Libclasses
Introduction
IXTtestclass is an object which contains all the types of variables which exist in the framework, it also contains implementations of all the standard subroutines which MUST be included by any new module which is added to the framework. They are:
- IXFoperation_run_yourmodulename
- IXFcreate_yourmodulename
- IXFdestroy_yourmodulename
- IXFcheck_yourmodulename
- IXFset_yourmodulename
- IXFget_yourmodulename
- IXFget_alloc_yourmodulename
- IXFget_ptr_yourmodulename
In each of these routines there are particular ways of treating each different
type of variable, and the code in IXTtestclass can be used as a model for other modules, containing all the
standard code required. This documentation should be read in tandem with the libclasses\IXMtestclass.f90 file
Module Definition
A class should be defined as follows:
- A derived TYPE starting with the IXT prefix should be created in a module with the same name but prefixed IXM
- within this module various functions should be defined for class operations e.g. addition and display
- the class object should be the first argument of any function
- module functions should make no explicit reference to matlab, they should be passed constructed objects
- wrapper functions outside the module should be defined to pass data to the module functions
we start by defining the name of the module
module IXMtestclass
include the modules which are relied upon by the module
use IXMbase use IXMspectra use IXMdataset_2d
define the type, all component elements of the module are private and encapsulated as a rule, the type is public.
type IXTtestclass private ! all objects have a base class
every object must contain an IXTbase class, it contains information such as the validity of an object
type(IXTbase) :: base
simple real and integer variables, can be defined as fixed length static arrays and initialised
real(dp) :: val integer(i4b) :: nx real(dp) :: val_static(3)=0.0 integer(i4b)::int_static(4)=0.0
variable length arrays are defined as pointers, they are always declared as NULL by default and can be allocated using the IXFalloc subroutines
real(dp), pointer :: val_array(:) => NULL() integer(i4b),pointer :: int_arr(:,:)=>NULL()
other objects can also be defined in a type
type(IXTspectra):: spectra
simple strings and logicals are straightforward
logical :: xhist=.FALSE. character(len=short_len) :: label='x-label' !< character string variable
variable length arrays of strings and objects cannot be defined as pointers and must be defined as allocatable, they can also be allocated using the appropriate IXFalloc subroutines
character(len=long_len),allocatable :: cell_string(:) type(IXTdataset_2d), allocatable :: d2d(:) end type IXTtestclass
include the interfaces required by routines declared in class_base.f90, this is covered in more detail in Preprocessing class_header.f90
#define IXD_TYPE testclass #include "class_header.f90"
non-standard interfaces are defined, as well as any private functions/subroutines, all subroutines/functions are public unless specified as private
interface IXFplus module procedure IXFplus_testclass end interface IXFplus
contains marks the start of the module subroutines, the first section includes the generic subroutines every class requires, this is covered in more detail in Preprocessing class_base.f90
contains #define IXD_DESCRIPTION "IXTtestclass class" #define IXD_TYPE testclass #define IXD_SQTYPE 'testclass' #include "class_base.f90"
IXFoperation_run_testclass
All classes must provide this operation; it loops through all members of the class doing the supplied operation, eg matlab_write, display etc..
There are three different types of IXFoperation_run call, with a standard argument call
- single value and static array elements and simple nested objects use IXFoperation_run
- pointer arrays elements IXFoperation_run_ptr
- allocatable type elements IXFoperation_run_alloc
this code should be used as a template with the appropriate IXFoperation_run call made for each member element, substituting appropriately for the name of the class and its member elements
recursive subroutine IXFoperation_run_testclass(op, field, arg, status) implicit none type(IXTtestclass) :: arg type(IXToperation) :: op type(IXTstatus) :: status character(len=*) :: field logical::cont_op call IXFoperationStart(op, 'IXTtestclass', field, status,arg%base,cont_op) if(.not. cont_op)return ! this order must match the declaration order in matlab as it is ! used when parsing argemnts passed in class creation with vargin call IXFoperation_run(op, 'base', arg%base, status) call IXFoperation_run(op, 'val', arg%val, status) call IXFoperation_run(op, 'nx', arg%nx, status) call IXFoperation_run(op, 'val_static', arg%val_static, status) call IXFoperation_run(op, 'int_static', arg%int_static, status) call IXFoperation_run_ptr(op, 'val_array', arg%val_array, status) call IXFoperation_run_ptr(op, 'int_array', arg%val_array, status) call IXFoperation_run(op, 'spectra', arg%spectra, status) call IXFoperation_run(op, 'xhist', arg%xhist, status) call IXFoperation_run(op, 'label', arg%label, status) call IXFoperation_run_alloc(op, 'cell_string', arg%cell_string, status) call IXFoperation_run_alloc(op, 'd2d', arg%d2d, status) call IXFoperationFinish(op, field, status) end subroutine IXFoperation_run_testclass
IXFcreate_testclass
- The IXFcreate subroutine STRICTLY takes all the elements required to define a class and creates the resulting object.
- If an element of the object is another class then it MUST be initialised.
- pointer array types are defined as assumed-shape arrays.
- Each element is defined with intent(in), allocatable elements are defined as assumed-shape arrays.
- Any nested objects need to be tested for validity
- The object to be created must be marked as valid before the IXFset subroutine is called
subroutine IXFcreate_testclass(arg, val, nx,val_static,int_static, val_array, int_arr,spectra, xhist,label, cell_string,d2d, status) implicit none type(IXTtestclass),intent(out) :: arg type(IXTstatus),intent(inout) :: status real(dp),intent(in) :: val integer(i4b),intent(in) :: nx real(dp),intent(in) :: val_static(3) integer(i4b),intent(in)::int_static(4) real(dp),intent(in) :: val_array(:) integer(i4b),intent(in) :: int_arr(:,:) type(IXTspectra),intent(in):: spectra logical,intent(in) :: xhist character(len=short_len),intent(in) :: label character(len=long_len),intent(in) :: cell_string(:) type(IXTdataset_2d),intent(in) :: d2d(:) ! nested objects should be tested for initialisation, this shows they have been created properly if( IXFvalid(spectra) .neqv. .true.)then call IXFadd_status(status, IXCfacility_libisis, IXCseverity_error, & IXCerr_outofmem, 'IXTspectra failure, all nested objects MUST be initialised (IXFcreate_testclass)') endif if(status == IXCseverity_error)return ! the set routine can ONLY be called on an initialised object ! so in this *special* case it is initialised before it is filled call IXFmark_valid(arg) call IXFset_testclass(arg,status,val, nx,val_static,int_static, val_array, int_arr,spectra, xhist,label, cell_string,d2d) end subroutine IXFcreate_testclass
IXFdestroy_testclass
The IXFdestroy routine deallocates any pointer arrays in the type, and calls the destroy function on any nested objects, it can also be used to set variables back to their default values. If one of the objects is an array of structures, then each structure will be recursively destroyed by the IXFdealloc function. The allocatable array of strings is a fortran type and so the IXFdeallocfortran subroutine must be called to deallocate its memory
subroutine IXFdestroy_testclass(arg, status) implicit none type(IXTtestclass),intent(inout) :: arg type(IXTstatus),intent(inout) :: status call IXFdestroy(arg%base,status) ! destroy pointer arrays call IXFdealloc(arg%val_array,status) call IXFdealloc(arg%int_arr,status) arg%xhist=.FALSE. ! for nested objects check it hasn't been destroyed already if(IXFvalid(arg%spectra))call IXFdestroy(arg%spectra,status) if(allocated(arg%cell_string))call IXFdeallocfortran(arg%cell_string,status) if(IXFvalid(arg%d2d))then if(allocated(arg%d2d))call IXFdealloc(arg%d2d,status) endif ! the initialised status is now revoked for the object ! this statement MUST exist in all destroy routines call IXFclear_valid(arg) end subroutine IXFdestroy_testclass
IXFcheck_testclass
IXFcheck will make internal consistency checks in the object, such as array length checking to make sure the object is properly filled.
subroutine IXFcheck_Testclass(arg, status) implicit none type(IXTtestclass),intent(in) ::arg type(IXTstatus),intent(inout) :: status if (size(arg%val_array) /= size(arg%int_arr,1)) then call IXFadd_status(status, IXCfacility_libisis, IXCseverity_error, & IXCerr_invparam, 'sizes of value and int arrays do not match(IXFcheck_testclass)') endif end subroutine IXFcheck_Testclass
IXFset_testclass
!----------------------------------------------------------------------------------------------------------------------- The IXFset operation can only be performed on a properly filled or initialised object.
- It takes an optional number of arguments to modify the object contents.
- A check is made at the end to determine that the edited object is correctly formed.
- Error flags are raised if there is any inconsistency.
- The optional arguments MUST always be specified by keywords.
- The order of arguments should match the order of declaration, except for the IXTbase type which is not declared.
- The 'ref' argument is used to copy the values of a reference object to another. In this case the object being modified
does not have to be initialised, but the reference object MUST be initialised.
recursive subroutine IXFset_testclass(arg, status, val, nx,val_static,int_static, val_array, int_arr,spectra, xhist,label, cell_string,d2d,ref) implicit none type(IXTtestclass),intent(inout) :: arg type(IXTstatus),intent(inout) :: status ! all the supplied variables are declared as optional with intent(in) type(IXTtestclass),intent(in),optional :: ref real(dp),optional,intent(in) :: val integer(i4b),optional,intent(in) :: nx real(dp),optional,intent(in) :: val_static(3) integer(i4b),optional,intent(in)::int_static(4) real(dp),optional,intent(in) :: val_array(:) integer(i4b),optional,intent(in) :: int_arr(:,:) type(IXTspectra),optional,intent(in):: spectra logical,optional,intent(in) :: xhist
input strings are treated as an unknown length, if the supplied string is longer than the declared length then it will be truncated. If it is shorter, then the new variable will be padded with spaces.
character(len=*),optional,intent(in) :: label character(len=*),optional,intent(in) :: cell_string(:) type(IXTdataset_2d),optional,intent(in) :: d2d(:) !<array of objects ! check that either the reference object is initialised ! or that object to be modified is initialised if(present(ref))then if (IXFvalid(ref) .neqv. .true.)then call IXFadd_status(status, IXCfacility_libisis, IXCseverity_error, & IXCerr_invparam, 'Reference object MUST be initialised (IXFset_testclass)') endif if(status == IXCseverity_error)return ! now initialise object to be modified, not necessary to check its value call IXFmark_valid(arg) else if(IXFvalid(arg) .neqv. .true.) then call IXFadd_status(status, IXCfacility_libisis, IXCseverity_error, & IXCerr_invparam, 'Set can only be called on an initialised object (IXFset_testclass)') endif if(status == IXCseverity_error)return endif
This command will copy all of the attributes of the reference object to the object being modified it calls set with all the components of the reference object
if (present(ref))call IXFset_testclass(arg,status,ref%val,ref%nx,ref%val_static,ref%int_static,ref%val_array, & ref%int_arr,ref%spectra,ref%xhist,ref%label,ref%cell_string,ref%d2d)
single variables are simply overwritten by the supplied variables
if (present(val))arg%val=val if (present(nx))arg%nx=nx
static arrays are simply copied, if the length of val_stat is not 3, then the program will break at
runtime, a check cannot be made for this
if (present(val_static)) arg%val_static=val_static if (present(int_static)) arg%int_static=int_static
IXFset_real_array and IXFset_integer_array are built in functions which reallocate the memory for the member element and fill with the new data as appropriate
call IXFset_real_array(arg%val_array,status,val_array) call IXFset_integer_array(arg%int_arr,status,int_arr)
nested objects are simply copied
if (present(spectra))call IXFcopy(spectra,arg%spectra,status)
logicals and strings are treated in the same way as single variables
if(present(xhist))arg%xhist=xhist if(present(label))arg%label=label
allocatable types must follow this format, including reallocation and population of the element
if (present(cell_string))then call IXFreallocFortran(arg%cell_string,size(cell_string),.false.,status) arg%cell_string=cell_string endif if(present(d2d))then call IXFrealloc(arg%d2d,size(d2d),.false.,status) call IXFcopy(d2d,arg%d2d,status) endif
the check routine MUST always be called at the end of the set routine
call IXFcheck(arg,status) end subroutine IXFset_testclass
IXFget_testclass
!----------------------------------------------------------------------------------------------------------------------- !> The IXFget subroutine will return elements of an object to an optional supplied arrays/variables. The supplied variables !! should be referrred to by keyword to avoid errors. The 'wout' variable is special and can be used to copy the !! contents of a whole object to a new one. subroutine IXFget_testclass(arg,status, val, nx,val_static,int_static, val_array, int_arr,spectra, xhist,label, cell_string,d2d,wout) implicit none type(IXTtestclass),intent(in) :: arg type(IXTtestclass),optional,intent(out)::wout type(IXTstatus),intent(inout) :: status ! all the supplied variables are declared as optional with intent(out) real(dp),optional,intent(out) :: val !< real variable integer(i4b),optional,intent(out) :: nx !< integer variable real(dp),optional,intent(out) :: val_static(3) !< static real array integer(i4b),optional,intent(out)::int_static(4) !< static integer array real(dp),optional,intent(out) :: val_array(:) !< variable length 1d real array, always declared as NULL by default integer(i4b),optional,intent(out) :: int_arr(:,:) !< variable length 2d integer array, always declared as NULL by default type(IXTspectra),optional,intent(out):: spectra !< nested object logical,optional,intent(out) :: xhist !< logical variable ! input strings are treated as an unknown length, if the supplied string is longer than the declared length ! then it will be truncated. If it is shorter, then the new variable will be padded with spaces. character(len=*),optional,intent(out) :: label !< character string variable character(len=*),optional,intent(out) :: cell_string(:) !< array of strings type(IXTdataset_2d),optional,intent(out) :: d2d(:) !<array of objects ! this makes a call to the appropriate set routine. The IXFcopy routine calls ! the same routine underneath. if (present(wout))then call IXFcopy(arg,wout,status) endif ! single variables are copied into the supplied arrays if (present(val))val=arg%val if (present(nx))nx=arg%nx ! 1D variable length arrays ! The supplied array must be the same length as the object array. this test is made and the array filled call IXFget_real_array(arg%val_array,status,val_array) ! 2D variable length arrays ! The supplied array must now be the same shape as the object array. this test is made and the object is filled call IXFget_integer_array(arg%int_arr,status,int_arr) !checks are not made on static arrays, since the routine will break at runtime if a supplied array is not !the same length as that declared if (present(val_static))val_static=arg%val_static if (present(int_static))int_static=arg%int_static ! supplied nested objects are filled with an appropriate set routine if(present(spectra))call IXFcopy(arg%spectra,spectra,status) ! logicals and strings are treated as single variables, with strings being truncated where appropriate if(present(xhist))xhist=arg%xhist if(present(label))label=arg%label if (present(cell_string))cell_string=arg%cell_string if(present(d2d))call IXFcopy(arg%d2d,d2d,status) end subroutine IXFget_testclass
IXFget_alloc_testclass
!----------------------------------------------------------------------------------------------------------------------- !> IXFget_alloc can be called with all the same arguments as IXFget, but the pointer array elements/string array/object array elements !! can be allocatable arrays. the arrays are allocated to the appropriate length and IXFget is called underneath to populate them. subroutine IXFget_alloc_testclass(arg,status, val, nx,val_static,int_static, val_array, int_arr,spectra, xhist,label, cell_string,d2d,wout) implicit none type(IXTtestclass),intent(in) :: arg type(IXTtestclass),intent(out),optional::wout real(dp),optional,intent(out) :: val !< real variable integer(i4b),optional,intent(out) :: nx !< integer variable real(dp),optional,intent(out) :: val_static(3) !< static real array integer(i4b),optional,intent(out)::int_static(4) !< static integer array !allocatable arrays cannot be defined as intent(out), this tends to make runtime errors for some reason real(dp),optional,allocatable :: val_array(:) !< variable length 1d real array, always declared as NULL by default integer(i4b),optional,allocatable :: int_arr(:,:) !< variable length 2d integer array, always declared as NULL by default type(IXTspectra),optional,intent(out):: spectra !< nested object logical,optional,intent(out) :: xhist !< logical variable ! input strings are treated as an unknown length, if the supplied string is longer than the declared length ! then it will be truncated. If it is shorter, then the new variable will be padded with spaces. character(len=*),optional,intent(out) :: label !< character string variable !allocatable arrays cannot be defined as intent(out), this tends to make runtime errors for some reason character(len=*),allocatable,optional :: cell_string(:) !< allocatable array of strings type(IXTdataset_2d),allocatable,optional :: d2d(:) !<allocatable array of objects type(IXTstatus),intent(inout)::status ! allocate the appropriate allocatable arrays then call the standard get function if (present(val_array))then call IXFreallocdimsFortran(val_array,shape(arg%val_array),.false.,status) endif if (present(int_arr))then call IXFreallocdimsFortran(int_arr,shape(arg%int_arr),.false.,status) endif if (present(cell_string))then call IXFreallocdimsFortran(cell_string,(/ size(arg%cell_string) /),.false.,status) endif if(present(d2d))then call IXFrealloc(d2d,size(arg%d2d),.false.,status) endif call IXFget_testclass(arg,status, val, nx,val_static,int_static, val_array, int_arr,spectra, xhist,label, cell_string,d2d,wout) end subroutine IXFget_alloc_testclass
IXFget_ptr_testclass
!----------------------------------------------------------------------------------------------------------------------- !> IXFget_ptr will return a pointer to a structure or an array, from an optional argument. !! The pointer arguments are the same name as the object elements they are pointing to. !! EXTREME Care must be taken since if the pointers are edited, then the data in the structure will also be edited. subroutine IXFget_ptr_testclass(arg,val_array,int_arr,spectra) implicit none type(IXTtestclass),intent(in),target :: arg type(IXTspectra),optional,pointer::spectra real(dp),optional,pointer::val_array(:) integer(i4b),optional,pointer:: int_arr(:,:) if (present(spectra))spectra=>arg%spectra if (present(val_array))val_array=>arg%val_array if (present(int_arr))int_arr=>arg%int_arr end subroutine IXFget_ptr_testclass !!----------------------------------------------------------------------------------------------------------------------- !> This is an example plus operation for the IXTtestclass object subroutine IXFplus_testclass(wres, w1, w2, status) ! now add the objects type(IXTtestclass) :: w1, w2, wres type(IXTstatus) :: status ! to do this subroutine there should also be a binary operation setup which checks that ! the arrays of the objects are the same length etc...... wres%val = w1%val + w2%val wres%nx = w1%nx + w2%nx wres%val_static=w1%val_static+w2%val_static wres%int_static=w1%int_static+w2%int_static call IXFalloc(wres%val_array, size(w1%val_array), status) call IXFallocdims(wres%int_arr, shape(w1%int_arr) , status) wres%val_array = w1%val_array + w2%val_array wres%int_arr= w1%int_arr + w2%int_arr call IXFcopy(w1%spectra,wres%spectra,status) wres%xhist=.true. wres%label='new label' if(size(w1%cell_string) /= size(w2%cell_string))then call IXFadd_status(status, IXCfacility_libisis, IXCseverity_error, & IXCerr_outofmem, 'cell_string failure in operation (IXFplus_testclass)') return else call IXFallocfortran(wres%cell_string,size(w1%cell_string),status) wres%cell_string=w1%cell_string endif if(size(w1%d2d) /= size(w2%d2d))then call IXFadd_status(status, IXCfacility_libisis, IXCseverity_error, & IXCerr_outofmem, 'd2d failure in operation (IXFplus_testclass)') return else call IXFalloc(wres%d2d,size(w1%d2d),status) do i=1,size(w1%d2d) call IXFplus(wres%d2d(i),w1%d2d(i),w2%d2d(i),status) enddo endif end subroutine IXFplus_testclass end module IXMtestclass
Preprocessing class_header.f90
before the contains statement we
Preprocessing class_base.f90
we include many subroutines automatically