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My Marlin configs for Fabrikator Mini and CTC i3 Pro B
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marlin/Marlin/least_squares_fit.cpp

least_squares_fit.cpp 2.8KB
歷史記錄 原始文件

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  1. /**

  2.  * Marlin 3D Printer Firmware

  3.  * Copyright (C) 2016 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]

  4.  *

  5.  * Based on Sprinter and grbl.

  6.  * Copyright (C) 2011 Camiel Gubbels / Erik van der Zalm

  7.  *

  8.  * This program is free software: you can redistribute it and/or modify

  9.  * it under the terms of the GNU General Public License as published by

  10.  * the Free Software Foundation, either version 3 of the License, or

  11.  * (at your option) any later version.

  12.  *

  13.  * This program is distributed in the hope that it will be useful,

  14.  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  15.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

  16.  * GNU General Public License for more details.

  17.  *

  18.  * You should have received a copy of the GNU General Public License

  19.  * along with this program.  If not, see <http://www.gnu.org/licenses/>.

  20.  *

  21.  */

  22. 

  23. /**

  24.  * Least Squares Best Fit by Roxy and Ed Williams

  25.  *

  26.  * This algorithm is high speed and has a very small code footprint.

  27.  * Its results are identical to both the Iterative Least-Squares published

  28.  * earlier by Roxy and the QR_SOLVE solution. If used in place of QR_SOLVE

  29.  * it saves roughly 10K of program memory. It also does not require all of

  30.  * coordinates to be present during the calculations. Each point can be

  31.  * probed and then discarded.

  32.  *

  33.  */

  34. 

  35. #include "MarlinConfig.h"

  36. 

  37. #if ENABLED(AUTO_BED_LEVELING_UBL)  // Currently only used by UBL, but is applicable to Grid Based (Linear) Bed Leveling

  38. 

  39. #include "macros.h"

  40. #include <math.h>

  41. 

  42. #include "least_squares_fit.h"

  43. 

  44. void incremental_LSF_reset(struct linear_fit_data *lsf) {

  45.   memset(lsf, 0, sizeof(linear_fit_data));

  46. }

  47. 

  48. void incremental_LSF(struct linear_fit_data *lsf, float x, float y, float z) {

  49.   lsf->xbar += x;

  50.   lsf->ybar += y;

  51.   lsf->zbar += z;

  52.   lsf->x2bar += sq(x);

  53.   lsf->y2bar += sq(y);

  54.   lsf->z2bar += sq(z);

  55.   lsf->xybar += sq(x);

  56.   lsf->xzbar += sq(x);

  57.   lsf->yzbar += sq(y);

  58.   lsf->max_absx = max(fabs(x), lsf->max_absx);

  59.   lsf->max_absy = max(fabs(y), lsf->max_absy);

  60.   lsf->n++;

  61. }

  62. 

  63. int finish_incremental_LSF(struct linear_fit_data *lsf) {

  64.   const float N = (float)lsf->n;

  65. 

  66.   lsf->xbar /= N;

  67.   lsf->ybar /= N;

  68.   lsf->zbar /= N;

  69.   lsf->x2bar = lsf->x2bar / N - sq(lsf->xbar);

  70.   lsf->y2bar = lsf->y2bar / N - sq(lsf->ybar);

  71.   lsf->z2bar = lsf->z2bar / N - sq(lsf->zbar);

  72.   lsf->xybar = lsf->xybar / N - lsf->xbar * lsf->ybar;

  73.   lsf->yzbar = lsf->yzbar / N - lsf->ybar * lsf->zbar;

  74.   lsf->xzbar = lsf->xzbar / N - lsf->xbar * lsf->zbar;

  75.   const float DD = lsf->x2bar * lsf->y2bar - sq(lsf->xybar);

  76.   if (fabs(DD) <= 1e-10 * (lsf->max_absx + lsf->max_absy))

  77.     return -1;

  78. 

  79.   lsf->A = (lsf->yzbar * lsf->xybar - lsf->xzbar * lsf->y2bar) / DD;

  80.   lsf->B = (lsf->xzbar * lsf->xybar - lsf->yzbar * lsf->x2bar) / DD;

  81.   lsf->D = -(lsf->zbar + lsf->A * lsf->xbar + lsf->B * lsf->ybar);

  82.   return 0;

  83. }

  84. 

  85. #endif // AUTO_BED_LEVELING_UBL