Pass segment length in G2-G3
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@ -204,19 +204,19 @@ void plan_arc(
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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// For SCARA scale the feed rate from mm/s to degrees/s
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// For SCARA scale the feed rate from mm/s to degrees/s
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// i.e., Complete the angular vector in the given time.
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// i.e., Complete the angular vector in the given time.
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if (!planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], raw[Z_AXIS], raw[E_AXIS], HYPOT(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB) * inverse_secs, active_extruder))
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if (!planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], raw[Z_AXIS], raw[E_AXIS], HYPOT(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB) * inverse_secs, active_extruder, MM_PER_ARC_SEGMENT))
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break;
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break;
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oldA = delta[A_AXIS]; oldB = delta[B_AXIS];
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oldA = delta[A_AXIS]; oldB = delta[B_AXIS];
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#elif ENABLED(DELTA_FEEDRATE_SCALING)
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#elif ENABLED(DELTA_FEEDRATE_SCALING)
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// For DELTA scale the feed rate from Effector mm/s to Carriage mm/s
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// For DELTA scale the feed rate from Effector mm/s to Carriage mm/s
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// i.e., Complete the linear vector in the given time.
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// i.e., Complete the linear vector in the given time.
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if (!planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], raw[E_AXIS], SQRT(sq(delta[A_AXIS] - oldA) + sq(delta[B_AXIS] - oldB) + sq(delta[C_AXIS] - oldC)) * inverse_secs, active_extruder))
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if (!planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], raw[E_AXIS], SQRT(sq(delta[A_AXIS] - oldA) + sq(delta[B_AXIS] - oldB) + sq(delta[C_AXIS] - oldC)) * inverse_secs, active_extruder, MM_PER_ARC_SEGMENT))
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break;
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break;
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oldA = delta[A_AXIS]; oldB = delta[B_AXIS]; oldC = delta[C_AXIS];
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oldA = delta[A_AXIS]; oldB = delta[B_AXIS]; oldC = delta[C_AXIS];
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#elif HAS_UBL_AND_CURVES
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#elif HAS_UBL_AND_CURVES
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float pos[XYZ] = { raw[X_AXIS], raw[Y_AXIS], raw[Z_AXIS] };
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float pos[XYZ] = { raw[X_AXIS], raw[Y_AXIS], raw[Z_AXIS] };
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planner.apply_leveling(pos);
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planner.apply_leveling(pos);
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if (!planner.buffer_segment(pos[X_AXIS], pos[Y_AXIS], pos[Z_AXIS], raw[E_AXIS], fr_mm_s, active_extruder))
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if (!planner.buffer_segment(pos[X_AXIS], pos[Y_AXIS], pos[Z_AXIS], raw[E_AXIS], fr_mm_s, active_extruder, MM_PER_ARC_SEGMENT))
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break;
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break;
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#else
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#else
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if (!planner.buffer_line_kinematic(raw, fr_mm_s, active_extruder))
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if (!planner.buffer_line_kinematic(raw, fr_mm_s, active_extruder))
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@ -233,15 +233,15 @@ void plan_arc(
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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const float diff2 = HYPOT2(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB);
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const float diff2 = HYPOT2(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB);
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if (diff2)
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if (diff2)
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], cart[Z_AXIS], cart[E_AXIS], SQRT(diff2) * inverse_secs, active_extruder);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], cart[Z_AXIS], cart[E_AXIS], SQRT(diff2) * inverse_secs, active_extruder, MM_PER_ARC_SEGMENT);
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#elif ENABLED(DELTA_FEEDRATE_SCALING)
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#elif ENABLED(DELTA_FEEDRATE_SCALING)
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const float diff2 = sq(delta[A_AXIS] - oldA) + sq(delta[B_AXIS] - oldB) + sq(delta[C_AXIS] - oldC);
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const float diff2 = sq(delta[A_AXIS] - oldA) + sq(delta[B_AXIS] - oldB) + sq(delta[C_AXIS] - oldC);
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if (diff2)
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if (diff2)
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], cart[E_AXIS], SQRT(diff2) * inverse_secs, active_extruder);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], cart[E_AXIS], SQRT(diff2) * inverse_secs, active_extruder, MM_PER_ARC_SEGMENT);
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#elif HAS_UBL_AND_CURVES
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#elif HAS_UBL_AND_CURVES
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float pos[XYZ] = { cart[X_AXIS], cart[Y_AXIS], cart[Z_AXIS] };
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float pos[XYZ] = { cart[X_AXIS], cart[Y_AXIS], cart[Z_AXIS] };
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planner.apply_leveling(pos);
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planner.apply_leveling(pos);
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planner.buffer_segment(pos[X_AXIS], pos[Y_AXIS], pos[Z_AXIS], cart[E_AXIS], fr_mm_s, active_extruder);
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planner.buffer_segment(pos[X_AXIS], pos[Y_AXIS], pos[Z_AXIS], cart[E_AXIS], fr_mm_s, active_extruder, MM_PER_ARC_SEGMENT);
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#else
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#else
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planner.buffer_line_kinematic(cart, fr_mm_s, active_extruder);
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planner.buffer_line_kinematic(cart, fr_mm_s, active_extruder);
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#endif
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#endif
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