muele-marlin/Marlin/src/module/endstops.cpp

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/**
* Marlin 3D Printer Firmware
* Copyright (C) 2016 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
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
/**
* endstops.cpp - A singleton object to manage endstops
*/
#include "endstops.h"
#include "stepper.h"
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#include "../Marlin.h"
#include "../sd/cardreader.h"
#include "../module/temperature.h"
#include "../lcd/ultralcd.h"
// TEST_ENDSTOP: test the old and the current status of an endstop
#define TEST_ENDSTOP(ENDSTOP) (TEST(current_endstop_bits & old_endstop_bits, ENDSTOP))
Endstops endstops;
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// public:
bool Endstops::enabled, Endstops::enabled_globally; // Initialized by settings.load()
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volatile char Endstops::endstop_hit_bits; // use X_MIN, Y_MIN, Z_MIN and Z_MIN_PROBE as BIT value
#if ENABLED(X_DUAL_ENDSTOPS) || ENABLED(Y_DUAL_ENDSTOPS) || ENABLED(Z_DUAL_ENDSTOPS)
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uint16_t
#else
byte
#endif
Endstops::current_endstop_bits = 0,
Endstops::old_endstop_bits = 0;
#if HAS_BED_PROBE
volatile bool Endstops::z_probe_enabled = false;
#endif
#if ENABLED(X_DUAL_ENDSTOPS)
float Endstops::x_endstop_adj; // Initialized by settings.load()
#endif
#if ENABLED(Y_DUAL_ENDSTOPS)
float Endstops::y_endstop_adj; // Initialized by settings.load()
#endif
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#if ENABLED(Z_DUAL_ENDSTOPS)
float Endstops::z_endstop_adj; // Initialized by settings.load()
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#endif
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/**
* Class and Instance Methods
*/
void Endstops::init() {
#if HAS_X_MIN
#if ENABLED(ENDSTOPPULLUP_XMIN)
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SET_INPUT_PULLUP(X_MIN_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_XMIN)
SET_INPUT_PULLDOWN(X_MIN_PIN);
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#else
SET_INPUT(X_MIN_PIN);
#endif
#endif
#if HAS_X2_MIN
#if ENABLED(ENDSTOPPULLUP_XMIN)
SET_INPUT_PULLUP(X2_MIN_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_XMIN)
SET_INPUT_PULLDOWN(X2_MIN_PIN);
#else
SET_INPUT(X2_MIN_PIN);
#endif
#endif
#if HAS_Y_MIN
#if ENABLED(ENDSTOPPULLUP_YMIN)
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SET_INPUT_PULLUP(Y_MIN_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_YMIN)
SET_INPUT_PULLDOWN(Y_MIN_PIN);
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#else
SET_INPUT(Y_MIN_PIN);
#endif
#endif
#if HAS_Y2_MIN
#if ENABLED(ENDSTOPPULLUP_YMIN)
SET_INPUT_PULLUP(Y2_MIN_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_YMIN)
SET_INPUT_PULLDOWN(Y2_MIN_PIN);
#else
SET_INPUT(Y2_MIN_PIN);
#endif
#endif
#if HAS_Z_MIN
#if ENABLED(ENDSTOPPULLUP_ZMIN)
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SET_INPUT_PULLUP(Z_MIN_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_ZMIN)
SET_INPUT_PULLDOWN(Z_MIN_PIN);
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#else
SET_INPUT(Z_MIN_PIN);
#endif
#endif
#if HAS_Z2_MIN
#if ENABLED(ENDSTOPPULLUP_ZMIN)
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SET_INPUT_PULLUP(Z2_MIN_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_ZMIN)
SET_INPUT_PULLDOWN(Z2_MIN_PIN);
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#else
SET_INPUT(Z2_MIN_PIN);
#endif
#endif
#if HAS_X_MAX
#if ENABLED(ENDSTOPPULLUP_XMAX)
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SET_INPUT_PULLUP(X_MAX_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_XMAX)
SET_INPUT_PULLDOWN(X_MAX_PIN);
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#else
SET_INPUT(X_MAX_PIN);
#endif
#endif
#if HAS_X2_MAX
#if ENABLED(ENDSTOPPULLUP_XMAX)
SET_INPUT_PULLUP(X2_MAX_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_XMAX)
SET_INPUT_PULLDOWN(X2_MAX_PIN);
#else
SET_INPUT(X2_MAX_PIN);
#endif
#endif
#if HAS_Y_MAX
#if ENABLED(ENDSTOPPULLUP_YMAX)
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SET_INPUT_PULLUP(Y_MAX_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_YMAX)
SET_INPUT_PULLDOWN(Y_MAX_PIN);
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#else
SET_INPUT(Y_MAX_PIN);
#endif
#endif
#if HAS_Y2_MAX
#if ENABLED(ENDSTOPPULLUP_YMAX)
SET_INPUT_PULLUP(Y2_MAX_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_YMAX)
SET_INPUT_PULLDOWN(Y2_MAX_PIN);
#else
SET_INPUT(Y2_MAX_PIN);
#endif
#endif
#if HAS_Z_MAX
#if ENABLED(ENDSTOPPULLUP_ZMAX)
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SET_INPUT_PULLUP(Z_MAX_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_ZMAX)
SET_INPUT_PULLDOWN(Z_MAX_PIN);
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#else
SET_INPUT(Z_MAX_PIN);
#endif
#endif
#if HAS_Z2_MAX
#if ENABLED(ENDSTOPPULLUP_ZMAX)
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SET_INPUT_PULLUP(Z2_MAX_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_ZMAX)
SET_INPUT_PULLDOWN(Z2_MAX_PIN);
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#else
SET_INPUT(Z2_MAX_PIN);
#endif
#endif
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#if ENABLED(Z_MIN_PROBE_ENDSTOP)
#if ENABLED(ENDSTOPPULLUP_ZMIN_PROBE)
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SET_INPUT_PULLUP(Z_MIN_PROBE_PIN);
#elif ENABLED(ENDSTOPPULLDOWN_ZMIN_PROBE)
SET_INPUT_PULLDOWN(Z_MIN_PROBE_PIN);
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#else
SET_INPUT(Z_MIN_PROBE_PIN);
#endif
#endif
} // Endstops::init
void Endstops::report_state() {
if (endstop_hit_bits) {
#if ENABLED(ULTRA_LCD)
char chrX = ' ', chrY = ' ', chrZ = ' ', chrP = ' ';
#define _SET_STOP_CHAR(A,C) (chr## A = C)
#else
#define _SET_STOP_CHAR(A,C) ;
#endif
#define _ENDSTOP_HIT_ECHO(A,C) do{ \
SERIAL_ECHOPAIR(" " STRINGIFY(A) ":", stepper.triggered_position_mm(A ##_AXIS)); \
_SET_STOP_CHAR(A,C); }while(0)
#define _ENDSTOP_HIT_TEST(A,C) \
if (TEST(endstop_hit_bits, A ##_MIN) || TEST(endstop_hit_bits, A ##_MAX)) \
_ENDSTOP_HIT_ECHO(A,C)
#define ENDSTOP_HIT_TEST_X() _ENDSTOP_HIT_TEST(X,'X')
#define ENDSTOP_HIT_TEST_Y() _ENDSTOP_HIT_TEST(Y,'Y')
#define ENDSTOP_HIT_TEST_Z() _ENDSTOP_HIT_TEST(Z,'Z')
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SERIAL_ECHO_START();
SERIAL_ECHOPGM(MSG_ENDSTOPS_HIT);
ENDSTOP_HIT_TEST_X();
ENDSTOP_HIT_TEST_Y();
ENDSTOP_HIT_TEST_Z();
#if ENABLED(Z_MIN_PROBE_ENDSTOP)
#define P_AXIS Z_AXIS
if (TEST(endstop_hit_bits, Z_MIN_PROBE)) _ENDSTOP_HIT_ECHO(P, 'P');
#endif
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SERIAL_EOL();
#if ENABLED(ULTRA_LCD)
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lcd_status_printf_P(0, PSTR(MSG_LCD_ENDSTOPS " %c %c %c %c"), chrX, chrY, chrZ, chrP);
#endif
hit_on_purpose();
#if ENABLED(ABORT_ON_ENDSTOP_HIT_FEATURE_ENABLED) && ENABLED(SDSUPPORT)
if (stepper.abort_on_endstop_hit) {
card.sdprinting = false;
card.closefile();
quickstop_stepper();
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thermalManager.disable_all_heaters(); // switch off all heaters.
}
#endif
}
} // Endstops::report_state
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void Endstops::M119() {
SERIAL_PROTOCOLLNPGM(MSG_M119_REPORT);
#define ES_REPORT(AXIS) do{ \
SERIAL_PROTOCOLPGM(MSG_##AXIS); \
SERIAL_PROTOCOLLN(((READ(AXIS##_PIN)^AXIS##_ENDSTOP_INVERTING) ? MSG_ENDSTOP_HIT : MSG_ENDSTOP_OPEN)); \
}while(0)
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#if HAS_X_MIN
ES_REPORT(X_MIN);
#endif
#if HAS_X2_MIN
ES_REPORT(X2_MIN);
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#endif
#if HAS_X_MAX
ES_REPORT(X_MAX);
#endif
#if HAS_X2_MAX
ES_REPORT(X2_MAX);
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#endif
#if HAS_Y_MIN
ES_REPORT(Y_MIN);
#endif
#if HAS_Y2_MIN
ES_REPORT(Y2_MIN);
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#endif
#if HAS_Y_MAX
ES_REPORT(Y_MAX);
#endif
#if HAS_Y2_MAX
ES_REPORT(Y2_MAX);
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#endif
#if HAS_Z_MIN
ES_REPORT(Z_MIN);
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#endif
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#if HAS_Z2_MIN
ES_REPORT(Z2_MIN);
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#endif
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#if HAS_Z_MAX
ES_REPORT(Z_MAX);
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#endif
#if HAS_Z2_MAX
ES_REPORT(Z2_MAX);
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#endif
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#if ENABLED(Z_MIN_PROBE_ENDSTOP)
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SERIAL_PROTOCOLPGM(MSG_Z_PROBE);
SERIAL_PROTOCOLLN(((READ(Z_MIN_PROBE_PIN)^Z_MIN_PROBE_ENDSTOP_INVERTING) ? MSG_ENDSTOP_HIT : MSG_ENDSTOP_OPEN));
#endif
#if ENABLED(FILAMENT_RUNOUT_SENSOR)
SERIAL_PROTOCOLPGM(MSG_FILAMENT_RUNOUT_SENSOR);
SERIAL_PROTOCOLLN(((READ(FIL_RUNOUT_PIN)^FIL_RUNOUT_INVERTING) ? MSG_ENDSTOP_HIT : MSG_ENDSTOP_OPEN));
#endif
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} // Endstops::M119
#if ENABLED(X_DUAL_ENDSTOPS)
void Endstops::test_dual_x_endstops(const EndstopEnum es1, const EndstopEnum es2) {
const byte x_test = TEST_ENDSTOP(es1) | (TEST_ENDSTOP(es2) << 1); // bit 0 for X, bit 1 for X2
if (x_test && stepper.current_block->steps[X_AXIS] > 0) {
SBI(endstop_hit_bits, X_MIN);
if (!stepper.performing_homing || (x_test == 0x3)) //if not performing home or if both endstops were trigged during homing...
stepper.kill_current_block();
}
}
#endif
#if ENABLED(Y_DUAL_ENDSTOPS)
void Endstops::test_dual_y_endstops(const EndstopEnum es1, const EndstopEnum es2) {
const byte y_test = TEST_ENDSTOP(es1) | (TEST_ENDSTOP(es2) << 1); // bit 0 for Y, bit 1 for Y2
if (y_test && stepper.current_block->steps[Y_AXIS] > 0) {
SBI(endstop_hit_bits, Y_MIN);
if (!stepper.performing_homing || (y_test == 0x3)) //if not performing home or if both endstops were trigged during homing...
stepper.kill_current_block();
}
}
#endif
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#if ENABLED(Z_DUAL_ENDSTOPS)
void Endstops::test_dual_z_endstops(const EndstopEnum es1, const EndstopEnum es2) {
const byte z_test = TEST_ENDSTOP(es1) | (TEST_ENDSTOP(es2) << 1); // bit 0 for Z, bit 1 for Z2
if (z_test && stepper.current_block->steps[Z_AXIS] > 0) {
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SBI(endstop_hit_bits, Z_MIN);
if (!stepper.performing_homing || (z_test == 0x3)) //if not performing home or if both endstops were trigged during homing...
stepper.kill_current_block();
}
}
#endif
// Check endstops - Called from ISR!
void Endstops::update() {
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#define _ENDSTOP(AXIS, MINMAX) AXIS ##_## MINMAX
#define _ENDSTOP_PIN(AXIS, MINMAX) AXIS ##_## MINMAX ##_PIN
#define _ENDSTOP_INVERTING(AXIS, MINMAX) AXIS ##_## MINMAX ##_ENDSTOP_INVERTING
#define _ENDSTOP_HIT(AXIS, MINMAX) SBI(endstop_hit_bits, _ENDSTOP(AXIS, MINMAX))
#define SET_BIT(N,B,TF) do{ if (TF) SBI(N,B); else CBI(N,B); }while(0)
// UPDATE_ENDSTOP_BIT: set the current endstop bits for an endstop to its status
#define UPDATE_ENDSTOP_BIT(AXIS, MINMAX) SET_BIT(current_endstop_bits, _ENDSTOP(AXIS, MINMAX), (READ(_ENDSTOP_PIN(AXIS, MINMAX)) != _ENDSTOP_INVERTING(AXIS, MINMAX)))
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// COPY_BIT: copy the value of SRC_BIT to DST_BIT in DST
#define COPY_BIT(DST, SRC_BIT, DST_BIT) SET_BIT(DST, DST_BIT, TEST(DST, SRC_BIT))
#define UPDATE_ENDSTOP(AXIS,MINMAX) do { \
UPDATE_ENDSTOP_BIT(AXIS, MINMAX); \
if (TEST_ENDSTOP(_ENDSTOP(AXIS, MINMAX)) && stepper.current_block->steps[_AXIS(AXIS)] > 0) { \
_ENDSTOP_HIT(AXIS, MINMAX); \
stepper.endstop_triggered(_AXIS(AXIS)); \
} \
} while(0)
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#if ENABLED(G38_PROBE_TARGET) && PIN_EXISTS(Z_MIN_PROBE) && !(CORE_IS_XY || CORE_IS_XZ)
// If G38 command is active check Z_MIN_PROBE for ALL movement
if (G38_move) {
UPDATE_ENDSTOP_BIT(Z, MIN_PROBE);
if (TEST_ENDSTOP(_ENDSTOP(Z, MIN_PROBE))) {
if (stepper.current_block->steps[_AXIS(X)] > 0) { _ENDSTOP_HIT(X, MIN); stepper.endstop_triggered(_AXIS(X)); }
else if (stepper.current_block->steps[_AXIS(Y)] > 0) { _ENDSTOP_HIT(Y, MIN); stepper.endstop_triggered(_AXIS(Y)); }
else if (stepper.current_block->steps[_AXIS(Z)] > 0) { _ENDSTOP_HIT(Z, MIN); stepper.endstop_triggered(_AXIS(Z)); }
G38_endstop_hit = true;
}
}
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#endif
/**
* Define conditions for checking endstops
*/
#if IS_CORE
#define S_(N) stepper.current_block->steps[CORE_AXIS_##N]
#define D_(N) stepper.motor_direction(CORE_AXIS_##N)
#endif
#if CORE_IS_XY || CORE_IS_XZ
/**
* Head direction in -X axis for CoreXY and CoreXZ bots.
*
* If steps differ, both axes are moving.
* If DeltaA == -DeltaB, the movement is only in the 2nd axis (Y or Z, handled below)
* If DeltaA == DeltaB, the movement is only in the 1st axis (X)
*/
#if ENABLED(COREXY) || ENABLED(COREXZ)
#define X_CMP ==
#else
#define X_CMP !=
#endif
#define X_MOVE_TEST ( S_(1) != S_(2) || (S_(1) > 0 && D_(1) X_CMP D_(2)) )
#define X_AXIS_HEAD X_HEAD
#else
#define X_MOVE_TEST stepper.current_block->steps[X_AXIS] > 0
#define X_AXIS_HEAD X_AXIS
#endif
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#if CORE_IS_XY || CORE_IS_YZ
/**
* Head direction in -Y axis for CoreXY / CoreYZ bots.
*
* If steps differ, both axes are moving
* If DeltaA == DeltaB, the movement is only in the 1st axis (X or Y)
* If DeltaA == -DeltaB, the movement is only in the 2nd axis (Y or Z)
*/
#if ENABLED(COREYX) || ENABLED(COREYZ)
#define Y_CMP ==
#else
#define Y_CMP !=
#endif
#define Y_MOVE_TEST ( S_(1) != S_(2) || (S_(1) > 0 && D_(1) Y_CMP D_(2)) )
#define Y_AXIS_HEAD Y_HEAD
#else
#define Y_MOVE_TEST stepper.current_block->steps[Y_AXIS] > 0
#define Y_AXIS_HEAD Y_AXIS
#endif
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#if CORE_IS_XZ || CORE_IS_YZ
/**
* Head direction in -Z axis for CoreXZ or CoreYZ bots.
*
* If steps differ, both axes are moving
* If DeltaA == DeltaB, the movement is only in the 1st axis (X or Y, already handled above)
* If DeltaA == -DeltaB, the movement is only in the 2nd axis (Z)
*/
#if ENABLED(COREZX) || ENABLED(COREZY)
#define Z_CMP ==
#else
#define Z_CMP !=
#endif
#define Z_MOVE_TEST ( S_(1) != S_(2) || (S_(1) > 0 && D_(1) Z_CMP D_(2)) )
#define Z_AXIS_HEAD Z_HEAD
#else
#define Z_MOVE_TEST stepper.current_block->steps[Z_AXIS] > 0
#define Z_AXIS_HEAD Z_AXIS
#endif
// With Dual X, endstops are only checked in the homing direction for the active extruder
#if ENABLED(DUAL_X_CARRIAGE)
#define E0_ACTIVE stepper.current_block->active_extruder == 0
#define X_MIN_TEST ((X_HOME_DIR < 0 && E0_ACTIVE) || (X2_HOME_DIR < 0 && !E0_ACTIVE))
#define X_MAX_TEST ((X_HOME_DIR > 0 && E0_ACTIVE) || (X2_HOME_DIR > 0 && !E0_ACTIVE))
#else
#define X_MIN_TEST true
#define X_MAX_TEST true
#endif
/**
* Check and update endstops according to conditions
*/
if (X_MOVE_TEST) {
if (stepper.motor_direction(X_AXIS_HEAD)) { // -direction
#if HAS_X_MIN
#if ENABLED(X_DUAL_ENDSTOPS)
UPDATE_ENDSTOP_BIT(X, MIN);
#if HAS_X2_MIN
UPDATE_ENDSTOP_BIT(X2, MIN);
#else
COPY_BIT(current_endstop_bits, X_MIN, X2_MIN);
#endif
test_dual_x_endstops(X_MIN, X2_MIN);
#else
if (X_MIN_TEST) UPDATE_ENDSTOP(X, MIN);
#endif
#endif
}
else { // +direction
#if HAS_X_MAX
#if ENABLED(X_DUAL_ENDSTOPS)
UPDATE_ENDSTOP_BIT(X, MAX);
#if HAS_X2_MAX
UPDATE_ENDSTOP_BIT(X2, MAX);
#else
COPY_BIT(current_endstop_bits, X_MAX, X2_MAX);
#endif
test_dual_x_endstops(X_MAX, X2_MAX);
#else
if (X_MAX_TEST) UPDATE_ENDSTOP(X, MAX);
#endif
#endif
}
}
if (Y_MOVE_TEST) {
if (stepper.motor_direction(Y_AXIS_HEAD)) { // -direction
#if HAS_Y_MIN
#if ENABLED(Y_DUAL_ENDSTOPS)
UPDATE_ENDSTOP_BIT(Y, MIN);
#if HAS_Y2_MIN
UPDATE_ENDSTOP_BIT(Y2, MIN);
#else
COPY_BIT(current_endstop_bits, Y_MIN, Y2_MIN);
#endif
test_dual_y_endstops(Y_MIN, Y2_MIN);
#else
UPDATE_ENDSTOP(Y, MIN);
#endif
#endif
}
else { // +direction
#if HAS_Y_MAX
#if ENABLED(Y_DUAL_ENDSTOPS)
UPDATE_ENDSTOP_BIT(Y, MAX);
#if HAS_Y2_MAX
UPDATE_ENDSTOP_BIT(Y2, MAX);
#else
COPY_BIT(current_endstop_bits, Y_MAX, Y2_MAX);
#endif
test_dual_y_endstops(Y_MAX, Y2_MAX);
#else
UPDATE_ENDSTOP(Y, MAX);
#endif
#endif
}
}
if (Z_MOVE_TEST) {
if (stepper.motor_direction(Z_AXIS_HEAD)) { // Z -direction. Gantry down, bed up.
#if HAS_Z_MIN
#if ENABLED(Z_DUAL_ENDSTOPS)
UPDATE_ENDSTOP_BIT(Z, MIN);
#if HAS_Z2_MIN
UPDATE_ENDSTOP_BIT(Z2, MIN);
#else
COPY_BIT(current_endstop_bits, Z_MIN, Z2_MIN);
#endif
test_dual_z_endstops(Z_MIN, Z2_MIN);
#else
#if ENABLED(Z_MIN_PROBE_USES_Z_MIN_ENDSTOP_PIN)
if (z_probe_enabled) UPDATE_ENDSTOP(Z, MIN);
#else
UPDATE_ENDSTOP(Z, MIN);
#endif
#endif
#endif
// When closing the gap check the enabled probe
#if ENABLED(Z_MIN_PROBE_ENDSTOP)
if (z_probe_enabled) {
UPDATE_ENDSTOP(Z, MIN_PROBE);
if (TEST_ENDSTOP(Z_MIN_PROBE)) SBI(endstop_hit_bits, Z_MIN_PROBE);
}
#endif
}
else { // Z +direction. Gantry up, bed down.
#if HAS_Z_MAX
// Check both Z dual endstops
#if ENABLED(Z_DUAL_ENDSTOPS)
UPDATE_ENDSTOP_BIT(Z, MAX);
#if HAS_Z2_MAX
UPDATE_ENDSTOP_BIT(Z2, MAX);
#else
COPY_BIT(current_endstop_bits, Z_MAX, Z2_MAX);
#endif
test_dual_z_endstops(Z_MAX, Z2_MAX);
// If this pin is not hijacked for the bed probe
// then it belongs to the Z endstop
#elif DISABLED(Z_MIN_PROBE_ENDSTOP) || Z_MAX_PIN != Z_MIN_PROBE_PIN
UPDATE_ENDSTOP(Z, MAX);
#endif
#endif
}
}
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old_endstop_bits = current_endstop_bits;
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} // Endstops::update()
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#if ENABLED(PINS_DEBUGGING)
bool Endstops::monitor_flag = false;
/**
* monitors endstops & Z probe for changes
*
* If a change is detected then the LED is toggled and
* a message is sent out the serial port
*
* Yes, we could miss a rapid back & forth change but
* that won't matter because this is all manual.
*
*/
void Endstops::monitor() {
static uint16_t old_endstop_bits_local = 0;
static uint8_t local_LED_status = 0;
uint16_t current_endstop_bits_local = 0;
#if HAS_X_MIN
if (READ(X_MIN_PIN)) SBI(current_endstop_bits_local, X_MIN);
#endif
#if HAS_X_MAX
if (READ(X_MAX_PIN)) SBI(current_endstop_bits_local, X_MAX);
#endif
#if HAS_Y_MIN
if (READ(Y_MIN_PIN)) SBI(current_endstop_bits_local, Y_MIN);
#endif
#if HAS_Y_MAX
if (READ(Y_MAX_PIN)) SBI(current_endstop_bits_local, Y_MAX);
#endif
#if HAS_Z_MIN
if (READ(Z_MIN_PIN)) SBI(current_endstop_bits_local, Z_MIN);
#endif
#if HAS_Z_MAX
if (READ(Z_MAX_PIN)) SBI(current_endstop_bits_local, Z_MAX);
#endif
#if HAS_Z_MIN_PROBE_PIN
if (READ(Z_MIN_PROBE_PIN)) SBI(current_endstop_bits_local, Z_MIN_PROBE);
#endif
#if HAS_X2_MIN
if (READ(X2_MIN_PIN)) SBI(current_endstop_bits_local, X2_MIN);
#endif
#if HAS_X2_MAX
if (READ(X2_MAX_PIN)) SBI(current_endstop_bits_local, X2_MAX);
#endif
#if HAS_Y2_MIN
if (READ(Y2_MIN_PIN)) SBI(current_endstop_bits_local, Y2_MIN);
#endif
#if HAS_Y2_MAX
if (READ(Y2_MAX_PIN)) SBI(current_endstop_bits_local, Y2_MAX);
#endif
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#if HAS_Z2_MIN
if (READ(Z2_MIN_PIN)) SBI(current_endstop_bits_local, Z2_MIN);
#endif
#if HAS_Z2_MAX
if (READ(Z2_MAX_PIN)) SBI(current_endstop_bits_local, Z2_MAX);
#endif
uint16_t endstop_change = current_endstop_bits_local ^ old_endstop_bits_local;
if (endstop_change) {
#if HAS_X_MIN
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if (TEST(endstop_change, X_MIN)) SERIAL_PROTOCOLPAIR(" X_MIN:", TEST(current_endstop_bits_local, X_MIN));
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#endif
#if HAS_X_MAX
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if (TEST(endstop_change, X_MAX)) SERIAL_PROTOCOLPAIR(" X_MAX:", TEST(current_endstop_bits_local, X_MAX));
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#endif
#if HAS_Y_MIN
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if (TEST(endstop_change, Y_MIN)) SERIAL_PROTOCOLPAIR(" Y_MIN:", TEST(current_endstop_bits_local, Y_MIN));
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#endif
#if HAS_Y_MAX
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if (TEST(endstop_change, Y_MAX)) SERIAL_PROTOCOLPAIR(" Y_MAX:", TEST(current_endstop_bits_local, Y_MAX));
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#endif
#if HAS_Z_MIN
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if (TEST(endstop_change, Z_MIN)) SERIAL_PROTOCOLPAIR(" Z_MIN:", TEST(current_endstop_bits_local, Z_MIN));
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#endif
#if HAS_Z_MAX
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if (TEST(endstop_change, Z_MAX)) SERIAL_PROTOCOLPAIR(" Z_MAX:", TEST(current_endstop_bits_local, Z_MAX));
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#endif
#if HAS_Z_MIN_PROBE_PIN
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if (TEST(endstop_change, Z_MIN_PROBE)) SERIAL_PROTOCOLPAIR(" PROBE:", TEST(current_endstop_bits_local, Z_MIN_PROBE));
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#endif
#if HAS_X2_MIN
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if (TEST(endstop_change, X2_MIN)) SERIAL_PROTOCOLPAIR(" X2_MIN:", TEST(current_endstop_bits_local, X2_MIN));
#endif
#if HAS_X2_MAX
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if (TEST(endstop_change, X2_MAX)) SERIAL_PROTOCOLPAIR(" X2_MAX:", TEST(current_endstop_bits_local, X2_MAX));
#endif
#if HAS_Y2_MIN
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if (TEST(endstop_change, Y2_MIN)) SERIAL_PROTOCOLPAIR(" Y2_MIN:", TEST(current_endstop_bits_local, Y2_MIN));
#endif
#if HAS_Y2_MAX
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if (TEST(endstop_change, Y2_MAX)) SERIAL_PROTOCOLPAIR(" Y2_MAX:", TEST(current_endstop_bits_local, Y2_MAX));
#endif
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#if HAS_Z2_MIN
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if (TEST(endstop_change, Z2_MIN)) SERIAL_PROTOCOLPAIR(" Z2_MIN:", TEST(current_endstop_bits_local, Z2_MIN));
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#endif
#if HAS_Z2_MAX
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if (TEST(endstop_change, Z2_MAX)) SERIAL_PROTOCOLPAIR(" Z2_MAX:", TEST(current_endstop_bits_local, Z2_MAX));
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#endif
SERIAL_PROTOCOLPGM("\n\n");
analogWrite(LED_PIN, local_LED_status);
local_LED_status ^= 255;
old_endstop_bits_local = current_endstop_bits_local;
}
}
#endif // PINS_DEBUGGING