split pather into its own file

This commit is contained in:
jan 2023-04-07 23:20:09 -07:00
parent bb3caf1ad7
commit 1008b6aabd
3 changed files with 333 additions and 312 deletions

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@ -1,4 +1,5 @@
from .builder import Builder, Pather
from .builder import Builder
from .flatbuilder import FlatBuilder
from .pather import Pather
from .utils import ell
from .tools import Tool

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@ -12,9 +12,6 @@ from ..library import ILibrary
from ..error import PortError, BuildError
from ..ports import PortList, Port
from ..abstract import Abstract
from ..utils import SupportsBool
from .tools import Tool
from .utils import ell
logger = logging.getLogger(__name__)
@ -485,311 +482,3 @@ class Builder(PortList):
return s
class Pather(Builder):
"""
TODO DOCUMENT Builder
A `Device` is a combination of a `Pattern` with a set of named `Port`s
which can be used to "snap" devices together to make complex layouts.
`Device`s can be as simple as one or two ports (e.g. an electrical pad
or wire), but can also be used to build and represent a large routed
layout (e.g. a logical block with multiple I/O connections or even a
full chip).
For convenience, ports can be read out using square brackets:
- `device['A'] == Port((0, 0), 0)`
- `device[['A', 'B']] == {'A': Port((0, 0), 0), 'B': Port((0, 0), pi)}`
Examples: Creating a Device
===========================
- `Device(pattern, ports={'A': port_a, 'C': port_c})` uses an existing
pattern and defines some ports.
- `Device(ports=None)` makes a new empty pattern with
default ports ('A' and 'B', in opposite directions, at (0, 0)).
- `my_device.build('my_layout')` makes a new pattern and instantiates
`my_device` in it with offset (0, 0) as a base for further building.
- `my_device.as_interface('my_component', port_map=['A', 'B'])` makes a new
(empty) pattern, copies over ports 'A' and 'B' from `my_device`, and
creates additional ports 'in_A' and 'in_B' facing in the opposite
directions. This can be used to build a device which can plug into
`my_device` (using the 'in_*' ports) but which does not itself include
`my_device` as a subcomponent.
Examples: Adding to a Device
============================
- `my_device.plug(subdevice, {'A': 'C', 'B': 'B'}, map_out={'D': 'myport'})`
instantiates `subdevice` into `my_device`, plugging ports 'A' and 'B'
of `my_device` into ports 'C' and 'B' of `subdevice`. The connected ports
are removed and any unconnected ports from `subdevice` are added to
`my_device`. Port 'D' of `subdevice` (unconnected) is renamed to 'myport'.
- `my_device.plug(wire, {'myport': 'A'})` places port 'A' of `wire` at 'myport'
of `my_device`. If `wire` has only two ports (e.g. 'A' and 'B'), no `map_out`,
argument is provided, and the `inherit_name` argument is not explicitly
set to `False`, the unconnected port of `wire` is automatically renamed to
'myport'. This allows easy extension of existing ports without changing
their names or having to provide `map_out` each time `plug` is called.
- `my_device.place(pad, offset=(10, 10), rotation=pi / 2, port_map={'A': 'gnd'})`
instantiates `pad` at the specified (x, y) offset and with the specified
rotation, adding its ports to those of `my_device`. Port 'A' of `pad` is
renamed to 'gnd' so that further routing can use this signal or net name
rather than the port name on the original `pad` device.
"""
__slots__ = ('tools',)
library: ILibrary
"""
Library from which existing patterns should be referenced, and to which
new ones should be added
"""
tools: dict[str | None, Tool]
"""
Tool objects are used to dynamically generate new single-use Devices
(e.g wires or waveguides) to be plugged into this device.
"""
def __init__(
self,
library: ILibrary,
*,
pattern: Pattern | None = None,
ports: str | Mapping[str, Port] | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
name: str | None = None,
) -> None:
"""
# TODO documentation for Builder() constructor
# TODO MOVE THE BELOW DOCS to PortList
# If `ports` is `None`, two default ports ('A' and 'B') are created.
# Both are placed at (0, 0) and have default `ptype`, but 'A' has rotation 0
# (attached devices will be placed to the left) and 'B' has rotation
# pi (attached devices will be placed to the right).
"""
self._dead = False
self.library = library
if pattern is not None:
self.pattern = pattern
else:
self.pattern = Pattern()
if ports is not None:
if self.pattern.ports:
raise BuildError('Ports supplied for pattern with pre-existing ports!')
if isinstance(ports, str):
ports = library.abstract(ports).ports
self.pattern.ports.update(copy.deepcopy(dict(ports)))
if tools is None:
self.tools = {}
elif isinstance(tools, Tool):
self.tools = {None: tools}
else:
self.tools = dict(tools)
if name is not None:
library[name] = self.pattern
@classmethod
def mk(
cls,
library: ILibrary,
name: str,
*,
ports: str | Mapping[str, Port] | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
) -> tuple[str, 'Pather']:
""" Name-and-make combination """ # TODO document
pather = Pather(library, name=name, ports=ports, tools=tools)
return name, pather
@classmethod
def from_builder(
cls,
builder: Builder,
*,
library: ILibrary | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
) -> 'Pather':
"""TODO from_builder docs"""
library = library if library is not None else builder.library
if library is None:
raise BuildError('No library available for Pather!')
new = Pather(library=library, tools=tools, pattern=builder.pattern)
return new
@classmethod
def interface(
cls,
source: PortList | Mapping[str, Port] | str,
*,
library: ILibrary | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
in_prefix: str = 'in_',
out_prefix: str = '',
port_map: dict[str, str] | Sequence[str] | None = None,
name: str | None = None,
) -> 'Pather':
"""
TODO doc pather.interface
"""
if library is None:
if hasattr(source, 'library') and isinstance(source.library, ILibrary):
library = source.library
else:
raise BuildError('No library provided (and not present in `source.library`')
if tools is None and hasattr(source, 'tools') and isinstance(source.tools, dict):
tools = source.tools
new = Pather.from_builder(
Builder.interface(
source=source,
library=library,
in_prefix=in_prefix,
out_prefix=out_prefix,
port_map=port_map,
name=name,
),
tools=tools,
)
return new
def __repr__(self) -> str:
s = f'<Pather {self.pattern} >' # TODO maybe show lib and tools? in builder repr?
return s
def retool(
self,
tool: Tool,
keys: str | Sequence[str | None] | None = None,
) -> Self:
if keys is None or isinstance(keys, str):
self.tools[keys] = tool
else:
for key in keys:
self.tools[key] = tool
return self
def path(
self,
portspec: str,
ccw: SupportsBool | None,
length: float,
*,
tool_port_names: Sequence[str] = ('A', 'B'),
base_name: str = '_path',
**kwargs,
) -> Self:
if self._dead:
logger.error('Skipping path() since device is dead')
return self
tool = self.tools.get(portspec, self.tools[None])
in_ptype = self.pattern[portspec].ptype
pat = tool.path(ccw, length, in_ptype=in_ptype, port_names=tool_port_names, **kwargs)
name = self.library.get_name(base_name)
self.library[name] = pat
return self.plug(Abstract(name, pat.ports), {portspec: tool_port_names[0]})
def path_to(
self,
portspec: str,
ccw: SupportsBool | None,
position: float,
*,
tool_port_names: Sequence[str] = ('A', 'B'),
base_name: str = '_pathto',
**kwargs,
) -> Self:
if self._dead:
logger.error('Skipping path_to() since device is dead')
return self
port = self.pattern[portspec]
x, y = port.offset
if port.rotation is None:
raise PortError(f'Port {portspec} has no rotation and cannot be used for path_to()')
if not numpy.isclose(port.rotation % (pi / 2), 0):
raise BuildError('path_to was asked to route from non-manhattan port')
is_horizontal = numpy.isclose(port.rotation % pi, 0)
if is_horizontal:
if numpy.sign(numpy.cos(port.rotation)) == numpy.sign(position - x):
raise BuildError(f'path_to routing to behind source port: x={x:g} to {position:g}')
length = numpy.abs(position - x)
else:
if numpy.sign(numpy.sin(port.rotation)) == numpy.sign(position - y):
raise BuildError(f'path_to routing to behind source port: y={y:g} to {position:g}')
length = numpy.abs(position - y)
return self.path(portspec, ccw, length, tool_port_names=tool_port_names, base_name=base_name, **kwargs)
def mpath(
self,
portspec: str | Sequence[str],
ccw: SupportsBool | None,
*,
spacing: float | ArrayLike | None = None,
set_rotation: float | None = None,
tool_port_names: Sequence[str] = ('A', 'B'),
force_container: bool = False,
base_name: str = '_mpath',
**kwargs,
) -> Self:
if self._dead:
logger.error('Skipping mpath() since device is dead')
return self
bound_types = set()
if 'bound_type' in kwargs:
bound_types.add(kwargs['bound_type'])
bound = kwargs['bound']
for bt in ('emin', 'emax', 'pmin', 'pmax', 'min_past_furthest'):
if bt in kwargs:
bound_types.add(bt)
bound = kwargs[bt]
if not bound_types:
raise BuildError('No bound type specified for mpath')
elif len(bound_types) > 1:
raise BuildError(f'Too many bound types specified for mpath: {bound_types}')
bound_type = tuple(bound_types)[0]
if isinstance(portspec, str):
portspec = [portspec]
ports = self.pattern[tuple(portspec)]
extensions = ell(ports, ccw, spacing=spacing, bound=bound, bound_type=bound_type, set_rotation=set_rotation)
if len(ports) == 1 and not force_container:
# Not a bus, so having a container just adds noise to the layout
port_name = tuple(portspec)[0]
return self.path(port_name, ccw, extensions[port_name], tool_port_names=tool_port_names)
else:
bld = Pather.interface(source=ports, library=self.library, tools=self.tools)
for port_name, length in extensions.items():
bld.path(port_name, ccw, length, tool_port_names=tool_port_names)
name = self.library.get_name(base_name)
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_'?
# TODO def path_join() and def bus_join()?
def flatten(self) -> Self:
"""
Flatten the contained pattern, using the contained library to resolve references.
Returns:
self
"""
self.pattern.flatten(self.library)
return self

331
masque/builder/pather.py Normal file
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@ -0,0 +1,331 @@
from typing import Self, Sequence, MutableMapping, Mapping
import copy
import logging
import numpy
from numpy import pi
from numpy.typing import ArrayLike
from ..pattern import Pattern
from ..ref import Ref
from ..library import ILibrary
from ..error import PortError, BuildError
from ..ports import PortList, Port
from ..abstract import Abstract
from ..utils import SupportsBool
from .tools import Tool
from .utils import ell
from .builder import Builder
logger = logging.getLogger(__name__)
class Pather(Builder):
"""
TODO DOCUMENT Builder
A `Device` is a combination of a `Pattern` with a set of named `Port`s
which can be used to "snap" devices together to make complex layouts.
`Device`s can be as simple as one or two ports (e.g. an electrical pad
or wire), but can also be used to build and represent a large routed
layout (e.g. a logical block with multiple I/O connections or even a
full chip).
For convenience, ports can be read out using square brackets:
- `device['A'] == Port((0, 0), 0)`
- `device[['A', 'B']] == {'A': Port((0, 0), 0), 'B': Port((0, 0), pi)}`
Examples: Creating a Device
===========================
- `Device(pattern, ports={'A': port_a, 'C': port_c})` uses an existing
pattern and defines some ports.
- `Device(ports=None)` makes a new empty pattern with
default ports ('A' and 'B', in opposite directions, at (0, 0)).
- `my_device.build('my_layout')` makes a new pattern and instantiates
`my_device` in it with offset (0, 0) as a base for further building.
- `my_device.as_interface('my_component', port_map=['A', 'B'])` makes a new
(empty) pattern, copies over ports 'A' and 'B' from `my_device`, and
creates additional ports 'in_A' and 'in_B' facing in the opposite
directions. This can be used to build a device which can plug into
`my_device` (using the 'in_*' ports) but which does not itself include
`my_device` as a subcomponent.
Examples: Adding to a Device
============================
- `my_device.plug(subdevice, {'A': 'C', 'B': 'B'}, map_out={'D': 'myport'})`
instantiates `subdevice` into `my_device`, plugging ports 'A' and 'B'
of `my_device` into ports 'C' and 'B' of `subdevice`. The connected ports
are removed and any unconnected ports from `subdevice` are added to
`my_device`. Port 'D' of `subdevice` (unconnected) is renamed to 'myport'.
- `my_device.plug(wire, {'myport': 'A'})` places port 'A' of `wire` at 'myport'
of `my_device`. If `wire` has only two ports (e.g. 'A' and 'B'), no `map_out`,
argument is provided, and the `inherit_name` argument is not explicitly
set to `False`, the unconnected port of `wire` is automatically renamed to
'myport'. This allows easy extension of existing ports without changing
their names or having to provide `map_out` each time `plug` is called.
- `my_device.place(pad, offset=(10, 10), rotation=pi / 2, port_map={'A': 'gnd'})`
instantiates `pad` at the specified (x, y) offset and with the specified
rotation, adding its ports to those of `my_device`. Port 'A' of `pad` is
renamed to 'gnd' so that further routing can use this signal or net name
rather than the port name on the original `pad` device.
"""
__slots__ = ('tools',)
library: ILibrary
"""
Library from which existing patterns should be referenced, and to which
new ones should be added
"""
tools: dict[str | None, Tool]
"""
Tool objects are used to dynamically generate new single-use Devices
(e.g wires or waveguides) to be plugged into this device.
"""
def __init__(
self,
library: ILibrary,
*,
pattern: Pattern | None = None,
ports: str | Mapping[str, Port] | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
name: str | None = None,
) -> None:
"""
# TODO documentation for Builder() constructor
# TODO MOVE THE BELOW DOCS to PortList
# If `ports` is `None`, two default ports ('A' and 'B') are created.
# Both are placed at (0, 0) and have default `ptype`, but 'A' has rotation 0
# (attached devices will be placed to the left) and 'B' has rotation
# pi (attached devices will be placed to the right).
"""
self._dead = False
self.library = library
if pattern is not None:
self.pattern = pattern
else:
self.pattern = Pattern()
if ports is not None:
if self.pattern.ports:
raise BuildError('Ports supplied for pattern with pre-existing ports!')
if isinstance(ports, str):
ports = library.abstract(ports).ports
self.pattern.ports.update(copy.deepcopy(dict(ports)))
if tools is None:
self.tools = {}
elif isinstance(tools, Tool):
self.tools = {None: tools}
else:
self.tools = dict(tools)
if name is not None:
library[name] = self.pattern
@classmethod
def mk(
cls,
library: ILibrary,
name: str,
*,
ports: str | Mapping[str, Port] | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
) -> tuple[str, 'Pather']:
""" Name-and-make combination """ # TODO document
pather = Pather(library, name=name, ports=ports, tools=tools)
return name, pather
@classmethod
def from_builder(
cls,
builder: Builder,
*,
library: ILibrary | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
) -> 'Pather':
"""TODO from_builder docs"""
library = library if library is not None else builder.library
if library is None:
raise BuildError('No library available for Pather!')
new = Pather(library=library, tools=tools, pattern=builder.pattern)
return new
@classmethod
def interface(
cls,
source: PortList | Mapping[str, Port] | str,
*,
library: ILibrary | None = None,
tools: Tool | MutableMapping[str | None, Tool] | None = None,
in_prefix: str = 'in_',
out_prefix: str = '',
port_map: dict[str, str] | Sequence[str] | None = None,
name: str | None = None,
) -> 'Pather':
"""
TODO doc pather.interface
"""
if library is None:
if hasattr(source, 'library') and isinstance(source.library, ILibrary):
library = source.library
else:
raise BuildError('No library provided (and not present in `source.library`')
if tools is None and hasattr(source, 'tools') and isinstance(source.tools, dict):
tools = source.tools
new = Pather.from_builder(
Builder.interface(
source=source,
library=library,
in_prefix=in_prefix,
out_prefix=out_prefix,
port_map=port_map,
name=name,
),
tools=tools,
)
return new
def __repr__(self) -> str:
s = f'<Pather {self.pattern} >' # TODO maybe show lib and tools? in builder repr?
return s
def retool(
self,
tool: Tool,
keys: str | Sequence[str | None] | None = None,
) -> Self:
if keys is None or isinstance(keys, str):
self.tools[keys] = tool
else:
for key in keys:
self.tools[key] = tool
return self
def path(
self,
portspec: str,
ccw: SupportsBool | None,
length: float,
*,
tool_port_names: Sequence[str] = ('A', 'B'),
base_name: str = '_path',
**kwargs,
) -> Self:
if self._dead:
logger.error('Skipping path() since device is dead')
return self
tool = self.tools.get(portspec, self.tools[None])
in_ptype = self.pattern[portspec].ptype
pat = tool.path(ccw, length, in_ptype=in_ptype, port_names=tool_port_names, **kwargs)
name = self.library.get_name(base_name)
self.library[name] = pat
return self.plug(Abstract(name, pat.ports), {portspec: tool_port_names[0]})
def path_to(
self,
portspec: str,
ccw: SupportsBool | None,
position: float,
*,
tool_port_names: Sequence[str] = ('A', 'B'),
base_name: str = '_pathto',
**kwargs,
) -> Self:
if self._dead:
logger.error('Skipping path_to() since device is dead')
return self
port = self.pattern[portspec]
x, y = port.offset
if port.rotation is None:
raise PortError(f'Port {portspec} has no rotation and cannot be used for path_to()')
if not numpy.isclose(port.rotation % (pi / 2), 0):
raise BuildError('path_to was asked to route from non-manhattan port')
is_horizontal = numpy.isclose(port.rotation % pi, 0)
if is_horizontal:
if numpy.sign(numpy.cos(port.rotation)) == numpy.sign(position - x):
raise BuildError(f'path_to routing to behind source port: x={x:g} to {position:g}')
length = numpy.abs(position - x)
else:
if numpy.sign(numpy.sin(port.rotation)) == numpy.sign(position - y):
raise BuildError(f'path_to routing to behind source port: y={y:g} to {position:g}')
length = numpy.abs(position - y)
return self.path(portspec, ccw, length, tool_port_names=tool_port_names, base_name=base_name, **kwargs)
def mpath(
self,
portspec: str | Sequence[str],
ccw: SupportsBool | None,
*,
spacing: float | ArrayLike | None = None,
set_rotation: float | None = None,
tool_port_names: Sequence[str] = ('A', 'B'),
force_container: bool = False,
base_name: str = '_mpath',
**kwargs,
) -> Self:
if self._dead:
logger.error('Skipping mpath() since device is dead')
return self
bound_types = set()
if 'bound_type' in kwargs:
bound_types.add(kwargs['bound_type'])
bound = kwargs['bound']
for bt in ('emin', 'emax', 'pmin', 'pmax', 'min_past_furthest'):
if bt in kwargs:
bound_types.add(bt)
bound = kwargs[bt]
if not bound_types:
raise BuildError('No bound type specified for mpath')
elif len(bound_types) > 1:
raise BuildError(f'Too many bound types specified for mpath: {bound_types}')
bound_type = tuple(bound_types)[0]
if isinstance(portspec, str):
portspec = [portspec]
ports = self.pattern[tuple(portspec)]
extensions = ell(ports, ccw, spacing=spacing, bound=bound, bound_type=bound_type, set_rotation=set_rotation)
if len(ports) == 1 and not force_container:
# Not a bus, so having a container just adds noise to the layout
port_name = tuple(portspec)[0]
return self.path(port_name, ccw, extensions[port_name], tool_port_names=tool_port_names)
else:
bld = Pather.interface(source=ports, library=self.library, tools=self.tools)
for port_name, length in extensions.items():
bld.path(port_name, ccw, length, tool_port_names=tool_port_names)
name = self.library.get_name(base_name)
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_'?
# TODO def path_join() and def bus_join()?
def flatten(self) -> Self:
"""
Flatten the contained pattern, using the contained library to resolve references.
Returns:
self
"""
self.pattern.flatten(self.library)
return self