2013-01-17 13:06:51 +01:00
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/*
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simulator.c - functions to simulate how the buffer is emptied and the
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stepper interrupt is called
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Part of Grbl Simulator
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Copyright (c) 2012 Jens Geisler
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Grbl is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Grbl is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Grbl. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <stdio.h>
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#include <avr/interrupt.h>
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#include <inttypes.h>
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#include <stdio.h>
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#include "../stepper.h"
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#include "../planner.h"
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#include "../nuts_bolts.h"
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#include "simulator.h"
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2014-07-04 17:14:54 +02:00
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#include "avr/interrupt.h" //for registers and isr declarations.
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#include "eeprom.h"
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2013-01-17 13:06:51 +01:00
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2014-07-04 17:14:54 +02:00
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int block_position[]= {0,0,0}; //step count after most recently planned block
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2013-01-17 13:06:51 +01:00
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uint32_t block_number= 0;
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2014-07-04 17:14:54 +02:00
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sim_vars_t sim={0};
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//local prototypes
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void print_steps(bool force);
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//setup
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void init_simulator(float time_multiplier) {
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//register the interrupt handlers we actually use.
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compa_vect[1] = interrupt_TIMER1_COMPA_vect;
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ovf_vect[0] = interrupt_TIMER0_OVF_vect;
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#ifdef STEP_PULSE_DELAY
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compa_vect[0] = interrupt_TIMER0_COMPA_vect;
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#endif
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sim.next_print_time = args.step_time;
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sim.speedup = time_multiplier;
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sim.baud_ticks = (int)((double)F_CPU*8/BAUD_RATE); //ticks per byte
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}
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2013-01-17 13:06:51 +01:00
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2014-07-04 17:14:54 +02:00
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//shutdown simulator - close open files
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int shutdown_simulator(uint8_t exitflag) {
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fclose(args.block_out_file);
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print_steps(1);
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fclose(args.step_out_file);
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fclose(args.grbl_out_file);
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eeprom_close();
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return 1/(!exitflag); //force exception, since avr_main() has no returns.
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}
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void simulate_hardware(bool do_serial){
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//do one tick
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sim.masterclock++;
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sim.sim_time = (float)sim.masterclock/F_CPU;
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timer_interrupts();
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if (do_serial) simulate_serial();
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//TODO:
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// check limit pins, call pinchange interrupt if enabled
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// can ignore pinout int vect - hw start/hold not supported
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}
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2014-07-04 17:14:54 +02:00
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//runs the hardware simulator at the desired rate until sim.exit is set
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void sim_loop(){
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uint64_t simulated_ticks=0;
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uint32_t ns_prev = platform_ns();
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uint64_t next_byte_tick = F_CPU; //wait 1 sec before reading IO.
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while (!sim.exit || sys.state>2 ) { //don't quit until idle
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if (sim.speedup) {
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//calculate how many ticks to do.
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uint32_t ns_now = platform_ns();
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uint32_t ns_elapsed = (ns_now-ns_prev)*sim.speedup; //todo: try multipling nsnow
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simulated_ticks += F_CPU/1e9*ns_elapsed;
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ns_prev = ns_now;
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}
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else {
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simulated_ticks++; //as fast as possible
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}
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while (sim.masterclock < simulated_ticks){
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//only read serial port as fast as the baud rate allows
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bool read_serial = (sim.masterclock >= next_byte_tick);
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//do low level hardware
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simulate_hardware(read_serial);
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//print the steps.
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//For further decoupling, could maintain own counter of STEP_PORT pulses,
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// print that instead of sys.position.
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print_steps(0);
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if (read_serial){
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next_byte_tick+=sim.baud_ticks;
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//recent block can only change after input, so check here.
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printBlock();
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}
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//TODO:
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// set limit pins based on position,
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// set probe pin when probing.
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// if VARIABLE_SPINDLE, measure pwm pin to report speed?
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}
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platform_sleep(0); //yield
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}
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}
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2013-01-17 13:06:51 +01:00
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2014-07-04 17:14:54 +02:00
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//show current position in steps
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void print_steps(bool force)
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{
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static plan_block_t* printed_block = NULL;
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plan_block_t* current_block = plan_get_current_block();
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if (sim.next_print_time == 0.0) { return; } //no printing
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if (current_block != printed_block ) {
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//new block.
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if (block_number) { //print values from the end of prev block
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fprintf(args.step_out_file, "%20.15f %d, %d, %d\n", sim.sim_time, sys.position[X_AXIS], sys.position[Y_AXIS], sys.position[Z_AXIS]);
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}
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printed_block = current_block;
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if (current_block == NULL) { return; }
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// print header
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fprintf(args.step_out_file, "# block number %d\n", block_number++);
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}
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//print at correct interval while executing block
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else if ((current_block && sim.sim_time>=sim.next_print_time) || force ) {
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fprintf(args.step_out_file, "%20.15f %d, %d, %d\n", sim.sim_time, sys.position[X_AXIS], sys.position[Y_AXIS], sys.position[Z_AXIS]);
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fflush(args.step_out_file);
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//make sure the simulation time doesn't get ahead of next_print_time
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while (sim.next_print_time<=sim.sim_time) sim.next_print_time += args.step_time;
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}
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}
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2014-07-04 17:14:54 +02:00
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//Functions for peeking inside planner state:
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plan_block_t *get_block_buffer();
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uint8_t get_block_buffer_head();
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uint8_t get_block_buffer_tail();
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2013-01-17 13:06:51 +01:00
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// Returns the index of the previous block in the ring buffer
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uint8_t prev_block_index(uint8_t block_index)
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{
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if (block_index == 0) { block_index = BLOCK_BUFFER_SIZE; }
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block_index--;
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return(block_index);
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}
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2014-07-04 17:14:54 +02:00
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plan_block_t *plan_get_recent_block() {
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2013-01-17 13:06:51 +01:00
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if (get_block_buffer_head() == get_block_buffer_tail()) { return(NULL); }
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return(get_block_buffer()+prev_block_index(get_block_buffer_head()));
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}
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// Print information about the most recently inserted block
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// but only once!
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void printBlock() {
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plan_block_t *b;
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static plan_block_t *last_block;
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b= plan_get_recent_block();
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if(b!=last_block && b!=NULL) {
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int i;
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for (i=0;i<N_AXIS;i++){
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if(b->direction_bits & get_direction_mask(i)) block_position[i]-= b->steps[i];
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else block_position[i]+= b->steps[i];
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fprintf(args.block_out_file,"%d, ", block_position[i]);
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}
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fprintf(args.block_out_file,"%f", b->entry_speed_sqr);
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fprintf(args.block_out_file,"\n");
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fflush(args.block_out_file); //TODO: needed?
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last_block= b;
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}
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}
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2014-07-04 17:14:54 +02:00
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//printer for grbl serial port output
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void grbl_out(uint8_t data){
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static uint8_t buf[128]={0};
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static uint8_t len=0;
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static bool continuation = 0;
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buf[len++]=data;
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if(data=='\n' || data=='\r' || len>=127) {
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if (args.comment_char && !continuation){
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fprintf(args.grbl_out_file,"%c ",args.comment_char);
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}
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buf[len]=0;
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fprintf(args.grbl_out_file,"%s",buf);
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continuation = (len>=128); //print comment on next line unless we are only printing to avoid buffer overflow)
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len=0;
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2013-01-17 13:06:51 +01:00
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}
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}
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2014-07-04 17:14:54 +02:00
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