lapacke_cheevr_work.c
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00001 /*****************************************************************************
00002   Copyright (c) 2010, Intel Corp.
00003   All rights reserved.
00004 
00005   Redistribution and use in source and binary forms, with or without
00006   modification, are permitted provided that the following conditions are met:
00007 
00008     * Redistributions of source code must retain the above copyright notice,
00009       this list of conditions and the following disclaimer.
00010     * Redistributions in binary form must reproduce the above copyright
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00014       may be used to endorse or promote products derived from this software
00015       without specific prior written permission.
00016 
00017   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
00018   AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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00020   ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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00026   ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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00028 ******************************************************************************
00029 * Contents: Native middle-level C interface to LAPACK function cheevr
00030 * Author: Intel Corporation
00031 * Generated October, 2010
00032 *****************************************************************************/
00033 
00034 #include "lapacke.h"
00035 #include "lapacke_utils.h"
00036 
00037 lapack_int LAPACKE_cheevr_work( int matrix_order, char jobz, char range,
00038                                 char uplo, lapack_int n,
00039                                 lapack_complex_float* a, lapack_int lda,
00040                                 float vl, float vu, lapack_int il,
00041                                 lapack_int iu, float abstol, lapack_int* m,
00042                                 float* w, lapack_complex_float* z,
00043                                 lapack_int ldz, lapack_int* isuppz,
00044                                 lapack_complex_float* work, lapack_int lwork,
00045                                 float* rwork, lapack_int lrwork,
00046                                 lapack_int* iwork, lapack_int liwork )
00047 {
00048     lapack_int info = 0;
00049     if( matrix_order == LAPACK_COL_MAJOR ) {
00050         /* Call LAPACK function and adjust info */
00051         LAPACK_cheevr( &jobz, &range, &uplo, &n, a, &lda, &vl, &vu, &il, &iu,
00052                        &abstol, m, w, z, &ldz, isuppz, work, &lwork, rwork,
00053                        &lrwork, iwork, &liwork, &info );
00054         if( info < 0 ) {
00055             info = info - 1;
00056         }
00057     } else if( matrix_order == LAPACK_ROW_MAJOR ) {
00058         lapack_int ncols_z = ( LAPACKE_lsame( range, 'a' ) ||
00059                              LAPACKE_lsame( range, 'v' ) ) ? n :
00060                              ( LAPACKE_lsame( range, 'i' ) ? (iu-il+1) : 1);
00061         lapack_int lda_t = MAX(1,n);
00062         lapack_int ldz_t = MAX(1,n);
00063         lapack_complex_float* a_t = NULL;
00064         lapack_complex_float* z_t = NULL;
00065         /* Check leading dimension(s) */
00066         if( lda < n ) {
00067             info = -7;
00068             LAPACKE_xerbla( "LAPACKE_cheevr_work", info );
00069             return info;
00070         }
00071         if( ldz < ncols_z ) {
00072             info = -16;
00073             LAPACKE_xerbla( "LAPACKE_cheevr_work", info );
00074             return info;
00075         }
00076         /* Query optimal working array(s) size if requested */
00077         if( liwork == -1 || lrwork == -1 || lwork == -1 ) {
00078             LAPACK_cheevr( &jobz, &range, &uplo, &n, a, &lda_t, &vl, &vu, &il,
00079                            &iu, &abstol, m, w, z, &ldz_t, isuppz, work, &lwork,
00080                            rwork, &lrwork, iwork, &liwork, &info );
00081             return (info < 0) ? (info - 1) : info;
00082         }
00083         /* Allocate memory for temporary array(s) */
00084         a_t = (lapack_complex_float*)
00085             LAPACKE_malloc( sizeof(lapack_complex_float) * lda_t * MAX(1,n) );
00086         if( a_t == NULL ) {
00087             info = LAPACK_TRANSPOSE_MEMORY_ERROR;
00088             goto exit_level_0;
00089         }
00090         if( LAPACKE_lsame( jobz, 'v' ) ) {
00091             z_t = (lapack_complex_float*)
00092                 LAPACKE_malloc( sizeof(lapack_complex_float) *
00093                                 ldz_t * MAX(1,ncols_z) );
00094             if( z_t == NULL ) {
00095                 info = LAPACK_TRANSPOSE_MEMORY_ERROR;
00096                 goto exit_level_1;
00097             }
00098         }
00099         /* Transpose input matrices */
00100         LAPACKE_che_trans( matrix_order, uplo, n, a, lda, a_t, lda_t );
00101         /* Call LAPACK function and adjust info */
00102         LAPACK_cheevr( &jobz, &range, &uplo, &n, a_t, &lda_t, &vl, &vu, &il,
00103                        &iu, &abstol, m, w, z_t, &ldz_t, isuppz, work, &lwork,
00104                        rwork, &lrwork, iwork, &liwork, &info );
00105         if( info < 0 ) {
00106             info = info - 1;
00107         }
00108         /* Transpose output matrices */
00109         LAPACKE_che_trans( LAPACK_COL_MAJOR, uplo, n, a_t, lda_t, a, lda );
00110         if( LAPACKE_lsame( jobz, 'v' ) ) {
00111             LAPACKE_cge_trans( LAPACK_COL_MAJOR, n, ncols_z, z_t, ldz_t, z,
00112                                ldz );
00113         }
00114         /* Release memory and exit */
00115         if( LAPACKE_lsame( jobz, 'v' ) ) {
00116             LAPACKE_free( z_t );
00117         }
00118 exit_level_1:
00119         LAPACKE_free( a_t );
00120 exit_level_0:
00121         if( info == LAPACK_TRANSPOSE_MEMORY_ERROR ) {
00122             LAPACKE_xerbla( "LAPACKE_cheevr_work", info );
00123         }
00124     } else {
00125         info = -1;
00126         LAPACKE_xerbla( "LAPACKE_cheevr_work", info );
00127     }
00128     return info;
00129 }


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