Make MBL a static class, use lookup for index-to-point conversion
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@ -652,7 +652,7 @@ static bool send_ok[BUFSIZE];
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#endif
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#if ENABLED(HOST_KEEPALIVE_FEATURE)
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static MarlinBusyState busy_state = NOT_BUSY;
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MarlinBusyState busy_state = NOT_BUSY;
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static millis_t next_busy_signal_ms = 0;
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uint8_t host_keepalive_interval = DEFAULT_KEEPALIVE_INTERVAL;
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#else
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@ -3839,7 +3839,7 @@ inline void gcode_G28() {
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// If there's another point to sample, move there with optional lift.
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if (probe_index < (MESH_NUM_X_POINTS) * (MESH_NUM_Y_POINTS)) {
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mbl.zigzag(probe_index, px, py);
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_mbl_goto_xy(mbl.get_probe_x(px), mbl.get_probe_y(py));
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_mbl_goto_xy(mbl.index_to_xpos[px], mbl.index_to_ypos[py]);
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#if HAS_SOFTWARE_ENDSTOPS
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// Disable software endstops to allow manual adjustment
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@ -9649,14 +9649,14 @@ void set_current_from_steppers_for_axis(const AxisEnum axis) {
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const int8_t gcx = max(cx1, cx2), gcy = max(cy1, cy2);
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if (cx2 != cx1 && TEST(x_splits, gcx)) {
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COPY(end, destination);
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destination[X_AXIS] = LOGICAL_X_POSITION(mbl.get_probe_x(gcx));
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destination[X_AXIS] = LOGICAL_X_POSITION(mbl.index_to_xpos[gcx]);
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normalized_dist = (destination[X_AXIS] - current_position[X_AXIS]) / (end[X_AXIS] - current_position[X_AXIS]);
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destination[Y_AXIS] = MBL_SEGMENT_END(Y);
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CBI(x_splits, gcx);
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}
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else if (cy2 != cy1 && TEST(y_splits, gcy)) {
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COPY(end, destination);
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destination[Y_AXIS] = LOGICAL_Y_POSITION(mbl.get_probe_y(gcy));
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destination[Y_AXIS] = LOGICAL_Y_POSITION(mbl.index_to_ypos[gcy]);
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normalized_dist = (destination[Y_AXIS] - current_position[Y_AXIS]) / (end[Y_AXIS] - current_position[Y_AXIS]);
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destination[X_AXIS] = MBL_SEGMENT_END(X);
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CBI(y_splits, gcy);
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@ -26,7 +26,20 @@
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mesh_bed_leveling mbl;
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mesh_bed_leveling::mesh_bed_leveling() { reset(); }
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uint8_t mesh_bed_leveling::status;
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float mesh_bed_leveling::z_offset,
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mesh_bed_leveling::z_values[MESH_NUM_Y_POINTS][MESH_NUM_X_POINTS],
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mesh_bed_leveling::index_to_xpos[MESH_NUM_X_POINTS],
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mesh_bed_leveling::index_to_ypos[MESH_NUM_Y_POINTS];
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mesh_bed_leveling::mesh_bed_leveling() {
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for (uint8_t i = 0; i < MESH_NUM_X_POINTS; ++i)
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index_to_xpos[i] = MESH_MIN_X + i * (MESH_X_DIST);
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for (uint8_t i = 0; i < MESH_NUM_Y_POINTS; ++i)
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index_to_ypos[i] = MESH_MIN_Y + i * (MESH_Y_DIST);
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reset();
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}
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void mesh_bed_leveling::reset() {
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status = MBL_STATUS_NONE;
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@ -40,91 +40,83 @@
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MBL_STATUS_REACTIVATE_BIT = 2
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};
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#define MESH_X_DIST ((MESH_MAX_X - (MESH_MIN_X))/(MESH_NUM_X_POINTS - 1))
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#define MESH_Y_DIST ((MESH_MAX_Y - (MESH_MIN_Y))/(MESH_NUM_Y_POINTS - 1))
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#define MESH_X_DIST ((MESH_MAX_X - (MESH_MIN_X)) / (MESH_NUM_X_POINTS - 1))
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#define MESH_Y_DIST ((MESH_MAX_Y - (MESH_MIN_Y)) / (MESH_NUM_Y_POINTS - 1))
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class mesh_bed_leveling {
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public:
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uint8_t status; // Has Mesh and Is Active bits
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float z_offset;
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float z_values[MESH_NUM_Y_POINTS][MESH_NUM_X_POINTS];
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static uint8_t status; // Has Mesh and Is Active bits
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static float z_offset,
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z_values[MESH_NUM_Y_POINTS][MESH_NUM_X_POINTS],
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index_to_xpos[MESH_NUM_X_POINTS],
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index_to_ypos[MESH_NUM_Y_POINTS];
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mesh_bed_leveling();
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void reset();
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static void reset();
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static FORCE_INLINE float get_probe_x(const int8_t i) { return MESH_MIN_X + (MESH_X_DIST) * i; }
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static FORCE_INLINE float get_probe_y(const int8_t i) { return MESH_MIN_Y + (MESH_Y_DIST) * i; }
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void set_z(const int8_t px, const int8_t py, const float &z) { z_values[py][px] = z; }
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static void set_z(const int8_t px, const int8_t py, const float &z) { z_values[py][px] = z; }
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bool active() const { return TEST(status, MBL_STATUS_ACTIVE_BIT); }
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void set_active(const bool onOff) { onOff ? SBI(status, MBL_STATUS_ACTIVE_BIT) : CBI(status, MBL_STATUS_ACTIVE_BIT); }
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bool has_mesh() const { return TEST(status, MBL_STATUS_HAS_MESH_BIT); }
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void set_has_mesh(const bool onOff) { onOff ? SBI(status, MBL_STATUS_HAS_MESH_BIT) : CBI(status, MBL_STATUS_HAS_MESH_BIT); }
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bool reactivate() { bool b = TEST(status, MBL_STATUS_REACTIVATE_BIT); CBI(status, MBL_STATUS_REACTIVATE_BIT); return b; }
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void set_reactivate(const bool onOff) { onOff ? SBI(status, MBL_STATUS_REACTIVATE_BIT) : CBI(status, MBL_STATUS_REACTIVATE_BIT); }
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static bool active() { return TEST(status, MBL_STATUS_ACTIVE_BIT); }
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static void set_active(const bool onOff) { onOff ? SBI(status, MBL_STATUS_ACTIVE_BIT) : CBI(status, MBL_STATUS_ACTIVE_BIT); }
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static bool has_mesh() { return TEST(status, MBL_STATUS_HAS_MESH_BIT); }
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static void set_has_mesh(const bool onOff) { onOff ? SBI(status, MBL_STATUS_HAS_MESH_BIT) : CBI(status, MBL_STATUS_HAS_MESH_BIT); }
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static bool reactivate() { bool b = TEST(status, MBL_STATUS_REACTIVATE_BIT); CBI(status, MBL_STATUS_REACTIVATE_BIT); return b; }
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static void set_reactivate(const bool onOff) { onOff ? SBI(status, MBL_STATUS_REACTIVATE_BIT) : CBI(status, MBL_STATUS_REACTIVATE_BIT); }
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inline void zigzag(const int8_t index, int8_t &px, int8_t &py) const {
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static inline void zigzag(const int8_t index, int8_t &px, int8_t &py) {
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px = index % (MESH_NUM_X_POINTS);
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py = index / (MESH_NUM_X_POINTS);
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if (py & 1) px = (MESH_NUM_X_POINTS - 1) - px; // Zig zag
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}
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void set_zigzag_z(const int8_t index, const float &z) {
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static void set_zigzag_z(const int8_t index, const float &z) {
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int8_t px, py;
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zigzag(index, px, py);
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set_z(px, py, z);
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}
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int8_t cell_index_x(const float &x) const {
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static int8_t cell_index_x(const float &x) {
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int8_t cx = (x - (MESH_MIN_X)) * (1.0 / (MESH_X_DIST));
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return constrain(cx, 0, (MESH_NUM_X_POINTS) - 2);
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}
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int8_t cell_index_y(const float &y) const {
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static int8_t cell_index_y(const float &y) {
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int8_t cy = (y - (MESH_MIN_Y)) * (1.0 / (MESH_Y_DIST));
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return constrain(cy, 0, (MESH_NUM_Y_POINTS) - 2);
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}
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int8_t probe_index_x(const float &x) const {
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static int8_t probe_index_x(const float &x) {
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int8_t px = (x - (MESH_MIN_X) + 0.5 * (MESH_X_DIST)) * (1.0 / (MESH_X_DIST));
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return (px >= 0 && px < (MESH_NUM_X_POINTS)) ? px : -1;
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}
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int8_t probe_index_y(const float &y) const {
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static int8_t probe_index_y(const float &y) {
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int8_t py = (y - (MESH_MIN_Y) + 0.5 * (MESH_Y_DIST)) * (1.0 / (MESH_Y_DIST));
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return (py >= 0 && py < (MESH_NUM_Y_POINTS)) ? py : -1;
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}
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float calc_z0(const float &a0, const float &a1, const float &z1, const float &a2, const float &z2) const {
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static float calc_z0(const float &a0, const float &a1, const float &z1, const float &a2, const float &z2) {
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const float delta_z = (z2 - z1) / (a2 - a1);
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const float delta_a = a0 - a1;
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return z1 + delta_a * delta_z;
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}
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float get_z(const float &x0, const float &y0
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static float get_z(const float &x0, const float &y0
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#if ENABLED(ENABLE_LEVELING_FADE_HEIGHT)
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, const float &factor
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#endif
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) const {
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int8_t cx = cell_index_x(x0),
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cy = cell_index_y(y0);
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if (cx < 0 || cy < 0) return z_offset;
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float z1 = calc_z0(x0,
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get_probe_x(cx), z_values[cy][cx],
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get_probe_x(cx + 1), z_values[cy][cx + 1]);
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float z2 = calc_z0(x0,
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get_probe_x(cx), z_values[cy + 1][cx],
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get_probe_x(cx + 1), z_values[cy + 1][cx + 1]);
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float z0 = calc_z0(y0,
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get_probe_y(cy), z1,
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get_probe_y(cy + 1), z2);
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) {
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const int8_t cx = cell_index_x(x0), cy = cell_index_y(y0);
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const float z1 = calc_z0(x0, index_to_xpos[cx], z_values[cy][cx], index_to_xpos[cx + 1], z_values[cy][cx + 1]),
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z2 = calc_z0(x0, index_to_xpos[cx], z_values[cy + 1][cx], index_to_xpos[cx + 1], z_values[cy + 1][cx + 1]),
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z0 = calc_z0(y0, index_to_ypos[cy], z1, index_to_ypos[cy + 1], z2);
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return z_offset + z0
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#if ENABLED(ENABLE_LEVELING_FADE_HEIGHT)
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return z0 * factor + z_offset;
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#else
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return z0 + z_offset;
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* factor
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#endif
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;
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}
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};
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@ -1437,7 +1437,7 @@ KeepDrawing:
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// _manual_probe_xy runs the menu loop until the move is done
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int8_t px, py;
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mbl.zigzag(manual_probe_index, px, py);
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_manual_probe_xy(mbl.get_probe_x(px), mbl.get_probe_y(py));
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_manual_probe_xy(mbl.index_to_xpos[px], mbl.index_to_ypos[py]);
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// After the blocking function returns, change menus
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lcd_goto_screen(_lcd_level_bed_get_z);
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