Sherman-Morrison/SM_MaponiA3.cpp

// SM-MaponiA3_f.cpp
// Algorithm 3 from P. Maponi,
// p. 283, doi:10.1016/j.laa.2006.07.007
#include "SM_MaponiA3.hpp"
#include "Helpers.hpp"

void MaponiA3(double *Slater0, double *Slater_inv, unsigned int M,
              unsigned int N_updates, double *Updates,
              unsigned int *Updates_index) {

  unsigned int k, l, lbar, i, j, tmp = M;
  unsigned int *p = new unsigned int[M + 1];
  double alpha, beta;
  double *breakdown = new double[M + 1];
  double *Al = new double[M * M];
  p[0] = 0;
  for (i = 0; i < M; i++) {
    p[i + 1] = i + 1;
  }

  // Declare auxiliary solution matrix ylk
  double ***ylk = new double **[M];
  for (l = 0; l < M; l++) {
    ylk[l] = new double *[M + 1];
    for (k = 0; k < M + 1; k++) {
      ylk[l][k] = new double[M + 1] {0};
    }
  }

  // Calculate all the y0k in M^2 multiplications instead of M^3
  for (k = 1; k < M + 1; k++) {
    for (i = 1; i < M + 1; i++) {
      ylk[0][k][i] =
          Slater_inv[(i - 1) * M + (i - 1)] * Updates[(i - 1) * M + (k - 1)];
    }
  }

  // Calculate all the ylk from the y0k
  for (l = 1; l < M; l++) {
    for (j = l; j < M + 1; j++) {
      breakdown[j] = abs(1 + ylk[l - 1][p[j]][p[j]]);
    }
    lbar = getMaxIndex(breakdown, M + 1);
    tmp = p[l];
    p[l] = p[lbar];
    p[lbar] = tmp;
    for (k = l + 1; k < M + 1; k++) {
      beta = 1 + ylk[l - 1][p[l]][p[l]];
      if (beta == 0) {
        cout << "Break-down condition occured. Exiting..." << endl;
        exit;
      }
      for (i = 1; i < M + 1; i++) {
        alpha = ylk[l - 1][p[k]][p[l]] / beta;
        ylk[l][p[k]][i] = ylk[l - 1][p[k]][i] - alpha * ylk[l - 1][p[l]][i];
      }
    }
  }

  // Keep the memory location of the passed array 'Slater_inv' before
  // 'Slater_inv' gets reassigned by 'matMul(...)' in the next line, by creating
  // a new pointer 'copy' that points to whereever 'Slater_inv' points to now.
  double *copy = Slater_inv;

  // Construct A-inverse from A0-inverse and the ylk
  for (l = 0; l < M; l++) {
    k = l + 1;
    beta = 1 + ylk[l][p[k]][p[k]];
    for (i = 0; i < M; i++) {
      for (j = 0; j < M; j++) {
        Al[i * M + j] = (i == j) - (j == p[k]-1) * ylk[l][p[k]][i + 1] / beta;
      }
    }
    Slater_inv = matMul(Al, Slater_inv, M);
  }

  // Assign the new values of 'Slater_inv' to the old values in 'copy[][]'
  for (i = 0; i < M; i++) {
    for (j = 0; j < M; j++) {
      copy[i * M + j] = Slater_inv[i * M + j];
    }
  }

  for (l = 0; l < M; l++) {
    for (k = 0; k < M + 1; k++) {
      delete[] ylk[l][k];
    }
    delete[] ylk[l];
  }
  delete[] Al;
  delete[] p, breakdown;
}

extern "C" {
  void MaponiA3_f(double **linSlater0, double **linSlater_inv, unsigned int *Dim,
                  unsigned int *N_updates, double **linUpdates,
                  unsigned int **Updates_index) {
                    MaponiA3(*linSlater0, *linSlater_inv, *Dim, 
                             *N_updates, *linUpdates,
                             *Updates_index);
  }
}
C++ redesign of data-structures - Use flat arrays - Use real type for all matrices - Merge _f MaponiA3 files 2021-02-09 13:40:52 +01:00			`// SM-MaponiA3_f.cpp`
Put helper functions in separate header file from the Sherman-Morrison algo. 2021-02-03 12:13:09 +01:00			`// Algorithm 3 from P. Maponi,`
			`// p. 283, doi:10.1016/j.laa.2006.07.007`
Prepared the main Fortran infrastructure for the C++ calls. Updated the makefile. 2021-02-04 11:39:00 +01:00			`#include "SM_MaponiA3.hpp"`
Put helper functions in separate header file from the Sherman-Morrison algo. 2021-02-03 12:13:09 +01:00			`#include "Helpers.hpp"`
C++ implementation of algo 3 is working. Not optimised yet. 2021-01-27 17:19:41 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`void MaponiA3(double Slater0, double Slater_inv, unsigned int M,`
			`unsigned int N_updates, double *Updates,`
			`unsigned int *Updates_index) {`
C++ redesign of data-structures - Use flat arrays - Use real type for all matrices - Merge _f MaponiA3 files 2021-02-09 13:40:52 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`unsigned int k, l, lbar, i, j, tmp = M;`
			`unsigned int *p = new unsigned int[M + 1];`
			`double alpha, beta;`
			`double *breakdown = new double[M + 1];`
			`double Al = new double[M M];`
			`p[0] = 0;`
			`for (i = 0; i < M; i++) {`
			`p[i + 1] = i + 1;`
			`}`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`// Declare auxiliary solution matrix ylk`
			`double *ylk = new double [M];`
			`for (l = 0; l < M; l++) {`
			`ylk[l] = new double *[M + 1];`
			`for (k = 0; k < M + 1; k++) {`
Simplify initialization with 0 2021-02-09 15:07:55 +01:00			`ylk[l][k] = new double[M + 1] {0};`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00			`}`
Apply clang-format 2021-02-09 14:46:28 +01:00			`}`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`// Calculate all the y0k in M^2 multiplications instead of M^3`
			`for (k = 1; k < M + 1; k++) {`
			`for (i = 1; i < M + 1; i++) {`
			`ylk[0][k][i] =`
			`Slater_inv[(i - 1) * M + (i - 1)] * Updates[(i - 1) * M + (k - 1)];`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00			`}`
Apply clang-format 2021-02-09 14:46:28 +01:00			`}`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`// Calculate all the ylk from the y0k`
			`for (l = 1; l < M; l++) {`
			`for (j = l; j < M + 1; j++) {`
			`breakdown[j] = abs(1 + ylk[l - 1][p[j]][p[j]]);`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00			`}`
Apply clang-format 2021-02-09 14:46:28 +01:00			`lbar = getMaxIndex(breakdown, M + 1);`
			`tmp = p[l];`
			`p[l] = p[lbar];`
			`p[lbar] = tmp;`
			`for (k = l + 1; k < M + 1; k++) {`
			`beta = 1 + ylk[l - 1][p[l]][p[l]];`
			`if (beta == 0) {`
			`cout << "Break-down condition occured. Exiting..." << endl;`
			`exit;`
			`}`
			`for (i = 1; i < M + 1; i++) {`
			`alpha = ylk[l - 1][p[k]][p[l]] / beta;`
			`ylk[l][p[k]][i] = ylk[l - 1][p[k]][i] - alpha * ylk[l - 1][p[l]][i];`
			`}`
			`}`
			`}`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`// Keep the memory location of the passed array 'Slater_inv' before`
			`// 'Slater_inv' gets reassigned by 'matMul(...)' in the next line, by creating`
			`// a new pointer 'copy' that points to whereever 'Slater_inv' points to now.`
			`double *copy = Slater_inv;`
Optimize out Identity matrix 2021-02-09 14:44:54 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`// Construct A-inverse from A0-inverse and the ylk`
			`for (l = 0; l < M; l++) {`
			`k = l + 1;`
			`beta = 1 + ylk[l][p[k]][p[k]];`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00			`for (i = 0; i < M; i++) {`
C++ redesign of data-structures - Use flat arrays - Use real type for all matrices - Merge _f MaponiA3 files 2021-02-09 13:40:52 +01:00			`for (j = 0; j < M; j++) {`
Optimize out the U 2021-02-09 15:05:11 +01:00			`Al[i * M + j] = (i == j) - (j == p[k]-1) * ylk[l][p[k]][i + 1] / beta;`
C++ redesign of data-structures - Use flat arrays - Use real type for all matrices - Merge _f MaponiA3 files 2021-02-09 13:40:52 +01:00			`}`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00			`}`
Apply clang-format 2021-02-09 14:46:28 +01:00			`Slater_inv = matMul(Al, Slater_inv, M);`
			`}`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00
Apply clang-format 2021-02-09 14:46:28 +01:00			`// Assign the new values of 'Slater_inv' to the old values in 'copy[][]'`
			`for (i = 0; i < M; i++) {`
			`for (j = 0; j < M; j++) {`
			`copy[i * M + j] = Slater_inv[i * M + j];`
Extracted the SM algorithm and wrote it as a void function that updates the passed old inverse. Does not work yet. For some reason the changes in the inverse do not persist when the function is finished. Also the inverse is not correct. 2021-02-02 15:05:47 +01:00			`}`
Apply clang-format 2021-02-09 14:46:28 +01:00			`}`

			`for (l = 0; l < M; l++) {`
			`for (k = 0; k < M + 1; k++) {`
			`delete[] ylk[l][k];`
			`}`
			`delete[] ylk[l];`
			`}`
Optimize out the U 2021-02-09 15:05:11 +01:00			`delete[] Al;`
Apply clang-format 2021-02-09 14:46:28 +01:00			`delete[] p, breakdown;`
C++ redesign of data-structures - Use flat arrays - Use real type for all matrices - Merge _f MaponiA3 files 2021-02-09 13:40:52 +01:00			`}`

			`extern "C" {`
Added QMCChem test dataset with 3 updates. Renamed files, added the Fortran program QMCChem_dataset_test.f90 to start testing the QMCChem dataset. Wrote and tested Fortran code to import the test dataset. 2021-02-12 12:04:21 +01:00			`void MaponiA3_f(double linSlater0, double linSlater_inv, unsigned int *Dim,`
			`unsigned int N_updates, double *linUpdates,`
			`unsigned int **Updates_index) {`
			`MaponiA3(linSlater0, linSlater_inv, *Dim,`
			`N_updates, linUpdates,`
			`*Updates_index);`
			`}`
C++ redesign of data-structures - Use flat arrays - Use real type for all matrices - Merge _f MaponiA3 files 2021-02-09 13:40:52 +01:00			`}`