!~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !----------------------------------------------------------------------- ! CVS m_List.F90,v 1.36 2007-11-06 00:03:31 jacob Exp ! CVS MCT_2_8_0 !BOP ------------------------------------------------------------------- ! ! !MODULE: m_List - A List Manager ! ! !DESCRIPTION: A {\em List} is a character buffer comprising ! substrings called {\em items} separated by colons, combined with ! indexing information describing (1) the starting point in the character ! buffer of each substring, and (2) the length of each substring. The ! only constraints on the valid list items are (1) the value of an ! item does not contain the ``\verb":"'' delimitter, and (2) leading ! and trailing blanks are stripped from any character string presented ! to define a list item (although any imbeded blanks are retained). ! ! {\bf Example:} Suppose we wish to define a List containing the ! items {\tt 'latitude'}, {\tt 'longitude'}, and {\tt 'pressure'}. ! The character buffer of the List containing these items will be the ! 27-character string ! \begin{verbatim} ! 'latitude:longitude:pressure' ! \end{verbatim} ! and the indexing information is summarized in the table below. ! !\begin{table}[htbp] !\begin{center} !\begin{tabular}{|c|c|c|} !\hline !{\bf Item} & {\bf Starting Point in Buffer} & {\bf Length} \\ !\hline !{\tt latitude} & 1 & 8 \\ !\hline !{\tt longitude} & 9 & 9 \\ !\hline !{\tt pressure} & 20 & 8\\ !\hline !\end{tabular} !\end{center} !\end{table} ! ! One final note: All operations for the {\tt List} datatype are ! {\bf case sensitive}. ! ! !INTERFACE: module m_List ! !USES: ! ! No other Fortran modules are used. implicit none private ! except ! !PUBLIC TYPES: public :: List ! The class data structure Type List #ifdef SEQUENCE sequence #endif character(len=1),dimension(:),pointer :: bf integer, dimension(:,:),pointer :: lc End Type List ! !PUBLIC MEMBER FUNCTIONS: public :: init public :: clean public :: nullify public :: index public :: get_indices public :: test_indices public :: nitem public :: get public :: identical public :: assignment(=) public :: allocated public :: copy public :: exportToChar public :: exportToString public :: CharBufferSize public :: append public :: concatenate public :: bcast public :: send public :: recv public :: GetSharedListIndices interface init ; module procedure & init_, & initStr_, & initstr1_ end interface interface clean; module procedure clean_; end interface interface nullify; module procedure nullify_; end interface interface index; module procedure & index_, & indexStr_ end interface interface get_indices; module procedure get_indices_; end interface interface test_indices; module procedure test_indices_; end interface interface nitem; module procedure nitem_; end interface interface get ; module procedure & get_, & getall_, & getrange_ end interface interface identical; module procedure identical_; end interface interface assignment(=) module procedure copy_ end interface interface allocated ; module procedure & allocated_ end interface interface copy ; module procedure copy_ ; end interface interface exportToChar ; module procedure & exportToChar_ end interface interface exportToString ; module procedure & exportToString_ end interface interface CharBufferSize ; module procedure & CharBufferSize_ end interface interface append ; module procedure append_ ; end interface interface concatenate ; module procedure concatenate_ ; end interface interface bcast; module procedure bcast_; end interface interface send; module procedure send_; end interface interface recv; module procedure recv_; end interface interface GetSharedListIndices; module procedure & GetSharedListIndices_ end interface ! !REVISION HISTORY: ! 22Apr98 - Jing Guo - initial prototype/prolog/code ! 16May01 - J. Larson - Several changes / fixes: ! public interface for copy_(), corrected version of copy_(), ! corrected version of bcast_(). ! 15Oct01 - J. Larson - Added the LOGICAL ! function identical_(). ! 14Dec01 - J. Larson - Added the LOGICAL ! function allocated_(). ! 13Feb02 - J. Larson - Added the List query ! functions exportToChar() and CharBufferLength(). ! 13Jun02- R.L. Jacob - Move GetSharedListIndices ! from mct to this module. !EOP ___________________________________________________________________ character(len=*),parameter :: myname='MCT(MPEU)::m_List' contains !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: init_ - Initialize a List from a CHARACTER String ! ! !DESCRIPTION: ! ! A list is a string in the form of ``\verb"Larry:Moe:Curly"'', ! or ``\verb"lat:lon:lev"'', combined with substring location and ! length information. Through the initialization call, the ! items delimited by ``\verb":"'' are stored as an array of sub- ! strings of a long string, accessible through an array of substring ! indices. The only constraints now on the valid list entries are, ! (1) the value of an entry does not contain ``\verb":"'', and (2) ! The leading and the trailing blanks are insignificant, although ! any imbeded blanks are. For example, ! ! \begin{verbatim} ! call init_(aList, 'batman :SUPERMAN:Green Lantern: Aquaman') ! \end{verbatim} ! will result in {\tt aList} having four items: 'batman', 'SUPERMAN', ! 'Green Lantern', and 'Aquaman'. That is ! \begin{verbatim} ! aList%bf = 'batman:SUPERMAN:Green Lantern:Aquaman' ! \end{verbatim} ! ! !INTERFACE: subroutine init_(aList,Values) ! !USES: ! use m_die,only : die use m_mall,only : mall_mci,mall_ison implicit none ! !INPUT PARAMETERS: ! character(len=*),intent(in) :: Values ! ":" delimited names ! !OUTPUT PARAMETERS: ! type(List),intent(out) :: aList ! an indexed string values ! !REVISION HISTORY: ! 22Apr98 - Jing Guo - initial prototype/prolog/code !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::init_' character(len=1) :: c integer :: ib,ie,id,lb,le,ni,i,ier ! Pass 1, getting the sizes le=0 ni=0 ib=1 ie=0 id=0 do i=1,len(Values) c=Values(i:i) select case(c) case(' ') if(ib==i) ib=i+1 ! moving ib up, starting from the next case(':') if(ib<=ie) then ni=ni+1 id=1 ! mark a ':' endif ib=i+1 ! moving ib up, starting from the next case default ie=i if(id==1) then ! count an earlier marked ':' id=0 le=le+1 endif le=le+1 end select end do if(ib<=ie) ni=ni+1 ! COMPILER MAY NOT SIGNAL AN ERROR IF ! ALIST HAS ALREADY BEEN INITIALIZED. ! PLEASE CHECK FOR PREVIOUS INITIALIZATION allocate(aList%bf(le),aList%lc(0:1,ni),stat=ier) if(ier /= 0) call die(myname_,'allocate()',ier) if(mall_ison()) then call mall_mci(aList%bf,myname) call mall_mci(aList%lc,myname) endif ! Pass 2, copy the value and assign the pointers lb=1 le=0 ni=0 ib=1 ie=0 id=0 do i=1,len(Values) c=Values(i:i) select case(c) case(' ') if(ib==i) ib=i+1 ! moving ib up, starting from the next case(':') if(ib<=ie) then ni=ni+1 aList%lc(0:1,ni)=(/lb,le/) id=1 ! mark a ':' endif ib=i+1 ! moving ib up, starting from the next lb=le+2 ! skip to the next non-':' and non-',' case default ie=i if(id==1) then ! copy an earlier marked ':' id=0 le=le+1 aList%bf(le)=':' endif le=le+1 aList%bf(le)=c end select end do if(ib<=ie) then ni=ni+1 aList%lc(0:1,ni)=(/lb,le/) endif end subroutine init_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: initStr_ - Initialize a List Using the String Type ! ! !DESCRIPTION: This routine initializes a {\tt List} datatype given ! an input {\tt String} datatype (see {\tt m\_String} for more ! information regarding the {\tt String} type). The contents of the ! input {\tt String} argument {\tt pstr} must adhere to the restrictions ! stated for character input stated in the prologue of the routine ! {\tt init\_()} in this module. ! ! !INTERFACE: subroutine initStr_(aList, pstr) ! !USES: ! use m_String, only : String,toChar implicit none ! !INPUT PARAMETERS: ! type(String),intent(in) :: pstr ! !OUTPUT PARAMETERS: ! type(List),intent(out) :: aList ! an indexed string values ! !REVISION HISTORY: ! 23Apr98 - Jing Guo - initial prototype/prolog/code !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::initStr_' call init_(aList,toChar(pstr)) end subroutine initStr_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: initStr1_ - Initialize a List Using an Array of Strings ! ! !DESCRIPTION: This routine initializes a {\tt List} datatype given ! as input array of {\tt String} datatypes (see {\tt m\_String} for more ! information regarding the {\tt String} type). The contents of each ! {\tt String} element of the input array {\tt strs} must adhere to the ! restrictions stated for character input stated in the prologue of the ! routine {\tt init\_()} in this module. Specifically, no element in ! {\tt strs} may contain the colon \verb':' delimiter, and any ! leading or trailing blanks will be stripped (though embedded blank ! spaces will be retained). For example, consider an invocation of ! {\tt initStr1\_()} where the array {\tt strs(:)} contains four entries: ! {\tt strs(1)='John'}, {\tt strs(2)=' Paul'}, ! {\tt strs(3)='George '}, and {\tt strs(4)=' Ringo'}. The resulting ! {\tt List} output {\tt aList} will have ! \begin{verbatim} ! aList%bf = 'John:Paul:George:Ringo' ! \end{verbatim} ! !INTERFACE: subroutine initStr1_(aList, strs) ! !USES: ! use m_String, only : String,toChar use m_String, only : len use m_String, only : ptr_chars use m_die,only : die implicit none ! !INPUT PARAMETERS: ! type(String),dimension(:),intent(in) :: strs ! !OUTPUT PARAMETERS: ! type(List),intent(out) :: aList ! an indexed string values ! !REVISION HISTORY: ! 23Apr98 - Jing Guo - initial prototype/prolog/code !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::initStr1_' character(len=1),allocatable,dimension(:) :: ch1 integer :: ier integer :: n,i,lc,le n=size(strs) le=0 do i=1,n le=le+len(strs(i)) end do le=le+n-1 ! for n-1 ":"s allocate(ch1(le),stat=ier) if(ier/=0) call die(myname_,'allocate()',ier) le=0 do i=1,n if(i>1) then le=le+1 ch1(le)=':' endif lc=le+1 le=le+len(strs(i)) ch1(lc:le)=ptr_chars(strs(i)) end do call init_(aList,toChar(ch1)) deallocate(ch1,stat=ier) if(ier/=0) call die(myname_,'deallocate()',ier) end subroutine initStr1_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: clean_ - Deallocate Memory Used by a List ! ! !DESCRIPTION: This routine deallocates the allocated memory components ! of the input/output {\tt List} argument {\tt aList}. Specifically, it ! deallocates {\tt aList\%bf} and {\tt aList\%lc}. If the optional ! output {\tt INTEGER} arguemnt {\tt stat} is supplied, no warning will ! be printed if the Fortran intrinsic {\tt deallocate()} returns with an ! error condition. ! ! !INTERFACE: subroutine clean_(aList, stat) ! !USES: ! use m_die, only : warn use m_mall, only : mall_mco,mall_ison implicit none ! !INPUT/OUTPUT PARAMETERS: ! type(List), intent(inout) :: aList ! !OUTPUT PARAMETERS: ! integer, optional, intent(out) :: stat ! !REVISION HISTORY: ! 22Apr98 - Jing Guo - initial prototype/prolog/code ! 1Mar02 - E.T. Ong - added stat argument and ! removed die to prevent crashes. !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::clean_' integer :: ier if(mall_ison()) then if(associated(aList%bf)) call mall_mco(aList%bf,myname_) if(associated(aList%lc)) call mall_mco(aList%lc,myname_) endif if(associated(aList%bf) .and. associated(aList%lc)) then deallocate(aList%bf, aList%lc, stat=ier) if(present(stat)) then stat=ier else if(ier /= 0) call warn(myname_,'deallocate(aList%...)',ier) endif endif end subroutine clean_ !--- ------------------------------------------------------------------- ! Math + Computer Science Division / Argonne National Laboratory ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: nullify_ - Nullify Pointers in a List ! ! !DESCRIPTION: In Fortran 90, pointers may have three states: ! (1) {\tt ASSOCIATED}, that is the pointer is pointing at a target, ! (2) {\tt UNASSOCIATED}, and (3) {\tt UNINITIALIZED}. On some ! platforms, the Fortran intrinsic function {\tt associated()} ! will view uninitialized pointers as {\tt UNASSOCIATED} by default. ! This is not always the case. It is good programming practice to ! nullify pointers if they are not to be used. This routine nullifies ! the pointers present in the {\tt List} datatype. ! ! !INTERFACE: subroutine nullify_(aList) ! !USES: ! use m_die,only : die implicit none ! !INPUT/OUTPUT PARAMETERS: ! type(List),intent(inout) :: aList ! !REVISION HISTORY: ! 18Jun01 - J.W. Larson - - initial version !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::nullify_' nullify(aList%bf) nullify(aList%lc) end subroutine nullify_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: nitem_ - Return the Number of Items in a List ! ! !DESCRIPTION: ! This function enumerates the number of items in the input {\tt List} ! argument {\tt aList}. For example, suppose ! \begin{verbatim} ! aList%bf = 'John:Paul:George:Ringo' ! \end{verbatim} ! Then, ! $${\tt nitem\_(aList)} = 4 .$$ ! ! !INTERFACE: integer function nitem_(aList) ! !USES: ! implicit none ! !INPUT PARAMETERS: ! type(List),intent(in) :: aList ! !REVISION HISTORY: ! 22Apr98 - Jing Guo - initial prototype/prolog/code ! 10Oct01 - J.W. Larson - modified routine to ! check pointers aList%bf and aList%lc using the f90 ! intrinsic ASSOCIATED before proceeding with the item ! count. If these pointers are UNASSOCIATED, an item ! count of zero is returned. !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::nitem_' integer :: NumItems ! Initialize item count to zero NumItems = 0 ! If the List pointers are ASSOCIATED, perform item count: if(ASSOCIATED(aList%bf) .and. ASSOCIATED(aList%lc)) then NumItems = size(aList%lc,2) endif nitem_ = NumItems end function nitem_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: index_ - Return Rank in a List of a Given Item (CHARACTER) ! ! !DESCRIPTION: ! This function returns the rank of an item (defined by the ! {\tt CHARACTER} argument {\tt item}) in the input {\tt List} argument ! {\tt aList}. If {\tt item} is not present in {\tt aList}, then zero ! is returned. For example, suppose ! \begin{verbatim} ! aList%bf = 'Bob:Carol:Ted:Alice' ! \end{verbatim} ! Then, ${\tt index\_(aList, 'Ted')}=3$, ${\tt index\_(aList, 'Carol')}=2$, ! and ${\tt index\_(aList, 'The Dude')}=0.$ ! ! !INTERFACE: integer function index_(aList, item) ! !USES: ! use m_String, only : toChar implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: aList ! a List of names character(len=*),intent(in) :: item ! a given item name ! !REVISION HISTORY: ! 22Apr98 - Jing Guo - initial prototype/prolog/code !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::index_' integer :: i,lb,le integer :: itemLength, length, nMatch, j ! How long is the input item name? itemLength = len(item) ! Set output to zero (no item match) value: index_=0 ! Now, go through the aList one item at a time ITEM_COMPARE: do i=1,size(aList%lc,2) ! == nitem_(aList) ! Compute some stats for the current item in aList: lb=aList%lc(0,i) ! starting index of item in aList%bf le=aList%lc(1,i) ! ending index item in aList%bf length = le -lb + 1 ! length of the current item if(length /= itemLength) then ! this list item can't match input item CYCLE ! that is, jump to the next item in aList... else ! compare one character at a time... ! Initialize number of matching characters in the two strings nMatch = 0 ! Now, compare item to the current item in aList one character ! at a time: CHAR_COMPARE: do j=1,length if(aList%bf(lb+j-1) == item(j:j)) then ! a match for this character nMatch = nMatch + 1 else EXIT endif end do CHAR_COMPARE ! Check the number of leading characters in the current item in aList ! that match the input item. If it is equal to the item length, then ! we have found a match and are finished. Otherwise, we cycle on to ! the next item in aList. if(nMatch == itemLength) then index_ = i EXIT endif ! Old code that does not work with V. of the IBM ! if(item==toChar(aList%bf(lb:le))) then ! index_=i ! exit endif end do ITEM_COMPARE end function index_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: indexStr_ - Return Rank in a List of a Given Item (String) ! ! !DESCRIPTION: ! This function performs the same operation as the function ! {\tt index\_()}, but the item to be indexed is instead presented in ! the form of a {\tt String} datatype (see the module {\tt m\_String} ! for more information about the {\tt String} type). This routine ! searches through the input {\tt List} argument {\tt aList} for an ! item that matches the item defined by {\tt itemStr}, and if a match ! is found, the rank of the item in the list is returned (see also the ! prologue for the routine {\tt index\_()} in this module). If no match ! is found, a value of zero is returned. ! ! !INTERFACE: integer function indexStr_(aList, itemStr) ! !USES: ! use m_String,only : String,toChar implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: aList ! a List of names type(String), intent(in) :: itemStr ! !REVISION HISTORY: ! 22Apr98 - Jing Guo - initial prototype/prolog/code ! 25Oct02 - R. Jacob - just call index_ above !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::indexStr_' indexStr_=0 indexStr_=index_(aList,toChar(itemStr)) end function indexStr_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: allocated_ - Check Pointers in a List for Association Status ! ! !DESCRIPTION: ! This function checks the input {\tt List} argument {\tt inList} to ! determine whether or not it has been allocated. It does this by ! invoking the Fortran90 intrinsic function {\tt associated()} on the ! pointers {\tt inList\%bf} and {\tt inList\%lc}. If both of these ! pointers are associated, the return value is {\tt .TRUE.}. ! ! {\bf N.B.:} In Fortran90, pointers have three different states: ! {\tt ASSOCIATED}, {\tt UNASSOCIATED}, and {\tt UNDEFINED}. ! If a pointer is {\tt UNDEFINED}, this function may return either ! {\tt .TRUE.} or {\tt .FALSE.} values, depending on the Fortran90 ! compiler. To avoid such problems, we advise that users invoke the ! {\tt List} method {\tt nullify()} to nullify any {\tt List} pointers ! for {\tt List} variables that are not initialized. ! ! !INTERFACE: logical function allocated_(inList) ! !USES: use m_die,only : die implicit none ! !INPUT PARAMETERS: type(List), intent(in) :: inList ! !REVISION HISTORY: ! 14Dec01 - J. Larson - inital version !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::allocated_' allocated_ = associated(inList%bf) .and. associated(inList%lc) end function allocated_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: copy_ - Copy a List ! ! !DESCRIPTION: ! This routine copies the contents of the input {\tt List} argument ! {\tt xL} into the output {\tt List} argument {\tt yL}. ! ! !INTERFACE: subroutine copy_(yL,xL) ! yL=xL ! !USES: ! use m_die,only : die use m_stdio use m_String ,only : String use m_String ,only : String_clean use m_mall,only : mall_mci,mall_ison implicit none ! !INPUT PARAMETERS: ! type(List),intent(in) :: xL ! !OUTPUT PARAMETERS: ! type(List),intent(out) :: yL ! !REVISION HISTORY: ! 22Apr98 - Jing Guo - initial prototype/prolog/code ! 16May01 - J. Larson - simpler, working ! version that exploits the String datatype (see m_String) ! 1Aug02 - Larson/Ong - Added logic for correct copying of blank ! Lists. !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::copy_' type(String) DummStr if(size(xL%lc,2) > 0) then ! Download input List info from xL to String DummStr call getall_(DummStr,xL) ! Initialize yL from DummStr call initStr_(yL,DummStr) call String_clean(DummStr) else if(size(xL%lc,2) < 0) then ! serious error... write(stderr,'(2a,i8)') myname_, & ':: FATAL size(xL%lc,2) = ',size(xL%lc,2) endif ! Initialize yL as a blank list call init_(yL, ' ') endif end subroutine copy_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: exportToChar_ - Export List to a CHARACTER ! ! !DESCRIPTION: This function returns the character buffer portion of ! the input {\tt List} argument {\tt inList}---that is, the contents of ! {\tt inList\%bf}---as a {\tt CHARACTER} (suitable for printing). An ! example of the use of this function is: ! \begin{verbatim} ! write(stdout,'(1a)') exportToChar(inList) ! \end{verbatim} ! which writes the contents of {\tt inList\%bf} to the Fortran device ! {\tt stdout}. ! ! !INTERFACE: function exportToChar_(inList) ! !USES: ! use m_die, only : die use m_stdio, only : stderr use m_String, only : String use m_String, only : String_ToChar => toChar use m_String, only : String_clean implicit none ! ! INPUT PARAMETERS: type(List), intent(in) :: inList ! ! OUTPUT PARAMETERS: character(len=size(inList%bf,1)) :: exportToChar_ ! !REVISION HISTORY: ! 13Feb02 - J. Larson - initial version. ! 06Jun03 - R. Jacob - return blank if List is not allocated !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::exportToChar_' type(String) DummStr ! Download input List info from inList to String DummStr if(allocated_(inList)) then call getall_(DummStr,inList) exportToChar_ = String_ToChar(DummStr) call String_clean(DummStr) else exportToChar_ = '' endif end function exportToChar_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: exportToString_ - Export List to a String ! ! !DESCRIPTION: This function returns the character buffer portion of ! the input {\tt List} argument {\tt inList}---that is, the contents of ! {\tt inList\%bf}---as a {\tt String} (see the mpeu module m\_String ! for more information regarding the {\tt String} type). This function ! was created to circumvent problems with implementing inheritance of ! the function {\tt exportToChar\_()} to other datatypes build on top ! of the {\tt List} type. ! ! !INTERFACE: function exportToString_(inList) ! !USES: ! use m_die, only : die use m_stdio, only : stderr use m_String, only : String use m_String, only : String_init => init implicit none ! ! INPUT PARAMETERS: type(List), intent(in) :: inList ! ! OUTPUT PARAMETERS: type(String) :: exportToString_ ! !REVISION HISTORY: ! 14Aug02 - J. Larson - initial version. !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::exportToString_' if(allocated_(inList)) then call getall_(exportToString_, inList) else call String_init(exportToString_, 'NOTHING') endif end function exportToString_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: CharBufferSize_ - Return size of a List's Character Buffer ! ! !DESCRIPTION: This function returns the length of the character ! buffer portion of the input {\tt List} argument {\tt inList} (that ! is, the number of characters stored in {\tt inList\%bf}) as an ! {\tt INTEGER}. Suppose for the sake of argument that {\tt inList} ! was created using the following call to {\tt init\_()}: ! \begin{verbatim} ! call init_(inList, 'Groucho:Harpo:Chico:Zeppo') ! \end{verbatim} ! Then, using the above example value of {\tt inList}, we can use ! {\tt CharBufferSize\_()} as follows: ! \begin{verbatim} ! integer :: BufferLength ! BufferLength = CharBufferSize(inList) ! \end{verbatim} ! and the resulting value of {\tt BufferLength} will be 25. ! ! !INTERFACE: integer function CharBufferSize_(inList) ! !USES: ! use m_die, only : die use m_stdio, only : stderr implicit none ! ! INPUT PARAMETERS: type(List), intent(in) :: inList ! !REVISION HISTORY: ! 13Feb02 - J. Larson - initial version. !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::CharBufferSize_' if(allocated_(inList)) then CharBufferSize_ = size(inList%bf) else write(stderr,'(2a)') myname_,":: Argument inList not allocated." call die(myname_) endif end function CharBufferSize_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: get_ - Retrieve a Numbered Item from a List as a String ! ! !DESCRIPTION: ! This routine retrieves a numbered item (defined by the input ! {\tt INTEGER} argument {\tt ith}) from the input {\tt List} argument ! {\tt aList}, and returns it in the output {\tt String} argument ! {\tt itemStr} (see the module {\tt m\_String} for more information ! about the {\tt String} type). If the argument {\tt ith} is nonpositive, ! or greater than the number of items in {\tt aList}, a String containing ! one blank space is returned. ! ! !INTERFACE: subroutine get_(itemStr, ith, aList) ! !USES: ! use m_String, only : String, init, toChar implicit none ! !INPUT PARAMETERS: ! integer, intent(in) :: ith type(List), intent(in) :: aList ! !OUTPUT PARAMETERS: ! type(String),intent(out) :: itemStr ! !REVISION HISTORY: ! 23Apr98 - Jing Guo - initial prototype/prolog/code ! 14May07 - Larson, Jacob - add space to else case string so function ! matches documentation. !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::get_' integer :: lb,le if(ith>0 .and. ith <= size(aList%lc,2)) then lb=aList%lc(0,ith) le=aList%lc(1,ith) call init(itemStr,toChar(aList%bf(lb:le))) else call init(itemStr,' ') endif end subroutine get_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: getall_ - Return all Items from a List as one String ! ! !DESCRIPTION: ! This routine returns all the items from the input {\tt List} argument ! {\tt aList} in the output {\tt String} argument {\tt itemStr} (see ! the module {\tt m\_String} for more information about the {\tt String} ! type). The contents of the character buffer in {\tt itemStr} will ! be the all of the items in {\tt aList}, separated by the colon delimiter. ! ! !INTERFACE: subroutine getall_(itemStr, aList) ! !USES: ! use m_String, only : String, init, toChar implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: aList ! !OUTPUT PARAMETERS: ! type(String), intent(out) :: itemStr ! !REVISION HISTORY: ! 23Apr98 - Jing Guo - initial prototype/prolog/code !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::getall_' integer :: lb,le,ni ni=size(aList%lc,2) lb=aList%lc(0,1) le=aList%lc(1,ni) call init(itemStr,toChar(aList%bf(lb:le))) end subroutine getall_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: getrange_ - Return a Range of Items from a List as one String ! ! !DESCRIPTION: ! This routine returns all the items ranked {\tt i1} through {\tt i2} ! from the input {\tt List} argument {\tt aList} in the output ! {\tt String} argument {\tt itemStr} (see the module {\tt m\_String} ! for more information about the {\tt String} type). The contents of ! the character buffer in {\tt itemStr} will be items in {\tt i1} through ! {\tt i2} {\tt aList}, separated by the colon delimiter. ! ! !INTERFACE: subroutine getrange_(itemStr, i1, i2, aList) ! !USES: ! use m_die, only : die use m_stdio, only : stderr use m_String, only : String,init,toChar implicit none ! !INPUT PARAMETERS: ! integer, intent(in) :: i1 integer, intent(in) :: i2 type(List), intent(in) :: aList ! !OUTPUT PARAMETERS: ! type(String),intent(out) :: itemStr ! !REVISION HISTORY: ! 23Apr98 - Jing Guo - initial prototype/prolog/code ! 26Jul02 - J. Larson - Added argument checks. !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::getrange_' integer :: lb,le,ni ! Argument Sanity Checks: if(.not. allocated_(aList)) then write(stderr,'(2a)') myname_, & ':: FATAL--List argument aList is not initialized.' call die(myname_) endif ! is i2 >= i1 as we assume? if(i1 > i2) then write(stderr,'(2a,2(a,i8))') myname_, & ':: FATAL. Starting/Ending item ranks are out of order; ', & 'i2 must be greater or equal to i1. i1 =',i1,' i2 = ',i2 call die(myname_) endif ni=size(aList%lc,2) ! the number of items in aList... ! is i1 or i2 too big? if(i1 > ni) then write(stderr,'(2a,2(a,i8))') myname_, & ':: FATAL--i1 is greater than the number of items in ', & 'The List argument aList: i1 =',i1,' ni = ',ni call die(myname_) endif if(i2 > ni) then write(stderr,'(2a,2(a,i8))') myname_, & ':: FATAL--i2 is greater than the number of items in ', & 'The List argument aList: i2 =',i2,' ni = ',ni call die(myname_) endif ! End of Argument Sanity Checks. lb=aList%lc(0,max(1,i1)) le=aList%lc(1,min(ni,i2)) call init(itemStr,toChar(aList%bf(lb:le))) end subroutine getrange_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: identical_ - Compare Two Lists for Equality ! ! !DESCRIPTION: ! This function compares the string buffer and indexing information in ! the two input {\tt List} arguments {\tt yL} and {\tt xL}. If the ! string buffers and index buffers of {\tt yL} and {\tt xL} match, this ! function returns a value of {\tt .TRUE.} Otherwise, it returns a ! value of {\tt .FALSE.} ! ! !INTERFACE: logical function identical_(yL, xL) ! !USES: ! use m_die,only : die use m_String ,only : String use m_String ,only : String_clean implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: yL type(List), intent(in) :: xL ! !REVISION HISTORY: ! 14Oct01 - J. Larson - original version !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::identical_' logical :: myIdentical type(String) :: DummStr integer :: n, NumItems ! Compare the number of the items in the Lists xL and yL. ! If they differ, myIdentical is set to .FALSE. and we are ! finished. If both Lists sport the same number of items, ! we must compare them one-by-one... myIdentical = .FALSE. if(nitem_(yL) == nitem_(xL)) then NumItems = nitem_(yL) COMPARE_LOOP: do n=1,NumItems call get_(DummStr, n, yL) ! retrieve nth tag as a String if( indexStr_(xL, Dummstr) /= n ) then ! a discrepency spotted. call String_clean(Dummstr) myIdentical = .FALSE. EXIT else call String_clean(Dummstr) endif myIdentical = .TRUE. ! we survived the whole test process. end do COMPARE_LOOP endif identical_ = myIdentical end function identical_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: get_indices_ - Index Multiple Items in a List ! ! !DESCRIPTION: This routine takes as input a {\tt List} argument ! {\tt aList}, and a {\tt CHARACTER} string {Values}, which is a colon- ! delimited string of items, and returns an {\tt INTEGER} array ! {\tt indices(:)}, which contain the rank of each item in {\tt aList}. ! For example, suppose {\tt aList} was created from the character string ! \begin{verbatim} ! 'happy:sleepy:sneezey:grumpy:dopey::bashful:doc' ! \end{verbatim} ! and get\_indices\_() is invoked as follows: ! \begin{verbatim} ! call get_indices_(indices, aList, 'sleepy:grumpy:bashful:doc') ! \end{verbatim} ! The array {\tt indices(:)} will be returned with 4 entries: ! ${\tt indices(1)}=2$, ${\tt indices(2)}=4$, ${\tt indices(3)}=6$, and ! ${\tt indices(4)}=7$. ! ! {\bf N.B.}: This routine operates on the assumption that each of the ! substrings in the colon-delimited string {\tt Values} is an item in ! {\tt aList}. If this assumption is invalid, this routine terminates ! execution with an error message. ! ! {\bf N.B.}: The pointer {\tt indices} must be {\tt UNASSOCIATED} on entry ! to this routine, and will be {\tt ASSOCIATED} upon return. After this pointer ! is no longer needed, it should be deallocated. Failure to do so will result ! in a memory leak. ! ! !INTERFACE: subroutine get_indices_(indices, aList, Values) ! !USES: ! use m_stdio use m_die use m_String, only : String use m_String, only : String_clean => clean use m_String, only : String_toChar => toChar implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: aList ! an indexed string values character(len=*), intent(in) :: Values ! ":" delimited names ! !OUTPUT PARAMETERS: ! integer, dimension(:), pointer :: indices ! !REVISION HISTORY: ! 31May98 - Jing Guo - initial prototype/prolog/code ! 12Feb03 - J. Larson Working refactored version !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::get_indices_' type(List) :: tList type(String) :: tStr integer :: i, ierr, n ! Create working list based on input colon-delimited string call init_(tList, values) ! Count items in tList and allocate indices(:) accordingly n = nitem_(tList) if(n > nitem_(aList)) then write(stderr,'(5a,2(i8,a))') myname_, & ':: FATAL--more items in argument Values than aList! Input string', & 'Values = "',Values,'" has ',n,' items. aList has ',nitem_(aList), & ' items.' call die(myname_) endif allocate(indices(n), stat=ierr) if(ierr /= 0) then write(stderr,'(2a,i8,a)') myname_, & ':: FATAL--allocate(indices(...) failed with stat=',ierr,& '. On entry to this routine, this pointer must be NULL.' call die(myname_) endif ! Retrieve each item from tList as a String and index it do i=1,n call get_(tStr,i,tList) indices(i) = indexStr_(aList,tStr) if(indices(i) == 0) then ! ith item not present in aList! write(stderr,'(4a)') myname_, & ':: FATAL--item "',String_toChar(tStr),'" not found.' call die(myname_) endif call String_clean(tStr) end do ! Clean up temporary List tList call clean_(tList) end subroutine get_indices_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! NASA/GSFC, Data Assimilation Office, Code 910.3, GEOS/DAS ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: test_indices_ - Test/Index Multiple Items in a List ! ! !DESCRIPTION: This routine takes as input a {\tt List} argument ! {\tt aList}, and a {\tt CHARACTER} string {Values}, which is a colon- ! delimited string of items, and returns an {\tt INTEGER} array ! {\tt indices(:)}, which contain the rank of each item in {\tt aList}. ! For example, suppose {\tt aList} was created from the character string ! \begin{verbatim} ! 'happy:sleepy:sneezey:grumpy:dopey::bashful:doc' ! \end{verbatim} ! and {\tt test\_indices\_()} is invoked as follows: ! \begin{verbatim} ! call test_indices_(indices, aList, 'sleepy:grumpy:bashful:doc') ! \end{verbatim} ! The array {\tt indices(:)} will be returned with 4 entries: ! ${\tt indices(1)}=2$, ${\tt indices(2)}=4$, ${\tt indices(3)}=6$, and ! ${\tt indices(4)}=7$. ! ! Now suppose {\tt test\_indices\_()} is invoked as follows: ! \begin{verbatim} ! call test_indices_(indices, aList, 'sleepy:grumpy:bashful:Snow White') ! \end{verbatim} ! The array {\tt indices(:)} will be returned with 4 entries: ! ${\tt indices(1)}=2$, ${\tt indices(2)}=4$, ${\tt indices(3)}=6$, and ! ${\tt indices(4)}=0$. ! ! {\bf N.B.}: This routine operates on the assumption that one or more ! of the substrings in the colon-delimited string {\tt Values} is may not ! be an item in {\tt aList}. If an item in {\tt Values} is {\em not} in ! {\tt aList}, its corresponding entry in {\tt indices(:)} is set to zero. ! ! {\bf N.B.}: The pointer {\tt indices} must be {\tt UNASSOCIATED} on entry ! to this routine, and will be {\tt ASSOCIATED} upon return. After this pointer ! is no longer needed, it should be deallocated. Failure to do so will result ! in a memory leak. ! ! !INTERFACE: subroutine test_indices_(indices, aList, Values) ! !USES: ! use m_stdio use m_die use m_String, only : String use m_String, only : String_clean => clean use m_String, only : String_toChar => toChar implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: aList ! an indexed string values character(len=*), intent(in) :: Values ! ":" delimited names ! !OUTPUT PARAMETERS: ! integer, dimension(:), pointer :: indices ! !REVISION HISTORY: ! 12Feb03 - J. Larson Working refactored version !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::test_indices_' type(List) :: tList type(String) :: tStr integer :: i, ierr, n ! Create working list based on input colon-delimited string call init_(tList, values) ! Count items in tList and allocate indices(:) accordingly n = nitem_(tList) allocate(indices(n), stat=ierr) if(ierr /= 0) then write(stderr,'(2a,i8,a)') myname_, & ':: FATAL--allocate(indices(...) failed with stat=',ierr,& '. On entry to this routine, this pointer must be NULL.' call die(myname_) endif ! Retrieve each item from tList as a String and index it do i=1,n call get_(tStr,i,tList) indices(i) = indexStr_(aList,tStr) call String_clean(tStr) end do ! Clean up temporary List tList call clean_(tList) end subroutine test_indices_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! Math and Computer Science Division, Argonne National Laboratory ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: append_ - Append One List Onto the End of Another ! ! !DESCRIPTION: This routine takes two {\tt List} arguments ! {\tt iList1} and {\tt iList2}, and appends {\tt List2} onto ! the end of {\tt List1}. ! ! {\bf N.B.}: There is no check for shared items in the arguments ! {\tt List1} and {\tt List2}. It is the user's responsibility to ! ensure {\tt List1} and {\tt List2} share no items. If this routine ! is invoked in such a manner that {\tt List1} and {\tt List2} share ! common items, the resultant value of {\tt List1} will produce ! ambiguous results for some of the {\tt List} query functions. ! ! {\bf N.B.}: The outcome of this routine is order dependent. That is, ! the entries of {\tt iList2} will follow the {\em input} entries in ! {\tt iList1}. ! ! !INTERFACE: subroutine append_(iList1, iList2) ! ! !USES: ! use m_stdio use m_die, only : die use m_mpif90 use m_String, only: String use m_String, only: String_toChar => toChar use m_String, only: String_len use m_String, only: String_clean => clean implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: iList2 ! !INPUT/OUTPUT PARAMETERS: ! type(List), intent(inout) :: iList1 ! !REVISION HISTORY: ! 6Aug02 - J. Larson - Initial version !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::append_' type(List) :: DummyList call copy_(DummyList, iList1) call clean_(iList1) call concatenate(DummyList, iList2, iList1) call clean_(DummyList) end subroutine append_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! Math and Computer Science Division, Argonne National Laboratory ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: concatenate_ - Concatenates two Lists to form a Third List. ! ! !DESCRIPTION: This routine takes two input {\tt List} arguments ! {\tt iList1} and {\tt iList2}, and concatenates them, producing an ! output {\tt List} argument {\tt oList}. ! ! {\bf N.B.}: The nature of this routine is such that one must ! {\bf never} supply as the actual value of {\tt oList} the same ! value supplied for either {\tt iList1} or {\tt iList2}. ! ! {\bf N.B.}: The outcome of this routine is order dependent. That is, ! the entries of {\tt iList2} will follow {\tt iList1}. ! ! !INTERFACE: subroutine concatenate_(iList1, iList2, oList) ! ! !USES: ! use m_stdio use m_die, only : die use m_mpif90 use m_String, only: String use m_String, only: String_init => init use m_String, only: String_clean => clean implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: iList1 type(List), intent(in) :: iList2 ! !OUTPUT PARAMETERS: ! type(List), intent(out) :: oList ! !BUGS: For now, the List concatenate algorithm relies on fixed-length ! CHARACTER variables as intermediate storage. The lengths of these ! scratch variables is hard-wired to 10000, which should be large enough ! for most applications. This undesirable feature should be corrected ! ASAP. ! ! !REVISION HISTORY: ! 8May01 - J.W. Larson - initial version. ! 17May01 - J.W. Larson - Re-worked and tested successfully. ! 17Jul02 - E. Ong - fixed the bug mentioned above !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::concatenate_' character, dimension(:), allocatable :: CatBuff integer :: CatBuffLength, i, ierr, Length1, Length2 type(String) :: CatString ! First, handle the case of either iList1 and/or iList2 being ! null if((nitem_(iList1) == 0) .or. (nitem_(iList2) == 0)) then if((nitem_(iList1) == 0) .and. (nitem_(iList2) == 0)) then call init_(oList,'') else if((nitem_(iList1) == 0) .and. (nitem_(iList2) > 0)) then call copy_(oList, iList2) endif if((nitem_(iList1) > 0) .and. (nitem_(iList2) == 0)) then call copy_(oList,iList1) endif endif else ! both lists are non-null ! Step one: Get lengths of character buffers of iList1 and iList2: Length1 = CharBufferSize_(iList1) Length2 = CharBufferSize_(iList2) ! Step two: create CatBuff(:) as workspace CatBuffLength = Length1 + Length2 + 1 allocate(CatBuff(CatBuffLength), stat=ierr) if(ierr /= 0) then write(stderr,'(2a,i8)') myname_, & ':: FATAL--allocate(CatBuff(...) failed. ierr=',ierr call die(myname_) endif ! Step three: concatenate CHARACTERs with the colon separator ! into CatBuff(:) do i=1,Length1 CatBuff(i) = iList1%bf(i) end do CatBuff(Length1 + 1) = ':' do i=1,Length2 CatBuff(Length1 + 1 + i) = iList2%bf(i) end do ! Step four: initialize a String CatString: call String_init(CatString, CatBuff) ! Step five: initialize oList: call initStr_(oList, CatString) ! The concatenation is complete. Now, clean up call String_clean(CatString) deallocate(CatBuff,stat=ierr) if(ierr /= 0) then write(stderr,'(2a,i8)') myname_, & ':: FATAL--deallocate(CatBuff) failed. ierr=',ierr call die(myname_) endif endif end subroutine concatenate_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! Math and Computer Science Division, Argonne National Laboratory ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: bcast_ - MPI Broadcast for the List Type ! ! !DESCRIPTION: This routine takes an input {\tt List} argument ! {\tt iList} (on input, valid on the root only), and broadcasts it. ! ! {\bf N.B.}: The outcome of this routine, {\tt ioList} on non-root ! processes, represents allocated memory. When this {\tt List} is ! no longer needed, it must be deallocated by invoking the routine ! {\tt List\_clean()}. Failure to do so will cause a memory leak. ! ! !INTERFACE: subroutine bcast_(ioList, root, comm, status) ! ! !USES: ! use m_stdio, only : stderr use m_die, only : MP_perr_die, die use m_String, only: String use m_String, only: String_bcast => bcast use m_String, only: String_clean => clean use m_mpif90 implicit none ! !INPUT PARAMETERS: ! integer, intent(in) :: root integer, intent(in) :: comm ! !INPUT/OUTPUT PARAMETERS: ! type(List), intent(inout) :: ioList ! !OUTPUT PARAMETERS: ! integer, optional, intent(out) :: status ! !REVISION HISTORY: ! 7May01 - J.W. Larson - initial version. ! 14May01 - R.L. Jacob - fix error checking ! 16May01 - J.W. Larson - new, simpler String-based algorigthm ! (see m_String for details), which works properly on ! the SGI platform. ! 13Jun01 - J.W. Larson - Initialize status ! (if present). !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::bcast_' integer :: myID, ierr type(String) :: DummStr ! Initialize status (if present) if(present(status)) status = 0 ! Which process am I? call MPI_COMM_RANK(comm, myID, ierr) if(ierr /= 0) then if(present(status)) then status = ierr write(stderr,'(2a,i4)') myname_,":: MPI_COMM_RANK(), ierr=",ierr return else call MP_perr_die(myname_,"MPI_COMM_RANK()",ierr) endif endif ! on the root, convert ioList into the String variable DummStr if(myID == root) then if(CharBufferSize_(ioList) <= 0) then call die(myname_, 'Attempting to broadcast an empty list!',& CharBufferSize_(ioList)) endif call getall_(DummStr, ioList) endif ! Broadcast DummStr call String_bcast(DummStr, root, comm, ierr) if(ierr /= 0) then if(present(status)) then status = ierr write(stderr,'(2a,i4)') myname_,":: call String_bcast(), ierr=",ierr return else call MP_perr_die(myname_,"String_bcast() failed, stat=",ierr) endif endif ! Initialize ioList off the root using DummStr if(myID /= root) then call initStr_(ioList, DummStr) endif ! And now, the List broadcast is complete. call String_clean(DummStr) end subroutine bcast_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! Math and Computer Science Division, Argonne National Laboratory ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: send_ - MPI Point-to-Point Send for the List Type ! ! !DESCRIPTION: This routine takes an input {\tt List} argument ! {\tt inList} and sends it to processor {\tt dest} on the communicator ! associated with the fortran 90 {\tt INTEGER} handle {\tt comm}. The ! message is tagged by the input {\tt INTEGER} argument {\tt TagBase}. ! The success (failure) of this operation is reported in the zero ! (nonzero) optional output argument {\tt status}. ! ! {\bf N.B.}: One must avoid assigning elsewhere the MPI tag values ! {\tt TagBase} and {\tt TagBase+1}. This is because {\tt send\_()} ! performs the send of the {\tt List} as a pair of operations. The ! first send is the number of characters in {\tt inList\%bf}, and is ! given MPI tag value {\tt TagBase}. The second send is the ! {\tt CHARACTER} data present in {\tt inList\%bf}, and is given MPI ! tag value {\tt TagBase+1}. ! ! !INTERFACE: subroutine send_(inList, dest, TagBase, comm, status) ! ! !USES: ! use m_stdio use m_die, only : MP_perr_die use m_mpif90 use m_String, only: String use m_String, only: String_toChar => toChar use m_String, only: String_len use m_String, only: String_clean => clean implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: inList integer, intent(in) :: dest integer, intent(in) :: TagBase integer, intent(in) :: comm ! !OUTPUT PARAMETERS: ! integer, optional, intent(out) :: status ! !REVISION HISTORY: ! 6Jun01 - J.W. Larson - initial version. ! 13Jun01 - J.W. Larson - Initialize status ! (if present). !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::send_' type(String) :: DummStr integer :: ierr, length ! Set status flag to zero (success) if present: if(present(status)) status = 0 ! Step 1. Extract CHARACTER buffer from inList and store it ! in String variable DummStr, determine its length. call getall_(DummStr, inList) length = String_len(DummStr) ! Step 2. Send Length of String DummStr to process dest. call MPI_SEND(length, 1, MP_type(length), dest, TagBase, comm, ierr) if(ierr /= 0) then if(present(status)) then write(stderr,'(2a,i8)') myname_, & ':: MPI_SEND(length...) failed. ierror=', ierr status = ierr return else call MP_perr_die(myname_,':: MPI_SEND(length...) failed',ierr) endif endif ! Step 3. Send CHARACTER portion of String DummStr ! to process dest. call MPI_SEND(DummStr%c(1), length, MP_CHARACTER, dest, TagBase+1, & comm, ierr) if(ierr /= 0) then if(present(status)) then write(stderr,'(2a,i8)') myname_, & ':: MPI_SEND(DummStr%c...) failed. ierror=', ierr status = ierr return else call MP_perr_die(myname_,':: MPI_SEND(DummStr%c...) failed',ierr) endif endif end subroutine send_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! Math and Computer Science Division, Argonne National Laboratory ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: recv_ - MPI Point-to-Point Receive for the List Type ! ! !DESCRIPTION: This routine receives the output {\tt List} argument ! {\tt outList} from processor {\tt source} on the communicator associated ! with the fortran 90 {\tt INTEGER} handle {\tt comm}. The message is ! tagged by the input {\tt INTEGER} argument {\tt TagBase}. The success ! (failure) of this operation is reported in the zero (nonzero) optional ! output argument {\tt status}. ! ! {\bf N.B.}: One must avoid assigning elsewhere the MPI tag values ! {\tt TagBase} and {\tt TagBase+1}. This is because {\tt recv\_()} ! performs the receive of the {\tt List} as a pair of operations. The ! first receive is the number of characters in {\tt outList\%bf}, and ! is given MPI tag value {\tt TagBase}. The second receive is the ! {\tt CHARACTER} data present in {\tt outList\%bf}, and is given MPI ! tag value {\tt TagBase+1}. ! ! !INTERFACE: subroutine recv_(outList, source, TagBase, comm, status) ! ! !USES: ! use m_stdio, only : stderr use m_die, only : MP_perr_die use m_mpif90 use m_String, only : String implicit none ! !INPUT PARAMETERS: ! integer, intent(in) :: source integer, intent(in) :: TagBase integer, intent(in) :: comm ! !OUTPUT PARAMETERS: ! type(List), intent(out) :: outList integer, optional, intent(out) :: status ! !REVISION HISTORY: ! 6Jun01 - J.W. Larson - initial version. ! 11Jun01 - R. Jacob - small bug fix; status in MPI_RECV ! 13Jun01 - J.W. Larson - Initialize status ! (if present). !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::recv_' integer :: ierr, length integer :: MPstatus(MP_STATUS_SIZE) type(String) :: DummStr ! Initialize status to zero (success), if present. if(present(status)) status = 0 ! Step 1. Receive Length of String DummStr from process source. call MPI_RECV(length, 1, MP_type(length), source, TagBase, comm, & MPstatus, ierr) if(ierr /= 0) then if(present(status)) then write(stderr,'(2a,i8)') myname_, & ':: MPI_RECV(length...) failed. ierror=', ierr status = ierr return else call MP_perr_die(myname_,':: MPI_RECV(length...) failed',ierr) endif endif allocate(DummStr%c(length), stat=ierr) ! Step 2. Send CHARACTER portion of String DummStr ! to process dest. call MPI_RECV(DummStr%c(1), length, MP_CHARACTER, source, TagBase+1, & comm, MPstatus, ierr) if(ierr /= 0) then if(present(status)) then write(stderr,'(2a,i8)') myname_, & ':: MPI_RECV(DummStr%c...) failed. ierror=', ierr status = ierr return else call MP_perr_die(myname_,':: MPI_RECV(DummStr%c...) failed',ierr) endif endif ! Step 3. Initialize outList. call initStr_(outList, DummStr) end subroutine recv_ !~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ! Math and Computer Science Division, Argonne National Laboratory ! !BOP ------------------------------------------------------------------- ! ! !IROUTINE: GetSharedListIndices_ - Index Shared Items for Two Lists ! ! !DESCRIPTION: {\tt GetSharedListIndices\_()} compares two user- ! supplied {\tt List} arguments {\tt List1} and {\tt Lis2} to determine: ! the number of shared items {\tt NumShared}, and arrays of the locations ! {\tt Indices1} and {\tt Indices2} in {\tt List1} and {\tt List2}, ! respectively. ! ! {\bf N.B.:} This routine returns two allocated arrays: {\tt Indices1(:)} ! and {\tt Indices2(:)}. Both of these arrays must be deallocated once they ! are no longer needed. Failure to do this will create a memory leak. ! ! !INTERFACE: subroutine GetSharedListIndices_(List1, List2, NumShared, Indices1, & Indices2) ! ! !USES: ! use m_die, only : MP_perr_die, die, warn use m_String, only : String use m_String, only : String_clean => clean implicit none ! !INPUT PARAMETERS: ! type(List), intent(in) :: List1 type(List), intent(in) :: List2 ! !OUTPUT PARAMETERS: ! integer, intent(out) :: NumShared integer,dimension(:), pointer :: Indices1 integer,dimension(:), pointer :: Indices2 ! !REVISION HISTORY: ! 7Feb01 - J.W. Larson - initial version !EOP ___________________________________________________________________ character(len=*),parameter :: myname_=myname//'::GetSharedListIndices_' ! Error flag integer :: ierr ! number of items in List1 and List2, respectively: integer :: nitem1, nitem2 ! MAXIMUM number of matches possible: integer :: NumSharedMax ! Temporary storage for a string tag retrieved from a list: type(String) :: tag ! Loop counters / temporary indices: integer :: n1, n2 ! Determine the number of items in each list: nitem1 = nitem_(List1) nitem2 = nitem_(List2) ! The maximum number of list item matches possible ! is the minimum(nitem1,nitem2): NumSharedMax = min(nitem1,nitem2) ! Allocate sufficient space for the matches we may find: allocate(Indices1(NumSharedMax), Indices2(NumSharedMax), stat=ierr) if(ierr /= 0) call die(myname_,'allocate() Indices1 and 2',ierr) ! Initialize the counter for the number of matches found: NumShared = 0 ! Scan through the two lists. For the sake of speed, loop ! over the shorter of the two lists... if(nitem1 <= nitem2) then ! List1 is shorter--scan it... do n1=1,NumSharedMax ! Retrieve string tag n1 from List1: call get_(tag, n1, List1) ! Index this tag WRT List2--a nonzero value signifies a match n2 = indexStr_(List2, tag) ! Clear out tag for the next iteration... call String_clean(tag) ! If we have a hit, update NumShared, and load the indices ! n1 and n2 in Indices1 and Indices2, respectively... if((0 < n2) .and. (n2 <= nitem2)) then NumShared = NumShared + 1 Indices1(NumShared) = n1 Indices2(NumShared) = n2 endif end do ! do n1=1,NumSharedMax else ! List1 is shorter--scan it... do n2=1,NumSharedMax ! Retrieve string tag n2 from List2: call get_(tag, n2, List2) ! Index this tag WRT List1--a nonzero value signifies a match n1 = indexStr_(List1, tag) ! Clear out tag for the next iteration... call String_clean(tag) ! If we have a hit, update NumShared, and load the indices ! n1 and n2 in Indices1 and Indices2, respectively... if((0 < n1) .and. (n1 <= nitem1)) then NumShared = NumShared + 1 Indices1(NumShared) = n1 Indices2(NumShared) = n2 endif end do ! do n2=1,NumSharedMax endif ! if(nitem1 <= nitem2)... end subroutine GetSharedListIndices_ end module m_List !.