Path: | gt4_historyauto.f90 |
Last Update: | Wed Jul 05 20:34:08 JST 2006 |
module gt4_history のアプリケーション. 変数毎に時・空間に自由にサンプリングを設定できる. 長くなりそうな出力の時分割や並列化に対応. その他の特徴 * 一つの変数を切り方や時間間隔を変えて複数出すこともできる。 * 並列化対応は、単にプロセス固有のサフィックスをファイル名に付けられる だけという単純なものである。MPIなどを使う際に、各ノードが自分の 受け持ちの領域をそれぞれ独立なファイルに出すことを想定している。 * 時間積分ループ内でデータを出力するためのコーディングを楽にする工夫 * 出力する変数に関する諸々の情報はモジュール内部に取っておき、 外部からは名前で指定する。生の gt4f90io の場合、出力初期化でできた GT_HISTORY 構造体を実際の出力場所に渡さなければない。そうすると 時間積分のループの内と外をどうやって繋ぐかという悩みが発生するが、 ここではその悩みから解放される。 * 出力するタイミングも内部で管理されるため時間積分ループ内で毎回出力 命令を呼んで構わない。なお、出力のためだけに特別に計算する物理量を 無駄に計算しないための工夫もある(関数((<HistoryAutoWhetherPutNow>))) * 地図投影座標のように、多次元の座標(補助)変数を出力したい場合も考慮さ れている(((<HistoryAutoCreate>))のオプション引数 ancilcrdvars)。 * 任意の属性が簡単に追加できる(((<HistoryAutoCreate>))のオプション引数 attrs)。
2004/11/??-19 堀之内 武 作成 2005/02/17 堀之内 武 ドキュメントちょこっと修正
* 長さ (*) の配列は本当に必要か? 実は (:) にしたいんだけど、 長さチェック実装を面倒がって当座 (*) にしたんでは?? もしそれだけの問題なら、長さチェックをするようにして、まずければ 例外が発生するようにすべき。 * 現在は内部データの保持は単なる linked list を使っているが、 登録変数が多くても高速に検索できるようにするため、2分探索出来る ように変えるべき。 * gt4f90io に上位モジュールとして取り込んで貰う * gt4f90io に整合的なドキュメンテーション (あるいは dcpam的に?)
—subroutine HistoryAutoCreate( name, aryshape, &
& longname, units, slfst, sllst, slstp, & & file, title, source, institution, & & dims, axlongnames, axunits, axxtypes, & & time_to_start, put_interval, dt, & & conventions, gt_version, & & proc, newfile_interval, spcoordvars, & & ancilcrdvars, attrs ) ヒストリファイル初期化情報の設定。実際のファイル初期化は 必要に応じて HistoryAutoPut が行う(時分割するときは適宜 クローズと初期化を繰り返さないとならないので、そういう 構造になる)。なお、一つのファイルへの出力に対して このサブルーチンを2回以上呼んではならない。複数の 変数を一つのファイルに出したい場合は、HistoryAutoCopyCreate を利用せよ。 時・空間に自由にサンプリングを設定できる。 但し、いずれも等間隔。長い時間積分によって、ファイルが 大きくなり過ぎることに対応するため、一定の時間間隔で 分割することが可能。また、並列化を念頭に各ノードを特定する 文字列を挿入することができる。
—subroutine HistoryAutoCopyCreate( name, longname, units [, file] )
直前の HistoryAutoCreate を使って、格子及び出力の空間・時間 サンプリングが同じ出力を定義する。fileを省略すれば 同じファイルを使う。
—subroutine HistoryAutoPut(name, vals, time)
変数の出力を行う。タイミングは内部で制御するので、全タイム ステップで呼べば良い。なお、下記の HistoryAutoWhetherPutNow を使って呼ぶタイミングを制御しても良い。
—logical function HistoryAutoWhetherPutNow( name, time )
name の名を持つ出力項目に関し、現在がファイルに出力するタイミ ングかどうかを返す。同名で複数の出力をする場合、どれか一つでも 出力するタイミングなら .true. を返す。出力のために特別に計算を を要するようなケースに使うと良い。(ほとんどのステップで無駄に なる計算をするのを避けられる)
—GT4_ATTRIBUTE
属性を名前と値の組で入れる
—GT4_ATTRIBUTE function init_gt4_attribute(name,rval,ival,cval)
ATTRIBUTEのコンストラクター. 名前 & (実数配列 or 整数配列 or 文字列) を与える
—GT4_REAL1D
配列の配列をつくるための型(実数)
—GT4_REAL1D function init_gt4_real1d(ary)
REAL1Dのコンストラクター.
—GT4_NAMED_REALARY
名前、次元名、longname, units を持つ実数配列. 配列データは1次元で保持
—GT4_NAMED_REALARY function init_gt4_named_realary(name,rank,dims,length,ary,longname,units)
GT4_NAMED_REALARYのコンストラクター.
This file provides following module.
Subroutine : | |||
name : | character(len=*), intent(in) | ||
longname : | character(len=*), intent(in) | ||
units : | character(len=*), intent(in) | ||
file : | character(len=*), intent(in) | ||
aryshape(:) : | integer, intent(in)
| ||
dims(*) : | character(len=*), intent(in)
| ||
axlongnames(*) : | character(len=*), intent(in)
| ||
axunits(*) : | character(len=*), intent(in)
| ||
axxtypes(*) : | character(len=*), intent(in) | ||
domain_div : | logical, intent(in),optional | ||
subdomfst(*) : | integer, intent(in),optional
|
subroutine HistoryAutoCreate1( name, longname, units, file, aryshape, dims, axlongnames, axunits, axxtypes, domain_div, subdomfst ) use dc_error, only: USR_EINT, StoreError implicit none character(len=*), intent(in) :: name character(len=*), intent(in) :: longname character(len=*), intent(in) :: units character(len=*), intent(in) :: file integer, intent(in) :: slfst(*) ! size == sprank integer, intent(in) :: sllst(*) ! size == sprank integer, intent(in) :: slstp(*) ! size == sprank real, intent(in) :: time_to_start, put_interval, dt real, intent(in) :: newfile_interval type(GT4_ATTRIBUTE),intent(in),optional :: attrs(:) integer, intent(in) :: aryshape(:) ! size <= 3 (--> sprank) character(len=*), intent(in) :: dims(*) !size == sprank+1 character(len=*), intent(in) :: axlongnames(*) !size == sprank+1 character(len=*), intent(in) :: axunits(*) !size == sprank+1 character(len=*), intent(in) :: axxtypes(*) type(GT4_REAL1D), intent(in) :: spcoordvars(*) ! size == sprank type(GT4_NAMED_REALARY),intent(in),optional :: ancilcrdvars(:) character(len=*), intent(in),optional :: proc character(len=*), intent(in),optional :: title, source, institution character(len=*), intent(in),optional :: conventions, gt_version logical, intent(in),optional :: domain_div integer, intent(in),optional :: subdomfst(*) ! For domain-dividing comp. ! first indx relative in the whole dom. (size == sprank) ! type(HIST_EACHVAR) :: hist integer :: sprank,i,slf character(len = *),parameter :: subname = "HistoryAutoCreate1" call BeginSub(subname) !< initialize hist except hist%h -- actual creation is deferred > hist%time_last = -1e35 ! time_last_inival allocate(hist%h) ! always new allocation nullify(hist%h%hs) hist%name = name hist%longname = longname hist%units = units sprank = min( size(aryshape), 3 ) hist%sprank = sprank if ( present_and_true(domain_div) ) then hist%domain_div = .true. if (.not. present(subdomfst)) call StoreError(USR_EINT, subname, cause_c='When domain_div is present and true, subdomfst '// 'must also be present.') else hist%domain_div = .false. end if if (hist%domain_div .and. (minval(slfst(1:sprank)).le.0 .or. minval(sllst(1:sprank)).lt.0) ) then call StoreError(USR_EINT, subname, cause_c='When the domain is divided, output-domain '// 'limiting from the end by using negative indices is not '// 'available, since the whole domain size is not known. '// 'Use a postive number (or zero for sllst to express the'// ' last grid point).') endif hist%size = 1 hist%out_of_domain = .false. ! Init. May be true in domain division. do i=1,sprank hist%aryshape(i) = aryshape(i) if(slstp(i) > 0) then hist%slstp(i) = slstp(i) else hist%slstp(i) = 1 endif if (.not.hist%domain_div) then if(slfst(i) > 0) then hist%slfst(i) = slfst(i) else hist%slfst(i) = slfst(i) + aryshape(i) endif if(sllst(i) > 0) then hist%sllst(i) = sllst(i) else hist%sllst(i) = sllst(i) + aryshape(i) endif else slf = slfst(i) - subdomfst(i) + 1 if (slf.le.0) then slf = modulo(slf-1,hist%slstp(i)) + 1 else if(slf.gt.aryshape(i)) then hist%out_of_domain = .true. endif hist%slfst(i) = slf if (sllst(i).eq.0) then hist%sllst(i) = aryshape(i) else hist%sllst(i) = min( sllst(i) - subdomfst(i) + 1, aryshape(i) ) if (hist%sllst(i).le.0) then hist%out_of_domain = .true. endif endif endif hist%dimsizes(i) = (hist%sllst(i)-hist%slfst(i))/hist%slstp(i) + 1 if (.not.hist%domain_div) then if (hist%slfst(i)<=0 .or. hist%slfst(i)>aryshape(i)) call StoreError(USR_EINT, subname, cause_c= 'str not within the index range for dim:',cause_i=i) if (hist%sllst(i)<=0 .or. hist%sllst(i)>aryshape(i)) call StoreError(USR_EINT, subname, cause_c= 'end not within the index range for dim:',cause_i=i) if (hist%slstp(i)<=0) call StoreError(USR_EINT, subname, cause_c='step not positive for dim:', cause_i=i) if (hist%dimsizes(i)<=0) call StoreError(USR_EINT, subname, cause_c='negative dimsize for dim:', cause_i=i) endif hist%size = hist%size * hist%dimsizes(i) enddo hist%dimsizes(sprank+1) = 0 ! unlimited dimension hist%file = file hist%newfile_interval = newfile_interval hist%dims(1:sprank+1) = dims(1:sprank+1) hist%axlongnames(1:sprank+1) = axlongnames(1:sprank+1) hist%axunits(1:sprank+1) = axunits(1:sprank+1) hist%time_to_start = time_to_start hist%put_interval = put_interval hist%dt = dt hist%axxtypes(1:sprank+1) = axxtypes(1:sprank+1) if(present(title)) then hist%title = title else hist%title = com_title endif if(present(source)) then hist%source = source else hist%source = com_source endif if(present(institution)) then hist%institution = institution else hist%institution = com_institution endif if(present(conventions)) then hist%conventions = conventions else hist%conventions = com_conventions endif if(present(gt_version)) then hist%gt_version = gt_version else hist%gt_version = com_gt_version endif if(present(proc)) then hist%proc = proc else hist%proc = com_proc endif hist%spcoordvars(1:sprank) = spcoordvars(1:sprank) if(.not. present(ancilcrdvars)) then nullify(hist%ancilcrdvars) else if ( size(ancilcrdvars)==0 )then nullify(hist%ancilcrdvars) else allocate(hist%ancilcrdvars(size(ancilcrdvars))) ! always new alloc hist%ancilcrdvars = ancilcrdvars endif if(.not. present(attrs)) then nullify(hist%attrs) else if ( size(attrs)==0 )then nullify(hist%attrs) else allocate(hist%attrs(size(attrs))) ! always new alloc hist%attrs = attrs endif call histpl_push(HISTPOOL, hist) call EndSub(subname) end subroutine HistoryAutoCreate1
Subroutine : | |
hst : | type(HIST_EACHVAR),intent(inout) |
hst : | type(HIST_EACHVAR),intent(inout) |
hst : | type(HIST_EACHVAR),pointer |
hst : | type(HIST_EACHVAR),pointer |
var : | type(GT4_NAMED_REALARY),intent(in) |
var : | type(GT4_NAMED_REALARY),intent(in) |
subroutine add_ancilcrdvar(hst, var) implicit none type(HIST_EACHVAR),intent(inout) :: hst type(GT4_NAMED_REALARY),intent(in) :: var ! integer :: rank ! rank = var%rank call HistoryAddVariable(var%name, var%dims(1:rank), end subroutine add_ancilcrdvar subroutine put_ancilcrdvar(hst, var) use dc_error, only: GT_ENOMATCHDIM, StoreError implicit none type(HIST_EACHVAR),intent(inout) :: hst type(GT4_NAMED_REALARY),intent(in) :: var ! integer :: rank,i,j integer,allocatable :: idx(:) real,pointer :: subset(:) character(len=*), parameter :: subname = 'put_ancilcrdvar' ! call BeginSub(subname) rank = var%rank allocate(idx(rank)) loopi: do i=1,rank do j=1,hst%sprank if ( var%dims(i) == hst%dims(j) ) then idx(i)=j cycle loopi endif enddo call StoreError(GT_ENOMATCHDIM, subname) enddo loopi subset => make_slice(var%ary, rank, (/hst%aryshape(idx)/), (/hst%slfst(idx)/), (/hst%sllst(idx)/), (/hst%slstp(idx)/)) if (associated(subset)) then call HistoryPut(var%name, subset, hst%h%hs) else call HistoryPut(var%name, var%ary, hst%h%hs) endif deallocate(idx) call EndSub(subname) end subroutine put_ancilcrdvar subroutine HistoryAutoPut(name, vals, time) implicit none character(len=*), intent(in) :: name real :: vals(*) real :: time ! type(HIST_EACHVAR),pointer :: hst integer :: ith, j, rank character(len=STRING) :: file_actual real :: eps=3e-7, newest type(GT_HISTORY),pointer :: hist logical :: put_now integer :: arysize real,pointer :: subset(:) character(len = *), parameter:: subname = 'HistoryAutoPut' ! call BeginSub(subname, 'name=<%c>, time=<%r>', c1=trim(name), r=(/time/)) ith = 1 do while( histpl_find(HISTPOOL, name, ith, hst) ) put_now = whether_to_put_now( time, hst%time_last, if ( put_now .and. .not.hst%out_of_domain ) then if ( associated(hst%h%hs) ) then call HistoryInquire(hst%h%hs, newest=newest) if ( hst%newfile_interval > 0 .and. hst%time_to_start = hst%time_to_start + hst%newfile_interval call HistoryClose(hst%h%hs) nullify(hst%h%hs) endif endif if (.not.associated(hst%h%hs)) then if (hst%newfile_interval > 0) then file_actual = merge_file_proc_time(hst%file,hst%proc, else file_actual = merge_file_proc_time(hst%file,hst%proc) endif rank = hst%sprank + 1 allocate(hist) ! always new allocataion call HistoryCreate( file_actual, trim(hst%title), hst%h%hs => hist call HistoryAddVariable(name, hst%dims(1:rank), trim(hst%longname), trim(hst%units), if (associated(hst%attrs)) then do j=1,size(hst%attrs) call add_gt4_attribute(hst, hst%attrs(j)) enddo endif if (associated(hst%ancilcrdvars)) then do j=1,size(hst%ancilcrdvars) call add_ancilcrdvar(hst, hst%ancilcrdvars(j)) enddo endif do j=1,hst%sprank subset => make_slice(hst%spcoordvars(j)%ary, 1, (/hst%aryshape(j)/), (/hst%slfst(j)/), (/hst%sllst(j)/), (/hst%slstp(j)/) ) if (associated(subset)) then call HistoryPut(hst%dims(j), else call HistoryPut(hst%dims(j), endif enddo if (associated(hst%ancilcrdvars)) then do j=1,size(hst%ancilcrdvars) call put_ancilcrdvar(hst, hst%ancilcrdvars(j)) enddo endif call HistorySetTime(time, hst%h%hs) else rank = hst%sprank + 1 if ( .not. HistoryHasVariable(hst%h%hs, name) ) then call HistoryAddVariable(name, hst%dims(1:rank), trim(hst%longname), trim(hst%units), !" ここで HistorySetTime すると問題が起きるので前回に従う if (associated(hst%attrs)) then do j=1,size(hst%attrs) call add_gt4_attribute(hst, hst%attrs(j)) enddo endif else call HistorySetTime(time, hst%h%hs) endif endif arysize = product(hst%aryshape(1:hst%sprank)) subset => make_slice(vals(1:arysize), hst%sprank, (/hst%aryshape/), (/hst%slfst/), (/hst%sllst/), (/hst%slstp/)) if (associated(subset)) then call HistoryPut(name, subset, hst%h%hs) else call HistoryPut(name, vals(1:hst%size), hst%h%hs) endif hst%time_last = time endif enddo call EndSub(subname) end subroutine HistoryAutoPut function HistoryAutoWhetherPutNow( name, time ) result(result) implicit none logical :: result character(len=*), intent(in) :: name real, intent(in) :: time ! integer :: ith type(HIST_EACHVAR),pointer :: hst character(len = *), parameter:: subname = 'HistoryAutoWhetherPutNow' logical :: put_now ! call BeginSub(subname) result = .false. ith = 1 do while( histpl_find(HISTPOOL, name, ith, hst) ) put_now = whether_to_put_now( time, hst%time_last, if (put_now) then result = .true. exit endif enddo call EndSub(subname) end function HistoryAutoWhetherPutNow function whether_to_put_now( time_now, time_last, time_to_start, put_interval, dt ) result(result) implicit none logical :: result real, intent(in) :: time_now real, intent(in) :: time_last real, intent(in) :: time_to_start real, intent(in) :: put_interval real, intent(in) :: dt ! real :: next_put_time real :: eps character(len = *), parameter:: subname = 'whether_to_put_now' call BeginSub(subname) eps = dt * 1e-3 ! allowable error in time in float if (time_now < time_to_start - eps) then result = .false. return end if next_put_time = time_last + put_interval ! initially very small because ! of the init val of time_last if ( time_now >= (next_put_time - eps) ) then result = .true. else result = .false. endif call EndSub(subname) end function whether_to_put_now subroutine HistoryAutoCopyCreate( name, longname, units, file ) ! use the result of the latest call of HistoryAutoCreate character(len=*), intent(in) :: name character(len=*), intent(in) :: longname character(len=*), intent(in) :: units character(len=*), intent(in),optional :: file ! type(HIST_EACHVAR) :: hist type(HIST_EACHVAR),pointer :: histpt character(len = *), parameter:: subname = 'HistoryAutoCopyCreate' ! call BeginSub(subname) histpt => histpl_last(HISTPOOL) hist = histpt ! copy the contents if(present_and_not_empty(file)) then hist%file = file allocate(hist%h) ! always new allocation nullify(hist%h%hs) else hist%h => histpt%h endif hist%name = name hist%longname = longname hist%units = units call histpl_push(HISTPOOL, hist) call EndSub(subname) end subroutine HistoryAutoCopyCreate subroutine HistoryAutoSetRunInfo( conventions, gt_version ) use dc_error, only: USR_EINT, StoreError implicit none character(len=*), intent(in), optional :: title, source, institution character(len=*), intent(in), optional :: proc character(len=*), intent(in), optional :: conventions, gt_version ! character(len = *),parameter :: subname = "HistoryAutoSetRunInfo" continue call BeginSub(subname) if (present(title)) com_title = title if (present(source)) com_source = source if (present(institution)) com_institution = institution if (present(proc)) com_proc = proc if (present(conventions)) com_conventions = conventions if (present(gt_version)) com_gt_version = gt_version call EndSub(subname) end subroutine HistoryAutoSetRunInfo subroutine HistoryAutoSetGrid( grid_label, aryshape, dims, axlongnames, axunits, axxtypes, subdomfst ) use dc_error, only: USR_EINT, StoreError implicit none character(len=*), intent(in) :: grid_label integer, intent(in) :: aryshape(:) ! size <= 3 (--> sprank) character(len=*), intent(in) :: dims(:) !size == sprank+1 character(len=*), intent(in) :: axlongnames(:) !size == sprank+1 character(len=*), intent(in) :: axunits(:) !size == sprank+1 character(len=*), intent(in) :: axxtypes(:) real, intent(in),optional :: coord1(:) ! must present if sprank>=1 real, intent(in),optional :: coord2(:) ! must present if sprank>=2 real, intent(in),optional :: coord3(:) ! must present if sprank>=3 type(GT4_NAMED_REALARY),intent(in),optional :: ancilcrdvars(:) integer, intent(in),optional :: subdomfst(:) ! For domain-dividing comp. ! first indx relative in the whole dom. (size == sprank) ! type(HIST_EACHVAR) :: hist integer :: sprank character(len = *),parameter :: subname = "HistoryAutoSetGrid" continue call BeginSub(subname) sprank = min( size(aryshape), 3 ) hist%sprank = sprank hist%name = grid_label hist%aryshape(1:sprank) = aryshape(1:sprank) hist%dims(1:sprank+1) = dims(1:sprank+1) hist%axlongnames(1:sprank+1) = axlongnames(1:sprank+1) hist%axunits(1:sprank+1) = axunits(1:sprank+1) hist%axxtypes(1:sprank+1) = axxtypes(1:sprank+1) if (present(subdomfst)) then hist%domain_div = .true. hist%subdomfst(1:sprank) = subdomfst(1:sprank) else hist%domain_div = .false. endif if (sprank >= 1) hist%spcoordvars(1) = init_gt4_real1d( coord1 ) if (sprank >= 2) hist%spcoordvars(2) = init_gt4_real1d( coord2 ) if (sprank >= 3) hist%spcoordvars(3) = init_gt4_real1d( coord3 ) if(.not. present(ancilcrdvars)) then nullify(hist%ancilcrdvars) else if ( size(ancilcrdvars)==0 )then nullify(hist%ancilcrdvars) else allocate(hist%ancilcrdvars(size(ancilcrdvars))) ! always new alloc hist%ancilcrdvars = ancilcrdvars endif call histpl_push(HISTGRIDPOOL, hist) call EndSub(subname) end subroutine HistoryAutoSetGrid ! Create a history using a grid data set with a previous call of ! HistoryAutoSetGrid. subroutine HistoryAutoCreate2( name, longname, units, file, grid_label, use dc_error, only: USR_ECHAR, USR_EINT, StoreError implicit none character(len=*), intent(in) :: name character(len=*), intent(in) :: longname character(len=*), intent(in) :: units character(len=*), intent(in) :: file integer, intent(in) :: slfst(*) ! size == sprank integer, intent(in) :: sllst(*) ! size == sprank integer, intent(in) :: slstp(*) ! size == sprank real, intent(in) :: time_to_start, put_interval, dt real, intent(in) :: newfile_interval type(GT4_ATTRIBUTE),intent(in),optional :: attrs(:) character(len=*), intent(in) :: grid_label ! <-- HistoryAutoSetGrid character(len=*), intent(in),optional :: proc character(len=*), intent(in),optional :: title, source, institution character(len=*), intent(in),optional :: conventions, gt_version ! type(HIST_EACHVAR),pointer :: hist integer :: ith character(len = *),parameter :: subname = "HistoryAutoCreate2" call BeginSub(subname) ith = 1 if (.not.histpl_find(HISTGRIDPOOL, grid_label, ith, hist)) then call StoreError(USR_ECHAR, subname, endif call HistoryAutoCreate1( name, longname, units, file, hist%aryshape(1:hist%sprank), hist%domain_div, hist%subdomfst ) call EndSub(subname) end subroutine HistoryAutoCreate2
Subroutine : | |
hst : | type(HIST_EACHVAR),intent(inout) |
attr : | type(GT4_ATTRIBUTE),intent(in) |
subroutine add_gt4_attribute(hst, attr) implicit none type(HIST_EACHVAR),intent(inout) :: hst type(GT4_ATTRIBUTE),intent(in) :: attr ! if( hst%name /= "" ) then if(associated(attr%rval)) then call HistoryAddAttr(hst%name, attr%name, attr%rval, hst%h%hs) else if(associated(attr%rval)) then call HistoryAddAttr(hst%name, attr%name, attr%ival, hst%h%hs) else call HistoryAddAttr(hst%name, attr%name, trim(attr%cval), hst%h%hs) endif endif end subroutine add_gt4_attribute
Function : | |||
result : | logical
| ||
histpl : | type(HIST_LINK),pointer
| ||
name : | character(len=*), intent(in) | ||
ith : | integer, intent(inout)
| ||
hist : | type(HIST_EACHVAR),pointer |
function histpl_find(histpl, name,ith,hist) result(result) implicit none logical :: result ! .true. if found type(HIST_LINK),pointer :: histpl ! intent(in) character(len=*), intent(in) :: name integer, intent(inout) :: ith ! ith+=1 when return (to iterate) type(HIST_EACHVAR),pointer :: hist ! type(HIST_LINK),pointer,save :: hp integer,save :: cnt=1 character(len=TOKEN),save :: name_save = '' ! if(name/=name_save .or. ith<cnt) then cnt = 1 hp => histpl endif do while (associated(hp)) !!print *,trim(name),ith,cnt,trim(hp%name) if (hp%name == name) then if(cnt==ith) then !!print *,' ...found' hist => hp%hist result = .true. ! found name_save = name ! save the name found ith = ith+1 ! stepped forward for the next search cnt = cnt + 1 ! stepped forward for the next search hp => hp%next ! stepped forward for the next search return endif cnt = cnt + 1 endif hp => hp%next end do !!print *,' ...not found' result = .false. ! not found name_save = '' ! initialize cnt = 1 ! initialize end function histpl_find
Function : | |||
result : | type(HIST_EACHVAR),pointer | ||
histpl : | type(HIST_LINK),pointer
|
function histpl_last(histpl) result(result) implicit none type(HIST_EACHVAR),pointer :: result type(HIST_LINK),pointer :: histpl ! intent(in) ! type(HIST_LINK),pointer :: hp hp => histpl_to_the_end(histpl) result => hp%hist end function histpl_last
Subroutine : | |||
histpl : | type(HIST_LINK),pointer
| ||
hist : | type(HIST_EACHVAR),intent(in) |
subroutine histpl_push(histpl, hist) implicit none type(HIST_LINK),pointer :: histpl ! intent(in) type(HIST_EACHVAR),intent(in) :: hist ! type(HIST_LINK),pointer :: hp, nxt hp => histpl_to_the_end(histpl) if ( .not. associated(hp) ) then ! must be the first time allocate(hp) ! always new allocation histpl => hp else allocate(nxt) hp%next => nxt hp => nxt endif hp%hist = hist hp%name = hist%name end subroutine histpl_push
Function : | |||
result : | type(HIST_LINK),pointer | ||
histpl : | type(HIST_LINK),pointer
|
function histpl_to_the_end(histpl) result(result) type(HIST_LINK),pointer :: result type(HIST_LINK),pointer :: histpl ! intent(in) result => histpl do while (associated(result)) if (associated(result%next)) then result => result%next else exit endif end do end function histpl_to_the_end
Main Program : |
function make_slice(vals, rank, aryshape, slfst, sllst, slstp) implicit none real,pointer,dimension(:) :: result real,intent(in) :: vals(:) integer,intent(in) :: rank integer,intent(in) :: aryshape(*) integer,intent(in) :: slfst(*) integer,intent(in) :: sllst(*) integer,intent(in) :: slstp(*) ! integer :: i,slsize logical :: slicing_needed real,pointer :: v1(:),v2(:,:),v3(:,:,:) character(len = *), parameter:: subname = 'make_slice' ! call BeginSub(subname) nullify(result) ! slicing_needed = .false. do i=1,rank if (slfst(i)/=1) slicing_needed = .true. if (sllst(i)/=aryshape(i)) slicing_needed = .true. if (slstp(i)/=1) slicing_needed = .true. enddo slsize = 1 do i=1,rank slsize = slsize * ( (sllst(i)-slfst(i))/slstp(i) + 1 ) enddo if(.not.slicing_needed) then nullify(result) else if(associated(result)) deallocate(result) allocate(result(slsize)) select case(rank) case (1) if(associated(v1)) deallocate(v1) allocate(v1(aryshape(1))) v1 = reshape(vals,(/aryshape(1:1)/)) result = v1(slfst(1):sllst(1):slstp(1)) case (2) if(associated(v2)) deallocate(v2) allocate(v2(aryshape(1),aryshape(2))) v2 = reshape(vals,(/aryshape(1:2)/)) result = reshape( v2(slfst(1):sllst(1):slstp(1), slfst(2):sllst(2):slstp(2)), case (3) if(associated(v3)) deallocate(v3) allocate(v3(aryshape(1),aryshape(2),aryshape(3))) v3 = reshape(vals,(/aryshape(1:3)/)) result = reshape( end select endif call EndSub(subname) end function make_slice
Function : | |
result : | character(len=STRING) |
file : | character(len=*), intent(in) |
proc : | character(len=*), intent(in) |
time : | real, intent(in), optional |
function merge_file_proc_time(file,proc,time) result(result) implicit none character(len=STRING) :: result character(len=*), intent(in) :: file character(len=*), intent(in) :: proc real, intent(in), optional :: time ! integer :: idx character(len=TOKEN) :: ctime character(len=10) :: fmt ! if(.not.present(time)) then ctime = "" else if (aint(time) == time) then fmt = "(I)" write(ctime,fmt=fmt) nint(time) idx = index(ctime, '.') if (idx>0) ctime = ctime(1:idx-1) else write(ctime,*) time endif ctime = '_t'//adjustl(ctime)//'-' endif ! if (proc == "") then result = file else idx = index(file, '.nc', .true.) ! tru -> search the right-most match if (idx == 0) then result = trim(file) // trim(adjustl(proc)) else if (idx /= 1) then result = file(1:idx-1) // trim(adjustl(proc)) // '.nc' else result = trim(adjustl(proc)) // '.nc' endif endif if (ctime == "") then ! do nothing else idx = index(result, '.nc', .true.) !tru-> search the right-most match if (idx == 0) then result = trim(result) // trim(adjustl(ctime)) else if (idx /= 1) then result = result(1:idx-1) // trim(adjustl(ctime)) // '.nc' else result = trim(adjustl(ctime)) // '.nc' endif endif end function merge_file_proc_time
Function : | |
result : | logical |
arg : | character(len=*),intent(in),optional |
function present_and_not_empty(arg) result(result) logical :: result character(len=*),intent(in),optional :: arg if(present(arg)) then if(arg/="") then result=.true. else result=.false. endif else result=.false. endif end function present_and_not_empty