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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# copyright 2014 Hamilton Kibbe <ham@hamiltonkib.be>
#
# 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.
"""
Excellon Statements
====================
**Excellon file statement classes**
"""
import re
from .utils import (parse_gerber_value, write_gerber_value, decimal_string,
inch, metric)
__all__ = ['ExcellonTool', 'ToolSelectionStmt', 'CoordinateStmt',
'CommentStmt', 'HeaderBeginStmt', 'HeaderEndStmt',
'RewindStopStmt', 'EndOfProgramStmt', 'UnitStmt',
'IncrementalModeStmt', 'VersionStmt', 'FormatStmt', 'LinkToolStmt',
'MeasuringModeStmt', 'RouteModeStmt', 'DrillModeStmt',
'AbsoluteModeStmt', 'RepeatHoleStmt', 'UnknownStmt',
'ExcellonStatement',]
class ExcellonStatement(object):
""" Excellon Statement abstract base class
"""
@classmethod
def from_excellon(cls, line):
raise NotImplementedError('from_excellon must be implemented in a '
'subclass')
def to_excellon(self, settings=None):
raise NotImplementedError('to_excellon must be implemented in a '
'subclass')
def to_inch(self):
pass
def to_metric(self):
pass
def offset(self, x_offset=0, y_offset=0):
pass
def __eq__(self, other):
return self.__dict__ == other.__dict__
class ExcellonTool(ExcellonStatement):
""" Excellon Tool class
Parameters
----------
settings : FileSettings (dict-like)
File-wide settings.
kwargs : dict-like
Tool settings from the excellon statement. Valid keys are:
- `diameter` : Tool diameter [expressed in file units]
- `rpm` : Tool RPM
- `feed_rate` : Z-axis tool feed rate
- `retract_rate` : Z-axis tool retraction rate
- `max_hit_count` : Number of hits allowed before a tool change
- `depth_offset` : Offset of tool depth from tip of tool.
Attributes
----------
number : integer
Tool number from the excellon file
diameter : float
Tool diameter in file units
rpm : float
Tool RPM
feed_rate : float
Tool Z-axis feed rate.
retract_rate : float
Tool Z-axis retract rate
depth_offset : float
Offset of depth measurement from tip of tool
max_hit_count : integer
Maximum number of tool hits allowed before a tool change
hit_count : integer
Number of tool hits in excellon file.
"""
@classmethod
def from_excellon(cls, line, settings):
""" Create a Tool from an excellon file tool definition line.
Parameters
----------
line : string
Tool definition line from an excellon file.
settings : FileSettings (dict-like)
Excellon file-wide settings
Returns
-------
tool : Tool
An ExcellonTool representing the tool defined in `line`
"""
commands = re.split('([BCFHSTZ])', line)[1:]
commands = [(command, value) for command, value in pairwise(commands)]
args = {}
nformat = settings.format
zero_suppression = settings.zero_suppression
for cmd, val in commands:
if cmd == 'B':
args['retract_rate'] = parse_gerber_value(val, nformat, zero_suppression)
elif cmd == 'C':
args['diameter'] = parse_gerber_value(val, nformat, zero_suppression)
elif cmd == 'F':
args['feed_rate'] = parse_gerber_value(val, nformat, zero_suppression)
elif cmd == 'H':
args['max_hit_count'] = parse_gerber_value(val, nformat, zero_suppression)
elif cmd == 'S':
args['rpm'] = 1000 * parse_gerber_value(val, nformat, zero_suppression)
elif cmd == 'T':
args['number'] = int(val)
elif cmd == 'Z':
args['depth_offset'] = parse_gerber_value(val, nformat, zero_suppression)
return cls(settings, **args)
@classmethod
def from_dict(cls, settings, tool_dict):
""" Create an ExcellonTool from a dict.
Parameters
----------
settings : FileSettings (dict-like)
Excellon File-wide settings
tool_dict : dict
Excellon tool parameters as a dict
Returns
-------
tool : ExcellonTool
An ExcellonTool initialized with the parameters in tool_dict.
"""
return cls(settings, **tool_dict)
def __init__(self, settings, **kwargs):
self.settings = settings
self.number = kwargs.get('number')
self.feed_rate = kwargs.get('feed_rate')
self.retract_rate = kwargs.get('retract_rate')
self.rpm = kwargs.get('rpm')
self.diameter = kwargs.get('diameter')
self.max_hit_count = kwargs.get('max_hit_count')
self.depth_offset = kwargs.get('depth_offset')
self.hit_count = 0
def to_excellon(self, settings=None):
fmt = self.settings.format
zs = self.settings.zero_suppression
stmt = 'T%02d' % self.number
if self.retract_rate is not None:
stmt += 'B%s' % write_gerber_value(self.retract_rate, fmt, zs)
if self.feed_rate is not None:
stmt += 'F%s' % write_gerber_value(self.feed_rate, fmt, zs)
if self.max_hit_count is not None:
stmt += 'H%s' % write_gerber_value(self.max_hit_count, fmt, zs)
if self.rpm is not None:
if self.rpm < 100000.:
stmt += 'S%s' % write_gerber_value(self.rpm / 1000., fmt, zs)
else:
stmt += 'S%g' % (self.rpm / 1000.)
if self.diameter is not None:
stmt += 'C%s' % decimal_string(self.diameter, fmt[1], True)
if self.depth_offset is not None:
stmt += 'Z%s' % write_gerber_value(self.depth_offset, fmt, zs)
return stmt
def to_inch(self):
if self.settings.units != 'inch':
self.settings.units = 'inch'
if self.diameter is not None:
self.diameter = inch(self.diameter)
def to_metric(self):
if self.settings.units != 'metric':
self.settings.units = 'metric'
if self.diameter is not None:
self.diameter = metric(self.diameter)
def _hit(self):
self.hit_count += 1
def __repr__(self):
unit = 'in.' if self.settings.units == 'inch' else 'mm'
fmtstr = '<ExcellonTool %%02d: %%%d.%dg%%s dia.>' % self.settings.format
return fmtstr % (self.number, self.diameter, unit)
class ToolSelectionStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
""" Create a ToolSelectionStmt from an excellon file line.
Parameters
----------
line : string
Line from an Excellon file
Returns
-------
tool_statement : ToolSelectionStmt
ToolSelectionStmt representation of `line.`
"""
line = line[1:]
compensation_index = None
# up to 3 characters for tool number (Frizting uses that)
if len(line) <= 3:
tool = int(line)
else:
tool = int(line[:2])
compensation_index = int(line[2:])
return cls(tool, compensation_index)
def __init__(self, tool, compensation_index=None):
tool = int(tool)
compensation_index = (int(compensation_index) if compensation_index
is not None else None)
self.tool = tool
self.compensation_index = compensation_index
def to_excellon(self, settings=None):
stmt = 'T%02d' % self.tool
if self.compensation_index is not None:
stmt += '%02d' % self.compensation_index
return stmt
class CoordinateStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line, settings):
x_coord = None
y_coord = None
if line[0] == 'X':
splitline = line.strip('X').split('Y')
x_coord = parse_gerber_value(splitline[0], settings.format,
settings.zero_suppression)
if len(splitline) == 2:
y_coord = parse_gerber_value(splitline[1], settings.format,
settings.zero_suppression)
else:
y_coord = parse_gerber_value(line.strip(' Y'), settings.format,
settings.zero_suppression)
return cls(x_coord, y_coord)
def __init__(self, x=None, y=None):
self.x = x
self.y = y
def to_excellon(self, settings):
stmt = ''
if self.x is not None:
stmt += 'X%s' % write_gerber_value(self.x, settings.format,
settings.zero_suppression)
if self.y is not None:
stmt += 'Y%s' % write_gerber_value(self.y, settings.format,
settings.zero_suppression)
return stmt
def to_inch(self):
if self.x is not None:
self.x = inch(self.x)
if self.y is not None:
self.y = inch(self.y)
def to_metric(self):
if self.x is not None:
self.x = metric(self.x)
if self.y is not None:
self.y = metric(self.y)
def offset(self, x_offset=0, y_offset=0):
if self.x is not None:
self.x += x_offset
if self.y is not None:
self.y += y_offset
def __str__(self):
coord_str = ''
if self.x is not None:
coord_str += 'X: %g ' % self.x
if self.y is not None:
coord_str += 'Y: %g ' % self.y
return '<Coordinate Statement: %s>' % coord_str
class RepeatHoleStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line, settings):
match = re.compile(r'R(?P<rcount>[0-9]*)X?(?P<xdelta>[+\-]?\d*\.?\d*)?Y?'
'(?P<ydelta>[+\-]?\d*\.?\d*)?').match(line)
stmt = match.groupdict()
count = int(stmt['rcount'])
xdelta = (parse_gerber_value(stmt['xdelta'], settings.format,
settings.zero_suppression)
if stmt['xdelta'] is not '' else None)
ydelta = (parse_gerber_value(stmt['ydelta'], settings.format,
settings.zero_suppression)
if stmt['ydelta'] is not '' else None)
return cls(count, xdelta, ydelta)
def __init__(self, count, xdelta=0.0, ydelta=0.0):
self.count = count
self.xdelta = xdelta
self.ydelta = ydelta
def to_excellon(self, settings):
stmt = 'R%d' % self.count
if self.xdelta is not None and self.xdelta != 0.0:
stmt += 'X%s' % write_gerber_value(self.xdelta, settings.format,
settings.zero_suppression)
if self.ydelta is not None and self.ydelta != 0.0:
stmt += 'Y%s' % write_gerber_value(self.ydelta, settings.format,
settings.zero_suppression)
return stmt
def to_inch(self):
if self.xdelta is not None:
self.xdelta = inch(self.xdelta)
if self.ydelta is not None:
self.ydelta = inch(self.ydelta)
def to_metric(self):
if self.xdelta is not None:
self.xdelta = metric(self.xdelta)
if self.ydelta is not None:
self.ydelta = metric(self.ydelta)
def __str__(self):
return '<Repeat Hole: %d times, offset X: %g Y: %g>' % (
self.count,
self.xdelta if self.xdelta is not None else 0,
self.ydelta if self.ydelta is not None else 0)
class CommentStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
return cls(line.lstrip(';'))
def __init__(self, comment):
self.comment = comment
def to_excellon(self, settings=None):
return ';%s' % self.comment
class HeaderBeginStmt(ExcellonStatement):
def __init__(self):
pass
def to_excellon(self, settings=None):
return 'M48'
class HeaderEndStmt(ExcellonStatement):
def __init__(self):
pass
def to_excellon(self, settings=None):
return 'M95'
class RewindStopStmt(ExcellonStatement):
def __init__(self):
pass
def to_excellon(self, settings=None):
return '%'
class EndOfProgramStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line, settings):
match = re.compile(r'M30X?(?P<x>\d*\.?\d*)?Y?'
'(?P<y>\d*\.?\d*)?').match(line)
stmt = match.groupdict()
x = (parse_gerber_value(stmt['x'], settings.format,
settings.zero_suppression)
if stmt['x'] is not '' else None)
y = (parse_gerber_value(stmt['y'], settings.format,
settings.zero_suppression)
if stmt['y'] is not '' else None)
return cls(x, y)
def __init__(self, x=None, y=None):
self.x = x
self.y = y
def to_excellon(self, settings=None):
stmt = 'M30'
if self.x is not None:
stmt += 'X%s' % write_gerber_value(self.x)
if self.y is not None:
stmt += 'Y%s' % write_gerber_value(self.y)
return stmt
def to_inch(self):
if self.x is not None:
self.x = inch(self.x)
if self.y is not None:
self.y = inch(self.y)
def to_metric(self):
if self.x is not None:
self.x = metric(self.x)
if self.y is not None:
self.y = metric(self.y)
def offset(self, x_offset=0, y_offset=0):
if self.x is not None:
self.x += x_offset
if self.y is not None:
self.y += y_offset
class UnitStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
units = 'inch' if 'INCH' in line else 'metric'
zeros = 'leading' if 'LZ' in line else 'trailing'
return cls(units, zeros)
def __init__(self, units='inch', zeros='leading'):
self.units = units.lower()
self.zeros = zeros
def to_excellon(self, settings=None):
stmt = '%s,%s' % ('INCH' if self.units == 'inch' else 'METRIC',
'LZ' if self.zeros == 'leading'
else 'TZ')
return stmt
def to_inch(self):
self.units = 'inch'
def to_metric(self):
self.units = 'metric'
class IncrementalModeStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
return cls('off') if 'OFF' in line else cls('on')
def __init__(self, mode='off'):
if mode.lower() not in ['on', 'off']:
raise ValueError('Mode may be "on" or "off"')
self.mode = mode
def to_excellon(self, settings=None):
return 'ICI,%s' % ('OFF' if self.mode == 'off' else 'ON')
class VersionStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
version = int(line.split(',')[1])
return cls(version)
def __init__(self, version=1):
version = int(version)
if version not in [1, 2]:
raise ValueError('Valid versions are 1 or 2')
self.version = version
def to_excellon(self, settings=None):
return 'VER,%d' % self.version
class FormatStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
fmt = int(line.split(',')[1])
return cls(fmt)
def __init__(self, format=1):
format = int(format)
if format not in [1, 2]:
raise ValueError('Valid formats are 1 or 2')
self.format = format
def to_excellon(self, settings=None):
return 'FMAT,%d' % self.format
class LinkToolStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
linked = [int(tool) for tool in line.split('/')]
return cls(linked)
def __init__(self, linked_tools):
self.linked_tools = [int(x) for x in linked_tools]
def to_excellon(self, settings=None):
return '/'.join([str(x) for x in self.linked_tools])
class MeasuringModeStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
if not ('M71' in line or 'M72' in line):
raise ValueError('Not a measuring mode statement')
return cls('inch') if 'M72' in line else cls('metric')
def __init__(self, units='inch'):
units = units.lower()
if units not in ['inch', 'metric']:
raise ValueError('units must be "inch" or "metric"')
self.units = units
def to_excellon(self, settings=None):
return 'M72' if self.units == 'inch' else 'M71'
def to_inch(self):
self.units = 'inch'
def to_metric(self):
self.units = 'metric'
class RouteModeStmt(ExcellonStatement):
def __init__(self):
pass
def to_excellon(self, settings=None):
return 'G00'
class DrillModeStmt(ExcellonStatement):
def __init__(self):
pass
def to_excellon(self, settings=None):
return 'G05'
class AbsoluteModeStmt(ExcellonStatement):
def __init__(self):
pass
def to_excellon(self, settings=None):
return 'G90'
class UnknownStmt(ExcellonStatement):
@classmethod
def from_excellon(cls, line):
return cls(line)
def __init__(self, stmt):
self.stmt = stmt
def to_excellon(self, settings=None):
return self.stmt
def __str__(self):
return "<Unknown Statement: %s>" % self.stmt
def pairwise(iterator):
""" Iterate over list taking two elements at a time.
e.g. [1, 2, 3, 4, 5, 6] ==> [(1, 2), (3, 4), (5, 6)]
"""
itr = iter(iterator)
while True:
yield tuple([next(itr) for i in range(2)])
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