, 'Pattern'], metaclass=ABCMeta):
if isinstance(tops, str): if isinstance(tops, str):
tops = (tops,) tops = (tops,)
keep = cast(set[str], self.referenced_patterns(tops) - set((None,))) keep = cast(set[str], self.referenced_patterns(tops) - {None})
keep |= set(tops) keep |= set(tops)
filtered = {kk: vv for kk, vv in self.items() if kk in keep} filtered = {kk: vv for kk, vv in self.items() if kk in keep}
@ -285,7 +282,7 @@ class ILibraryView(Mapping[str, 'Pattern'], metaclass=ABCMeta):
if isinstance(tops, str): if isinstance(tops, str):
tops = (tops,) tops = (tops,)
flattened: dict[str, 'Pattern | None'] = {} flattened: dict[str, Pattern | None] = {}
def flatten_single(name: str) -> None: def flatten_single(name: str) -> None:
flattened[name] = None flattened[name] = None
@ -349,8 +346,11 @@ class ILibraryView(Mapping[str, 'Pattern'], metaclass=ABCMeta):
else: else:
sanitized_name = name sanitized_name = name
ii = 0
suffixed_name = sanitized_name suffixed_name = sanitized_name
if sanitized_name in self:
ii = sum(1 for nn in self.keys() if nn.startswith(sanitized_name))
else:
ii = 0
while suffixed_name in self or suffixed_name == '': while suffixed_name in self or suffixed_name == '':
suffixed_name = sanitized_name + b64suffix(ii) suffixed_name = sanitized_name + b64suffix(ii)
ii += 1 ii += 1
@ -460,7 +460,7 @@ class ILibraryView(Mapping[str, 'Pattern'], metaclass=ABCMeta):
if transform is None or transform is True: if transform is None or transform is True:
transform = numpy.zeros(4) transform = numpy.zeros(4)
elif transform is not False: elif transform is not False:
transform = numpy.array(transform, dtype=float, copy=False) transform = numpy.asarray(transform, dtype=float)
original_pattern = pattern original_pattern = pattern
@ -665,7 +665,7 @@ class ILibrary(ILibraryView, MutableMapping[str, 'Pattern'], metaclass=ABCMeta):
duplicates = set(self.keys()) & set(other.keys()) duplicates = set(self.keys()) & set(other.keys())
if not duplicates: if not duplicates:
for key in other.keys(): for key in other:
self._merge(key, other, key) self._merge(key, other, key)
return {} return {}
@ -735,7 +735,7 @@ class ILibrary(ILibraryView, MutableMapping[str, 'Pattern'], metaclass=ABCMeta):
def dedup( def dedup(
self, self,
norm_value: int = int(1e6), norm_value: int = int(1e6),
exclude_types: tuple[Type] = (Polygon,), exclude_types: tuple[type] = (Polygon,),
label2name: Callable[[tuple], str] | None = None, label2name: Callable[[tuple], str] | None = None,
threshold: int = 2, threshold: int = 2,
) -> Self: ) -> Self:
@ -773,7 +773,7 @@ class ILibrary(ILibraryView, MutableMapping[str, 'Pattern'], metaclass=ABCMeta):
exclude_types = () exclude_types = ()
if label2name is None: if label2name is None:
def label2name(label): def label2name(label: tuple) -> str: # noqa: ARG001
return self.get_name(SINGLE_USE_PREFIX + 'shape') return self.get_name(SINGLE_USE_PREFIX + 'shape')
shape_counts: MutableMapping[tuple, int] = defaultdict(int) shape_counts: MutableMapping[tuple, int] = defaultdict(int)
@ -863,7 +863,7 @@ class ILibrary(ILibraryView, MutableMapping[str, 'Pattern'], metaclass=ABCMeta):
from .pattern import Pattern from .pattern import Pattern
if name_func is None: if name_func is None:
def name_func(_pat, _shape): def name_func(_pat: Pattern, _shape: Shape | Label) -> str:
return self.get_name(SINGLE_USE_PREFIX + 'rep') return self.get_name(SINGLE_USE_PREFIX + 'rep')
for pat in tuple(self.values()): for pat in tuple(self.values()):
@ -912,7 +912,7 @@ class ILibrary(ILibraryView, MutableMapping[str, 'Pattern'], metaclass=ABCMeta):
if isinstance(tops, str): if isinstance(tops, str):
tops = (tops,) tops = (tops,)
keep = cast(set[str], self.referenced_patterns(tops) - set((None,))) keep = cast(set[str], self.referenced_patterns(tops) - {None})
keep |= set(tops) keep |= set(tops)
new = type(self)() new = type(self)()
@ -934,7 +934,7 @@ class ILibrary(ILibraryView, MutableMapping[str, 'Pattern'], metaclass=ABCMeta):
A set containing the names of all deleted patterns A set containing the names of all deleted patterns
""" """
trimmed = set() trimmed = set()
while empty := set(name for name, pat in self.items() if pat.is_empty()): while empty := {name for name, pat in self.items() if pat.is_empty()}:
for name in empty: for name in empty:
del self[name] del self[name]
@ -1038,10 +1038,7 @@ class Library(ILibrary):
if key in self.mapping: if key in self.mapping:
raise LibraryError(f'"{key}" already exists in the library. Overwriting is not allowed!') raise LibraryError(f'"{key}" already exists in the library. Overwriting is not allowed!')
if callable(value): value = value() if callable(value) else value
value = value()
else:
value = value
self.mapping[key] = value self.mapping[key] = value
def __delitem__(self, key: str) -> None: def __delitem__(self, key: str) -> None:
@ -1054,7 +1051,7 @@ class Library(ILibrary):
return f'<Library ({type(self.mapping)}) with keys\n' + pformat(list(self.keys())) + '>' return f'<Library ({type(self.mapping)}) with keys\n' + pformat(list(self.keys())) + '>'
@classmethod @classmethod
def mktree(cls, name: str) -> tuple[Self, 'Pattern']: def mktree(cls: type[Self], name: str) -> tuple[Self, 'Pattern']:
""" """
Create a new Library and immediately add a pattern Create a new Library and immediately add a pattern
@ -1232,8 +1229,18 @@ class AbstractView(Mapping[str, Abstract]):
return self.library.__len__() return self.library.__len__()
@lru_cache(maxsize=8_000)
def b64suffix(ii: int) -> str: def b64suffix(ii: int) -> str:
"""Turn an integer into a base64-equivalent suffix.""" """
suffix = base64.b64encode(struct.pack('>Q', ii), altchars=b'$?').decode('ASCII') Turn an integer into a base64-equivalent suffix.
return '$' + suffix[:-1].lstrip('A')
This could be done with base64.b64encode, but this way is faster for many small `ii`.
"""
def i2a(nn: int) -> str:
return 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789$?'[nn]
parts = ['$', i2a(ii % 64)]
ii >>= 6
while ii:
parts.append(i2a(ii % 64))
ii >>= 6
return ''.join(parts)

View File

@ -2,7 +2,8 @@
Object representing a one multi-layer lithographic layout. Object representing a one multi-layer lithographic layout.
A single level of hierarchical references is included. A single level of hierarchical references is included.
""" """
from typing import Callable, Sequence, cast, Mapping, Self, Any, Iterable, TypeVar, MutableMapping from typing import cast, Self, Any, TypeVar
from collections.abc import Sequence, Mapping, MutableMapping, Iterable, Callable
import copy import copy
import logging import logging
import functools import functools
@ -295,7 +296,7 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
if not annotations_eq(self.annotations, other.annotations): if not annotations_eq(self.annotations, other.annotations):
return False return False
if not ports_eq(self.ports, other.ports): if not ports_eq(self.ports, other.ports): # noqa: SIM103
return False return False
return True return True
@ -312,10 +313,10 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
self self
""" """
if sort_elements: if sort_elements:
def maybe_sort(xx): def maybe_sort(xx): # noqa:ANN001,ANN202
return sorted(xx) return sorted(xx)
else: else:
def maybe_sort(xx): def maybe_sort(xx): # noqa:ANN001,ANN202
return xx return xx
self.refs = defaultdict(list, sorted( self.refs = defaultdict(list, sorted(
@ -471,10 +472,10 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
self.polygonize() self.polygonize()
for layer in self.shapes: for layer in self.shapes:
self.shapes[layer] = list(chain.from_iterable(( self.shapes[layer] = list(chain.from_iterable(
ss.manhattanize(grid_x, grid_y) ss.manhattanize(grid_x, grid_y)
for ss in self.shapes[layer] for ss in self.shapes[layer]
))) ))
return self return self
def as_polygons(self, library: Mapping[str, 'Pattern']) -> list[NDArray[numpy.float64]]: def as_polygons(self, library: Mapping[str, 'Pattern']) -> list[NDArray[numpy.float64]]:
@ -594,7 +595,6 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
if (cbounds[1] < cbounds[0]).any(): if (cbounds[1] < cbounds[0]).any():
return None return None
else:
return cbounds return cbounds
def get_bounds_nonempty( def get_bounds_nonempty(
@ -616,7 +616,7 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
Returns: Returns:
`[[x_min, y_min], [x_max, y_max]]` `[[x_min, y_min], [x_max, y_max]]`
""" """
bounds = self.get_bounds(library) bounds = self.get_bounds(library, recurse=recurse)
assert bounds is not None assert bounds is not None
return bounds return bounds
@ -690,7 +690,7 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
Returns: Returns:
self self
""" """
pivot = numpy.array(pivot) pivot = numpy.asarray(pivot, dtype=float)
self.translate_elements(-pivot) self.translate_elements(-pivot)
self.rotate_elements(rotation) self.rotate_elements(rotation)
self.rotate_element_centers(rotation) self.rotate_element_centers(rotation)
@ -953,7 +953,7 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
Returns: Returns:
self self
""" """
flattened: dict[str | None, 'Pattern | None'] = {} flattened: dict[str | None, Pattern | None] = {}
def flatten_single(name: str | None) -> None: def flatten_single(name: str | None) -> None:
if name is None: if name is None:
@ -1015,15 +1015,15 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
try: try:
from matplotlib import pyplot # type: ignore from matplotlib import pyplot # type: ignore
import matplotlib.collections # type: ignore import matplotlib.collections # type: ignore
except ImportError as err: except ImportError:
logger.error('Pattern.visualize() depends on matplotlib!') logger.exception('Pattern.visualize() depends on matplotlib!\n'
logger.error('Make sure to install masque with the [visualize] option to pull in the needed dependencies.') + 'Make sure to install masque with the [visualize] option to pull in the needed dependencies.')
raise err raise
if self.has_refs() and library is None: if self.has_refs() and library is None:
raise PatternError('Must provide a library when visualizing a pattern with refs') raise PatternError('Must provide a library when visualizing a pattern with refs')
offset = numpy.array(offset, dtype=float) offset = numpy.asarray(offset, dtype=float)
if not overdraw: if not overdraw:
figure = pyplot.figure() figure = pyplot.figure()
@ -1324,7 +1324,7 @@ class Pattern(PortList, AnnotatableImpl, Mirrorable):
@classmethod @classmethod
def interface( def interface(
cls, cls: type['Pattern'],
source: PortList | Mapping[str, Port], source: PortList | Mapping[str, Port],
*, *,
in_prefix: str = 'in_', in_prefix: str = 'in_',

View File

@ -1,4 +1,5 @@
from typing import Iterable, KeysView, ValuesView, overload, Self, Mapping, NoReturn, Any from typing import overload, Self, NoReturn, Any
from collections.abc import Iterable, KeysView, ValuesView, Mapping
import warnings import warnings
import traceback import traceback
import logging import logging
@ -92,7 +93,7 @@ class Port(PositionableImpl, Rotatable, PivotableImpl, Copyable, Mirrorable):
def copy(self) -> Self: def copy(self) -> Self:
return self.deepcopy() return self.deepcopy()
def get_bounds(self): def get_bounds(self) -> NDArray[numpy.float64]:
return numpy.vstack((self.offset, self.offset)) return numpy.vstack((self.offset, self.offset))
def set_ptype(self, ptype: str) -> Self: def set_ptype(self, ptype: str) -> Self:
@ -180,7 +181,7 @@ class PortList(metaclass=ABCMeta):
""" """
if isinstance(key, str): if isinstance(key, str):
return self.ports[key] return self.ports[key]
else: else: # noqa: RET505
return {k: self.ports[k] for k in key} return {k: self.ports[k] for k in key}
def __contains__(self, key: str) -> NoReturn: def __contains__(self, key: str) -> NoReturn:
@ -238,7 +239,7 @@ class PortList(metaclass=ABCMeta):
if duplicates: if duplicates:
raise PortError(f'Unrenamed ports would be overwritten: {duplicates}') raise PortError(f'Unrenamed ports would be overwritten: {duplicates}')
renamed = {mapping[k]: self.ports.pop(k) for k in mapping.keys()} renamed = {vv: self.ports.pop(kk) for kk, vv in mapping.items()}
if None in renamed: if None in renamed:
del renamed[None] del renamed[None]
@ -293,14 +294,14 @@ class PortList(metaclass=ABCMeta):
Raises: Raises:
`PortError` if the ports are not properly aligned. `PortError` if the ports are not properly aligned.
""" """
a_names, b_names = list(zip(*connections.items())) a_names, b_names = list(zip(*connections.items(), strict=True))
a_ports = [self.ports[pp] for pp in a_names] a_ports = [self.ports[pp] for pp in a_names]
b_ports = [self.ports[pp] for pp in b_names] b_ports = [self.ports[pp] for pp in b_names]
a_types = [pp.ptype for pp in a_ports] a_types = [pp.ptype for pp in a_ports]
b_types = [pp.ptype for pp in b_ports] b_types = [pp.ptype for pp in b_ports]
type_conflicts = numpy.array([at != bt and at != 'unk' and bt != 'unk' type_conflicts = numpy.array([at != bt and 'unk' not in (at, bt)
for at, bt in zip(a_types, b_types)]) for at, bt in zip(a_types, b_types, strict=True)])
if type_conflicts.any(): if type_conflicts.any():
msg = 'Ports have conflicting types:\n' msg = 'Ports have conflicting types:\n'
@ -501,8 +502,8 @@ class PortList(metaclass=ABCMeta):
o_offsets[:, 1] *= -1 o_offsets[:, 1] *= -1
o_rotations *= -1 o_rotations *= -1
type_conflicts = numpy.array([st != ot and st != 'unk' and ot != 'unk' type_conflicts = numpy.array([st != ot and 'unk' not in (st, ot)
for st, ot in zip(s_types, o_types)]) for st, ot in zip(s_types, o_types, strict=True)])
if type_conflicts.any(): if type_conflicts.any():
msg = 'Ports have conflicting types:\n' msg = 'Ports have conflicting types:\n'
for nn, (k, v) in enumerate(map_in.items()): for nn, (k, v) in enumerate(map_in.items()):

View File

@ -2,7 +2,8 @@
Ref provides basic support for nesting Pattern objects within each other. Ref provides basic support for nesting Pattern objects within each other.
It carries offset, rotation, mirroring, and scaling data for each individual instance. It carries offset, rotation, mirroring, and scaling data for each individual instance.
""" """
from typing import Mapping, TYPE_CHECKING, Self, Any from typing import TYPE_CHECKING, Self, Any
from collections.abc import Mapping
import copy import copy
import functools import functools

View File

@ -2,7 +2,7 @@
Repetitions provide support for efficiently representing multiple identical Repetitions provide support for efficiently representing multiple identical
instances of an object . instances of an object .
""" """
from typing import Any, Type, Self, TypeVar, cast from typing import Any, Self, TypeVar, cast
import copy import copy
import functools import functools
from abc import ABCMeta, abstractmethod from abc import ABCMeta, abstractmethod
@ -101,7 +101,6 @@ class Grid(Repetition):
if b_vector is None: if b_vector is None:
if b_count > 1: if b_count > 1:
raise PatternError('Repetition has b_count > 1 but no b_vector') raise PatternError('Repetition has b_count > 1 but no b_vector')
else:
b_vector = numpy.array([0.0, 0.0]) b_vector = numpy.array([0.0, 0.0])
if a_count < 1: if a_count < 1:
@ -116,7 +115,7 @@ class Grid(Repetition):
@classmethod @classmethod
def aligned( def aligned(
cls: Type[GG], cls: type[GG],
x: float, x: float,
y: float, y: float,
x_count: int, x_count: int,
@ -157,12 +156,11 @@ class Grid(Repetition):
@a_vector.setter @a_vector.setter
def a_vector(self, val: ArrayLike) -> None: def a_vector(self, val: ArrayLike) -> None:
if not isinstance(val, numpy.ndarray):
val = numpy.array(val, dtype=float) val = numpy.array(val, dtype=float)
if val.size != 2: if val.size != 2:
raise PatternError('a_vector must be convertible to size-2 ndarray') raise PatternError('a_vector must be convertible to size-2 ndarray')
self._a_vector = val.flatten().astype(float) self._a_vector = val.flatten()
# b_vector property # b_vector property
@property @property
@ -171,8 +169,7 @@ class Grid(Repetition):
@b_vector.setter @b_vector.setter
def b_vector(self, val: ArrayLike) -> None: def b_vector(self, val: ArrayLike) -> None:
if not isinstance(val, numpy.ndarray): val = numpy.array(val, dtype=float)
val = numpy.array(val, dtype=float, copy=True)
if val.size != 2: if val.size != 2:
raise PatternError('b_vector must be convertible to size-2 ndarray') raise PatternError('b_vector must be convertible to size-2 ndarray')
@ -290,7 +287,7 @@ class Grid(Repetition):
return True return True
if self.b_vector is None or other.b_vector is None: if self.b_vector is None or other.b_vector is None:
return False return False
if any(self.b_vector[ii] != other.b_vector[ii] for ii in range(2)): if any(self.b_vector[ii] != other.b_vector[ii] for ii in range(2)): # noqa: SIM103
return False return False
return True return True
@ -335,9 +332,9 @@ class Arbitrary(Repetition):
@displacements.setter @displacements.setter
def displacements(self, val: ArrayLike) -> None: def displacements(self, val: ArrayLike) -> None:
vala: NDArray[numpy.float64] = numpy.array(val, dtype=float) vala = numpy.array(val, dtype=float)
vala = numpy.sort(vala.view([('', vala.dtype)] * vala.shape[1]), 0).view(vala.dtype) # sort rows order = numpy.lexsort(vala.T[::-1]) # sortrows
self._displacements = vala self._displacements = vala[order]
def __init__( def __init__(
self, self,

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@ -3,11 +3,15 @@ Shapes for use with the Pattern class, as well as the Shape abstract class from
which they are derived. which they are derived.
""" """
from .shape import Shape, normalized_shape_tuple, DEFAULT_POLY_NUM_VERTICES from .shape import (
Shape as Shape,
normalized_shape_tuple as normalized_shape_tuple,
DEFAULT_POLY_NUM_VERTICES as DEFAULT_POLY_NUM_VERTICES,
)
from .polygon import Polygon from .polygon import Polygon as Polygon
from .circle import Circle from .circle import Circle as Circle
from .ellipse import Ellipse from .ellipse import Ellipse as Ellipse
from .arc import Arc from .arc import Arc as Arc
from .text import Text from .text import Text as Text
from .path import Path from .path import Path as Path

View File

@ -286,7 +286,7 @@ class Arc(Shape):
return thetas return thetas
wh = self.width / 2.0 wh = self.width / 2.0
if wh == r0 or wh == r1: if wh in (r0, r1):
thetas_inner = numpy.zeros(1) # Don't generate multiple vertices if we're at the origin thetas_inner = numpy.zeros(1) # Don't generate multiple vertices if we're at the origin
else: else:
thetas_inner = get_thetas(inner=True) thetas_inner = get_thetas(inner=True)
@ -308,7 +308,7 @@ class Arc(Shape):
return [poly] return [poly]
def get_bounds_single(self) -> NDArray[numpy.float64]: def get_bounds_single(self) -> NDArray[numpy.float64]:
''' """
Equation for rotated ellipse is Equation for rotated ellipse is
`x = x0 + a * cos(t) * cos(rot) - b * sin(t) * sin(phi)` `x = x0 + a * cos(t) * cos(rot) - b * sin(t) * sin(phi)`
`y = y0 + a * cos(t) * sin(rot) + b * sin(t) * cos(rot)` `y = y0 + a * cos(t) * sin(rot) + b * sin(t) * cos(rot)`
@ -319,12 +319,12 @@ class Arc(Shape):
where -+ is for x, y cases, so that's where the extrema are. where -+ is for x, y cases, so that's where the extrema are.
If the extrema are innaccessible due to arc constraints, check the arc endpoints instead. If the extrema are innaccessible due to arc constraints, check the arc endpoints instead.
''' """
a_ranges = self._angles_to_parameters() a_ranges = self._angles_to_parameters()
mins = [] mins = []
maxs = [] maxs = []
for a, sgn in zip(a_ranges, (-1, +1)): for a, sgn in zip(a_ranges, (-1, +1), strict=True):
wh = sgn * self.width / 2 wh = sgn * self.width / 2
rx = self.radius_x + wh rx = self.radius_x + wh
ry = self.radius_y + wh ry = self.radius_y + wh
@ -424,18 +424,18 @@ class Arc(Shape):
)) ))
def get_cap_edges(self) -> NDArray[numpy.float64]: def get_cap_edges(self) -> NDArray[numpy.float64]:
''' """
Returns: Returns:
``` ```
[[[x0, y0], [x1, y1]], array of 4 points, specifying the two cuts which [[[x0, y0], [x1, y1]], array of 4 points, specifying the two cuts which
[[x2, y2], [x3, y3]]], would create this arc from its corresponding ellipse. [[x2, y2], [x3, y3]]], would create this arc from its corresponding ellipse.
``` ```
''' """
a_ranges = self._angles_to_parameters() a_ranges = self._angles_to_parameters()
mins = [] mins = []
maxs = [] maxs = []
for a, sgn in zip(a_ranges, (-1, +1)): for a, sgn in zip(a_ranges, (-1, +1), strict=True):
wh = sgn * self.width / 2 wh = sgn * self.width / 2
rx = self.radius_x + wh rx = self.radius_x + wh
ry = self.radius_y + wh ry = self.radius_y + wh
@ -454,11 +454,11 @@ class Arc(Shape):
return numpy.array([mins, maxs]) + self.offset return numpy.array([mins, maxs]) + self.offset
def _angles_to_parameters(self) -> NDArray[numpy.float64]: def _angles_to_parameters(self) -> NDArray[numpy.float64]:
''' """
Returns: Returns:
"Eccentric anomaly" parameter ranges for the inner and outer edges, in the form "Eccentric anomaly" parameter ranges for the inner and outer edges, in the form
`[[a_min_inner, a_max_inner], [a_min_outer, a_max_outer]]` `[[a_min_inner, a_max_inner], [a_min_outer, a_max_outer]]`
''' """
a = [] a = []
for sgn in (-1, +1): for sgn in (-1, +1):
wh = sgn * self.width / 2 wh = sgn * self.width / 2
@ -472,7 +472,7 @@ class Arc(Shape):
a1 += sign * 2 * pi a1 += sign * 2 * pi
a.append((a0, a1)) a.append((a0, a1))
return numpy.array(a) return numpy.array(a, dtype=float)
def __repr__(self) -> str: def __repr__(self) -> str:
angles = f'{numpy.rad2deg(self.angles)}' angles = f'{numpy.rad2deg(self.angles)}'

View File

@ -119,10 +119,10 @@ class Circle(Shape):
return numpy.vstack((self.offset - self.radius, return numpy.vstack((self.offset - self.radius,
self.offset + self.radius)) self.offset + self.radius))
def rotate(self, theta: float) -> 'Circle': def rotate(self, theta: float) -> 'Circle': # noqa: ARG002 (theta unused)
return self return self
def mirror(self, axis: int = 0) -> 'Circle': def mirror(self, axis: int = 0) -> 'Circle': # noqa: ARG002 (axis unused)
self.offset *= -1 self.offset *= -1
return self return self
@ -130,7 +130,7 @@ class Circle(Shape):
self.radius *= c self.radius *= c
return self return self
def normalized_form(self, norm_value) -> normalized_shape_tuple: def normalized_form(self, norm_value: float) -> normalized_shape_tuple:
rotation = 0.0 rotation = 0.0
magnitude = self.radius / norm_value magnitude = self.radius / norm_value
return ((type(self),), return ((type(self),),

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@ -1,4 +1,5 @@
from typing import Sequence, Any, cast from typing import Any, cast
from collections.abc import Sequence
import copy import copy
import functools import functools
from enum import Enum from enum import Enum
@ -32,8 +33,7 @@ class Path(Shape):
A path, consisting of a bunch of vertices (Nx2 ndarray), a width, an end-cap shape, A path, consisting of a bunch of vertices (Nx2 ndarray), a width, an end-cap shape,
and an offset. and an offset.
Note that the setter for `Path.vertices` may (but may not) create a copy of the Note that the setter for `Path.vertices` will create a copy of the passed vertex coordinates.
passed vertex coordinates. See `numpy.array(..., copy=False)` for details.
A normalized_form(...) is available, but can be quite slow with lots of vertices. A normalized_form(...) is available, but can be quite slow with lots of vertices.
""" """
@ -104,11 +104,11 @@ class Path(Shape):
custom_caps = (PathCap.SquareCustom,) custom_caps = (PathCap.SquareCustom,)
if self.cap in custom_caps: if self.cap in custom_caps:
if vals is None: if vals is None:
raise Exception('Tried to set cap extensions to None on path with custom cap type') raise PatternError('Tried to set cap extensions to None on path with custom cap type')
self._cap_extensions = numpy.array(vals, dtype=float) self._cap_extensions = numpy.array(vals, dtype=float)
else: else:
if vals is not None: if vals is not None:
raise Exception('Tried to set custom cap extensions on path with non-custom cap type') raise PatternError('Tried to set custom cap extensions on path with non-custom cap type')
self._cap_extensions = vals self._cap_extensions = vals
# vertices property # vertices property
@ -117,8 +117,7 @@ class Path(Shape):
""" """
Vertices of the path (Nx2 ndarray: `[[x0, y0], [x1, y1], ...]` Vertices of the path (Nx2 ndarray: `[[x0, y0], [x1, y1], ...]`
When setting, note that a copy of the provided vertices may or may not be made, When setting, note that a copy of the provided vertices will be made.
following the rules from `numpy.array(.., copy=False)`.
""" """
return self._vertices return self._vertices
@ -430,22 +429,22 @@ class Path(Shape):
return self return self
def remove_duplicate_vertices(self) -> 'Path': def remove_duplicate_vertices(self) -> 'Path':
''' """
Removes all consecutive duplicate (repeated) vertices. Removes all consecutive duplicate (repeated) vertices.
Returns: Returns:
self self
''' """
self.vertices = remove_duplicate_vertices(self.vertices, closed_path=False) self.vertices = remove_duplicate_vertices(self.vertices, closed_path=False)
return self return self
def remove_colinear_vertices(self) -> 'Path': def remove_colinear_vertices(self) -> 'Path':
''' """
Removes consecutive co-linear vertices. Removes consecutive co-linear vertices.
Returns: Returns:
self self
''' """
self.vertices = remove_colinear_vertices(self.vertices, closed_path=False) self.vertices = remove_colinear_vertices(self.vertices, closed_path=False)
return self return self

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@ -1,4 +1,5 @@
from typing import Sequence, Any, cast from typing import Any, cast
from collections.abc import Sequence
import copy import copy
import functools import functools
@ -19,8 +20,8 @@ class Polygon(Shape):
A polygon, consisting of a bunch of vertices (Nx2 ndarray) which specify an A polygon, consisting of a bunch of vertices (Nx2 ndarray) which specify an
implicitly-closed boundary, and an offset. implicitly-closed boundary, and an offset.
Note that the setter for `Polygon.vertices` may (but may not) create a copy of the Note that the setter for `Polygon.vertices` may creates a copy of the
passed vertex coordinates. See `numpy.array(..., copy=False)` for details. passed vertex coordinates.
A `normalized_form(...)` is available, but can be quite slow with lots of vertices. A `normalized_form(...)` is available, but can be quite slow with lots of vertices.
""" """
@ -39,8 +40,7 @@ class Polygon(Shape):
""" """
Vertices of the polygon (Nx2 ndarray: `[[x0, y0], [x1, y1], ...]`) Vertices of the polygon (Nx2 ndarray: `[[x0, y0], [x1, y1], ...]`)
When setting, note that a copy of the provided vertices may or may not be made, When setting, note that a copy of the provided vertices will be made,
following the rules from `numpy.array(.., copy=False)`.
""" """
return self._vertices return self._vertices
@ -252,7 +252,7 @@ class Polygon(Shape):
lx = 2 * (xmax - xctr) lx = 2 * (xmax - xctr)
else: else:
raise PatternError('Two of xmin, xctr, xmax, lx must be None!') raise PatternError('Two of xmin, xctr, xmax, lx must be None!')
else: else: # noqa: PLR5501
if xctr is not None: if xctr is not None:
pass pass
elif xmax is None: elif xmax is None:
@ -282,7 +282,7 @@ class Polygon(Shape):
ly = 2 * (ymax - yctr) ly = 2 * (ymax - yctr)
else: else:
raise PatternError('Two of ymin, yctr, ymax, ly must be None!') raise PatternError('Two of ymin, yctr, ymax, ly must be None!')
else: else: # noqa: PLR5501
if yctr is not None: if yctr is not None:
pass pass
elif ymax is None: elif ymax is None:
@ -330,10 +330,7 @@ class Polygon(Shape):
Returns: Returns:
A Polygon object containing the requested octagon A Polygon object containing the requested octagon
""" """
if regular: s = (1 + numpy.sqrt(2)) if regular else 2
s = 1 + numpy.sqrt(2)
else:
s = 2
norm_oct = numpy.array([ norm_oct = numpy.array([
[-1, -s], [-1, -s],
@ -357,8 +354,8 @@ class Polygon(Shape):
def to_polygons( def to_polygons(
self, self,
num_vertices: int | None = None, # unused num_vertices: int | None = None, # unused # noqa: ARG002
max_arclen: float | None = None, # unused max_arclen: float | None = None, # unused # noqa: ARG002
) -> list['Polygon']: ) -> list['Polygon']:
return [copy.deepcopy(self)] return [copy.deepcopy(self)]
@ -417,22 +414,22 @@ class Polygon(Shape):
return self return self
def remove_duplicate_vertices(self) -> 'Polygon': def remove_duplicate_vertices(self) -> 'Polygon':
''' """
Removes all consecutive duplicate (repeated) vertices. Removes all consecutive duplicate (repeated) vertices.
Returns: Returns:
self self
''' """
self.vertices = remove_duplicate_vertices(self.vertices, closed_path=True) self.vertices = remove_duplicate_vertices(self.vertices, closed_path=True)
return self return self
def remove_colinear_vertices(self) -> 'Polygon': def remove_colinear_vertices(self) -> 'Polygon':
''' """
Removes consecutive co-linear vertices. Removes consecutive co-linear vertices.
Returns: Returns:
self self
''' """
self.vertices = remove_colinear_vertices(self.vertices, closed_path=True) self.vertices = remove_colinear_vertices(self.vertices, closed_path=True)
return self return self

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@ -1,4 +1,5 @@
from typing import Callable, TYPE_CHECKING, Any from typing import TYPE_CHECKING, Any
from collections.abc import Callable
from abc import ABCMeta, abstractmethod from abc import ABCMeta, abstractmethod
import numpy import numpy
@ -134,7 +135,7 @@ class Shape(PositionableImpl, Rotatable, Mirrorable, Copyable, Scalable,
vertex_lists = [] vertex_lists = []
p_verts = polygon.vertices + polygon.offset p_verts = polygon.vertices + polygon.offset
for v, v_next in zip(p_verts, numpy.roll(p_verts, -1, axis=0)): for v, v_next in zip(p_verts, numpy.roll(p_verts, -1, axis=0), strict=True):
dv = v_next - v dv = v_next - v
# Find x-index bounds for the line # TODO: fix this and err_xmin/xmax for grids smaller than the line / shape # Find x-index bounds for the line # TODO: fix this and err_xmin/xmax for grids smaller than the line / shape
@ -164,7 +165,7 @@ class Shape(PositionableImpl, Rotatable, Mirrorable, Copyable, Scalable,
m = dv[1] / dv[0] m = dv[1] / dv[0]
def get_grid_inds(xes: ArrayLike) -> NDArray[numpy.float64]: def get_grid_inds(xes: ArrayLike, m: float = m, v: NDArray = v) -> NDArray[numpy.float64]:
ys = m * (xes - v[0]) + v[1] ys = m * (xes - v[0]) + v[1]
# (inds - 1) is the index of the y-grid line below the edge's intersection with the x-grid # (inds - 1) is the index of the y-grid line below the edge's intersection with the x-grid
@ -265,11 +266,12 @@ class Shape(PositionableImpl, Rotatable, Mirrorable, Copyable, Scalable,
mins, maxs = bounds mins, maxs = bounds
keep_x = numpy.logical_and(grx > mins[0], grx < maxs[0]) keep_x = numpy.logical_and(grx > mins[0], grx < maxs[0])
keep_y = numpy.logical_and(gry > mins[1], gry < maxs[1]) keep_y = numpy.logical_and(gry > mins[1], gry < maxs[1])
for k in (keep_x, keep_y): # Flood left & rightwards by 2 cells
for s in (1, 2): for kk in (keep_x, keep_y):
k[s:] += k[:-s] for ss in (1, 2):
k[:-s] += k[s:] kk[ss:] += kk[:-ss]
k = k > 0 kk[:-ss] += kk[ss:]
kk[:] = kk > 0
gx = grx[keep_x] gx = grx[keep_x]
gy = gry[keep_y] gy = gry[keep_y]

View File

@ -132,8 +132,8 @@ class Text(RotatableImpl, Shape):
def to_polygons( def to_polygons(
self, self,
num_vertices: int | None = None, # unused num_vertices: int | None = None, # unused # noqa: ARG002
max_arclen: float | None = None, # unused max_arclen: float | None = None, # unused # noqa: ARG002
) -> list[Polygon]: ) -> list[Polygon]:
all_polygons = [] all_polygons = []
total_advance = 0.0 total_advance = 0.0
@ -191,6 +191,11 @@ class Text(RotatableImpl, Shape):
return bounds return bounds
def __repr__(self) -> str:
rotation = f'{numpy.rad2deg(self.rotation):g}' if self.rotation != 0 else ''
mirrored = ' m{:d}' if self.mirrored else ''
return f'<TextShape "{self.string}" o{self.offset} h{self.height:g}{rotation}{mirrored}>'
def get_char_as_polygons( def get_char_as_polygons(
font_path: str, font_path: str,
@ -216,7 +221,7 @@ def get_char_as_polygons(
'advance' distance (distance from the start of this glyph to the start of the next one) 'advance' distance (distance from the start of this glyph to the start of the next one)
""" """
if len(char) != 1: if len(char) != 1:
raise Exception('get_char_as_polygons called with non-char') raise PatternError('get_char_as_polygons called with non-char')
face = Face(font_path) face = Face(font_path)
face.set_char_size(resolution) face.set_char_size(resolution)
@ -225,7 +230,8 @@ def get_char_as_polygons(
outline = slot.outline outline = slot.outline
start = 0 start = 0
all_verts_list, all_codes = [], [] all_verts_list = []
all_codes = []
for end in outline.contours: for end in outline.contours:
points = outline.points[start:end + 1] points = outline.points[start:end + 1]
points.append(points[0]) points.append(points[0])
@ -278,8 +284,3 @@ def get_char_as_polygons(
polygons = path.to_polygons() polygons = path.to_polygons()
return polygons, advance return polygons, advance
def __repr__(self) -> str:
rotation = f'{numpy.rad2deg(self.rotation):g}' if self.rotation != 0 else ''
mirrored = ' m{:d}' if self.mirrored else ''
return f'<TextShape "{self.string}" o{self.offset} h{self.height:g}{rotation}{mirrored}>'

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@ -3,11 +3,32 @@ Traits (mixins) and default implementations
Traits and mixins should set `__slots__ = ()` to enable use of `__slots__` in subclasses. Traits and mixins should set `__slots__ = ()` to enable use of `__slots__` in subclasses.
""" """
from .positionable import Positionable, PositionableImpl, Bounded from .positionable import (
from .layerable import Layerable, LayerableImpl Positionable as Positionable,
from .rotatable import Rotatable, RotatableImpl, Pivotable, PivotableImpl PositionableImpl as PositionableImpl,
from .repeatable import Repeatable, RepeatableImpl Bounded as Bounded,
from .scalable import Scalable, ScalableImpl )
from .mirrorable import Mirrorable from .layerable import (
from .copyable import Copyable Layerable as Layerable,
from .annotatable import Annotatable, AnnotatableImpl LayerableImpl as LayerableImpl,
)
from .rotatable import (
Rotatable as Rotatable,
RotatableImpl as RotatableImpl,
Pivotable as Pivotable,
PivotableImpl as PivotableImpl,
)
from .repeatable import (
Repeatable as Repeatable,
RepeatableImpl as RepeatableImpl,
)
from .scalable import (
Scalable as Scalable,
ScalableImpl as ScalableImpl,
)
from .mirrorable import Mirrorable as Mirrorable
from .copyable import Copyable as Copyable
from .annotatable import (
Annotatable as Annotatable,
AnnotatableImpl as AnnotatableImpl,
)

View File

@ -1,9 +1,8 @@
from typing import Self from typing import Self
from abc import ABCMeta
import copy import copy
class Copyable(metaclass=ABCMeta): class Copyable:
""" """
Trait class which adds .copy() and .deepcopy() Trait class which adds .copy() and .deepcopy()
""" """

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@ -63,7 +63,7 @@ class LayerableImpl(Layerable, metaclass=ABCMeta):
return self._layer return self._layer
@layer.setter @layer.setter
def layer(self, val: layer_t): def layer(self, val: layer_t) -> None:
self._layer = val self._layer = val
# #

View File

@ -44,7 +44,7 @@ class Mirrorable(metaclass=ABCMeta):
# """ # """
# __slots__ = () # __slots__ = ()
# #
# _mirrored: numpy.ndarray # ndarray[bool] # _mirrored: NDArray[numpy.bool]
# """ Whether to mirror the instance across the x and/or y axes. """ # """ Whether to mirror the instance across the x and/or y axes. """
# #
# # # #
@ -52,15 +52,15 @@ class Mirrorable(metaclass=ABCMeta):
# # # #
# # Mirrored property # # Mirrored property
# @property # @property
# def mirrored(self) -> numpy.ndarray: # ndarray[bool] # def mirrored(self) -> NDArray[numpy.bool]:
# """ Whether to mirror across the [x, y] axes, respectively """ # """ Whether to mirror across the [x, y] axes, respectively """
# return self._mirrored # return self._mirrored
# #
# @mirrored.setter # @mirrored.setter
# def mirrored(self, val: Sequence[bool]): # def mirrored(self, val: Sequence[bool]) -> None:
# if is_scalar(val): # if is_scalar(val):
# raise MasqueError('Mirrored must be a 2-element list of booleans') # raise MasqueError('Mirrored must be a 2-element list of booleans')
# self._mirrored = numpy.array(val, dtype=bool, copy=True) # self._mirrored = numpy.array(val, dtype=bool)
# #
# # # #
# # Methods # # Methods

View File

@ -81,12 +81,11 @@ class PositionableImpl(Positionable, metaclass=ABCMeta):
@offset.setter @offset.setter
def offset(self, val: ArrayLike) -> None: def offset(self, val: ArrayLike) -> None:
if not isinstance(val, numpy.ndarray) or val.dtype != numpy.float64:
val = numpy.array(val, dtype=float) val = numpy.array(val, dtype=float)
if val.size != 2: if val.size != 2:
raise MasqueError('Offset must be convertible to size-2 ndarray') raise MasqueError('Offset must be convertible to size-2 ndarray')
self._offset = val.flatten() # type: ignore self._offset = val.flatten()
# #
# Methods # Methods

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@ -34,7 +34,7 @@ class Repeatable(metaclass=ABCMeta):
# @repetition.setter # @repetition.setter
# @abstractmethod # @abstractmethod
# def repetition(self, repetition: 'Repetition | None'): # def repetition(self, repetition: 'Repetition | None') -> None:
# pass # pass
# #
@ -75,7 +75,7 @@ class RepeatableImpl(Repeatable, Bounded, metaclass=ABCMeta):
return self._repetition return self._repetition
@repetition.setter @repetition.setter
def repetition(self, repetition: 'Repetition | None'): def repetition(self, repetition: 'Repetition | None') -> None:
from ..repetition import Repetition from ..repetition import Repetition
if repetition is not None and not isinstance(repetition, Repetition): if repetition is not None and not isinstance(repetition, Repetition):
raise MasqueError(f'{repetition} is not a valid Repetition object!') raise MasqueError(f'{repetition} is not a valid Repetition object!')

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@ -54,7 +54,7 @@ class RotatableImpl(Rotatable, metaclass=ABCMeta):
return self._rotation return self._rotation
@rotation.setter @rotation.setter
def rotation(self, val: float): def rotation(self, val: float) -> None:
if not numpy.size(val) == 1: if not numpy.size(val) == 1:
raise MasqueError('Rotation must be a scalar') raise MasqueError('Rotation must be a scalar')
self._rotation = val % (2 * pi) self._rotation = val % (2 * pi)
@ -112,7 +112,7 @@ class PivotableImpl(Pivotable, metaclass=ABCMeta):
""" `[x_offset, y_offset]` """ """ `[x_offset, y_offset]` """
def rotate_around(self, pivot: ArrayLike, rotation: float) -> Self: def rotate_around(self, pivot: ArrayLike, rotation: float) -> Self:
pivot = numpy.array(pivot, dtype=float) pivot = numpy.asarray(pivot, dtype=float)
cast(Positionable, self).translate(-pivot) cast(Positionable, self).translate(-pivot)
cast(Rotatable, self).rotate(rotation) cast(Rotatable, self).rotate(rotation)
self.offset = numpy.dot(rotation_matrix_2d(rotation), self.offset) # type: ignore # mypy#3004 self.offset = numpy.dot(rotation_matrix_2d(rotation), self.offset) # type: ignore # mypy#3004

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@ -48,7 +48,7 @@ class ScalableImpl(Scalable, metaclass=ABCMeta):
return self._scale return self._scale
@scale.setter @scale.setter
def scale(self, val: float): def scale(self, val: float) -> None:
if not is_scalar(val): if not is_scalar(val):
raise MasqueError('Scale must be a scalar') raise MasqueError('Scale must be a scalar')
if not val > 0: if not val > 0:

View File

@ -1,19 +1,40 @@
""" """
Various helper functions, type definitions, etc. Various helper functions, type definitions, etc.
""" """
from .types import layer_t, annotations_t, SupportsBool from .types import (
from .array import is_scalar layer_t as layer_t,
from .autoslots import AutoSlots annotations_t as annotations_t,
from .deferreddict import DeferredDict SupportsBool as SupportsBool,
from .decorators import oneshot
from .bitwise import get_bit, set_bit
from .vertices import (
remove_duplicate_vertices, remove_colinear_vertices, poly_contains_points
) )
from .transform import rotation_matrix_2d, normalize_mirror, rotate_offsets_around from .array import is_scalar as is_scalar
from .comparisons import annotation2key, annotations_lt, annotations_eq, layer2key, ports_lt, ports_eq, rep2key from .autoslots import AutoSlots as AutoSlots
from .deferreddict import DeferredDict as DeferredDict
from .decorators import oneshot as oneshot
from . import ports2data from .bitwise import (
get_bit as get_bit,
set_bit as set_bit,
)
from .vertices import (
remove_duplicate_vertices as remove_duplicate_vertices,
remove_colinear_vertices as remove_colinear_vertices,
poly_contains_points as poly_contains_points,
)
from .transform import (
rotation_matrix_2d as rotation_matrix_2d,
normalize_mirror as normalize_mirror,
rotate_offsets_around as rotate_offsets_around,
)
from .comparisons import (
annotation2key as annotation2key,
annotations_lt as annotations_lt,
annotations_eq as annotations_eq,
layer2key as layer2key,
ports_lt as ports_lt,
ports_eq as ports_eq,
rep2key as rep2key,
)
from . import pack2d from . import ports2data as ports2data
from . import pack2d as pack2d

View File

@ -12,16 +12,16 @@ class AutoSlots(ABCMeta):
classes, they can have empty `__slots__` and their attribute type annotations classes, they can have empty `__slots__` and their attribute type annotations
can be used to generate a full `__slots__` for the concrete class. can be used to generate a full `__slots__` for the concrete class.
""" """
def __new__(cls, name, bases, dctn): def __new__(cls, name, bases, dctn): # noqa: ANN001,ANN204
parents = set() parents = set()
for base in bases: for base in bases:
parents |= set(base.mro()) parents |= set(base.mro())
slots = tuple(dctn.get('__slots__', tuple())) slots = tuple(dctn.get('__slots__', ()))
for parent in parents: for parent in parents:
if not hasattr(parent, '__annotations__'): if not hasattr(parent, '__annotations__'):
continue continue
slots += tuple(getattr(parent, '__annotations__').keys()) slots += tuple(parent.__annotations__.keys())
dctn['__slots__'] = slots dctn['__slots__'] = slots
return super().__new__(cls, name, bases, dctn) return super().__new__(cls, name, bases, dctn)

View File

@ -12,7 +12,7 @@ def annotation2key(aaa: int | float | str) -> tuple[bool, Any]:
def annotations_lt(aa: annotations_t, bb: annotations_t) -> bool: def annotations_lt(aa: annotations_t, bb: annotations_t) -> bool:
if aa is None: if aa is None:
return bb is not None return bb is not None
elif bb is None: elif bb is None: # noqa: RET505
return False return False
if len(aa) != len(bb): if len(aa) != len(bb):
@ -29,7 +29,7 @@ def annotations_lt(aa: annotations_t, bb: annotations_t) -> bool:
if len(va) != len(vb): if len(va) != len(vb):
return len(va) < len(vb) return len(va) < len(vb)
for aaa, bbb in zip(va, vb): for aaa, bbb in zip(va, vb, strict=True):
if aaa != bbb: if aaa != bbb:
return annotation2key(aaa) < annotation2key(bbb) return annotation2key(aaa) < annotation2key(bbb)
return False return False
@ -38,7 +38,7 @@ def annotations_lt(aa: annotations_t, bb: annotations_t) -> bool:
def annotations_eq(aa: annotations_t, bb: annotations_t) -> bool: def annotations_eq(aa: annotations_t, bb: annotations_t) -> bool:
if aa is None: if aa is None:
return bb is None return bb is None
elif bb is None: elif bb is None: # noqa: RET505
return False return False
if len(aa) != len(bb): if len(aa) != len(bb):
@ -55,7 +55,7 @@ def annotations_eq(aa: annotations_t, bb: annotations_t) -> bool:
if len(va) != len(vb): if len(va) != len(vb):
return False return False
for aaa, bbb in zip(va, vb): for aaa, bbb in zip(va, vb, strict=True):
if aaa != bbb: if aaa != bbb:
return False return False

View File

@ -1,4 +1,4 @@
from typing import Callable from collections.abc import Callable
from functools import wraps from functools import wraps
from ..error import OneShotError from ..error import OneShotError
@ -11,7 +11,7 @@ def oneshot(func: Callable) -> Callable:
expired = False expired = False
@wraps(func) @wraps(func)
def wrapper(*args, **kwargs): def wrapper(*args, **kwargs): # noqa: ANN202
nonlocal expired nonlocal expired
if expired: if expired:
raise OneShotError(func.__name__) raise OneShotError(func.__name__)

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@ -1,4 +1,5 @@
from typing import Callable, TypeVar, Generic from typing import TypeVar, Generic
from collections.abc import Callable
from functools import lru_cache from functools import lru_cache

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@ -1,7 +1,7 @@
""" """
2D bin-packing 2D bin-packing
""" """
from typing import Sequence, Callable, Mapping from collections.abc import Sequence, Mapping, Callable
import numpy import numpy
from numpy.typing import NDArray, ArrayLike from numpy.typing import NDArray, ArrayLike
@ -38,8 +38,8 @@ def maxrects_bssf(
Raises: Raises:
MasqueError if `allow_rejects` is `True` but some `rects` could not be placed. MasqueError if `allow_rejects` is `True` but some `rects` could not be placed.
""" """
regions = numpy.array(containers, copy=False, dtype=float) regions = numpy.asarray(containers, dtype=float)
rect_sizes = numpy.array(rects, copy=False, dtype=float) rect_sizes = numpy.asarray(rects, dtype=float)
rect_locs = numpy.zeros_like(rect_sizes) rect_locs = numpy.zeros_like(rect_sizes)
rejected_inds = set() rejected_inds = set()
@ -70,7 +70,6 @@ def maxrects_bssf(
if allow_rejects: if allow_rejects:
rejected_inds.add(rect_ind) rejected_inds.add(rect_ind)
continue continue
else:
raise MasqueError(f'Failed to find a suitable location for rectangle {rect_ind}') raise MasqueError(f'Failed to find a suitable location for rectangle {rect_ind}')
# Read out location # Read out location
@ -140,8 +139,8 @@ def guillotine_bssf_sas(
Raises: Raises:
MasqueError if `allow_rejects` is `True` but some `rects` could not be placed. MasqueError if `allow_rejects` is `True` but some `rects` could not be placed.
""" """
regions = numpy.array(containers, copy=False, dtype=float) regions = numpy.asarray(containers, dtype=float)
rect_sizes = numpy.array(rects, copy=False, dtype=float) rect_sizes = numpy.asarray(rects, dtype=float)
rect_locs = numpy.zeros_like(rect_sizes) rect_locs = numpy.zeros_like(rect_sizes)
rejected_inds = set() rejected_inds = set()
@ -161,7 +160,6 @@ def guillotine_bssf_sas(
if allow_rejects: if allow_rejects:
rejected_inds.add(rect_ind) rejected_inds.add(rect_ind)
continue continue
else:
raise MasqueError(f'Failed to find a suitable location for rectangle {rect_ind}') raise MasqueError(f'Failed to find a suitable location for rectangle {rect_ind}')
# Read out location # Read out location
@ -229,7 +227,7 @@ def pack_patterns(
MasqueError if `allow_rejects` is `True` but some `rects` could not be placed. MasqueError if `allow_rejects` is `True` but some `rects` could not be placed.
""" """
half_spacing = numpy.array(spacing, copy=False, dtype=float) / 2 half_spacing = numpy.asarray(spacing, dtype=float) / 2
bounds = [library[pp].get_bounds() for pp in patterns] bounds = [library[pp].get_bounds() for pp in patterns]
sizes = [bb[1] - bb[0] + spacing if bb is not None else spacing for bb in bounds] sizes = [bb[1] - bb[0] + spacing if bb is not None else spacing for bb in bounds]
@ -238,7 +236,7 @@ def pack_patterns(
locations, reject_inds = packer(sizes, containers, presort=presort, allow_rejects=allow_rejects) locations, reject_inds = packer(sizes, containers, presort=presort, allow_rejects=allow_rejects)
pat = Pattern() pat = Pattern()
for pp, oo, loc in zip(patterns, offsets, locations): for pp, oo, loc in zip(patterns, offsets, locations, strict=True):
pat.ref(pp, offset=oo + loc) pat.ref(pp, offset=oo + loc)
rejects = [patterns[ii] for ii in reject_inds] rejects = [patterns[ii] for ii in reject_inds]

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@ -6,7 +6,7 @@ and retrieving it (`data_to_ports`).
the port locations. This particular approach is just a sensible default; feel free to the port locations. This particular approach is just a sensible default; feel free to
to write equivalent functions for your own format or alternate storage methods. to write equivalent functions for your own format or alternate storage methods.
""" """
from typing import Sequence, Mapping from collections.abc import Sequence, Mapping
import logging import logging
from itertools import chain from itertools import chain
@ -150,7 +150,7 @@ def data_to_ports_flat(
Returns: Returns:
The updated `pattern`. Port labels are not removed. The updated `pattern`. Port labels are not removed.
""" """
labels = list(chain.from_iterable((pattern.labels[layer] for layer in layers))) labels = list(chain.from_iterable(pattern.labels[layer] for layer in layers))
if not labels: if not labels:
return pattern return pattern

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@ -1,7 +1,7 @@
""" """
Geometric transforms Geometric transforms
""" """
from typing import Sequence from collections.abc import Sequence
from functools import lru_cache from functools import lru_cache
import numpy import numpy

View File

@ -15,9 +15,9 @@ def remove_duplicate_vertices(vertices: ArrayLike, closed_path: bool = True) ->
(i.e. the last vertex will be removed if it is the same as the first) (i.e. the last vertex will be removed if it is the same as the first)
Returns: Returns:
`vertices` with no consecutive duplicates. `vertices` with no consecutive duplicates. This may be a view into the original array.
""" """
vertices = numpy.array(vertices) vertices = numpy.asarray(vertices)
duplicates = (vertices == numpy.roll(vertices, 1, axis=0)).all(axis=1) duplicates = (vertices == numpy.roll(vertices, 1, axis=0)).all(axis=1)
if not closed_path: if not closed_path:
duplicates[0] = False duplicates[0] = False
@ -35,7 +35,7 @@ def remove_colinear_vertices(vertices: ArrayLike, closed_path: bool = True) -> N
closed path. If `False`, the path is assumed to be open. Default `True`. closed path. If `False`, the path is assumed to be open. Default `True`.
Returns: Returns:
`vertices` with colinear (superflous) vertices removed. `vertices` with colinear (superflous) vertices removed. May be a view into the original array.
""" """
vertices = remove_duplicate_vertices(vertices) vertices = remove_duplicate_vertices(vertices)
@ -73,8 +73,8 @@ def poly_contains_points(
Returns: Returns:
ndarray of booleans, [point0_is_in_shape, point1_is_in_shape, ...] ndarray of booleans, [point0_is_in_shape, point1_is_in_shape, ...]
""" """
points = numpy.array(points, copy=False) points = numpy.asarray(points, dtype=float)
vertices = numpy.array(vertices, copy=False) vertices = numpy.asarray(vertices, dtype=float)
if points.size == 0: if points.size == 0:
return numpy.zeros(0, dtype=numpy.int8) return numpy.zeros(0, dtype=numpy.int8)

View File

@ -42,7 +42,7 @@ classifiers = [
requires-python = ">=3.11" requires-python = ">=3.11"
dynamic = ["version"] dynamic = ["version"]
dependencies = [ dependencies = [
"numpy~=1.21", "numpy>=1.26",
"klamath~=1.2", "klamath~=1.2",
] ]
@ -57,3 +57,36 @@ svg = ["svgwrite"]
visualize = ["matplotlib"] visualize = ["matplotlib"]
text = ["matplotlib", "freetype-py"] text = ["matplotlib", "freetype-py"]
[tool.ruff]
exclude = [
".git",
"dist",
]
line-length = 145
indent-width = 4
lint.dummy-variable-rgx = "^(_+|(_+[a-zA-Z0-9_]*[a-zA-Z0-9]+?))$"
lint.select = [
"NPY", "E", "F", "W", "B", "ANN", "UP", "SLOT", "SIM", "LOG",
"C4", "ISC", "PIE", "PT", "RET", "TCH", "PTH", "INT",
"ARG", "PL", "R", "TRY",
"G010", "G101", "G201", "G202",
"Q002", "Q003", "Q004",
]
lint.ignore = [
#"ANN001", # No annotation
"ANN002", # *args
"ANN003", # **kwargs
"ANN401", # Any
"ANN101", # self: Self
"SIM108", # single-line if / else assignment
"RET504", # x=y+z; return x
"PIE790", # unnecessary pass
"ISC003", # non-implicit string concatenation
"C408", # dict(x=y) instead of {'x': y}
"PLR09", # Too many xxx
"PLR2004", # magic number
"PLC0414", # import x as x
"TRY003", # Long exception message
]