module psb_z_tools_cbind_mod use iso_c_binding use psb_base_mod use psb_cpenv_mod use psb_objhandle_mod use psb_base_string_cbind_mod use psb_base_tools_cbind_mod contains ! Should define geall_opt with DUPL argument function psb_c_zgeall(xh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res type(psb_c_zvector) :: xh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_z_vect_type), pointer :: xp integer(psb_c_ipk_) :: info res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(xh%item)) then return end if allocate(xp) call psb_geall(xp,descp,info) xh%item = c_loc(xp) res = min(0,info) return end function psb_c_zgeall function psb_c_zgeasb(xh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res type(psb_c_zvector) :: xh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_z_vect_type), pointer :: xp integer(psb_c_ipk_) :: info res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(xh%item)) then call c_f_pointer(xh%item,xp) else return end if call psb_geasb(xp,descp,info) res = min(0,info) return end function psb_c_zgeasb function psb_c_zgefree(xh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res type(psb_c_zvector) :: xh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_z_vect_type), pointer :: xp integer(psb_c_ipk_) :: info res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(xh%item)) then call c_f_pointer(xh%item,xp) else return end if call psb_gefree(xp,descp,info) res = min(0,info) deallocate(xp,stat=info) res = min(0,info) xh%item = c_null_ptr return end function psb_c_zgefree function psb_c_zgeins(nz,irw,val,xh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res integer(psb_c_ipk_), value :: nz integer(psb_c_lpk_) :: irw(*) complex(c_double_complex) :: val(*) type(psb_c_zvector) :: xh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_z_vect_type), pointer :: xp integer(psb_c_ipk_) :: ixb, info res = -1 info = 0 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(xh%item)) then call c_f_pointer(xh%item,xp) else return end if ixb = psb_c_get_index_base() if (ixb == 1) then call psb_geins(nz,irw(1:nz),val(1:nz),& & xp,descp,info) else call psb_geins(nz,(irw(1:nz)+(1-ixb)),val(1:nz),& & xp,descp,info) end if res = min(0,info) return end function psb_c_zgeins function psb_c_zspall(mh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res type(psb_c_zspmat) :: mh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_zspmat_type), pointer :: ap integer(psb_c_ipk_) :: info,n res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(mh%item)) then return end if allocate(ap) call psb_spall(ap,descp,info) mh%item = c_loc(ap) res = min(0,info) return end function psb_c_zspall function psb_c_zspall_remote(mh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res type(psb_c_zspmat) :: mh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_zspmat_type), pointer :: ap integer(psb_c_ipk_) :: info,n res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(mh%item)) then return end if allocate(ap) call psb_spall(ap,descp,info,bldmode=psb_matbld_remote_) mh%item = c_loc(ap) res = min(0,info) return end function psb_c_zspall_remote function psb_c_zspasb(mh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res type(psb_c_zspmat) :: mh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_zspmat_type), pointer :: ap integer(psb_c_ipk_) :: info,n res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(mh%item)) then call c_f_pointer(mh%item,ap) else return end if call psb_spasb(ap,descp,info) res = min(0,info) return end function psb_c_zspasb function psb_c_zspfree(mh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res type(psb_c_zspmat) :: mh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_zspmat_type), pointer :: ap integer(psb_c_ipk_) :: info,n res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(mh%item)) then call c_f_pointer(mh%item,ap) else return end if call psb_spfree(ap,descp,info) res = min(0,info) deallocate(ap,stat=info) mh%item=c_null_ptr return end function psb_c_zspfree #if 0 function psb_c_zspasb_opt(mh,cdh,afmt,upd) bind(c) result(res) #ifdef HAVE_LIBRSB use psb_z_rsb_mat_mod #endif implicit none integer(psb_c_ipk_) :: res integer(psb_c_ipk_), value :: cdh, mh,upd,dupl character(c_char) :: afmt(*) integer(psb_c_ipk_) :: info,n character(len=5) :: fafmt #ifdef HAVE_LIBRSB type(psb_z_rsb_sparse_mat) :: arsb #endif res = -1 call psb_check_descriptor_handle(cdh,info) if (info < 0) return call psb_check_double_spmat_handle(mh,info) if (info < 0) return call stringc2f(afmt,fafmt) select case(fafmt) #ifdef HAVE_LIBRSB case('RSB') call psb_spasb(double_spmat_pool(mh)%item,descriptor_pool(cdh)%item,info,& & upd=upd,mold=arsb) #endif case default call psb_spasb(double_spmat_pool(mh)%item,descriptor_pool(cdh)%item,info,& & afmt=fafmt,upd=upd) end select res = min(0,info) return end function psb_c_zspasb_opt #endif function psb_c_zspins(nz,irw,icl,val,mh,cdh) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res integer(psb_c_ipk_), value :: nz integer(psb_c_lpk_) :: irw(*), icl(*) complex(c_double_complex) :: val(*) type(psb_c_zspmat) :: mh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_zspmat_type), pointer :: ap integer(psb_c_ipk_) :: ixb,info,n res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(mh%item)) then call c_f_pointer(mh%item,ap) else return end if ixb = psb_c_get_index_base() if (ixb == 1) then call psb_spins(nz,irw(1:nz),icl(1:nz),val(1:nz),ap,descp,info) else call psb_spins(nz,(irw(1:nz)+(1-ixb)),(icl(1:nz)+(1-ixb)),val(1:nz),ap,descp,info) end if res = min(0,info) return end function psb_c_zspins function psb_c_zsprn(mh,cdh,clear) bind(c) result(res) implicit none integer(psb_c_ipk_) :: res logical(c_bool), value :: clear type(psb_c_zspmat) :: mh type(psb_c_descriptor) :: cdh type(psb_desc_type), pointer :: descp type(psb_zspmat_type), pointer :: ap integer(psb_c_ipk_) :: info logical :: fclear res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(mh%item)) then call c_f_pointer(mh%item,ap) else return end if fclear = clear call psb_sprn(ap,descp,info,clear=fclear) res = min(0,info) return end function psb_c_zsprn !!$ !!$ function psb_c_zspprint(mh) bind(c) result(res) !!$ !!$ implicit none !!$ integer(psb_c_ipk_) :: res !!$ integer(psb_c_ipk_), value :: mh !!$ integer(psb_c_ipk_) :: info !!$ !!$ !!$ res = -1 !!$ call psb_check_double_spmat_handle(mh,info) !!$ if (info < 0) return !!$ !!$ call psb_csprt(0,double_spmat_pool(mh)%item,head='Debug mat') !!$ !!$ res = 0 !!$ !!$ return !!$ end function psb_c_zspprint function psb_c_zgetelem(xh,index,cdh) bind(c) result(res) implicit none type(psb_c_zvector) :: xh integer(psb_c_lpk_), value :: index type(psb_c_descriptor) :: cdh complex(c_double_complex) :: res type(psb_z_vect_type), pointer :: xp type(psb_desc_type), pointer :: descp integer(psb_c_ipk_) :: info, ixb res = -1 if (c_associated(cdh%item)) then call c_f_pointer(cdh%item,descp) else return end if if (c_associated(xh%item)) then call c_f_pointer(xh%item,xp) else return end if ixb = psb_c_get_index_base() if (ixb == 1) then res = psb_getelem(xp,index,descp,info) else res = psb_getelem(xp,index+(1-ixb),descp,info) end if return end function psb_c_zgetelem end module psb_z_tools_cbind_mod