Library /sys$common/syshlp/helplib.hlb  —  MACRO  /ALPHA  Supplied Library Macros, $ROUTINE  Parameters
 NAME

    The name of the routine. This argument is required for all
    procedure kinds. There is no default. For example:

    NAME=FOOZLE

 ALIASES

    List of alias names for the routine. This argument is optional
    for all procedure types. There is no default. For example:

    ALIASES=<FOO,BAR,FOOBAR,foo,bar,foobar,Foo,Bar,FooBar>

 LOCAL

    Boolean value indicating whether the routine is local (TRUE) or
    externally visible (FALSE). This argument is optional for all
    procedure kinds. The default is FALSE. For example:

    LOCAL=TRUE

 STANDARD_PROLOGUE

    Specifies a Boolean value to indicate whether $ROUTINE should
    generate a standard instruction prologue sequence at the
    beginning of the routine's code section. This argument is
    optional and valid only with REGISTER and STACK procedures. If
    the procedure type is stack or register, the default is TRUE and
    $ROUTINE generates a standard prologue sequence. The prologue
    sequence generated by $ROUTINE saves the registers you specify
    with the SAVED_REGS argument and performs stack-frame management
    as necessary.

    If you also specify BASE_REG_IS_FP=FALSE, the standard prologue
    sequence generated by $ROUTINE makes a copy of the procedure
    descriptor address that is in R27 upon entry into R29 (FP). While
    you cannot change the value in R29 before the epilogue, you can
    use R29 as a working, linkage-section register. If you specify
    the STANDARD_PROLOGUE argument as FALSE, you must code your own
    prologue sequence and mark the end of the prologue with the $END_
    PROLOGUE macro. Whether or not you specify STANDARD_PROLOGUE as
    TRUE or accept the default, you can generate a standard epilogue
    sequence for stack and register procedures with the $RETURN
    macro. For example:

    STANDARD_PROLOGUE=FALSE

 ENTRY

    The name of the code-entry point. This argument is the code
    entry-point label that $ROUTINE defines for you at the beginning
    of the code section for the routine. If this argument is omitted,
    $ROUTINE generates a label. For example:

    ENTRY=FOOZLE_ENTRY

 CODE_SECTION

    The psect name and attributes of the code section. This argument
    is optional for all procedure kinds. If omitted, the default
    is the name and attributes defined by the $CODE$ lexical string
    symbol. If you specify a name and attributes for the CODE_SECTION
    argument, $ROUTINE redefines the $CODE$ lexical string symbol
    such that the specified values become the new default. Initially,
    $CODE$ is defined as follows:

    $CODE$ = "$CODE$,OCTA,PIC,CON,REL,LCL,SHR,EXE,NORD,NOWRT"

    Since you must delimit the psect name and attributes using
    commas, be sure to enclose this argument within angle brackets
    to avoid having the assembler interpret the name and attributes
    as different arguments to $ROUTINE. For example:

    CODE_SECTION=<MY_CODE,EXE,QUAD,NOWRT>

 DATA_SECTION

    The psect name and attributes of the data section. This argument
    is optional for all procedure kinds. If omitted, the default
    is the name and attributes defined by the $DATA$ lexical string
    symbol. If you specify a name and attributes for the DATA_SECTION
    argument, $ROUTINE redefines the $DATA$ lexical string symbol
    such that the specified values become the new default. Initially,
    $DATA$ is defined as follows:

    $DATA$ = "$DATA$,OCTA,NOPIC,CON,REL,LCL,NOSHR,NOEXE,RD,WRT"

    Since you must delimit the psect name and attributes using
    commas, be sure to enclose this argument within angle brackets
    to avoid having the assembler interpret the name and attributes
    as different arguments to $ROUTINE. For example:

    DATA_SECTION=<MY_DATA,NOEXE,QUAD,RD,WRT>

 DATA_SECTION_POINTER

    Boolean value indicating whether $ROUTINE should store a pointer
    to the data section in the linkage section and define $DP as
    the address of that pointer. This argument is optional for all
    procedure kinds. The default is FALSE. For example:

    DATA_SECTION_POINTER=TRUE

    You can use the DATA_SECTION_POINTER argument as follows:

             $ROUTINE TALLY_HO, DATA_SECTION_POINTER=TRUE
             $DATA_SECTION
     TALLY:  .QUAD 0
             $CODE_SECTION
             .BASe       R27, $LS  ; Inform assembler that R27->$LS
             LDQ         R1, $DP   ; R1->$DS
             .BASE R1,$DS          ;Inform assembler that R1-$DS
             LDQ         R0, TALLY ; R0<-TALLY
             LDA         R0, 1(R0) ; R0<-R0++
             STQ         R0, TALLY ; TALLY<-R0
             RET         (R26)     ; Return
             $END_ROUTINE TALLY_HO

    In this example, the DATA_SECTION_POINTER argument is specified
    in order to obtain linkage to the data section. The first LDQ
    instruction loads R1 with the pointer to the data section
    that $ROUTINE stores in the linkage section. The next three
    instructions increment the value in the TALLY variable in the
    data section. Finally, the routine returns the incremented value
    to its caller in R0.

 LINKAGE_SECTION

    The psect name and attributes of the linkage section. This
    argument is optional for all procedure kinds. If omitted, the
    default is the name and attributes defined by the $LINK$ lexical
    string symbol. If you specify a name and attributes for the
    LINKAGE_SECTION argument, $ROUTINE redefines the $LINK$ lexical
    string symbol such that the specified values become the new
    default. Initially, $LINK$ is defined as follows:

    $LINK$ = "$LINK$,OCTA,NOPIC,CON,REL,LCL,NOSHR,NOEXE,RD,NOWRT"

    Since you must delimit the psect name and attributes using
    commas, be sure to enclose this argument within angle brackets
    to avoid having the assembler interpret the name and attributes
    as different arguments to $ROUTINE. For example:

    LINKAGE_SECTION=<MY_LINK,NOEXE,QUAD,RD,NOWRT>

 KIND

    Specifies the kind of routine being defined. This must be one
    of the following: STACK, REGISTER, NULL, or BOUND. This is an
    optional argument. The default is NULL. For example:

    KIND=STACK

 HANDLER_REINVOKABLE

    Specifies a Boolean value to indicate whether the condition
    handler can be re-invoked. This argument is optional and valid
    only with STACK and REGISTER procedures. It defaults to FALSE
    if no value is specified and the procedure kind is STACK or
    REGISTER. Note that this argument is only valid if a value is
    also specified for the HANDLER argument. For example:

    HANDLER_REINVOKABLE=TRUE

 BASE_REG_IS_FP

    Specifies a Boolean value to indicate whether register R29
    (FP) is used as the frame-pointer base register (TRUE) or not
    (FALSE). If specified as FALSE, R29 must be used to hold the
    address of the procedure descriptor (or the address of the
    address of the procedure descriptor-see the OpenVMS Calling
    Standard. You can use R29 to hold a working copy of the linkage-
    section address passed in R27. In addition, your prologue and
    epilogue instruction sequences can be shorter and more efficient.
    However, you cannot make standard calls to other routines if
    BASE_REG_IS_FP is specified as FALSE. This argument is optional
    and valid only with stack and register procedure kinds. It
    defaults to TRUE if the procedure type is stack or register.
    For example:

    BASE_REG_IS_FP=FALSE

 REI_RETURN

    Specifies a Boolean value to indicate whether this routine
    returns using an REI instruction. This argument is optional and
    valid only with STACK, REGISTER, and NULL procedure kinds. It
    defaults to FALSE if the procedure kind is STACK, REGISTER, or
    NULL. For example:

    REI_RETURN=TRUE

 STACK_RETURN_VALUE

    This argument is obsolete. Do not specify this argument.

 RSA_OFFSET

    An integer value specifying the stack offset (in bytes) of the
    register save area. This argument is optional and valid only
    for STACK procedures. If you specify BASE_REG_IS_FP as TRUE,
    the value you specify with RSA_OFFSET must be at least 8. RSA_
    OFFSET defaults to 8 if BASE_REG_IS_FP is specified as TRUE, 0
    otherwise. For example:

    RSA_OFFSET=32

 SAVE_FP

    The register that contains a copy of the value of FP (R29) upon
    entry to this routine. The prologue instruction sequence must
    copy FP to the register specified by SAVE_FP and the epilogue
    instruction sequence(s) must restore FP from the register
    specified by SAVE_FP. This argument is required and only valid
    for REGISTER procedures. There is no default. For example:

    SAVE_FP=R1

 SAVE_RA

    The register that contains the return address. This argument
    is optional and only valid for REGISTER procedures. If SAVE_RA
    is not R26, the prologue instruction sequence must copy R26 to
    the register specified by SAVE_RA and the epilogue instruction
    sequence(s) must use the return address stored in the register
    specified by SAVE_FP to affect its return to caller. SAVE_RA
    defaults to R26 if the procedure kind is REGISTER. For example:

    SAVE_RA=R22

 SIZE

    A numeric value that must be a multiple of 16 specifying the
    size of the fixed-stack area in bytes. This parameter is valid
    only for REGISTER and STACK procedure kinds. It defaults to the
    minimum value possible given the other arguments you specify or
    default. $ROUTINE computes the amount of stack storage needed for
    the register save area (if any) and defines the $RSA_END symbol
    to be the offset of the first byte beyond the register save area.
    If you wish to allocate a fixed area of stack beyond the register
    save area, you can specify an expression with the SIZE argument
    that includes the term $RSA_END plus the amount of fixed-stack
    storage you need for your application. For example:

    SIZE=$RSA_END+32

 SAVED_REGS

    A list of registers saved on the stack by the prologue code of
    this routine. It is valid only for STACK procedures and you must
    specify at least FP (R29) with this argument. It defaults to FP
    (R29) for STACK procedures. For example:

    SAVED_REGS=<R5,FP,F2,F3,F4>

    The OpenVMS Calling Standard specifies that registers R0, R1,
    R28, R30 (SP), and R31 must never be saved and restored. If
    you specify these registers with the SAVED_REGS argument, the
    $ROUTINE macro issues a diagnostic warning message.

 HANDLER

    The address of an exception handler. It is optional and valid
    only for STACK and REGISTER procedure kinds. By default, the
    procedure is defined not to have an exception handler. For
    example:

    HANDLER=MY_HANDLER

 HANDLER_DATA

    The address of data for the specified handler, if any. This
    argument is optional and valid only for stack and register
    procedure kinds and has no default value. You cannot specify a
    HANDLER_DATA argument if you do not specify the HANDLER argument.
    For example:

    HANDLER_DATA=MY_HANDLER_DATA

 SYNCH_EXCEPTIONS

    An argument to indicate whether exceptions must be synchronized
    or not. This argument is optional with STACK and REGISTER
    routines and is not allowed with other kinds of routines. This
    argument defaults to TRUE if you specify an exception handler
    with the HANDLER argument. Otherwise, it defaults to FALSE.
    When this argument is TRUE and you specify or accept the default
    STANDARD_PROLOGUE=TRUE, $ROUTINE generates a TRAPB instruction
    as part of the standard prologue sequence. In addition, when this
    argument is true, the $RETURN macro generates a TRAPB instruction
    as part of the standard epilogue sequence. When this argument is
    FALSE, neither $ROUTINE nor $RETURN generate TRAPB instructions.

 PROC_VALUE

    The procedure value of a bound procedure's parent. This argument
    is required for BOUND procedures and is invalid for all other
    procedure kinds. For example:

    PROC_VALUE=PARENT_PROC

 ENVIRONMENT

    Specifies an environment value. This parameter is optional and
    valid only for BOUND procedures. It has no default value. For
    example:

    ENVIRONMENT=0

 FUNC_RETURN

    Specifies the function return type. This argument is optional
    and valid for all procedure kinds. If specified, it must be one
    of the following: I64, D64, I32, U32, FF, FD, FG, FS, FT, FFC,
    FDC, FGC, FSC, or FTC. These values correspond to those listed in
    Table 3-7 of the OpenVMS Calling Standard that have an additional
    "RASE$K_FR_" prefix. There is no default. For example:

    FUNC_RETURN=U32

 ARGLIST

    Argument type list. This argument is optional and valid for
    all procedure kinds. If the argument list contains one or more
    elements, each of the first six elements must be one of the
    following: Q, I32, U32, FF, FD, FG, FS, or FT. The seventh and
    subsequent arguments (if any) must be either I32 or Q.

    These values correspond to the PSIG$K_RA_* and MASE$K_MA_*
    signature encodings in Table 3-6 of the OpenVMS Calling Standard.
    There is no default. If you specify this argument, $ROUTINE
    generates a procedure signature block. For example:

    ARGLIST=<Q,I32,FF,FF,U32>.

 USES_VAX_ARGLIST

    Specifies a Boolean value indicating whether the routine uses a
    VAX argument list. This argument is optional for all procedure
    kinds and defaults to FALSE. If you specify this argument,
    $ROUTINE generates a procedure signature block. For example:

    USES_VAX_ARGLIST=TRUE

 OVERRIDE_FLAGS

    Specifies overriding flags for the PDSC$W_FLAGS field in the
    procedure descriptor. This argument is optional and valid for
    all procedure kinds. However, it is required for BOUND procedures
    when the parameter specified with the PROC_VALUE argument is an
    external or forward reference. There is no default. For example:

    OVERRIDE_FLAGS=PARENT_FLAGS

 DEFAULT_SIGNATURE

    Specifies a Boolean value to indicate whether the standard
    procedure signature is used. TRUE means to use the standard
    signature. It is optional and valid for all procedure kinds.
    The default is FALSE if you specify either the ARGLIST or USES_
    VAX_ARGLIST arguments. Otherwise, the default is TRUE. Note that
    this argument must be FALSE or blank if you specify either the
    ARGLIST or USES_VAX_ARGLIST arguments. For example:

    DEFAULT_SIGNATURE=TRUE

 COMMON_BASE

    An argument to specify one or more base registers that are used
    in common with other routines. This argument is optional for
    all routine kinds. By default, $ROUTINE invalidates any previous
    .BASE directives that may be in effect when you invoke $ROUTINE.
    In this way, you are prevented from inadvertently processing the
    second or subsequent routines in a module with .BASE directives
    in effect that apply only to a previous routine. However, you
    may wish to share a common base register assignment between a
    number of routines. To do so, you can reissue the appropriate
    .BASE directive or directives after each invocation of $ROUTINE.
    Alternatively, you can specify one or more common base registers
    with the COMMON_BASE argument, and enter the appropriate .BASE
    directive or directives only once at the beginning of the module.
    Specify the value for the COMMON_BASE argument as a list of
    integer registers. For example:

    COMMON_BASE=<R5,R13>

    In this example, $ROUTINE invalidates any previous .BASE
    directives except those for registers R5 and R13. Previous .BASE
    directives for registers R5 and R13 are unaffected.

 TARGET_INVO

    Specifies a Boolean value indicating whether or not the exception
    handler for this procedure is invoked when this procedure is the
    target of an invocation unwind. (TARGET_INVO=TRUE) causes the
    exception handler to be invoked during an unwind. The default is
    TARGET_INVO=FALSE.

 EXCEPTION_MODE

    An argument to specify one of the following exception modes with
    STACK and REGISTER procedures:

    o  SIGNAL-raise all exceptions except underflow.

    o  SIGNAL_ALL-raise all exceptions.

    o  SILENT-raise no exceptions.

    o  FULL_IEEE-only raise exceptions as per IEEE control bits.

    The default is EXCEPTION_MODE=SIGNAL.
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