Merge branch 'commentaires' into 'master'

Edited the commentaries in the testing_zcheck See merge request !288

Merge branch 'commentaires' into 'master'
Edited the commentaries in the testing_zcheck See merge request !288
4ed75fb8 · Mathieu Faverge · 3bcf60a6 · 53560c52 · 4ed75fb8 · 4ed75fb8
Commit 4ed75fb8 authored 3 years ago by Mathieu Faverge
--- a/doc/user/chapters/installing.org
+++ b/doc/user/chapters/installing.org
@@ -320,7 +320,7 @@ Finally some packages or also available for [[sec:ug:debian][Debian/Ubuntu]] and
      * *CMAKE_INSTALL_PREFIX=path/to/your/install/dir*: where headers,
        libraries, executables, etc, will be copied when invoking make
        install
-      * *BUILD_SHARED_LIBS=ON|OFF*: indicate wether or not CMake has to
+      * *BUILD_SHARED_LIBS=ON|OFF*: indicates whether or not CMake has to
        build Chameleon static (~OFF~) or shared (~ON~) libraries.
      * *CMAKE_C_COMPILER=gcc|icc|...*: to choose the C compilers
        if several exist in the environment

--- a/testing/input/geadd.in
+++ b/testing/input/geadd.in
@@ -8,7 +8,7 @@
 # N: Number of columns of matrix B
 # LDA: Leading dimension of matrix A
 # LDB: Leading dimension of matrix B
-# trans: Wether the matrix A is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
+# trans: Whether the matrix A is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
 # alpha: Scalar alpha
 # beta: Scalar beta

--- a/testing/input/gels.in
+++ b/testing/input/gels.in
@@ -9,7 +9,7 @@
 # K: Number of columns of matrix A and rows of Matrix B
 # LDA: Leading dimension of matrix A
 # LDB: Leading dimension of matrix B
-# trans: Wether the system involves A (ChamNoTrans) or A^H *ChamTransConj)
+# trans: Whether the system involves A (ChamNoTrans) or A^H *ChamTransConj)
 # RH: Size of each subdomain when using RH
 op = gels

--- a/testing/input/gels_hqr.in
+++ b/testing/input/gels_hqr.in
@@ -9,7 +9,7 @@
 # K: Number of columns of matrix A and rows of Matrix B
 # LDA: Leading dimension of matrix A
 # LDB: Leading dimension of matrix B
-# trans: Wether the system involves A (ChamNoTrans) or A^H *ChamTransConj). Currently only ChamNoTrans is supported.
+# trans: Whether the system involves A (ChamNoTrans) or A^H *ChamTransConj). Currently only ChamNoTrans is supported.
 # qra: Size of TS domain
 # qrp: Size of high level tree for distributed mode
 # llvl: Tree used for low level reduction insides nodes

--- a/testing/input/gemm.in
+++ b/testing/input/gemm.in
@@ -10,8 +10,8 @@
 # LDA: Leading dimension of matrix A
 # LDB: Leading dimension of matrix B
 # LDC: Leading dimension of matrix C
-# transA: Wether the matrix A is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
+# transA: Whether the matrix A is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
-# transB: Wether the matrix B is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
+# transB: Whether the matrix B is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
 # alpha: Scalar alpha
 # beta: Scalar beta

--- a/testing/input/tradd.in
+++ b/testing/input/tradd.in
@@ -8,7 +8,7 @@
 # N: Number of columns of matrix B
 # LDA: Leading dimension of matrix A
 # LDB: Leading dimension of matrix B
-# trans: Wether the matrix A is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
+# trans: Whether the matrix A is not tranposed, transposed or conjugate transposed (0: not transposed, 1: transposed, 2: conjugate transposed)
 # uplo: matrix parte to be considered (0: Upper, 1: Lower)
 # alpha: Scalar alpha
 # beta: Scalar beta

--- a/testing/testing_zcheck.c
+++ b/testing/testing_zcheck.c
--- a/testing/testing_zcheck.h
+++ b/testing/testing_zcheck.h
@@ -57,9 +57,9 @@ static inline int check_zsyrk_std     ( run_arg_list_t *args, cham_mtxtype_t mat
 static inline int check_zsyrk         ( run_arg_list_t *args, cham_mtxtype_t mtxtype, cham_uplo_t uplo, cham_trans_t trans, CHAMELEON_Complex64_t alpha, CHAM_desc_t *descA,
                                        CHAM_desc_t *descB, CHAMELEON_Complex64_t beta, CHAM_desc_t *descCref, CHAM_desc_t *descC ) { return 0; }
 static inline int check_ztrmm_std     ( run_arg_list_t *args, int check_func, cham_side_t side, cham_uplo_t uplo, cham_trans_t trans, cham_diag_t diag, int M, int N, CHAMELEON_Complex64_t alpha,
-                                        CHAMELEON_Complex64_t *A, int LDA, CHAMELEON_Complex64_t *B, CHAMELEON_Complex64_t *Bref, int LDB ) { return 0; }
+                                        CHAMELEON_Complex64_t *A, int LDA, CHAMELEON_Complex64_t *Bref, CHAMELEON_Complex64_t *B, int LDB ) { return 0; }
 static inline int check_ztrmm         ( run_arg_list_t *args, int check_func, cham_side_t side, cham_uplo_t uplo, cham_trans_t trans, cham_diag_t diag,
-                                        CHAMELEON_Complex64_t alpha, CHAM_desc_t *descA, CHAM_desc_t *descB, CHAM_desc_t *descBref ) { return 0; }
+                                        CHAMELEON_Complex64_t alpha, CHAM_desc_t *descA, CHAM_desc_t *descBref, CHAM_desc_t *descB ) { return 0; }
 static inline int check_zlauum        ( run_arg_list_t *args, cham_uplo_t uplo, CHAM_desc_t *descA1, CHAM_desc_t *descA2 ) { return 0; }
 static inline int check_zxxtrf        ( run_arg_list_t *args, cham_mtxtype_t mtxtype, cham_uplo_t uplo, CHAM_desc_t *descA1, CHAM_desc_t *descA2 ) { return 0; }
 static inline int check_zxxtrf_std    ( run_arg_list_t *args, cham_mtxtype_t mtxtype, cham_uplo_t uplo, int M, int N, CHAMELEON_Complex64_t *A, CHAMELEON_Complex64_t *LU, int LDA ) { return 0; }
@@ -113,9 +113,9 @@ int check_zsyrk_std     ( run_arg_list_t *args, cham_mtxtype_t matrix_type, cham
 int check_zsyrk         ( run_arg_list_t *args, cham_mtxtype_t mtxtype, cham_uplo_t uplo, cham_trans_t trans, CHAMELEON_Complex64_t alpha, CHAM_desc_t *descA,
                          CHAM_desc_t *descB, CHAMELEON_Complex64_t beta, CHAM_desc_t *descCref, CHAM_desc_t *descC );
 int check_ztrmm_std     ( run_arg_list_t *args, int check_func, cham_side_t side, cham_uplo_t uplo, cham_trans_t trans, cham_diag_t diag, int M, int N, CHAMELEON_Complex64_t alpha,
-                          CHAMELEON_Complex64_t *A, int LDA, CHAMELEON_Complex64_t *B, CHAMELEON_Complex64_t *Bref, int LDB );
+                          CHAMELEON_Complex64_t *A, int LDA, CHAMELEON_Complex64_t *Bref, CHAMELEON_Complex64_t *B, int LDB );
 int check_ztrmm         ( run_arg_list_t *args, int check_func, cham_side_t side, cham_uplo_t uplo, cham_trans_t trans, cham_diag_t diag,
-                          CHAMELEON_Complex64_t alpha, CHAM_desc_t *descA, CHAM_desc_t *descB, CHAM_desc_t *descBref );
+                          CHAMELEON_Complex64_t alpha, CHAM_desc_t *descA, CHAM_desc_t *descBref, CHAM_desc_t *descB );
 int check_zlauum        ( run_arg_list_t *args, cham_uplo_t uplo, CHAM_desc_t *descA1, CHAM_desc_t *descA2 );
 int check_zxxtrf        ( run_arg_list_t *args, cham_mtxtype_t mtxtype, cham_uplo_t uplo, CHAM_desc_t *descA1, CHAM_desc_t *descA2 );
 int check_zxxtrf_std    ( run_arg_list_t *args, cham_mtxtype_t mtxtype, cham_uplo_t uplo, int M, int N, CHAMELEON_Complex64_t *A, CHAMELEON_Complex64_t *LU, int LDA );