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🧑💻 MAP macro for axis lists, etc. (#24191)
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@ -700,13 +700,22 @@
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#define RREPEAT2_S(S,N,OP,V...) EVAL1024(_RREPEAT2(S,SUB##S(N),OP,V))
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#define RREPEAT2(N,OP,V...) RREPEAT2_S(0,N,OP,V)
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// See https://github.com/swansontec/map-macro
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#define MAP_OUT
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#define MAP_END(...)
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#define MAP_GET_END() 0, MAP_END
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#define MAP_NEXT0(test, next, ...) next MAP_OUT
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#define MAP_NEXT1(test, next) MAP_NEXT0 (test, next, 0)
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#define MAP_NEXT(test, next) MAP_NEXT1 (MAP_GET_END test, next)
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#define MAP0(f, x, peek, ...) f(x) MAP_NEXT (peek, MAP1) (f, peek, __VA_ARGS__)
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#define MAP1(f, x, peek, ...) f(x) MAP_NEXT (peek, MAP0) (f, peek, __VA_ARGS__)
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#define MAP(f, ...) EVAL512 (MAP1 (f, __VA_ARGS__, (), 0))
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// Call OP(A) with each item as an argument
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#define _MAP(_MAP_OP,A,V...) \
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_MAP_OP(A) \
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IF_ELSE(HAS_ARGS(V)) \
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( DEFER2(__MAP)()(_MAP_OP,V) ) \
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( /* Do nothing */ )
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#define __MAP() _MAP
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#define MAP(OP,V...) EVAL(_MAP(OP,V))
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// Emit a list of OP(A) with the given items
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#define _MAPLIST(_MAP_OP,A,V...) \
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_MAP_OP(A) \
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IF_ELSE(HAS_ARGS(V)) \
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( , DEFER2(__MAPLIST)()(_MAP_OP,V) ) \
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( /* Do nothing */ )
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#define __MAPLIST() _MAPLIST
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#define MAPLIST(OP,V...) EVAL(_MAPLIST(OP,V))
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@ -36,22 +36,34 @@ struct IF { typedef R type; };
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template <class L, class R>
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struct IF<true, L, R> { typedef L type; };
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#define ALL_AXIS_NAMES X, X2, Y, Y2, Z, Z2, Z3, Z4, I, J, K, E0, E1, E2, E3, E4, E5, E6, E7
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#define LINEAR_AXIS_GANG(V...) GANG_N(LINEAR_AXES, V)
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#define LINEAR_AXIS_CODE(V...) CODE_N(LINEAR_AXES, V)
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#define LINEAR_AXIS_LIST(V...) LIST_N(LINEAR_AXES, V)
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#define LINEAR_AXIS_LIST_1(V) LIST_N_1(LINEAR_AXES, V)
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#define LINEAR_AXIS_ARRAY(V...) { LINEAR_AXIS_LIST(V) }
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#define LINEAR_AXIS_ARRAY_1(V) { LINEAR_AXIS_LIST_1(V) }
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#define LINEAR_AXIS_ARGS(T...) LINEAR_AXIS_LIST(T x, T y, T z, T i, T j, T k)
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#define LINEAR_AXIS_ELEM(O) LINEAR_AXIS_LIST(O.x, O.y, O.z, O.i, O.j, O.k)
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#define LINEAR_AXIS_DEFS(T,V) LINEAR_AXIS_LIST(T x=V, T y=V, T z=V, T i=V, T j=V, T k=V)
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#define MAIN_AXIS_NAMES LINEAR_AXIS_LIST(X, Y, Z, I, J, K)
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#define MAIN_AXIS_MAP(F) MAP(F, MAIN_AXIS_NAMES)
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#define LOGICAL_AXIS_GANG(E,V...) LINEAR_AXIS_GANG(V) GANG_ITEM_E(E)
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#define LOGICAL_AXIS_CODE(E,V...) LINEAR_AXIS_CODE(V) CODE_ITEM_E(E)
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#define LOGICAL_AXIS_LIST(E,V...) LINEAR_AXIS_LIST(V) LIST_ITEM_E(E)
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#define LOGICAL_AXIS_LIST_1(E,V) LINEAR_AXIS_LIST_1(V) LIST_ITEM_E(E)
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#define LOGICAL_AXIS_ARRAY(E,V...) { LOGICAL_AXIS_LIST(E,V) }
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#define LOGICAL_AXIS_ARRAY_1(E,V) { LOGICAL_AXIS_LIST_1(E,V) }
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#define LOGICAL_AXIS_ARGS(T...) LOGICAL_AXIS_LIST(T e, T x, T y, T z, T i, T j, T k)
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#define LOGICAL_AXIS_ELEM(O) LOGICAL_AXIS_LIST(O.e, O.x, O.y, O.z, O.i, O.j, O.k)
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#define LOGICAL_AXIS_DECL(T,V) LOGICAL_AXIS_LIST(T e=V, T x=V, T y=V, T z=V, T i=V, T j=V, T k=V)
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#define LOGICAL_AXIS_NAMES LOGICAL_AXIS_LIST(E, X, Y, Z, I, J, K)
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#define LOGICAL_AXIS_MAP(F) MAP(F, LOGICAL_AXIS_NAMES)
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#define LOGICAL_AXES_STRING LOGICAL_AXIS_GANG("E", "X", "Y", "Z", STR_I, STR_J, STR_K)
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#if HAS_EXTRUDERS
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@ -41,8 +41,6 @@
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#define PCT_TO_PWM(X) ((X) * 255 / 100)
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#define PCT_TO_SERVO(X) ((X) * 180 / 100)
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// #define _MAP(N,S1,S2,D1,D2) ((N)*_MAX((D2)-(D1),0)/_MAX((S2)-(S1),1)+(D1))
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class SpindleLaser {
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public:
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static const inline uint8_t pct_to_ocr(const_float_t pct) { return uint8_t(PCT_TO_PWM(pct)); }
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@ -47,16 +47,10 @@ void GcodeSuite::M425() {
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bool noArgs = true;
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auto axis_can_calibrate = [](const uint8_t a) {
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#define _CAN_CASE(N) case N##_AXIS: return AXIS_CAN_CALIBRATE(N);
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switch (a) {
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default: return false;
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LINEAR_AXIS_CODE(
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case X_AXIS: return AXIS_CAN_CALIBRATE(X),
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case Y_AXIS: return AXIS_CAN_CALIBRATE(Y),
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case Z_AXIS: return AXIS_CAN_CALIBRATE(Z),
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case I_AXIS: return AXIS_CAN_CALIBRATE(I),
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case J_AXIS: return AXIS_CAN_CALIBRATE(J),
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case K_AXIS: return AXIS_CAN_CALIBRATE(K)
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);
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MAIN_AXIS_MAP(_CAN_CASE)
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}
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};
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@ -417,7 +417,7 @@ void menu_backlash();
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#elif ENABLED(LIMITED_MAX_FR_EDITING)
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DEFAULT_MAX_FEEDRATE
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#else
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LOGICAL_AXIS_ARRAY(9999, 9999, 9999, 9999, 9999, 9999, 9999)
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LOGICAL_AXIS_ARRAY_1(9999)
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#endif
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;
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#if ENABLED(LIMITED_MAX_FR_EDITING) && !defined(MAX_FEEDRATE_EDIT_VALUES)
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@ -460,7 +460,7 @@ void menu_backlash();
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#elif ENABLED(LIMITED_MAX_ACCEL_EDITING)
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DEFAULT_MAX_ACCELERATION
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#else
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LOGICAL_AXIS_ARRAY(99000, 99000, 99000, 99000, 99000, 99000, 99000)
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LOGICAL_AXIS_ARRAY_1(99000)
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#endif
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;
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#if ENABLED(LIMITED_MAX_ACCEL_EDITING) && !defined(MAX_ACCEL_EDIT_VALUES)
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@ -525,11 +525,10 @@ void menu_backlash();
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#ifdef MAX_JERK_EDIT_VALUES
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MAX_JERK_EDIT_VALUES
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#elif ENABLED(LIMITED_JERK_EDITING)
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{ LOGICAL_AXIS_LIST((DEFAULT_EJERK) * 2,
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(DEFAULT_XJERK) * 2, (DEFAULT_YJERK) * 2, (DEFAULT_ZJERK) * 2,
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(DEFAULT_IJERK) * 2, (DEFAULT_JJERK) * 2, (DEFAULT_KJERK) * 2) }
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#define _JERK2(N) DEFAULT_##N##JERK * 2
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{ MAPLIST(_JERK2, LOGICAL_AXIS_NAMES) }
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#else
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{ LOGICAL_AXIS_LIST(990, 990, 990, 990, 990, 990, 990) }
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LOGICAL_AXIS_ARRAY_1(990)
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#endif
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;
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@ -36,7 +36,7 @@
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#define HAS_L64XX_EXTRUDER (AXIS_IS_L64XX(E0) || AXIS_IS_L64XX(E1) || AXIS_IS_L64XX(E2) || AXIS_IS_L64XX(E3) || AXIS_IS_L64XX(E4) || AXIS_IS_L64XX(E5) || AXIS_IS_L64XX(E6) || AXIS_IS_L64XX(E7))
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#define _EN_ITEM(N) , E##N
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enum L64XX_axis_t : uint8_t { LINEAR_AXIS_LIST(X, Y, Z, I, J, K), X2, Y2, Z2, Z3, Z4 REPEAT(E_STEPPERS, _EN_ITEM), MAX_L64XX };
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enum L64XX_axis_t : uint8_t { MAIN_AXIS_NAMES, X2, Y2, Z2, Z3, Z4 REPEAT(E_STEPPERS, _EN_ITEM), MAX_L64XX };
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#undef _EN_ITEM
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class L64XX_Marlin : public L64XXHelper {
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@ -1365,50 +1365,46 @@ void Endstops::update() {
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*/
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void Endstops::set_homing_current(const bool onoff) {
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#define HAS_CURRENT_HOME(N) (defined(N##_CURRENT_HOME) && N##_CURRENT_HOME != N##_CURRENT)
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#define HAS_DELTA_X_CURRENT (ENABLED(DELTA) && HAS_CURRENT_HOME(X))
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#define HAS_DELTA_Y_CURRENT (ENABLED(DELTA) && HAS_CURRENT_HOME(Y))
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#if HAS_DELTA_X_CURRENT || HAS_DELTA_Y_CURRENT || HAS_CURRENT_HOME(Z)
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#if HAS_DELTA_X_CURRENT
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static int16_t saved_current_x;
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#endif
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#if HAS_DELTA_Y_CURRENT
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static int16_t saved_current_y;
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#define _HOME_ELEM(N) HAS_CURRENT_HOME(N) ||
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#if MAIN_AXIS_MAP(_HOME_ELEM) 0
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#if ENABLED(DELTA)
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static int16_t saved_current_X, saved_current_Y;
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#endif
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#if HAS_CURRENT_HOME(Z)
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static int16_t saved_current_z;
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static int16_t saved_current_Z;
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#endif
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auto debug_current_on = [](PGM_P const s, const int16_t a, const int16_t b) {
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if (DEBUGGING(LEVELING)) { DEBUG_ECHOPGM_P(s); DEBUG_ECHOLNPGM(" current: ", a, " -> ", b); }
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};
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if (onoff) {
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#if HAS_DELTA_X_CURRENT
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saved_current_x = stepperX.getMilliamps();
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saved_current_X = stepperX.getMilliamps();
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stepperX.rms_current(X_CURRENT_HOME);
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debug_current_on(PSTR("X"), saved_current_x, X_CURRENT_HOME);
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debug_current_on(PSTR("X"), saved_current_X, X_CURRENT_HOME);
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#endif
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#if HAS_DELTA_Y_CURRENT
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saved_current_y = stepperY.getMilliamps();
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saved_current_Y = stepperY.getMilliamps();
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stepperY.rms_current(Y_CURRENT_HOME);
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debug_current_on(PSTR("Y"), saved_current_y, Y_CURRENT_HOME);
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debug_current_on(PSTR("Y"), saved_current_Y, Y_CURRENT_HOME);
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#endif
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#if HAS_CURRENT_HOME(Z)
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saved_current_z = stepperZ.getMilliamps();
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saved_current_Z = stepperZ.getMilliamps();
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stepperZ.rms_current(Z_CURRENT_HOME);
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debug_current_on(PSTR("Z"), saved_current_z, Z_CURRENT_HOME);
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debug_current_on(PSTR("Z"), saved_current_Z, Z_CURRENT_HOME);
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#endif
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}
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else {
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#if HAS_DELTA_X_CURRENT
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stepperX.rms_current(saved_current_x);
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debug_current_on(PSTR("X"), X_CURRENT_HOME, saved_current_x);
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stepperX.rms_current(saved_current_X);
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debug_current_on(PSTR("X"), X_CURRENT_HOME, saved_current_X);
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#endif
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#if HAS_DELTA_Y_CURRENT
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stepperY.rms_current(saved_current_y);
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debug_current_on(PSTR("Y"), Y_CURRENT_HOME, saved_current_y);
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stepperY.rms_current(saved_current_Y);
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debug_current_on(PSTR("Y"), Y_CURRENT_HOME, saved_current_Y);
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#endif
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#if HAS_CURRENT_HOME(Z)
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stepperZ.rms_current(saved_current_z);
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debug_current_on(PSTR("Z"), Z_CURRENT_HOME, saved_current_z);
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stepperZ.rms_current(saved_current_Z);
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debug_current_on(PSTR("Z"), Z_CURRENT_HOME, saved_current_Z);
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#endif
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}
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@ -677,10 +677,12 @@ void restore_feedrate_and_scaling() {
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#if HAS_SOFTWARE_ENDSTOPS
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// Software Endstops are based on the configured limits.
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#define _AMIN(A) A##_MIN_POS
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#define _AMAX(A) (_AXIS(A) < Z_AXIS ? A##_MAX_BED : A##_MAX_POS)
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soft_endstops_t soft_endstop = {
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true, false,
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LINEAR_AXIS_ARRAY(X_MIN_POS, Y_MIN_POS, Z_MIN_POS, I_MIN_POS, J_MIN_POS, K_MIN_POS),
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LINEAR_AXIS_ARRAY(X_MAX_BED, Y_MAX_BED, Z_MAX_POS, I_MAX_POS, J_MAX_POS, K_MAX_POS)
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{ MAPLIST(_AMIN, MAIN_AXIS_NAMES) },
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{ MAPLIST(_AMAX, MAIN_AXIS_NAMES) }
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};
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/**
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@ -1733,14 +1735,8 @@ void prepare_line_to_destination() {
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|| TERN0(A##_HOME_TO_MIN, A##_MIN_PIN > -1) \
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|| TERN0(A##_HOME_TO_MAX, A##_MAX_PIN > -1) \
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))
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if (LINEAR_AXIS_GANG(
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!_CAN_HOME(X),
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&& !_CAN_HOME(Y),
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&& !_CAN_HOME(Z),
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&& !_CAN_HOME(I),
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&& !_CAN_HOME(J),
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&& !_CAN_HOME(K))
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) return;
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#define _ANDCANT(N) && !_CAN_HOME(N)
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if (true MAIN_AXIS_MAP(_ANDCANT)) return;
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#endif
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if (DEBUGGING(LEVELING)) DEBUG_ECHOLNPGM(">>> homeaxis(", AS_CHAR(AXIS_CHAR(axis)), ")");
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@ -180,9 +180,9 @@
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#define _EN_ITEM(N) , E##N
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#define _EN1_ITEM(N) , E##N:1
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typedef struct { uint16_t LINEAR_AXIS_LIST(X, Y, Z, I, J, K), X2, Y2, Z2, Z3, Z4 REPEAT(E_STEPPERS, _EN_ITEM); } per_stepper_uint16_t;
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typedef struct { uint32_t LINEAR_AXIS_LIST(X, Y, Z, I, J, K), X2, Y2, Z2, Z3, Z4 REPEAT(E_STEPPERS, _EN_ITEM); } per_stepper_uint32_t;
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typedef struct { int16_t LINEAR_AXIS_LIST(X, Y, Z, I, J, K), X2, Y2, Z2, Z3, Z4; } mot_stepper_int16_t;
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typedef struct { uint16_t MAIN_AXIS_NAMES, X2, Y2, Z2, Z3, Z4 REPEAT(E_STEPPERS, _EN_ITEM); } per_stepper_uint16_t;
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typedef struct { uint32_t MAIN_AXIS_NAMES, X2, Y2, Z2, Z3, Z4 REPEAT(E_STEPPERS, _EN_ITEM); } per_stepper_uint32_t;
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typedef struct { int16_t MAIN_AXIS_NAMES, X2, Y2, Z2, Z3, Z4; } mot_stepper_int16_t;
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typedef struct { bool LINEAR_AXIS_LIST(X:1, Y:1, Z:1, I:1, J:1, K:1), X2:1, Y2:1, Z2:1, Z3:1, Z4:1 REPEAT(E_STEPPERS, _EN1_ITEM); } per_stepper_bool_t;
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#undef _EN_ITEM
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@ -486,10 +486,7 @@ xyze_int8_t Stepper::count_direction{0};
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void Stepper::enable_axis(const AxisEnum axis) {
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#define _CASE_ENABLE(N) case N##_AXIS: ENABLE_AXIS_##N(); break;
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switch (axis) {
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LINEAR_AXIS_CODE(
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_CASE_ENABLE(X), _CASE_ENABLE(Y), _CASE_ENABLE(Z),
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_CASE_ENABLE(I), _CASE_ENABLE(J), _CASE_ENABLE(K)
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);
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MAIN_AXIS_MAP(_CASE_ENABLE)
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default: break;
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}
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mark_axis_enabled(axis);
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@ -505,10 +502,7 @@ bool Stepper::disable_axis(const AxisEnum axis) {
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if (can_disable) {
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#define _CASE_DISABLE(N) case N##_AXIS: DISABLE_AXIS_##N(); break;
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switch (axis) {
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LINEAR_AXIS_CODE(
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_CASE_DISABLE(X), _CASE_DISABLE(Y), _CASE_DISABLE(Z),
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_CASE_DISABLE(I), _CASE_DISABLE(J), _CASE_DISABLE(K)
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);
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MAIN_AXIS_MAP(_CASE_DISABLE)
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default: break;
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}
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}
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@ -449,7 +449,7 @@ enum StealthIndex : uint8_t {
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#endif
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#define _EN_ITEM(N) , E##N
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enum TMCAxis : uint8_t { LINEAR_AXIS_LIST(X, Y, Z, I, J, K), X2, Y2, Z2, Z3, Z4 REPEAT(EXTRUDERS, _EN_ITEM), TOTAL };
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enum TMCAxis : uint8_t { MAIN_AXIS_NAMES, X2, Y2, Z2, Z3, Z4 REPEAT(EXTRUDERS, _EN_ITEM), TOTAL };
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#undef _EN_ITEM
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void tmc_serial_begin() {
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@ -943,11 +943,7 @@ void reset_trinamic_drivers() {
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#define TMC_HW_DETAIL_ARGS(A) TERN(A##_HAS_HW_SERIAL, STRINGIFY(A##_HARDWARE_SERIAL), ""), TERN0(A##_HAS_HW_SERIAL, A##_SLAVE_ADDRESS)
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#define TMC_HW_DETAIL(A) { TMC_HW_DETAIL_ARGS(A) }
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constexpr SanityHwSerialDetails sanity_tmc_hw_details[] = {
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TMC_HW_DETAIL(X), TMC_HW_DETAIL(X2),
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TMC_HW_DETAIL(Y), TMC_HW_DETAIL(Y2),
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TMC_HW_DETAIL(Z), TMC_HW_DETAIL(Z2), TMC_HW_DETAIL(Z3), TMC_HW_DETAIL(Z4),
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TMC_HW_DETAIL(I), TMC_HW_DETAIL(J), TMC_HW_DETAIL(K),
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TMC_HW_DETAIL(E0), TMC_HW_DETAIL(E1), TMC_HW_DETAIL(E2), TMC_HW_DETAIL(E3), TMC_HW_DETAIL(E4), TMC_HW_DETAIL(E5), TMC_HW_DETAIL(E6), TMC_HW_DETAIL(E7)
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MAPLIST(TMC_HW_DETAIL, ALL_AXIS_NAMES)
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};
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// constexpr compatible string comparison
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@ -966,11 +962,7 @@ void reset_trinamic_drivers() {
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#define TMC_HWSERIAL_CONFLICT_MSG(A) STRINGIFY(A) "_SLAVE_ADDRESS conflicts with another driver using the same " STRINGIFY(A) "_HARDWARE_SERIAL"
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#define SA_NO_TMC_HW_C(A) static_assert(1 >= count_tmc_hw_serial_matches(TMC_HW_DETAIL_ARGS(A), 0, COUNT(sanity_tmc_hw_details)), TMC_HWSERIAL_CONFLICT_MSG(A));
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SA_NO_TMC_HW_C(X); SA_NO_TMC_HW_C(X2);
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SA_NO_TMC_HW_C(Y); SA_NO_TMC_HW_C(Y2);
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SA_NO_TMC_HW_C(Z); SA_NO_TMC_HW_C(Z2); SA_NO_TMC_HW_C(Z3); SA_NO_TMC_HW_C(Z4);
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SA_NO_TMC_HW_C(I); SA_NO_TMC_HW_C(J); SA_NO_TMC_HW_C(K);
|
||||
SA_NO_TMC_HW_C(E0); SA_NO_TMC_HW_C(E1); SA_NO_TMC_HW_C(E2); SA_NO_TMC_HW_C(E3); SA_NO_TMC_HW_C(E4); SA_NO_TMC_HW_C(E5); SA_NO_TMC_HW_C(E6); SA_NO_TMC_HW_C(E7);
|
||||
MAP(SA_NO_TMC_HW_C, ALL_AXIS_NAMES)
|
||||
#endif
|
||||
|
||||
#if ANY_AXIS_HAS(SW_SERIAL)
|
||||
@ -978,11 +970,7 @@ void reset_trinamic_drivers() {
|
||||
#define TMC_SW_DETAIL_ARGS(A) TERN(A##_HAS_SW_SERIAL, A##_SERIAL_TX_PIN, -1), TERN(A##_HAS_SW_SERIAL, A##_SERIAL_RX_PIN, -1), TERN0(A##_HAS_SW_SERIAL, A##_SLAVE_ADDRESS)
|
||||
#define TMC_SW_DETAIL(A) TMC_SW_DETAIL_ARGS(A)
|
||||
constexpr SanitySwSerialDetails sanity_tmc_sw_details[] = {
|
||||
TMC_SW_DETAIL(X), TMC_SW_DETAIL(X2),
|
||||
TMC_SW_DETAIL(Y), TMC_SW_DETAIL(Y2),
|
||||
TMC_SW_DETAIL(Z), TMC_SW_DETAIL(Z2), TMC_SW_DETAIL(Z3), TMC_SW_DETAIL(Z4),
|
||||
TMC_SW_DETAIL(I), TMC_SW_DETAIL(J), TMC_SW_DETAIL(K),
|
||||
TMC_SW_DETAIL(E0), TMC_SW_DETAIL(E1), TMC_SW_DETAIL(E2), TMC_SW_DETAIL(E3), TMC_SW_DETAIL(E4), TMC_SW_DETAIL(E5), TMC_SW_DETAIL(E6), TMC_SW_DETAIL(E7)
|
||||
MAPLIST(TMC_SW_DETAIL, ALL_AXIS_NAMES)
|
||||
};
|
||||
|
||||
constexpr bool sc_sw_done(size_t start, size_t end) { return start == end; }
|
||||
@ -996,11 +984,7 @@ void reset_trinamic_drivers() {
|
||||
|
||||
#define TMC_SWSERIAL_CONFLICT_MSG(A) STRINGIFY(A) "_SLAVE_ADDRESS conflicts with another driver using the same " STRINGIFY(A) "_SERIAL_RX_PIN or " STRINGIFY(A) "_SERIAL_TX_PIN"
|
||||
#define SA_NO_TMC_SW_C(A) static_assert(1 >= count_tmc_sw_serial_matches(TMC_SW_DETAIL_ARGS(A), 0, COUNT(sanity_tmc_sw_details)), TMC_SWSERIAL_CONFLICT_MSG(A));
|
||||
SA_NO_TMC_SW_C(X); SA_NO_TMC_SW_C(X2);
|
||||
SA_NO_TMC_SW_C(Y); SA_NO_TMC_SW_C(Y2);
|
||||
SA_NO_TMC_SW_C(Z); SA_NO_TMC_SW_C(Z2); SA_NO_TMC_SW_C(Z3); SA_NO_TMC_SW_C(Z4);
|
||||
SA_NO_TMC_SW_C(I); SA_NO_TMC_SW_C(J); SA_NO_TMC_SW_C(K);
|
||||
SA_NO_TMC_SW_C(E0); SA_NO_TMC_SW_C(E1); SA_NO_TMC_SW_C(E2); SA_NO_TMC_SW_C(E3); SA_NO_TMC_SW_C(E4); SA_NO_TMC_SW_C(E5); SA_NO_TMC_SW_C(E6); SA_NO_TMC_SW_C(E7);
|
||||
MAPLIST(SA_NO_TMC_SW_C, ALL_AXIS_NAMES)
|
||||
#endif
|
||||
|
||||
#endif // HAS_TRINAMIC_CONFIG
|
||||
|
Loading…
Reference in New Issue
Block a user