Turn Builder into a subset of Pather

This commit is contained in:
Jan Petykiewicz 2023-01-31 22:28:02 -08:00 committed by jan
parent 039320d180
commit 4fc2e67b62
3 changed files with 186 additions and 39 deletions

View File

@ -42,7 +42,7 @@ from .library import (
)
from .ports import Port, PortList
from .abstract import Abstract
from .builder import Builder, Tool, FlatBuilder
from .builder import Builder, Tool, FlatBuilder, Pather
from .utils import ports2data

View File

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

View File

@ -22,6 +22,7 @@ logger = logging.getLogger(__name__)
BB = TypeVar('BB', bound='Builder')
PP = TypeVar('PP', bound='Pather')
class Builder(PortList):
@ -78,23 +79,17 @@ class Builder(PortList):
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__ = ('pattern', 'library', 'tools', '_dead')
__slots__ = ('pattern', 'library', '_dead')
pattern: Pattern
""" Layout of this device """
library: MutableLibrary
library: Optional[MutableLibrary]
"""
Library from which existing patterns should be referenced, and to which
new ones should be added
"""
tools: Dict[Optional[str], Tool]
"""
Tool objects are used to dynamically generate new single-use Devices
(e.g wires or waveguides) to be plugged into this device.
"""
_dead: bool
""" If True, plug()/place() are skipped (for debugging)"""
@ -108,11 +103,10 @@ class Builder(PortList):
def __init__(
self,
library: MutableLibrary,
library: Optional[MutableLibrary],
*,
pattern: Optional[Pattern] = None,
ports: Union[None, str, Mapping[str, Port]] = None,
tools: Union[None, Tool, MutableMapping[Optional[str], Tool]] = None,
) -> None:
"""
# TODO documentation for Builder() constructor
@ -133,17 +127,12 @@ class Builder(PortList):
if self.pattern.ports:
raise BuildError('Ports supplied for pattern with pre-existing ports!')
if isinstance(ports, str):
if library is None:
raise BuildError('Ports given as a string, but `library` was `None`!')
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)
self._dead = False
@classmethod
@ -152,7 +141,6 @@ class Builder(PortList):
source: Union[PortList, Mapping[str, Port], str],
*,
library: Optional[MutableLibrary] = None,
tools: Union[None, Tool, MutableMapping[Optional[str], Tool]] = None,
in_prefix: str = 'in_',
out_prefix: str = '',
port_map: Optional[Union[Dict[str, str], Sequence[str]]] = None,
@ -184,9 +172,6 @@ class Builder(PortList):
library: Library from which existing patterns should be referenced,
and to which new ones should be added. If not provided,
the source's library will be used (if available).
tools: Tool objects are used to dynamically generate new single-use
patterns (e.g wires or waveguides) while building. If not provided,
the source's tools will be reused (if available).
in_prefix: Prepended to port names for newly-created ports with
reversed directions compared to the current device.
out_prefix: Prepended to port names for ports which are directly
@ -210,13 +195,10 @@ class Builder(PortList):
if library is None:
if hasattr(source, 'library') and isinstance(source.library, MutableLibrary):
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
if isinstance(source, str):
if library is None:
raise BuildError('Source given as a string, but `library` was `None`!')
orig_ports = library.abstract(source).ports
elif isinstance(source, PortList):
orig_ports = source.ports
@ -248,7 +230,7 @@ class Builder(PortList):
if duplicates:
raise PortError(f'Duplicate keys after prefixing, try a different prefix: {duplicates}')
new = Builder(library=library, ports={**ports_in, **ports_out}, tools=tools)
new = Builder(library=library, ports={**ports_in, **ports_out})
return new
def plug(
@ -319,6 +301,8 @@ class Builder(PortList):
return self
if isinstance(other, str):
if self.library is None:
raise BuildError('No library available, but `other` was a string!')
other = self.library.abstract(other)
# If asked to inherit a name, check that all conditions are met
@ -403,6 +387,8 @@ class Builder(PortList):
return self
if isinstance(other, str):
if self.library is None:
raise BuildError('No library available, but `other` was a string!')
other = self.library.abstract(other)
if port_map is None:
@ -499,11 +485,172 @@ class Builder(PortList):
s = f'<Builder {self.pattern} >' # TODO maybe show lib and tools? in builder repr?
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: MutableLibrary
"""
Library from which existing patterns should be referenced, and to which
new ones should be added
"""
tools: Dict[Optional[str], 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: MutableLibrary,
*,
pattern: Optional[Pattern] = None,
ports: Union[None, str, Mapping[str, Port]] = None,
tools: Union[None, Tool, MutableMapping[Optional[str], Tool]] = 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.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)
self._dead = False
@classmethod
def from_builder(
cls,
builder: Builder,
*,
library: Optional[MutableLibrary] = None,
tools: Union[None, Tool, MutableMapping[Optional[str], Tool]] = 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: Union[PortList, Mapping[str, Port], str],
*,
library: Optional[MutableLibrary] = None,
tools: Union[None, Tool, MutableMapping[Optional[str], Tool]] = None,
in_prefix: str = 'in_',
out_prefix: str = '',
port_map: Optional[Union[Dict[str, str], Sequence[str]]] = None,
) -> 'Pather':
"""
TODO doc pather.interface
"""
if library is None:
if hasattr(source, 'library') and isinstance(source.library, MutableLibrary):
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,
))
return new
def __repr__(self) -> str:
s = f'<Builder {self.pattern} >' # TODO maybe show lib and tools? in builder repr?
return s
def retool(
self: BB,
self: PP,
tool: Tool,
keys: Union[Optional[str], Sequence[Optional[str]]] = None,
) -> BB:
) -> PP:
if keys is None or isinstance(keys, str):
self.tools[keys] = tool
else:
@ -512,7 +659,7 @@ class Builder(PortList):
return self
def path(
self: BB,
self: PP,
portspec: str,
ccw: Optional[SupportsBool],
length: float,
@ -520,7 +667,7 @@ class Builder(PortList):
tool_port_names: Sequence[str] = ('A', 'B'),
base_name: str = '_path',
**kwargs,
) -> BB:
) -> PP:
if self._dead:
logger.error('Skipping path() since device is dead')
return self
@ -533,7 +680,7 @@ class Builder(PortList):
return self.plug(Abstract(name, pat.ports), {portspec: tool_port_names[0]})
def path_to(
self: BB,
self: PP,
portspec: str,
ccw: Optional[SupportsBool],
position: float,
@ -541,7 +688,7 @@ class Builder(PortList):
tool_port_names: Sequence[str] = ('A', 'B'),
base_name: str = '_pathto',
**kwargs,
) -> BB:
) -> PP:
if self._dead:
logger.error('Skipping path_to() since device is dead')
return self
@ -567,7 +714,7 @@ class Builder(PortList):
return self.path(portspec, ccw, length, tool_port_names=tool_port_names, base_name=base_name, **kwargs)
def mpath(
self: BB,
self: PP,
portspec: Union[str, Sequence[str]],
ccw: Optional[SupportsBool],
*,
@ -577,7 +724,7 @@ class Builder(PortList):
force_container: bool = False,
base_name: str = '_mpath',
**kwargs,
) -> BB:
) -> PP:
if self._dead:
logger.error('Skipping mpath() since device is dead')
return self
@ -608,7 +755,7 @@ class Builder(PortList):
port_name = tuple(portspec)[0]
return self.path(port_name, ccw, extensions[port_name], tool_port_names=tool_port_names)
else:
bld = Builder.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():
bld.path(port_name, ccw, length, tool_port_names=tool_port_names)
name = self.library.get_name(base_name)
@ -617,7 +764,7 @@ class Builder(PortList):
# TODO def path_join() and def bus_join()?
def flatten(self: BB) -> BB:
def flatten(self: PP) -> PP:
"""
Flatten the contained pattern, using the contained library to resolve references.