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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright 2019 Hiroshi Murayama <opiopan@gmail.com>
import operator
import gerber.excellon
from gerber.excellon import ExcellonParser, detect_excellon_format, ExcellonFile, DrillHit, DrillSlot
from gerber.excellon_statements import ExcellonStatement, UnitStmt, CoordinateStmt, UnknownStmt, \
SlotStmt, DrillModeStmt, RouteModeStmt, LinearModeStmt, \
ToolSelectionStmt, ZAxisRoutPositionStmt, \
RetractWithClampingStmt, RetractWithoutClampingStmt, \
EndOfProgramStmt
from gerber.cam import FileSettings
from gerber.utils import inch, metric, write_gerber_value, parse_gerber_value
from gerberex.utility import rotate
def loads(data, filename=None, settings=None, tools=None, format=None):
if not settings:
settings = FileSettings(**detect_excellon_format(data))
if format:
settings.format = format
gerber.excellon.CoordinateStmt = CoordinateStmtEx
gerber.excellon.UnitStmt = UnitStmtEx
file = ExcellonParser(settings, tools).parse_raw(data, filename)
return ExcellonFileEx.from_file(file)
def write_excellon_header(file, settings, tools):
file.write('M48\nFMAT,2\nICI,OFF\n%s\n' %
UnitStmtEx(settings.units, settings.zeros, settings.format).to_excellon(settings))
for tool in tools:
file.write(tool.to_excellon(settings) + '\n')
file.write('%%\nG90\n%s\n' % ('M72' if settings.units == 'inch' else 'M71'))
class ExcellonFileEx(ExcellonFile):
@classmethod
def from_file(cls, file):
def correct_statements():
for stmt in file.statements:
if isinstance(stmt, UnknownStmt):
line = stmt.stmt.strip()
if line[:3] == 'G02':
yield CircularCWModeStmt()
if len(line) > 3:
yield CoordinateStmtEx.from_excellon(line[3:], file.settings)
elif line[:3] == 'G03':
yield CircularCCWModeStmt()
if len(line) > 3:
yield CoordinateStmtEx.from_excellon(line[3:], file.settings)
elif line[0] == 'X' or line[0] == 'Y' or line[0] == 'A' or line[0] == 'I':
yield CoordinateStmtEx.from_excellon(line, file.settings)
else:
yield stmt
else:
yield stmt
def generate_hits(statements):
class CoordinateCtx:
def __init__(self, notation):
self.notation = notation
self.x = 0.
self.y = 0.
self.radius = None
self.center_offset = None
def update(self, x=None, y=None, radius=None, center_offset=None):
if self.notation == 'absolute':
if x is not None:
self.x = x
if y is not None:
self.y = y
else:
if x is not None:
self.x += x
if y is not None:
self.y += y
if radius is not None:
self.radius = radius
if center_offset is not None:
self.center_offset = center_offset
def node(self, mode, center_offset):
radius, offset = None, None
if mode == DrillRout.MODE_CIRCULER_CW or mode == DrillRout.MODE_CIRCULER_CCW:
if center_offset is None:
radius = self.radius
offset = self.center_offset
else:
radius = None
offset = center_offset
return DrillRout.Node(mode, self.x, self.y, radius, offset)
STAT_DRILL = 0
STAT_ROUT_UP = 1
STAT_ROUT_DOWN = 2
status = STAT_DRILL
current_tool = None
rout_mode = None
coordinate_ctx = CoordinateCtx(file.notation)
rout_nodes = []
last_position = (0., 0.)
last_radius = None
last_center_offset = None
def make_rout(status, nodes):
if status != STAT_ROUT_DOWN or len(nodes) == 0 or current_tool is None:
return None
return DrillRout(current_tool, nodes)
for stmt in statements:
if isinstance(stmt, ToolSelectionStmt):
current_tool = file.tools[stmt.tool]
elif isinstance(stmt, DrillModeStmt):
rout = make_rout(status, rout_statements)
rout_statements = []
if rout is not None:
yield rout
status = STAT_DRILL
rout_mode = None
elif isinstance(stmt, RouteModeStmt):
if status == STAT_DRILL:
status = STAT_ROUT_UP
rout_mode = DrillRout.MODE_ROUT
else:
rout_mode = DrillRout.MODE_LINEAR
elif isinstance(stmt, LinearModeStmt):
rout_mode = DrillRout.MODE_LINEAR
elif isinstance(stmt, CircularCWModeStmt):
rout_mode = DrillRout.MODE_CIRCULER_CW
elif isinstance(stmt, CircularCCWModeStmt):
rout_mode = DrillRout.MODE_CIRCULER_CCW
elif isinstance(stmt, ZAxisRoutPositionStmt) and status == STAT_ROUT_UP:
status = STAT_ROUT_DOWN
elif isinstance(stmt, RetractWithClampingStmt) or isinstance(stmt, RetractWithoutClampingStmt):
rout = make_rout(status, rout_nodes)
rout_statements = []
if rout is not None:
yield rout
status = STAT_ROUT_UP
elif isinstance(stmt, SlotStmt):
coordinate_ctx.update(stmt.x_start, stmt.y_start)
x_start = coordinate_ctx.x
y_start = coordinate_ctx.y
coordinate_ctx.update(stmt.x_end, stmt.y_end)
x_end = coordinate_ctx.x
y_end = coordinate_ctx.y
yield DrillSlotEx(current_tool, (x_start, y_start),
(x_end, y_end), DrillSlotEx.TYPE_G85)
elif isinstance(stmt, CoordinateStmtEx):
center_offset = (stmt.i, stmt.j) \
if stmt.i is not None and stmt.j is not None else None
coordinate_ctx.update(stmt.x, stmt.y, stmt.radius, center_offset)
if stmt.x is not None or stmt.y is not None:
if status == STAT_DRILL:
yield DrillHitEx(current_tool, (coordinate_ctx.x, coordinate_ctx.y))
elif status == STAT_ROUT_UP:
rout_nodes = [coordinate_ctx.node(DrillRout.MODE_ROUT, None)]
elif status == STAT_ROUT_DOWN:
rout_nodes.append(coordinate_ctx.node(rout_mode, center_offset))
statements = [s for s in correct_statements()]
hits = [h for h in generate_hits(statements)]
return cls(statements, file.tools, hits, file.settings, file.filename)
@property
def primitives(self):
return []
def __init__(self, statements, tools, hits, settings, filename=None):
super(ExcellonFileEx, self).__init__(statements, tools, hits, settings, filename)
def rotate(self, angle, center=(0,0)):
if angle % 360 == 0:
return
for hit in self.hits:
hit.rotate(angle, center)
def to_inch(self):
if self.units == 'metric':
for stmt in self.statements:
stmt.to_inch()
for tool in self.tools:
self.tools[tool].to_inch()
for hit in self.hits:
hit.to_inch()
self.units = 'inch'
def to_metric(self):
if self.units == 'inch':
for stmt in self.statements:
stmt.to_metric()
for tool in self.tools:
self.tools[tool].to_metric()
for hit in self.hits:
hit.to_metric()
self.units = 'metric'
def write(self, filename=None):
self.notation = 'absolute'
self.zeros = 'trailing'
filename = filename if filename is not None else self.filename
with open(filename, 'w') as f:
write_excellon_header(f, self.settings, [self.tools[t] for t in self.tools])
for tool in iter(self.tools.values()):
f.write(ToolSelectionStmt(
tool.number).to_excellon(self.settings) + '\n')
for hit in self.hits:
if hit.tool.number == tool.number:
f.write(hit.to_excellon(self.settings) + '\n')
f.write(EndOfProgramStmt().to_excellon() + '\n')
class DrillHitEx(DrillHit):
def to_inch(self):
self.position = tuple(map(inch, self.position))
def to_metric(self):
self.position = tuple(map(metric, self.position))
def rotate(self, angle, center=(0, 0)):
self.position = rotate(*self.position, angle, center)
def to_excellon(self, settings):
return CoordinateStmtEx(*self.position).to_excellon(settings)
class DrillSlotEx(DrillSlot):
def to_inch(self):
self.start = tuple(map(inch, self.start))
self.end = tuple(map(inch, self.end))
def to_metric(self):
self.start = tuple(map(metric, self.start))
self.end = tuple(map(metric, self.end))
def rotate(self, angle, center=(0,0)):
self.start = rotate(*self.start, angle, center)
self.end = rotate(*self.end, angle, center)
def to_excellon(self, settings):
return SlotStmt(*self.start, *self.end).to_excellon(settings)
class DrillRout(object):
MODE_ROUT = 'G00'
MODE_LINEAR = 'G01'
MODE_CIRCULER_CW = 'G02'
MODE_CIRCULER_CCW = 'G03'
class Node(object):
def __init__(self, mode, x, y, radius=None, center_offset=None):
self.mode = mode
self.position = (x, y)
self.radius = radius
self.center_offset = center_offset
def to_excellon(self, settings):
center_offset = self.center_offset \
if self.center_offset is not None else (None, None)
return self.mode + CoordinateStmtEx(
*self.position, self.radius, *center_offset).to_excellon(settings)
def __init__(self, tool, nodes):
self.tool = tool
self.nodes = nodes
self.nodes[0].mode = self.MODE_ROUT
def to_excellon(self, settings):
excellon = self.nodes[0].to_excellon(settings) + '\nM15\n'
for node in self.nodes[1:]:
excellon += node.to_excellon(settings) + '\n'
excellon += 'M16\nG05'
return excellon
def to_inch(self):
for node in self.nodes:
node.position = tuple(map(inch, node.position))
node.radius = inch(
node.radius) if node.radius is not None else None
if node.center_offset is not None:
node.center_offset = tuple(map(inch, node.center_offset))
def to_metric(self):
for node in self.nodes:
node.position = tuple(map(metric, node.position))
node.radius = metric(
node.radius) if node.radius is not None else None
if node.center_offset is not None:
node.center_offset = tuple(map(metric, node.center_offset))
def offset(self, x_offset=0, y_offset=0):
for node in self.nodes:
node.position = tuple(map(operator.add, node.position, (x_offset, y_offset)))
def rotate(self, angle, center=(0, 0)):
for node in self.nodes:
node.position = rotate(*node.position, angle, center)
if node.center_offset is not None:
node.center_offset = rotate(*node.center_offset, angle, (0., 0.))
class UnitStmtEx(UnitStmt):
@classmethod
def from_statement(cls, stmt):
return cls(units=stmt.units, zeros=stmt.zeros, format=stmt.format, id=stmt.id)
def __init__(self, units='inch', zeros='leading', format=None, **kwargs):
super(UnitStmtEx, self).__init__(units, zeros, format, **kwargs)
def to_excellon(self, settings=None):
format = settings.format if settings else self.format
stmt = None
if self.units == 'inch' and format == (2, 4):
stmt = 'INCH,%s' % ('LZ' if self.zeros == 'leading' else 'TZ')
else:
stmt = '%s,%s,%s.%s' % ('INCH' if self.units == 'inch' else 'METRIC',
'LZ' if self.zeros == 'leading' else 'TZ',
'0' * format[0], '0' * format[1])
return stmt
class CircularCWModeStmt(ExcellonStatement):
def __init__(self, **kwargs):
super(CircularCWModeStmt, self).__init__(**kwargs)
def to_excellon(self, settings=None):
return 'G02'
class CircularCCWModeStmt(ExcellonStatement):
def __init__(self, **kwargs):
super(CircularCCWModeStmt, self).__init__(**kwargs)
def to_excellon(self, settings=None):
return 'G02'
class CoordinateStmtEx(CoordinateStmt):
@classmethod
def from_statement(cls, stmt):
newStmt = cls(x=stmt.x, y=stmt.y)
newStmt.radius = stmt.radius if isinstance(stmt, CoordinateStmtEx) else None
return newStmt
@classmethod
def from_excellon(cls, line, settings, **kwargs):
stmt = None
if 'A' in line:
parts = line.split('A')
stmt = cls.from_statement(CoordinateStmt.from_excellon(parts[0], settings)) \
if parts[0] != '' else cls()
stmt.radius = parse_gerber_value(
parts[1], settings.format, settings.zero_suppression)
elif 'I' in line:
jparts = line.split('J')
iparts = jparts[0].split('I')
stmt = cls.from_statement(CoordinateStmt.from_excellon(iparts[0], settings)) \
if iparts[0] != '' else cls()
stmt.i = parse_gerber_value(
iparts[1], settings.format, settings.zero_suppression)
stmt.j = parse_gerber_value(
jparts[1], settings.format, settings.zero_suppression)
else:
stmt = cls.from_statement(CoordinateStmt.from_excellon(line, settings))
return stmt
def __init__(self, x=None, y=None, radius=None, i=None, j=None, **kwargs):
super(CoordinateStmtEx, self).__init__(x, y, **kwargs)
self.radius = radius
self.i = i
self.j = j
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)
if self.radius is not None:
stmt += 'A%s' % write_gerber_value(self.radius, settings.format,
settings.zero_suppression)
elif self.i is not None and self.j is not None:
stmt += 'I%sJ%s' % (write_gerber_value(self.i, settings.format,
settings.zero_suppression),
write_gerber_value(self.j, settings.format,
settings.zero_suppression))
return stmt
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
if self.radius is not None:
coord_str += 'A: %g ' % self.radius
if self.i is not None:
coord_str += 'I: %g ' % self.i
if self.j is not None:
coord_str += 'J: %g ' % self.j
return '<Coordinate Statement: %s>' % (coord_str)
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