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grbl-LPC-CoreXY/nuts_bolts.c
Sonny Jeon 7a175bd2db Push old dev_2 draft to work on other things. 
- **NON-FUNCTIONAL**
- Contains an old draft of separating the stepper driver direct access
to the planner buffer. This is designed to keep the stepper and planner
modules independent and prevent overwriting or other complications. In
this way, feedrate override should be able to be installed as well.
- A number of planner optimizations are installed too.
- Not sure where the bugs are. Either in the new planner optimizations,
new stepper module updates, or in both. Or it just could be that the
Arduino AVR is choking with the new things it has to do.
2013-08-19 09:24:22 -06:00

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/*
nuts_bolts.c - Shared functions
Part of Grbl
Copyright (c) 2009-2011 Simen Svale Skogsrud
Copyright (c) 2011-2012 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 <util/delay.h>
#include "nuts_bolts.h"
#include "gcode.h"
#include "planner.h"
#define MAX_INT_DIGITS 8 // Maximum number of digits in int32 (and float)
extern float __floatunsisf (unsigned long);
// Extracts a floating point value from a string. The following code is based loosely on
// the avr-libc strtod() function by Michael Stumpf and Dmitry Xmelkov and many freely
// available conversion method examples, but has been highly optimized for Grbl. For known
// CNC applications, the typical decimal value is expected to be in the range of E0 to E-4.
// Scientific notation is officially not supported by g-code, and the 'E' character may
// be a g-code word on some CNC systems. So, 'E' notation will not be recognized.
// NOTE: Thanks to Radu-Eosif Mihailescu for identifying the issues with using strtod().
int read_float(char *line, uint8_t *char_counter, float *float_ptr)
{
char *ptr = line + *char_counter;
unsigned char c;
// Grab first character and increment pointer. No spaces assumed in line.
c = *ptr++;
// Capture initial positive/minus character
bool isnegative = false;
if (c == '-') {
isnegative = true;
c = *ptr++;
} else if (c == '+') {
c = *ptr++;
}
// Extract number into fast integer. Track decimal in terms of exponent value.
uint32_t intval = 0;
int8_t exp = 0;
uint8_t ndigit = 0;
bool isdecimal = false;
while(1) {
c -= '0';
if (c <= 9) {
ndigit++;
if (ndigit <= MAX_INT_DIGITS) {
if (isdecimal) { exp--; }
intval = (((intval << 2) + intval) << 1) + c; // intval*10 + c
} else {
if (!(isdecimal)) { exp++; } // Drop overflow digits
}
} else if (c == (('.'-'0') & 0xff) && !(isdecimal)) {
isdecimal = true;
} else {
break;
}
c = *ptr++;
}
// Return if no digits have been read.
if (!ndigit) { return(false); };
// Convert integer into floating point.
float fval;
fval = __floatunsisf(intval);
// Apply decimal. Should perform no more than two floating point multiplications for the
// expected range of E0 to E-4.
if (fval != 0) {
while (exp <= -2) {
fval *= 0.01;
exp += 2;
}
if (exp < 0) {
fval *= 0.1;
} else if (exp > 0) {
do {
fval *= 10.0;
} while (--exp > 0);
}
}
// Assign floating point value with correct sign.
if (isnegative) {
*float_ptr = -fval;
} else {
*float_ptr = fval;
}
*char_counter = ptr - line - 1; // Set char_counter to next statement
return(true);
}
// Delays variable defined milliseconds. Compiler compatibility fix for _delay_ms(),
// which only accepts constants in future compiler releases.
void delay_ms(uint16_t ms)
{
while ( ms-- ) { _delay_ms(1); }
}
// Delays variable defined microseconds. Compiler compatibility fix for _delay_us(),
// which only accepts constants in future compiler releases. Written to perform more
// efficiently with larger delays, as the counter adds parasitic time in each iteration.
void delay_us(uint32_t us)
{
while (us) {
if (us < 10) {
_delay_us(1);
us--;
} else if (us < 100) {
_delay_us(10);
us -= 10;
} else if (us < 1000) {
_delay_us(100);
us -= 100;
} else {
_delay_ms(1);
us -= 1000;
}
}
}
// Returns direction mask according to Grbl internal axis indexing.
uint8_t get_direction_mask(uint8_t axis_idx)
{
uint8_t axis_mask = 0;
switch( axis_idx ) {
case X_AXIS: axis_mask = (1<<X_DIRECTION_BIT); break;
case Y_AXIS: axis_mask = (1<<Y_DIRECTION_BIT); break;
case Z_AXIS: axis_mask = (1<<Z_DIRECTION_BIT); break;
}
return(axis_mask);
}
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