kindred/create
1
1
Fork 0
Code Issues 30 Pull Requests Actions Packages Projects 9 Releases 2 Wiki Activity
Files
bb172e4a6b0a0b9a92a42dd34d3dbff9d503c750
create/src/Mod/CAM/Path/Post/UtilsParse.py
sliptonic bb172e4a6b CAM: Renaming of postprocessors and cleanup (#24771) 
* Post Processor cleanup and rename

remove unused files
Basic implementation of generic post
add blending mode support for linuxcnc
add mocking for postprocessor tests
Add tests for generic post
linuxcnc test only tests linuxcnc specific functionality

minor improvements
add arc splitting to refactored post processors
Refactor smoothie post
move posts to legacy.  Remove 'refactored'
lint cleanup
fixes #19417

* [pre-commit.ci] auto fixes from pre-commit.com hooks

for more information, see https://pre-commit.ci

---------

Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com>
2025-11-15 09:46:34 -06:00

826 lines
30 KiB
Python
Raw Blame History

# SPDX-License-Identifier: LGPL-2.1-or-later
# ***************************************************************************
# * Copyright (c) 2014 Yorik van Havre <yorik@uncreated.net> *
# * Copyright (c) 2014 sliptonic <shopinthewoods@gmail.com> *
# * Copyright (c) 2015 Dan Falck <ddfalck@gmail.com> *
# * Copyright (c) 2018, 2019 Gauthier Briere *
# * Copyright (c) 2019, 2020 Schildkroet *
# * Copyright (c) 2022 Larry Woestman <LarryWoestman2@gmail.com> *
# * Copyright (c) 2024 Carl Slater <CandLWorkshopLLC@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 math
import re
from typing import Any, Callable, Dict, List, Tuple, Union
import FreeCAD
from FreeCAD import Units
import Path
import Path.Post.Utils as PostUtils
# Define some types that are used throughout this file
CommandLine = List[str]
Gcode = List[str]
PathParameter = float
PathParameters = Dict[str, PathParameter]
Values = Dict[str, Any]
ParameterFunction = Callable[[Values, str, str, PathParameter, PathParameters], str]
def check_for_an_adaptive_op(
values: Values,
command: str,
command_line: CommandLine,
adaptive_op_variables: Tuple[bool, float, float],
) -> str:
"""Check to see if the current command is an adaptive op."""
adaptiveOp: bool
opHorizRapid: float
opVertRapid: float
(adaptiveOp, opHorizRapid, opVertRapid) = adaptive_op_variables
if values["OUTPUT_ADAPTIVE"] and adaptiveOp and command in values["RAPID_MOVES"]:
if opHorizRapid and opVertRapid:
return "G1"
command_line.append(f"(Tool Controller Rapid Values are unset)")
return ""
def check_for_drill_translate(
values: Values,
gcode: Gcode,
command: str,
command_line: CommandLine,
params: PathParameters,
motion_location: PathParameters,
drill_retract_mode: str,
) -> bool:
"""Check for drill commands to translate."""
comment: str
if values["TRANSLATE_DRILL_CYCLES"] and command in values["DRILL_CYCLES_TO_TRANSLATE"]:
if values["OUTPUT_COMMENTS"]: # Comment the original command
comment = create_comment(values, format_command_line(values, command_line))
gcode.append(f"{linenumber(values)}{comment}")
# wrap this block to ensure that the value of values["MOTION_MODE"]
# is restored in case of error
try:
drill_translate(
values,
gcode,
command,
params,
motion_location,
drill_retract_mode,
)
except (ArithmeticError, LookupError) as err:
print("exception occurred", err)
# drill_translate uses G90 mode internally, so need to
# switch back to G91 mode if it was that way originally
if values["MOTION_MODE"] == "G91":
gcode.append(f"{linenumber(values)}G91")
return True
return False
def check_for_machine_specific_commands(values: Values, gcode: Gcode, command: str) -> None:
"""Check for comments containing machine-specific commands."""
m: object
raw_command: str
if values["ENABLE_MACHINE_SPECIFIC_COMMANDS"]:
m = re.match(r"^\(MC_RUN_COMMAND: ([^)]+)\)$", command)
if m:
raw_command = m.group(1)
# pass literally to the controller
gcode.append(f"{linenumber(values)}{raw_command}")
def check_for_spindle_wait(
values: Values, gcode: Gcode, command: str, command_line: CommandLine
) -> None:
"""Check for commands that might need a wait command after them."""
cmd: str
if values["SPINDLE_WAIT"] > 0 and command in ("M3", "M03", "M4", "M04"):
gcode.append(f"{linenumber(values)}{format_command_line(values, command_line)}")
cmd = format_command_line(values, ["G4", f'P{values["SPINDLE_WAIT"]}'])
gcode.append(f"{linenumber(values)}{cmd}")
def check_for_suppressed_commands(
values: Values, gcode: Gcode, command: str, command_line: CommandLine
) -> bool:
"""Check for commands that will be suppressed."""
comment: str
if command in values["SUPPRESS_COMMANDS"]:
if values["OUTPUT_COMMENTS"]:
# convert the command to a comment
comment = create_comment(values, format_command_line(values, command_line))
gcode.append(f"{linenumber(values)}{comment}")
# remove the command
return True
return False
def check_for_tlo(values: Values, gcode: Gcode, command: str, params: PathParameters) -> None:
"""Output a tool length command if USE_TLO is True."""
if command in ("M6", "M06") and values["USE_TLO"]:
cmd = format_command_line(values, ["G43", f'H{str(int(params["T"]))}'])
gcode.append(f"{linenumber(values)}{cmd}")
def check_for_tool_change(
values: Values, gcode: Gcode, command: str, command_line: CommandLine
) -> bool:
"""Check for a tool change."""
if command in ("M6", "M06"):
if values["OUTPUT_COMMENTS"]:
comment = create_comment(values, "Begin toolchange")
gcode.append(f"{linenumber(values)}{comment}")
if values["OUTPUT_TOOL_CHANGE"]:
if values["STOP_SPINDLE_FOR_TOOL_CHANGE"]:
# stop the spindle
gcode.append(f"{linenumber(values)}M5")
for line in values["TOOL_CHANGE"].splitlines(False):
gcode.append(f"{linenumber(values)}{line}")
return False
if values["OUTPUT_COMMENTS"]:
# convert the tool change to a comment
comment = create_comment(values, format_command_line(values, command_line))
gcode.append(f"{linenumber(values)}{comment}")
return True
return False
def create_comment(values: Values, comment_string: str) -> str:
"""Create a comment from a string using the correct comment symbol."""
if values["COMMENT_SYMBOL"] == "(":
return f"({comment_string})"
return values["COMMENT_SYMBOL"] + comment_string
def default_axis_parameter(
values: Values,
command: str, # pylint: disable=unused-argument
param: str,
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters,
) -> str:
"""Process an axis parameter."""
#
# used to compare two floating point numbers for "close-enough equality"
#
epsilon: float = 0.00001
if (
not values["OUTPUT_DOUBLES"]
and param in current_location
and math.fabs(current_location[param] - param_value) < epsilon
):
return ""
return format_for_axis(values, Units.Quantity(param_value, Units.Length))
def default_D_parameter(
values: Values,
command: str,
param: str, # pylint: disable=unused-argument
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters, # pylint: disable=unused-argument
) -> str:
"""Process the D parameter."""
if command in ("G41", "G42"):
return str(int(param_value))
if command in ("G41.1", "G42.1"):
return format_for_axis(values, Units.Quantity(param_value, Units.Length))
if command in ("G96", "G97"):
return format_for_spindle(values, param_value)
# anything else that is supported
return str(float(param_value))
def default_F_parameter(
values: Values,
command: str,
param: str,
param_value: PathParameter,
parameters: PathParameters,
current_location: PathParameters,
) -> str:
"""Process the F parameter."""
#
# used to compare two floating point numbers for "close-enough equality"
#
epsilon: float = 0.00001
found: bool
if (
not values["OUTPUT_DOUBLES"]
and param in current_location
and math.fabs(current_location[param] - param_value) < epsilon
):
return ""
# Many posts don't use rapid speeds, but eventually
# there will be refactored posts that do, so this
# "if statement" is being kept separate to make it
# more obvious where to put that check.
if command in values["RAPID_MOVES"]:
return ""
feed = Units.Quantity(param_value, Units.Velocity)
if feed.getValueAs(values["UNIT_SPEED_FORMAT"]) <= 0.0:
return ""
# if any of X, Y, Z, U, V, or W are in the parameters
# and any of their values is different than where the device currently should be
# then feed is in linear units
found = False
for key in ("X", "Y", "Z", "U", "V", "W"):
if key in parameters and math.fabs(current_location[key] - parameters[key]) > epsilon:
found = True
if found:
return format_for_feed(values, feed)
# else if any of A, B, or C are in the parameters, the feed is in degrees,
# which should not be converted when in --inches mode
found = False
for key in ("A", "B", "C"):
if key in parameters:
found = True
if found:
# converting from degrees per second to degrees per minute as well
return format(float(feed * 60.0), f'.{str(values["FEED_PRECISION"])}f')
# which leaves none of X, Y, Z, U, V, W, A, B, C,
# which should not be valid but return a converted value just in case
return format_for_feed(values, feed)
def default_int_parameter(
values: Values, # pylint: disable=unused-argument
command: str, # pylint: disable=unused-argument
param: str, # pylint: disable=unused-argument
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters, # pylint: disable=unused-argument
) -> str:
"""Process a parameter that is treated like an integer."""
return str(int(param_value))
def default_length_parameter(
values: Values,
command: str, # pylint: disable=unused-argument
param: str, # pylint: disable=unused-argument
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters, # pylint: disable=unused-argument
) -> str:
"""Process a parameter that is treated like a length."""
return format_for_axis(values, Units.Quantity(param_value, Units.Length))
def default_P_parameter(
values: Values,
command: str,
param: str, # pylint: disable=unused-argument
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters, # pylint: disable=unused-argument
) -> str:
"""Process the P parameter."""
if command in ("G2", "G02", "G3", "G03", "G5.2", "G5.3", "G10", "G54.1", "G59"):
return str(int(param_value))
if command in ("G4", "G04", "G76", "G82", "G86", "G89"):
return str(float(param_value))
if command in ("G5", "G05", "G64"):
return format_for_axis(values, Units.Quantity(param_value, Units.Length))
# anything else that is supported
return str(param_value)
def default_Q_parameter(
values: Values,
command: str,
param: str, # pylint: disable=unused-argument
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters, # pylint: disable=unused-argument
) -> str:
"""Process the Q parameter."""
if command == "G10":
return str(int(param_value))
if command in ("G64", "G73", "G83"):
return format_for_axis(values, Units.Quantity(param_value, Units.Length))
return ""
def default_rotary_parameter(
values: Values,
command: str, # pylint: disable=unused-argument
param: str,
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters,
) -> str:
"""Process a rotarty parameter (such as A, B, and C)."""
#
# used to compare two floating point numbers for "close-enough equality"
#
epsilon: float = 0.00001
if (
not values["OUTPUT_DOUBLES"]
and param in current_location
and math.fabs(current_location[param] - param_value) < epsilon
):
return ""
# unlike other axis, rotary axis such as A, B, and C are always in degrees
# and should not be converted when in --inches mode
return str(format(float(param_value), f'.{str(values["AXIS_PRECISION"])}f'))
def default_S_parameter(
values: Values,
command: str, # pylint: disable=unused-argument
param: str, # pylint: disable=unused-argument
param_value: PathParameter,
parameters: PathParameters, # pylint: disable=unused-argument
current_location: PathParameters, # pylint: disable=unused-argument
) -> str:
"""Process the S parameter."""
return format_for_spindle(values, param_value)
def determine_adaptive_op(values: Values, pathobj) -> Tuple[bool, float, float]:
"""Determine if the pathobj contains an Adaptive operation."""
nl = "\n"
adaptiveOp: bool = False
opHorizRapid: float = 0.0
opVertRapid: float = 0.0
if values["OUTPUT_ADAPTIVE"] and "Adaptive" in pathobj.Name:
adaptiveOp = True
if hasattr(pathobj, "ToolController"):
tc = pathobj.ToolController
if hasattr(tc, "HorizRapid") and tc.HorizRapid > 0:
opHorizRapid = Units.Quantity(tc.HorizRapid, Units.Velocity)
else:
FreeCAD.Console.PrintWarning(
f"Tool Controller Horizontal Rapid Values are unset{nl}"
)
if hasattr(tc, "VertRapid") and tc.VertRapid > 0:
opVertRapid = Units.Quantity(tc.VertRapid, Units.Velocity)
else:
FreeCAD.Console.PrintWarning(f"Tool Controller Vertical Rapid Values are unset{nl}")
return (adaptiveOp, opHorizRapid, opVertRapid)
def drill_translate(
values: Values,
gcode: Gcode,
command: str,
params: PathParameters,
motion_location: PathParameters,
drill_retract_mode: str,
) -> None:
"""Translate drill cycles.
Currently only cycles in XY are provided (G17).
XZ (G18) and YZ (G19) are not dealt with.
In other words only Z drilling can be translated.
"""
cmd: str
comment: str
drill_x: float
drill_y: float
drill_z: float
motion_z: float
retract_z: float
F_feedrate: str
G0_retract_z: str
if values["MOTION_MODE"] == "G91":
# force absolute coordinates during cycles
gcode.append(f"{linenumber(values)}G90")
drill_x = Units.Quantity(params["X"], Units.Length)
drill_y = Units.Quantity(params["Y"], Units.Length)
drill_z = Units.Quantity(params["Z"], Units.Length)
retract_z = Units.Quantity(params["R"], Units.Length)
if retract_z < drill_z: # R less than Z is error
comment = create_comment(values, "Drill cycle error: R less than Z")
gcode.append(f"{linenumber(values)}{comment}")
return
motion_z = Units.Quantity(motion_location["Z"], Units.Length)
if values["MOTION_MODE"] == "G91": # relative movements
drill_x += Units.Quantity(motion_location["X"], Units.Length)
drill_y += Units.Quantity(motion_location["Y"], Units.Length)
drill_z += motion_z
retract_z += motion_z
if drill_retract_mode == "G98" and motion_z >= retract_z:
retract_z = motion_z
cmd = format_command_line(values, ["G0", f"Z{format_for_axis(values, retract_z)}"])
G0_retract_z = f"{cmd}"
cmd = format_for_feed(values, Units.Quantity(params["F"], Units.Velocity))
F_feedrate = f'{values["COMMAND_SPACE"]}F{cmd}'
# preliminary movement(s)
if motion_z < retract_z:
gcode.append(f"{linenumber(values)}{G0_retract_z}")
cmd = format_command_line(
values,
[
"G0",
f"X{format_for_axis(values, drill_x)}",
f"Y{format_for_axis(values, drill_y)}",
],
)
gcode.append(f"{linenumber(values)}{cmd}")
if motion_z > retract_z:
# NIST GCODE 3.5.16.1 Preliminary and In-Between Motion says G0 to retract_z
# Here use G1 since retract height may be below surface !
cmd = format_command_line(values, ["G1", f"Z{format_for_axis(values, retract_z)}"])
gcode.append(f"{linenumber(values)}{cmd}{F_feedrate}")
# drill moves
if command in ("G81", "G82"):
output_G81_G82_drill_moves(
values, gcode, command, params, drill_z, F_feedrate, G0_retract_z
)
elif command in ("G73", "G83"):
output_G73_G83_drill_moves(
values, gcode, command, params, drill_z, retract_z, F_feedrate, G0_retract_z
)
def format_command_line(values: Values, command_line: CommandLine) -> str:
"""Construct the command line for the final output."""
return values["COMMAND_SPACE"].join(command_line)
def format_for_axis(values: Values, number) -> str:
"""Format a number using the precision for an axis value."""
return str(
format(
float(number.getValueAs(values["UNIT_FORMAT"])),
f'.{str(values["AXIS_PRECISION"])}f',
)
)
def format_for_feed(values: Values, number) -> str:
"""Format a number using the precision for a feed rate."""
return str(
format(
float(number.getValueAs(values["UNIT_SPEED_FORMAT"])),
f'.{str(values["FEED_PRECISION"])}f',
)
)
def format_for_spindle(values: Values, number) -> str:
"""Format a number using the precision for a spindle speed."""
return str(format(float(number), f'.{str(values["SPINDLE_DECIMALS"])}f'))
def init_parameter_functions(parameter_functions: Dict[str, ParameterFunction]) -> None:
"""Initialize a list of parameter functions.
These functions are called in the UtilsParse.parse_a_path
function to return the appropriate parameter value.
"""
default_parameter_functions: Dict[str, ParameterFunction]
parameter: str
default_parameter_functions = {
"A": default_rotary_parameter,
"B": default_rotary_parameter,
"C": default_rotary_parameter,
"D": default_D_parameter,
"E": default_length_parameter,
"F": default_F_parameter,
# "G" is reserved for G-code commands
"H": default_int_parameter,
"I": default_length_parameter,
"J": default_length_parameter,
"K": default_length_parameter,
"L": default_int_parameter,
# "M" is reserved for M-code commands
# "N" is reserved for the line numbers
# "O" is reserved for the line numbers for subroutines
"P": default_P_parameter,
"Q": default_Q_parameter,
"R": default_length_parameter,
"S": default_S_parameter,
"T": default_int_parameter,
"U": default_axis_parameter,
"V": default_axis_parameter,
"W": default_axis_parameter,
"X": default_axis_parameter,
"Y": default_axis_parameter,
"Z": default_axis_parameter,
# "$" is used by LinuxCNC (and others?) to designate which spindle
}
for parameter in default_parameter_functions: # pylint: disable=consider-using-dict-items
parameter_functions[parameter] = default_parameter_functions[parameter]
def linenumber(values: Values, space: Union[str, None] = None) -> str:
"""Output the next line number if appropriate."""
line_num: str
if not values["OUTPUT_LINE_NUMBERS"]:
return ""
if space is None:
space = values["COMMAND_SPACE"]
line_num = str(values["line_number"])
values["line_number"] += values["LINE_INCREMENT"]
return f"N{line_num}{space}"
def output_G73_G83_drill_moves(
values: Values,
gcode: Gcode,
command: str,
params: PathParameters,
drill_z: float,
retract_z: float,
F_feedrate: str,
G0_retract_z: str,
) -> None:
"""Output the movement G code for G73 and G83."""
a_bit: float
chip_breaker_height: float
clearance_depth: float
cmd: str
drill_step: float
last_stop_z: float
next_stop_z: float
last_stop_z = retract_z
drill_step = Units.Quantity(params["Q"], Units.Length)
# NIST 3.5.16.4 G83 Cycle: "current hole bottom, backed off a bit."
a_bit = drill_step * 0.05
if drill_step != 0:
while True:
if last_stop_z != retract_z:
# rapid move to just short of last drilling depth
clearance_depth = last_stop_z + a_bit
cmd = format_command_line(
values,
["G0", f"Z{format_for_axis(values, clearance_depth)}"],
)
gcode.append(f"{linenumber(values)}{cmd}")
next_stop_z = last_stop_z - drill_step
if next_stop_z > drill_z:
cmd = format_command_line(
values, ["G1", f"Z{format_for_axis(values, next_stop_z)}"]
)
gcode.append(f"{linenumber(values)}{cmd}{F_feedrate}")
if command == "G73":
# Rapid up "a small amount".
chip_breaker_height = next_stop_z + values["CHIPBREAKING_AMOUNT"]
cmd = format_command_line(
values,
[
"G0",
f"Z{format_for_axis(values, chip_breaker_height)}",
],
)
gcode.append(f"{linenumber(values)}{cmd}")
elif command == "G83":
# Rapid up to the retract height
gcode.append(f"{linenumber(values)}{G0_retract_z}")
last_stop_z = next_stop_z
else:
cmd = format_command_line(values, ["G1", f"Z{format_for_axis(values, drill_z)}"])
gcode.append(f"{linenumber(values)}{cmd}{F_feedrate}")
gcode.append(f"{linenumber(values)}{G0_retract_z}")
break
def output_G81_G82_drill_moves(
values: Values,
gcode: Gcode,
command: str,
params: PathParameters,
drill_z: float,
F_feedrate: str,
G0_retract_z: str,
) -> None:
"""Output the movement G code for G81 and G82."""
cmd: str
cmd = format_command_line(values, ["G1", f"Z{format_for_axis(values, drill_z)}"])
gcode.append(f"{linenumber(values)}{cmd}{F_feedrate}")
# pause where applicable
if command == "G82":
cmd = format_command_line(values, ["G4", f'P{str(params["P"])}'])
gcode.append(f"{linenumber(values)}{cmd}")
gcode.append(f"{linenumber(values)}{G0_retract_z}")
def parse_a_group(values: Values, gcode: Gcode, pathobj) -> None:
"""Parse a Group (compound, project, or simple path)."""
comment: str
if hasattr(pathobj, "Group"): # We have a compound or project.
if values["OUTPUT_COMMENTS"]:
comment = create_comment(values, f"Compound: {pathobj.Label}")
gcode.append(f"{linenumber(values)}{comment}")
for p in pathobj.Group:
parse_a_group(values, gcode, p)
else: # parsing simple path
# groups might contain non-path things like stock.
if not hasattr(pathobj, "Path"):
return
if values["OUTPUT_PATH_LABELS"] and values["OUTPUT_COMMENTS"]:
comment = create_comment(values, f"Path: {pathobj.Label}")
gcode.append(f"{linenumber(values)}{comment}")
parse_a_path(values, gcode, pathobj)
def parse_a_path(values: Values, gcode: Gcode, pathobj) -> None:
"""Parse a simple Path."""
adaptive_op_variables: Tuple[bool, float, float]
cmd: str
command: str
command_line: CommandLine
current_location: PathParameters = {} # keep track for no doubles
drill_retract_mode: str = "G98"
lastcommand: str = ""
motion_location: PathParameters = {} # keep track of last motion location
parameter: str
parameter_value: str
# Check to see if values["TOOL_BEFORE_CHANGE"] is set and value is true
# doing it here to reduce the number of times it is checked
swap_tool_change_order = False
if "TOOL_BEFORE_CHANGE" in values and values["TOOL_BEFORE_CHANGE"]:
swap_tool_change_order = True
current_location.update(
# the goal is to have initial values that aren't likely to match
# any "real" first parameter values
Path.Command(
"G0",
{
"X": 123456789.0,
"Y": 123456789.0,
"Z": 123456789.0,
"U": 123456789.0,
"V": 123456789.0,
"W": 123456789.0,
"A": 123456789.0,
"B": 123456789.0,
"C": 123456789.0,
"F": 123456789.0,
},
).Parameters
)
adaptive_op_variables = determine_adaptive_op(values, pathobj)
# Apply arc splitting if requested
path_to_process = pathobj.Path
if values["SPLIT_ARCS"]:
path_to_process = PostUtils.splitArcs(path_to_process)
for c in path_to_process.Commands:
command = c.Name
command_line = []
# Skip blank lines if requested
if not command:
if not values["OUTPUT_BLANK_LINES"]:
continue
# Modify the command name if necessary
if command.startswith("("):
if not values["OUTPUT_COMMENTS"]:
continue
if values["COMMENT_SYMBOL"] != "(" and len(command) > 2:
command = create_comment(values, command[1:-1])
cmd = check_for_an_adaptive_op(values, command, command_line, adaptive_op_variables)
if cmd:
command = cmd
# Add the command name to the command line
command_line.append(command)
# if modal: suppress the command if it is the same as the last one
if values["MODAL"] and command == lastcommand:
command_line.pop(0)
# Now add the remaining parameters in order
for parameter in values["PARAMETER_ORDER"]:
if parameter in c.Parameters:
parameter_value = values["PARAMETER_FUNCTIONS"][parameter](
values,
command,
parameter,
c.Parameters[parameter],
c.Parameters,
current_location,
)
if parameter_value:
command_line.append(f"{parameter}{parameter_value}")
set_adaptive_op_speed(values, command, command_line, c.Parameters, adaptive_op_variables)
# Remember the current command
lastcommand = command
# Remember the current location
current_location.update(c.Parameters)
if command in ("G90", "G91"):
# Remember the motion mode
values["MOTION_MODE"] = command
elif command in ("G98", "G99"):
# Remember the drill retract mode for drill_translate
drill_retract_mode = command
if command in values["MOTION_COMMANDS"]:
# Remember the current location for drill_translate
motion_location.update(c.Parameters)
if check_for_drill_translate(
values,
gcode,
command,
command_line,
c.Parameters,
motion_location,
drill_retract_mode,
):
command_line = []
check_for_spindle_wait(values, gcode, command, command_line)
if check_for_tool_change(values, gcode, command, command_line):
command_line = []
if check_for_suppressed_commands(values, gcode, command, command_line):
command_line = []
if command_line:
if command in ("M6", "M06") and swap_tool_change_order:
swapped_command_line = [
command_line[1],
command_line[0],
] # swap the order of the commands
# Add a line number to the front of the command line
gcode.append(
f"{linenumber(values)}{format_command_line(values, swapped_command_line)}"
)
else:
# Add a line number to the front of the command line
gcode.append(f"{linenumber(values)}{format_command_line(values, command_line)}")
check_for_tlo(values, gcode, command, c.Parameters)
check_for_machine_specific_commands(values, gcode, command)
def set_adaptive_op_speed(
values: Values,
command: str,
command_line: CommandLine,
params: PathParameters,
adaptive_op_variables: Tuple[bool, float, float],
) -> None:
"""Set the appropriate feed speed for an adaptive op."""
adaptiveOp: bool
opHorizRapid: float
opVertRapid: float
param_num: str
(adaptiveOp, opHorizRapid, opVertRapid) = adaptive_op_variables
if (
values["OUTPUT_ADAPTIVE"]
and adaptiveOp
and command in values["RAPID_MOVES"]
and opHorizRapid
and opVertRapid
):
if "Z" not in params:
param_num = format_for_feed(values, opHorizRapid)
else:
param_num = format_for_feed(values, opVertRapid)
command_line.append(f"F{param_num}")
Reference in New Issue View Git Blame Copy Permalink