FreeCAD / src /Mod /CAM /Path /Post /scripts /linuxcnc_legacy_post.py

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	# SPDX-License-Identifier: LGPL-2.1-or-later

	# ***************************************************************************
	# * Copyright (c) 2014 sliptonic <shopinthewoods@gmail.com> *
	# * *
	# * This file is part of the FreeCAD CAx development system. *
	# * *
	# * This program is free software; you can redistribute it and/or modify *
	# * it under the terms of the GNU Lesser General Public License (LGPL) *
	# * as published by the Free Software Foundation; either version 2 of *
	# * the License, or (at your option) any later version. *
	# * for detail see the LICENCE text file. *
	# * *
	# * FreeCAD is distributed in the hope that it will be useful, *
	# * but WITHOUT ANY WARRANTY; without even the implied warranty of *
	# * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
	# * GNU Lesser General Public License for more details. *
	# * *
	# * You should have received a copy of the GNU Library General Public *
	# * License along with FreeCAD; if not, write to the Free Software *
	# * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 *
	# * USA *
	# * *
	# ***************************************************************************

	import FreeCAD
	from FreeCAD import Units
	import Path
	import argparse
	import datetime
	import shlex
	import Path.Base.Util as PathUtil
	import Path.Post.Utils as PostUtils
	import PathScripts.PathUtils as PathUtils
	from builtins import open as pyopen

	TOOLTIP = """
	This is a postprocessor file for the Path workbench. It is used to
	take a pseudo-G-code fragment outputted by a Path object, and output
	real G-code suitable for a linuxcnc 3 axis mill. This postprocessor, once placed
	in the appropriate PathScripts folder, can be used directly from inside
	FreeCAD, via the GUI importer or via python scripts with:

	import linuxcnc_legacy_post
	linuxcnc_legacy_post.export(object,"/path/to/file.ncc","")
	"""

	now = datetime.datetime.now()

	parser = argparse.ArgumentParser(prog="linuxcnc", add_help=False)
	parser.add_argument("--no-header", action="store_true", help="suppress header output")
	parser.add_argument("--no-comments", action="store_true", help="suppress comment output")
	parser.add_argument("--line-numbers", action="store_true", help="prefix with line numbers")
	parser.add_argument(
	"--no-show-editor",
	action="store_true",
	help="don't pop up editor before writing output",
	)
	parser.add_argument("--precision", default="3", help="number of digits of precision, default=3")
	parser.add_argument(
	"--preamble",
	help='set commands to be issued before the first command, default="G17 G54 G40 G49 G80 G90\\n"',
	)
	parser.add_argument(
	"--postamble",
	help='set commands to be issued after the last command, default="M05\\nG17 G54 G90 G80 G40\\nM2\\n"',
	)
	parser.add_argument(
	"--inches", action="store_true", help="Convert output for US imperial mode (G20)"
	)
	parser.add_argument(
	"--modal",
	action="store_true",
	help="Output the Same G-command Name USE NonModal Mode",
	)
	parser.add_argument("--axis-modal", action="store_true", help="Output the Same Axis Value Mode")
	parser.add_argument(
	"--no-tlo",
	action="store_true",
	help="suppress tool length offset (G43) following tool changes",
	)
	parser.add_argument("--rigid-tap", action="store_true", help="Enable G33.1 rigid tapping cycle")

	TOOLTIP_ARGS = parser.format_help()

	# These globals set common customization preferences
	OUTPUT_COMMENTS = True
	OUTPUT_HEADER = True
	OUTPUT_LINE_NUMBERS = False
	SHOW_EDITOR = True
	MODAL = False # if true commands are suppressed if the same as previous line.
	USE_TLO = True # if true G43 will be output following tool changes
	OUTPUT_DOUBLES = True # if false duplicate axis values are suppressed if the same as previous line.
	COMMAND_SPACE = " "
	LINENR = 100 # line number starting value

	# These globals will be reflected in the Machine configuration of the project
	UNITS = "G21" # G21 for metric, G20 for us standard
	UNIT_SPEED_FORMAT = "mm/min"
	UNIT_FORMAT = "mm"

	MACHINE_NAME = "LinuxCNC"
	CORNER_MIN = {"x": 0, "y": 0, "z": 0}
	CORNER_MAX = {"x": 500, "y": 300, "z": 300}
	PRECISION = 3

	RIGID_TAP = False

	# Preamble text will appear at the beginning of the GCODE output file.
	PREAMBLE = """G17 G54 G40 G49 G80 G90
	"""

	# Postamble text will appear following the last operation.
	POSTAMBLE = """M05
	G17 G54 G90 G80 G40
	M2
	"""

	# Pre operation text will be inserted before every operation
	PRE_OPERATION = """"""

	# Post operation text will be inserted after every operation
	POST_OPERATION = """"""

	# Tool Change commands will be inserted before a tool change
	TOOL_CHANGE = """"""


	def processArguments(argstring):
	global OUTPUT_HEADER
	global OUTPUT_COMMENTS
	global OUTPUT_LINE_NUMBERS
	global SHOW_EDITOR
	global PRECISION
	global PREAMBLE
	global POSTAMBLE
	global UNITS
	global UNIT_SPEED_FORMAT
	global UNIT_FORMAT
	global MODAL
	global USE_TLO
	global OUTPUT_DOUBLES
	global RIGID_TAP

	try:
	args = parser.parse_args(shlex.split(argstring))
	if args.no_header:
	OUTPUT_HEADER = False
	if args.no_comments:
	OUTPUT_COMMENTS = False
	if args.line_numbers:
	OUTPUT_LINE_NUMBERS = True
	if args.no_show_editor:
	SHOW_EDITOR = False
	print("Show editor = %d" % SHOW_EDITOR)
	PRECISION = args.precision
	if args.preamble is not None:
	PREAMBLE = args.preamble.replace("\\n", "\n")
	if args.postamble is not None:
	POSTAMBLE = args.postamble.replace("\\n", "\n")
	if args.inches:
	UNITS = "G20"
	UNIT_SPEED_FORMAT = "in/min"
	UNIT_FORMAT = "in"
	PRECISION = 4
	if args.modal:
	MODAL = True
	if args.no_tlo:
	USE_TLO = False
	if args.axis_modal:
	print("here")
	OUTPUT_DOUBLES = False
	if args.rigid_tap:
	RIGID_TAP = True

	except Exception:
	return False

	return True


	def export(objectslist, filename, argstring):
	if not processArguments(argstring):
	return None
	global UNITS
	global UNIT_FORMAT
	global UNIT_SPEED_FORMAT

	for obj in objectslist:
	if not hasattr(obj, "Path"):
	print(
	"the object " + obj.Name + " is not a path. Please select only path and Compounds."
	)
	return None

	print("postprocessing...")
	gcode = ""

	# write header
	if OUTPUT_HEADER:
	gcode += linenumber() + "(Exported by FreeCAD)\n"
	gcode += linenumber() + "(Post Processor: " + __name__ + ")\n"
	gcode += linenumber() + "(Output Time:" + str(now) + ")\n"

	# Write the preamble
	if OUTPUT_COMMENTS:
	gcode += linenumber() + "(begin preamble)\n"
	for line in PREAMBLE.splitlines():
	gcode += linenumber() + line + "\n"
	gcode += linenumber() + UNITS + "\n"

	for obj in objectslist:
	# Skip inactive operations
	if not PathUtil.activeForOp(obj):
	continue

	# do the pre_op
	if OUTPUT_COMMENTS:
	gcode += linenumber() + "(begin operation: %s)\n" % obj.Label
	gcode += linenumber() + "(machine units: %s)\n" % (UNIT_SPEED_FORMAT)
	for line in PRE_OPERATION.splitlines(True):
	gcode += linenumber() + line

	# get coolant mode
	coolantMode = PathUtil.coolantModeForOp(obj)

	# turn coolant on if required
	if OUTPUT_COMMENTS:
	if not coolantMode == "None":
	gcode += linenumber() + "(Coolant On:" + coolantMode + ")\n"
	if coolantMode == "Flood":
	gcode += linenumber() + "M8" + "\n"
	if coolantMode == "Mist":
	gcode += linenumber() + "M7" + "\n"

	# process the operation gcode
	gcode += parse(obj)

	# do the post_op
	if OUTPUT_COMMENTS:
	gcode += linenumber() + "(finish operation: %s)\n" % obj.Label
	for line in POST_OPERATION.splitlines(True):
	gcode += linenumber() + line

	# turn coolant off if required
	if not coolantMode == "None":
	if OUTPUT_COMMENTS:
	gcode += linenumber() + "(Coolant Off:" + coolantMode + ")\n"
	gcode += linenumber() + "M9" + "\n"

	# do the post_amble
	if OUTPUT_COMMENTS:
	gcode += "(begin postamble)\n"
	for line in POSTAMBLE.splitlines():
	gcode += linenumber() + line + "\n"

	if FreeCAD.GuiUp and SHOW_EDITOR:
	final = gcode
	if len(gcode) > 100000:
	print("Skipping editor since output is greater than 100kb")
	else:
	dia = PostUtils.GCodeEditorDialog()
	dia.editor.setPlainText(gcode)
	result = dia.exec_()
	if result:
	final = dia.editor.toPlainText()
	else:
	final = gcode

	print("done postprocessing.")

	if not filename == "-":
	gfile = pyopen(filename, "w")
	gfile.write(final)
	gfile.close()

	return final


	def linenumber():
	global LINENR
	if OUTPUT_LINE_NUMBERS is True:
	LINENR += 10
	return "N" + str(LINENR) + " "
	return ""


	def parse(pathobj):
	global PRECISION
	global MODAL
	global OUTPUT_DOUBLES
	global UNIT_FORMAT
	global UNIT_SPEED_FORMAT

	out = ""
	lastcommand = None
	precision_string = "." + str(PRECISION) + "f"
	currLocation = {} # keep track for no doubles

	# the order of parameters
	# linuxcnc doesn't want K properties on XY plane Arcs need work.
	params = [
	"X",
	"Y",
	"Z",
	"A",
	"B",
	"C",
	"I",
	"J",
	"F",
	"S",
	"T",
	"Q",
	"R",
	"L",
	"H",
	"D",
	"P",
	]
	firstmove = Path.Command("G0", {"X": -1, "Y": -1, "Z": -1, "F": 0.0})
	currLocation.update(firstmove.Parameters) # set First location Parameters

	if hasattr(pathobj, "Group"): # We have a compound or project.
	# if OUTPUT_COMMENTS:
	# out += linenumber() + "(compound: " + pathobj.Label + ")\n"
	for p in pathobj.Group:
	out += parse(p)
	return out
	else: # parsing simple path
	# groups might contain non-path things like stock.
	if not hasattr(pathobj, "Path"):
	return out

	# if OUTPUT_COMMENTS:
	# out += linenumber() + "(" + pathobj.Label + ")\n"

	# The following "for" statement was fairly recently added
	# but seems to be using the A, B, and C parameters in ways
	# that don't appear to be compatible with how the PATH code
	# uses the A, B, and C parameters. I have reverted the
	# change here until we can figure out what it going on.
	#
	# for c in PathUtils.getPathWithPlacement(pathobj).Commands:
	for c in pathobj.Path.Commands:
	outstring = []
	command = c.Name
	outstring.append(command)

	# if modal: suppress the command if it is the same as the last one
	if MODAL is True:
	if command == lastcommand:
	outstring.pop(0)

	if c.Name.startswith("(") and not OUTPUT_COMMENTS: # command is a comment
	continue

	# Check for G80, G98, G99 with rigid tapping and annotation
	if (
	command in ("G80", "G98", "G99")
	and RIGID_TAP
	and hasattr(c, "Annotations")
	and c.Annotations.get("operation") == "tapping"
	):
	continue # Skip this command

	# Handle G84/G74 tapping cycles
	if command in ("G84", "G74") and "F" in c.Parameters:
	pitch_mm = float(c.Parameters["F"])
	c.Parameters.pop("F") # Remove F from output, we'll handle it

	# Get spindle speed (from S param or last known value)
	spindle_speed = None
	if "S" in c.Parameters:
	spindle_speed = float(c.Parameters["S"])
	c.Parameters.pop("S")

	# Convert pitch to inches if needed
	if UNITS == "G20": # imperial
	pitch = pitch_mm / 25.4
	else:
	pitch = pitch_mm

	# Rigid tapping logic
	if RIGID_TAP:
	# Output initial tapping command
	outstring[0] = "G33.1"
	outstring.append("K" + format(pitch, precision_string))

	if "Z" in c.Parameters:
	outstring.append("Z" + format(float(c.Parameters["Z"]), precision_string))

	# Output the tapping line
	if len(outstring) >= 1:
	if OUTPUT_LINE_NUMBERS:
	outstring.insert(0, (linenumber()))
	for w in outstring:
	out += w + COMMAND_SPACE
	out += "\n"

	if "P" in c.Parameters:
	# Issue spindle stop
	out += linenumber() + "M5\n"
	# Issue dwell with P value
	out += linenumber() + f"G04 P{c.Parameters['P']}\n"

	# Now handle reverse out and spindle restore
	if command == "G84":
	# Reverse spindle (M4) with spindle speed
	out += linenumber() + "M4\n"
	# Repeat tapping command to reverse out, use R for Z
	reverse_z = c.Parameters.get("R")
	if reverse_z is not None:
	pos = Units.Quantity(reverse_z, FreeCAD.Units.Length)
	reverse_z = float(pos.getValueAs(UNIT_FORMAT))
	out += (
	linenumber()
	+ f"G33.1 K{format(pitch, precision_string)} Z{format(float(reverse_z), precision_string)}\n"
	)
	else:
	out += linenumber() + f"G33.1 K{format(pitch, precision_string)}\n"
	# Restore original spindle direction (M3) with spindle speed
	out += linenumber() + "M3\n"
	elif command == "G74":
	# Forward spindle (M3) with spindle speed
	out += linenumber() + "M3\n"
	# Repeat tapping command to reverse out, use R for Z
	reverse_z = c.Parameters.get("R")
	if reverse_z is not None:
	pos = Units.Quantity(reverse_z, FreeCAD.Units.Length)
	reverse_z = float(pos.getValueAs(UNIT_FORMAT))
	out += (
	linenumber()
	+ f"G33.1 K{format(pitch, precision_string)} Z{format(float(reverse_z), precision_string)}\n"
	)
	else:
	out += linenumber() + f"G33.1 K{format(pitch, precision_string)}\n"
	# Restore original spindle direction (M4) with spindle speed
	out += linenumber() + "M4\n"

	continue # Skip the rest of the parameter output for this command

	else:
	# Calculate feed rate
	if spindle_speed is not None:
	feed_rate = pitch * spindle_speed
	speed = Units.Quantity(feed_rate, UNIT_SPEED_FORMAT)
	outstring.append(
	"F"
	+ format(float(speed.getValueAs(UNIT_SPEED_FORMAT)), precision_string)
	)
	else:
	# No spindle speed found, output pitch as F
	outstring.append("F" + format(pitch, precision_string))

	# Now add the remaining parameters in order
	for param in params:
	if param in c.Parameters:
	if param == "F" and (
	currLocation[param] != c.Parameters[param] or OUTPUT_DOUBLES
	):
	if c.Name not in [
	"G0",
	"G00",
	]: # linuxcnc doesn't use rapid speeds
	speed = Units.Quantity(c.Parameters["F"], FreeCAD.Units.Velocity)
	if speed.getValueAs(UNIT_SPEED_FORMAT) > 0.0:
	outstring.append(
	param
	+ format(
	float(speed.getValueAs(UNIT_SPEED_FORMAT)),
	precision_string,
	)
	)
	else:
	continue
	elif param == "T":
	outstring.append(param + str(int(c.Parameters["T"])))
	elif param == "H":
	outstring.append(param + str(int(c.Parameters["H"])))
	elif param == "D":
	outstring.append(param + str(int(c.Parameters["D"])))
	elif param == "S":
	outstring.append(param + str(int(c.Parameters["S"])))
	else:
	if (
	(not OUTPUT_DOUBLES)
	and (param in currLocation)
	and (currLocation[param] == c.Parameters[param])
	):
	continue
	else:
	if param in ("A", "B", "C"):
	outstring.append(
	param + format(float(c.Parameters[param]), precision_string)
	)
	else:
	pos = Units.Quantity(c.Parameters[param], FreeCAD.Units.Length)
	outstring.append(
	param
	+ format(float(pos.getValueAs(UNIT_FORMAT)), precision_string)
	)

	# store the latest command
	lastcommand = command
	currLocation.update(c.Parameters)

	# Check for Tool Change:
	if command == "M6":
	# stop the spindle
	out += linenumber() + "M5\n"
	for line in TOOL_CHANGE.splitlines(True):
	out += linenumber() + line

	# add height offset
	if USE_TLO:
	tool_height = "\nG43 H" + str(int(c.Parameters["T"]))
	outstring.append(tool_height)

	if command == "message":
	if OUTPUT_COMMENTS is False:
	out = []
	else:
	outstring.pop(0) # remove the command

	# prepend a line number and append a newline
	if len(outstring) >= 1:
	if OUTPUT_LINE_NUMBERS:
	outstring.insert(0, (linenumber()))

	# append the line to the final output
	for w in outstring:
	out += w + COMMAND_SPACE
	out += "\n"

	return out


	# print(__name__ + " gcode postprocessor loaded.")