1.1.1. 4.2.1. Changes

ITM	IMAS
CHEAT SHEET
use euitm_schemas	use ids_schemas
use euitm_routines	use ids_routines
type (type_<cpo_name>) :: cpo	type (ids_<ids_name>) :: ids
type (type_<cpo_name>), pointer :: cpoArray(:) ! <= Array !!!	type (ids_<ids_name>) :: ids <== SINGLE OBJ !!!
eval-pkg-config	pkg-config
eval-pkg-config --cflags --libs ual-ifort	pkg-config --cflags --libs imas-ifort
eval-pkg-config --cflags --libs ual-gfortran	pkg-config --cflags --libs imas-gfortran
type(type_param) :: XML_params	type(ids_parameters_input ) :: XML_params
type ids_parameters_input ! Code parameters block passed from the wrapper to the subroutine. Does not appear as such in the data structure. This is inserted i 1366 character(len=132), dimension(:), pointer ::parameters_value => null() ! /parameters_input/parameters_value - Actual value of the code parameters (instance of Code_Parameters/Parameters in XML format) 1367 character(len=132), dimension(:), pointer ::parameters_default => null() ! /parameters_input/parameters_default - Default value of the code parameters (instance of Code_Parameters/Parameters in XML format) 1368 character(len=132), dimension(:), pointer ::schema => null() ! /parameters_input/schema - Code parameters schema 1369 endtype	type ids_parameters_input ! 1366 character(len=132), dimension(:), pointer ::parameters_value => null() 1367 character(len=132), dimension(:), pointer ::parameters_default => null() 1368 character(len=132), dimension(:), pointer ::schema => null() 1369 endtype

1.1.2. 4.2.2 Examples

Examples of interface between wrapper and user code

ITM

1

2

3

4

5

6

7

8

9

10

11

12

13

14

/**** Fortran intrinsic data types ***/
integer :: input
character(50) :: charstring
integer,dimension(4) :: tabint
 
/**** Single slice ***/
type (type_equilibrium) :: cpo
 
/**** Array of slices ***/
type (type_equilibrium),pointer :: cpoArray(:)
/**** Code XML parameters ***/
 type(type_param), intent(in) :: codeparam
 
/**** Arbitrary diagnostic info ***/
integer    ::     outputFlag
character(len=:), pointer   ::    diagInfo

IMAS

1

2

3

4

5

6

7

8

9

10

11

12

13

14

/**** Fortran intrinsic data types ***/
integer :: input
character(50) :: charstring
integer,dimension(4) :: tabint
 
/**** Single slice ***/
type (ids_equilibrium) :: cpo
 
/**** Array of slices ***/
type (ids_equilibrium) :: ids <== SINGLE OBJ !!!
 
/**** Code XML parameters ***/
 type(ids_parameters_input), intent(in) :: codeparam
 
/**** Arbitrary diagnostic info ***/
integer    ::     outputFlag
character(len=:), pointer   ::    diagInfo

1.1.3. 4.2.3 Delivery of the user code

The user code should be delivered as a static library.
Please find examples of the simple "Makefile" below:

1.1.4. 2.1 Subroutine syntax

subroutine name ( <in/out arguments list> [,code_parameters] [,diagnostic_info] )

name - subroutine name
in/out arguments list - a list of input and output subroutine arguments
diagnostic_info - arbitrary output diagnostic information

1.1.5. 2.2. Arguments list

A mandatory position
A list of input and output subroutine arguments including:
- Fortran intrisic data types, eg:
  - integer :: input
  - character(50) :: charstring
  - integer,dimension(4) :: tabint
- IDSes, eg:
  - type (type_equilibrium),pointer :: equilibriumin(:)
  - type (type_distsource),pointer :: distsourceout(:)

Do not forget to add: use imas_schemas, while playing with IDSes
Please use intent(in), intent(out) to point in/out parameters

1.1.6. 2.3. Code parameters

user defined input parameters
input / optional

Argument of type: type_param

type type_param  !
  character(len=132), dimension(:), pointer ::parameters 
  character(len=132), dimension(:), pointer ::default_param  
  character(len=132), dimension(:), pointer ::schema         
endtype

Derived type type_param describes:
- parameters - Actual value of the code parameters (instance of coparam/parameters in XML format).
- default_param - Default value of the code parameters (instance of coparam/parameters in XML format).
- schema - Code parameters schema.
An example:
- (type_param) :: codeparam{{

1.2. 2.5. Examples

Example 3 Usage of code input parameters

subroutine teststring(coreprof,equi,tabint,tabchar,codeparam)
   use imas_schemas                                                                              
   implicit none                                             

  !input
  type(type_coreprof),pointer,dimension(:) :: coreprof
  integer, dimension(4), intent(in) :: tabint

  !output
  type(type_equilibrium),pointer,dimension(:) :: equi
  character(50), intent(out) :: tabchar

  !code parameters
  type(type_param), intent(in) :: codeparam

2. 4. Delivery of the user code

The user code should be delivered as a static library.
Please find examples of the simple "makefiles" below:

Example 6. Building of Fortran code

F90 = $(ITM_INTEL_FC)
COPTS = -g -O0 -assume no2underscore -fPIC -shared-intel

INCLUDES = $(shell eval-pkg-config --cflags ual-$(ITM_INTEL_OBJECTCODE))

all: equilibrium2distsource.o libequilibrium2distsource

libequilibrium2distsource: equilibrium2distsource.o
        ar -rvs libequilibrium2distsource.a equilibrium2distsource.o

equilibrium2distsource.o: equilibrium2distsource.f90
        $(F90) $(COPTS) -c -o $@ $^ ${INCLUDES} 

clean:
        rm -f *.o *.a

Recomendations

Please use eval-pkg-config to get UAL flags and not hard coded references.
The usage of environment variables for identifying compilers and versions of the pkg-config is recommended.

Page tree

4.1 FC2K - wrapping Fortran