Marlin 2.0 for Flying Bear 4S/5
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/**
* Marlin 3D Printer Firmware
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* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program 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.
*
* This program 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
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
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#include "../../inc/MarlinConfig.h"
#include "../gcode.h"
#include "../../module/motion.h"
#include "../../module/stepper.h"
#if ENABLED(M114_DETAIL)
#if HAS_L64XX
#include "../../libs/L64XX/L64XX_Marlin.h"
#define DEBUG_OUT ENABLED(L6470_CHITCHAT)
#include "../../core/debug_out.h"
#endif
void report_xyze(const xyze_pos_t &pos, const uint8_t n=XYZE, const uint8_t precision=3) {
char str[12];
LOOP_L_N(a, n) {
SERIAL_CHAR(' ', axis_codes[a], ':');
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if (pos[a] >= 0) SERIAL_CHAR(' ');
SERIAL_ECHO(dtostrf(pos[a], 1, precision, str));
}
SERIAL_EOL();
}
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inline void report_xyz(const xyze_pos_t &pos) { report_xyze(pos, XYZ); }
void report_xyz(const xyz_pos_t &pos, const uint8_t precision=3) {
char str[12];
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LOOP_XYZ(a) {
SERIAL_CHAR(' ', XYZ_CHAR(a), ':');
SERIAL_ECHO(dtostrf(pos[a], 1, precision, str));
}
SERIAL_EOL();
}
void report_current_position_detail() {
// Position as sent by G-code
SERIAL_ECHOPGM("\nLogical:");
report_xyz(current_position.asLogical());
// Cartesian position in native machine space
SERIAL_ECHOPGM("Raw: ");
report_xyz(current_position);
xyze_pos_t leveled = current_position;
#if HAS_LEVELING
// Current position with leveling applied
SERIAL_ECHOPGM("Leveled:");
planner.apply_leveling(leveled);
report_xyz(leveled);
// Test planner un-leveling. This should match the Raw result.
SERIAL_ECHOPGM("UnLevel:");
xyze_pos_t unleveled = leveled;
planner.unapply_leveling(unleveled);
report_xyz(unleveled);
#endif
#if IS_KINEMATIC
// Kinematics applied to the leveled position
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SERIAL_ECHOPGM(TERN(IS_SCARA, "ScaraK: ", "DeltaK: "));
inverse_kinematics(leveled); // writes delta[]
report_xyz(delta);
#endif
planner.synchronize();
#if HAS_L64XX
char temp_buf[80];
int32_t temp;
//#define ABS_POS_SIGN_MASK 0b1111 1111 1110 0000 0000 0000 0000 0000
#define ABS_POS_SIGN_MASK 0b11111111111000000000000000000000
#define REPORT_ABSOLUTE_POS(Q) do{ \
L64xxManager.say_axis(Q, false); \
temp = L6470_GETPARAM(L6470_ABS_POS,Q); \
if (temp & ABS_POS_SIGN_MASK) temp |= ABS_POS_SIGN_MASK; \
sprintf_P(temp_buf, PSTR(":%8ld "), temp); \
DEBUG_ECHO(temp_buf); \
}while(0)
DEBUG_ECHOPGM("\nL6470:");
#if AXIS_IS_L64XX(X)
REPORT_ABSOLUTE_POS(X);
#endif
#if AXIS_IS_L64XX(X2)
REPORT_ABSOLUTE_POS(X2);
#endif
#if AXIS_IS_L64XX(Y)
REPORT_ABSOLUTE_POS(Y);
#endif
#if AXIS_IS_L64XX(Y2)
REPORT_ABSOLUTE_POS(Y2);
#endif
#if AXIS_IS_L64XX(Z)
REPORT_ABSOLUTE_POS(Z);
#endif
#if AXIS_IS_L64XX(Z2)
REPORT_ABSOLUTE_POS(Z2);
#endif
#if AXIS_IS_L64XX(Z3)
REPORT_ABSOLUTE_POS(Z3);
#endif
#if AXIS_IS_L64XX(Z4)
REPORT_ABSOLUTE_POS(Z4);
#endif
#if AXIS_IS_L64XX(E0)
REPORT_ABSOLUTE_POS(E0);
#endif
#if AXIS_IS_L64XX(E1)
REPORT_ABSOLUTE_POS(E1);
#endif
#if AXIS_IS_L64XX(E2)
REPORT_ABSOLUTE_POS(E2);
#endif
#if AXIS_IS_L64XX(E3)
REPORT_ABSOLUTE_POS(E3);
#endif
#if AXIS_IS_L64XX(E4)
REPORT_ABSOLUTE_POS(E4);
#endif
#if AXIS_IS_L64XX(E5)
REPORT_ABSOLUTE_POS(E5);
#endif
#if AXIS_IS_L64XX(E6)
REPORT_ABSOLUTE_POS(E6);
#endif
#if AXIS_IS_L64XX(E7)
REPORT_ABSOLUTE_POS(E7);
#endif
SERIAL_EOL();
#endif // HAS_L64XX
SERIAL_ECHOPGM("Stepper:");
LOOP_XYZE(i) {
SERIAL_CHAR(' ', axis_codes[i], ':');
SERIAL_ECHO(stepper.position((AxisEnum)i));
}
SERIAL_EOL();
#if IS_SCARA
const xy_float_t deg = {
planner.get_axis_position_degrees(A_AXIS),
planner.get_axis_position_degrees(B_AXIS)
};
SERIAL_ECHOPGM("Degrees:");
report_xyze(deg, 2);
#endif
SERIAL_ECHOPGM("FromStp:");
get_cartesian_from_steppers(); // writes 'cartes' (with forward kinematics)
xyze_pos_t from_steppers = { cartes.x, cartes.y, cartes.z, planner.get_axis_position_mm(E_AXIS) };
report_xyze(from_steppers);
const xyze_float_t diff = from_steppers - leveled;
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SERIAL_ECHOPGM("Diff: ");
report_xyze(diff);
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TERN_(FULL_REPORT_TO_HOST_FEATURE, report_current_grblstate_moving());
}
#endif // M114_DETAIL
/**
* M114: Report the current position to host.
* Since steppers are moving, the count positions are
* projected by using planner calculations.
* D - Report more detail. This syncs the planner. (Requires M114_DETAIL)
* E - Report E stepper position (Requires M114_DETAIL)
* R - Report the realtime position instead of projected.
*/
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void GcodeSuite::M114() {
#if ENABLED(M114_DETAIL)
if (parser.seen('D')) {
#if DISABLED(M114_LEGACY)
planner.synchronize();
#endif
report_current_position();
report_current_position_detail();
return;
}
if (parser.seen('E')) {
SERIAL_ECHOLNPAIR("Count E:", stepper.position(E_AXIS));
return;
}
#endif
#if ENABLED(M114_REALTIME)
if (parser.seen('R')) { report_real_position(); return; }
#endif
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TERN_(M114_LEGACY, planner.synchronize());
report_current_position_projected();
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TERN_(FULL_REPORT_TO_HOST_FEATURE, report_current_grblstate_moving());
}