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grbl-LPC-CoreXY/system.c
Sonny Jeon 469399fcd5 Probing cycle and view build info bug fixes. 
- Probing cycle would drop into a QUEUED state, if multiple G38.2 are
sent. It would not honor the auto cycle start flags. To fix, the auto
cycle start state is saved at the beginning of the probing cycle and
restored at the end, since the feed hold it uses to stop a triggered
probe will disable the auto start flag. For now it’s a patch, rather
than a permanent fix.

- protocol_buffer_synchronize() also has a failure case. Auto cycle
start does not get executed when the system is waiting in here, so if
it’s in a QUEUED state already, it won’t resume. Patched here, but not
fully resolved.

- Fixed a problem with the “view build info” command. The EEPROM write
would do weird things and corrupt the EEPROM. Not sure exactly what
caused it, but it’s likely a compiler problem with an improperly
defined EEPROM address. It didn’t have enough room to store a full
string. To fix, the build info EEPROM range was increased and the max
number of STARTUP_BLOCKS was reduced to 2 from 3.

- Lastly, when a $I view build info is used for the first time, it
would normally show an EEPROM read error, since it wasn’t cleared or
wasn’t therein the first place. It will now not show that error. A
patch rather than a permanent fix again.
2014-08-03 21:10:27 -06:00

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/*
system.c - Handles system level commands and real-time processes
Part of Grbl
Copyright (c) 2014 Sungeun K. Jeon
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 "system.h"
#include "settings.h"
#include "gcode.h"
#include "motion_control.h"
#include "report.h"
#include "print.h"
void system_init()
{
PINOUT_DDR &= ~(PINOUT_MASK); // Configure as input pins
PINOUT_PORT |= PINOUT_MASK; // Enable internal pull-up resistors. Normal high operation.
PINOUT_PCMSK |= PINOUT_MASK; // Enable specific pins of the Pin Change Interrupt
PCICR |= (1 << PINOUT_INT); // Enable Pin Change Interrupt
}
// Pin change interrupt for pin-out commands, i.e. cycle start, feed hold, and reset. Sets
// only the runtime command execute variable to have the main program execute these when
// its ready. This works exactly like the character-based runtime commands when picked off
// directly from the incoming serial data stream.
ISR(PINOUT_INT_vect)
{
// Enter only if any pinout pin is actively low.
if ((PINOUT_PIN & PINOUT_MASK) ^ PINOUT_MASK) {
if (bit_isfalse(PINOUT_PIN,bit(PIN_RESET))) {
mc_reset();
} else if (bit_isfalse(PINOUT_PIN,bit(PIN_FEED_HOLD))) {
bit_true(sys.execute, EXEC_FEED_HOLD);
} else if (bit_isfalse(PINOUT_PIN,bit(PIN_CYCLE_START))) {
bit_true(sys.execute, EXEC_CYCLE_START);
}
}
}
// Executes user startup script, if stored.
void system_execute_startup(char *line)
{
uint8_t n;
for (n=0; n < N_STARTUP_LINE; n++) {
if (!(settings_read_startup_line(n, line))) {
report_status_message(STATUS_SETTING_READ_FAIL);
} else {
if (line[0] != 0) {
printString(line); // Echo startup line to indicate execution.
report_status_message(gc_execute_line(line));
}
}
}
}
// Directs and executes one line of formatted input from protocol_process. While mostly
// incoming streaming g-code blocks, this also executes Grbl internal commands, such as
// settings, initiating the homing cycle, and toggling switch states. This differs from
// the runtime command module by being susceptible to when Grbl is ready to execute the
// next line during a cycle, so for switches like block delete, the switch only effects
// the lines that are processed afterward, not necessarily real-time during a cycle,
// since there are motions already stored in the buffer. However, this 'lag' should not
// be an issue, since these commands are not typically used during a cycle.
uint8_t system_execute_line(char *line)
{
uint8_t char_counter = 1;
uint8_t helper_var = 0; // Helper variable
float parameter, value;
switch( line[char_counter] ) {
case 0 : report_grbl_help(); break;
case 'G' : // Prints gcode parser state
if ( line[++char_counter] != 0 ) { return(STATUS_INVALID_STATEMENT); }
else { report_gcode_modes(); }
break;
case 'C' : // Set check g-code mode [IDLE/CHECK]
if ( line[++char_counter] != 0 ) { return(STATUS_INVALID_STATEMENT); }
// Perform reset when toggling off. Check g-code mode should only work if Grbl
// is idle and ready, regardless of alarm locks. This is mainly to keep things
// simple and consistent.
if ( sys.state == STATE_CHECK_MODE ) {
mc_reset();
report_feedback_message(MESSAGE_DISABLED);
} else {
if (sys.state) { return(STATUS_IDLE_ERROR); } // Requires no alarm mode.
sys.state = STATE_CHECK_MODE;
report_feedback_message(MESSAGE_ENABLED);
}
break;
case 'X' : // Disable alarm lock [ALARM]
if ( line[++char_counter] != 0 ) { return(STATUS_INVALID_STATEMENT); }
if (sys.state == STATE_ALARM) {
report_feedback_message(MESSAGE_ALARM_UNLOCK);
sys.state = STATE_IDLE;
// Don't run startup script. Prevents stored moves in startup from causing accidents.
} // Otherwise, no effect.
break;
// case 'J' : break; // Jogging methods
// TODO: Here jogging can be placed for execution as a seperate subprogram. It does not need to be
// susceptible to other runtime commands except for e-stop. The jogging function is intended to
// be a basic toggle on/off with controlled acceleration and deceleration to prevent skipped
// steps. The user would supply the desired feedrate, axis to move, and direction. Toggle on would
// start motion and toggle off would initiate a deceleration to stop. One could 'feather' the
// motion by repeatedly toggling to slow the motion to the desired location. Location data would
// need to be updated real-time and supplied to the user through status queries.
// More controlled exact motions can be taken care of by inputting G0 or G1 commands, which are
// handled by the planner. It would be possible for the jog subprogram to insert blocks into the
// block buffer without having the planner plan them. It would need to manage de/ac-celerations
// on its own carefully. This approach could be effective and possibly size/memory efficient.
default :
// Block any system command that requires the state as IDLE/ALARM. (i.e. EEPROM, homing)
if ( !(sys.state == STATE_IDLE || sys.state == STATE_ALARM) ) { return(STATUS_IDLE_ERROR); }
switch( line[char_counter] ) {
case '$' : // Prints Grbl settings [IDLE/ALARM]
if ( line[++char_counter] != 0 ) { return(STATUS_INVALID_STATEMENT); }
else { report_grbl_settings(); }
break;
case '#' : // Print Grbl NGC parameters
if ( line[++char_counter] != 0 ) { return(STATUS_INVALID_STATEMENT); }
else { report_ngc_parameters(); }
break;
case 'H' : // Perform homing cycle [IDLE/ALARM]
if (bit_istrue(settings.flags,BITFLAG_HOMING_ENABLE)) {
// Only perform homing if Grbl is idle or lost.
mc_homing_cycle();
if (!sys.abort) { system_execute_startup(line); } // Execute startup scripts after successful homing.
} else { return(STATUS_SETTING_DISABLED); }
break;
case 'I' : // Print or store build info. [IDLE/ALARM]
if ( line[++char_counter] == 0 ) {
settings_read_build_info(line);
report_build_info(line);
} else { // Store startup line [IDLE/ALARM]
if(line[char_counter++] != '=') { return(STATUS_INVALID_STATEMENT); }
helper_var = char_counter; // Set helper variable as counter to start of user info line.
do {
line[char_counter-helper_var] = line[char_counter];
} while (line[char_counter++] != 0);
settings_store_build_info(line);
}
break;
case 'N' : // Startup lines. [IDLE/ALARM]
if ( line[++char_counter] == 0 ) { // Print startup lines
for (helper_var=0; helper_var < N_STARTUP_LINE; helper_var++) {
if (!(settings_read_startup_line(helper_var, line))) {
report_status_message(STATUS_SETTING_READ_FAIL);
} else {
report_startup_line(helper_var,line);
}
}
break;
} else { // Store startup line [IDLE Only] Prevents motion during ALARM.
if (sys.state != STATE_IDLE) { return(STATUS_IDLE_ERROR); } // Store only when idle.
helper_var = true; // Set helper_var to flag storing method.
// No break. Continues into default: to read remaining command characters.
}
default : // Storing setting methods [IDLE/ALARM]
if(!read_float(line, &char_counter, &parameter)) { return(STATUS_BAD_NUMBER_FORMAT); }
if(line[char_counter++] != '=') { return(STATUS_INVALID_STATEMENT); }
if (helper_var) { // Store startup line
// Prepare sending gcode block to gcode parser by shifting all characters
helper_var = char_counter; // Set helper variable as counter to start of gcode block
do {
line[char_counter-helper_var] = line[char_counter];
} while (line[char_counter++] != 0);
// Execute gcode block to ensure block is valid.
helper_var = gc_execute_line(line); // Set helper_var to returned status code.
if (helper_var) { return(helper_var); }
else {
helper_var = trunc(parameter); // Set helper_var to int value of parameter
settings_store_startup_line(helper_var,line);
}
} else { // Store global setting.
if(!read_float(line, &char_counter, &value)) { return(STATUS_BAD_NUMBER_FORMAT); }
if(line[char_counter] != 0) { return(STATUS_INVALID_STATEMENT); }
return(settings_store_global_setting((uint8_t)parameter, value));
}
}
}
return(STATUS_OK); // If '$' command makes it to here, then everything's ok.
}
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