oqp_chemm_i64 Subroutine

public subroutine oqp_chemm_i64(side, uplo, m, n, alpha, a, lda, b, ldb, beta, c, ldc)

Arguments

Type IntentOptional Attributes Name
character(len=1) :: side
character(len=1) :: uplo
integer :: m
integer :: n
complex :: alpha
complex :: a(lda,*)
integer :: lda
complex :: b(ldb,*)
integer :: ldb
complex :: beta
complex :: c(ldc,*)
integer :: ldc

Calls

proc~~oqp_chemm_i64~~CallsGraph proc~oqp_chemm_i64 oqp_chemm_i64 chemm chemm proc~oqp_chemm_i64->chemm interface~show_message show_message proc~oqp_chemm_i64->interface~show_message

Source Code

  subroutine oqp_chemm_i64(side, uplo, m, n, alpha, a, lda, b, ldb, beta, c, ldc)
    complex :: alpha
    complex :: beta
    integer :: lda
    integer :: ldb
    integer :: ldc
    integer :: m
    integer :: n
    character :: side
    character :: uplo
    complex :: a(lda,*)
    complex :: b(ldb,*)
    complex :: c(ldc,*)

    integer(blas_int) :: m_, n_, lda_, ldb_, ldc_
    logical :: ok

    if (ARG_CHECK) then
      ok = .true.
      ok = ok .and. abs(m   ) <= HUGE_BLAS_INT-1
      ok = ok .and. abs(n   ) <= HUGE_BLAS_INT-1
      ok = ok .and. abs(lda ) <= HUGE_BLAS_INT-1
      ok = ok .and. abs(ldb ) <= HUGE_BLAS_INT-1
      ok = ok .and. abs(ldc ) <= HUGE_BLAS_INT-1
      if (.not.ok) call show_message(ERRMSG, WITH_ABORT)
    end if

    m_   = int(m   , blas_int)
    n_   = int(n   , blas_int)
    lda_ = int(lda , blas_int)
    ldb_ = int(ldb , blas_int)
    ldc_ = int(ldc , blas_int)

    call chemm(side, uplo, m_, n_, alpha, a, lda_, b, ldb_, beta, c, ldc_)

  end subroutine oqp_chemm_i64