Followup to MP_SCARA/TPARA patches (#21248)
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@ -335,7 +335,7 @@
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#if IS_KINEMATIC
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#if IS_KINEMATIC
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const float seconds = cart_xy_mm / scaled_fr_mm_s; // Duration of XY move at requested rate
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const float seconds = cart_xy_mm / scaled_fr_mm_s; // Duration of XY move at requested rate
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uint16_t segments = LROUND(delta_segments_per_second * seconds), // Preferred number of segments for distance @ feedrate
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uint16_t segments = LROUND(segments_per_second * seconds), // Preferred number of segments for distance @ feedrate
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seglimit = LROUND(cart_xy_mm * RECIPROCAL(DELTA_SEGMENT_MIN_LENGTH)); // Number of segments at minimum segment length
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seglimit = LROUND(cart_xy_mm * RECIPROCAL(DELTA_SEGMENT_MIN_LENGTH)); // Number of segments at minimum segment length
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NOMORE(segments, seglimit); // Limit to minimum segment length (fewer segments)
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NOMORE(segments, seglimit); // Limit to minimum segment length (fewer segments)
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#else
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#else
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@ -48,7 +48,7 @@
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if (parser.seenval('H')) delta_height = parser.value_linear_units();
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if (parser.seenval('H')) delta_height = parser.value_linear_units();
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if (parser.seenval('L')) delta_diagonal_rod = parser.value_linear_units();
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if (parser.seenval('L')) delta_diagonal_rod = parser.value_linear_units();
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if (parser.seenval('R')) delta_radius = parser.value_linear_units();
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if (parser.seenval('R')) delta_radius = parser.value_linear_units();
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if (parser.seenval('S')) delta_segments_per_second = parser.value_float();
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if (parser.seenval('S')) segments_per_second = parser.value_float();
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if (parser.seenval('X')) delta_tower_angle_trim.a = parser.value_float();
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if (parser.seenval('X')) delta_tower_angle_trim.a = parser.value_float();
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if (parser.seenval('Y')) delta_tower_angle_trim.b = parser.value_float();
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if (parser.seenval('Y')) delta_tower_angle_trim.b = parser.value_float();
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if (parser.seenval('Z')) delta_tower_angle_trim.c = parser.value_float();
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if (parser.seenval('Z')) delta_tower_angle_trim.c = parser.value_float();
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@ -76,7 +76,7 @@
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* B, T, and Y are all aliases for the elbow angle
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* B, T, and Y are all aliases for the elbow angle
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*/
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*/
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void GcodeSuite::M665() {
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void GcodeSuite::M665() {
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if (parser.seenval('S')) delta_segments_per_second = parser.value_float();
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if (parser.seenval('S')) segments_per_second = parser.value_float();
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#if HAS_SCARA_OFFSET
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#if HAS_SCARA_OFFSET
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@ -54,7 +54,7 @@ float delta_height;
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abc_float_t delta_endstop_adj{0};
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abc_float_t delta_endstop_adj{0};
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float delta_radius,
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float delta_radius,
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delta_diagonal_rod,
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delta_diagonal_rod,
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delta_segments_per_second;
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segments_per_second;
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abc_float_t delta_tower_angle_trim;
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abc_float_t delta_tower_angle_trim;
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xy_float_t delta_tower[ABC];
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xy_float_t delta_tower[ABC];
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abc_float_t delta_diagonal_rod_2_tower;
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abc_float_t delta_diagonal_rod_2_tower;
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@ -32,7 +32,7 @@ extern float delta_height;
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extern abc_float_t delta_endstop_adj;
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extern abc_float_t delta_endstop_adj;
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extern float delta_radius,
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extern float delta_radius,
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delta_diagonal_rod,
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delta_diagonal_rod,
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delta_segments_per_second;
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segments_per_second;
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extern abc_float_t delta_tower_angle_trim;
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extern abc_float_t delta_tower_angle_trim;
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extern xy_float_t delta_tower[ABC];
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extern xy_float_t delta_tower[ABC];
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extern abc_float_t delta_diagonal_rod_2_tower;
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extern abc_float_t delta_diagonal_rod_2_tower;
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@ -763,7 +763,7 @@ FORCE_INLINE void segment_idle(millis_t &next_idle_ms) {
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// The number of segments-per-second times the duration
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// The number of segments-per-second times the duration
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// gives the number of segments
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// gives the number of segments
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uint16_t segments = delta_segments_per_second * seconds;
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uint16_t segments = segments_per_second * seconds;
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// For SCARA enforce a minimum segment size
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// For SCARA enforce a minimum segment size
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#if IS_SCARA
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#if IS_SCARA
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@ -37,46 +37,7 @@
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#include "../MarlinCore.h"
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#include "../MarlinCore.h"
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#endif
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#endif
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float delta_segments_per_second = TERN(AXEL_TPARA, TPARA_SEGMENTS_PER_SECOND, SCARA_SEGMENTS_PER_SECOND);
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float segments_per_second = TERN(AXEL_TPARA, TPARA_SEGMENTS_PER_SECOND, SCARA_SEGMENTS_PER_SECOND);
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void scara_set_axis_is_at_home(const AxisEnum axis) {
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if (axis == Z_AXIS)
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current_position.z = Z_HOME_POS;
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else {
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#if ENABLED(MORGAN_SCARA)
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// MORGAN_SCARA uses arm angles for AB home position
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ab_float_t homeposition = { SCARA_OFFSET_THETA1, SCARA_OFFSET_THETA2 };
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//DEBUG_ECHOLNPAIR("homeposition A:", homeposition.a, " B:", homeposition.b);
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#elif ENABLED(MP_SCARA)
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// MP_SCARA uses a Cartesian XY home position
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xyz_pos_t homeposition = { X_HOME_POS, Y_HOME_POS, Z_HOME_POS };
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//DEBUG_ECHOPGM("homeposition");
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//DEBUG_ECHOLNPAIR_P(SP_X_LBL, homeposition.x, SP_Y_LBL, homeposition.y);
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#elif ENABLED(AXEL_TPARA)
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xyz_pos_t homeposition = { X_HOME_POS, Y_HOME_POS, Z_HOME_POS };
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//DEBUG_ECHOPGM("homeposition");
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//DEBUG_ECHOLNPAIR_P(SP_X_LBL, homeposition.x, SP_Y_LBL, homeposition.y, SP_Z_LBL, homeposition.z);
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#endif
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#if ENABLED(MORGAN_SCARA)
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delta = homeposition;
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#else
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inverse_kinematics(homeposition);
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#endif
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#if EITHER(MORGAN_SCARA, MP_SCARA)
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forward_kinematics(delta.a, delta.b);
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#elif ENABLED(AXEL_TPARA)
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forward_kinematics(delta.a, delta.b, delta.c);
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#endif
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current_position[axis] = cartes[axis];
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//DEBUG_ECHOPGM("Cartesian");
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//DEBUG_ECHOLNPAIR_P(SP_X_LBL, current_position.x, SP_Y_LBL, current_position.y);
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update_software_endstops(axis);
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}
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}
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#if EITHER(MORGAN_SCARA, MP_SCARA)
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#if EITHER(MORGAN_SCARA, MP_SCARA)
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@ -109,6 +70,27 @@ void scara_set_axis_is_at_home(const AxisEnum axis) {
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//*/
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//*/
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}
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}
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#endif
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#if ENABLED(MORGAN_SCARA)
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void scara_set_axis_is_at_home(const AxisEnum axis) {
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if (axis == Z_AXIS)
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current_position.z = Z_HOME_POS;
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else {
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// MORGAN_SCARA uses a Cartesian XY home position
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xyz_pos_t homeposition = { X_HOME_POS, Y_HOME_POS, Z_HOME_POS };
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//DEBUG_ECHOLNPAIR_P(PSTR("homeposition X"), homeposition.x, SP_Y_LBL, homeposition.y);
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delta = homeposition;
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forward_kinematics(delta.a, delta.b);
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current_position[axis] = cartes[axis];
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//DEBUG_ECHOLNPAIR_P(PSTR("Cartesian X"), current_position.x, SP_Y_LBL, current_position.y);
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update_software_endstops(axis);
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}
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}
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/**
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/**
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* Morgan SCARA Inverse Kinematics. Results are stored in 'delta'.
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* Morgan SCARA Inverse Kinematics. Results are stored in 'delta'.
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*
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*
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@ -156,6 +138,29 @@ void scara_set_axis_is_at_home(const AxisEnum axis) {
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#elif ENABLED(MP_SCARA)
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#elif ENABLED(MP_SCARA)
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void scara_set_axis_is_at_home(const AxisEnum axis) {
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if (axis == Z_AXIS)
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current_position.z = Z_HOME_POS;
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else {
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// MP_SCARA uses arm angles for AB home position
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#ifndef SCARA_OFFSET_THETA1
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#define SCARA_OFFSET_THETA1 12 // degrees
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#endif
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#ifndef SCARA_OFFSET_THETA2
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#define SCARA_OFFSET_THETA2 131 // degrees
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#endif
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ab_float_t homeposition = { SCARA_OFFSET_THETA1, SCARA_OFFSET_THETA2 };
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//DEBUG_ECHOLNPAIR("homeposition A:", homeposition.a, " B:", homeposition.b);
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inverse_kinematics(homeposition);
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forward_kinematics(delta.a, delta.b);
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current_position[axis] = cartes[axis];
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//DEBUG_ECHOLNPAIR_P(PSTR("Cartesian X"), current_position.x, SP_Y_LBL, current_position.y);
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update_software_endstops(axis);
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}
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}
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void inverse_kinematics(const xyz_pos_t &raw) {
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void inverse_kinematics(const xyz_pos_t &raw) {
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const float x = raw.x, y = raw.y, c = HYPOT(x, y),
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const float x = raw.x, y = raw.y, c = HYPOT(x, y),
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THETA3 = ATAN2(y, x),
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THETA3 = ATAN2(y, x),
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@ -175,6 +180,22 @@ void scara_set_axis_is_at_home(const AxisEnum axis) {
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static constexpr xyz_pos_t robot_offset = { TPARA_OFFSET_X, TPARA_OFFSET_Y, TPARA_OFFSET_Z };
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static constexpr xyz_pos_t robot_offset = { TPARA_OFFSET_X, TPARA_OFFSET_Y, TPARA_OFFSET_Z };
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void scara_set_axis_is_at_home(const AxisEnum axis) {
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if (axis == Z_AXIS)
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current_position.z = Z_HOME_POS;
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else {
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xyz_pos_t homeposition = { X_HOME_POS, Y_HOME_POS, Z_HOME_POS };
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//DEBUG_ECHOLNPAIR_P(PSTR("homeposition X"), homeposition.x, SP_Y_LBL, homeposition.y, SP_Z_LBL, homeposition.z);
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inverse_kinematics(homeposition);
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forward_kinematics(delta.a, delta.b, delta.c);
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current_position[axis] = cartes[axis];
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//DEBUG_ECHOLNPAIR_P(PSTR("Cartesian X"), current_position.x, SP_Y_LBL, current_position.y);
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update_software_endstops(axis);
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}
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}
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// Convert ABC inputs in degrees to XYZ outputs in mm
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// Convert ABC inputs in degrees to XYZ outputs in mm
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void forward_kinematics(const float &a, const float &b, const float &c) {
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void forward_kinematics(const float &a, const float &b, const float &c) {
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const float w = c - b,
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const float w = c - b,
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@ -27,7 +27,7 @@
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#include "../core/macros.h"
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#include "../core/macros.h"
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extern float delta_segments_per_second;
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extern float segments_per_second;
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#if ENABLED(AXEL_TPARA)
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#if ENABLED(AXEL_TPARA)
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@ -279,7 +279,7 @@ typedef struct SettingsDataStruct {
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abc_float_t delta_endstop_adj; // M666 X Y Z
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abc_float_t delta_endstop_adj; // M666 X Y Z
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float delta_radius, // M665 R
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float delta_radius, // M665 R
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delta_diagonal_rod, // M665 L
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delta_diagonal_rod, // M665 L
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delta_segments_per_second; // M665 S
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segments_per_second; // M665 S
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abc_float_t delta_tower_angle_trim, // M665 X Y Z
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abc_float_t delta_tower_angle_trim, // M665 X Y Z
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delta_diagonal_rod_trim; // M665 A B C
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delta_diagonal_rod_trim; // M665 A B C
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#elif HAS_EXTRA_ENDSTOPS
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#elif HAS_EXTRA_ENDSTOPS
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@ -840,7 +840,7 @@ void MarlinSettings::postprocess() {
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EEPROM_WRITE(delta_endstop_adj); // 3 floats
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EEPROM_WRITE(delta_endstop_adj); // 3 floats
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EEPROM_WRITE(delta_radius); // 1 float
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EEPROM_WRITE(delta_radius); // 1 float
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EEPROM_WRITE(delta_diagonal_rod); // 1 float
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EEPROM_WRITE(delta_diagonal_rod); // 1 float
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EEPROM_WRITE(delta_segments_per_second); // 1 float
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EEPROM_WRITE(segments_per_second); // 1 float
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EEPROM_WRITE(delta_tower_angle_trim); // 3 floats
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EEPROM_WRITE(delta_tower_angle_trim); // 3 floats
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EEPROM_WRITE(delta_diagonal_rod_trim); // 3 floats
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EEPROM_WRITE(delta_diagonal_rod_trim); // 3 floats
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@ -1721,7 +1721,7 @@ void MarlinSettings::postprocess() {
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EEPROM_READ(delta_endstop_adj); // 3 floats
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EEPROM_READ(delta_endstop_adj); // 3 floats
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EEPROM_READ(delta_radius); // 1 float
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EEPROM_READ(delta_radius); // 1 float
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EEPROM_READ(delta_diagonal_rod); // 1 float
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EEPROM_READ(delta_diagonal_rod); // 1 float
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EEPROM_READ(delta_segments_per_second); // 1 float
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EEPROM_READ(segments_per_second); // 1 float
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EEPROM_READ(delta_tower_angle_trim); // 3 floats
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EEPROM_READ(delta_tower_angle_trim); // 3 floats
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EEPROM_READ(delta_diagonal_rod_trim); // 3 floats
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EEPROM_READ(delta_diagonal_rod_trim); // 3 floats
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@ -2711,7 +2711,7 @@ void MarlinSettings::reset() {
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delta_endstop_adj = adj;
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delta_endstop_adj = adj;
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delta_radius = DELTA_RADIUS;
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delta_radius = DELTA_RADIUS;
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delta_diagonal_rod = DELTA_DIAGONAL_ROD;
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delta_diagonal_rod = DELTA_DIAGONAL_ROD;
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delta_segments_per_second = DELTA_SEGMENTS_PER_SECOND;
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segments_per_second = DELTA_SEGMENTS_PER_SECOND;
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delta_tower_angle_trim = dta;
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delta_tower_angle_trim = dta;
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delta_diagonal_rod_trim = ddr;
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delta_diagonal_rod_trim = ddr;
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#endif
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#endif
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@ -3320,7 +3320,7 @@ void MarlinSettings::reset() {
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CONFIG_ECHO_HEADING("SCARA settings: S<seg-per-sec> P<theta-psi-offset> T<theta-offset>");
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CONFIG_ECHO_HEADING("SCARA settings: S<seg-per-sec> P<theta-psi-offset> T<theta-offset>");
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CONFIG_ECHO_START();
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CONFIG_ECHO_START();
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SERIAL_ECHOLNPAIR_P(
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SERIAL_ECHOLNPAIR_P(
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PSTR(" M665 S"), delta_segments_per_second
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PSTR(" M665 S"), segments_per_second
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, SP_P_STR, scara_home_offset.a
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, SP_P_STR, scara_home_offset.a
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, SP_T_STR, scara_home_offset.b
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, SP_T_STR, scara_home_offset.b
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, SP_Z_STR, LINEAR_UNIT(scara_home_offset.z)
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, SP_Z_STR, LINEAR_UNIT(scara_home_offset.z)
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PSTR(" M665 L"), LINEAR_UNIT(delta_diagonal_rod)
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PSTR(" M665 L"), LINEAR_UNIT(delta_diagonal_rod)
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, PSTR(" R"), LINEAR_UNIT(delta_radius)
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, PSTR(" R"), LINEAR_UNIT(delta_radius)
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, PSTR(" H"), LINEAR_UNIT(delta_height)
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, PSTR(" H"), LINEAR_UNIT(delta_height)
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, PSTR(" S"), delta_segments_per_second
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, PSTR(" S"), segments_per_second
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, SP_X_STR, LINEAR_UNIT(delta_tower_angle_trim.a)
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, SP_X_STR, LINEAR_UNIT(delta_tower_angle_trim.a)
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, SP_Y_STR, LINEAR_UNIT(delta_tower_angle_trim.b)
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, SP_Y_STR, LINEAR_UNIT(delta_tower_angle_trim.b)
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, SP_Z_STR, LINEAR_UNIT(delta_tower_angle_trim.c)
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, SP_Z_STR, LINEAR_UNIT(delta_tower_angle_trim.c)
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