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*
* str_missing.F
*
* Ansley Manke
* 8-Feb-2011
*
* This function replaces the strings in argument 2 with the string in argument 3
* according to a mask, arg 1.
* STR_MISSING(mask, default_string, replacement_string)
*
* In this subroutine we provide information about
* the function. The user configurable information
* consists of the following:
*
* descr Text description of the function
*
* num_args Required number of arguments
*
* axis_inheritance Type of axis for the result
* ( CUSTOM, IMPLIED_BY_ARGS, NORMAL, ABSTRACT )
* CUSTOM - user defined axis
* IMPLIED_BY_ARGS - same axis as the incoming argument
* NORMAL - the result is normal to this axis
* ABSTRACT - an axis which only has index values
*
* piecemeal_ok For memory optimization:
* axes where calculation may be performed piecemeal
* ( YES, NO )
*
*
* For each argument we provide the following information:
*
* name Text name for an argument
*
* unit Text units for an argument
*
* desc Text description of an argument
*
* axis_influence Are this argument's axes the same as the result grid?
* ( YES, NO )
*
* axis_extend How much does Ferret need to extend arg limits relative to result
*
SUBROUTINE str_missing_init(id)
INCLUDE 'ferret_cmn/EF_Util.cmn'
INTEGER id, arg
* **********************************************************************
* USER CONFIGURABLE PORTION |
* |
* V
CHARACTER*100 fcn_desc
10 FORMAT ('Replace the strings in arg2 with the string in arg3 ',
. 'according to a mask, arg1.')
WRITE (fcn_desc, 10)
CALL ef_set_desc(id, fcn_desc)
CALL ef_set_num_args(id, 3)
CALL ef_set_axis_inheritance(id, IMPLIED_BY_ARGS,
. IMPLIED_BY_ARGS, IMPLIED_BY_ARGS, IMPLIED_BY_ARGS)
CALL ef_set_result_type(id, STRING_RETURN)
arg = 1
CALL ef_set_arg_name(id, arg, 'MASK')
CALL ef_set_arg_unit(id, arg, ' ')
CALL ef_set_arg_desc(id, arg,
. 'mask: substitute arg3 in arg2 where mask=1')
CALL ef_set_axis_influence(id, arg, YES, YES, YES, YES)
CALL ef_set_arg_type (id, arg, FLOAT_ARG)
arg = 2
CALL ef_set_arg_name(id, arg, 'STR')
CALL ef_set_arg_unit(id, arg, ' ')
CALL ef_set_arg_desc(id, arg, 'string array')
CALL ef_set_axis_influence(id, arg, YES, YES, YES, YES)
CALL ef_set_arg_type (id, arg, STRING_ARG)
arg = 3
CALL ef_set_arg_name(id, arg, 'REPL')
CALL ef_set_arg_unit(id, arg, ' ')
CALL ef_set_arg_desc(id, arg, 'Scalar string to substitute')
CALL ef_set_axis_influence(id, arg, NO, NO, NO, NO)
CALL ef_set_arg_type (id, arg, STRING_ARG)
* ^
* |
* USER CONFIGURABLE PORTION |
* **********************************************************************
RETURN
END
*
* In this subroutine we compute the result
*
SUBROUTINE str_missing_compute(id, arg_1, arg_2,
. arg_3, result)
INCLUDE 'ferret_cmn/EF_Util.cmn'
INCLUDE 'ferret_cmn/EF_mem_subsc.cmn'
INTEGER id
REAL bad_flag(1:EF_MAX_ARGS), bad_flag_result
* Single precision Ferret: string arg and result need to be twice the length.
INTEGER strdf
#ifdef double_p
PARAMETER (strdf = 1)
#else
PARAMETER (strdf = 2)
#endif
REAL arg_1(mem1lox:mem1hix, mem1loy:mem1hiy,
. mem1loz:mem1hiz, mem1lot:mem1hit)
REAL arg_2(strdf,mem2lox:mem2hix, mem2loy:mem2hiy,
. mem2loz:mem2hiz, mem2lot:mem2hit)
REAL arg_3(strdf,mem3lox:mem3hix, mem3loy:mem3hiy,
. mem3loz:mem3hiz, mem3lot:mem3hit)
REAL result(memreslox:memreshix, memresloy:memreshiy,
. memresloz:memreshiz, memreslot:memreshit)
* After initialization, the 'res_' arrays contain indexing information
* for the result axes. The 'arg_' arrays will contain the indexing
* information for each variable's axes.
INTEGER res_lo_ss(4), res_hi_ss(4), res_incr(4)
INTEGER arg_lo_ss(4,1:EF_MAX_ARGS), arg_hi_ss(4,1:EF_MAX_ARGS),
. arg_incr(4,1:EF_MAX_ARGS)
* **********************************************************************
* USER CONFIGURABLE PORTION |
* |
* V
INTEGER i,j,k,l
INTEGER i1, j1, k1, l1
INTEGER i2, j2, k2, l2
INTEGER i3, j3, k3, l3
INTEGER iarg, slen2, slen3
CHARACTER text2*2048, text3*2048
CALL ef_get_res_subscripts(id, res_lo_ss, res_hi_ss, res_incr)
CALL ef_get_arg_subscripts(id, arg_lo_ss, arg_hi_ss, arg_incr)
CALL ef_get_bad_flags(id, bad_flag, bad_flag_result)
* Get replacement string
i3=arg_lo_ss(X_AXIS, ARG3)
j3=arg_lo_ss(Y_AXIS, ARG3)
k3=arg_lo_ss(Z_AXIS, ARG3)
l3=arg_lo_ss(T_AXIS, ARG3)
CALL ef_get_string_arg_element(id, ARG3, arg_3,
. i3,j3,k3,l3,slen3,text3)
i1 = arg_lo_ss(X_AXIS,ARG1)
i2 = arg_lo_ss(X_AXIS,ARG2)
DO 400 i=res_lo_ss(X_AXIS), res_hi_ss(X_AXIS)
j1 = arg_lo_ss(Y_AXIS,ARG1)
j2 = arg_lo_ss(Y_AXIS,ARG2)
DO 300 j=res_lo_ss(Y_AXIS), res_hi_ss(Y_AXIS)
k1 = arg_lo_ss(Z_AXIS,ARG1)
k2 = arg_lo_ss(Z_AXIS,ARG2)
DO 200 k=res_lo_ss(Z_AXIS), res_hi_ss(Z_AXIS)
l1 = arg_lo_ss(T_AXIS,ARG1)
l2 = arg_lo_ss(T_AXIS,ARG2)
DO 100 l=res_lo_ss(T_AXIS), res_hi_ss(T_AXIS)
iarg = 2
CALL EF_GET_STRING_ARG_ELEMENT (id, iarg, arg_2,
. i2,j2,k2,l2, slen2, text2)
IF (arg_1(i1,j1,k1,l1) .EQ. 1) THEN
text2 = text3
slen2 = slen3
ENDIF
CALL EF_PUT_STRING (text2, slen2, result(i,j,k,l))
l1 = l1 + arg_incr(T_AXIS,ARG1)
l2 = l2 + arg_incr(T_AXIS,ARG2)
100 CONTINUE
k1 = k1 + arg_incr(Z_AXIS,ARG1)
k2 = k2 + arg_incr(Z_AXIS,ARG2)
200 CONTINUE
j1 = j1 + arg_incr(Y_AXIS,ARG1)
j2 = j2 + arg_incr(Y_AXIS,ARG2)
300 CONTINUE
i1 = i1 + arg_incr(X_AXIS,ARG1)
i2 = i2 + arg_incr(X_AXIS,ARG2)
400 CONTINUE
* ^
* |
* USER CONFIGURABLE PORTION |
* **********************************************************************
RETURN
END
|
