diff options
author | jaseg <git@jaseg.de> | 2022-01-30 20:11:38 +0100 |
---|---|---|
committer | jaseg <git@jaseg.de> | 2022-01-30 20:11:38 +0100 |
commit | c3ca4f95bd59f69d45e582a4149327f57a360760 (patch) | |
tree | 5f43c61a261698e2f671b5238a7aa9a71a0f6d23 /gerbonara/gerber/layers.py | |
parent | 259a56186820923c78a5688f59bd8249cf958b5f (diff) | |
download | gerbonara-c3ca4f95bd59f69d45e582a4149327f57a360760.tar.gz gerbonara-c3ca4f95bd59f69d45e582a4149327f57a360760.tar.bz2 gerbonara-c3ca4f95bd59f69d45e582a4149327f57a360760.zip |
Rename gerbonara/gerber package to just gerbonara
Diffstat (limited to 'gerbonara/gerber/layers.py')
-rw-r--r-- | gerbonara/gerber/layers.py | 482 |
1 files changed, 0 insertions, 482 deletions
diff --git a/gerbonara/gerber/layers.py b/gerbonara/gerber/layers.py deleted file mode 100644 index fcaf0fc..0000000 --- a/gerbonara/gerber/layers.py +++ /dev/null @@ -1,482 +0,0 @@ -#! /usr/bin/env python
-# -*- coding: utf-8 -*-
-#
-# Copyright 2014 Hamilton Kibbe <ham@hamiltonkib.be>
-# Copyright 2021 Jan Götte <code@jaseg.de>
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-# http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-import os
-import re
-import warnings
-from collections import namedtuple
-from pathlib import Path
-
-from .excellon import ExcellonFile
-from .rs274x import GerberFile
-from .ipc356 import Netlist
-from .cam import FileSettings
-from .layer_rules import MATCH_RULES
-
-
-STANDARD_LAYERS = [
- 'mechanical outline',
- 'top copper',
- 'top mask',
- 'top silk',
- 'top paste',
- 'bottom copper',
- 'bottom mask',
- 'bottom silk',
- 'bottom paste',
- ]
-
-
-def match_files(filenames):
- matches = {}
- for generator, rules in MATCH_RULES.items():
- gen = {}
- matches[generator] = gen
- for layer, regex in rules.items():
- for fn in filenames:
- if (m := re.fullmatch(regex, fn.name, re.IGNORECASE)):
- if layer == 'inner copper':
- target = 'inner_' + ''.join(e or '' for e in m.groups()) + ' copper'
- else:
- target = layer
- gen[target] = gen.get(target, []) + [fn]
- return matches
-
-def best_match(filenames):
- matches = match_files(filenames)
- matches = sorted(matches.items(), key=lambda pair: len(pair[1]))
- generator, files = matches[-1]
- return generator, files
-
-def identify_file(data):
- if 'M48' in data:
- return 'excellon'
-
- if 'G90' in data and ';LEADER:' in data: # yet another allegro special case
- return 'excellon'
-
- if 'FSLAX' in data or 'FSTAX' in data:
- return 'gerber'
-
- if 'UNITS CUST' in data:
- return 'ipc356'
-
- return None
-
-def common_prefix(l):
- out = []
- for cand in l:
- score = lambda n: sum(elem.startswith(cand[:n]) for elem in l)
- baseline = score(1)
- if len(l) - baseline > 5:
- continue
- for n in range(2, len(cand)):
- if len(l) - score(n) > 5:
- break
- out.append(cand[:n-1])
-
- if not out:
- return ''
-
- return sorted(out, key=len)[-1]
-
-def autoguess(filenames):
- prefix = common_prefix([f.name for f in filenames])
-
- matches = {}
- for f in filenames:
- name = layername_autoguesser(f.name[len(prefix):] if f.name.startswith(prefix) else f.name)
- if name != 'unknown unknown':
- matches[name] = matches.get(name, []) + [f]
-
- inner_layers = [ m for m in matches if 'inner' in m ]
- if len(inner_layers) >= 4 and 'copper top' not in matches and 'copper bottom' not in matches:
- if 'inner_01 copper' in matches:
- warnings.warn('Could not find copper layer. Re-assigning outermost inner layers to top/bottom copper.')
- matches['top copper'] = matches.pop('inner_01 copper')
- last_inner = sorted(inner_layers, key=lambda name: int(name.partition(' ')[0].partition('_')[2]))[-1]
- matches['bottom copper'] = matches.pop(last_inner)
-
- return matches
-
-def layername_autoguesser(fn):
- fn, _, ext = fn.lower().rpartition('.')
-
- if ext in ('log', 'err'):
- return 'unknown unknown'
-
- side, use = 'unknown', 'unknown'
- if re.search('top|front|pri?m?(ary)?', fn):
- side = 'top'
- use = 'copper'
- if re.search('bot(tom)?|back|sec(ondary)?', fn):
- side = 'bottom'
- use = 'copper'
-
- if re.search('silks?(creen)?', fn):
- use = 'silk'
-
- elif re.search('(solder)?paste', fn):
- use = 'paste'
-
- elif re.search('(solder)?mask', fn):
- use = 'mask'
-
- elif re.search('drill|rout?e?', fn):
- use = 'drill'
- side = 'unknown'
-
- if re.search(r'np(th)?|(non|un)\W*plated|(non|un)\Wgalv', fn):
- side = 'nonplated'
-
- elif re.search('pth|plated|galv', fn):
- side = 'plated'
-
- elif (m := re.search(r'(la?y?e?r?|in(ner)?)\W*(?P<num>[0-9]+)', fn)):
- use = 'copper'
- side = f'inner_{int(m["num"]):02d}'
-
- elif re.search('film', fn):
- use = 'copper'
-
- elif re.search('out(line)?', fn):
- use = 'outline'
- side = 'mechanical'
-
- elif 'ipc' in fn and '356' in fn:
- use = 'netlist'
- side = 'other'
-
- elif 'netlist' in fn:
- use = 'netlist'
- side = 'other'
-
- return f'{side} {use}'
-
-class LayerStack:
- @classmethod
- def from_directory(kls, directory, board_name=None, verbose=False):
-
- directory = Path(directory)
- if not directory.is_dir():
- raise FileNotFoundError(f'{directory} is not a directory')
-
- files = [ path for path in directory.glob('**/*') if path.is_file() ]
- generator, filemap = best_match(files)
- print('detected generator', generator)
-
- if len(filemap) < 6:
- warnings.warn('Ambiguous gerber filenames. Trying last-resort autoguesser.')
- generator = None
- filemap = autoguess(files)
- if len(filemap) < 6:
- raise ValueError('Cannot figure out gerber file mapping. Partial map is: ', filemap)
-
- if generator == 'geda':
- # geda is written by geniuses who waste no bytes of unnecessary output so it doesn't actually include the
- # number format in files that use imperial units. Unfortunately it also doesn't include any hints that the
- # file was generated by geda, so we have to guess by context whether this is just geda being geda or
- # potential user error.
- excellon_settings = FileSettings(number_format=(2, 4))
-
- elif generator == 'allegro':
- # Allegro puts information that is absolutely vital for parsing its excellon files... into another file,
- # next to the actual excellon file. Despite pretty much everyone else having figured out a way to put that
- # info into the excellon file itself, even if only as a comment.
- if 'excellon params' in filemap:
- excellon_settings = parse_allegro_ncparam(filemap['excellon params'][0].read_text())
- del filemap['excellon params']
- # Ignore if we can't find the param file -- maybe the user has convinced Allegro to actually put this
- # information into a comment, or maybe they have made Allegro just use decimal points like XNC does.
-
- filemap = autoguess([ f for files in filemap for f in files ])
- if len(filemap < 6):
- raise SystemError('Cannot figure out gerber file mapping')
- # FIXME use layer metadata from comments and ipc file if available
-
- elif generator == 'altium':
- excellon_settings = None
-
- if 'mechanical outline' in filemap:
- # Use lowest-numbered mechanical layer as outline, ignore others.
- mechs = {}
- for layer in filemap['mechanical outline']:
- if layer.name.lower().endswith('gko'):
- filemap['mechanical outline'] = [layer]
- break
-
- if (m := re.match(r'.*\.gm([0-9]+)', layer.name, re.IGNORECASE)):
- mechs[int(m[1])] = layer
- else:
- break
- else:
- filemap['mechanical outline'] = [sorted(mechs.items(), key=lambda x: x[0])[0][1]]
-
- else:
- excellon_settings = None
-
- import pprint
- pprint.pprint(filemap)
-
- ambiguous = [ key for key, value in filemap.items() if len(value) > 1 and not 'drill' in key ]
- if ambiguous:
- raise SystemError(f'Ambiguous layer names for {", ".join(ambiguous)}')
-
- drill_layers = []
- netlist = None
- layers = {} # { tuple(key.split()): None for key in STANDARD_LAYERS }
- for key, paths in filemap.items():
- if len(paths) > 1 and not 'drill' in key:
- raise ValueError(f'Multiple matching files found for {key} layer: {", ".join(value)}')
-
- for path in paths:
- id_result = identify_file(path.read_text())
- print('id_result', id_result)
-
- if 'netlist' in key:
- layer = Netlist.open(path)
-
- elif ('outline' in key or 'drill' in key) and id_result != 'gerber':
- if id_result is None:
- # Since e.g. altium uses ".txt" as the extension for its drill files, we have to assume the
- # current file might not be a drill file after all.
- continue
-
- if 'nonplated' in key:
- plated = False
- elif 'plated' in key:
- plated = True
- else:
- plated = None
- layer = ExcellonFile.open(path, plated=plated, settings=excellon_settings)
- else:
-
- layer = GerberFile.open(path)
-
- if key == 'mechanical outline':
- layers['mechanical', 'outline'] = layer
-
- elif 'drill' in key:
- drill_layers.append(layer)
-
- elif 'netlist' in key:
- if netlist:
- warnings.warn(f'Found multiple netlist files, using only first one. Have: {netlist.original_path.name}, got {path.name}')
- else:
- netlist = layer
-
- else:
- side, _, use = key.partition(' ')
- layers[(side, use)] = layer
-
- hints = set(layer.generator_hints) | { generator }
- if len(hints) > 1:
- warnings.warn('File identification returned ambiguous results. Please raise an issue on the gerbonara '
- 'tracker and if possible please provide these input files for reference.')
-
- board_name = common_prefix([l.original_path.name for l in layers.values() if l is not None])
- board_name = re.sub(r'^\W+', '', board_name)
- board_name = re.sub(r'\W+$', '', board_name)
- return kls(layers, drill_layers, netlist, board_name=board_name)
-
- def __init__(self, graphic_layers, drill_layers, netlist=None, board_name=None):
- self.graphic_layers = graphic_layers
- self.drill_layers = drill_layers
- self.board_name = board_name
- self.netlist = netlist
-
- def __str__(self):
- names = [ f'{side} {use}' for side, use in self.graphic_layers ]
- return f'<LayerStack {self.board_name} [{", ".join(names)}] and {len(self.drill_layers)} drill layers>'
-
- def __repr__(self):
- return str(self)
-
- def merge_drill_layers(self):
- target = ExcellonFile(comments='Drill files merged by gerbonara')
-
- for layer in self.drill_layers:
- if isinstance(layer, GerberFile):
- layer = layer.to_excellon()
-
- target.merge(layer)
-
- self.drill_layers = [target]
-
- def normalize_drill_layers(self):
- # TODO: maybe also separate into drill and route?
- drill_pth, drill_npth, drill_aux = [], [], []
-
- for layer in self.drill_layers:
- if isinstance(layer, GerberFile):
- layer = layer.to_excellon()
-
- if layer.is_plated:
- drill_pth.append(layer)
- elif layer.is_nonplated:
- drill_pth.append(layer)
- else:
- drill_aux.append(layer)
-
- pth_out, *rest = drill_pth or [ExcellonFile()]
- for layer in rest:
- pth_out.merge(layer)
-
- npth_out, *rest = drill_npth or [ExcellonFile()]
- for layer in rest:
- npth_out.merge(layer)
-
- unknown_out = ExcellonFile()
- for layer in drill_aux:
- for obj in layer.objects:
- if obj.plated is None:
- unknown_out.append(obj)
- elif obj.plated:
- pth_out.append(obj)
- else:
- npth_out.append(obj)
-
- self.drill_pth, self.drill_npth = pth_out, npth_out
- self.drill_unknown = unknown_out if unknown_out else None
- self._drill_layers = []
-
- @property
- def drill_layers(self):
- if self._drill_layers:
- return self._drill_layers
- if self.drill_pth or self.drill_npth or self.drill_unknown:
- return [self.drill_pth, self.drill_npth, self.drill_unknown]
- return []
-
- @drill_layers.setter
- def drill_layers(self, value):
- self._drill_layers = value
- self.drill_pth = self.drill_npth = self.drill_unknown = None
-
- def __len__(self):
- return len(self.layers)
-
- def get(self, index, default=None):
- if self.contains(key):
- return self[key]
- else:
- return default
-
- def __contains__(self, index):
- if isinstance(index, str):
- side, _, use = index.partition(' ')
- return (side, use) in self.layers
-
- elif isinstance(index, tuple):
- return index in self.graphic_layers
-
- return index < len(self.copper_layers)
-
- def __getitem__(self, index):
- if isinstance(index, str):
- side, _, use = index.partition(' ')
- return self.graphic_layers[(side, use)]
-
- elif isinstance(index, tuple):
- return self.graphic_layers[index]
-
- return self.copper_layers[index]
-
- @property
- def copper_layers(self):
- copper_layers = [ (key, layer) for key, layer in self.layers.items() if key.endswith('copper') ]
-
- def sort_layername(val):
- key, _layer = val
- if key.startswith('top'):
- return -1
- if key.startswith('bottom'):
- return 1e99
- assert key.startswith('inner_')
- return int(key[len('inner_'):])
-
- return [ layer for _key, layer in sorted(copper_layers, key=sort_layername) ]
-
- @property
- def top_side(self):
- return { key: self[key] for key in ('top copper', 'top mask', 'top silk', 'top paste', 'mechanical outline') }
-
- @property
- def bottom_side(self):
- return { key: self[key] for key in ('bottom copper', 'bottom mask', 'bottom silk', 'bottom paste', 'mechanical outline') }
-
- @property
- def outline(self):
- return self['mechanical outline']
-
- def _merge_layer(self, target, source):
- if source is None:
- return
-
- if self[target] is None:
- self[target] = source
-
- else:
- self[target].merge(source)
-
- def merge(self, other):
- all_keys = set(self.layers.keys()) | set(other.layers.keys())
- exclude = { key.split() for key in STANDARD_LAYERS }
- all_keys = { key for key in all_keys if key not in exclude }
- if all_keys:
- warnings.warn('Cannot merge unknown layer types: {" ".join(all_keys)}')
-
- for side in 'top', 'bottom':
- for use in 'copper', 'mask', 'silk', 'paste':
- self._merge_layer((side, use), other[side, use])
-
- our_inner, their_inner = self.copper_layers[1:-1], other.copper_layers[1:-1]
-
- if bool(our_inner) != bool(their_inner):
- warnings.warn('Merging board without inner layers into board with inner layers, inner layers will be empty on first board.')
-
- elif our_inner and their_inner:
- warnings.warn('Merging boards with different inner layer counts. Will fill inner layers starting at core.')
-
- diff = len(our_inner) - len(their_inner)
- their_inner = ([None] * max(0, diff//2)) + their_inner + ([None] * max(0, diff//2))
- our_inner = ([None] * max(0, -diff//2)) + their_inner + ([None] * max(0, -diff//2))
-
- new_inner = []
- for ours, theirs in zip(our_inner, their_inner):
- if ours is None:
- new_inner.append(theirs)
- elif theirs is None:
- new_inner.append(ours)
- else:
- ours.merge(theirs)
- new_inner.append(ours)
-
- for i, layer in enumerate(new_inner, start=1):
- self[f'inner_{i} copper'] = layer
-
- self._merge_layer('mechanical outline', other['mechanical outline'])
-
- self.normalize_drill_layers()
- other.normalize_drill_layers()
-
- self.drill_pth.merge(other.drill_pth)
- self.drill_npth.merge(other.drill_npth)
- self.drill_unknown.merge(other.drill_unknown)
- self.netlist.merge(other.netlist)
-
|