! ! Parallel Sparse BLAS version 3.5 ! (C) Copyright 2006-2018 ! Salvatore Filippone ! Alfredo Buttari ! ! Redistribution and use in source and binary forms, with or without ! modification, are permitted provided that the following conditions ! are met: ! 1. Redistributions of source code must retain the above copyright ! notice, this list of conditions and the following disclaimer. ! 2. Redistributions in binary form must reproduce the above copyright ! notice, this list of conditions, and the following disclaimer in the ! documentation and/or other materials provided with the distribution. ! 3. The name of the PSBLAS group or the names of its contributors may ! not be used to endorse or promote products derived from this ! software without specific prior written permission. ! ! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ! ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ! TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR ! PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE PSBLAS GROUP OR ITS CONTRIBUTORS ! BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR ! CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF ! SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS ! INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN ! CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ! ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ! POSSIBILITY OF SUCH DAMAGE. ! ! ! ! package: psb_c_vect_mod ! ! This module contains the definition of the psb_c_vect type which ! is the outer container for dense vectors. ! Therefore all methods simply invoke the corresponding methods of the ! inner component. ! submodule (psb_c_vect_mod) psb_c_vect_impl use psi_serial_mod use psb_realloc_mod contains module function c_vect_get_dupl(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x integer(psb_ipk_) :: res if (allocated(x%v)) then res = x%v%get_dupl() else res = psb_dupl_null_ end if end function c_vect_get_dupl module subroutine c_vect_set_dupl(x,val) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in), optional :: val if (allocated(x%v)) then if (present(val)) then call x%v%set_dupl(val) else call x%v%set_dupl(psb_dupl_def_) end if end if end subroutine c_vect_set_dupl module function c_vect_get_ncfs(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x integer(psb_ipk_) :: res if (allocated(x%v)) then res = x%v%get_ncfs() else res = 0 end if end function c_vect_get_ncfs module subroutine c_vect_set_ncfs(x,val) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in), optional :: val if (allocated(x%v)) then if (present(val)) then call x%v%set_ncfs(val) else call x%v%set_ncfs(0) end if end if end subroutine c_vect_set_ncfs module function c_vect_get_state(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x integer(psb_ipk_) :: res if (allocated(x%v)) then res = x%v%get_state() else res = psb_vect_null_ end if end function c_vect_get_state module function c_vect_is_null(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x logical :: res res = (x%get_state() == psb_vect_null_) end function c_vect_is_null module function c_vect_is_bld(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x logical :: res res = (x%get_state() == psb_vect_bld_) end function c_vect_is_bld module function c_vect_is_upd(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x logical :: res res = (x%get_state() == psb_vect_upd_) end function c_vect_is_upd module function c_vect_is_asb(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x logical :: res res = (x%get_state() == psb_vect_asb_) end function c_vect_is_asb module subroutine c_vect_set_state(n,x) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: n if (allocated(x%v)) then call x%v%set_state(n) end if end subroutine c_vect_set_state module subroutine c_vect_set_null(x) implicit none class(psb_c_vect_type), intent(inout) :: x call x%set_state(psb_vect_null_) end subroutine c_vect_set_null module subroutine c_vect_set_bld(x) implicit none class(psb_c_vect_type), intent(inout) :: x call x%set_state(psb_vect_bld_) end subroutine c_vect_set_bld module subroutine c_vect_set_upd(x) implicit none class(psb_c_vect_type), intent(inout) :: x call x%set_state(psb_vect_upd_) end subroutine c_vect_set_upd module subroutine c_vect_set_asb(x) implicit none class(psb_c_vect_type), intent(inout) :: x call x%set_state(psb_vect_asb_) end subroutine c_vect_set_asb module function c_vect_get_nrmv(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x integer(psb_ipk_) :: res res = x%nrmv end function c_vect_get_nrmv module subroutine c_vect_set_nrmv(x,val) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: val x%nrmv = val end subroutine c_vect_set_nrmv module function c_vect_is_remote_build(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x logical :: res res = (x%remote_build == psb_matbld_remote_) end function c_vect_is_remote_build module subroutine c_vect_set_remote_build(x,val) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in), optional :: val if (present(val)) then x%remote_build = val else x%remote_build = psb_matbld_remote_ end if end subroutine c_vect_set_remote_build module subroutine psb_c_set_vect_default(v) implicit none class(psb_c_base_vect_type), intent(in) :: v if (allocated(psb_c_base_vect_default)) then deallocate(psb_c_base_vect_default) end if allocate(psb_c_base_vect_default, mold=v) end subroutine psb_c_set_vect_default module function psb_c_get_vect_default(v) result(res) implicit none class(psb_c_vect_type), intent(in) :: v class(psb_c_base_vect_type), pointer :: res res => psb_c_get_base_vect_default() end function psb_c_get_vect_default module subroutine psb_c_clear_vect_default() implicit none if (allocated(psb_c_base_vect_default)) then deallocate(psb_c_base_vect_default) end if end subroutine psb_c_clear_vect_default module function psb_c_get_base_vect_default() result(res) implicit none class(psb_c_base_vect_type), pointer :: res if (.not.allocated(psb_c_base_vect_default)) then allocate(psb_c_base_vect_type :: psb_c_base_vect_default) end if res => psb_c_base_vect_default end function psb_c_get_base_vect_default module subroutine c_vect_clone(x,y,info) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info info = psb_success_ call y%free(info) if ((info==0).and.allocated(x%v)) then ! ! Using sourced allocation here creates ! problems with handling of memory allocated ! elsewhere (e.g. accelerators), hence delegation ! to %bld method ! call y%bld(x%get_vect(),mold=x%v) end if end subroutine c_vect_clone module subroutine c_vect_bld_x(x,invect,mold,scratch) complex(psb_spk_), intent(in) :: invect(:) class(psb_c_vect_type), intent(inout) :: x class(psb_c_base_vect_type), intent(in), optional :: mold logical, intent(in), optional :: scratch logical :: scratch_ integer(psb_ipk_) :: info if (present(scratch)) then scratch_ = scratch else scratch_ = .false. end if info = psb_success_ if (allocated(x%v)) & & call x%free(info) if (present(mold)) then allocate(x%v,stat=info,mold=mold) else allocate(x%v,stat=info, mold=psb_c_get_base_vect_default()) endif if (info == psb_success_) call x%v%bld(invect,scratch=scratch_) end subroutine c_vect_bld_x module subroutine c_vect_bld_mn(x,n,mold,scratch) integer(psb_mpk_), intent(in) :: n class(psb_c_vect_type), intent(inout) :: x class(psb_c_base_vect_type), intent(in), optional :: mold logical, intent(in), optional :: scratch logical :: scratch_ integer(psb_ipk_) :: info class(psb_c_base_vect_type), pointer :: mld if (present(scratch)) then scratch_ = scratch else scratch_ = .false. end if info = psb_success_ if (allocated(x%v)) & & call x%free(info) if (present(mold)) then allocate(x%v,stat=info,mold=mold) else allocate(x%v,stat=info, mold=psb_c_get_base_vect_default()) endif if (info == psb_success_) call x%v%bld(n,scratch=scratch_) end subroutine c_vect_bld_mn module subroutine c_vect_bld_en(x,n,mold,scratch) integer(psb_epk_), intent(in) :: n class(psb_c_vect_type), intent(inout) :: x class(psb_c_base_vect_type), intent(in), optional :: mold logical, intent(in), optional :: scratch logical :: scratch_ integer(psb_ipk_) :: info info = psb_success_ if (present(scratch)) then scratch_ = scratch else scratch_ = .false. end if if (allocated(x%v)) & & call x%free(info) if (present(mold)) then allocate(x%v,stat=info,mold=mold) else allocate(x%v,stat=info, mold=psb_c_get_base_vect_default()) endif if (info == psb_success_) call x%v%bld(n,scratch=scratch_) end subroutine c_vect_bld_en module function c_vect_get_vect(x,n) result(res) class(psb_c_vect_type), intent(inout) :: x complex(psb_spk_), allocatable :: res(:) integer(psb_ipk_) :: info integer(psb_ipk_), optional :: n if (allocated(x%v)) then res = x%v%get_vect(n) end if end function c_vect_get_vect module subroutine c_vect_set_scal(x,val,first,last) class(psb_c_vect_type), intent(inout) :: x complex(psb_spk_), intent(in) :: val integer(psb_ipk_), optional :: first, last integer(psb_ipk_) :: info if (allocated(x%v)) call x%v%set(val,first,last) end subroutine c_vect_set_scal module subroutine c_vect_set_vect(x,val,first,last) class(psb_c_vect_type), intent(inout) :: x complex(psb_spk_), intent(in) :: val(:) integer(psb_ipk_), optional :: first, last integer(psb_ipk_) :: info if (allocated(x%v)) call x%v%set(val,first,last) end subroutine c_vect_set_vect module subroutine c_vect_check_addr(x) class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_) :: info if (allocated(x%v)) call x%v%check_addr() end subroutine c_vect_check_addr module function c_vect_get_nrows(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x integer(psb_ipk_) :: res res = 0 if (allocated(x%v)) res = x%v%get_nrows() end function c_vect_get_nrows module function c_vect_sizeof(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x integer(psb_epk_) :: res res = 0 if (allocated(x%v)) res = x%v%sizeof() end function c_vect_sizeof module function c_vect_get_fmt(x) result(res) implicit none class(psb_c_vect_type), intent(in) :: x character(len=5) :: res res = 'NULL' if (allocated(x%v)) res = x%v%get_fmt() end function c_vect_get_fmt module subroutine c_vect_all(n, x, info, mold) implicit none integer(psb_ipk_), intent(in) :: n class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info class(psb_c_base_vect_type), intent(in), optional :: mold if (allocated(x%v)) & & call x%free(info) if (present(mold)) then allocate(x%v,stat=info,mold=mold) else allocate(psb_c_base_vect_type :: x%v,stat=info) endif if (info == 0) then call x%v%all(n,info) else info = psb_err_alloc_dealloc_ end if call x%set_bld() end subroutine c_vect_all module subroutine c_vect_reinit(x, info, clear) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info logical, intent(in), optional :: clear if (allocated(x%v)) call x%v%reinit(info,clear) call x%set_upd() end subroutine c_vect_reinit module subroutine c_vect_reall(n, x, info) implicit none integer(psb_ipk_), intent(in) :: n class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info info = 0 if (.not.allocated(x%v)) & & call x%all(n,info) if (info == 0) & & call x%asb(n,info) end subroutine c_vect_reall module subroutine c_vect_zero(x) implicit none class(psb_c_vect_type), intent(inout) :: x if (allocated(x%v)) call x%v%zero() end subroutine c_vect_zero module subroutine c_vect_asb(n, x, info, scratch) implicit none integer(psb_ipk_), intent(in) :: n class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info logical, intent(in), optional :: scratch if (allocated(x%v)) then call x%v%asb(n,info,scratch=scratch) call x%set_asb() end if end subroutine c_vect_asb module subroutine c_vect_gthab(n,idx,alpha,x,beta,y) integer(psb_mpk_) :: n integer(psb_ipk_) :: idx(:) complex(psb_spk_) :: alpha, beta, y(:) class(psb_c_vect_type) :: x if (allocated(x%v)) & & call x%v%gth(n,idx,alpha,beta,y) end subroutine c_vect_gthab module subroutine c_vect_gthzv(n,idx,x,y) integer(psb_mpk_) :: n integer(psb_ipk_) :: idx(:) complex(psb_spk_) :: y(:) class(psb_c_vect_type) :: x if (allocated(x%v)) & & call x%v%gth(n,idx,y) end subroutine c_vect_gthzv module subroutine c_vect_sctb(n,idx,x,beta,y) integer(psb_mpk_) :: n integer(psb_ipk_) :: idx(:) complex(psb_spk_) :: beta, x(:) class(psb_c_vect_type) :: y if (allocated(y%v)) & & call y%v%sct(n,idx,x,beta) end subroutine c_vect_sctb module subroutine c_vect_free(x, info) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info info = 0 if (allocated(x%v)) then call x%v%free(info) if (info == 0) deallocate(x%v,stat=info) end if end subroutine c_vect_free module subroutine c_vect_ins_a(n,irl,val,x,maxr,info) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: n, maxr integer(psb_ipk_), intent(in) :: irl(:) complex(psb_spk_), intent(in) :: val(:) integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, dupl info = 0 if (.not.allocated(x%v)) then info = psb_err_invalid_vect_state_ return end if dupl = x%get_dupl() call x%v%ins(n,irl,val,dupl,maxr,info) end subroutine c_vect_ins_a module subroutine c_vect_ins_v(n,irl,val,x,maxr,info) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: n, maxr class(psb_i_vect_type), intent(inout) :: irl class(psb_c_vect_type), intent(inout) :: val integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, dupl info = 0 if (.not.(allocated(x%v).and.allocated(irl%v).and.allocated(val%v))) then info = psb_err_invalid_vect_state_ return end if dupl = x%get_dupl() call x%v%ins(n,irl%v,val%v,dupl,maxr,info) end subroutine c_vect_ins_v module subroutine c_vect_cnv(x,mold) class(psb_c_vect_type), intent(inout) :: x class(psb_c_base_vect_type), intent(in), optional :: mold class(psb_c_base_vect_type), allocatable :: tmp integer(psb_ipk_) :: info info = psb_success_ if (present(mold)) then allocate(tmp,stat=info,mold=mold) else allocate(tmp,stat=info,mold=psb_c_get_base_vect_default()) end if if (allocated(x%v)) then if (allocated(x%v%v)) then call x%v%sync() if (info == psb_success_) call tmp%bld(x%v%v) call x%v%base_cpy(tmp) call x%v%free(info) endif end if call move_alloc(tmp,x%v) end subroutine c_vect_cnv module subroutine c_vect_sync(x) implicit none class(psb_c_vect_type), intent(inout) :: x if (allocated(x%v)) & & call x%v%sync() end subroutine c_vect_sync module subroutine c_vect_set_sync(x) implicit none class(psb_c_vect_type), intent(inout) :: x if (allocated(x%v)) & & call x%v%set_sync() end subroutine c_vect_set_sync module subroutine c_vect_set_host(x) implicit none class(psb_c_vect_type), intent(inout) :: x if (allocated(x%v)) & & call x%v%set_host() end subroutine c_vect_set_host module subroutine c_vect_set_dev(x) implicit none class(psb_c_vect_type), intent(inout) :: x if (allocated(x%v)) & & call x%v%set_dev() end subroutine c_vect_set_dev module function c_vect_is_sync(x) result(res) implicit none logical :: res class(psb_c_vect_type), intent(inout) :: x res = .true. if (allocated(x%v)) & & res = x%v%is_sync() end function c_vect_is_sync module function c_vect_is_host(x) result(res) implicit none logical :: res class(psb_c_vect_type), intent(inout) :: x res = .true. if (allocated(x%v)) & & res = x%v%is_host() end function c_vect_is_host module function c_vect_is_dev(x) result(res) implicit none logical :: res class(psb_c_vect_type), intent(inout) :: x res = .false. if (allocated(x%v)) & & res = x%v%is_dev() end function c_vect_is_dev module function c_vect_get_entry(x,index) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: index complex(psb_spk_) :: res res = czero if (allocated(x%v)) res = x%v%get_entry(index) end function c_vect_get_entry module subroutine c_vect_set_entry(x,index,val) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: index complex(psb_spk_) :: val if (allocated(x%v)) call x%v%set_entry(index,val) end subroutine c_vect_set_entry module function c_vect_dot_v(n,x,y) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x, y integer(psb_ipk_), intent(in) :: n complex(psb_spk_) :: res res = czero if (allocated(x%v).and.allocated(y%v)) & & res = x%v%dot(n,y%v) end function c_vect_dot_v module function c_vect_dot_a(n,x,y) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x complex(psb_spk_), intent(in) :: y(:) integer(psb_ipk_), intent(in) :: n complex(psb_spk_) :: res res = czero if (allocated(x%v)) & & res = x%v%dot_a(n,y) end function c_vect_dot_a module subroutine c_vect_axpby_v(m,alpha, x, beta, y, info) implicit none integer(psb_ipk_), intent(in) :: m class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y complex(psb_spk_), intent (in) :: alpha, beta integer(psb_ipk_), intent(out) :: info if (allocated(x%v).and.allocated(y%v)) then call y%v%axpby(m,alpha,x%v,beta,info) else info = psb_err_invalid_vect_state_ end if end subroutine c_vect_axpby_v module subroutine c_vect_axpby_v2(m,alpha, x, beta, y, z, info) implicit none integer(psb_ipk_), intent(in) :: m class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y class(psb_c_vect_type), intent(inout) :: z complex(psb_spk_), intent (in) :: alpha, beta integer(psb_ipk_), intent(out) :: info if (allocated(x%v).and.allocated(y%v)) then call z%v%axpby(m,alpha,x%v,beta,y%v,info) else info = psb_err_invalid_vect_state_ end if end subroutine c_vect_axpby_v2 module subroutine c_vect_axpby_a(m,alpha, x, beta, y, info) implicit none integer(psb_ipk_), intent(in) :: m complex(psb_spk_), intent(in) :: x(:) class(psb_c_vect_type), intent(inout) :: y complex(psb_spk_), intent (in) :: alpha, beta integer(psb_ipk_), intent(out) :: info if (allocated(y%v)) & & call y%v%axpby(m,alpha,x,beta,info) end subroutine c_vect_axpby_a module subroutine c_vect_axpby_a2(m,alpha, x, beta, y, z, info) implicit none integer(psb_ipk_), intent(in) :: m complex(psb_spk_), intent(in) :: x(:) complex(psb_spk_), intent(in) :: y(:) class(psb_c_vect_type), intent(inout) :: z complex(psb_spk_), intent (in) :: alpha, beta integer(psb_ipk_), intent(out) :: info if (allocated(z%v)) & & call z%v%axpby(m,alpha,x,beta,y,info) end subroutine c_vect_axpby_a2 module subroutine c_vect_upd_xyz(m,alpha,beta,gamma,delta,x, y, z, info) implicit none integer(psb_ipk_), intent(in) :: m class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y class(psb_c_vect_type), intent(inout) :: z complex(psb_spk_), intent (in) :: alpha, beta, gamma, delta integer(psb_ipk_), intent(out) :: info if (allocated(z%v)) & call z%v%upd_xyz(m,alpha,beta,gamma,delta,x%v,y%v,info) end subroutine c_vect_upd_xyz module subroutine c_vect_xyzw(m,a,b,c,d,e,f,x, y, z, w, info) implicit none integer(psb_ipk_), intent(in) :: m class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y class(psb_c_vect_type), intent(inout) :: z class(psb_c_vect_type), intent(inout) :: w complex(psb_spk_), intent (in) :: a, b, c, d, e, f integer(psb_ipk_), intent(out) :: info if (allocated(w%v)) & call w%v%xyzw(m,a,b,c,d,e,f,x%v,y%v,z%v,info) end subroutine c_vect_xyzw module subroutine c_vect_mlt_v(x, y, info) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(x%v).and.allocated(y%v)) & & call y%v%mlt(x%v,info) end subroutine c_vect_mlt_v module subroutine c_vect_mlt_a(x, y, info) implicit none complex(psb_spk_), intent(in) :: x(:) class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(y%v)) & & call y%v%mlt(x,info) end subroutine c_vect_mlt_a module subroutine c_vect_mlt_a_2(alpha,x,y,beta,z,info) implicit none complex(psb_spk_), intent(in) :: alpha,beta complex(psb_spk_), intent(in) :: y(:) complex(psb_spk_), intent(in) :: x(:) class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(z%v)) & & call z%v%mlt(alpha,x,y,beta,info) end subroutine c_vect_mlt_a_2 module subroutine c_vect_mlt_v_2(alpha,x,y,beta,z,info,conjgx,conjgy) implicit none complex(psb_spk_), intent(in) :: alpha,beta class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info character(len=1), intent(in), optional :: conjgx, conjgy integer(psb_ipk_) :: i, n info = 0 if (allocated(x%v).and.allocated(y%v).and.& & allocated(z%v)) & & call z%v%mlt(alpha,x%v,y%v,beta,info,conjgx,conjgy) end subroutine c_vect_mlt_v_2 module subroutine c_vect_mlt_av(alpha,x,y,beta,z,info) implicit none complex(psb_spk_), intent(in) :: alpha,beta complex(psb_spk_), intent(in) :: x(:) class(psb_c_vect_type), intent(inout) :: y class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(z%v).and.allocated(y%v)) & & call z%v%mlt(alpha,x,y%v,beta,info) end subroutine c_vect_mlt_av module subroutine c_vect_mlt_va(alpha,x,y,beta,z,info) implicit none complex(psb_spk_), intent(in) :: alpha,beta complex(psb_spk_), intent(in) :: y(:) class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(z%v).and.allocated(x%v)) & & call z%v%mlt(alpha,x%v,y,beta,info) end subroutine c_vect_mlt_va module subroutine c_vect_div_v(x, y, info) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(x%v).and.allocated(y%v)) & & call x%v%div(y%v,info) end subroutine c_vect_div_v module subroutine c_vect_div_v2( x, y, z, info) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(x%v).and.allocated(y%v).and.allocated(z%v)) & & call z%v%div(x%v,y%v,info) end subroutine c_vect_div_v2 module subroutine c_vect_div_v_check(x, y, info, flag) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n logical, intent(in) :: flag info = 0 if (allocated(x%v).and.allocated(y%v)) & & call x%v%div(y%v,info,flag) end subroutine c_vect_div_v_check module subroutine c_vect_div_v2_check(x, y, z, info, flag) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n logical, intent(in) :: flag info = 0 if (allocated(x%v).and.allocated(y%v).and.allocated(z%v)) & & call z%v%div(x%v,y%v,info,flag) end subroutine c_vect_div_v2_check module subroutine c_vect_div_a2(x, y, z, info) implicit none complex(psb_spk_), intent(in) :: x(:) complex(psb_spk_), intent(in) :: y(:) class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(z%v)) & & call z%v%div(x,y,info) end subroutine c_vect_div_a2 module subroutine c_vect_div_a2_check(x, y, z, info,flag) implicit none complex(psb_spk_), intent(in) :: x(:) complex(psb_spk_), intent(in) :: y(:) class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n logical, intent(in) :: flag info = 0 if (allocated(z%v)) & & call z%v%div(x,y,info,flag) end subroutine c_vect_div_a2_check module subroutine c_vect_inv_v(x, y, info) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(x%v).and.allocated(y%v)) & & call y%v%inv(x%v,info) end subroutine c_vect_inv_v module subroutine c_vect_inv_v_check(x, y, info, flag) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n logical, intent(in) :: flag info = 0 if (allocated(x%v).and.allocated(y%v)) & & call y%v%inv(x%v,info,flag) end subroutine c_vect_inv_v_check module subroutine c_vect_inv_a2(x, y, info) implicit none complex(psb_spk_), intent(inout) :: x(:) class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n info = 0 if (allocated(y%v)) & & call y%v%inv(x,info) end subroutine c_vect_inv_a2 module subroutine c_vect_inv_a2_check(x, y, info,flag) complex(psb_spk_), intent(inout) :: x(:) class(psb_c_vect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, n logical, intent(in) :: flag info = 0 if (allocated(y%v)) & & call y%v%inv(x,info,flag) end subroutine c_vect_inv_a2_check module subroutine c_vect_acmp_a2(x,c,z,info) implicit none real(psb_spk_), intent(in) :: c complex(psb_spk_), intent(inout) :: x(:) class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info info = 0 if (allocated(z%v)) & & call z%acmp(x,c,info) end subroutine c_vect_acmp_a2 module subroutine c_vect_acmp_v2(x,c,z,info) implicit none real(psb_spk_), intent(in) :: c class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info info = 0 if (allocated(x%v).and.allocated(z%v)) & & call z%v%acmp(x%v,c,info) end subroutine c_vect_acmp_v2 module subroutine c_vect_scal(alpha, x) implicit none class(psb_c_vect_type), intent(inout) :: x complex(psb_spk_), intent (in) :: alpha if (allocated(x%v)) call x%v%scal(alpha) end subroutine c_vect_scal module subroutine c_vect_absval1(x) class(psb_c_vect_type), intent(inout) :: x if (allocated(x%v)) & & call x%v%absval() end subroutine c_vect_absval1 module subroutine c_vect_absval2(x,y) class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: y if (allocated(x%v)) then if (.not.allocated(y%v)) call y%bld(psb_size(x%v%v)) call x%v%absval(y%v) end if end subroutine c_vect_absval2 module function c_vect_nrm2(n,x) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: n real(psb_spk_) :: res if (allocated(x%v)) then res = x%v%nrm2(n) else res = szero end if end function c_vect_nrm2 module function c_vect_nrm2_weight(n,x,w,aux) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: w class(psb_c_vect_type), intent(inout), optional :: aux integer(psb_ipk_), intent(in) :: n real(psb_spk_) :: res integer(psb_ipk_) :: info ! Temp vectors type(psb_c_vect_type) :: wtemp info = 0 if( allocated(w%v) ) then if (.not.present(aux)) then allocate(wtemp%v, mold=w%v) call wtemp%v%bld(w%get_vect()) else call psb_geaxpby(n,cone,w%v%v,czero,aux%v%v,info) end if else info = -1 end if if (info /= 0 ) then res = -sone return end if if (allocated(x%v)) then if (.not.present(aux)) then call wtemp%v%mlt(x%v,info) res = wtemp%v%nrm2(n) else call aux%v%mlt(x%v,info) res = aux%v%nrm2(n) end if else res = szero end if if (.not.present(aux)) then call wtemp%free(info) end if end function c_vect_nrm2_weight module function c_vect_nrm2_weight_mask(n,x,w,id,info,aux) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: w class(psb_c_vect_type), intent(inout) :: id integer(psb_ipk_), intent(in) :: n real(psb_spk_) :: res integer(psb_ipk_), intent(out) :: info class(psb_c_vect_type), intent(inout), optional :: aux ! Temp vectors type(psb_c_vect_type) :: wtemp info = 0 if( allocated(w%v) ) then if (.not.present(aux)) then allocate(wtemp%v, mold=w%v) call wtemp%v%bld(w%get_vect()) else call psb_geaxpby(n,cone,w%v%v,czero,aux%v%v,info) end if else info = -1 end if if (info /= 0 ) then res = -sone return end if if (allocated(x%v).and.allocated(id%v)) then if (.not.present(aux)) then where( abs(id%v%v) <= szero) wtemp%v%v = szero call wtemp%set_host() call wtemp%v%mlt(x%v,info) res = wtemp%v%nrm2(n) else where( abs(id%v%v) <= szero) aux%v%v = szero call aux%set_host() call aux%v%mlt(x%v,info) res = aux%v%nrm2(n) end if else res = szero end if if (.not.present(aux)) then call wtemp%free(info) end if end function c_vect_nrm2_weight_mask module function c_vect_amax(n,x) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: n real(psb_spk_) :: res if (allocated(x%v)) then res = x%v%amax(n) else res = szero end if end function c_vect_amax module function c_vect_asum(n,x) result(res) implicit none class(psb_c_vect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: n real(psb_spk_) :: res if (allocated(x%v)) then res = x%v%asum(n) else res = szero end if end function c_vect_asum module subroutine c_vect_addconst_a2(x,b,z,info) implicit none real(psb_spk_), intent(in) :: b complex(psb_spk_), intent(inout) :: x(:) class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info info = 0 if (allocated(z%v)) & & call z%addconst(x,b,info) end subroutine c_vect_addconst_a2 module subroutine c_vect_addconst_v2(x,b,z,info) real(psb_spk_), intent(in) :: b class(psb_c_vect_type), intent(inout) :: x class(psb_c_vect_type), intent(inout) :: z integer(psb_ipk_), intent(out) :: info info = 0 if (allocated(x%v).and.allocated(z%v)) & & call z%v%addconst(x%v,b,info) end subroutine c_vect_addconst_v2 end submodule psb_c_vect_impl submodule (psb_c_multivect_mod) psb_c_multivect_impl use psi_serial_mod use psb_realloc_mod contains module function c_mvect_get_dupl(x) result(res) implicit none class(psb_c_multivect_type), intent(in) :: x integer(psb_ipk_) :: res res = x%dupl end function c_mvect_get_dupl module subroutine c_mvect_set_dupl(x,val) implicit none class(psb_c_multivect_type), intent(inout) :: x integer(psb_ipk_), intent(in), optional :: val if (present(val)) then x%dupl = val else x%dupl = psb_dupl_def_ end if end subroutine c_mvect_set_dupl module function c_mvect_is_remote_build(x) result(res) implicit none class(psb_c_multivect_type), intent(in) :: x logical :: res res = (x%remote_build == psb_matbld_remote_) end function c_mvect_is_remote_build module subroutine c_mvect_set_remote_build(x,val) implicit none class(psb_c_multivect_type), intent(inout) :: x integer(psb_ipk_), intent(in), optional :: val if (present(val)) then x%remote_build = val else x%remote_build = psb_matbld_remote_ end if end subroutine c_mvect_set_remote_build module subroutine psb_c_set_multivect_default(v) implicit none class(psb_c_base_multivect_type), intent(in) :: v if (allocated(psb_c_base_multivect_default)) then deallocate(psb_c_base_multivect_default) end if allocate(psb_c_base_multivect_default, mold=v) end subroutine psb_c_set_multivect_default module function psb_c_get_multivect_default(v) result(res) implicit none class(psb_c_multivect_type), intent(in) :: v class(psb_c_base_multivect_type), pointer :: res res => psb_c_get_base_multivect_default() end function psb_c_get_multivect_default module function psb_c_get_base_multivect_default() result(res) implicit none class(psb_c_base_multivect_type), pointer :: res if (.not.allocated(psb_c_base_multivect_default)) then allocate(psb_c_base_multivect_type :: psb_c_base_multivect_default) end if res => psb_c_base_multivect_default end function psb_c_get_base_multivect_default module subroutine c_mvect_clone(x,y,info) implicit none class(psb_c_multivect_type), intent(inout) :: x class(psb_c_multivect_type), intent(inout) :: y integer(psb_ipk_), intent(out) :: info info = psb_success_ call y%free(info) if ((info==0).and.allocated(x%v)) then call y%bld_x(x%get_vect(),mold=x%v) end if end subroutine c_mvect_clone module subroutine c_mvect_bld_x(x,invect,mold) complex(psb_spk_), intent(in) :: invect(:,:) class(psb_c_multivect_type), intent(out) :: x class(psb_c_base_multivect_type), intent(in), optional :: mold integer(psb_ipk_) :: info class(psb_c_base_multivect_type), pointer :: mld info = psb_success_ if (present(mold)) then allocate(x%v,stat=info,mold=mold) else allocate(x%v,stat=info, mold=psb_c_get_base_multivect_default()) endif if (info == psb_success_) call x%v%bld(invect) end subroutine c_mvect_bld_x module subroutine c_mvect_bld_n(x,m,n,mold,scratch) integer(psb_ipk_), intent(in) :: m,n class(psb_c_multivect_type), intent(out) :: x class(psb_c_base_multivect_type), intent(in), optional :: mold integer(psb_ipk_) :: info logical, intent(in), optional :: scratch info = psb_success_ if (present(mold)) then allocate(x%v,stat=info,mold=mold) else allocate(x%v,stat=info, mold=psb_c_get_base_multivect_default()) endif if (info == psb_success_) call x%v%bld(m,n,scratch=scratch) end subroutine c_mvect_bld_n module function c_mvect_get_vect(x) result(res) class(psb_c_multivect_type), intent(inout) :: x complex(psb_spk_), allocatable :: res(:,:) integer(psb_ipk_) :: info if (allocated(x%v)) then res = x%v%get_vect() end if end function c_mvect_get_vect module subroutine c_mvect_set_scal(x,val) class(psb_c_multivect_type), intent(inout) :: x complex(psb_spk_), intent(in) :: val integer(psb_ipk_) :: info if (allocated(x%v)) call x%v%set(val) end subroutine c_mvect_set_scal module subroutine c_mvect_set_vect(x,val) class(psb_c_multivect_type), intent(inout) :: x complex(psb_spk_), intent(in) :: val(:,:) integer(psb_ipk_) :: info if (allocated(x%v)) call x%v%set(val) end subroutine c_mvect_set_vect module function c_mvect_get_nrows(x) result(res) implicit none class(psb_c_multivect_type), intent(in) :: x integer(psb_ipk_) :: res res = 0 if (allocated(x%v)) res = x%v%get_nrows() end function c_mvect_get_nrows module function c_mvect_get_ncols(x) result(res) implicit none class(psb_c_multivect_type), intent(in) :: x integer(psb_ipk_) :: res res = 0 if (allocated(x%v)) res = x%v%get_ncols() end function c_mvect_get_ncols module function c_mvect_sizeof(x) result(res) implicit none class(psb_c_multivect_type), intent(in) :: x integer(psb_epk_) :: res res = 0 if (allocated(x%v)) res = x%v%sizeof() end function c_mvect_sizeof module function c_mvect_get_fmt(x) result(res) implicit none class(psb_c_multivect_type), intent(in) :: x character(len=5) :: res res = 'NULL' if (allocated(x%v)) res = x%v%get_fmt() end function c_mvect_get_fmt module subroutine c_mvect_all(m,n, x, info, mold) implicit none integer(psb_ipk_), intent(in) :: m,n class(psb_c_multivect_type), intent(out) :: x class(psb_c_base_multivect_type), intent(in), optional :: mold integer(psb_ipk_), intent(out) :: info if (present(mold)) then allocate(x%v,stat=info,mold=mold) else allocate(psb_c_base_multivect_type :: x%v,stat=info) endif if (info == 0) then call x%v%all(m,n,info) else info = psb_err_alloc_dealloc_ end if end subroutine c_mvect_all module subroutine c_mvect_reall(m,n, x, info) implicit none integer(psb_ipk_), intent(in) :: m,n class(psb_c_multivect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info info = 0 if (.not.allocated(x%v)) & & call x%all(m,n,info) if (info == 0) & & call x%asb(m,n,info) end subroutine c_mvect_reall module subroutine c_mvect_zero(x) use psi_serial_mod implicit none class(psb_c_multivect_type), intent(inout) :: x if (allocated(x%v)) call x%v%zero() end subroutine c_mvect_zero module subroutine c_mvect_asb(m,n, x, info) use psi_serial_mod use psb_realloc_mod implicit none integer(psb_ipk_), intent(in) :: m,n class(psb_c_multivect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info if (allocated(x%v)) & & call x%v%asb(m,n,info) end subroutine c_mvect_asb module subroutine c_mvect_sync(x) implicit none class(psb_c_multivect_type), intent(inout) :: x if (allocated(x%v)) & & call x%v%sync() end subroutine c_mvect_sync module subroutine c_mvect_gthab(n,idx,alpha,x,beta,y) use psi_serial_mod integer(psb_mpk_) :: n integer(psb_ipk_) :: idx(:) complex(psb_spk_) :: alpha, beta, y(:) class(psb_c_multivect_type) :: x if (allocated(x%v)) & & call x%v%gth(n,idx,alpha,beta,y) end subroutine c_mvect_gthab module subroutine c_mvect_gthzv(n,idx,x,y) use psi_serial_mod integer(psb_mpk_) :: n integer(psb_ipk_) :: idx(:) complex(psb_spk_) :: y(:) class(psb_c_multivect_type) :: x if (allocated(x%v)) & & call x%v%gth(n,idx,y) end subroutine c_mvect_gthzv module subroutine c_mvect_gthzv_x(i,n,idx,x,y) use psi_serial_mod integer(psb_mpk_) :: n integer(psb_ipk_) :: i class(psb_i_base_vect_type) :: idx complex(psb_spk_) :: y(:) class(psb_c_multivect_type) :: x if (allocated(x%v)) & & call x%v%gth(i,n,idx,y) end subroutine c_mvect_gthzv_x module subroutine c_mvect_sctb(n,idx,x,beta,y) use psi_serial_mod integer(psb_mpk_) :: n integer(psb_ipk_) :: idx(:) complex(psb_spk_) :: beta, x(:) class(psb_c_multivect_type) :: y if (allocated(y%v)) & & call y%v%sct(n,idx,x,beta) end subroutine c_mvect_sctb module subroutine c_mvect_sctb_x(i,n,idx,x,beta,y) use psi_serial_mod integer(psb_mpk_) :: n integer(psb_ipk_) :: i class(psb_i_base_vect_type) :: idx complex(psb_spk_) :: beta, x(:) class(psb_c_multivect_type) :: y if (allocated(y%v)) & & call y%v%sct(i,n,idx,x,beta) end subroutine c_mvect_sctb_x module subroutine c_mvect_free(x, info) use psi_serial_mod use psb_realloc_mod implicit none class(psb_c_multivect_type), intent(inout) :: x integer(psb_ipk_), intent(out) :: info info = 0 if (allocated(x%v)) then call x%v%free(info) if (info == 0) deallocate(x%v,stat=info) end if end subroutine c_mvect_free module subroutine c_mvect_ins(n,irl,val,x,maxr,info) use psi_serial_mod implicit none class(psb_c_multivect_type), intent(inout) :: x integer(psb_ipk_), intent(in) :: n,maxr integer(psb_ipk_), intent(in) :: irl(:) complex(psb_spk_), intent(in) :: val(:,:) integer(psb_ipk_), intent(out) :: info integer(psb_ipk_) :: i, dupl info = 0 if (.not.allocated(x%v)) then info = psb_err_invalid_vect_state_ return end if dupl = x%get_dupl() call x%v%ins(n,irl,val,dupl,maxr,info) end subroutine c_mvect_ins module subroutine c_mvect_cnv(x,mold) class(psb_c_multivect_type), intent(inout) :: x class(psb_c_base_multivect_type), intent(in), optional :: mold class(psb_c_base_multivect_type), allocatable :: tmp integer(psb_ipk_) :: info if (present(mold)) then allocate(tmp,stat=info,mold=mold) else allocate(tmp,stat=info, mold=psb_c_get_base_multivect_default()) endif if (allocated(x%v)) then call x%v%sync() if (info == psb_success_) call tmp%bld(x%v%v) call x%v%free(info) end if call move_alloc(tmp,x%v) end subroutine c_mvect_cnv !!$ module function c_mvect_dot_v(n,x,y) result(res) !!$ implicit none !!$ class(psb_c_multivect_type), intent(inout) :: x, y !!$ integer(psb_ipk_), intent(in) :: n !!$ complex(psb_spk_) :: res !!$ !!$ res = czero !!$ if (allocated(x%v).and.allocated(y%v)) & !!$ & res = x%v%dot(n,y%v) !!$ !!$ end function c_mvect_dot_v !!$ !!$ module function c_mvect_dot_a(n,x,y) result(res) !!$ implicit none !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ complex(psb_spk_), intent(in) :: y(:) !!$ integer(psb_ipk_), intent(in) :: n !!$ complex(psb_spk_) :: res !!$ !!$ res = czero !!$ if (allocated(x%v)) & !!$ & res = x%v%dot(n,y) !!$ !!$ end function c_mvect_dot_a !!$ !!$ module subroutine c_mvect_axpby_v(m,alpha, x, beta, y, info) !!$ use psi_serial_mod !!$ implicit none !!$ integer(psb_ipk_), intent(in) :: m !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ class(psb_c_multivect_type), intent(inout) :: y !!$ complex(psb_spk_), intent (in) :: alpha, beta !!$ integer(psb_ipk_), intent(out) :: info !!$ !!$ if (allocated(x%v).and.allocated(y%v)) then !!$ call y%v%axpby(m,alpha,x%v,beta,info) !!$ else !!$ info = psb_err_invalid_mvect_state_ !!$ end if !!$ !!$ end subroutine c_mvect_axpby_v !!$ !!$ module subroutine c_mvect_axpby_a(m,alpha, x, beta, y, info) !!$ use psi_serial_mod !!$ implicit none !!$ integer(psb_ipk_), intent(in) :: m !!$ complex(psb_spk_), intent(in) :: x(:) !!$ class(psb_c_multivect_type), intent(inout) :: y !!$ complex(psb_spk_), intent (in) :: alpha, beta !!$ integer(psb_ipk_), intent(out) :: info !!$ !!$ if (allocated(y%v)) & !!$ & call y%v%axpby(m,alpha,x,beta,info) !!$ !!$ end subroutine c_mvect_axpby_a !!$ !!$ !!$ module subroutine c_mvect_mlt_v(x, y, info) !!$ use psi_serial_mod !!$ implicit none !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ class(psb_c_multivect_type), intent(inout) :: y !!$ integer(psb_ipk_), intent(out) :: info !!$ integer(psb_ipk_) :: i, n !!$ !!$ info = 0 !!$ if (allocated(x%v).and.allocated(y%v)) & !!$ & call y%v%mlt(x%v,info) !!$ !!$ end subroutine c_mvect_mlt_v !!$ !!$ module subroutine c_mvect_mlt_a(x, y, info) !!$ use psi_serial_mod !!$ implicit none !!$ complex(psb_spk_), intent(in) :: x(:) !!$ class(psb_c_multivect_type), intent(inout) :: y !!$ integer(psb_ipk_), intent(out) :: info !!$ integer(psb_ipk_) :: i, n !!$ !!$ !!$ info = 0 !!$ if (allocated(y%v)) & !!$ & call y%v%mlt(x,info) !!$ !!$ end subroutine c_mvect_mlt_a !!$ !!$ !!$ module subroutine c_mvect_mlt_a_2(alpha,x,y,beta,z,info) !!$ use psi_serial_mod !!$ implicit none !!$ complex(psb_spk_), intent(in) :: alpha,beta !!$ complex(psb_spk_), intent(in) :: y(:) !!$ complex(psb_spk_), intent(in) :: x(:) !!$ class(psb_c_multivect_type), intent(inout) :: z !!$ integer(psb_ipk_), intent(out) :: info !!$ integer(psb_ipk_) :: i, n !!$ !!$ info = 0 !!$ if (allocated(z%v)) & !!$ & call z%v%mlt(alpha,x,y,beta,info) !!$ !!$ end subroutine c_mvect_mlt_a_2 !!$ !!$ module subroutine c_mvect_mlt_v_2(alpha,x,y,beta,z,info,conjgx,conjgy) !!$ use psi_serial_mod !!$ implicit none !!$ complex(psb_spk_), intent(in) :: alpha,beta !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ class(psb_c_multivect_type), intent(inout) :: y !!$ class(psb_c_multivect_type), intent(inout) :: z !!$ integer(psb_ipk_), intent(out) :: info !!$ character(len=1), intent(in), optional :: conjgx, conjgy !!$ !!$ integer(psb_ipk_) :: i, n !!$ !!$ info = 0 !!$ if (allocated(x%v).and.allocated(y%v).and.& !!$ & allocated(z%v)) & !!$ & call z%v%mlt(alpha,x%v,y%v,beta,info,conjgx,conjgy) !!$ !!$ end subroutine c_mvect_mlt_v_2 !!$ !!$ module subroutine c_mvect_mlt_av(alpha,x,y,beta,z,info) !!$ use psi_serial_mod !!$ implicit none !!$ complex(psb_spk_), intent(in) :: alpha,beta !!$ complex(psb_spk_), intent(in) :: x(:) !!$ class(psb_c_multivect_type), intent(inout) :: y !!$ class(psb_c_multivect_type), intent(inout) :: z !!$ integer(psb_ipk_), intent(out) :: info !!$ integer(psb_ipk_) :: i, n !!$ !!$ info = 0 !!$ if (allocated(z%v).and.allocated(y%v)) & !!$ & call z%v%mlt(alpha,x,y%v,beta,info) !!$ !!$ end subroutine c_mvect_mlt_av !!$ !!$ module subroutine c_mvect_mlt_va(alpha,x,y,beta,z,info) !!$ use psi_serial_mod !!$ implicit none !!$ complex(psb_spk_), intent(in) :: alpha,beta !!$ complex(psb_spk_), intent(in) :: y(:) !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ class(psb_c_multivect_type), intent(inout) :: z !!$ integer(psb_ipk_), intent(out) :: info !!$ integer(psb_ipk_) :: i, n !!$ !!$ info = 0 !!$ !!$ if (allocated(z%v).and.allocated(x%v)) & !!$ & call z%v%mlt(alpha,x%v,y,beta,info) !!$ !!$ end subroutine c_mvect_mlt_va !!$ !!$ module subroutine c_mvect_scal(alpha, x) !!$ use psi_serial_mod !!$ implicit none !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ complex(psb_spk_), intent (in) :: alpha !!$ !!$ if (allocated(x%v)) call x%v%scal(alpha) !!$ !!$ end subroutine c_mvect_scal !!$ !!$ !!$ module function c_mvect_nrm2(n,x) result(res) !!$ implicit none !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ integer(psb_ipk_), intent(in) :: n !!$ real(psb_spk_) :: res !!$ !!$ if (allocated(x%v)) then !!$ res = x%v%nrm2(n) !!$ else !!$ res = szero !!$ end if !!$ !!$ end function c_mvect_nrm2 !!$ !!$ module function c_mvect_amax(n,x) result(res) !!$ implicit none !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ integer(psb_ipk_), intent(in) :: n !!$ real(psb_spk_) :: res !!$ !!$ if (allocated(x%v)) then !!$ res = x%v%amax(n) !!$ else !!$ res = szero !!$ end if !!$ !!$ end function c_mvect_amax !!$ !!$ module function c_mvect_asum(n,x) result(res) !!$ implicit none !!$ class(psb_c_multivect_type), intent(inout) :: x !!$ integer(psb_ipk_), intent(in) :: n !!$ real(psb_spk_) :: res !!$ !!$ if (allocated(x%v)) then !!$ res = x%v%asum(n) !!$ else !!$ res = szero !!$ end if !!$ !!$ end function c_mvect_asum end submodule psb_c_multivect_impl