/sys$common/syshlp/HELPLIB.HLB  —  MACRO  /ALPHA  Macros  String Arguments
    If an actual argument is a string containing characters that
    the assembler interprets as separators (such as a tab, space,
    or comma), the string must be enclosed by delimiters. String
    delimiters for macro arguments are usually paired angle brackets
    (<>). A quoted literal enclosed in double quotes ("")  is also a
    valid string argument.

    The assembler also interprets any character
    (except A, B, C, D, O, or X) after an initial circumflex (^)
    as a delimiter. Note that ^B, ^D, ^O, and ^X are used as radix
    control operators rather than argument delimiters. ^A is used
    as the ASCII operator and ^C is used as the complement operator.
    To pass an angle bracket as part of a string, you can use the
    circumflex form of the delimiter.

    The following are examples of delimited macro arguments:

    <HAVE THE SUPPLIES RUN OUT?>
    <LAB:    CLR     R4>

    "A quoted literal is taken as a single parameter value."

    ^%ARGUMENT IS <LAST,FIRST> FOR CALL%
    ^?EXPRESSION IS <5+3>*<4+2>?

    In the last two examples, the initial circumflex indicates
    that the percent sign (%)  and question mark (?) are the
    delimiters. Note that only the left-hand delimiter is preceded
    by a circumflex.

    The assembler interprets a string argument enclosed by delimiters
    as one actual argument and associates it with one formal
    argument. If a string argument that contains separator characters
    is not enclosed by delimiters, the assembler interprets it as
    successive actual arguments and associates it with successive
    formal arguments.

    For example, the following macro definition has one formal
    argument:

    .MACRO DOUBLE_ASCII STRNG
    .ASCII  "STRNG"
    .ASCII  "STRNG"
    .ENDM   DOUBLE_ASCII

    The following two macro calls demonstrate actual arguments with
    and without delimiters:

    DOUBLE_ASCII <A B C D E>
    .ASCII  "A B C D E"
    .ASCII  "A B C D E"

    DOUBLE_ASCII  A B C D E
    %MACRO64-E-TOOMNYARGS, Too many arguments in macro call

    Note that the assembler interprets the second macro call as
    having five actual arguments instead of one actual argument with
    spaces.

    When a macro is called, the assembler removes normal delimiters
    around a string before associating it with the formal arguments.
    However, a quoted literal within double quotes is treated as a
    single token and retains its double quote delimiters.

    If a string contains a semicolon (;),  the string must be
    enclosed by delimiters; otherwise, the semicolon will mark the
    start of the comment field. Further, if the string contains a
    semicolon, you cannot continue the line unless the string is a
    quoted literal.

    You can nest macro invocations, that is, a macro definition can
    contain a call to another macro. If, within a macro definition,
    another macro is called and is passed a string argument, you must
    delimit the argument so that the entire string is passed to the
    second macro as one argument.

    The following macro definition contains a call to the DOUBLE_
    ASCII macro defined earlier:

            .MACRO     CNTDA LAB1,LAB2,STR_ARG
    LAB1:   .BYTE      LAB2-LAB1-1            ; Length of 2*string
              DOUBLE_ASCII   <STR_ARG>
       ; Call DOUBLE_ASCII macro
    LAB2:
            .ENDM    CNTDA

    Note that the argument in the call to DOUBLE_ASCII is enclosed in
    angle brackets even though it does not contain any separator
    characters. The argument is thus delimited because it is a
    formal argument in the definition of the macro CNTDA and will
    be replaced with an actual argument that may contain separator
    characters.

    The following example calls the macro CNTDA, which in turn calls
    the macro DOUBLE_ASCII:

    CNTDA  ST,FIN,<LEARN YOUR ABC'S>
    ST:     .BYTE   FIN-ST-1
            DOUBLE_ASCII <LEARN YOUR ABC'S>
            .ASCII  "LEARN YOUR ABC'S"
            .ASCII  "LEARN YOUR ABC'S"
    FIN:

    In addition to nested macro invocations, you can
    also nest macro definitions. That is, you can define
    one macro within another. In this example, the
    INNER_MACRO_DEF macro is not defined until the OUTER_MACRO_DEF
    macro is invoked and expanded:

            .macro OUTER_MACRO_DEF
                .macro INNER_MACRO_DEF
                    ...
                .endm INNER_MACRO_DEF
            .endm OUTER_MACRO_DEF

    You can use this capability to define a macro that redefines
    itself:

            .macro SETUP
                A = 75
                B = 92
                C = 87
                D = 0
                E = -12
                F = 42
                .macro SETUP
                    ; Setup is done - do nothing
                .endm SETUP
            .endm SETUP

    In this example, the SETUP macro defines a number of assembly
    constants. After the SETUP macro has been expanded once, its
    work is done. Subsequent expansions of the setup macro need not
    take any action. Therefore, the SETUP macro redefines itself
    to a macro whose expansion includes only a comment statement.
    As described elsewhere, when you redefine a macro, the original
    version of the macro is automatically deleted. If that macro is
    currently expanding (as would be the case with the previous SETUP
    macro), the new definition is immediately associated with the
    macro name. However, the old definition is retained until all
    pending expansions complete normally. When all pending expansions
    complete, the old version of the macro is deleted. Thus, the
    SETUP macro may be invoked any number of times in the assembly
    unit. Since the first expansion redefines itself, the expansion
    of the SETUP macro has no effect other than the first time it is
    invoked.

    Another way to pass string arguments in nested macros is to
    enclose the macro argument in nested delimiters.

                                   NOTE

       Each time you use the delimited argument in a macro call,
       the assembler removes the outermost pair of delimiters
       before associating it with the formal argument. This method
       is not recommended because it requires that you know how
       deeply a macro is nested.

    The following macro definition also contains a call to the
    DOUBLE_ASCII macro:

           .MACRO  CNTDA2 LAB1,LAB2,STR_ARG
    LAB1:  .BYTE   LAB2-LAB1-1             ; Length of 2*string
           DOUBLE_ASCII  STR_ARG           ; Call DOUBLE_ASCII macro
    LAB2:
           .ENDM   CNTDA2

    Note that the argument in the call to DOUBLE_ASCII is not
    enclosed in angle brackets.

    The following example calls the macro CNTDA2:

           CNTDA2 BEG,TERM,<<MIND YOUR P'S AND Q'S>>
    BEG:   .BYTE   TERM-BEG-1              ; Length of 2*string
           DOUBLE_ASCII  <MIND YOUR P'S AND Q'S>
           ; Call DOUBLE_ASCII macro
           .ASCII  "MIND YOUR P'S AND Q'S"
           .ASCII  "MIND YOUR P'S AND Q'S"
    TERM:

    Note that even though the call to DOUBLE_ASCII in the macro
    definition is not enclosed in delimiters, the call in the
    expansion is enclosed because the call to CNTDA2 contains nested
    delimiters around the string argument.
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