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Functions | |
void | bli_sfree_saved_contigm (int m, int n, float *a_save, int a_rs_save, int a_cs_save, float **a, int *a_rs, int *a_cs) |
void | bli_dfree_saved_contigm (int m, int n, double *a_save, int a_rs_save, int a_cs_save, double **a, int *a_rs, int *a_cs) |
void | bli_cfree_saved_contigm (int m, int n, scomplex *a_save, int a_rs_save, int a_cs_save, scomplex **a, int *a_rs, int *a_cs) |
void | bli_zfree_saved_contigm (int m, int n, dcomplex *a_save, int a_rs_save, int a_cs_save, dcomplex **a, int *a_rs, int *a_cs) |
void bli_cfree_saved_contigm | ( | int | m, |
int | n, | ||
scomplex * | a_save, | ||
int | a_rs_save, | ||
int | a_cs_save, | ||
scomplex ** | a, | ||
int * | a_rs, | ||
int * | a_cs | ||
) |
References bli_ccopymt(), bli_cfree(), bli_is_gen_storage(), and BLIS_NO_TRANSPOSE.
Referenced by bli_cgemm(), bli_cger(), bli_chemm(), bli_cher(), bli_cher2(), bli_csymm(), bli_csyr(), bli_csyr2(), bli_ctrmm(), bli_ctrmmsx(), bli_ctrsm(), and bli_ctrsmsx().
{ if ( bli_is_gen_storage( a_rs_save, a_cs_save ) ) { // Copy the contents of the temporary matrix back to the original. bli_ccopymt( BLIS_NO_TRANSPOSE, m, n, *a, *a_rs, *a_cs, a_save, a_rs_save, a_cs_save ); // Free the temporary contiguous storage for the matrix. bli_cfree( *a ); // Restore the original matrix address. *a = a_save; // Restore the original row and column strides. *a_rs = a_rs_save; *a_cs = a_cs_save; } }
void bli_dfree_saved_contigm | ( | int | m, |
int | n, | ||
double * | a_save, | ||
int | a_rs_save, | ||
int | a_cs_save, | ||
double ** | a, | ||
int * | a_rs, | ||
int * | a_cs | ||
) |
References bli_dcopymt(), bli_dfree(), bli_is_gen_storage(), and BLIS_NO_TRANSPOSE.
Referenced by bli_dgemm(), bli_dger(), bli_dsymm(), bli_dsyr(), bli_dsyr2(), bli_dtrmm(), bli_dtrmmsx(), bli_dtrsm(), and bli_dtrsmsx().
{ if ( bli_is_gen_storage( a_rs_save, a_cs_save ) ) { // Copy the contents of the temporary matrix back to the original. bli_dcopymt( BLIS_NO_TRANSPOSE, m, n, *a, *a_rs, *a_cs, a_save, a_rs_save, a_cs_save ); // Free the temporary contiguous storage for the matrix. bli_dfree( *a ); // Restore the original matrix address. *a = a_save; // Restore the original row and column strides. *a_rs = a_rs_save; *a_cs = a_cs_save; } }
void bli_sfree_saved_contigm | ( | int | m, |
int | n, | ||
float * | a_save, | ||
int | a_rs_save, | ||
int | a_cs_save, | ||
float ** | a, | ||
int * | a_rs, | ||
int * | a_cs | ||
) |
References bli_is_gen_storage(), bli_scopymt(), bli_sfree(), and BLIS_NO_TRANSPOSE.
Referenced by bli_sgemm(), bli_sger(), bli_ssymm(), bli_ssyr(), bli_ssyr2(), bli_strmm(), bli_strmmsx(), bli_strsm(), and bli_strsmsx().
{ if ( bli_is_gen_storage( a_rs_save, a_cs_save ) ) { // Copy the contents of the temporary matrix back to the original. bli_scopymt( BLIS_NO_TRANSPOSE, m, n, *a, *a_rs, *a_cs, a_save, a_rs_save, a_cs_save ); // Free the temporary contiguous storage for the matrix. bli_sfree( *a ); // Restore the original matrix address. *a = a_save; // Restore the original row and column strides. *a_rs = a_rs_save; *a_cs = a_cs_save; } }
void bli_zfree_saved_contigm | ( | int | m, |
int | n, | ||
dcomplex * | a_save, | ||
int | a_rs_save, | ||
int | a_cs_save, | ||
dcomplex ** | a, | ||
int * | a_rs, | ||
int * | a_cs | ||
) |
References bli_is_gen_storage(), bli_zcopymt(), bli_zfree(), and BLIS_NO_TRANSPOSE.
Referenced by bli_zgemm(), bli_zger(), bli_zhemm(), bli_zher(), bli_zher2(), bli_zsymm(), bli_zsyr(), bli_zsyr2(), bli_ztrmm(), bli_ztrmmsx(), bli_ztrsm(), and bli_ztrsmsx().
{ if ( bli_is_gen_storage( a_rs_save, a_cs_save ) ) { // Copy the contents of the temporary matrix back to the original. bli_zcopymt( BLIS_NO_TRANSPOSE, m, n, *a, *a_rs, *a_cs, a_save, a_rs_save, a_cs_save ); // Free the temporary contiguous storage for the matrix. bli_zfree( *a ); // Restore the original matrix address. *a = a_save; // Restore the original row and column strides. *a_rs = a_rs_save; *a_cs = a_cs_save; } }