grbl-LPC-CoreXY/grbl/coolant_control.c
Sonny Jeon ed790c9fa2 v1.1d: Tweaked interface a bit. Added realtime spindle speed and build option data. Minor bug fixes.
- 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
2016-10-17 23:48:25 -06:00

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3.5 KiB
C

/*
coolant_control.c - coolant control methods
Part of Grbl
Copyright (c) 2012-2016 Sungeun K. Jeon for Gnea Research LLC
Grbl is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Grbl 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with Grbl. If not, see <http://www.gnu.org/licenses/>.
*/
#include "grbl.h"
void coolant_init()
{
COOLANT_FLOOD_DDR |= (1 << COOLANT_FLOOD_BIT); // Configure as output pin
#ifdef ENABLE_M7
COOLANT_MIST_DDR |= (1 << COOLANT_MIST_BIT);
#endif
coolant_stop();
}
// Returns current coolant output state. Overrides may alter it from programmed state.
uint8_t coolant_get_state()
{
uint8_t cl_state = COOLANT_STATE_DISABLE;
#ifdef INVERT_COOLANT_FLOOD_PIN
if (bit_isfalse(COOLANT_FLOOD_PORT,(1 << COOLANT_FLOOD_BIT))) {
#else
if (bit_istrue(COOLANT_FLOOD_PORT,(1 << COOLANT_FLOOD_BIT))) {
#endif
cl_state |= COOLANT_STATE_FLOOD;
}
#ifdef ENABLE_M7
#ifdef INVERT_COOLANT_MIST_PIN
if (bit_isfalse(COOLANT_MIST_PORT,(1 << COOLANT_MIST_BIT))) {
#else
if (bit_istrue(COOLANT_MIST_PORT,(1 << COOLANT_MIST_BIT))) {
#endif
cl_state |= COOLANT_STATE_MIST;
}
#endif
return(cl_state);
}
// Directly called by coolant_init(), coolant_set_state(), and mc_reset(), which can be at
// an interrupt-level. No report flag set, but only called by routines that don't need it.
void coolant_stop()
{
#ifdef INVERT_COOLANT_FLOOD_PIN
COOLANT_FLOOD_PORT |= (1 << COOLANT_FLOOD_BIT);
#else
COOLANT_FLOOD_PORT &= ~(1 << COOLANT_FLOOD_BIT);
#endif
#ifdef ENABLE_M7
#ifdef INVERT_COOLANT_MIST_PIN
COOLANT_MIST_PORT |= (1 << COOLANT_MIST_BIT);
#else
COOLANT_MIST_PORT &= ~(1 << COOLANT_MIST_BIT);
#endif
#endif
}
// Main program only. Immediately sets flood coolant running state and also mist coolant,
// if enabled. Also sets a flag to report an update to a coolant state.
// Called by coolant toggle override, parking restore, parking retract, sleep mode, g-code
// parser program end, and g-code parser coolant_sync().
void coolant_set_state(uint8_t mode)
{
if (sys.abort) { return; } // Block during abort.
if (mode == COOLANT_DISABLE) {
coolant_stop();
} else {
if (mode & COOLANT_FLOOD_ENABLE) {
#ifdef INVERT_COOLANT_FLOOD_PIN
COOLANT_FLOOD_PORT &= ~(1 << COOLANT_FLOOD_BIT);
#else
COOLANT_FLOOD_PORT |= (1 << COOLANT_FLOOD_BIT);
#endif
}
#ifdef ENABLE_M7
if (mode & COOLANT_MIST_ENABLE) {
#ifdef INVERT_COOLANT_MIST_PIN
COOLANT_MIST_PORT &= ~(1 << COOLANT_MIST_BIT);
#else
COOLANT_MIST_PORT |= (1 << COOLANT_MIST_BIT);
#endif
}
#endif
}
sys.report_ovr_counter = REPORT_OVR_REFRESH_BUSY_COUNT; // Set to report change immediately
}
// G-code parser entry-point for setting coolant state. Forces a planner buffer sync and bails
// if an abort or check-mode is active.
void coolant_sync(uint8_t mode)
{
if (sys.state == STATE_CHECK_MODE) { return; }
protocol_buffer_synchronize(); // Ensure coolant turns on when specified in program.
coolant_set_state(mode);
}