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|
#! /usr/bin/env python
# -*- coding: utf-8 -*-
#
# Modified from parser.py by Paulo Henrique Silva <ph.silva@gmail.com>
# Copyright 2014 Hamilton Kibbe <ham@hamiltonkib.be>
# Copyright 2019 Hiroshi Murayama <opiopan@gmail.com>
# Copyright 2022 Jan Sebastian Götte <gerbonara@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 re
import math
import copy
import warnings
from pathlib import Path
import dataclasses
import functools
from .cam import CamFile, FileSettings
from .utils import MM, Inch, units, InterpMode, UnknownStatementWarning
from .aperture_macros.parse import ApertureMacro, GenericMacros
from . import graphic_primitives as gp
from . import graphic_objects as go
from . import apertures
from .excellon import ExcellonFile
def points_close(a, b):
if a == b:
return True
elif a is None or b is None:
return False
elif None in a or None in b:
return False
else:
return math.isclose(a[0], b[0]) and math.isclose(a[1], b[1])
class GerberFile(CamFile):
""" A single gerber file.
:ivar objects: List of objects in this Gerber file. All elements must be subclasses of :py:class:`.GraphicObject`.
:ivar comments: List of string with textual comments in the source Gerber file. These are not saved by default, but
when you call :py:meth:`.GerberFile.save` with ``drop_comments=False``, the contents of this list
will be included as comments at the top of the output file.
:ivar generator_hints: List of strings indicating which EDA tool generated this file. Hints are added to this list
during file parsing whenever the parser encounters an idiosyncratic file format variation.
:ivar import_settings: File format settings used in the original file. This can be empty if this
:py:class:`.GerberFile` was generated programatically.
:ivar layer_hints: Similar to ``generator_hints``, this is a list containing hints which layer type this file could
belong to. Usually, this will be empty, but some EDA tools automatically include layer
information inside tool-specific comments in the Gerber files they generate.
:ivar file_attrs: List of strings with Gerber X3 file attributes. Each list item corresponds to one file attribute.
"""
def __init__(self, objects=None, comments=None, import_settings=None, original_path=None, generator_hints=None,
layer_hints=None, file_attrs=None):
super().__init__(original_path=original_path)
self.objects = objects or []
self.comments = comments or []
self.generator_hints = generator_hints or []
self.layer_hints = layer_hints or []
self.import_settings = import_settings
self.file_attrs = file_attrs or {}
def apertures(self):
""" Iterate through all apertures in this layer. """
found = set()
for obj in self.objects:
if hasattr(obj, 'aperture'):
ap = obj.aperture
if ap not in found:
found.add(ap)
yield ap
def aperture_macros(self):
found = set()
for aperture in self.apertures():
if isinstance(aperture, apertures.ApertureMacroInstance):
macro = aperture.macro
if (macro.name, macro) not in found:
found.add((macro.name, macro))
yield macro
def map_apertures(self, map_or_callable, cache=True):
""" Replace all apertures in all objects in this layer according to the given map or callable.
When a map is passed, apertures that are not in the map are left alone. When a callable is given, it is called
with the old aperture as its argument.
:param map_or_callable: A dict-like object, or a callable mapping old to new apertures
:param cache: When True (default) and a callable is passed, caches the output of callable, only calling it once
for each old aperture.
"""
if callable(map_or_callable):
if cache:
map_or_callable = functools.cache(map_or_callable)
else:
d = map_or_callable
map_or_callable = lambda ap: d.get(ap, ap)
for obj in self.objects:
if (aperture := getattr(obj, 'aperture', None)):
obj.aperture = map_or_callable(aperture)
def dedup_apertures(self, settings=None):
""" Merge all apertures and aperture macros in this layer that result in the same Gerber definition under the
given :py:class:~.FileSettings:.
When no explicit settings are given, uses Gerbonara's default settings.
:param settings: settings under which to de-duplicate the apertures.
"""
if settings is None:
settings = FileSettings.defaults()
cache = {}
macro_names = set()
def lookup(aperture):
nonlocal cache, settings
if isinstance(aperture, apertures.ApertureMacroInstance):
macro = aperture.macro
macro_def = macro.to_gerber(settings)
if macro_def not in cache:
cache[macro_def] = macro
if macro.name in macro_names:
macro._reset_name()
macro_names.add(macro.name)
else:
macro = cache[macro_def]
aperture = dataclasses.replace(aperture, macro=macro)
code = aperture.to_gerber(settings)
if code not in cache:
cache[code] = aperture
return cache[code]
self.map_apertures(lookup)
def to_excellon(self, plated=None, errors='raise', holes_only=False):
""" Convert this excellon file into a :py:class:`~.excellon.ExcellonFile`. This will convert interpolated lines
into slots, and circular aperture flashes into holes. Other features such as ``G36`` polygons or flashes with
non-circular apertures will result in a :py:obj:`ValueError`. You can, of course, programmatically remove such
features from a :py:class:`GerberFile` before conversion. """
new_objs = []
new_tools = {}
for obj in self.objects:
if holes_only and not isinstance(obj, go.Flash):
continue
if not isinstance(obj, (go.Line, go.Arc, go.Flash)) or \
not isinstance(getattr(obj, 'aperture', None), apertures.CircleAperture):
if errors == 'raise':
raise ValueError(f'Cannot convert {obj} to excellon.')
elif errors == 'warn':
warnings.warn(f'Gerber to Excellon conversion: Cannot convert {obj} to excellon.')
continue
elif errors == 'ignore':
continue
else:
raise ValueError('Invalid "errors" parameter. Allowed values: "raise", "warn" or "ignore".')
if not (new_tool := new_tools.get(obj.aperture)):
# TODO plating?
new_tool = new_tools[obj.aperture] = apertures.ExcellonTool(obj.aperture.diameter, plated=plated, unit=obj.aperture.unit)
new_objs.append(dataclasses.replace(obj, aperture=new_tool))
return ExcellonFile(objects=new_objs, comments=self.comments)
def to_gerber(self, errors='raise'):
""" Counterpart to :py:meth:`~.excellon.ExcellonFile.to_gerber`. Does nothing and returns :py:obj:`self`. """
return self
def merge(self, other, mode='above', keep_settings=False):
""" Merge ``other`` into ``self``, i.e. add all objects that are in ``other`` to ``self``. This resets
:py:attr:`.import_settings` and :py:attr:`~.GerberFile.generator`. Units and other file-specific settings are
handled automatically.
:param mode: One of the strings :py:obj:`"above"` (default) or :py:obj:`"below"`, specifying whether the other
layer's objects will be placed above this layer's objects (placing them towards the end of the file), or
below this layer's objects (placing them towards the beginning of the file). This setting is only relevant
when there are overlapping objects of different polarity, otherwise the rendered result will be the same
either way.
"""
if other is None:
return
other = other.to_gerber()
if not keep_settings:
self.import_settings = None
self.comments += other.comments
# Join objects
if mode == 'below':
self.objects = other.objects + self.objects
elif mode == 'above':
self.objects += other.objects
else:
raise ValueError(f'Invalid mode "{mode}", must be one of "above" or "below".')
self.dedup_apertures()
def dilate(self, offset, unit=MM, polarity_dark=True):
# TODO add tests for this
self.map_apertures(lambda ap: ap.dilated(offset, unit))
offset_circle = apertures.CircleAperture(offset, unit=unit)
new_objects = []
for obj in self.objects:
obj.polarity_dark = polarity_dark
# Ignore Line, Arc, Flash. Their actual dilation has already been done by dilating the apertures above.
if isinstance(obj, Region):
new_objects.extend(obj.outline_objects(offset_circle))
# it's safe to append these at the end since we compute a logical OR of opaque areas anyway.
self.objects.extend(new_objects)
@classmethod
def open(kls, filename, enable_includes=False, enable_include_dir=None, override_settings=None):
""" Load a Gerber file from the file system. The Gerber standard contains this wonderful and totally not
insecure "include file" setting. We disable it by default and do not parse Gerber includes because a) nobody
actually uses them, and b) they're a bad idea from a security point of view. In case you actually want these,
you can enable them by setting ``enable_includes=True``.
:param filename: str or :py:class:`pathlib.Path`
:param bool enable_includes: Enable Gerber ``IF`` statement includes (default *off*, recommended *off*)
:param enable_include_dir: str or :py:class:`pathlib.Path`. Override base dir for include files.
:rtype: :py:class:`.GerberFile`
"""
filename = Path(filename)
with open(filename, "r") as f:
if enable_includes and enable_include_dir is None:
enable_include_dir = filename.parent
return kls.from_string(f.read(), enable_include_dir, filename=filename, override_settings=override_settings)
@classmethod
def from_string(kls, data, enable_include_dir=None, filename=None, override_settings=None):
""" Parse given string as Gerber file content. For the meaning of the parameters, see
:py:meth:`~.GerberFile.open`. """
# filename arg is for error messages
obj = kls()
parser = GerberParser(obj, include_dir=enable_include_dir, override_settings=override_settings)
parser.parse(data, filename=filename)
return obj
def _generate_statements(self, settings, drop_comments=True):
""" Export this file as Gerber code, yields one str per line. """
yield 'G04 Gerber file generated by Gerbonara*'
for name, value in self.file_attrs.items():
attrdef = ','.join([name, *map(str, value)])
yield f'%TF{attrdef}*%'
yield '%MOMM*%' if (settings.unit == 'mm') else '%MOIN*%'
zeros = 'T' if settings.zeros == 'trailing' else 'L' # default to leading if "None" is specified
notation = 'I' if settings.notation == 'incremental' else 'A' # default to absolute
num_int, num_frac = settings.number_format or (4,5)
assert 1 <= num_int <= 9
assert 1 <= num_frac <= 9
yield f'%FS{zeros}{notation}X{num_int}{num_frac}Y{num_int}{num_frac}*%'
yield '%IPPOS*%'
yield 'G75'
yield '%LPD*%'
if not drop_comments:
yield 'G04 Comments from original gerber file:*'
for cmt in self.comments:
yield f'G04{cmt}*'
self.dedup_apertures()
am_stmt = lambda macro: f'%AM{macro.name}*\n{macro.to_gerber(settings)}*\n%'
aperture_map = {ap: num for num, ap in enumerate(self.apertures(), start=10)}
if settings.calculate_out_all_aperture_macros:
adds = []
for aperture, number in aperture_map.items():
if isinstance(aperture, apertures.ApertureMacroInstance):
aperture = aperture.calculate_out(settings.unit, macro_name=f'CALCM{number}')
yield am_stmt(aperture.macro)
adds.append(f'%ADD{number}{aperture.to_gerber(settings)}*%')
yield from adds
else:
for macro in self.aperture_macros():
yield am_stmt(macro)
for aperture, number in aperture_map.items():
yield f'%ADD{number}{aperture.to_gerber(settings)}*%'
def warn(msg, kls=SyntaxWarning):
warnings.warn(msg, kls)
gs = GraphicsState(warn=warn, aperture_map=aperture_map, file_settings=settings)
for primitive in self.objects:
yield from primitive.to_statements(gs)
yield 'M02*'
def __str__(self):
name = f'{self.original_path.name} ' if self.original_path else ''
return f'<GerberFile {name}with {len(list(self.apertures()))} apertures, {len(self.objects)} objects>'
def __repr__(self):
return str(self)
def save(self, filename, settings=None, drop_comments=True):
""" Save this Gerber file to the file system. See :py:meth:`~.GerberFile.generate_gerber` for the meaning
of the arguments. """
with open(filename, 'wb') as f: # Encoding is specified as UTF-8 by spec.
f.write(self.write_to_bytes(settings, drop_comments=drop_comments))
def write_to_bytes(self, settings=None, drop_comments=True):
""" Export to Gerber format. Uses either the file's original settings or sane default settings if you don't give
any.
:param FileSettings settings: override export settings.
:param bool drop_comments: If true, do not write comments to output file. This defaults to true because
otherwise there is a risk that Gerbonara does not consider some obscure magic comment semantically
meaningful while some other Excellon viewer might still parse it.
:rtype: str
"""
if settings is None:
if self.import_settings:
settings = self.import_settings.copy()
settings.zeros = None
else:
settings = FileSettings.defaults()
return '\n'.join(self._generate_statements(settings, drop_comments=drop_comments)).encode('utf-8')
def __len__(self):
return len(self.objects)
def scale(self, factor, unit=MM):
scaled_apertures = {}
self.map_apertures(lambda ap: ap.scaled(factor))
for obj in self.objects:
obj.scale(factor)
def offset(self, dx=0, dy=0, unit=MM):
# TODO round offset to file resolution
for obj in self.objects:
obj.offset(dx, dy, unit)
def rotate(self, angle:'radian', cx=0, cy=0, unit=MM):
if math.isclose(angle % (2*math.pi), 0):
return
self.map_apertures(lambda ap: ap.rotated(angle))
for obj in self.objects:
obj.rotate(angle, cx, cy, unit)
def invert_polarity(self):
""" Invert the polarity (color) of each object in this file. """
for obj in self.objects:
obj.polarity_dark = not p.polarity_dark
class GraphicsState:
""" Internal class used to track Gerber processing state during import and export.
"""
def __init__(self, warn, file_settings=None, aperture_map=None):
self.image_polarity = 'positive' # IP image polarity; deprecated
self.polarity_dark = True
self.point = None
self.aperture = None
self.interpolation_mode = InterpMode.LINEAR
self.multi_quadrant_mode = None # used only for syntax checking
self.aperture_mirroring = (False, False) # LM mirroring (x, y)
self.aperture_rotation = 0 # LR rotation in degree, ccw
self.aperture_scale = 1 # LS scale factor, NOTE: same for both axes
# The following are deprecated file-wide settings. We normalize these during parsing.
self.image_offset = (0, 0)
self.image_rotation = 0 # IR image rotation in degree ccw, one of 0, 90, 180 or 270; deprecated
self.image_mirror = (False, False) # IM image mirroring, (x, y); deprecated
self.image_scale = (1.0, 1.0) # SF image scaling (x, y); deprecated
self._mat = None
self.file_settings = file_settings
self.unit = file_settings.unit if file_settings else None
self.aperture_map = aperture_map or {}
self.warn = warn
self.unit_warning = False
self.object_attrs = {}
@property
def polarity_dark(self):
return self._polarity_dark
@polarity_dark.setter
def polarity_dark(self, value):
if self.image_polarity == 'negative':
self._polarity_dark = not value
else:
self._polarity_dark = value
def _update_xform(self):
a, b = 1, 0
c, d = 0, 1
off_x, off_y = self.image_offset
if self.image_mirror[0]:
a = -1
if self.image_mirror[1]:
d = -1
a *= self.image_scale[0]
d *= self.image_scale[1]
if self.image_rotation == 90:
a, b, c, d = 0, -d, a, 0
off_x, off_y = off_y, -off_x
elif self.image_rotation == 180:
a, b, c, d = -a, 0, 0, -d
off_x, off_y = -off_x, -off_y
elif self.image_rotation == 270:
a, b, c, d = 0, d, -a, 0
off_x, off_y = -off_y, off_x
self.image_offset = off_x, off_y
self._mat = a, b, c, d
def map_coord(self, x, y, relative=False):
if self._mat is None:
self._update_xform()
a, b, c, d = self._mat
if not relative:
rx, ry = (a*x + b*y + self.image_offset[0]), (c*x + d*y + self.image_offset[1])
return rx, ry
else:
# Apply mirroring, scale and rotation, but do not apply offset
rx, ry = (a*x + b*y), (c*x + d*y)
return rx, ry
def flash(self, x, y):
if self.unit is None:
raise SyntaxError('Gerber file does not contain a unit definition.')
self.update_point_native(x, y)
obj = go.Flash(*self.map_coord(*self.point), self.aperture,
polarity_dark=self._polarity_dark,
unit=self.unit,
attrs=self.object_attrs)
return obj
def interpolate(self, x, y, i=None, j=None, aperture=True, multi_quadrant=False):
old_point = self.map_coord(*self.update_point_native(x, y))
if (unit := self.unit) is None:
raise SyntaxError('Gerber file does not contain a unit definition.')
if aperture:
if (aperture := self.aperture) is None:
raise SyntaxError('Interpolation attempted without selecting aperture first')
if math.isclose(aperture.equivalent_width(), 0):
self.warn('D01 interpolation with a zero-size aperture. This is invalid according to spec, '
'however, we pass through the created objects here. Note that these will not show up in e.g. '
'SVG output since their line width is zero.')
else:
aperture = None
if self.interpolation_mode == InterpMode.LINEAR:
if i is not None or j is not None:
raise SyntaxError("i/j coordinates given for linear D01 operation (which doesn't take i/j)")
return go.Line(*old_point, *self.map_coord(*self.point), aperture,
polarity_dark=self._polarity_dark, unit=unit, attrs=self.object_attrs)
else:
if i is None and j is None:
self.warn('Linear segment implied during arc interpolation mode through D01 w/o I, J values')
return go.Line(*old_point, *self.map_coord(*self.point), aperture,
polarity_dark=self._polarity_dark, unit=unit, attrs=self.object_attrs)
else:
if i is None:
self.warn('Arc is missing I value')
i = 0
if j is None:
self.warn('Arc is missing J value')
j = 0
clockwise = self.interpolation_mode == InterpMode.CIRCULAR_CW
new_point = self.map_coord(*self.point)
if not multi_quadrant:
return go.Arc(*old_point, *new_point, *self.map_coord(i, j, relative=True),
clockwise=clockwise, aperture=(self.aperture if aperture else None),
polarity_dark=self._polarity_dark, unit=unit, attrs=self.object_attrs)
else:
if math.isclose(old_point[0], new_point[0]) and math.isclose(old_point[1], new_point[1]):
# In multi-quadrant mode, an arc with identical start and end points is not rendered at all. Only in
# single-quadrant mode it is rendered as a full circle.
return None
# Super-legacy. No one uses this EXCEPT everything that mentor graphics / siemens make uses this m(
(cx, cy) = self.map_coord(i, j, relative=True)
arc = lambda cx, cy: go.Arc(*old_point, *new_point, cx, cy,
clockwise=clockwise, aperture=aperture,
polarity_dark=self._polarity_dark, unit=unit, attrs=self.object_attrs)
arcs = [ arc(cx, cy), arc(-cx, cy), arc(cx, -cy), arc(-cx, -cy) ]
arcs = sorted(arcs, key=lambda a: a.numeric_error())
for a in arcs:
d = gp.point_line_distance(old_point, new_point, (old_point[0]+a.cx, old_point[1]+a.cy))
if (d > 0) == clockwise:
return a
assert False
def update_point(self, x, y, unit=None):
return self.update_point_native(MM(x, unit), MM(y, unit))
def update_point_native(self, x, y):
old_point = self.point
if (x is None or y is None) and old_point is None:
self.warn('Coordinate omitted from first coordinate statement in the file. This is likely a Siemens '
'file. We pretend the omitted coordinate was 0.')
if old_point is None:
old_point = self.point = (0, 0)
if x is None:
x = old_point[0]
if y is None:
y = old_point[1]
self.point = (x, y)
return old_point
# Helpers for gerber generation
def set_polarity(self, polarity_dark):
# breaks if image_polarity is not positive, but that cannot happen during export.
if self.polarity_dark != polarity_dark:
self.polarity_dark = polarity_dark
yield '%LPD*%' if polarity_dark else '%LPC*%'
def set_aperture(self, aperture):
ap_id = self.aperture_map[aperture]
old_ap_id = self.aperture_map.get(self.aperture, None)
if ap_id != old_ap_id:
self.aperture = aperture
yield f'D{ap_id}*'
def set_current_point(self, point, unit=None):
point_mm = MM(point[0], unit), MM(point[1], unit)
# TODO calculate appropriate precision for math.isclose given file_settings.notation
if not points_close(self.point, point_mm):
self.point = point_mm
x = self.file_settings.write_gerber_value(point[0], unit=unit)
y = self.file_settings.write_gerber_value(point[1], unit=unit)
yield f'X{x}Y{y}D02*'
def set_interpolation_mode(self, mode):
if self.interpolation_mode != mode:
self.interpolation_mode = mode
yield self.interpolation_mode_statement()
def interpolation_mode_statement(self):
return {
InterpMode.LINEAR: 'G01*',
InterpMode.CIRCULAR_CW: 'G02*',
InterpMode.CIRCULAR_CCW: 'G03*'}[self.interpolation_mode]
class GerberParser:
""" Internal class that contains all of the actual Gerber parsing magic.
"""
NUMBER = r"[\+-]?\d+"
DECIMAL = r"[\+-]?\d+([.]?\d+)?"
NAME = r"[a-zA-Z_$\.][a-zA-Z_$\.0-9+\-]+"
STATEMENT_REGEXES = {
'coord': fr"(G0?[123]|G74|G75|G54|G55)?\s*(?:X\+?(-?)({NUMBER}))?(?:Y\+?(-?)({NUMBER}))?" \
fr"(?:I\+?(-?)({NUMBER}))?(?:J\+?(-?)({NUMBER}))?\s*" \
fr"(?:D0?([123]))?$",
'region_start': r'G36$',
'region_end': r'G37$',
'eof': r"(D02)?M0?[02]", # P-CAD 2006 files have a spurious D02 before M02 as in "D02M02"
'aperture': r"(G54|G55)?\s*D(?P<number>\d+)",
# Allegro combines format spec and unit into one long illegal extended command.
'allegro_format_spec': r"FS(?P<zero>(L|T|D))?(?P<notation>(A|I))[NG0-9]*X(?P<x>[0-7][0-7])Y(?P<y>[0-7][0-7])[DM0-9]*\*MO(?P<unit>IN|MM)",
'unit_mode': r"MO(?P<unit>(MM|IN))",
'format_spec': r"FS(?P<zero>(L|T|D))?(?P<notation>(A|I))[NG0-9]*X(?P<x>[0-7][0-7])Y(?P<y>[0-7][0-7])[DM0-9]*",
'allegro_legacy_params': fr'^IR(?P<rotation>[0-9]+)\*IP(?P<polarity>(POS|NEG))\*OF(A(?P<a>{DECIMAL}))?(B(?P<b>{DECIMAL}))?\*MI(A(?P<ma>0|1))?(B(?P<mb>0|1))?\*SF(A(?P<sa>{DECIMAL}))?(B(?P<sb>{DECIMAL}))?',
'load_polarity': r"LP(?P<polarity>(D|C))",
# FIXME LM, LR, LS
'load_name': r"LN(?P<name>.*)",
'offset': fr"OF(A(?P<a>{DECIMAL}))?(B(?P<b>{DECIMAL}))?",
'include_file': r"IF(?P<filename>.*)",
'image_name': r"^IN(?P<name>.*)",
'axis_selection': r"^AS(?P<axes>AXBY|AYBX)",
'image_polarity': r"^IP(?P<polarity>(POS|NEG))",
'image_rotation': fr"^IR(?P<rotation>{NUMBER})",
'mirror_image': r"^MI(A(?P<ma>0|1))?(B(?P<mb>0|1))?",
'scale_factor': fr"^SF(A(?P<sa>{DECIMAL}))?(B(?P<sb>{DECIMAL}))?",
'aperture_definition': fr"ADD(?P<number>\d+)(?P<shape>C|R|O|P|{NAME})(,(?P<modifiers>[^,%]*))?$",
'aperture_macro': fr"AM(?P<name>{NAME})\*(?P<macro>[^%]*)",
'siemens_garbage': r'^ICAS$',
'step_repeat': fr'^SR(?P<coords>X(?P<X>[0-9]+)Y(?P<Y>[0-9]+)I(?P<I>{DECIMAL})J(?P<J>{DECIMAL}))?$',
'old_unit':r'(?P<mode>G7[01])',
'old_notation': r'(?P<mode>G9[01])',
'ignored': r"(?P<stmt>M01)",
# NOTE: The official spec says names can be empty or contain commas. I think that doesn't make sense.
'attribute': r"(?P<eagle_garbage>G04 #@! %)?(?P<type>TF|TA|TO|TD)(?P<name>[._$a-zA-Z][._$a-zA-Z0-9]*)?(,(?P<value>.*))?",
# Eagle file attributes handled above.
'comment': r"G0?4(?P<comment>[^*]*)",
}
def __init__(self, target, include_dir=None, override_settings=None):
""" Pass an include dir to enable IF include statements (potentially DANGEROUS!). """
self.target = target
self.include_dir = include_dir
self.include_stack = []
self.file_settings = override_settings or FileSettings()
self.graphics_state = GraphicsState(warn=self.warn, file_settings=self.file_settings)
self.aperture_map = {}
self.aperture_macros = {}
self.current_region = None
self.step_repeat_coords = None
self.step_repeat_objects = None
self.eof_found = False
self.multi_quadrant_mode = None # used only for syntax checking
self.macros = {}
self.last_operation = None
self.generator_hints = []
self.layer_hints = []
self.file_attrs = {}
self.aperture_attrs = {}
self.filename = None
self.line = None
self.lineno = 0
def _shorten_line(self):
line_joined = self.line.replace('\r', '').replace('\n', '\\n')
if len(line_joined) > 80:
return f'{line_joined[:20]}[...]{line_joined[-20:]}'
else:
return line_joined
def warn(self, msg, kls=SyntaxWarning):
warnings.warn(f'{self.filename}:{self.lineno} "{self._shorten_line()}": {msg}', kls)
def _split_commands(self, data):
# Ignore '%' signs within G04 commments because eagle likes to put completely broken file attributes inside G04
# comments, and those contain % signs. Best of all, they're not even balanced.
self.lineno = 1
for match in re.finditer(r'G04.*?\*\s*|%.*?%\s*|[^*%]*\*\s*', data, re.DOTALL):
cmd = match[0]
newlines = cmd.count('\n')
cmd = cmd.strip().strip('%').rstrip('*')
if cmd:
# Expensive, but only used in case something goes wrong.
self.line = cmd
yield cmd
self.lineno += newlines
self.lineno = 0
self.line = ''
def parse(self, data, filename=None):
# filename arg is for error messages
filename = self.filename = filename or '<unknown>'
regex_cache = [ (re.compile(exp), getattr(self, f'_parse_{name}')) for name, exp in self.STATEMENT_REGEXES.items() ]
for line in self._split_commands(data):
#if self.eof_found:
# self.warn('Data found in gerber file after EOF.')
for le_regex, fun in regex_cache:
if (match := le_regex.match(line)):
try:
fun(match)
except Exception as e:
raise SyntaxError(f'{filename}:{self.lineno} "{self._shorten_line()}": {e}') from e
line = line[match.end(0):]
break
else:
self.warn(f'Unknown statement found: "{self._shorten_line()}", ignoring.', UnknownStatementWarning)
self.target.comments.append(f'Unknown statement found: "{self._shorten_line()}", ignoring.')
self.target.import_settings = self.file_settings
self.target.unit = self.file_settings.unit
self.target.file_attrs = self.file_attrs
self.target.original_path = filename
if not self.eof_found:
self.warn('File is missing mandatory M02 EOF marker. File may be truncated.')
def _parse_coord(self, match):
interp, x_s, x, y_s, y, i_s, i, j_s, j, op = match.groups() # faster than name-based group access
has_coord = x or y or i or j
if not interp:
pass # performance hack, error out early before descending into if/else chain
elif interp == 'G01':
self.graphics_state.interpolation_mode = InterpMode.LINEAR
elif interp == 'G02':
self.graphics_state.interpolation_mode = InterpMode.CIRCULAR_CW
elif interp == 'G03':
self.graphics_state.interpolation_mode = InterpMode.CIRCULAR_CCW
elif interp == 'G74':
self.multi_quadrant_mode = True # used only for syntax checking
if has_coord:
raise SyntaxError('G74/G75 combined with coord')
elif interp == 'G75':
self.multi_quadrant_mode = False
if has_coord:
raise SyntaxError('G74/G75 combined with coord')
elif interp == 'G54':
pass # ignore.
elif interp == 'G55':
self.generator_hints.append('zuken')
x = self.file_settings.parse_gerber_value(x)
if x_s:
x = -x
y = self.file_settings.parse_gerber_value(y)
if y_s:
y = -y
if not op and has_coord:
if self.last_operation == '1':
self.warn('Coordinate statement without explicit operation code. This is forbidden by spec.')
op = '1'
else:
if 'siemens' in self.generator_hints:
self.warn('Ambiguous coordinate statement. Coordinate statement does not have an operation '\
'mode and the last operation statement was not D01. This is garbage, and forbidden '\
'by spec. but since this looks like a Siemens/Mentor Graphics file, we will let it '\
'slide and treat this as the same as the last operation.')
# Yes, we repeat the last op, and don't do a D01. This is confirmed by
# resources/siemens/80101_0125_F200_L12_Bottom.gdo which contains an implicit-double-D02
op = self.last_operation
else:
raise SyntaxError('Ambiguous coordinate statement. Coordinate statement does not have an '\
'operation mode and the last operation statement was not D01. This is garbage, and '\
'forbidden by spec.')
self.last_operation = op
if op == '1':
if self.graphics_state.interpolation_mode != InterpMode.LINEAR:
if self.multi_quadrant_mode is None:
self.warn('Circular arc interpolation without explicit G75 Single-Quadrant mode statement. '\
'This can cause problems with older gerber interpreters.')
elif self.multi_quadrant_mode:
self.warn('Deprecated G74 multi-quadant mode arc found. G74 is bad and you should feel bad.')
i = self.file_settings.parse_gerber_value(i)
if i_s:
i = -i
j = self.file_settings.parse_gerber_value(j)
if j_s:
j = -j
if self.current_region is None:
# in multi-quadrant mode this may return None if start and end point of the arc are the same.
obj = self.graphics_state.interpolate(x, y, i, j, multi_quadrant=self.multi_quadrant_mode)
if obj is not None:
if self.step_repeat_objects:
self.step_repeat_objects.append(obj)
else:
self.target.objects.append(obj)
else:
obj = self.graphics_state.interpolate(x, y, i, j, aperture=False, multi_quadrant=self.multi_quadrant_mode)
if obj is not None:
self.current_region.append(obj)
elif op == '2':
self.graphics_state.update_point_native(x, y)
if self.current_region:
# Start a new region for every outline. As gerber has no concept of fill rules or winding numbers,
# it does not make a graphical difference, and it makes the implementation slightly easier.
if self.step_repeat_objects:
self.step_repeat_objects.append(self.current_region)
else:
self.target.objects.append(self.current_region)
self.current_region = go.Region(
polarity_dark=self.graphics_state.polarity_dark,
unit=self.file_settings.unit)
elif op == '3':
if self.current_region is None:
obj = self.graphics_state.flash(x, y)
if self.step_repeat_objects:
self.step_repeat_objects.append(obj)
else:
self.target.objects.append(obj)
else:
raise SyntaxError('DO3 flash statement inside region')
else:
# Do nothing if there is no explicit D code.
pass
def _parse_aperture(self, match):
number = int(match['number'])
if number < 10:
raise SyntaxError(f'Invalid aperture number {number}: Aperture number must be >= 10.')
if number not in self.aperture_map:
if number == 10 and 'zuken' in self.generator_hints:
self.warn(f'Tried to access undefined aperture D10. This looks like a Zuken CR-8000 file. For these '
'files, it is normal that an undefined aperture is used for region specifications.')
else:
raise SyntaxError(f'Tried to access undefined aperture {number}')
self.graphics_state.aperture = self.aperture_map[number]
def _parse_aperture_definition(self, match):
# number, shape, modifiers
modifiers = [ float(val) for val in match['modifiers'].strip(' ,').split('X') ] if match['modifiers'] else []
number = int(match['number'])
aperture_classes = {
'C': apertures.CircleAperture,
'R': apertures.RectangleAperture,
'O': apertures.ObroundAperture,
'P': apertures.PolygonAperture,
}
if (kls := aperture_classes.get(match['shape'])):
if match['shape'] == 'P' and math.isclose(modifiers[0], 0):
self.warn('Definition of zero-size polygon aperture. This is invalid according to spec.' )
if match['shape'] in 'RO' and (math.isclose(modifiers[0], 0) or math.isclose(modifiers[1], 0)):
self.warn('Definition of zero-width and/or zero-height rectangle or obround aperture. This is invalid according to spec.' )
new_aperture = kls(*modifiers, unit=self.file_settings.unit, attrs=tuple(self.aperture_attrs.items()),
original_number=number)
elif (macro := self.aperture_macros.get(match['shape'])):
new_aperture = apertures.ApertureMacroInstance(macro, tuple(modifiers), unit=self.file_settings.unit,
attrs=tuple(self.aperture_attrs.items()), original_number=number)
else:
raise ValueError(f'Aperture shape "{match["shape"]}" is unknown')
self.aperture_map[number] = new_aperture
def _parse_aperture_macro(self, match):
self.aperture_macros[match['name']] = ApertureMacro.parse_macro(
match['name'], match['macro'], self.file_settings.unit)
def _parse_format_spec(self, match):
if self.file_settings.zeros is not None:
self.warn('Re-definition of zero suppression setting. Ignoring.')
else:
# This is a common problem in Eagle files, so just suppress it
self.file_settings.zeros = {'L': 'leading', 'T': 'trailing'}.get(match['zero'], 'leading')
self.file_settings.notation = 'incremental' if match['notation'] == 'I' else 'absolute'
if match['x'] != match['y']:
raise SyntaxError(f'FS specifies different coordinate formats for X and Y ({match["x"]} != {match["y"]})')
if self.file_settings.number_format != (None, None):
self.warn('Re-definition of number format setting. Ignoring.')
else:
self.file_settings.number_format = int(match['x'][0]), int(match['x'][1])
def _parse_unit_mode(self, match):
if self.file_settings.unit is not None:
self.warn('Re-definition of file units. Ignoring.')
else:
if match['unit'] == 'MM':
self.graphics_state.unit = self.file_settings.unit = MM
else:
self.graphics_state.unit = self.file_settings.unit = Inch
def _parse_allegro_format_spec(self, match):
self._parse_format_spec(match)
self._parse_unit_mode(match)
def _parse_load_polarity(self, match):
self.graphics_state.polarity_dark = match['polarity'] == 'D'
def _parse_offset(self, match):
a, b = match['a'], match['b']
a = float(a) if a else 0
b = float(b) if b else 0
self.graphics_state.image_offset = a, b
def _parse_allegro_legacy_params(self, match):
self._parse_image_rotation(match)
self._parse_offset(match)
self._parse_image_polarity(match)
self._parse_mirror_image(match)
self._parse_scale_factor(match)
def _parse_include_file(self, match):
if self.include_dir is None:
self.warn('IF include statement found, but includes are deactivated.', ResourceWarning)
else:
self.warn('IF include statement found. Includes are activated, but is this really a good idea?', ResourceWarning)
include_file = self.include_dir / param["filename"]
# Do not check if path exists to avoid leaking existence via error message
include_file = include_file.resolve(strict=False)
if not include_file.is_relative_to(self.include_dir):
raise FileNotFoundError('Attempted traversal to parent of include dir in path from IF include statement')
if not include_file.is_file():
raise FileNotFoundError('File pointed to by IF include statement does not exist')
if include_file in self.include_stack:
raise ValueError("Recusive inclusion via IF include statement.")
self.include_stack.append(include_file)
# Spec 2020-09 section 3.1: Gerber files must use UTF-8
self._parse(f.read_text(encoding='UTF-8'), filename=include_file.name)
self.include_stack.pop()
def _parse_image_name(self, match):
self.warn('Deprecated IN (image name) statement found. This deprecated since rev. I4 (Oct 2013).', DeprecationWarning)
self.target.comments.append(f'Image name: {match["name"]}')
def _parse_load_name(self, match):
self.warn('Deprecated LN (load name) statement found. This deprecated since rev. I4 (Oct 2013).', DeprecationWarning)
def _parse_axis_selection(self, match):
if match['axes'] != 'AXBY':
self.warn('Deprecated AS (axis selection) statement found. This deprecated since rev. I1 (Dec 2012).', DeprecationWarning)
self.graphics_state.output_axes = match['axes']
def _parse_image_polarity(self, match):
polarity = dict(POS='positive', NEG='negative')[match['polarity']]
if polarity != 'positive':
self.warn('Deprecated IP (image polarity) statement found. This deprecated since rev. I4 (Oct 2013).', DeprecationWarning)
if polarity not in ('positive', 'negative'):
raise ValueError('image_polarity must be either "positive" or "negative"')
self.graphics_state.image_polarity = polarity
def _parse_image_rotation(self, match):
rotation = int(match['rotation'])
if rotation:
self.warn('Deprecated IR (image rotation) statement found. This deprecated since rev. I1 (Dec 2012).', DeprecationWarning)
if rotation not in [0, 90, 180, 270]:
raise ValueError('image_rotation must be 0, 90, 180 or 270')
self.graphics_state.image_rotation = rotation
def _parse_mirror_image(self, match):
mirror = bool(int(match['ma'] or '0')), bool(int(match['mb'] or '1'))
if mirror != (False, False):
self.warn('Deprecated MI (mirror image) statement found. This deprecated since rev. I1 (Dec 2012).', DeprecationWarning)
self.graphics_state.image_mirror = mirror
def _parse_scale_factor(self, match):
a = float(match['sa']) if match['sa'] else 1.0
b = float(match['sb']) if match['sb'] else 1.0
if not math.isclose(math.dist((a, b), (1, 1)), 0):
self.warn('Deprecated SF (scale factor) statement found. This deprecated since rev. I1 (Dec 2012).', DeprecationWarning)
self.graphics_state.image_scale = a, b
def _parse_siemens_garbage(self, match):
self.generator_hints.append('siemens')
def _parse_comment(self, match):
cmt = match["comment"].strip()
# Parse metadata from allegro comments
# We do this for layer identification since allegro files usually do not follow any defined naming scheme
if cmt.startswith('File Origin:') and 'Allegro' in cmt:
self.generator_hints.append('allegro')
elif cmt.startswith('PADS') and 'generated Gerber' in cmt:
self.generator_hints.append('pads')
elif cmt.startswith('Layer:'):
if 'BOARD GEOMETRY' in cmt:
if 'SOLDERMASK_TOP' in cmt:
self.layer_hints.append('top mask')
if 'SOLDERMASK_BOTTOM' in cmt:
self.layer_hints.append('bottom mask')
if 'PASTEMASK_TOP' in cmt:
self.layer_hints.append('top paste')
if 'PASTEMASK_BOTTOM' in cmt:
self.layer_hints.append('bottom paste')
if 'SILKSCREEN_TOP' in cmt:
self.layer_hints.append('top silk')
if 'SILKSCREEN_BOTTOM' in cmt:
self.layer_hints.append('bottom silk')
elif 'ETCH' in cmt:
_1, _2, name = cmt.partition('/')
name = re.sub(r'\W+', '_', name)
self.layer_hints.append(f'{name} copper')
elif cmt.startswith('Mentor Graphics'):
self.generator_hints.append('siemens')
else:
self.target.comments.append(cmt)
def _parse_region_start(self, _match):
self.current_region = go.Region(
polarity_dark=self.graphics_state.polarity_dark,
unit=self.file_settings.unit)
def _parse_region_end(self, _match):
if self.current_region is None:
raise SyntaxError('Region end command (G37) outside of region')
if self.current_region: # ignore empty regions
self.target.objects.append(self.current_region)
self.current_region = None
def _parse_old_unit(self, match):
self.graphics_state.unit = self.file_settings.unit = Inch if match['mode'] == 'G70' else MM
self.warn(f'Deprecated {match["mode"]} unit mode statement found. This deprecated since 2012.', DeprecationWarning)
self.target.comments.append('Replaced deprecated {match["mode"]} unit mode statement with MO statement')
def _parse_old_notation(self, match):
# FIXME make sure we always have FS at end of processing.
self.file_settings.notation = 'absolute' if match['mode'] == 'G90' else 'incremental'
self.warn(f'Deprecated {match["mode"]} notation mode statement found. This deprecated since 2012.', DeprecationWarning)
self.target.comments.append('Replaced deprecated {match["mode"]} notation mode statement with FS statement')
def _parse_attribute(self, match):
if match['type'] == 'TD':
if match['value']:
raise SyntaxError('TD attribute deletion command must not contain attribute fields')
if not match['name']:
self.graphics_state.object_attrs = {}
self.aperture_attrs = {}
return
if match['name'] in self.file_attrs:
raise SyntaxError('Attempt to TD delete file attribute. This does not make sense.')
elif match['name'] in self.graphics_state.object_attrs:
del self.graphics_state.object_attrs[match['name']]
elif match['name'] in self.aperture_attrs:
del self.aperture_attrs[match['name']]
else:
raise SyntaxError(f'Attempt to TD delete previously undefined attribute {match["name"]}.')
else:
target = {'TF': self.file_attrs, 'TO': self.graphics_state.object_attrs, 'TA': self.aperture_attrs}[match['type']]
target[match['name']] = tuple(match['value'].split(','))
if 'EAGLE' in self.file_attrs.get('.GenerationSoftware', []) or match['eagle_garbage']:
self.generator_hints.append('eagle')
def _parse_step_repeat(self, match):
if match['coords']:
if self.step_repeat_coords:
raise SyntaxError('SR step-repeat called inside ongoing SR step-repeat')
x, y = int(match['X']), int(match['Y'])
i, j = float(match['I']), float(match['J'])
if x < 1 or y < 1:
raise SyntaxError('SR step-repeat X and Y values must be at least 1')
self.step_repeat_coords = [
(i*nx, j*ny)
for nx in range(x) for ny in range(y)] # the order matters here, cf. the spec
self.step_repeat_objects = []
else:
for obj in self.step_repeat_objects:
for dx, dy in self.step_repeat_coords:
new_obj = copy.copy(obj)
new_obj.offset(dx, dy)
self.target.objects.append(new_obj)
self.step_repeat_coords = None
self.step_repeat_objects = None
def _parse_eof(self, match):
self.eof_found = True
if match[0] == 'M00':
self.generator_hints.append('zuken')
def _parse_ignored(self, match):
pass
if __name__ == '__main__':
import argparse
parser = argparse.ArgumentParser()
parser.add_argument('testfile')
args = parser.parse_args()
bounds = (0.0, 0.0), (6.0, 6.0) # bottom left, top right
svg = str(GerberFile.open(args.testfile).to_svg(force_bounds=bounds, arg_unit='inch', fg='white', bg='black'))
print(svg)
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