Merge branch 'Marlin_v1' of https://github.com/ErikZalm/Marlin into typofixes_upstream
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91759dede6
@ -335,12 +335,50 @@ const bool Z_MAX_ENDSTOP_INVERTING = true; // set to true to invert the logic of
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#ifdef ENABLE_AUTO_BED_LEVELING
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// these are the positions on the bed to do the probing
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// There are 2 different ways to pick the X and Y locations to probe:
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// - "grid" mode
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// Probe every point in a rectangular grid
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// You must specify the rectangle, and the density of sample points
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// This mode is preferred because there are more measurements.
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// It used to be called ACCURATE_BED_LEVELING but "grid" is more descriptive
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// - "3-point" mode
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// Probe 3 arbitrary points on the bed (that aren't colinear)
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// You must specify the X & Y coordinates of all 3 points
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#define AUTO_BED_LEVELING_GRID
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// with AUTO_BED_LEVELING_GRID, the bed is sampled in a
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// AUTO_BED_LEVELING_GRID_POINTSxAUTO_BED_LEVELING_GRID_POINTS grid
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// and least squares solution is calculated
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// Note: this feature occupies 10'206 byte
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#ifdef AUTO_BED_LEVELING_GRID
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// set the rectangle in which to probe
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#define LEFT_PROBE_BED_POSITION 15
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#define RIGHT_PROBE_BED_POSITION 170
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#define BACK_PROBE_BED_POSITION 180
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#define FRONT_PROBE_BED_POSITION 20
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// set the number of grid points per dimension
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// I wouldn't see a reason to go above 3 (=9 probing points on the bed)
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#define AUTO_BED_LEVELING_GRID_POINTS 2
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#else // not AUTO_BED_LEVELING_GRID
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// with no grid, just probe 3 arbitrary points. A simple cross-product
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// is used to esimate the plane of the print bed
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#define ABL_PROBE_PT_1_X 15
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#define ABL_PROBE_PT_1_Y 180
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#define ABL_PROBE_PT_2_X 15
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#define ABL_PROBE_PT_2_Y 20
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#define ABL_PROBE_PT_3_X 170
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#define ABL_PROBE_PT_3_Y 20
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#endif // AUTO_BED_LEVELING_GRID
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// these are the offsets to the probe relative to the extruder tip (Hotend - Probe)
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#define X_PROBE_OFFSET_FROM_EXTRUDER -25
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#define Y_PROBE_OFFSET_FROM_EXTRUDER -29
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@ -379,16 +417,7 @@ const bool Z_MAX_ENDSTOP_INVERTING = true; // set to true to invert the logic of
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#endif
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// with accurate bed leveling, the bed is sampled in a ACCURATE_BED_LEVELING_POINTSxACCURATE_BED_LEVELING_POINTS grid and least squares solution is calculated
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// Note: this feature occupies 10'206 byte
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#define ACCURATE_BED_LEVELING
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#ifdef ACCURATE_BED_LEVELING
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// I wouldn't see a reason to go above 3 (=9 probing points on the bed)
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#define ACCURATE_BED_LEVELING_POINTS 2
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#endif
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#endif
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#endif // ENABLE_AUTO_BED_LEVELING
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// The position of the homing switches
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@ -31,7 +31,7 @@
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#ifdef ENABLE_AUTO_BED_LEVELING
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#include "vector_3.h"
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#ifdef ACCURATE_BED_LEVELING
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#ifdef AUTO_BED_LEVELING_GRID
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#include "qr_solve.h"
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#endif
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#endif // ENABLE_AUTO_BED_LEVELING
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@ -822,7 +822,7 @@ static void axis_is_at_home(int axis) {
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}
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#ifdef ENABLE_AUTO_BED_LEVELING
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#ifdef ACCURATE_BED_LEVELING
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#ifdef AUTO_BED_LEVELING_GRID
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static void set_bed_level_equation_lsq(double *plane_equation_coefficients)
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{
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vector_3 planeNormal = vector_3(-plane_equation_coefficients[0], -plane_equation_coefficients[1], 1);
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@ -846,42 +846,36 @@ static void set_bed_level_equation_lsq(double *plane_equation_coefficients)
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
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}
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#else
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static void set_bed_level_equation(float z_at_xLeft_yFront, float z_at_xRight_yFront, float z_at_xLeft_yBack) {
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#else // not AUTO_BED_LEVELING_GRID
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static void set_bed_level_equation_3pts(float z_at_pt_1, float z_at_pt_2, float z_at_pt_3) {
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plan_bed_level_matrix.set_to_identity();
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vector_3 xLeftyFront = vector_3(LEFT_PROBE_BED_POSITION, FRONT_PROBE_BED_POSITION, z_at_xLeft_yFront);
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vector_3 xLeftyBack = vector_3(LEFT_PROBE_BED_POSITION, BACK_PROBE_BED_POSITION, z_at_xLeft_yBack);
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vector_3 xRightyFront = vector_3(RIGHT_PROBE_BED_POSITION, FRONT_PROBE_BED_POSITION, z_at_xRight_yFront);
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vector_3 pt1 = vector_3(ABL_PROBE_PT_1_X, ABL_PROBE_PT_1_Y, z_at_pt_1);
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vector_3 pt2 = vector_3(ABL_PROBE_PT_2_X, ABL_PROBE_PT_2_Y, z_at_pt_2);
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vector_3 pt3 = vector_3(ABL_PROBE_PT_3_X, ABL_PROBE_PT_3_Y, z_at_pt_3);
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vector_3 xPositive = (xRightyFront - xLeftyFront).get_normal();
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vector_3 yPositive = (xLeftyBack - xLeftyFront).get_normal();
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vector_3 planeNormal = vector_3::cross(xPositive, yPositive).get_normal();
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vector_3 from_2_to_1 = (pt1 - pt2).get_normal();
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vector_3 from_2_to_3 = (pt3 - pt2).get_normal();
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vector_3 planeNormal = vector_3::cross(from_2_to_1, from_2_to_3).get_normal();
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planeNormal = vector_3(planeNormal.x, planeNormal.y, abs(planeNormal.z));
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//planeNormal.debug("planeNormal");
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//yPositive.debug("yPositive");
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plan_bed_level_matrix = matrix_3x3::create_look_at(planeNormal);
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//bedLevel.debug("bedLevel");
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//plan_bed_level_matrix.debug("bed level before");
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//vector_3 uncorrected_position = plan_get_position_mm();
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//uncorrected_position.debug("position before");
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// and set our bed level equation to do the right thing
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//plan_bed_level_matrix.debug("bed level after");
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vector_3 corrected_position = plan_get_position();
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//corrected_position.debug("position after");
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current_position[X_AXIS] = corrected_position.x;
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current_position[Y_AXIS] = corrected_position.y;
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current_position[Z_AXIS] = corrected_position.z;
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// but the bed at 0 so we don't go below it.
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// put the bed at 0 so we don't go below it.
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current_position[Z_AXIS] = zprobe_zoffset;
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
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}
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#endif // ACCURATE_BED_LEVELING
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#endif // AUTO_BED_LEVELING_GRID
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static void run_z_probe() {
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plan_bed_level_matrix.set_to_identity();
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@ -1403,7 +1397,7 @@ void process_commands()
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break;
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#ifdef ENABLE_AUTO_BED_LEVELING
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case 29: // G29 Detailed Z-Probe, probes the bed at 3 points.
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case 29: // G29 Detailed Z-Probe, probes the bed at 3 or more points.
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{
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#if Z_MIN_PIN == -1
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#error "You must have a Z_MIN endstop in order to enable Auto Bed Leveling feature!!! Z_MIN_PIN must point to a valid hardware pin."
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@ -1432,10 +1426,11 @@ void process_commands()
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setup_for_endstop_move();
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feedrate = homing_feedrate[Z_AXIS];
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#ifdef ACCURATE_BED_LEVELING
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#ifdef AUTO_BED_LEVELING_GRID
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// probe at the points of a lattice grid
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int xGridSpacing = (RIGHT_PROBE_BED_POSITION - LEFT_PROBE_BED_POSITION) / (ACCURATE_BED_LEVELING_POINTS-1);
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int yGridSpacing = (BACK_PROBE_BED_POSITION - FRONT_PROBE_BED_POSITION) / (ACCURATE_BED_LEVELING_POINTS-1);
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int xGridSpacing = (RIGHT_PROBE_BED_POSITION - LEFT_PROBE_BED_POSITION) / (AUTO_BED_LEVELING_GRID_POINTS-1);
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int yGridSpacing = (BACK_PROBE_BED_POSITION - FRONT_PROBE_BED_POSITION) / (AUTO_BED_LEVELING_GRID_POINTS-1);
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// solve the plane equation ax + by + d = z
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@ -1445,9 +1440,9 @@ void process_commands()
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// so Vx = -a Vy = -b Vz = 1 (we want the vector facing towards positive Z
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// "A" matrix of the linear system of equations
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double eqnAMatrix[ACCURATE_BED_LEVELING_POINTS*ACCURATE_BED_LEVELING_POINTS*3];
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double eqnAMatrix[AUTO_BED_LEVELING_GRID_POINTS*AUTO_BED_LEVELING_GRID_POINTS*3];
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// "B" vector of Z points
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double eqnBVector[ACCURATE_BED_LEVELING_POINTS*ACCURATE_BED_LEVELING_POINTS];
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double eqnBVector[AUTO_BED_LEVELING_GRID_POINTS*AUTO_BED_LEVELING_GRID_POINTS];
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int probePointCounter = 0;
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@ -1470,7 +1465,7 @@ void process_commands()
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zig = true;
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}
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for (int xCount=0; xCount < ACCURATE_BED_LEVELING_POINTS; xCount++)
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for (int xCount=0; xCount < AUTO_BED_LEVELING_GRID_POINTS; xCount++)
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{
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float z_before;
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if (probePointCounter == 0)
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@ -1487,9 +1482,9 @@ void process_commands()
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eqnBVector[probePointCounter] = measured_z;
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eqnAMatrix[probePointCounter + 0*ACCURATE_BED_LEVELING_POINTS*ACCURATE_BED_LEVELING_POINTS] = xProbe;
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eqnAMatrix[probePointCounter + 1*ACCURATE_BED_LEVELING_POINTS*ACCURATE_BED_LEVELING_POINTS] = yProbe;
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eqnAMatrix[probePointCounter + 2*ACCURATE_BED_LEVELING_POINTS*ACCURATE_BED_LEVELING_POINTS] = 1;
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eqnAMatrix[probePointCounter + 0*AUTO_BED_LEVELING_GRID_POINTS*AUTO_BED_LEVELING_GRID_POINTS] = xProbe;
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eqnAMatrix[probePointCounter + 1*AUTO_BED_LEVELING_GRID_POINTS*AUTO_BED_LEVELING_GRID_POINTS] = yProbe;
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eqnAMatrix[probePointCounter + 2*AUTO_BED_LEVELING_GRID_POINTS*AUTO_BED_LEVELING_GRID_POINTS] = 1;
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probePointCounter++;
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xProbe += xInc;
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}
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@ -1497,7 +1492,7 @@ void process_commands()
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clean_up_after_endstop_move();
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// solve lsq problem
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double *plane_equation_coefficients = qr_solve(ACCURATE_BED_LEVELING_POINTS*ACCURATE_BED_LEVELING_POINTS, 3, eqnAMatrix, eqnBVector);
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double *plane_equation_coefficients = qr_solve(AUTO_BED_LEVELING_GRID_POINTS*AUTO_BED_LEVELING_GRID_POINTS, 3, eqnAMatrix, eqnBVector);
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SERIAL_PROTOCOLPGM("Eqn coefficients: a: ");
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SERIAL_PROTOCOL(plane_equation_coefficients[0]);
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@ -1511,24 +1506,24 @@ void process_commands()
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free(plane_equation_coefficients);
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#else // ACCURATE_BED_LEVELING not defined
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#else // AUTO_BED_LEVELING_GRID not defined
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// Probe at 3 arbitrary points
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// probe 1
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float z_at_pt_1 = probe_pt(ABL_PROBE_PT_1_X, ABL_PROBE_PT_1_Y, Z_RAISE_BEFORE_PROBING);
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// prob 1
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float z_at_xLeft_yBack = probe_pt(LEFT_PROBE_BED_POSITION, BACK_PROBE_BED_POSITION, Z_RAISE_BEFORE_PROBING);
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// probe 2
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float z_at_pt_2 = probe_pt(ABL_PROBE_PT_2_X, ABL_PROBE_PT_2_Y, current_position[Z_AXIS] + Z_RAISE_BETWEEN_PROBINGS);
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// prob 2
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float z_at_xLeft_yFront = probe_pt(LEFT_PROBE_BED_POSITION, FRONT_PROBE_BED_POSITION, current_position[Z_AXIS] + Z_RAISE_BETWEEN_PROBINGS);
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// prob 3
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float z_at_xRight_yFront = probe_pt(RIGHT_PROBE_BED_POSITION, FRONT_PROBE_BED_POSITION, current_position[Z_AXIS] + Z_RAISE_BETWEEN_PROBINGS);
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// probe 3
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float z_at_pt_3 = probe_pt(ABL_PROBE_PT_3_X, ABL_PROBE_PT_3_Y, current_position[Z_AXIS] + Z_RAISE_BETWEEN_PROBINGS);
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clean_up_after_endstop_move();
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set_bed_level_equation(z_at_xLeft_yFront, z_at_xRight_yFront, z_at_xLeft_yBack);
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set_bed_level_equation_3pts(z_at_pt_1, z_at_pt_2, z_at_pt_3);
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#endif // ACCURATE_BED_LEVELING
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#endif // AUTO_BED_LEVELING_GRID
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st_synchronize();
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// The following code correct the Z height difference from z-probe position and hotend tip position.
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@ -1,11 +1,9 @@
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#include "qr_solve.h"
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#ifdef ACCURATE_BED_LEVELING
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#ifdef AUTO_BED_LEVELING_GRID
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#include <stdlib.h>
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#include <math.h>
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#include <time.h>
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//# include "r8lib.h"
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@ -1,6 +1,6 @@
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#include "Configuration.h"
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#ifdef ACCURATE_BED_LEVELING
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#ifdef AUTO_BED_LEVELING_GRID
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void daxpy ( int n, double da, double dx[], int incx, double dy[], int incy );
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double ddot ( int n, double dx[], int incx, double dy[], int incy );
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