VMS Help PSM Routines, USER-INPUT-ROUTINE, Function Codes for Input Routines *Conan The Librarian (sorry for the slow response - running on an old VAX) |
PSM$K_CLOSE When the symbiont calls your routine with this function code, your routine must terminate processing by releasing any resources it might have allocated. The symbiont calls your routine with PSM$K_CLOSE when (1) your routine returns from a PSM$K_READ function call with the status PSM$_EOF (end of input) or with any error condition, or (2) the symbiont receives a task-abortion request from the job controller. In any event, the symbiont always calls your input routine with PSM$K_CLOSE if your routine returns successfully from a PSM$K_OPEN function call. This guaranteed behavior ensures that any resources your routine might have allocated on the OPEN will be released on the CLOSE. PSM$K_GET_KEY Typically, the use of both the PSM$K_GET_KEY and PSMK$K_POSITION_ TO_KEY function codes is appropriate only for a main input routine (routine code PSM$K_MAIN_INPUT). When the symbiont calls your routine with this function code, your routine can do one of two things: (1) return PSM$_FUNNOTSUP (function not supported) or (2) return an input marker string to the symbiont. If your routine returns PSM$_FUNNOTSUP to this function code, then your routine must also return PSM$_FUNNOTSUP if the symbiont subsequently calls your routine with the PSM$K_POSITION_TO_KEY function code. By returning PSM$_FUNNOTSUP, your routine is choosing not to respond to the symbiont request. If your routine chooses to respond to the PSM$K_GET_KEY function code, your routine must return an input marker string to the symbiont; this input marker string identifies the input record that your input routine most recently returned to the symbiont. Subsequently, when the symbiont calls your input routine with the PSM$K_POSITION_TO_KEY function code, the symbiont passes your input routine one of the input marker strings that your input routine has returned on a previous PSM$K_GET_KEY function call. Using this marker string, your input routine must position itself so that, on the next PSM$K_READ call from the symbiont, your input routine will return (or reread) the input record identified by the marker string. Coding your input routine to respond to PSM$K_GET_KEY and PSM$K_POSITION_TO_KEY allows the modified symbiont to perform the file-positioning functions specified by the DCL commands START/QUEUE/FORWARD, START/QUEUE/ALIGN, START/QUEUE/TOP_OF_ FILE, START/QUEUE/SEARCH, and START/QUEUE/BACKWARD. These file positioning functions also depend on the job controller's checkpointing capability for print jobs. Note that your input routine might be called with a marker string that was originally returned in a different process context from the current one. This can occur because marker strings are sometimes stored in the queue-data file across system shutdowns or different invocations of your symbiont. The funcdesc argument specifies the address of a string descriptor. Your routine must return the marker string by way of this argument. Compaq recommends that you use one of the Run- Time Library string routines to copy the marker string to the descriptor. The symbiont periodically calls your input routine with the PSM$K_GET_KEY function code when the symbiont wants to save a marker to a particular input record. PSM$K_OPEN When the symbiont calls your routine with this function code, your routine should prepare for input operations by performing such tasks as allocating necessary resources, initializing storage areas, opening an input file, and so on. Typically, the next time the symbiont calls your input routine, the symbiont will specify the PSM$K_READ function code. Note, however, that under some circumstances the symbiont might follow an OPEN call immediately with a CLOSE call. The funcdesc argument points to the name of the file to be opened. Your routine can use this file specification or the file identification to open the file. The funcarg argument specifies the address of a longword. Your input routine must return, in this longword, the carriage control type that is to be applied to the input records that your input routine will provide. The symbiont formatting routine requires this information to determine where to apply leading and trailing carriage control characters to the input records that your input routine will provide. The $PSMDEF macro defines the following four carriage control types: Carriage Control Type Description PSM$K_CC_ Implied carriage control. For this type, the IMPLIED symbiont inserts a leading line feed (LF) and trailing carriage return (CR) in each input record. This is the default carriage control type; it is used if your routine does not supply a carriage control type in the funcarg argument in response to the PSM$K_OPEN function call. PSM$K_CC_ Fortran carriage control. For this type, the FORTRAN symbiont extracts the first byte of each input record and interprets the byte as a Fortran carriage control character, which it then applies to the input record. PSM$K_CC_PRINT PRN carriage control. For this type, the symbiont generates carriage control from a 2-byte record header that your input routine supplies, with each READ call, in the funcarg argument. The funcarg argument specifies the address of a longword to receive this 2-byte header record, which appears only in PRN print files. PSM$K_CC_ Embedded carriage control. For this type, the INTERNAL symbiont supplies no carriage control to input records. Carriage control is assumed to be embedded in the input records. PSM$K_POSITION_TO_KEY When the symbiont calls your routine with this function code, your routine must locate the point in the input stream designated by the marker string that your routine returned to the symbiont on the PSM$K_GET_KEY function call. The next time the symbiont calls your routine, the symbiont specifies the PSM$K_READ function call, expecting to receive the next sequential input record. After rereading this record, subsequent READ calls proceed from this new position of the file. This is not a one-time rereading of a single record but a repositioning of the file. The symbiont calls your routine with this function code when the job controller receives a request to resume printing at a particular page. Refer to the description of the PSM$K_GET_KEY for more information. PSM$K_READ When the symbiont calls your routine with this function code, your routine must return an input record. The symbiont repeatedly calls your input routine with the PSM$K_READ function code until: (1) your routine indicates end of input by returning the status PSM$_EOF, (2) your routine or another routine returns an error status, or (3) the symbiont receives an asynchronous task-abortion request from the job controller. The funcdesc argument specifies the address of a string descriptor. Your routine must return the input record by using this argument. Compaq recommends that you use one of the Run- Time Library string routines to copy the input record to the descriptor. The funcarg argument specifies the address of a longword. This argument is used only if the carriage control type returned by your input routine on the PSM$K_OPEN function call was PSM$K_ CC_PRINT. In this case, your input routine must supply, in the funcarg argument, the 2-byte record header found at the beginning of each input record. PSM$K_REWIND When the symbiont calls your routine with this function code, your routine must do one of two things: (1) return PSM$_ FUNNOTSUP (function not supported) or (2) locate the point in the input stream designated as the beginning of the file. If your routine returns PSM$_FUNNOTSUP to this function code, then the symbiont subsequently calls your input routine with a PSM$K_CLOSE function call followed by a PSM$K_OPEN function call. By returning PSM$_FUNNOTSUP, your routine is choosing not to support the repositioning of the input service to the beginning of the file. The symbiont, therefore, performs the desired function by closing and then reopening the input routine. You cannot use the funcdesc and the funcarg arguments with this function code. This function call allows the modified symbiont to perform the file-positioning functions specified by the DCL commands START/QUEUE/TOP_OF_FILE, START/QUEUE/FORWARD, START/QUEUE/BACKWARD, START/QUEUE/SEARCH, and START/QUEUE/ALIGN. This is a required repositioning of the file. Other Input Function Codes The symbiont can call your input routine with other function codes. Your routine must return the status PSM$_FUNNOTSUP (function not supported) when it is called with any of the following function codes or with any undocumented function code. When the status PSM$_FUNNOTSUP is returned, the symbiont performs its normal action as if no input routine were supplied. To suppress the symbiont's normal action, you should return SS$_ NORMAL. PSM$K_START_STREAM PSM$K_STOP_STREAM PSM$K_START_TASK PSM$K_PAUSE_TASK PSM$K_RESUME_TASK PSM$K_STOP_TASK PSM$K_RESET_STREAM These function codes correspond to message items sent by the job controller to the symbiont. Other function codes correspond to internal symbiont mechanisms that are not part of the public interface to the print symbiont. Your input routine should return the status PSM$_FUNNOTSUP or SS$_NORMAL when it is called with a message function code or with a private function code. funcdesc OpenVMS usage:char_string type: character string access: read only mechanism: by descriptor Function descriptor supplying information related to the function specified by the func argument. The funcdesc argument is the address of this descriptor. The contents of the function descriptor can vary for each function. Refer to the description of each function code to determine the contents of the function descriptor. In some cases, the function descriptor is not used at all. funcarg OpenVMS usage:longword_unsigned type: longword (unsigned) access: read only mechanism: by reference Function argument supplying information related to the function specified by the func argument. The funcarg argument is the address of a longword containing this function argument. This argument can be an input or an output argument, depending on the function request, but is usually used as an output argument.
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