Opens a file for sequential access.
OPENSEQ filename TO filevar [LOCKED statements] [ON ERROR statements] [THEN statements] [ELSE statements]
|The file to be opened. A fully-qualified Windows or UNIX® file pathname, specified as a quoted string. For two-part versions of this argument, see the Emulation section below.|
||A file variable name used to refer to the file in Caché MVBasic.
OPENSEQ statement is used to open a file for sequential access. This can be an existing file or a new file. It assigns the file to filevar.
You can optionally specify a LOCKED clause, which is executed if
OPENSEQ could not open the specified file due to lock contention. The LOCKED clause is optional, but strongly recommended; if no LOCKED clause is specified, program execution waits indefinitely for the conflicting lock to be released. The statements argument can be the NULL placeholder keyword, a single statement, or a block of statements terminated by the END keyword. A block of statements has specific line break requirements: each statement must be on its own line; there must be a line break between the LOCKED keyword and the first line.
You can optionally specify an ON ERROR clause, which is executed if the file could not be opened. If no ON ERROR clause is present, the ELSE clause is taken for this type of error condition. The
statements argument can be the NULL placeholder keyword, a single statement, or a block of statements terminated by the END keyword. A block of statements has specific line break requirements: each statement must be on its own line; there must be a line break between the ON ERROR keyword and the first line.
You can optionally specify a THEN clause, an ELSE clause, or both a THEN and an ELSE clause. If the file open is successful (the specified file exists), the THEN clause is executed. If file open fails (the specified file does not exist), the ELSE clause is executed. The
statements argument can be the NULL keyword, a single statement, or a block of statements terminated by the END keyword. A block of statements has specific line break requirements: each statement must be on its own line and cannot follow a THEN, ELSE, or END keyword on that line.
You can use the
STATUS function to determine the status of the sequential file open operation, as follows: 0=success; -1=file does not exist.
To create a file, you must first issue an
OPENSEQ statement, giving the fully-qualified pathname for the file you wish to create. Because the file does not yet exist, the OPENSEQ appears to fail, taking its ELSE clause and setting the value returned by the STATUS function to -1. However, the OPENSEQ sets its filevar to an identifier for the specified file. You then supply this filevar to CREATE to create the new file.
filename must be a fully-qualified pathname. The directories specified in filename must exist for a file create to be successful. Pathnames are not case-sensitive; however, case is preserved when you specify a filename to create a sequential file.
After opening a file, you can use the
STATUS statement to obtain file status information. You can use READBLK, READSEQ, WRITEBLK, and WRITESEQ to perform sequential read and write operations. You can use CLOSESEQ to release an open file, making it available to other processes.
OPENSEQ gives the process exclusive access to the specified file. An OPENSEQ locks the file against an OPENSEQ issued by any other process. This lock persists until the process that opened the file releases the lock, by issuing a CLOSE, a CLOSESEQ, or a RELEASE statement.
OPENSEQ for a non-existent file also performs an exclusive file lock, so that your process can issue a CREATE to create this file. A CLOSE or CLOSESEQ releases this file lock, whether or not the file has been successfully created.
OPENSEQ without a LOCKED clause attempts to open a file already opened by another process, the OPENSEQ waits until the first process closes (or releases) the desired file. If an OPENSEQ with a LOCKED clause attempts to open a file already opened by another process, the OPENSEQ concludes by executing the LOCKED clause statements. The ELSE clause is not invoked because of lock contention.
FILEINFO and @FILENAME
You can use the
FILEINFO function to return sequential file information, including whether a specified filevar has been defined ( key=0) and the filename specified in OPENSEQ for that filevar ( key=2). The @FILENAME system variable also contains the filename specified in the most recent OPENSEQ.
In both cases, the file does not have to exist; if
OPENSEQ specifies a non-existent file, both FILEINFO and @FILENAME return the specified pathname as a directory path. Subsequently creating this file does not change the FILEINFO and @FILENAME pathname values. If the file does not exist, the FILEINFO file type ( key=3) is 0. Creating the file changes this FILEINFO file type to 5.
Sequential File I/O Buffering
By default, sequential file I/O is performed using I/O buffering. This buffer is automatically assigned as part of the
OPENSEQ operation. I/O buffering significantly improves overall performance, but means that write operations are not immediately applied to the sequential file.
Caché MVBasic provides two statements that override I/O buffering. The
FLUSH statement immediately writes the current contents of the I/O buffer to the sequential file. The NOBUF statement disables the I/O buffer for the duration of the sequential file open. That is, all subsequent I/O write operations are immediately executed on the sequential file.
For jBASE emulation, the
filename argument can be specified with a two-part path,filename syntax. When executed, the two parts are concatenated together, with a delimiter added to the end of path, when necessary. For example, OPENSEQ 'c:\temp\','mytest.txt' TO FD or OPENSEQ 'c:\temp','mytest.txt' TO FD.
For other emulation modes, the
filename argument can be specified with a two-part file,itemID syntax. The file part is a dir-type file defined in the VOC master dictionary, and the itemID part is an operating system file within that directory.
The following example opens a sequential file on a Windows system and writes a line to it. If the file does not exist, it creates the file:
filename='c:\myfiles\test1' OPENSEQ filename TO mytest ELSE STOP 201,filename IF STATUS()=0 THEN WRITESEQ "John Doe" TO mytest CLOSESEQ mytest END ELSE CREATE mytest IF STATUS()=0 THEN WRITESEQ "John Doe" TO mytest CLOSESEQ mytest END ELSE PRINT "File create failed" END END