- •Important Information
- •Warranty
- •Copyright
- •Trademarks
- •Organization of This Manual
- •Conventions Used in This Manual
- •Related Documentation
- •Customer Communication
- •Introduction
- •Classes of External Code
- •Supported Languages
- •Macintosh
- •Microsoft Windows 3.1
- •Microsoft Windows 95 and Windows NT
- •Solaris
- •Steps for Creating a CIN
- •1. Place the CIN on a Block Diagram
- •2. Add Input and Output Terminals to the CIN
- •Input-Output Terminals
- •Output-Only Terminals
- •3. Wire the Inputs and Outputs to the CIN
- •4. Create .c File
- •Special Macintosh Considerations
- •5. Compile the CIN Source Code
- •Macintosh
- •THINK C for 68K (Versions 5-7)
- •Symantec C++ 8.0 for Power Macintosh
- •Metrowerks CodeWarrior for 68K
- •Metrowerks CodeWarrior for Power Macintosh
- •Microsoft Windows 3.x
- •Watcom C Compiler
- •Microsoft Windows 95 and Windows NT
- •Microsoft SDK C/C++ Compiler
- •Visual C++ for Windows 95 or Windows NT
- •Solaris 1.x
- •Solaris 2.x
- •6. Load the CIN Object Code
- •LabVIEW Manager Routines
- •Online Reference
- •Pointers as Parameters
- •Debugging External Code
- •DbgPrintf
- •Debugging CINs Under Windows 95 and Windows NT
- •Debugging CINs Under Sun or Solaris
- •Debugging CINs Under HP-UX
- •Introduction
- •CIN .c File
- •How LabVIEW Passes Fixed Sized Data to CINs
- •Scalar Numerics
- •Scalar Booleans
- •Refnums
- •Clusters of Scalars
- •Return Value for CIN Routines
- •Examples with Scalars
- •1. Place the CIN on the Block Diagram
- •2. Add Two Input and Output Terminals to the CIN
- •3. Wire the Inputs and Outputs to the CIN
- •4. Create the CIN Source Code
- •5. Compile the CIN Source Code
- •Macintosh
- •THINK C for 68K and Symantec C++
- •Microsoft Windows 3.x
- •Watcom C Compiler
- •Microsoft Windows 95 and Windows NT
- •Microsoft SDK Compiler
- •Microsoft Visual C++ Compiler
- •Solaris 1.x, Solaris 2.x, and HP-UX
- •6. Load the CIN Object Code
- •Comparing Two Numbers, Producing a Boolean Scalar
- •How LabVIEW Passes Variably Sized Data to CINs
- •Alignment Considerations
- •Arrays and Strings
- •Paths (Path)
- •Clusters Containing Variably Sized Data
- •Resizing Arrays and Strings
- •SetCINArraySize
- •NumericArrayResize
- •Examples with Variably Sized Data
- •Concatenating Two Strings
- •Working with Clusters
- •CIN Routines
- •Data Spaces and Code Resources
- •CIN Routines: The Basic Case
- •Loading a VI
- •Unloading a VI
- •Loading a New Resource into the CIN
- •Compiling a VI
- •Running a VI
- •Saving a VI
- •Aborting a VI
- •Multiple References to the Same CIN
- •Reentrancy
- •Code Globals and CIN Data Space Globals
- •Examples
- •Using Code Globals
- •Using CIN Data Space Globals
- •Calling a Windows 3.1 Dynamic Link Library
- •Calling a 16-Bit DLL
- •1. Load the DLL
- •2. Get the address of the desired function
- •3. Describe the function
- •4. Call the function
- •Example: A CIN that Displays a Dialog Box
- •The Block Diagram
- •The CIN Code
- •Compiling the CIN
- •Optimization
- •Introduction
- •Creating Shared External Subroutines
- •External Subroutine
- •Macintosh
- •THINK C Compiler and CodeWarrior 68K Compiler
- •MPW Compiler
- •Solaris 1.x, Solaris 2.x, and HP-UX
- •Calling Code
- •Macintosh
- •THINK C Compiler
- •CodeWarrior 68K Compiler
- •MPW Compiler
- •Solaris 1.x, Solaris 2.x, and HP-UX
- •Simple Example
- •External Subroutine Example
- •Compiling the External Subroutine
- •Macintosh
- •THINK C Compiler and CodeWarrior 68K Compiler
- •MPW Compiler
- •Microsoft Windows 3.1
- •Watcom C Compiler
- •Microsoft Windows 95 and Windows NT
- •Solaris 1.x, Solaris 2.x, and HP-UX
- •Calling Code
- •Compiling the Calling Code
- •Macintosh
- •THINK C Compiler
- •CodeWarrior 68K Compiler
- •MPW Compiler
- •Microsoft Windows 3.1
- •Watcom C Compiler
- •Microsoft Windows 95 and Windows NT
- •Solaris 1.x, Solaris 2.x, and HP-UX
- •Introduction
- •Basic Data Types
- •Scalar Data Types
- •Booleans
- •Numerics
- •Complex Numbers
- •char Data Type
- •Dynamic Data Types
- •Arrays
- •Strings
- •C-Style Strings (CStr)
- •Pascal-Style Strings (PStr)
- •LabVIEW Strings (LStr)
- •Concatenated Pascal String (CPStr)
- •Paths (Path)
- •Memory-Related Types
- •Constants
- •Memory Manager
- •Memory Allocation
- •Static Memory Allocation
- •Dynamic Memory Allocation: Pointers and Handles
- •Memory Zones
- •Using Pointers and Handles
- •Simple Example
- •Reference to the Memory Manager
- •Memory Manager Data Structures
- •File Manager
- •Introduction
- •Identifying Files and Directories
- •Path Specifications
- •Conventional Path Specifications
- •Empty Path Specifications
- •LabVIEW Path Specification
- •File Descriptors
- •File Refnums
- •Support Manager
- •Allocating and Releasing Handles
- •Allocating and Releasing Pointers
- •Manipulating Properties of Handles
- •AZHLock
- •AZHPurge
- •AZHNoPurge
- •AZHUnlock
- •Memory Utilities
- •ClearMem
- •MoveBlock
- •SwapBlock
- •Handle and Pointer Verification
- •Memory Zone Utilities
- •File Manager Data Structures
- •File/Directory Information Record
- •File Type Record
- •Path Data Type
- •Permissions
- •Volume Information Record
- •File Manager Functions
- •Performing Basic File Operations
- •FCreate
- •FCreateAlways
- •FMClose
- •FMOpen
- •FMRead
- •FMWrite
- •Positioning the Current Position Mark
- •FMSeek
- •FMTell
- •Positioning the End-Of-File Mark
- •FGetEOF
- •FSetEOF
- •Flushing File Data to Disk
- •FFlush
- •FExists
- •FGetAccessRights
- •FGetInfo
- •FGetVolInfo
- •FSetAccessRights
- •FSetInfo
- •Getting Default Access Rights Information
- •FGetDefGroup
- •FListDir
- •FNewDir
- •Copying Files
- •FCopy
- •Moving and Deleting Files and Directories
- •FMove
- •FRemove
- •Locking a File Range
- •FLockOrUnlockRange
- •Matching Filenames with Patterns
- •FStrFitsPat
- •Creating Paths
- •FAddPath
- •FAppendName
- •FAppPath
- •FEmptyPath
- •FMakePath
- •FNotAPath
- •FRelPath
- •Disposing Paths
- •FDisposePath
- •Duplicating Paths
- •FPathCpy
- •FPathToPath
- •Extracting Information from a Path
- •FDepth
- •FDirName
- •FName
- •FNamePtr
- •FVolName
- •FArrToPath
- •FFlattenPath
- •FPathToArr
- •FPathToAZString
- •FPathToDSString
- •FStringToPath
- •FTextToPath
- •FUnFlattenPath
- •Comparing Paths
- •FIsAPath
- •FIsAPathOrNotAPath
- •FIsEmptyPath
- •FPathCmp
- •Determining a Path Type
- •FGetPathType
- •FIsAPathOfType
- •FSetPathType
- •Manipulating File Refnums
- •FDisposeRefNum
- •FIsARefNum
- •FNewRefNum
- •FRefNumToFD
- •FRefNumToPath
- •Byte Manipulation Operations
- •Mathematical Operations
- •For THINK C Users
- •RandomGen
- •String Manipulation
- •BlockCmp
- •CPStrCmp
- •CPStrIndex
- •CPStrInsert
- •CPStrRemove
- •CPStrReplace
- •CPStrSize
- •CToPStr
- •HexChar
- •IsAlpha
- •IsDigit
- •IsLower
- •IsUpper
- •LStrCmp
- •LToPStr
- •PPStrCaseCmp
- •PPStrCmp
- •PStrCaseCmp
- •PStrCat
- •PStrCmp
- •PStrCpy
- •PStrNCpy
- •PToCStr
- •PToLStr
- •StrCat
- •StrCmp
- •StrCpy
- •StrLen
- •StrNCaseCmp
- •StrNCmp
- •StrNCpy
- •ToLower
- •ToUpper
- •Utility Functions
- •BinSearch
- •QSort
- •Time Functions
- •ASCIITime
- •DateCString
- •DateToSecs
- •MilliSecs
- •SecsToDate
- •TimeCString
- •TimeInSecs
- •Microsoft Windows 3.1, Windows 95, and Windows NT
- •Macintosh
- •How do I debug my CIN?
- •Can LabVIEW be used to call a DLL in Windows?
- •Glossary
- •Index
Chapter 7 File Manager Functions
The function fills the (AZ) handle passed in list with a CPStr, where the cnt field specifies the number of concatenated Pascal strings that follow in the str[] field. See the Dynamic Data Types section of Chapter 5, Manager Overview, for a description of the CPStr data type. If typeH is not NULL, the function fills the AZ handle passed in typeH with the file type information for each file name or directory name stored in list.
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Parameter |
Type |
Description |
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path |
Path |
Path of the directory whose contents you want to |
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determine. |
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list |
CPStrHandle |
Application zone handle in which FListDir |
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stores a series of concatenated Pascal strings, |
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preceded with a 4-byte integer field, cnt, that |
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indicates the number of items in the buffer. |
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typeH |
FileType |
Application zone handle in which FListDir |
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stores a series of FileType records. If typeH is |
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not NULL, then FListDir stores one FileType |
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record in typeH for each Pascal string in list. The |
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nth FileType in typeH denotes the file type |
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information about the file or directory named in the |
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nth string in list. See the File Manager Data |
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Structures section of this chapter for a description of |
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the FileType data type. |
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returns |
MgErr, which can contain the errors in the following list. |
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Error |
Description |
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mgArgErr |
A bad argument was passed to the function. Verify path. |
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fNotFound |
Directory not found. |
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fNoPerm |
Access denied (file/directory/disk is locked/protected). |
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mFullErr |
Insufficient memory. |
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fIOErr |
Unspecified I/O error occurred. |
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FNewDir
syntax MgErr FNewDir(path, permissions);
FNewDir creates a new directory with the specified permissions. If an error occurs, the function does not create the directory.
Parameter |
Type |
Description |
path |
Path |
Path of the directory you want to create. |
LabVIEW Code Interface Reference Manual |
7-18 |
National Instruments Corporation |