! ! CloudCoeff_Binary_IO ! ! Module containing routines to read and write Binary format ! CloudCoeff files. ! ! ! CREATION HISTORY: ! Written by: Paul van Delst, CIMSS/SSEC 24-Jun-2004 ! paul.vandelst@ssec.wisc.edu ! MODULE CloudCoeff_Binary_IO ! ------------------ ! Environment set up ! ------------------ ! Module use USE File_Utility , ONLY: File_Open, File_Exists USE Message_Handler , ONLY: SUCCESS, FAILURE, INFORMATION, Display_Message USE Binary_File_Utility, ONLY: Open_Binary_File USE CloudCoeff_Define , ONLY: CloudCoeff_type , & CloudCoeff_Associated , & CloudCoeff_Destroy , & CloudCoeff_Create , & CloudCoeff_ValidRelease, & CloudCoeff_Info ! Disable implicit typing IMPLICIT NONE ! ------------ ! Visibilities ! ------------ PRIVATE PUBLIC :: CloudCoeff_Binary_InquireFile PUBLIC :: CloudCoeff_Binary_ReadFile PUBLIC :: CloudCoeff_Binary_WriteFile PUBLIC :: CloudCoeff_Binary_IOVersion ! ----------------- ! Module parameters ! ----------------- CHARACTER(*), PARAMETER :: MODULE_VERSION_ID = & '$Id: CloudCoeff_Binary_IO.f90 22707 2012-11-21 21:09:10Z paul.vandelst@noaa.gov $' CHARACTER(*), PARAMETER :: WRITE_ERROR_STATUS = 'DELETE' ! Default message length INTEGER, PARAMETER :: ML = 256 ! Old integer flag setting INTEGER, PARAMETER :: SET = 1 CONTAINS !------------------------------------------------------------------------------ !:sdoc+: ! ! NAME: ! CloudCoeff_Binary_InquireFile ! ! PURPOSE: ! Function to inquire CloudCoeff object Binary format files. ! ! CALLING SEQUENCE: ! Error_Status = CloudCoeff_Binary_InquireFile( & ! Filename, & ! n_MW_Frequencies = n_MW_Frequencies, & ! n_MW_Radii = n_MW_Radii , & ! n_IR_Frequencies = n_IR_Frequencies, & ! n_IR_Radii = n_IR_Radii , & ! n_Temperatures = n_Temperatures , & ! n_Densities = n_Densities , & ! n_Legendre_Terms = n_Legendre_Terms, & ! n_Phase_Elements = n_Phase_Elements, & ! Release = Release , & ! Version = Version ) ! ! INPUTS: ! Filename: Character string specifying the name of a ! CloudCoeff format data file. ! UNITS: N/A ! TYPE: CHARACTER(*) ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(IN) ! ! OPTIONAL OUTPUTS: ! n_MW_Frequencies: The number of microwave frequencies in ! the look-up table (LUT) ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! n_MW_Radii: The number of discrete effective radii ! for MW scatterers in the LUT. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! n_IR_Frequencies: The number of infrared frequencies in ! the LUT ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! n_IR_Radii: The number of discrete effective radii ! for IR scatterers in the LUT. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! n_Temperatures: The number of discrete layer temperatures ! in the LUT. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! n_Densities: The number of fixed densities for snow, graupel, ! and hail/ice in the LUT. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! n_Legendre_Terms: The maximum number of Legendre polynomial ! terms in the LUT. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! n_Phase_Elements: The maximum number of phase elements in the LUT. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! Release: The coefficient file release number. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! Version: The coefficient file version number. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT), OPTIONAL ! ! FUNCTION RESULT: ! Error_Status: The return value is an integer defining the error status. ! The error codes are defined in the Message_Handler module. ! If == SUCCESS the Binary file inquiry was successful ! == FAILURE an error occurred. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! !------------------------------------------------------------------------------ FUNCTION CloudCoeff_Binary_InquireFile( & Filename , & ! Input n_MW_Frequencies, & ! Optional Output n_MW_Radii , & ! Optional Output n_IR_Frequencies, & ! Optional Output n_IR_Radii , & ! Optional Output n_Temperatures , & ! Optional Output n_Densities , & ! Optional Output n_Legendre_Terms, & ! Optional Output n_Phase_Elements, & ! Optional Output Release , & ! Optional Output Version ) & ! Optional Output RESULT ( err_stat ) ! Arguments CHARACTER(*), INTENT(IN) :: Filename INTEGER, OPTIONAL, INTENT(OUT) :: n_MW_Frequencies INTEGER, OPTIONAL, INTENT(OUT) :: n_MW_Radii INTEGER, OPTIONAL, INTENT(OUT) :: n_IR_Frequencies INTEGER, OPTIONAL, INTENT(OUT) :: n_IR_Radii INTEGER, OPTIONAL, INTENT(OUT) :: n_Temperatures INTEGER, OPTIONAL, INTENT(OUT) :: n_Densities INTEGER, OPTIONAL, INTENT(OUT) :: n_Legendre_Terms INTEGER, OPTIONAL, INTENT(OUT) :: n_Phase_Elements INTEGER, OPTIONAL, INTENT(OUT) :: Release INTEGER, OPTIONAL, INTENT(OUT) :: Version ! Function result INTEGER :: err_stat ! Function parameters CHARACTER(*), PARAMETER :: ROUTINE_NAME = 'CloudCoeff_Binary_InquireFile' ! Function variables CHARACTER(ML) :: msg INTEGER :: io_stat INTEGER :: fid TYPE(CloudCoeff_type) :: CloudCoeff ! Setup err_stat = SUCCESS fid = -100 ! Check that the file exists IF ( .NOT. File_Exists( Filename ) ) THEN msg = 'File '//TRIM(Filename)//' not found.' CALL Inquire_Cleanup(); RETURN END IF ! Open the CloudCoeff data file err_stat = Open_Binary_File( Filename, fid ) IF ( err_stat /= SUCCESS ) THEN msg = 'Error opening '//TRIM(Filename) CALL Inquire_Cleanup(); RETURN END IF ! Read the release and version READ( fid,IOSTAT=io_stat ) CloudCoeff%Release, CloudCoeff%Version IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading Release/Version. IOSTAT = ",i0)' ) io_stat CALL Inquire_Cleanup(); RETURN END IF ! Read the dimensions READ( fid,IOSTAT=io_stat ) CloudCoeff%n_MW_Frequencies, & CloudCoeff%n_MW_Radii , & CloudCoeff%n_IR_Frequencies, & CloudCoeff%n_IR_Radii , & CloudCoeff%n_Temperatures , & CloudCoeff%n_Densities , & CloudCoeff%n_Legendre_Terms, & CloudCoeff%n_Phase_Elements IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading dimensions from ",a,". IOSTAT = ",i0)' ) & TRIM(Filename), io_stat CALL Inquire_Cleanup(); RETURN END IF ! Close the file CLOSE( fid,IOSTAT=io_stat ) IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error closing ",a,". IOSTAT = ",i0)' ) TRIM(Filename), io_stat CALL Inquire_Cleanup(); RETURN END IF ! Set the return arguments IF ( PRESENT(n_MW_Frequencies) ) n_MW_Frequencies = CloudCoeff%n_MW_Frequencies IF ( PRESENT(n_MW_Radii ) ) n_MW_Radii = CloudCoeff%n_MW_Radii IF ( PRESENT(n_IR_Frequencies) ) n_IR_Frequencies = CloudCoeff%n_IR_Frequencies IF ( PRESENT(n_IR_Radii ) ) n_IR_Radii = CloudCoeff%n_IR_Radii IF ( PRESENT(n_Temperatures ) ) n_Temperatures = CloudCoeff%n_Temperatures IF ( PRESENT(n_Densities ) ) n_Densities = CloudCoeff%n_Densities IF ( PRESENT(n_Legendre_Terms) ) n_Legendre_Terms = CloudCoeff%n_Legendre_Terms IF ( PRESENT(n_Phase_Elements) ) n_Phase_Elements = CloudCoeff%n_Phase_Elements IF ( PRESENT(Release ) ) Release = CloudCoeff%Release IF ( PRESENT(Version ) ) Version = CloudCoeff%Version CONTAINS SUBROUTINE Inquire_CleanUp() ! Close file if necessary IF ( File_Open(fid) ) THEN CLOSE( fid,IOSTAT=io_stat ) IF ( io_stat /= 0 ) & msg = TRIM(msg)//'; Error closing input file during error cleanup' END IF ! Set error status and print error message err_stat = FAILURE CALL Display_Message( ROUTINE_NAME, msg, err_stat ) END SUBROUTINE Inquire_CleanUp END FUNCTION CloudCoeff_Binary_InquireFile !------------------------------------------------------------------------------ !:sdoc+: ! ! NAME: ! CloudCoeff_Binary_ReadFile ! ! PURPOSE: ! Function to read CloudCoeff object files in Binary format. ! ! CALLING SEQUENCE: ! Error_Status = CloudCoeff_Binary_ReadFile( & ! Filename , & ! CloudCoeff , & ! Quiet = Quiet ) ! ! INPUTS: ! Filename: Character string specifying the name of a ! CloudCoeff format data file to read. ! UNITS: N/A ! TYPE: CHARACTER(*) ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(IN) ! ! OUTPUTS: ! CloudCoeff: CloudCoeff object containing the cloud coefficient data. ! UNITS: N/A ! TYPE: TYPE(CloudCoeff_type) ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT) ! ! OPTIONAL INPUTS: ! Quiet: Set this logical argument to suppress INFORMATION ! messages being printed to stdout ! If == .FALSE., INFORMATION messages are OUTPUT [DEFAULT]. ! == .TRUE., INFORMATION messages are SUPPRESSED. ! If not specified, default is .FALSE. ! UNITS: N/A ! TYPE: LOGICAL ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(IN), OPTIONAL ! ! FUNCTION RESULT: ! Error_Status: The return value is an integer defining the error status. ! The error codes are defined in the Message_Handler module. ! If == SUCCESS, the file read was successful ! == FAILURE, an unrecoverable error occurred. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! !:sdoc-: !------------------------------------------------------------------------------ FUNCTION CloudCoeff_Binary_ReadFile( & Filename , & ! Input CloudCoeff, & ! Output Quiet , & ! Optional input Debug ) & ! Optional input (Debug output control) RESULT( err_stat ) ! Arguments CHARACTER(*), INTENT(IN) :: Filename TYPE(CloudCoeff_type), INTENT(OUT) :: CloudCoeff LOGICAL, OPTIONAL, INTENT(IN) :: Quiet LOGICAL, OPTIONAL, INTENT(IN) :: Debug ! Function result INTEGER :: err_stat ! Function parameters CHARACTER(*), PARAMETER :: ROUTINE_NAME = 'CloudCoeff_ReadFile(Binary)' ! Function variables CHARACTER(ML) :: msg LOGICAL :: noisy INTEGER :: io_stat INTEGER :: fid TYPE(CloudCoeff_type) :: dummy ! Setup err_stat = SUCCESS ! ...Check Quiet argument noisy = .TRUE. IF ( PRESENT(Quiet) ) noisy = .NOT. Quiet ! ...Override Quiet settings if debug set. IF ( PRESENT(Debug) ) THEN IF ( Debug ) noisy = .TRUE. END IF ! Open the file err_stat = Open_Binary_File( Filename, fid ) IF ( err_stat /= SUCCESS ) THEN msg = 'Error opening '//TRIM(Filename) CALL Read_Cleanup(); RETURN END IF ! Read and check the release and version READ( fid,IOSTAT=io_stat ) dummy%Release, dummy%Version IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading Release/Version. IOSTAT = ",i0)' ) io_stat CALL Read_Cleanup(); RETURN END IF IF ( .NOT. CloudCoeff_ValidRelease( dummy ) ) THEN msg = 'CloudCoeff Release check failed.' CALL Read_Cleanup(); RETURN END IF ! Read the cloud coefficient data ! ...Read the dimensions READ( fid,IOSTAT=io_stat ) dummy%n_MW_Frequencies, & dummy%n_MW_Radii , & dummy%n_IR_Frequencies, & dummy%n_IR_Radii , & dummy%n_Temperatures , & dummy%n_Densities , & dummy%n_Legendre_Terms, & dummy%n_Phase_Elements IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading data dimensions. IOSTAT = ",i0)' ) io_stat CALL Read_Cleanup(); RETURN END IF ! ...Allocate the object CALL CloudCoeff_Create( CloudCoeff, & dummy%n_MW_Frequencies, & dummy%n_MW_Radii , & dummy%n_IR_Frequencies, & dummy%n_IR_Radii , & dummy%n_Temperatures , & dummy%n_Densities , & dummy%n_Legendre_Terms, & dummy%n_Phase_Elements ) IF ( .NOT. CloudCoeff_Associated( CloudCoeff ) ) THEN msg = 'CloudCoeff object allocation failed.' CALL Read_Cleanup(); RETURN END IF ! ...Read the dimension vectors READ( fid,IOSTAT=io_stat ) CloudCoeff%Frequency_MW, & CloudCoeff%Frequency_IR, & CloudCoeff%Reff_MW , & CloudCoeff%Reff_IR , & CloudCoeff%Temperature , & CloudCoeff%Density IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading dimension vector data. IOSTAT = ",i0)' ) io_stat CALL Read_Cleanup(); RETURN END IF ! ...Read the microwave liquid phase data READ( fid,IOSTAT=io_stat ) CloudCoeff%ke_L_MW , & CloudCoeff%w_L_MW , & CloudCoeff%g_L_MW , & CloudCoeff%pcoeff_L_MW IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading microwave liquid phase data. IOSTAT = ",i0)' ) io_stat CALL Read_Cleanup(); RETURN END IF ! ...Read the microwave solid phase data READ( fid,IOSTAT=io_stat ) CloudCoeff%ke_S_MW , & CloudCoeff%w_S_MW , & CloudCoeff%g_S_MW , & CloudCoeff%pcoeff_S_MW IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading microwave solid phase data. IOSTAT = ",i0)' ) io_stat CALL Read_Cleanup(); RETURN END IF ! ...Read the infrared data READ( fid,IOSTAT=io_stat ) CloudCoeff%ke_IR , & CloudCoeff%w_IR , & CloudCoeff%g_IR , & CloudCoeff%pcoeff_IR IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading infrared data. IOSTAT = ",i0)' ) io_stat CALL Read_Cleanup(); RETURN END IF ! ...Assign the version number read in CloudCoeff%Version = dummy%Version ! Close the file CLOSE( fid,IOSTAT=io_stat ) IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error closing ",a,". IOSTAT = ",i0)' ) TRIM(Filename), io_stat CALL Read_Cleanup(); RETURN END IF ! Output an info message IF ( noisy ) THEN CALL CloudCoeff_Info( CloudCoeff, msg ) CALL Display_Message( ROUTINE_NAME, 'FILE: '//TRIM(Filename)//'; '//TRIM(msg), INFORMATION ) END IF CONTAINS SUBROUTINE Read_CleanUp() IF ( File_Open(Filename) ) THEN CLOSE( fid,IOSTAT=io_stat ) IF ( io_stat /= 0 ) & msg = TRIM(msg)//'; Error closing input file during error cleanup.' END IF CALL CloudCoeff_Destroy( CloudCoeff ) err_stat = FAILURE CALL Display_Message( ROUTINE_NAME, msg, err_stat ) END SUBROUTINE Read_CleanUp END FUNCTION CloudCoeff_Binary_ReadFile !------------------------------------------------------------------------------ !:sdoc+: ! ! NAME: ! CloudCoeff_Binary_WriteFile ! ! PURPOSE: ! Function to write CloudCoeff object files in Binary format. ! ! CALLING SEQUENCE: ! Error_Status = CloudCoeff_Binary_WriteFile( & ! Filename , & ! CloudCoeff, & ! Quiet = Quiet ) ! ! INPUTS: ! Filename: Character string specifying the name of the ! CloudCoeff format data file to write. ! UNITS: N/A ! TYPE: CHARACTER(*) ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(IN) ! ! CloudCoeff: Object containing the cloud coefficient data. ! UNITS: N/A ! TYPE: TYPE(CloudCoeff_type) ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(IN) ! ! OPTIONAL INPUTS: ! Quiet: Set this logical argument to suppress INFORMATION ! messages being printed to stdout ! If == .FALSE., INFORMATION messages are OUTPUT [DEFAULT]. ! == .TRUE., INFORMATION messages are SUPPRESSED. ! If not specified, default is .FALSE. ! UNITS: N/A ! TYPE: LOGICAL ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(IN), OPTIONAL ! ! FUNCTION RESULT: ! Error_Status: The return value is an integer defining the error status. ! The error codes are defined in the Message_Handler module. ! If == SUCCESS, the file write was successful ! == FAILURE, an unrecoverable error occurred. ! UNITS: N/A ! TYPE: INTEGER ! DIMENSION: Scalar ! ! SIDE EFFECTS: ! - If the output file already exists, it is overwritten. ! - If an error occurs, the output file is deleted before ! returning to the calling routine. ! !:sdoc-: !------------------------------------------------------------------------------ FUNCTION CloudCoeff_Binary_WriteFile( & Filename , & ! Input CloudCoeff, & ! Input Quiet , & ! Optional input Debug ) & ! Optional input (Debug output control) RESULT( err_stat ) ! Arguments CHARACTER(*), INTENT(IN) :: Filename TYPE(CloudCoeff_type), INTENT(IN) :: CloudCoeff LOGICAL, OPTIONAL, INTENT(IN) :: Quiet LOGICAL, OPTIONAL, INTENT(IN) :: Debug ! Function result INTEGER :: err_stat ! Function parameters CHARACTER(*), PARAMETER :: ROUTINE_NAME = 'CloudCoeff_WriteFile(Binary)' CHARACTER(*), PARAMETER :: FILE_STATUS_ON_ERROR = 'DELETE' ! Function variables CHARACTER(ML) :: msg LOGICAL :: noisy INTEGER :: io_stat INTEGER :: fid ! Setup err_stat = SUCCESS ! ...Check Quiet argument noisy = .TRUE. IF ( PRESENT(Quiet) ) noisy = .NOT. Quiet ! ...Override Quiet settings if debug set. IF ( PRESENT(Debug) ) THEN IF ( Debug ) noisy = .TRUE. END IF ! Check the CloudCoeff object ! ...Is there any data? IF ( .NOT. CloudCoeff_Associated( CloudCoeff ) ) THEN msg = 'Input CloudCoeff object is not allocated.' CALL Write_Cleanup(); RETURN END IF ! ...Check if release is valid IF ( .NOT. CloudCoeff_ValidRelease( CloudCoeff ) ) THEN msg = 'CloudCoeff Release check failed.' CALL Write_Cleanup(); RETURN END IF ! Open the file for writing err_stat = Open_Binary_File( Filename, fid, For_Output=SET ) IF ( err_stat /= SUCCESS ) THEN msg = 'Error opening '//TRIM(Filename) CALL Write_Cleanup(); RETURN END IF ! Write the release and version WRITE( fid,IOSTAT=io_stat ) CloudCoeff%Release, CloudCoeff%Version IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error reading Release/Version. IOSTAT = ",i0)' ) io_stat CALL Write_Cleanup(); RETURN END IF ! Write the cloud coefficient data ! ...Write the dimensions WRITE( fid,IOSTAT=io_stat ) CloudCoeff%n_MW_Frequencies, & CloudCoeff%n_MW_Radii , & CloudCoeff%n_IR_Frequencies, & CloudCoeff%n_IR_Radii , & CloudCoeff%n_Temperatures , & CloudCoeff%n_Densities , & CloudCoeff%n_Legendre_Terms, & CloudCoeff%n_Phase_Elements IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error writing data dimensions. IOSTAT = ",i0)' ) io_stat CALL Write_Cleanup(); RETURN END IF ! ...Write the dimension vectors WRITE( fid,IOSTAT=io_stat ) CloudCoeff%Frequency_MW, & CloudCoeff%Frequency_IR, & CloudCoeff%Reff_MW , & CloudCoeff%Reff_IR , & CloudCoeff%Temperature , & CloudCoeff%Density IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error writing dimension vector data. IOSTAT = ",i0)' ) io_stat CALL Write_Cleanup(); RETURN END IF ! ...Write the microwave liquid phase data WRITE( fid,IOSTAT=io_stat ) CloudCoeff%ke_L_MW , & CloudCoeff%w_L_MW , & CloudCoeff%g_L_MW , & CloudCoeff%pcoeff_L_MW IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error writing microwave liquid phase data. IOSTAT = ",i0)' ) io_stat CALL Write_Cleanup(); RETURN END IF ! ...Write the microwave solid phase data WRITE( fid,IOSTAT=io_stat ) CloudCoeff%ke_S_MW , & CloudCoeff%w_S_MW , & CloudCoeff%g_S_MW , & CloudCoeff%pcoeff_S_MW IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error writing microwave solid phase data. IOSTAT = ",i0)' ) io_stat CALL Write_Cleanup(); RETURN END IF ! ...Write the infrared data WRITE( fid,IOSTAT=io_stat ) CloudCoeff%ke_IR , & CloudCoeff%w_IR , & CloudCoeff%g_IR , & CloudCoeff%pcoeff_IR IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error writing infrared data. IOSTAT = ",i0)' ) io_stat CALL Write_Cleanup(); RETURN END IF ! Close the file CLOSE( fid,STATUS='KEEP',IOSTAT=io_stat ) IF ( io_stat /= 0 ) THEN WRITE( msg,'("Error closing ",a,". IOSTAT = ",i0)' ) TRIM(Filename), io_stat CALL Write_Cleanup(); RETURN END IF ! Output an info message IF ( noisy ) THEN CALL CloudCoeff_Info( CloudCoeff, msg ) CALL Display_Message( ROUTINE_NAME, 'FILE: '//TRIM(Filename)//'; '//TRIM(msg), INFORMATION ) END IF CONTAINS SUBROUTINE Write_CleanUp() IF ( File_Open(Filename) ) THEN CLOSE( fid,STATUS=WRITE_ERROR_STATUS,IOSTAT=io_stat ) IF ( io_stat /= 0 ) & msg = TRIM(msg)//'; Error deleting output file during error cleanup.' END IF err_stat = FAILURE CALL Display_Message( ROUTINE_NAME, msg, err_stat ) END SUBROUTINE Write_CleanUp END FUNCTION CloudCoeff_Binary_WriteFile !-------------------------------------------------------------------------------- !:sdoc+: ! ! NAME: ! CloudCoeff_Binary_IOVersion ! ! PURPOSE: ! Subroutine to return the module version information. ! ! CALLING SEQUENCE: ! CALL CloudCoeff_Binary_IOVersion( Id ) ! ! OUTPUT ARGUMENTS: ! Id: Character string containing the version Id information ! for the module. ! UNITS: N/A ! TYPE: CHARACTER(*) ! DIMENSION: Scalar ! ATTRIBUTES: INTENT(OUT) ! !:sdoc-: !-------------------------------------------------------------------------------- SUBROUTINE CloudCoeff_Binary_IOVersion( Id ) CHARACTER(*), INTENT(OUT) :: Id Id = MODULE_VERSION_ID END SUBROUTINE CloudCoeff_Binary_IOVersion END MODULE CloudCoeff_Binary_IO