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|
#!/usr/bin/env python
# -*- coding: utf-8 -*-
# copyright 2015 Hamilton Kibbe <ham@hamiltonkib.be> and Paulo Henrique Silva
# <ph.silva@gmail.com>
# 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.
from .utils import validate_coordinates, inch, metric
from .primitives import *
__all__ = ['AMPrimitive', 'AMCommentPrimitive', 'AMCirclePrimitive',
'AMVectorLinePrimitive', 'AMOutlinePrimitive', 'AMPolygonPrimitive',
'AMMoirePrimitive', 'AMThermalPrimitive', 'AMCenterLinePrimitive',
'AMLowerLeftLinePrimitive', 'AMUnsupportPrimitive']
class AMPrimitive(object):
""" Aperture Macro Primitive Base Class
Parameters
----------
code : int
primitive shape code
exposure : str
on or off Primitives with exposure on create a slid part of
the macro aperture, and primitives with exposure off erase the
solid part created previously in the aperture macro definition.
.. note::
The erasing effect is limited to the aperture definition in
which it occurs.
Returns
-------
primitive : :class: `gerber.am_statements.AMPrimitive`
Raises
------
TypeError, ValueError
"""
def __init__(self, code, exposure=None):
VALID_CODES = (0, 1, 2, 4, 5, 6, 7, 20, 21, 22, 9999)
if not isinstance(code, int):
raise TypeError('Aperture Macro Primitive code must be an integer')
elif code not in VALID_CODES:
raise ValueError('Invalid Code. Valid codes are %s.' %
', '.join(map(str, VALID_CODES)))
if exposure is not None and exposure.lower() not in ('on', 'off'):
raise ValueError('Exposure must be either on or off')
self.code = code
self.exposure = exposure.lower() if exposure is not None else None
def to_inch(self):
raise NotImplementedError('Subclass must implement `to-inch`')
def to_metric(self):
raise NotImplementedError('Subclass must implement `to-metric`')
def to_primitive(self, position, level_polarity, units):
""" Return a Primitive instance based on the specified macro params.
"""
print('Rendering {}s is not supported yet.'.format(str(self.__class__)))
def __eq__(self, other):
return self.__dict__ == other.__dict__
class AMCommentPrimitive(AMPrimitive):
""" Aperture Macro Comment primitive. Code 0
The comment primitive has no image meaning. It is used to include human-
readable comments into the AM command.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.1:** Comment, primitive code 0
Parameters
----------
code : int
Aperture Macro primitive code. 0 Indicates an AMCommentPrimitive
comment : str
The comment as a string.
Returns
-------
CommentPrimitive : :class:`gerber.am_statements.AMCommentPrimitive`
An Initialized AMCommentPrimitive
Raises
------
ValueError
"""
@classmethod
def from_gerber(cls, primitive):
primitive = primitive.strip()
code = int(primitive[0])
comment = primitive[1:]
return cls(code, comment)
def __init__(self, code, comment):
if code != 0:
raise ValueError('Not a valid Aperture Macro Comment statement')
super(AMCommentPrimitive, self).__init__(code)
self.comment = comment.strip(' *')
def to_inch(self):
pass
def to_metric(self):
pass
def to_gerber(self, settings=None):
return '0 %s *' % self.comment
def __str__(self):
return '<Aperture Macro Comment: %s>' % self.comment
class AMCirclePrimitive(AMPrimitive):
""" Aperture macro Circle primitive. Code 1
A circle primitive is defined by its center point and diameter.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.2:** Circle, primitive code 1
Parameters
----------
code : int
Circle Primitive code. Must be 1
exposure : string
'on' or 'off'
diameter : float
Circle diameter
position : tuple (<float>, <float>)
Position of the circle relative to the macro origin
Returns
-------
CirclePrimitive : :class:`gerber.am_statements.AMCirclePrimitive`
An initialized AMCirclePrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(',')
code = int(modifiers[0])
exposure = 'on' if float(modifiers[1]) == 1 else 'off'
diameter = float(modifiers[2])
position = (float(modifiers[3]), float(modifiers[4]))
return cls(code, exposure, diameter, position)
def __init__(self, code, exposure, diameter, position):
validate_coordinates(position)
if code != 1:
raise ValueError('CirclePrimitive code is 1')
super(AMCirclePrimitive, self).__init__(code, exposure)
self.diameter = diameter
self.position = position
def to_inch(self):
self.diameter = inch(self.diameter)
self.position = tuple([inch(x) for x in self.position])
def to_metric(self):
self.diameter = metric(self.diameter)
self.position = tuple([metric(x) for x in self.position])
def to_primitive(self, position, level_polarity, units):
# Offset the primitive from macro position
position = tuple([a + b for a , b in zip (position, self.position)])
# Return a renderable primitive
return Circle(position, self.diameter, level_polarity=level_polarity,
units=units)
def to_gerber(self, settings=None):
data = dict(code=self.code,
exposure='1' if self.exposure == 'on' else 0,
diameter=self.diameter,
x=self.position[0],
y=self.position[1])
return '{code},{exposure},{diameter},{x},{y}*'.format(**data)
class AMVectorLinePrimitive(AMPrimitive):
""" Aperture Macro Vector Line primitive. Code 2 or 20.
A vector line is a rectangle defined by its line width, start, and end
points. The line ends are rectangular.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.3:** Vector Line, primitive code 2 or 20.
Parameters
----------
code : int
Vector Line Primitive code. Must be either 2 or 20.
exposure : string
'on' or 'off'
width : float
Line width
start : tuple (<float>, <float>)
coordinate of line start point
end : tuple (<float>, <float>)
coordinate of line end point
rotation : float
Line rotation about the origin.
Returns
-------
LinePrimitive : :class:`gerber.am_statements.AMVectorLinePrimitive`
An initialized AMVectorLinePrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(',')
code = int(modifiers[0])
exposure = 'on' if float(modifiers[1]) == 1 else 'off'
width = float(modifiers[2])
start = (float(modifiers[3]), float(modifiers[4]))
end = (float(modifiers[5]), float(modifiers[6]))
rotation = float(modifiers[7])
return cls(code, exposure, width, start, end, rotation)
def __init__(self, code, exposure, width, start, end, rotation):
validate_coordinates(start)
validate_coordinates(end)
if code not in (2, 20):
raise ValueError('VectorLinePrimitive codes are 2 or 20')
super(AMVectorLinePrimitive, self).__init__(code, exposure)
self.width = width
self.start = start
self.end = end
self.rotation = rotation
def to_inch(self):
self.width = inch(self.width)
self.start = tuple([inch(x) for x in self.start])
self.end = tuple([inch(x) for x in self.end])
def to_metric(self):
self.width = metric(self.width)
self.start = tuple([metric(x) for x in self.start])
self.end = tuple([metric(x) for x in self.end])
def to_primitive(self, position, level_polarity, units):
# Offset the primitive from macro position
start = tuple([a + b for a , b in zip (position, self.start)])
end = tuple([a + b for a , b in zip (position, self.end)])
# Return a renderable primitive
ap = Rectangle((0, 0), self.width, self.width)
return Line(start, end, ap, level_polarity=level_polarity, units=units)
def to_gerber(self, settings=None):
fmtstr = '{code},{exp},{width},{startx},{starty},{endx},{endy},{rotation}*'
data = dict(code=self.code,
exp=1 if self.exposure == 'on' else 0,
width=self.width,
startx=self.start[0],
starty=self.start[1],
endx=self.end[0],
endy=self.end[1],
rotation=self.rotation)
return fmtstr.format(**data)
class AMOutlinePrimitive(AMPrimitive):
""" Aperture Macro Outline primitive. Code 4.
An outline primitive is an area enclosed by an n-point polygon defined by
its start point and n subsequent points. The outline must be closed, i.e.
the last point must be equal to the start point. Self intersecting
outlines are not allowed.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.6:** Outline, primitive code 4.
Parameters
----------
code : int
OutlinePrimitive code. Must be 6.
exposure : string
'on' or 'off'
start_point : tuple (<float>, <float>)
coordinate of outline start point
points : list of tuples (<float>, <float>)
coordinates of subsequent points
rotation : float
outline rotation about the origin.
Returns
-------
OutlinePrimitive : :class:`gerber.am_statements.AMOutlineinePrimitive`
An initialized AMOutlinePrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(",")
code = int(modifiers[0])
exposure = "on" if float(modifiers[1]) == 1 else "off"
n = int(float(modifiers[2]))
start_point = (float(modifiers[3]), float(modifiers[4]))
points = []
for i in range(n):
points.append((float(modifiers[5 + i * 2]),
float(modifiers[5 + i * 2 + 1])))
rotation = float(modifiers[-1])
return cls(code, exposure, start_point, points, rotation)
def __init__(self, code, exposure, start_point, points, rotation):
""" Initialize AMOutlinePrimitive
"""
validate_coordinates(start_point)
for point in points:
validate_coordinates(point)
if code != 4:
raise ValueError('OutlinePrimitive code is 4')
super(AMOutlinePrimitive, self).__init__(code, exposure)
self.start_point = start_point
if points[-1] != start_point:
raise ValueError('OutlinePrimitive must be closed')
self.points = points
self.rotation = rotation
def to_inch(self):
self.start_point = tuple([inch(x) for x in self.start_point])
self.points = tuple([(inch(x), inch(y)) for x, y in self.points])
def to_metric(self):
self.start_point = tuple([metric(x) for x in self.start_point])
self.points = tuple([(metric(x), metric(y)) for x, y in self.points])
def to_gerber(self, settings=None):
data = dict(
code=self.code,
exposure="1" if self.exposure == "on" else "0",
n_points=len(self.points),
start_point="%.4g,%.4g" % self.start_point,
points=",".join(["%.4g,%.4g" % point for point in self.points]),
rotation=str(self.rotation)
)
return "{code},{exposure},{n_points},{start_point},{points},{rotation}*".format(**data)
class AMPolygonPrimitive(AMPrimitive):
""" Aperture Macro Polygon primitive. Code 5.
A polygon primitive is a regular polygon defined by the number of
vertices, the center point, and the diameter of the circumscribed circle.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.8:** Polygon, primitive code 5.
Parameters
----------
code : int
PolygonPrimitive code. Must be 5.
exposure : string
'on' or 'off'
vertices : int, 3 <= vertices <= 12
Number of vertices
position : tuple (<float>, <float>)
X and Y coordinates of polygon center
diameter : float
diameter of circumscribed circle.
rotation : float
polygon rotation about the origin.
Returns
-------
PolygonPrimitive : :class:`gerber.am_statements.AMPolygonPrimitive`
An initialized AMPolygonPrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(",")
code = int(modifiers[0])
exposure = "on" if float(modifiers[1]) == 1 else "off"
vertices = int(float(modifiers[2]))
position = (float(modifiers[3]), float(modifiers[4]))
try:
diameter = float(modifiers[5])
except:
diameter = 0
rotation = float(modifiers[6])
return cls(code, exposure, vertices, position, diameter, rotation)
def __init__(self, code, exposure, vertices, position, diameter, rotation):
""" Initialize AMPolygonPrimitive
"""
if code != 5:
raise ValueError('PolygonPrimitive code is 5')
super(AMPolygonPrimitive, self).__init__(code, exposure)
if vertices < 3 or vertices > 12:
raise ValueError('Number of vertices must be between 3 and 12')
self.vertices = vertices
validate_coordinates(position)
self.position = position
self.diameter = diameter
self.rotation = rotation
def to_inch(self):
self.position = tuple([inch(x) for x in self.position])
self.diameter = inch(self.diameter)
def to_metric(self):
self.position = tuple([metric(x) for x in self.position])
self.diameter = metric(self.diameter)
def to_primitive(self, position, level_polarity, units):
# Offset the primitive from macro position
position = tuple([a + b for a , b in zip (position, self.position)])
# Return a renderable primitive
return Polygon(position, self.vertices, self.diameter/2.,
rotation=self.rotation, level_polarity=level_polarity,
units=units)
def to_gerber(self, settings=None):
data = dict(
code=self.code,
exposure="1" if self.exposure == "on" else "0",
vertices=self.vertices,
position="%.4g,%.4g" % self.position,
diameter='%.4g' % self.diameter,
rotation=str(self.rotation)
)
fmt = "{code},{exposure},{vertices},{position},{diameter},{rotation}*"
return fmt.format(**data)
class AMMoirePrimitive(AMPrimitive):
""" Aperture Macro Moire primitive. Code 6.
The moire primitive is a cross hair centered on concentric rings (annuli).
Exposure is always on.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.9:** Moire, primitive code 6.
Parameters
----------
code : int
Moire Primitive code. Must be 6.
position : tuple (<float>, <float>)
X and Y coordinates of moire center
diameter : float
outer diameter of outer ring.
ring_thickness : float
thickness of concentric rings.
gap : float
gap between concentric rings.
max_rings : float
maximum number of rings
crosshair_thickness : float
thickness of crosshairs
crosshair_length : float
length of crosshairs
rotation : float
moire rotation about the origin.
Returns
-------
MoirePrimitive : :class:`gerber.am_statements.AMMoirePrimitive`
An initialized AMMoirePrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(",")
code = int(modifiers[0])
position = (float(modifiers[1]), float(modifiers[2]))
diameter = float(modifiers[3])
ring_thickness = float(modifiers[4])
gap = float(modifiers[5])
max_rings = int(float(modifiers[6]))
crosshair_thickness = float(modifiers[7])
crosshair_length = float(modifiers[8])
rotation = float(modifiers[9])
return cls(code, position, diameter, ring_thickness, gap, max_rings, crosshair_thickness, crosshair_length, rotation)
def __init__(self, code, position, diameter, ring_thickness, gap, max_rings, crosshair_thickness, crosshair_length, rotation):
""" Initialize AMoirePrimitive
"""
if code != 6:
raise ValueError('MoirePrimitive code is 6')
super(AMMoirePrimitive, self).__init__(code, 'on')
validate_coordinates(position)
self.position = position
self.diameter = diameter
self.ring_thickness = ring_thickness
self.gap = gap
self.max_rings = max_rings
self.crosshair_thickness = crosshair_thickness
self.crosshair_length = crosshair_length
self.rotation = rotation
def to_inch(self):
self.position = tuple([inch(x) for x in self.position])
self.diameter = inch(self.diameter)
self.ring_thickness = inch(self.ring_thickness)
self.gap = inch(self.gap)
self.crosshair_thickness = inch(self.crosshair_thickness)
self.crosshair_length = inch(self.crosshair_length)
def to_metric(self):
self.position = tuple([metric(x) for x in self.position])
self.diameter = metric(self.diameter)
self.ring_thickness = metric(self.ring_thickness)
self.gap = metric(self.gap)
self.crosshair_thickness = metric(self.crosshair_thickness)
self.crosshair_length = metric(self.crosshair_length)
def to_gerber(self, settings=None):
data = dict(
code=self.code,
position="%.4g,%.4g" % self.position,
diameter=self.diameter,
ring_thickness=self.ring_thickness,
gap=self.gap,
max_rings=self.max_rings,
crosshair_thickness=self.crosshair_thickness,
crosshair_length=self.crosshair_length,
rotation=self.rotation
)
fmt = "{code},{position},{diameter},{ring_thickness},{gap},{max_rings},{crosshair_thickness},{crosshair_length},{rotation}*"
return fmt.format(**data)
class AMThermalPrimitive(AMPrimitive):
""" Aperture Macro Thermal primitive. Code 7.
The thermal primitive is a ring (annulus) interrupted by four gaps.
Exposure is always on.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.10:** Thermal, primitive code 7.
Parameters
----------
code : int
Thermal Primitive code. Must be 7.
position : tuple (<float>, <float>)
X and Y coordinates of thermal center
outer_diameter : float
outer diameter of thermal.
inner_diameter : float
inner diameter of thermal.
gap : float
gap thickness
rotation : float
thermal rotation about the origin.
Returns
-------
ThermalPrimitive : :class:`gerber.am_statements.AMThermalPrimitive`
An initialized AMThermalPrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(",")
code = int(modifiers[0])
position = (float(modifiers[1]), float(modifiers[2]))
outer_diameter = float(modifiers[3])
inner_diameter = float(modifiers[4])
gap = float(modifiers[5])
return cls(code, position, outer_diameter, inner_diameter, gap)
def __init__(self, code, position, outer_diameter, inner_diameter, gap):
if code != 7:
raise ValueError('ThermalPrimitive code is 7')
super(AMThermalPrimitive, self).__init__(code, 'on')
validate_coordinates(position)
self.position = position
self.outer_diameter = outer_diameter
self.inner_diameter = inner_diameter
self.gap = gap
def to_inch(self):
self.position = tuple([inch(x) for x in self.position])
self.outer_diameter = inch(self.outer_diameter)
self.inner_diameter = inch(self.inner_diameter)
self.gap = inch(self.gap)
def to_metric(self):
self.position = tuple([metric(x) for x in self.position])
self.outer_diameter = metric(self.outer_diameter)
self.inner_diameter = metric(self.inner_diameter)
self.gap = metric(self.gap)
def to_gerber(self, settings=None):
data = dict(
code=self.code,
position="%.4g,%.4g" % self.position,
outer_diameter=self.outer_diameter,
inner_diameter=self.inner_diameter,
gap=self.gap,
)
fmt = "{code},{position},{outer_diameter},{inner_diameter},{gap}*"
return fmt.format(**data)
class AMCenterLinePrimitive(AMPrimitive):
""" Aperture Macro Center Line primitive. Code 21.
The center line primitive is a rectangle defined by its width, height, and center point.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.4:** Center Line, primitive code 21.
Parameters
----------
code : int
Center Line Primitive code. Must be 21.
exposure : str
'on' or 'off'
width : float
Width of rectangle
height : float
Height of rectangle
center : tuple (<float>, <float>)
X and Y coordinates of line center
rotation : float
rectangle rotation about its center.
Returns
-------
CenterLinePrimitive : :class:`gerber.am_statements.AMCenterLinePrimitive`
An initialized AMCenterLinePrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(",")
code = int(modifiers[0])
exposure = 'on' if float(modifiers[1]) == 1 else 'off'
width = float(modifiers[2])
height = float(modifiers[3])
center = (float(modifiers[4]), float(modifiers[5]))
rotation = float(modifiers[6])
return cls(code, exposure, width, height, center, rotation)
def __init__(self, code, exposure, width, height, center, rotation):
if code != 21:
raise ValueError('CenterLinePrimitive code is 21')
super(AMCenterLinePrimitive, self).__init__(code, exposure)
self.width = width
self.height = height
validate_coordinates(center)
self.center = center
self.rotation = rotation
def to_inch(self):
self.center = tuple([inch(x) for x in self.center])
self.width = inch(self.width)
self.height = inch(self.height)
def to_metric(self):
self.center = tuple([metric(x) for x in self.center])
self.width = metric(self.width)
self.height = metric(self.height)
def to_primitive(self, position, level_polarity, units):
# Offset the primitive from macro position
position = tuple([a + b for a , b in zip (position, self.center)])
# Return a renderable primitive
return Rectangle(position, self.width, self.height,
level_polarity=level_polarity, units=units)
def to_gerber(self, settings=None):
data = dict(
code=self.code,
exposure='1' if self.exposure == 'on' else '0',
width=self.width,
height=self.height,
center="%.4g,%.4g" % self.center,
rotation=self.rotation
)
fmt = "{code},{exposure},{width},{height},{center},{rotation}*"
return fmt.format(**data)
class AMLowerLeftLinePrimitive(AMPrimitive):
""" Aperture Macro Lower Left Line primitive. Code 22.
The lower left line primitive is a rectangle defined by its width, height, and the lower left point.
.. seealso::
`The Gerber File Format Specification <http://www.ucamco.com/files/downloads/file/81/the_gerber_file_format_specification.pdf>`_
**Section 4.12.3.5:** Lower Left Line, primitive code 22.
Parameters
----------
code : int
Center Line Primitive code. Must be 22.
exposure : str
'on' or 'off'
width : float
Width of rectangle
height : float
Height of rectangle
lower_left : tuple (<float>, <float>)
X and Y coordinates of lower left corner
rotation : float
rectangle rotation about its origin.
Returns
-------
LowerLeftLinePrimitive : :class:`gerber.am_statements.AMLowerLeftLinePrimitive`
An initialized AMLowerLeftLinePrimitive
Raises
------
ValueError, TypeError
"""
@classmethod
def from_gerber(cls, primitive):
modifiers = primitive.strip(' *').split(",")
code = int(modifiers[0])
exposure = 'on' if float(modifiers[1]) == 1 else 'off'
width = float(modifiers[2])
height = float(modifiers[3])
lower_left = (float(modifiers[4]), float(modifiers[5]))
rotation = float(modifiers[6])
return cls(code, exposure, width, height, lower_left, rotation)
def __init__(self, code, exposure, width, height, lower_left, rotation):
if code != 22:
raise ValueError('LowerLeftLinePrimitive code is 22')
super(AMLowerLeftLinePrimitive, self).__init__(code, exposure)
self.width = width
self.height = height
validate_coordinates(lower_left)
self.lower_left = lower_left
self.rotation = rotation
def to_inch(self):
self.lower_left = tuple([inch(x) for x in self.lower_left])
self.width = inch(self.width)
self.height = inch(self.height)
def to_metric(self):
self.lower_left = tuple([metric(x) for x in self.lower_left])
self.width = metric(self.width)
self.height = metric(self.height)
def to_primitive(self, position, level_polarity, units):
# Offset the primitive from macro position
position = tuple([a + b for a , b in zip (position, self.lower_left)])
position = tuple([pos + offset for pos, offset in
zip(position, (self.width/2, self.height/2))])
# Return a renderable primitive
return Rectangle(position, self.width, self.height,
level_polarity=level_polarity, units=units)
def to_gerber(self, settings=None):
data = dict(
code=self.code,
exposure='1' if self.exposure == 'on' else '0',
width=self.width,
height=self.height,
lower_left="%.4g,%.4g" % self.lower_left,
rotation=self.rotation
)
fmt = "{code},{exposure},{width},{height},{lower_left},{rotation}*"
return fmt.format(**data)
class AMUnsupportPrimitive(AMPrimitive):
@classmethod
def from_gerber(cls, primitive):
return cls(primitive)
def __init__(self, primitive):
super(AMUnsupportPrimitive, self).__init__(9999)
self.primitive = primitive
def to_inch(self):
pass
def to_metric(self):
pass
def to_gerber(self, settings=None):
return self.primitive
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