Reverse modeproblem matrix sign so it applies directly to scattering

Former-commit-id: d05f8207bd86263ecdc93d3838e948c4fe90359a
2019-07-23 08:43:25 +03:00 · 2019-07-23 08:43:25 +03:00 · 5758c5d587
parent e05a79483d
commit 5758c5d587
2 changed files with 34 additions and 22 deletions
--- a/qpms/scatsystem.c
+++ b/qpms/scatsystem.c
@ -1022,8 +1022,8 @@ complex double *qpms_scatsys_build_modeproblem_matrix_full(
  complex double *tmp;
  QPMS_CRASHING_MALLOC(tmp, SQ(ss->max_bspecn) * sizeof(complex double));
  memset(target, 0, SQ(full_len) * sizeof(complex double)); //unnecessary?
-  complex double one = 1, zero = 0;
-  { // Non-diagonal part; M[piR, piC] = T[piR] S(piR<-piC)
+  const complex double zero = 0, minusone = -1;
+  { // Non-diagonal part; M[piR, piC] = -T[piR] S(piR<-piC)
    size_t fullvec_offsetR = 0;
    for(qpms_ss_pi_t piR = 0; piR < ss->p_count; ++piR) {
      const qpms_vswf_set_spec_t *bspecR = ss->tm[ss->p[piR].tmatrix_id]->spec;
@ -1041,7 +1041,7 @@ complex double *qpms_scatsys_build_modeproblem_matrix_full(
                k, posR, posC, QPMS_HANKEL_PLUS));      
          cblas_zgemm(CblasRowMajor, CblasNoTrans, CblasNoTrans,
              bspecR->n /*m*/, bspecC->n /*n*/, bspecR->n /*k*/, 
-              &one/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
+              &minusone/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
              tmp/*b*/, bspecC->n/*ldb*/, &zero/*beta*/,
              target + fullvec_offsetR*full_len + fullvec_offsetC /*c*/,
              full_len /*ldc*/);
@ -1051,8 +1051,8 @@ complex double *qpms_scatsys_build_modeproblem_matrix_full(
      fullvec_offsetR += bspecR->n;
    }
  }
-  // diagonal part M[pi,pi] = -1
-  for (size_t i = 0; i < full_len; ++i) target[full_len * i + i] = -1;
+  // diagonal part M[pi,pi] = +1
+  for (size_t i = 0; i < full_len; ++i) target[full_len * i + i] = +1;
  
  free(tmp);
  return target;
@ -1076,7 +1076,7 @@ complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed(
  // some of the following workspaces are probably redundant; TODO optimize later.

  // workspaces for the uncompressed particle<-particle tranlation matrix block
-  // and the result of multiplying with a T-matrix
+  // and the result of multiplying with a T-matrix (times -1)
  complex double *Sblock, *TSblock;
  QPMS_CRASHING_MALLOC(Sblock, sizeof(complex double)*SQ(ss->max_bspecn));
  QPMS_CRASHING_MALLOC(TSblock, sizeof(complex double)*SQ(ss->max_bspecn));
@ -1085,7 +1085,7 @@ complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed(
  complex double *tmp;
  QPMS_CRASHING_MALLOC(tmp, sizeof(complex double) * SQ(ss->max_bspecn) * ss->sym->order);

-  const complex double one = 1, zero = 0;
+  const complex double one = 1, zero = 0, minusone = -1;

  for(qpms_ss_pi_t piR = 0; piR < ss->p_count; ++piR) { //Row loop
    const qpms_ss_oti_t otiR = ss->p_orbitinfo[piR].t;
@ -1134,13 +1134,13 @@ complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed(

 						cblas_zgemm(CblasRowMajor, CblasNoTrans, CblasNoTrans,
 								bspecR->n /*m*/, bspecC->n /*n*/, bspecR->n /*k*/,
-								&one/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
+								&minusone/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
 								Sblock/*b*/, bspecC->n/*ldb*/, &zero/*beta*/,
 								TSblock /*c*/, bspecC->n /*ldc*/);
-          } else { // diagonal, fill with diagonal -1
+          } else { // diagonal, fill with diagonal +1
            for (size_t row = 0; row < bspecR->n; ++row)
              for (size_t col = 0; col < bspecC->n; ++col)
-                TSblock[row * bspecC->n + col] = (row == col)? -1 : 0;
+                TSblock[row * bspecC->n + col] = (row == col)? +1 : 0;
          }

          // tmp[oiR|piR,piC] = ∑_K M[piR,K] U*[K,piC]
@ -1186,7 +1186,7 @@ complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed_orbitorderR(
  // some of the following workspaces are probably redundant; TODO optimize later.

  // workspaces for the uncompressed particle<-particle tranlation matrix block
-  // and the result of multiplying with a T-matrix
+  // and the result of multiplying with a T-matrix (times -1)
  complex double *Sblock, *TSblock;
  QPMS_CRASHING_MALLOC(Sblock, sizeof(complex double)*SQ(ss->max_bspecn));
  QPMS_CRASHING_MALLOC(TSblock, sizeof(complex double)*SQ(ss->max_bspecn));
@ -1195,7 +1195,7 @@ complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed_orbitorderR(
  complex double *tmp;
  QPMS_CRASHING_MALLOC(tmp, sizeof(complex double) * SQ(ss->max_bspecn) * ss->sym->order);

-  const complex double one = 1, zero = 0;
+  const complex double one = 1, zero = 0, minusone = -1;

  for(qpms_ss_pi_t opistartR = 0; opistartR < ss->p_count; 
      opistartR += ss->orbit_types[ss->p_orbitinfo[ss->p_by_orbit[opistartR]].t].size //orbit_p_countR; might write a while() instead
@ -1253,13 +1253,13 @@ complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed_orbitorderR(

              cblas_zgemm(CblasRowMajor, CblasNoTrans, CblasNoTrans,
                  bspecR->n /*m*/, bspecC->n /*n*/, bspecR->n /*k*/,
-                  &one/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
+                  &minusone/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
                  Sblock/*b*/, bspecC->n/*ldb*/, &zero/*beta*/,
                  TSblock /*c*/, bspecC->n /*ldc*/);
-            } else { // diagonal, fill with diagonal -1
+            } else { // diagonal, fill with diagonal +1
              for (size_t row = 0; row < bspecR->n; ++row)
                for (size_t col = 0; col < bspecC->n; ++col)
-                  TSblock[row * bspecC->n + col] = (row == col)? -1 : 0;
+                  TSblock[row * bspecC->n + col] = (row == col)? +1 : 0;
            }

            // tmp[oiR|piR,piC] = ∑_K M[piR,K] U*[K,piC]
@ -1308,7 +1308,7 @@ static void *qpms_scatsys_build_modeproblem_matrix_irrep_packed_parallelR_thread
  // some of the following workspaces are probably redundant; TODO optimize later.

  // workspaces for the uncompressed particle<-particle tranlation matrix block
-  // and the result of multiplying with a T-matrix
+  // and the result of multiplying with a T-matrix (times -1)
  complex double *Sblock, *TSblock;
  QPMS_CRASHING_MALLOC(Sblock, sizeof(complex double)*SQ(ss->max_bspecn));
  QPMS_CRASHING_MALLOC(TSblock, sizeof(complex double)*SQ(ss->max_bspecn));
@ -1317,7 +1317,7 @@ static void *qpms_scatsys_build_modeproblem_matrix_irrep_packed_parallelR_thread
  complex double *tmp;
  QPMS_CRASHING_MALLOC(tmp, sizeof(complex double) * SQ(ss->max_bspecn) * ss->sym->order);

-  const complex double one = 1, zero = 0;
+  const complex double one = 1, zero = 0, minusone = -1;

  while(1) {
    // In the beginning, pick a target (row) orbit for this thread
@ -1385,13 +1385,13 @@ static void *qpms_scatsys_build_modeproblem_matrix_irrep_packed_parallelR_thread

              SERIAL_ZGEMM(CblasRowMajor, CblasNoTrans, CblasNoTrans,
                  bspecR->n /*m*/, bspecC->n /*n*/, bspecR->n /*k*/,
-                  &one/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
+                  &minusone/*alpha*/, tmmR/*a*/, bspecR->n/*lda*/,
                  Sblock/*b*/, bspecC->n/*ldb*/, &zero/*beta*/,
                  TSblock /*c*/, bspecC->n /*ldc*/);
-            } else { // diagonal, fill with diagonal -1
+            } else { // diagonal, fill with diagonal +1
              for (size_t row = 0; row < bspecR->n; ++row)
                for (size_t col = 0; col < bspecC->n; ++col)
-                  TSblock[row * bspecC->n + col] = (row == col)? -1 : 0;
+                  TSblock[row * bspecC->n + col] = (row == col)? +1 : 0;
            }

            // tmp[oiR|piR,piC] = ∑_K M[piR,K] U*[K,piC]
--- a/qpms/scatsystem.h
+++ b/qpms/scatsystem.h
@ -111,6 +111,7 @@ typedef struct qpms_ss_orbit_type_t {
 	qpms_ss_pi_t p_offset;
 } qpms_ss_orbit_type_t;

+
 typedef ptrdiff_t qpms_ss_osn_t; ///< "serial number" of av orbit in a given type.

 /// Auxillary type used in qpms_scatsys_t that identifies the particle's orbit and its id inside that orbit.
@ -265,14 +266,14 @@ complex double *qpms_scatsys_build_translation_matrix_e_irrep_packed(
 		qpms_bessel_t J
 		);

-/// Creates the full \f$ (-I + TS) \f$ matrix of the scattering system.
+/// Creates the full \f$ (I - TS) \f$ matrix of the scattering system.
 complex double *qpms_scatsys_build_modeproblem_matrix_full(
 		/// Target memory with capacity for ss->fecv_size**2 elements. If NULL, new will be allocated.
 		complex double *target,
 		const qpms_scatsys_t *ss,
 		/*COMPLEXIFY*/double k ///< Wave number to use in the translation matrix.
 		);
-/// Creates the mode problem matrix \f$ (-I + TS) \f$ directly in the irrep-packed form.
+/// Creates the mode problem matrix \f$ (I - TS) \f$ directly in the irrep-packed form.
 complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed(
 		/// Target memory with capacity for ss->fecv_size**2 elements. If NULL, new will be allocated.
 		complex double *target,
@ -294,6 +295,16 @@ complex double *qpms_scatsys_build_modeproblem_matrix_irrep_packed_orbitorder_pa
 		/*COMPLEXIFY*/double k ///< Wave number to use in the translation matrix.
 		);

+/// LU factorisation (LAPACKE_zgetrf) result holder.
+typedef struct qpms_ss_LU {
+	/// LU decomposition array.
+	complex double *a;
+	/// Pivot index array, size at least max(1,min(m, n)).
+	lapack_int *ipiv; 
+} qpms_ss_LU;
+
+void qpms_ss_LU_free(qpms_ss_LU *);
+
 /// NOT IMPLEMENTED Dumps a qpms_scatsys_t structure to a file.
 qpms_errno_t qpms_scatsys_dump(qpms_scatsys_t *ss, char *path);

@ -421,4 +432,5 @@ ccart3_t qpms_scatsys_eval_E_irrep(const qpms_scatsys_t *ss,
 		complex double k ///< Wave number.
 		);
 #endif
+
 #endif //QPMS_SCATSYSTEM_H