_buffer_line => buffer_segment
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@ -139,7 +139,7 @@
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// Note: There is no Z Correction in this case. We are off the grid and don't know what
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// a reasonable correction would be.
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planner._buffer_line(end[X_AXIS], end[Y_AXIS], end[Z_AXIS], end[E_AXIS], feed_rate, extruder);
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planner.buffer_segment(end[X_AXIS], end[Y_AXIS], end[Z_AXIS], end[E_AXIS], feed_rate, extruder);
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set_current_from_destination();
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if (g26_debug_flag)
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@ -183,7 +183,7 @@
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*/
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if (isnan(z0)) z0 = 0.0;
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planner._buffer_line(end[X_AXIS], end[Y_AXIS], end[Z_AXIS] + z0, end[E_AXIS], feed_rate, extruder);
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planner.buffer_segment(end[X_AXIS], end[Y_AXIS], end[Z_AXIS] + z0, end[E_AXIS], feed_rate, extruder);
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if (g26_debug_flag)
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debug_current_and_destination(PSTR("FINAL_MOVE in ubl.line_to_destination()"));
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@ -274,7 +274,7 @@
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* Without this check, it is possible for the algorithm to generate a zero length move in the case
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* where the line is heading down and it is starting right on a Mesh Line boundary. For how often that
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* happens, it might be best to remove the check and always 'schedule' the move because
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* the planner._buffer_line() routine will filter it if that happens.
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* the planner.buffer_segment() routine will filter it if that happens.
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*/
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if (ry != start[Y_AXIS]) {
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if (!inf_normalized_flag) {
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@ -287,7 +287,7 @@
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z_position = end[Z_AXIS];
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}
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planner._buffer_line(rx, ry, z_position + z0, e_position, feed_rate, extruder);
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planner.buffer_segment(rx, ry, z_position + z0, e_position, feed_rate, extruder);
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} //else printf("FIRST MOVE PRUNED ");
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}
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@ -338,7 +338,7 @@
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* Without this check, it is possible for the algorithm to generate a zero length move in the case
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* where the line is heading left and it is starting right on a Mesh Line boundary. For how often
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* that happens, it might be best to remove the check and always 'schedule' the move because
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* the planner._buffer_line() routine will filter it if that happens.
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* the planner.buffer_segment() routine will filter it if that happens.
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*/
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if (rx != start[X_AXIS]) {
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if (!inf_normalized_flag) {
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@ -351,7 +351,7 @@
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z_position = end[Z_AXIS];
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}
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planner._buffer_line(rx, ry, z_position + z0, e_position, feed_rate, extruder);
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planner.buffer_segment(rx, ry, z_position + z0, e_position, feed_rate, extruder);
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} //else printf("FIRST MOVE PRUNED ");
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}
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@ -413,7 +413,7 @@
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e_position = end[E_AXIS];
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z_position = end[Z_AXIS];
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}
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planner._buffer_line(rx, next_mesh_line_y, z_position + z0, e_position, feed_rate, extruder);
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planner.buffer_segment(rx, next_mesh_line_y, z_position + z0, e_position, feed_rate, extruder);
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current_yi += dyi;
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yi_cnt--;
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}
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@ -441,7 +441,7 @@
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z_position = end[Z_AXIS];
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}
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planner._buffer_line(next_mesh_line_x, ry, z_position + z0, e_position, feed_rate, extruder);
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planner.buffer_segment(next_mesh_line_x, ry, z_position + z0, e_position, feed_rate, extruder);
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current_xi += dxi;
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xi_cnt--;
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}
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@ -465,14 +465,14 @@
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#endif
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// We don't want additional apply_leveling() performed by regular buffer_line or buffer_line_kinematic,
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// so we call _buffer_line directly here. Per-segmented leveling and kinematics performed first.
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// so we call buffer_segment directly here. Per-segmented leveling and kinematics performed first.
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inline void _O2 ubl_buffer_segment_raw(const float (&raw)[XYZE], const float &fr) {
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#if ENABLED(DELTA) // apply delta inverse_kinematics
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DELTA_RAW_IK();
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planner._buffer_line(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], raw[E_AXIS], fr, active_extruder);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], raw[E_AXIS], fr, active_extruder);
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#elif IS_SCARA // apply scara inverse_kinematics (should be changed to save raw->logical->raw)
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@ -485,11 +485,11 @@
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scara_oldB = delta[B_AXIS];
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float s_feedrate = max(adiff, bdiff) * scara_feed_factor;
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planner._buffer_line(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], raw[E_AXIS], s_feedrate, active_extruder);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], raw[E_AXIS], s_feedrate, active_extruder);
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#else // CARTESIAN
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planner._buffer_line(raw[X_AXIS], raw[Y_AXIS], raw[Z_AXIS], raw[E_AXIS], fr, active_extruder);
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planner.buffer_segment(raw[X_AXIS], raw[Y_AXIS], raw[Z_AXIS], raw[E_AXIS], fr, active_extruder);
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#endif
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}
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@ -508,7 +508,7 @@
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/**
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* Prepare a segmented linear move for DELTA/SCARA/CARTESIAN with UBL and FADE semantics.
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* This calls planner._buffer_line multiple times for small incremental moves.
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* This calls planner.buffer_segment multiple times for small incremental moves.
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* Returns true if did NOT move, false if moved (requires current_position update).
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*/
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@ -1365,7 +1365,7 @@ void Planner::_buffer_steps(const int32_t (&target)[XYZE], float fr_mm_s, const
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} // _buffer_steps()
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/**
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* Planner::_buffer_line
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* Planner::buffer_segment
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*
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* Add a new linear movement to the buffer in axis units.
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*
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@ -1375,7 +1375,7 @@ void Planner::_buffer_steps(const int32_t (&target)[XYZE], float fr_mm_s, const
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* fr_mm_s - (target) speed of the move
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* extruder - target extruder
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*/
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void Planner::_buffer_line(const float &a, const float &b, const float &c, const float &e, const float &fr_mm_s, const uint8_t extruder) {
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void Planner::buffer_segment(const float &a, const float &b, const float &c, const float &e, const float &fr_mm_s, const uint8_t extruder) {
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// When changing extruders recalculate steps corresponding to the E position
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#if ENABLED(DISTINCT_E_FACTORS)
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if (last_extruder != extruder && axis_steps_per_mm[E_AXIS_N] != axis_steps_per_mm[E_AXIS + last_extruder]) {
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@ -1394,7 +1394,7 @@ void Planner::_buffer_line(const float &a, const float &b, const float &c, const
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};
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/* <-- add a slash to enable
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SERIAL_ECHOPAIR(" _buffer_line FR:", fr_mm_s);
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SERIAL_ECHOPAIR(" buffer_segment FR:", fr_mm_s);
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#if IS_KINEMATIC
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SERIAL_ECHOPAIR(" A:", a);
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SERIAL_ECHOPAIR(" (", position[A_AXIS]);
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@ -1441,7 +1441,7 @@ void Planner::_buffer_line(const float &a, const float &b, const float &c, const
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stepper.wake_up();
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} // _buffer_line()
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} // buffer_segment()
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/**
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* Directly set the planner XYZ position (and stepper positions)
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@ -146,7 +146,7 @@ class Planner {
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* head!=tail : blocks are in the buffer
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* head==(tail-1)%size : the buffer is full
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*
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* Writer of head is Planner::_buffer_line().
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* Writer of head is Planner::buffer_segment().
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* Reader of tail is Stepper::isr(). Always consider tail busy / read-only
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*/
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static block_t block_buffer[BLOCK_BUFFER_SIZE];
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@ -379,7 +379,7 @@ class Planner {
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static void _buffer_steps(const int32_t (&target)[XYZE], float fr_mm_s, const uint8_t extruder);
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/**
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* Planner::_buffer_line
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* Planner::buffer_segment
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*
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* Add a new linear movement to the buffer in axis units.
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*
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@ -389,7 +389,7 @@ class Planner {
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* fr_mm_s - (target) speed of the move
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* extruder - target extruder
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*/
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static void _buffer_line(const float &a, const float &b, const float &c, const float &e, const float &fr_mm_s, const uint8_t extruder);
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static void buffer_segment(const float &a, const float &b, const float &c, const float &e, const float &fr_mm_s, const uint8_t extruder);
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static void _set_position_mm(const float &a, const float &b, const float &c, const float &e);
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#if PLANNER_LEVELING && IS_CARTESIAN
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apply_leveling(rx, ry, rz);
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#endif
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_buffer_line(rx, ry, rz, e, fr_mm_s, extruder);
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buffer_segment(rx, ry, rz, e, fr_mm_s, extruder);
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}
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/**
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#endif
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#if IS_KINEMATIC
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inverse_kinematics(raw);
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_buffer_line(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], cart[E_AXIS], fr_mm_s, extruder);
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buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], cart[E_AXIS], fr_mm_s, extruder);
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#else
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_buffer_line(raw[X_AXIS], raw[Y_AXIS], raw[Z_AXIS], cart[E_AXIS], fr_mm_s, extruder);
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buffer_segment(raw[X_AXIS], raw[Y_AXIS], raw[Z_AXIS], cart[E_AXIS], fr_mm_s, extruder);
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#endif
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}
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