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gcode_parse.c
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gcode_parse.c
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#include "gcode_parse.h"
/** \file
\brief Parse received G-Codes
*/
#include <string.h>
#include "serial.h"
#include "sermsg.h"
#include "dda_queue.h"
#include "debug.h"
#include "heater.h"
#include "sersendf.h"
#include "gcode_process.h"
#ifdef SIMULATOR
#include "simulator.h"
#endif
/// current or previous gcode word
/// for working out what to do with data just received
uint8_t last_field = 0;
/// crude crc macro
#define crc(a, b) (a ^ b)
/// crude floating point data storage
decfloat BSS read_digit;
/// this is where we store all the data for the current command before we work out what to do with it
GCODE_COMMAND BSS next_target;
/*
decfloat_to_int() is the weakest subject to variable overflow. For evaluation, we assume a build room of +-1000 mm and STEPS_PER_MM_x between 1.000 and 4096. Accordingly for metric units:
df->mantissa: +-0..1048075 (20 bit - 500 for rounding)
df->exponent: 0, 2, 3, 4 or 5 (10 bit)
multiplicand: 1000 (10 bit)
imperial units:
df->mantissa: +-0..32267 (15 bit - 500 for rounding)
df->exponent: 0, 2, 3, 4 or 5 (10 bit)
multiplicand: 25400 (15 bit)
*/
// decfloat_to_int() can handle a bit more:
#define DECFLOAT_EXP_MAX 3 // more is pointless, as 1 um is our presision
// (2^^32 - 1) / multiplicand - powers[DECFLOAT_EXP_MAX] / 2 =
// 4294967295 / 1000 - 5000 =
#define DECFLOAT_MANT_MM_MAX 4289967 // = 4290 mm
// 4294967295 / 25400 - 5000 =
#define DECFLOAT_MANT_IN_MAX 164093 // = 164 inches = 4160 mm
/*
utility functions
*/
extern const uint32_t powers[]; // defined in sermsg.c
/// convert a floating point input value into an integer with appropriate scaling.
/// \param *df pointer to floating point structure that holds fp value to convert
/// \param multiplicand multiply by this amount during conversion to integer
///
/// Tested for up to 42'000 mm (accurate), 420'000 mm (precision 10 um) and
/// 4'200'000 mm (precision 100 um).
static int32_t decfloat_to_int(decfloat *df, uint16_t multiplicand) {
uint32_t r = df->mantissa;
uint8_t e = df->exponent;
// e=1 means we've seen a decimal point but no digits after it, and e=2 means we've seen a decimal point with one digit so it's too high by one if not zero
if (e)
e--;
// This raises range for mm by factor 1000 and for inches by factor 100.
// It's a bit expensive, but we should have the time while parsing.
while (e && multiplicand % 10 == 0) {
multiplicand /= 10;
e--;
}
r *= multiplicand;
if (e)
r = (r + powers[e] / 2) / powers[e];
return df->sign ? -(int32_t)r : (int32_t)r;
}
void gcode_init(void) {
// gcc guarantees us all variables are initialised to 0.
#ifndef E_ABSOLUTE
next_target.option_e_relative = 1;
#endif
}
/// Character Received - add it to our command
/// \param c the next character to process
void gcode_parse_char(uint8_t c) {
uint8_t checksum_char = c;
// uppercase
if (c >= 'a' && c <= 'z')
c &= ~32;
#ifdef SIMULATOR
sim_gcode_ch(c);
#endif
// process previous field
if (last_field) {
// check if we're seeing a new field or end of line
// any character will start a new field, even invalid/unknown ones
if ((c >= 'A' && c <= 'Z') || c == '*' || (c == 10) || (c == 13)) {
switch (last_field) {
case 'G':
next_target.G = read_digit.mantissa;
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint8(next_target.G);
break;
case 'M':
next_target.M = read_digit.mantissa;
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint8(next_target.M);
break;
case 'X':
if (next_target.option_inches)
next_target.target.axis[X] = decfloat_to_int(&read_digit, 25400);
else
next_target.target.axis[X] = decfloat_to_int(&read_digit, 1000);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_int32(next_target.target.axis[X]);
break;
case 'Y':
if (next_target.option_inches)
next_target.target.axis[Y] = decfloat_to_int(&read_digit, 25400);
else
next_target.target.axis[Y] = decfloat_to_int(&read_digit, 1000);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_int32(next_target.target.axis[Y]);
break;
case 'Z':
if (next_target.option_inches)
next_target.target.axis[Z] = decfloat_to_int(&read_digit, 25400);
else
next_target.target.axis[Z] = decfloat_to_int(&read_digit, 1000);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_int32(next_target.target.axis[Z]);
break;
case 'E':
if (next_target.option_inches)
next_target.target.axis[E] = decfloat_to_int(&read_digit, 25400);
else
next_target.target.axis[E] = decfloat_to_int(&read_digit, 1000);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint32(next_target.target.axis[E]);
break;
case 'F':
// just use raw integer, we need move distance and n_steps to convert it to a useful value, so wait until we have those to convert it
if (next_target.option_inches)
next_target.target.F = decfloat_to_int(&read_digit, 25400);
else
next_target.target.F = decfloat_to_int(&read_digit, 1);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint32(next_target.target.F);
break;
case 'S':
// if this is temperature, multiply by 4 to convert to quarter-degree units
// cosmetically this should be done in the temperature section,
// but it takes less code, less memory and loses no precision if we do it here instead
if ((next_target.M == 104) || (next_target.M == 109) || (next_target.M == 140))
next_target.S = decfloat_to_int(&read_digit, 4);
// if this is heater PID stuff, multiply by PID_SCALE because we divide by PID_SCALE later on
else if ((next_target.M >= 130) && (next_target.M <= 132))
next_target.S = decfloat_to_int(&read_digit, PID_SCALE);
else
next_target.S = decfloat_to_int(&read_digit, 1);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_int32(next_target.S);
break;
case 'P':
next_target.P = decfloat_to_int(&read_digit, 1);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint16(next_target.P);
break;
case 'T':
next_target.T = read_digit.mantissa;
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint8(next_target.T);
break;
case 'N':
next_target.N = decfloat_to_int(&read_digit, 1);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint32(next_target.N);
break;
case '*':
next_target.checksum_read = decfloat_to_int(&read_digit, 1);
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serwrite_uint8(next_target.checksum_read);
break;
}
// reset for next field
last_field = 0;
read_digit.sign = read_digit.mantissa = read_digit.exponent = 0;
}
}
// skip comments
if (next_target.seen_semi_comment == 0 && next_target.seen_parens_comment == 0) {
// new field?
if ((c >= 'A' && c <= 'Z') || c == '*') {
last_field = c;
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serial_writechar(c);
}
// process character
// Can't do ranges in switch..case, so process actual digits here.
// Do it early, as there are many more digits than characters expected.
if (c >= '0' && c <= '9') {
if (read_digit.exponent < DECFLOAT_EXP_MAX + 1 &&
((next_target.option_inches == 0 &&
read_digit.mantissa < DECFLOAT_MANT_MM_MAX) ||
(next_target.option_inches &&
read_digit.mantissa < DECFLOAT_MANT_IN_MAX))) {
// this is simply mantissa = (mantissa * 10) + atoi(c) in different clothes
read_digit.mantissa = (read_digit.mantissa << 3) +
(read_digit.mantissa << 1) + (c - '0');
if (read_digit.exponent)
read_digit.exponent++;
}
}
else {
switch (c) {
// Each currently known command is either G or M, so preserve
// previous G/M unless a new one has appeared.
// FIXME: same for T command
case 'G':
next_target.seen_G = 1;
next_target.seen_M = 0;
next_target.M = 0;
break;
case 'M':
next_target.seen_M = 1;
next_target.seen_G = 0;
next_target.G = 0;
break;
case 'X':
next_target.seen_X = 1;
break;
case 'Y':
next_target.seen_Y = 1;
break;
case 'Z':
next_target.seen_Z = 1;
break;
case 'E':
next_target.seen_E = 1;
break;
case 'F':
next_target.seen_F = 1;
break;
case 'S':
next_target.seen_S = 1;
break;
case 'P':
next_target.seen_P = 1;
break;
case 'T':
next_target.seen_T = 1;
break;
case 'N':
next_target.seen_N = 1;
break;
case '*':
next_target.seen_checksum = 1;
break;
// comments
case ';':
next_target.seen_semi_comment = 1;
break;
case '(':
next_target.seen_parens_comment = 1;
break;
// now for some numeracy
case '-':
read_digit.sign = 1;
// force sign to be at start of number, so 1-2 = -2 instead of -12
read_digit.exponent = 0;
read_digit.mantissa = 0;
break;
case '.':
if (read_digit.exponent == 0)
read_digit.exponent = 1;
break;
#ifdef DEBUG
case ' ':
case '\t':
case 10:
case 13:
// ignore
break;
#endif
default:
#ifdef DEBUG
// invalid
serial_writechar('?');
serial_writechar(c);
serial_writechar('?');
#endif
break;
}
}
} else if ( next_target.seen_parens_comment == 1 && c == ')')
next_target.seen_parens_comment = 0; // recognize stuff after a (comment)
if (next_target.seen_checksum == 0)
next_target.checksum_calculated =
crc(next_target.checksum_calculated, checksum_char);
// end of line
if ((c == 10) || (c == 13)) {
if (DEBUG_ECHO && (debug_flags & DEBUG_ECHO))
serial_writechar(c);
// Assume G1 for unspecified movements.
if ( ! next_target.seen_G && ! next_target.seen_M && ! next_target.seen_T &&
(next_target.seen_X || next_target.seen_Y || next_target.seen_Z ||
next_target.seen_E || next_target.seen_F)) {
next_target.seen_G = 1;
next_target.G = 1;
}
if (
#ifdef REQUIRE_LINENUMBER
((next_target.N >= next_target.N_expected) && (next_target.seen_N == 1)) ||
(next_target.seen_M && (next_target.M == 110))
#else
1
#endif
) {
if (
#ifdef REQUIRE_CHECKSUM
((next_target.checksum_calculated == next_target.checksum_read) && (next_target.seen_checksum == 1))
#else
((next_target.checksum_calculated == next_target.checksum_read) || (next_target.seen_checksum == 0))
#endif
) {
// process
serial_writestr_P(PSTR("ok "));
process_gcode_command();
serial_writechar('\n');
// expect next line number
if (next_target.seen_N == 1)
next_target.N_expected = next_target.N + 1;
}
else {
sersendf_P(PSTR("rs N%ld Expected checksum %d\n"), next_target.N_expected, next_target.checksum_calculated);
// request_resend();
}
}
else {
sersendf_P(PSTR("rs N%ld Expected line number %ld\n"), next_target.N_expected, next_target.N_expected);
// request_resend();
}
// reset variables
next_target.seen_X = next_target.seen_Y = next_target.seen_Z = \
next_target.seen_E = next_target.seen_F = next_target.seen_S = \
next_target.seen_P = next_target.seen_T = next_target.seen_N = \
next_target.seen_G = next_target.seen_M = next_target.seen_checksum = \
next_target.seen_semi_comment = next_target.seen_parens_comment = \
next_target.checksum_read = next_target.checksum_calculated = 0;
// last_field and read_digit are reset above already
if (next_target.option_all_relative) {
next_target.target.axis[X] = next_target.target.axis[Y] = next_target.target.axis[Z] = 0;
}
if (next_target.option_all_relative || next_target.option_e_relative) {
next_target.target.axis[E] = 0;
}
}
}
/***************************************************************************\
* *
* Request a resend of the current line - used from various places. *
* *
* Relies on the global variable next_target.N being valid. *
* *
\***************************************************************************/
void request_resend(void) {
serial_writestr_P(PSTR("rs "));
serwrite_uint8(next_target.N);
serial_writechar('\n');
}