Nodes of different colours represent the following:
Solid arrows point from a parent (sub)module to the submodule which is descended from it. Dashed arrows point from a module being used to the module or program unit using it. Where possible, edges connecting nodes are given different colours to make them easier to distinguish in large graphs.
Type | Intent | Optional | Attributes | Name | ||
---|---|---|---|---|---|---|
logical, | intent(inout) | :: | ErrorsFound |
Nodes of different colours represent the following:
Solid arrows point from a procedure to one which it calls. Dashed arrows point from an interface to procedures which implement that interface. This could include the module procedures in a generic interface or the implementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are given different colours to make them easier to distinguish in large graphs.
Nodes of different colours represent the following:
Solid arrows point from a procedure to one which it calls. Dashed arrows point from an interface to procedures which implement that interface. This could include the module procedures in a generic interface or the implementation in a submodule of an interface in a parent module. Where possible, edges connecting nodes are given different colours to make them easier to distinguish in large graphs.
SUBROUTINE GetInputEconomicsComputation(ErrorsFound)
! SUBROUTINE INFORMATION:
! AUTHOR Jason Glazer of GARD Analytics, Inc.
! DATE WRITTEN May 2004
! MODIFIED na
! RE-ENGINEERED na
! PURPOSE OF THIS SUBROUTINE:
! Read the input file for "Economics:Computation" objects.
! This object is only used for very complex rates.
! METHODOLOGY EMPLOYED:
! REFERENCES:
! na
! USE STATEMENTS:
USE DataIPShortCuts
IMPLICIT NONE ! Enforce explicit typing of all variables in this routine
! SUBROUTINE ARGUMENT DEFINITIONS:
LOGICAL, INTENT(INOUT) :: ErrorsFound ! true if errors found during getting input objects.
! SUBROUTINE PARAMETER DEFINITIONS:
CHARACTER(len=*), PARAMETER :: RoutineName='GetInputEconomicsComputation: '
! INTERFACE BLOCK SPECIFICATIONS
! na
! DERIVED TYPE DEFINITIONS
! na
! SUBROUTINE LOCAL VARIABLE DECLARATIONS:
INTEGER :: tariffPt
INTEGER :: iInObj ! loop index variable for reading in objects
INTEGER :: NumAlphas ! Number of elements in the alpha array
INTEGER :: NumNums ! Number of elements in the numeric array
!CHARACTER(len=MaxNameLength),DIMENSION(100) :: cAlphaArgs !character string data
!REAL(r64), DIMENSION(100) :: rNumericArgs !numeric data
INTEGER :: IOStat ! IO Status when calling get input subroutine
INTEGER :: jLine
INTEGER :: jFld
CHARACTER(len=MaxNameLength) :: CurrentModuleObject ! for ease in renaming.
CurrentModuleObject = 'UtilityCost:Computation'
numComputation = GetNumObjectsFound(CurrentModuleObject)
ALLOCATE(computation(numTariff)) !not the number of Computations but the number of tariffs
!set default values for computation
computation%computeName = ''
computation%firstStep = 0
computation%lastStep = -1
computation%isUserDef = .FALSE.
DO iInObj = 1 , numComputation
CALL GetObjectItem(CurrentModuleObject,iInObj,cAlphaArgs,NumAlphas, &
rNumericArgs,NumNums,IOSTAT, &
AlphaBlank=lAlphaFieldBlanks,NumBlank=lNumericFieldBlanks, &
AlphaFieldnames=cAlphaFieldNames,NumericFieldNames=cNumericFieldNames)
!check to make sure none of the values are another economic object
DO jFld = 1, NumAlphas
IF (INDEX(MakeUpperCase(cAlphaArgs(jFld)),'UTILITYCOST:') .GT. 0) THEN
CALL ShowWarningError(RoutineName//TRIM(CurrentModuleObject)// '="' // TRIM(cAlphaArgs(1)) //'".')
CALL ShowContinueError('... a field was found containing UtilityCost: which may indicate a missing comma.')
END IF
END Do
tariffPt = FindTariffIndex(cAlphaArgs(2),cAlphaArgs(1),ErrorsFound,CurrentModuleObject)
CALL warnIfNativeVarname(cAlphaArgs(1),tariffPt,ErrorsFound,CurrentModuleObject)
!tariff and computation share the same index, the tariff index
!so all references are to the tariffPt
IF (isWithinRange(tariffPt,1,numTariff)) THEN
computation(tariffPt)%computeName = cAlphaArgs(1)
computation(tariffPt)%firstStep = numSteps + 1
DO jLine = 3, NumAlphas
CALL parseComputeLine(cAlphaArgs(jLine),tariffPt)
END DO
computation(tariffPt)%lastStep = numSteps
! check to make sure that some steps were defined
IF (computation(tariffPt)%firstStep .GE. computation(tariffPt)%lastStep) THEN
computation(tariffPt)%firstStep = 0
computation(tariffPt)%lastStep = -1
computation(tariffPt)%isUserDef = .FALSE.
CALL ShowSevereError(RoutineName//TRIM(CurrentModuleObject)//'="'//trim(cAlphaArgs(1))//'" invalid data.')
CALL ShowContinueError('... No lines in the computation can be interpreted ')
ErrorsFound=.true.
ELSE
computation(tariffPt)%isUserDef = .TRUE.
END IF
ELSE
CALL ShowSevereError(RoutineName//TRIM(CurrentModuleObject)//'="'//trim(cAlphaArgs(1))//'" invalid data.')
CALL ShowContinueError('... not found '//trim(cAlphaFieldNames(2))//'="'// TRIM(cAlphaArgs(2))//'".')
ErrorsFound=.true.
END IF
END DO
END SUBROUTINE GetInputEconomicsComputation