#!/usr/bin/env python
# -*- coding: utf-8 -*-
import re
import json
import copy
import svgwrite
def red(s):
return '\033[1;31m{0}\033[0;m'.format(s)
class Statement(object):
def __init__(self, type):
self.type = type
def __str__(self):
s = "<{0} ".format(self.__class__.__name__)
for key, value in self.__dict__.items():
s += "{0}={1} ".format(key, value)
s = s.rstrip() + ">"
return s
class ParamStmt(Statement):
def __init__(self, param):
Statement.__init__(self, "PARAM")
self.param = param
class FSParamStmt(ParamStmt):
def __init__(self, param, zero, notation, x, y):
ParamStmt.__init__(self, param)
self.zero = zero
self.notation = notation
self.x = x
self.y = y
class MOParamStmt(ParamStmt):
def __init__(self, param, mo):
ParamStmt.__init__(self, param)
self.mo = mo
class IPParamStmt(ParamStmt):
def __init__(self, param, ip):
ParamStmt.__init__(self, param)
self.ip = ip
class OFParamStmt(ParamStmt):
def __init__(self, param, a, b):
ParamStmt.__init__(self, param)
self.a = a
self.b = b
class LPParamStmt(ParamStmt):
def __init__(self, param, lp):
ParamStmt.__init__(self, param)
self.lp = lp
class ADParamStmt(ParamStmt):
def __init__(self, param, d, shape, modifiers):
ParamStmt.__init__(self, param)
self.d = d
self.shape = shape
self.modifiers = [[x for x in m.split("X")] for m in modifiers.split(",")]
class AMParamStmt(ParamStmt):
def __init__(self, param, name, macro):
ParamStmt.__init__(self, param)
self.name = name
self.macro = macro
class INParamStmt(ParamStmt):
def __init__(self, param, name):
ParamStmt.__init__(self, param)
self.name = name
class LNParamStmt(ParamStmt):
def __init__(self, param, name):
ParamStmt.__init__(self, param)
self.name = name
class CoordStmt(Statement):
def __init__(self, function, x, y, i, j, op):
Statement.__init__(self, "COORD")
self.function = function
self.x = x
self.y = y
self.i = i
self.j = j
self.op = op
class ApertureStmt(Statement):
def __init__(self, d):
Statement.__init__(self, "APERTURE")
self.d = int(d)
class CommentStmt(Statement):
def __init__(self, comment):
Statement.__init__(self, "COMMENT")
self.comment = comment
class EofStmt(Statement):
def __init__(self):
Statement.__init__(self, "EOF")
class UnknownStmt(Statement):
def __init__(self, line):
Statement.__init__(self, "UNKNOWN")
self.line = line
IMAGE_POLARITY_POSITIVE = 1
IMAGE_POLARITY_NEGATIVE = 2
LEVEL_POLARITY_DARK = 1
LEVEL_POLARITY_CLEAR = 2
NOTATION_ABSOLUTE = 1
NOTATION_INCREMENTAL = 2
UNIT_INCH = 1
UNIT_MM = 2
INTERPOLATION_LINEAR = 1
INTERPOLATION_ARC = 2
class GerberCoordFormat(object):
def __init__(self, zeroes, x, y):
self.omit_leading_zeroes = True if zeroes == "L" else False
self.omit_trailing_zeroes = True if zeroes == "T" else False
self.x_int_digits, self.x_dec_digits = [int(d) for d in x]
self.y_int_digits, self.y_dec_digits = [int(d) for d in y]
def resolve(self, x, y):
new_x = x
new_y = y
if new_x is not None:
missing_zeroes = (self.x_int_digits + self.x_dec_digits) - len(new_x)
if missing_zeroes and self.omit_leading_zeroes:
new_x = (missing_zeroes * "0") + new_x
elif missing_zeroes and self.omit_trailing_zeroes:
new_x += missing_zeroes * "0"
new_x = float("{0}.{1}".format(new_x[:self.x_int_digits], new_x[self.x_int_digits:]))
if new_y is not None:
missing_zeroes = (self.y_int_digits + self.y_dec_digits) - len(new_y)
if missing_zeroes and self.omit_leading_zeroes:
new_y = (missing_zeroes * "0") + new_y
elif missing_zeroes and self.omit_trailing_zeroes:
new_y += missing_zeroes * "0"
new_y = float("{0}.{1}".format(new_y[:self.y_int_digits], new_y[self.y_int_digits:]))
return new_x, new_y
class GerberContext(object):
coord_format = None
coord_notation = NOTATION_ABSOLUTE
coord_unit = None
x = 0
y = 0
aperture = 0
interpolation = INTERPOLATION_LINEAR
image_polarity = IMAGE_POLARITY_POSITIVE
level_polarity = LEVEL_POLARITY_DARK
def __init__(self):
pass
def set_coord_format(self, zeroes, x, y):
self.coord_format = GerberCoordFormat(zeroes, x, y)
def set_coord_notation(self, notation):
self.coord_notation = NOTATION_ABSOLUTE if notation == "A" else NOTATION_INCREMENTAL
def set_coord_unit(self, unit):
self.coord_unit = UNIT_INCH if unit == "IN" else UNIT_MM
def set_image_polarity(self, polarity):
self.image_polarity = IMAGE_POLARITY_POSITIVE if polarity == "POS" else IMAGE_POLARITY_NEGATIVE
def set_level_polarity(self, polarity):
self.level_polarity = LEVEL_POLARITY_DARK if polarity == "D" else LEVEL_POLARITY_CLEAR
def set_interpolation(self, interpolation):
self.interpolation = INTERPOLATION_LINEAR if interpolation in ("G01", "G1") else INTERPOLATION_ARC
def set_aperture(self, d):
self.aperture = d
def resolve(self, x, y):
x, y = self.coord_format.resolve(x, y)
return x or self.x, y or self.y
def define_aperture(self, d, shape, modifiers):
pass
def move(self, x, y, resolve=True):
if resolve:
self.x, self.y = self.resolve(x, y)
else:
self.x, self.y = x, y
def stroke(self, x, y):
pass
def line(self, x, y):
pass
def arc(self, x, y):
pass
def flash(self, x, y):
pass
class Shape(object):
pass
class Circle(Shape):
def __init__(self, diameter=0):
self.diameter = diameter
def draw(self, ctx, x, y):
return ctx.dwg.line(start=(ctx.x*300, ctx.y*300), end=(x*300, y*300), stroke="rgb(184, 115, 51)", stroke_width=2,
stroke_linecap="round")
def flash(self, ctx, x, y):
return ctx.dwg.circle(center=(x*300, y*300), r=300*(self.diameter/2.0), fill="rgb(184, 115, 51)")
class Rect(Shape):
def __init__(self, size=0):
self.size = size
def draw(self, ctx, x, y):
return ctx.dwg.line(start=(ctx.x*300, ctx.y*300), end=(x*300, y*300), stroke="rgb(184, 115, 51)", stroke_width=2,
stroke_linecap="butt")
def flash(self, ctx, x, y):
return ctx.dwg.rect(insert=(300*x, 300*y), size=(300*float(self.size[0]), 300*float(self.size[1])), fill="rgb(184, 115, 51)")
class SvgContext(GerberContext):
def __init__(self):
GerberContext.__init__(self)
self.apertures = {}
self.dwg = svgwrite.Drawing()
self.dwg.add(self.dwg.rect(insert=(0, 0), size=(2000, 2000), fill="black"))
def define_aperture(self, d, shape, modifiers):
aperture = None
if shape == "C":
aperture = Circle(diameter=float(modifiers[0][0]))
elif shape == "R":
aperture = Rect(size=modifiers[0][0:2])
self.apertures[d] = aperture
def stroke(self, x, y):
super(SvgContext, self).stroke(x, y)
if self.interpolation == INTERPOLATION_LINEAR:
self.line(x, y)
elif self.interpolation == INTERPOLATION_ARC:
self.arc(x, y)
def line(self, x, y):
super(SvgContext, self).line(x, y)
x, y = self.resolve(x, y)
ap = self.apertures.get(str(self.aperture), None)
if ap is None:
return
self.dwg.add(ap.draw(self, x, y))
self.move(x, y, resolve=False)
def arc(self, x, y):
super(SvgContext, self).arc(x, y)
def flash(self, x, y):
super(SvgContext, self).flash(x, y)
x, y = self.resolve(x, y)
ap = self.apertures.get(str(self.aperture), None)
if ap is None:
return
self.dwg.add(ap.flash(self, x, y))
self.move(x, y, resolve=False)
def dump(self):
self.dwg.saveas("teste.svg")
class Gerber(object):
NUMBER = r"[\+-]?\d+"
DECIMAL = r"[\+-]?\d+([.]?\d+)?"
STRING = r"[a-zA-Z0-9_+\-/!?<>”’(){}.\|&@# :]+"
NAME = "[a-zA-Z_$][a-zA-Z_$0-9]+"
FUNCTION = r"G\d{2}"
COORD_OP = r"D[0]?[123]"
FS = r"(?PFS)(?P(L|T))(?P(A|I))X(?P[0-7][0-7])Y(?P[0-7][0-7])"
MO = r"(?PMO)(?P(MM|IN))"
IP = r"(?PIP)(?P(POS|NEG))"
LP = r"(?PLP)(?P(D|C))"
AD_CIRCLE = r"(?PAD)D(?P\d+)(?PC)[,](?P[^,]*)"
AD_RECT = r"(?PAD)D(?P\d+)(?PR)[,](?P[^,]*)"
AD_OBROUND = r"(?PAD)D(?P\d+)(?PO)[,](?P[^,]*)"
AD_POLY = r"(?PAD)D(?P\d+)(?PP)[,](?P[^,]*)"
AD_MACRO = r"(?PAD)D(?P\d+)+(?P{name})[,](?P[^,]*)".format(name=NAME)
AM = r"(?PAM)(?P{name})\*(?P.*)".format(name=NAME)
# begin deprecated
OF = r"(?POF)(A(?P{decimal}))?(B(?P{decimal}))?".format(decimal=DECIMAL)
IN = r"(?PIN)(?P.*)"
LN = r"(?PLN)(?P.*)"
# end deprecated
PARAMS = (FS, MO, IP, LP, AD_CIRCLE, AD_RECT, AD_OBROUND, AD_MACRO, AD_POLY, AM, OF, IN, LN)
PARAM_STMT = [re.compile(r"%{0}\*%".format(p)) for p in PARAMS]
COORD_STMT = re.compile((
r"(?P{function})?"
r"(X(?P{number}))?(Y(?P{number}))?"
r"(I(?P{number}))?(J(?P{number}))?"
r"(?P{op})?\*".format(number=NUMBER, function=FUNCTION, op=COORD_OP)))
APERTURE_STMT = re.compile(r"(G54)?D(?P\d+)\*")
COMMENT_STMT = re.compile(r"G04(?P{string})(\*)?".format(string=STRING))
EOF_STMT = re.compile(r"(?PM02)\*")
def __init__(self):
self.statements = []
self.ctx = SvgContext()
def parse(self, filename):
fp = open(filename, "r")
data = fp.readlines()
for stmt in self._parse(data):
self.statements.append(stmt)
self._evaluate(stmt)
def dump_json(self):
stmts = {"statements": [stmt.__dict__ for stmt in self.statements]}
return json.dumps(stmts)
def dump_str(self):
s = ""
for stmt in self.statements:
s += str(stmt) + "\n"
return s
def dump(self):
self.ctx.dump()
def _parse(self, data):
multiline = None
for i, line in enumerate(data):
# remove EOL
if multiline:
line = multiline + line.strip()
else:
line = line.strip()
# skip empty lines
if not len(line):
continue
# deal with multi-line parameters
if line.startswith("%") and not line.endswith("%"):
multiline = line
continue
else:
multiline = None
# coord
coords = self._match_many(self.COORD_STMT, line)
if coords:
for coord in coords:
yield CoordStmt(**coord)
continue
# aperture selection
aperture = self._match_one(self.APERTURE_STMT, line)
if aperture:
yield ApertureStmt(**aperture)
continue
# comment
comment = self._match_one(self.COMMENT_STMT, line)
if comment:
yield CommentStmt(comment["comment"])
continue
# parameter
param = self._match_one_from_many(self.PARAM_STMT, line)
if param:
if param["param"] == "FS":
yield FSParamStmt(**param)
elif param["param"] == "MO":
yield MOParamStmt(**param)
elif param["param"] == "IP":
yield IPParamStmt(**param)
elif param["param"] == "LP":
yield LPParamStmt(**param)
elif param["param"] == "AD":
yield ADParamStmt(**param)
elif param["param"] == "AM":
yield AMParamStmt(**param)
elif param["param"] == "OF":
yield OFParamStmt(**param)
elif param["param"] == "IN":
yield INParamStmt(**param)
elif param["param"] == "LN":
yield LNParamStmt(**param)
else:
yield UnknownStmt(line)
continue
# eof
eof = self._match_one(self.EOF_STMT, line)
if eof:
yield EofStmt()
continue
if False:
print self.COORD_STMT.pattern
print self.APERTURE_STMT.pattern
print self.COMMENT_STMT.pattern
print self.EOF_STMT.pattern
for i in self.PARAM_STMT:
print i.pattern
yield UnknownStmt(line)
def _match_one(self, expr, data):
match = expr.match(data)
if match is None:
return {}
else:
return match.groupdict()
def _match_one_from_many(self, exprs, data):
for expr in exprs:
match = expr.match(data)
if match:
return match.groupdict()
return {}
def _match_many(self, expr, data):
result = []
pos = 0
while True:
match = expr.match(data, pos)
if match:
result.append(match.groupdict())
pos = match.endpos
else:
break
return result
def _evaluate(self, stmt):
if isinstance(stmt, (CommentStmt, UnknownStmt, EofStmt)):
return
elif isinstance(stmt, ParamStmt):
self._evaluate_param(stmt)
elif isinstance(stmt, CoordStmt):
self._evaluate_coord(stmt)
elif isinstance(stmt, ApertureStmt):
self._evaluate_aperture(stmt)
else:
raise Exception("Invalid statement to evaluate")
def _evaluate_param(self, stmt):
if stmt.param == "FS":
self.ctx.set_coord_format(stmt.zero, stmt.x, stmt.y)
self.ctx.set_coord_notation(stmt.notation)
elif stmt.param == "MO:":
self.ctx.set_coord_unit(stmt.mo)
elif stmt.param == "IP:":
self.ctx.set_image_polarity(stmt.ip)
elif stmt.param == "LP:":
self.ctx.set_level_polarity(stmt.lp)
elif stmt.param == "AD":
self.ctx.define_aperture(stmt.d, stmt.shape, stmt.modifiers)
def _evaluate_coord(self, stmt):
if stmt.function in ("G01", "G1", "G02", "G2", "G03", "G3"):
self.ctx.set_interpolation(stmt.function)
if stmt.op == "D01":
self.ctx.stroke(stmt.x, stmt.y)
elif stmt.op == "D02":
self.ctx.move(stmt.x, stmt.y)
elif stmt.op == "D03":
self.ctx.flash(stmt.x, stmt.y)
def _evaluate_aperture(self, stmt):
self.ctx.set_aperture(stmt.d)
if __name__ == "__main__":
import sys
for f in sys.argv[1:]:
g = Gerber()
g.parse(f)
g.dump()