- [bug] Fixed a homing fail issue, where the alarm was not being set
right, not cleared correctly. It would report the wrong code and enter
an infinite alarm loop. This was due to how alarm codes were altered a
while back. Now updated and fixed to show the right codes.
- [feature] Re-installed optional software debouncing for hard limit
switches. By request.
- [fix] Spindle PWM minimum value had some typos. Fixed the macros to
compile correctly. Only effects users that enable SPINDLE_MINIMUM_PWM.
The name changed to SPINDLE_PWM_MIN_VALUE for consistency sake.
- Updated the laser documentation.
- [config] Permanently removed classic GUI interface support. This
unintentionally created a problem where some users/GUI devs used this
compatibility mode and did not update to the new interface. So, there
were two interfaces in use, rather than just one like it was intended.
This removal should help everyone by forcing all GUIs to update and
updated GUI not having to support yet another interface.
- Fixed typo with line number support in jog mode.
- [laser] Tested a working version and pushed the wrong one for the
last! 20161203 was pausing upon every spindle speed change. That’s not
right. Fixed so nearly all motions are passed through and does not stop.
- Minimum spindle speed override lower from 50% to 10%. Lasers could
use the lower speeds.
- Fixed a very minor bug related to G80 error checking. Allowed no
error with non-modal motions with axis words. Not correct and fixed.
- Fixed a compile error when disabling VARIABLE_SPINDLE
- [doc] Updated some obsolete documentation.
- [doc] Started a “Laser Mode” document that summarizes how Grbl’s new
laser mode works.
- Increment to v1.1e due to new laser features.
- After several discussions with some prominent laser people, a few
tweaks to the new laser mode has been installed.
- LASER: M3 behaves in a constant power mode.
- LASER: M4 behaves in a dynamic power mode, where the laser power is
automatically adjusted based on how fast Grbl is moving relative to the
programmed feed rate. This is the same as the CONSTANT_POWER_PER_RATE
config.h option in the last version. NOTE: When not in motion in M4,
Grbl automatically turns off the laser. Again, it only operates while
moving!
- LASER: Only G1, G2, and G3 motion modes will turn on the laser. So,
this means that G0, G80 motion modes will always keep the laser
disabled. No matter if M3/M4 are active!
- LASER: A spindle stop override is automatically invoked when a laser
is put in a feed hold. This behavior may be disabled by a config.h
option.
- Lots of little tweaks to the g-code parser to help streamline it a
bit. It should no effect how it operates. Generally just added a parser
flag to track and execute certain scenarios a little more clearly.
- Jog motions now allow line numbers to be passed to it and will be
displayed in the status reports.
- Fixed a CoreXY homing bug.
- Fixed an issue when $13 is changed, WCO isn’t sent immediately.
- Altered how spindle PWM is set in the stepper ISR. Updated on a step
segment basis now. May need to change this back if there are any
oddities from doing this.
- Updated some documentation. Clarified why M0 no longer showing up in
$G and why a `1.` floating point values are shown with no decimals,
like so `1`.
- The PWM calculation was a little bit off and has been corrected.
- Edited the unused settings strings to be smaller and just show what
the settings are, rather than include units. May include this in the
master build, if it fits.
- The minimum spindle PWM define in config.h needed to be update for
cpu map compatibilty.
- G-code parser refactoring in the last commit wasn’t tested. Found and
fixed issues with G28.1/30.1 and G38.x probe commands. They were not
being accepted due to a borked mantissa check.
- NOTE: This commit has largely been untested.
- Constant laser power per rate mode has been improved. Altered its
implementation to be more responsive and accurate.
- Based on LaserWeb dev feedback, only G1, G2, and G3 moves operate
with constant laser power mode. Meaning that G0, G38.x, and $J jogging
motions operate without it and will keep a constant power output. This
was specifically requested as a way to focus the laser by keeping the
laser on when not moving. Operationally, this shouldn’t alter how the
laser mode operates.
- Re-factored parts of the g-code parser and g-code state reports to
save a few hundred bytes of flash. What was done makes the code a bit
more unreadable (bad), but the flash space was in dire need. So, I’m
willing to live with it for now.
- Fixed a problem with $G g-code state reports. Showed `M0` program
pause during a run state. Now fixed to show nothing during a run state.
Also, `M30` program end was shown as `M2`. This was also corrected.
- Improved spindle stop override responsiveness by removing the
enforced spindle restoring delay. It’s not needed for a feature that is
user controlled.
- Fixed a bug with G2/3 arcs in inverse time mode.
- Updated the interface.md document to make it more clear how WPos: or
MPos: can be calculated from WCO:. Some GUI devs have failed to catch
this in the documentation.
- Spindle speed overrides now update immediately if they are changed
while in a HOLD state. Previously, they would update after exiting the
HOLD, which isn’t correct.
- New experimental dynamic laser power mode that adjusts laser power
based on current machine speed. Enabled by uncommenting
LASER_CONSTANT_POWER_PER_RATE in config.h
- It assumes the programmed rate is the intended power/rate for the
motion.
- Feed rate overrides (FRO) do not effect the power/rate. Meaning
that spindle PWM will automatically lower with lower FRO and increase
with higher FRO to keep it the same.
- Spindle speed overrides (SSO) will directly increase and decrease
the power/rate. So 150% SSO will increase the PWM output by 150% for
the same speed.
- The combination of FRO and SSO behaviors should allow for subtle
and highly flexible tuning of how the laser cutter is operating in
real-time and during the job.
- Re-factored planner block rapid rate handling for the dynamic laser
power feature. Should have had no effect on how Grbl operates.
- Some laser controllers were reported to need a very high PWM
frequency. Added a line to enable this in cpu_map.h, if needed.
- Cleaned up some of the parking code. Mostly just editing the comments.
- Moved the accessory state resetting after the initial parking
retract. Should ensure the accessory state is properly handled upon an
aborted parking restore. Not certain if this was a problem before
though. Just to be sure.
- For repeatability reasons, all G38.x probe cycles ignore feed rate
overrides and move at their programmed speed.
- The mandate can be removed with a new config.h option.
- Updated the documentation to reflect the change.
- Yikes. Totally borked the last parking “fix”. Testing shows that all
accessories are now properly handled when retracting and restoring. It
was caused by not accounting for the planner re-factoring correctly in
the parking code.
- Altered the report counters to be count down, rather than count up.
Simplified some of the logic.
- Fixed an issue with parking restore. The spindle state would disable
then reenable.
- Clarified some of the config.h descriptions.
- Moved the compile-time checks from config.h to grbl.h. They don’t
belong in the config.h file.
- Refactored the initialization of the system variables in main.c.
System position and probe position were undefined when power cycled,
but were zero anyway. Added clear vector code to make it explicit.
- When spindle speed is close to the minimum rpm, the PWM value would
be zero or lower than allowed. The computation error was caused by
setting the minimum PWM value to zero, when it should have been 1.
- Added a compiler check for minimum PWM to be greater than zero.
- Moved some of the spindle PWM macros to a more appropriate place in
the cpu_map.h.
* Modify code CSV format.
- Wrap value in quotes to avoid issue with embedded commas. This occurs
in one of the alarm codes.
- Change header row format to allow same parsing code as data rows.
* VARIABLE_SPINDLE feature flag experiment.
- Use a macro for 'spindle_set_speed' and 'spindle_sync' to reduce the
number of required VARIABLE_SPINDLE checks.
- Addressed an issue with backward compatibility with Grbl v0.9-style
GUIs.
- It still may not work due to new data and states coming back from
Grbl v1.1. Regardless, DO NOT TRY TO USE THE COMPATIBILITY MODE UNTIL
THERE IS A REALLY GOOD REASON TO.
- v0.9 GUI compatibility mode will be removed in future versions.
You’ve been warned. It’s highly recommended for GUIs to update to the
new v1.1 interface.
- Compability mode will only fit on an Arduino Uno due to size
increases.
- Removed the REPORT_GUI_MODE compile option since it’s part of the
v1.1 interface standard.
- Updated the documentation to better describe the compatibility mode
build option.
- Increment to v1.1d due to interface tweaks.
- Based on GUI dev feedback, the toggle overrides report was removed
and replace with showing “accessory state”. This shows a character if a
particular accessory is enabled, like the spindle or flood coolant.
These can be directly altered by the toggle overrides, so when they
execute, a GUI will be able to observe the state altering as feedback.
- Altered the real-time feed rate to show real-time spindle speed as
well. It was an over-sight on my part. It’s needed because it’s hard to
know what the current spindle speed is when overrides are altering it.
Especially during something like a laser cutting job when its important
to know how spindle speed overrides are effecting things.
- Real-time spindle speed is not shown if VARIABLE_SPINDLE is disabled.
The old real-time feed rate data field will show instead.
- Compile-time option data is now included in another message
immediately following the build info version string, starting with
`[OPT:`. A character code follows the data type name with each
indicating a particular option enabled or disabled. This will help
immensely with debugging Grbl as well as help GUIs know exactly how
Grbl was compiled.
- These interface changes are detailed in the updated documentation.
- Reduced the default planner buffer size from 17 to 16. Needed to free
up some memory…
- For increasing the serial TX buffer size from 90 to 104 bytes. The
addition of real-time spindle speeds and accessory enable data required
a bigger buffer. This is to ensure Grbl is performing at optimal levels.
- Refactored parts of the spindle and coolant control code to make it
more consistent to each other and how it was called. It was a little
messy. The changes made it easier to track what each function call was
doing based on what was calling it.
- Created a couple of new get_state functions for the spindle and
coolant. These are called by the accessory state report to look
directly at the pin state, rather than track how it was set. This
guarantees that the state is reported correctly.
- Updated the g-code parser, parking motion, sleep mode, and spindle
stop calls to refactored spindle and coolant code.
- Added a compile-time option to enable homing individual axes, rather
than having only the main homing cycle. The actual use case for this is
pretty rare. It’s not recommended you enable this, unless you have a
specific application for it. Otherwise, just alter the homing cycle
itself.
- Refactored the printFloat() function to not show a decimal point if
there are no trailing values after it. For example, `1.` now shows `1`.
- Fixed an issue regarding spindle speed overrides no being applied to
blocks without motions.
- Removed the toggle_ovr_mask system variable and replaced with
spindle_stop_ovr system variable. Coolant toggles don’t need to be
tracked.
- Updated README
- Added v1.1 settings documentation to the markdown folder.
- Fixed a very minor bug in the step direction handling upon wakeup.
The direction mask would temporarily go back to default mask for about
a millisecond when moving in the same non-default direction. It did not
effect Grbl behavior before, but fixed for consistency.
- Spindle speed updating wasn’t working in the g-code parser due to
some borked up logic on my part. Fixed it and should be operating as
intended for both normal and laser spindle modes.
- Elaborated a little more on the new sleep mode in the documentation.
- New $SLP sleep mode that will disable spindle, coolant, and stepper
enable pins. Allows users to disable their steppers without having to
alter their settings. A reset is required to exit and re-initializes in
alarm state.
- Laser mode wasn’t updating the spindle PWM correctly (effected
spindle speed overrides) and not checking for modal states either.
Fixed both issues.
- While in laser mode, parking motions are ignored, since the power off
delay with the retract motion would burn the material. It will just
turn off and not move. A restore immediately powers up and resumes. No
delays.
- Changing rpm max and min settings did not update the spindle PWM
calculations. Now fixed.
- Increased default planner buffer from 16 to 17 block. It seems to be
stable, but need to monitor this carefully.
- Removed software debounce routine for limit pins. Obsolete.
- Fixed a couple parking motion bugs. One related to restoring
incorrectly and the other the parking rate wasn’t compatible with the
planner structs.
- Fixed a bug caused by refactoring the critical alarms in a recent
push. Soft limits weren’t invoking a critical alarm.
- Updated the documentation with the new sleep feature and added some
more details to the change summary.
- Added a new jog cancel real-time command. Rather than depending on a
feed hold to cancel a jogging motion, this realtime command can be used
instead. The main advantage is if a feed hold is used, you can
accidentally hold the machine right when Grbl returns to IDLE after
completing a jog. And the GUI doesn’t have to worry about tracking this
either.
- Fixed a typo in the g-code parser edits from the last push. Was
causing the G10 set coordinate system command to not work correctly.
- Updated the documentation with the jog cancel command.
- Freed up another 60 bytes of flash and 12-24 bytes of stack RAM by
using the pre-allocated IJK arc offset vector that is guaranteed to be
not in use. Only G10 and G28/30 require fetching from EEPROM and
retaining extra data. Both commands use axis words, which rules out
G2/3 arcs using IJK offsets existing in same block. Not ideal, but
every byte helps.
- Edited README.