grbl-LPC-CoreXY/limits.c

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/*
limits.c - code pertaining to limit-switches and performing the homing cycle
Part of Grbl
Copyright (c) 2012-2014 Sungeun K. Jeon
Copyright (c) 2009-2011 Simen Svale Skogsrud
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/>.
*/
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
#include "system.h"
#include "settings.h"
#include "protocol.h"
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
#include "planner.h"
#include "stepper.h"
#include "motion_control.h"
#include "limits.h"
#include "report.h"
void limits_init()
{
LIMIT_DDR &= ~(LIMIT_MASK); // Set as input pins
if (bit_istrue(settings.flags,BITFLAG_INVERT_LIMIT_PINS)) {
LIMIT_PORT &= ~(LIMIT_MASK); // Normal low operation. Requires external pull-down.
} else {
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
LIMIT_PORT |= (LIMIT_MASK); // Enable internal pull-up resistors. Normal high operation.
}
if (bit_istrue(settings.flags,BITFLAG_HARD_LIMIT_ENABLE)) {
Re-factored system states and alarm management. Serial baud support greater than 57600. - Refactored system states to be more clear and concise. Alarm locks processes when position is unknown to indicate to user something has gone wrong. - Changed mc_alarm to mc_reset, which now manages the system reset function. Centralizes it. - Renamed '$X' kill homing lock to kill alarm lock. - Created an alarm error reporting method to clear up what is an alarm: message vs a status error: message. For GUIs mainly. Alarm codes are negative. Status codes are positive. - Serial baud support upto 115200. Previous baudrate calc was unstable for 57600 and above. - Alarm state locks out all g-code blocks, including startup scripts, but allows user to access settings and internal commands. For example, to disable hard limits, if they are problematic. - Hard limits do not respond in an alarm state. - Fixed a problem with the hard limit interrupt during the homing cycle. The interrupt register is still active during the homing cycle and still signal the interrupt to trigger when re-enabled. Instead, just disabled the register. - Homing rate adjusted. All axes move at homing seek rate, regardless of how many axes move at the same time. This is unlike how the stepper module does it as a point to point rate. - New config.h settings to disable the homing rate adjustment and the force homing upon powerup. - Reduced the number of startup lines back down to 2 from 3. This discourages users from placing motion block in there, which can be very dangerous. - Startup blocks now run only after an alarm-free reset or after a homing cycle. Does not run when $X kill is called. For satefy reasons
2012-11-15 01:36:29 +01:00
LIMIT_PCMSK |= LIMIT_MASK; // Enable specific pins of the Pin Change Interrupt
PCICR |= (1 << LIMIT_INT); // Enable Pin Change Interrupt
} else {
limits_disable();
}
#ifdef ENABLE_SOFTWARE_DEBOUNCE
MCUSR &= ~(1<<WDRF);
WDTCSR |= (1<<WDCE) | (1<<WDE);
WDTCSR = (1<<WDP0); // Set time-out at ~32msec.
#endif
}
void limits_disable()
{
LIMIT_PCMSK &= ~LIMIT_MASK; // Disable specific pins of the Pin Change Interrupt
PCICR &= ~(1 << LIMIT_INT); // Disable Pin Change Interrupt
}
Re-factored system states and alarm management. Serial baud support greater than 57600. - Refactored system states to be more clear and concise. Alarm locks processes when position is unknown to indicate to user something has gone wrong. - Changed mc_alarm to mc_reset, which now manages the system reset function. Centralizes it. - Renamed '$X' kill homing lock to kill alarm lock. - Created an alarm error reporting method to clear up what is an alarm: message vs a status error: message. For GUIs mainly. Alarm codes are negative. Status codes are positive. - Serial baud support upto 115200. Previous baudrate calc was unstable for 57600 and above. - Alarm state locks out all g-code blocks, including startup scripts, but allows user to access settings and internal commands. For example, to disable hard limits, if they are problematic. - Hard limits do not respond in an alarm state. - Fixed a problem with the hard limit interrupt during the homing cycle. The interrupt register is still active during the homing cycle and still signal the interrupt to trigger when re-enabled. Instead, just disabled the register. - Homing rate adjusted. All axes move at homing seek rate, regardless of how many axes move at the same time. This is unlike how the stepper module does it as a point to point rate. - New config.h settings to disable the homing rate adjustment and the force homing upon powerup. - Reduced the number of startup lines back down to 2 from 3. This discourages users from placing motion block in there, which can be very dangerous. - Startup blocks now run only after an alarm-free reset or after a homing cycle. Does not run when $X kill is called. For satefy reasons
2012-11-15 01:36:29 +01:00
// This is the Limit Pin Change Interrupt, which handles the hard limit feature. A bouncing
// limit switch can cause a lot of problems, like false readings and multiple interrupt calls.
// If a switch is triggered at all, something bad has happened and treat it as such, regardless
// if a limit switch is being disengaged. It's impossible to reliably tell the state of a
// bouncing pin without a debouncing method.
// NOTE: Do not attach an e-stop to the limit pins, because this interrupt is disabled during
// homing cycles and will not respond correctly. Upon user request or need, there may be a
// special pinout for an e-stop, but it is generally recommended to just directly connect
// your e-stop switch to the Arduino reset pin, since it is the most correct way to do this.
#ifdef ENABLE_SOFTWARE_DEBOUNCE
ISR(LIMIT_INT_vect) { if (!(WDTCSR & (1<<WDIE))) { WDTCSR |= (1<<WDIE); } }
ISR(WDT_vect)
{
WDTCSR &= ~(1<<WDIE);
// Ignore limit switches if already in an alarm state or in-process of executing an alarm.
// When in the alarm state, Grbl should have been reset or will force a reset, so any pending
// moves in the planner and serial buffers are all cleared and newly sent blocks will be
// locked out until a homing cycle or a kill lock command. Allows the user to disable the hard
// limit setting if their limits are constantly triggering after a reset and move their axes.
if (sys.state != STATE_ALARM) {
if (bit_isfalse(sys.execute,EXEC_ALARM)) {
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
uint8_t bits = LIMIT_PIN;
if (bit_istrue(settings.flags,BITFLAG_INVERT_LIMIT_PINS)) { bits ^= LIMIT_MASK; }
if (bits & LIMIT_MASK) {
mc_reset(); // Initiate system kill.
sys.execute |= EXEC_CRIT_EVENT; // Indicate hard limit critical event
}
}
}
}
#else
ISR(LIMIT_INT_vect)
{
// Ignore limit switches if already in an alarm state or in-process of executing an alarm.
// When in the alarm state, Grbl should have been reset or will force a reset, so any pending
// moves in the planner and serial buffers are all cleared and newly sent blocks will be
// locked out until a homing cycle or a kill lock command. Allows the user to disable the hard
// limit setting if their limits are constantly triggering after a reset and move their axes.
if (sys.state != STATE_ALARM) {
if (bit_isfalse(sys.execute,EXEC_ALARM)) {
mc_reset(); // Initiate system kill.
sys.execute |= EXEC_CRIT_EVENT; // Indicate hard limit critical event
}
}
}
#endif
// Moves specified cycle axes all at homing rate, either approaching or disengaging the limit
// switches. Homing is a special motion case, where there is only an acceleration followed
// by abrupt asynchronous stops by each axes reaching their limit switch independently. The
// asynchronous stops are handled by a system level axis lock mask, which prevents the stepper
// algorithm from executing step pulses.
// NOTE: Only the abort runtime command can interrupt this process.
void limits_go_home(uint8_t cycle_mask, bool approach, float homing_rate)
{
if (sys.execute & EXEC_RESET) { return; }
uint8_t invert_pin;
if (bit_isfalse(settings.flags,BITFLAG_INVERT_LIMIT_PINS)) { invert_pin = approach; }
else { invert_pin = !approach; }
// Determine travel distance to the furthest homing switch based on user max travel settings.
// NOTE: settings.max_travel[] is stored as a negative value.
float max_travel = settings.max_travel[X_AXIS];
if (max_travel > settings.max_travel[Y_AXIS]) { max_travel = settings.max_travel[Y_AXIS]; }
if (max_travel > settings.max_travel[Z_AXIS]) { max_travel = settings.max_travel[Z_AXIS]; }
max_travel *= -1.25; // Ensure homing switches engaged by over-estimating max travel.
if (!approach) { max_travel = -max_travel; }
// Set target location and rate for active axes.
float target[N_AXIS];
uint8_t n_active_axis = 0;
uint8_t i;
for (i=0; i<N_AXIS; i++) {
if (bit_istrue(cycle_mask,bit(i))) {
n_active_axis++;
target[i] = max_travel;
} else {
target[i] = 0.0;
}
}
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
if (bit_istrue(settings.homing_dir_mask,(1<<X_DIRECTION_BIT))) { target[X_AXIS] = -target[X_AXIS]; }
if (bit_istrue(settings.homing_dir_mask,(1<<Y_DIRECTION_BIT))) { target[Y_AXIS] = -target[Y_AXIS]; }
if (bit_istrue(settings.homing_dir_mask,(1<<Z_DIRECTION_BIT))) { target[Z_AXIS] = -target[Z_AXIS]; }
homing_rate *= sqrt(n_active_axis); // [sqrt(N_AXIS)] Adjust so individual axes all move at homing rate.
// Setup homing axis locks based on cycle mask.
uint8_t axislock = 0;
if (bit_istrue(cycle_mask,bit(X_AXIS))) { axislock |= (1<<X_STEP_BIT); }
if (bit_istrue(cycle_mask,bit(Y_AXIS))) { axislock |= (1<<Y_STEP_BIT); }
if (bit_istrue(cycle_mask,bit(Z_AXIS))) { axislock |= (1<<Z_STEP_BIT); }
sys.homing_axis_lock = axislock;
Re-factored system states and alarm management. Serial baud support greater than 57600. - Refactored system states to be more clear and concise. Alarm locks processes when position is unknown to indicate to user something has gone wrong. - Changed mc_alarm to mc_reset, which now manages the system reset function. Centralizes it. - Renamed '$X' kill homing lock to kill alarm lock. - Created an alarm error reporting method to clear up what is an alarm: message vs a status error: message. For GUIs mainly. Alarm codes are negative. Status codes are positive. - Serial baud support upto 115200. Previous baudrate calc was unstable for 57600 and above. - Alarm state locks out all g-code blocks, including startup scripts, but allows user to access settings and internal commands. For example, to disable hard limits, if they are problematic. - Hard limits do not respond in an alarm state. - Fixed a problem with the hard limit interrupt during the homing cycle. The interrupt register is still active during the homing cycle and still signal the interrupt to trigger when re-enabled. Instead, just disabled the register. - Homing rate adjusted. All axes move at homing seek rate, regardless of how many axes move at the same time. This is unlike how the stepper module does it as a point to point rate. - New config.h settings to disable the homing rate adjustment and the force homing upon powerup. - Reduced the number of startup lines back down to 2 from 3. This discourages users from placing motion block in there, which can be very dangerous. - Startup blocks now run only after an alarm-free reset or after a homing cycle. Does not run when $X kill is called. For satefy reasons
2012-11-15 01:36:29 +01:00
// Perform homing cycle. Planner buffer should be empty, as required to initiate the homing cycle.
uint8_t limit_state;
2014-02-07 00:10:27 +01:00
plan_buffer_line(target, homing_rate, false, HOMING_CYCLE_LINE_NUMBER); // Bypass mc_line(). Directly plan homing motion.
st_prep_buffer(); // Prep first segment from newly planned block.
st_wake_up(); // Initiate motion
do {
// Check limit state. Lock out cycle axes when they change.
limit_state = LIMIT_PIN;
if (invert_pin) { limit_state ^= LIMIT_MASK; }
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
if (axislock & (1<<X_STEP_BIT)) {
if (limit_state & (1<<X_LIMIT_BIT)) { axislock &= ~(1<<X_STEP_BIT); }
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
}
if (axislock & (1<<Y_STEP_BIT)) {
if (limit_state & (1<<Y_LIMIT_BIT)) { axislock &= ~(1<<Y_STEP_BIT); }
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
}
if (axislock & (1<<Z_STEP_BIT)) {
if (limit_state & (1<<Z_LIMIT_BIT)) { axislock &= ~(1<<Z_STEP_BIT); }
Lots of re-organization and cleaning-up. Some bug fixes. - Added a new source and header file called system. These files contain the system commands and variables, as well as all of the system headers and standard libraries Grbl uses. Centralizing some of the code. - Re-organized the include headers throughout the source code. - ENABLE_M7 define was missing from config.h. Now there. - SPINDLE_MAX_RPM and SPINDLE_MIN_RPM now defined in config.h. No uncommenting to prevent user issues. Minimum spindle RPM now provides the lower, near 0V, scale adjustment, i.e. some spindles can go really slow so why use up our 256 voltage bins for them? - Remove some persistent variables from coolant and spindle control. They were redundant. - Removed a VARIABLE_SPINDLE define in cpu_map.h that shouldn’t have been there. - Changed the DEFAULT_ARC_TOLERANCE to 0.002mm to improve arc tracing. Before we had issues with performance, no longer. - Fixed a bug with the hard limits and the software debounce feature enabled. The invert limit pin setting wasn’t honored. - Fixed a bug with the homing direction mask. Now is like it used to be. At least for now. - Re-organized main.c to serve as only as the reset/initialization routine. Makes things a little bit clearer in terms of execution procedures. - Re-organized protocol.c as the overall master control unit for execution procedures. Not quite there yet, but starting to make a little more sense in how things are run. - Removed updating of old settings records. So many new settings have been added that it’s not worth adding the code to migrate old user settings. - Tweaked spindle_control.c a bit and made it more clear and consistent with other parts of Grbl. - Tweaked the stepper disable bit code in stepper.c. Requires less flash memory.
2014-01-11 04:22:10 +01:00
}
sys.homing_axis_lock = axislock;
st_prep_buffer(); // Check and prep one segment. NOTE: Should take no longer than 200us.
if (sys.execute & EXEC_RESET) { return; }
} while (STEP_MASK & axislock);
st_go_idle(); // Disable steppers. Axes motion should already be locked.
plan_reset(); // Reset planner buffer. Ensure homing motion is cleared.
st_reset(); // Reset step segment buffer. Ensure homing motion is cleared.
delay_ms(settings.homing_debounce_delay); // Delay to allow transient dynamics to dissipate.
}
// Performs a soft limit check. Called from mc_line() only. Assumes the machine has been homed,
// and the workspace volume is in all negative space.
void limits_soft_check(float *target)
{
uint8_t idx;
for (idx=0; idx<N_AXIS; idx++) {
if (target[idx] > 0 || target[idx] < settings.max_travel[idx]) { // NOTE: max_travel is stored as negative
// Force feed hold if cycle is active. All buffered blocks are guaranteed to be within
// workspace volume so just come to a controlled stop so position is not lost. When complete
// enter alarm mode.
if (sys.state == STATE_CYCLE) {
st_feed_hold();
while (sys.state == STATE_HOLD) {
protocol_execute_runtime();
if (sys.abort) { return; }
}
}
mc_reset(); // Issue system reset and ensure spindle and coolant are shutdown.
sys.execute |= EXEC_CRIT_EVENT; // Indicate soft limit critical event
protocol_execute_runtime(); // Execute to enter critical event loop and system abort
return;
}
}
}