VMS Help  —  PASCAL  Attributes
  An attribute is  an  identifier  that  directs  the  VSI  Pascal
  compiler to change its behavior in some way.

  When an attribute is not explicitly stated, the compiler follows
  the  default  rules  to  assign  properties to program elements.
  However,  using  attributes  to  override  the  defaults  allows
  additional  control over the properties of data items, routines,
  and compilation units.

  Syntax of a VSI Pascal attribute:

     [ {identifier1 [[ ( { constant-expression |

       identifier2 } ,...) ]] },...  ]

  The 'identifier1' is the name of the attribute.

  The 'constant-expression' is a compile-time  integer  expression
  that qualifies several of the VSI Pascal attributes.

  The 'identifier2' is the name of an option available in  one  of
  the following cases:

   o  With the CHECK, OPTIMIZE, or KEY attributes

   o  With COMMON and PSECT attributes, indicating the name  of  a
      storage area

   o  With the GLOBAL, EXTERNAL,  WEAK_GLOBAL,  and  WEAK_EXTERNAL
      attributes, indicating an external name

  A list of attributes can appear anywhere in the VAR,  TYPE,  and
  CONST  declaration  sections,  and  anywhere in a program that a
  type, a  type  identifier,  or  the  heading  of  a  routine  or
  compilation  unit  is legal.  However, only one attribute from a
  particular class can appear in  a  given  attribute  list.   The
  names  of  attributes,  when  used in a suitable context, cannot
  conflict with other  identifiers  with  the  same  name  in  the
  program.

  Syntactically, an attribute list can appear before a VAR,  TYPE,
  and CONST section in the declaration section.  In this case, the
  attributes would  apply  to  all  elements  in  that  particular
  section.   However,  at this time, VSI Pascal only allows you to
  use the HIDDEN attribute in this way.

  Some attributes require a special form  of  constant  expression
  called  a name string.  The syntax of a name string differs from
  that of other strings in VSI Pascal only in that a  name  string
  cannot use the extended-string syntax.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of attributes.

1  –  ALIGN

  The ALIGN attribute controls the default alignment  rules  in  a
  compilation unit or for a TYPE or VAR declaration section.

  The ALIGN attribute takes a single keyword  parameter  that  has
  the  same  name  and  meaning  as  the  keywords  for the /ALIGN
  qualifier.  Note that specifying the ALIGN  attribute  overrides
  any value you previously specified with the /ALIGN qualifier.

  Syntax:

     [ALIGN(keyword)]

  You can specify the following keywords:

  Value       Action                            Default Information
  -----       ------                            ------- -----------
  NATURAL     Uses natural alignment when       Default on OpenVMS Alpha
              positioning record fields         and OpenVMS I64 systems.
              or array components. Natural
              alignment is when a record
              field or an array component
              is positioned on a boundary
              based on its size. For example,
              32-bit integers are aligned on
              the nearest 32-bit boundary.

  VAX         Uses byte alignment when pos-      Default on OpenVMS VAX
              itioning record fields or array    systems.
              components. Record fields or
              array components larger than
              32 bits are positioned on the
              nearest byte boundary.

  On OpenVMS VAX systems, when you specify  a  value  of  NATURAL,
  automatic  variables  are aligned on longword boundaries instead
  of  quadword  boundaries.   This  occurs  because  the   largest
  allowable alignment for the stack is longword alignment.

2  –  Alignment

  Alignment attributes  indicate  whether  the  object  should  be
  aligned on a specific address boundary in memory.

2.1  –  ALIGNED

  The ALIGNED attribute indicates the object is to be aligned on a
  specific memory boundary.

  Syntax:

     ALIGNED [[( n )]]

  The default alignment of an object depends  on  its  size.   The
  constant  expression  n  must denote an integer.  If you omit n,
  the default is 0, indicating byte alignment.

  An aligned object is aligned on the memory boundary indicated by
  n.   The constant expression n indicates that the address of the
  object must end in at least n zeros.  ALIGNED(0) specifies  byte
  alignment,   ALIGNED(1)  specifies  word  alignment,  ALIGNED(2)
  specifies  longword  alignment,  ALIGNED(3)  specifies  quadword
  alignment,  ALIGNED(4) specifies octaword alignment, ALIGNED(9),
  specifies  512-byte   alignment,   and   ALIGNED(13)   specifies
  8192-byte alignment.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the ALIGNED attribute.

2.2  –  UNALIGNED

  The UNALIGNED attribute specifies that an object can be  aligned
  on  any  bit  boundary.   An  UNALIGNED  variable cannot have an
  allocation size greater than 32 bits.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the UNALIGNED attribute.

3  –  Allocation

  Allocation attributes indicate the  form  of  storage  that  the
  object should occupy.

3.1  –  AUTOMATIC

  The AUTOMATIC attribute specifies that storage for the  variable
  be  allocated  each time the program enters the routine in which
  the variable is declared.  The storage is deallocated each  time
  the  program  exits  from  that  routine.  An automatic variable
  exists as long as the declaring routine remains active.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the AUTOMATIC attribute.

3.2  –  AT

  The AT attribute specifies that VSI Pascal allocates no  storage
  for  the object (storage has already been allocated) and that it
  resides at the exact, specfied address.

  Syntax:

     AT( n )

  The exact address is specified by  the  constant  expression  n.
  Variables representing machine-dependent entities are frequently
  given the AT attribute.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the AT attribute.

3.3  –  COMMON

  The COMMON attribute specifies that storage for  a  variable  be
  allocated in an overlaid program section called a common block.

  Syntax:

     COMMON [[(identifier)]]

  The 'identifier' indicates the name of the common block.  It  is
  passed  in  uppercase  on  OpenVMS  systems.   If  you  omit the
  identifier, the name of the variable is used as the name of  the
  common block.

  This attribute allows you  to  share  variables  with  other  HP
  languages, such as FORTRAN.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the COMMON attribute.

3.4  –  PSECT

  The PSECT attribute is useful for placing static  variables  and
  executable  blocks in program sections that will be shared among
  executable images.

  Syntax:

     [PSECT(identifier)]

  The 'identifier' designates the program section in which storage
  for  a variable, routine, or compilation is to be allocated.  It
  is passed in uppercase on OpenVMS  systems.   If  you  omit  the
  identifier,  the name of the variable is used as the name of the
  common block.  The identifier designates the compilation unit in
  which storage for a variable is to be allocated.

3.5  –  STATIC

  The STATIC attribute  causes  VSI  Pascal  to  create  a  static
  object, which is allocated only once and which exists as long as
  the executable image in which it is allocated remains active.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the STATIC attribute.

4  –  ASYNCHRONOUS

  The ASYNCHRONOUS attribute  indicates  that  a  routine  may  be
  called  by  an asynchronous event (such as a condition handler).
  Since such an event can alter the values of variables within the
  routine  upredictably,  this  attribute  forces  the  routine to
  reference only local variables or variables  declared  with  the
  VOLATILE attribute.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the ASYNCHRONOUS attribute.

5  –  CHECK

  The CHECK attribute specifies error-checking options that are to
  be enabled during program execution.

  Syntax:

     CHECK [[( {identifier},...  )]]

  An identifier specifies an option to be enabled.   If  you  omit
  the list of options, all available positive options are enabled.

     ALL                 Enables all forms of checking.

     NONE                Suppresses all checking code.

     [NO]BOUNDS          Verifies that an index expression is within
                         the bounds of an array's index type and that
                         character-string sizes are compatible with
                         the operations being performed and that
                         schema types are compatible.

     [NO]CASE_SELECTORS  Verifies that the value of a case selector
                         is contained in the corresponding case
                         label list.

     [NO]DECLARATIONS    Verifies that schema definitions yield
                         valid types and that uses of GOTO from
                         one block to an enclosing block are correct.

     [NO]OVERFLOW        Verifies that the result of an integer
                         computation does not exceed the machine
                         representation.

     [NO]POINTERS        Verifies that the value of a pointer
                         variable is not NIL.

     [NO]SUBRANGE        Verifies that values assigned to variables
                         of subrange types are within the subrange;
                         verifies that a set expression is assignment
                         compatible with a set variable.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the CHECK attribute.

6  –  ENUMERATION_SIZE

  The  ENUMERATION_SIZE  attribute  controls  the  allocation   of
  unpacked enumerated data types and Boolean data types, which are
  considered to be an enumerated  type  containing  two  elements.
  Note that specifying this attribute overrides any value that you
  previously specified with the /ENUMERATION_SIZE qualifier.

  Syntax:

      [ENUMERATION_SIZE(keyword)]

  You can specify the following keywords:

  Keyword               Action                     Default Information
  -------       ----------------------------       -------------------
  BYTE          Allocates unpacked enumerated      Default on OpenVMS VAX
                types with fewer than 255          systems.
                elements in a 8-bit byte.
                Otherwise, the enumerated types
                are allocated in a 16-bit word.

  LONG          Allocates unpacked enumerated      Default on OpenVMS Alpha
                types in a 32-bit longword.        and OpenVMS I64 systems.

7  –  ENVIRONMENT

  The ENVIRONMENT attribute can be applied  to  compilation  units
  and  causes  the unit's program or module level declarations and
  definitions to be saved.

  Syntax:

     ENVIRONMENT [[( name-string )]]

  If the 'name string' is omitted, the name of the source file  is
  used  as  the  environment  file name with the default file type
  PEN.

  The declarations and definitions made at the outermost level  of
  the compilation unit (provided they do not have the AUTOMATIC or
  HIDDEN attribute) are saved in a newly created environment file.
  If  the  name string is specified, you must include a legal file
  specification.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the ENVIRONMENT attribute.

8  –  FLOAT

  The FLOAT attribute indicates the type of precision to  use  for
  objects of type REAL and DOUBLE.

  Syntax:

     [FLOAT(keyword)]

  You can specify the following float types for keywords:

   o  D_FLOAT - REAL=FLOATING, DOUBLE=D_FLOATING

   o  G_FLOAT - REAL=F_FLOATING, DOUBLE=G_FLOATING

   o  IEEE_FLOAT - REAL=S_FLOATING, DOUBLE=T_FLOATING

  The [FLOAT] attribute is only valid on compilation-units.

9  –  HIDDEN

  The HIDDEN attribute prevents information concerning a  constant
  definition   or   a   type,  variable,  procedure,  or  function
  declaration from being included in a generated environment file.
  The  HIDDEN  attribute  can  be  used  only  on  objects  at the
  outermost level of the compilation unit.

  It is possible to prevent all declarations within a  declaration
  section from being included in the environment file by preceding
  the reserved word CONST, TYPE, or VAR with the HIDDEN attribute.

10  –  IDENT

  The IDENT attribute can  be  used  to  qualify  the  name  of  a
  compilation  unit.   In  the  absence of an IDENT attribute, the
  string '01' is supplied to the linker.

  Syntax:

     IDENT( name-string )

  The 'name-string' can contain additional information  whose  use
  is  implementation  specific.  The VSI Pascal compiler uses this
  string to supply identification information to the linker.

11  –  INHERIT

  The INHERIT attribute indicates the environment file or files to
  be  inherited  by  a  compilation  unit.   The environment files
  specified by  the  INHERIT  attribute  must  already  have  been
  created   in   compilation  units  (by  either  the  ENVIRONMENT
  attribute or a compilation switch).

  Syntax:

     INHERIT( {name-string},...  )

  The compilation unit inherits  one  or  more  environment  files
  named  by  the  file  specifications  in  the name strings.  The
  default file type for an inherited environment file is .PEN.

12  –  INITIALIZE

  The  INITIALIZE  attribute  can  be  applied  to  procedures  to
  indicate  that  the  procedure  is  to be called before the main
  program is entered.  A compilation unit might include any number
  of  INITIALIZE  procedures,  all  of  which  are  called  in  an
  unspecified order before the main program is entered.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the INITIALIZE attribute.

13  –  KEY

  The KEY attribute can be applied to record  fields  to  indicate
  that  the  field is to be used as a key field when the record is
  part of an indexed file.

  Syntax:

     KEY [[( n [[, {options},... ]] )]]
     KEY [[( {options},... )]]

  The 'n' represents the key number.  A key number of 0  indicates
  that  the field is the primary key of the record.  All other key
  numbers indicate alternate keys.   The  key  number  must  be  a
  constant  expression  that denotes an integer value in the range
  from 0 through 254.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the KEY attribute.

13.1  –  Options

  You can specify certain characteristics of  the  record  key  by
  listing  the  desired  options on the KEY attribute.  With these
  options, you can control the order of the collating sequence and
  you can allow changes or duplicates on a key.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using these options.

13.1.1  –  ASCENDING

  This option, along with DESCENDING, allows you  to  specify  the
  collating  sequence  for the key field.  By default, the primary
  key and alternate key are ASCENDING.

  When creating a new file, Pascal will create the  key  with  the
  collating  order  specified.  When opening an existing file, the
  Run-Time Library will verify that the existing key  matches  the
  collating  order  specified.  If neither ASCENDING or DESCENDING
  is specified when opening an existing file, both types  will  be
  accepted.

13.1.2  –  CHANGES

  This option allows you to specify that changes can be  performed
  on the key.

  The default for the primary key is NOCHANGES and the default for
  alternate  keys  is  CHANGES.   You  can override the CHANGES on
  alternate keys with NOCHANGES.  It is illegal to specify CHANGES
  on the primary key.

  When opening an  existing  file,  the  Pascal  Run-Time  Library
  ignores this option.

13.1.3  –  DESCENDING(see ASCENDING)

13.1.4  –  DUPLICATES

  This option allows you to specify that duplicates of the key are
  allowed.

  The default for the primary key is NODUPLICATES and the  default
  for alternate keys is DUPLICATES.

  When opening an  existing  file,  the  Pascal  Run-Time  Library
  ignores this option.

14  –  LIST

  The LIST attribute can be applied to a  formal  parameter  of  a
  routine  and  indicates  that  the  routine  can  be called with
  multiple actual parameters that correspond to  the  last  formal
  parameter named in the routine heading.

  You  can  also  use  the   ARGUMENT   and   ARGUMENT_LIST_LENGTH
  predeclared  routines when writing procedures and functions that
  use the LIST attribute.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the LIST attribute.

15  –  Optimize

  The optimization attributes  indicate  whether  the  VSI  Pascal
  compiler should optimize code.

15.1  –  OPTIMIZE

  The OPTIMIZE attribute specifies optimization options  that  are
  to  be  enabled  during  compilation  of  a  compilation unit or
  routine.

  Syntax:

     OPTIMIZE [[( {identifier},...  )]]

  All options are enabled by default.

      ALL            Enables all OPTIMIZE options.
      NONE           Disables all OPTIMIZE options.
      [NO]INLINE     Enables inline expansion of user-defined
                     routines.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the OPTIMIZE attribute.

15.2  –  NOOPTIMIZE

  The NOOPTIMIZE attribute prohibits the compiler from  optimizing
  code for the compilation unit or routine.

  The NOOPTIMIZE  attribute  guarantees  left-to-right  evaluation
  order  with  full  evaluation of both operands of the AND and OR
  Boolean operators to aid in diagnosing all potential programming
  errors.   If you wish to have short circuit evaluation even with
  the NOOPTIMIZE attribute, then  use  the  AND_THEN  and  OR_ELSE
  Boolean operators.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the NOOPTIMIZE attribute.

16  –  Parameter

  The parameter passing attributes indicate the passing  mechanism
  to be used for a parameter.

16.1  –  CLASS_A

  The CLASS_A attribute causes a formal parameter to be passed  by
  an  array  descriptor that describes contiguous arrays of atomic
  data types or contiguous arrays of fixed-length  strings.   This
  is  the  default  mechanism  for  conformant array parameters on
  OpenVMS VAX systems.  This attribute is illegal on parameters of
  schema types.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the CLASS_A attribute.

16.2  –  CLASS_NCA

  The CLASS_NCA attribute causes a formal parameter to  be  passed
  by  a noncontiguous array descriptor.  This attribute is illegal
  on parameters of schema types.  This is  the  default  mechanism
  for conformant array parameters on OpenVMS Alpha and OpenVMS I64
  systems.

16.3  –  CLASS_S

  The CLASS_S attribute causes a formal parameter to be passed  by
  a  single  descriptor  form  that  is  used  for scalar data and
  fixed-length strings.  This attribute allows routines written in
  VSI  Pascal  to  accept  actual  parameters  from languages that
  generate CLASS_S descriptors.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the CLASS_S attribute.

16.4  –  IMMEDIATE

  The IMMEDIATE attribute causes a formal  parameter  value  in  a
  routine declaration to be passed by immediate value.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the IMMEDIATE attribute.

16.5  –  REFERENCE

  The REFERENCE attribute causes the formal parameter in a routine
  to be passed by reference using foreign parameters.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the REFERENCE attribute.

17  –  PEN_CHECKING_STYLE

  The   PEN_CHECKING_STYLE   attribute   selects    the    desired
  compile-time and link-time checking to perform when the generate
  environment file is inherited.

     PEN_CHECKING_STYLE( option )

      COMPILATION_TIME  Uses the compilation time of the environment
                        file in all subsequent compile-time and link-time
                        checking for users of this environment file.
                        This is the default.
      IDENT_STRING      Uses the [IDENT()] string of the environment file
                        in all subsequent compile-time and link-time
                        checking for users of this environment file.
      NONE              Disables all compile-time and link-time checking
                        for users of this environment file.

18  –  POS

  POS forces the field (of a  packed  or  unpacked  record)  to  a
  specific bit position within the record.

  Syntax:

     POS( n )

  The constant expression 'n' specifies the bit location, relative
  to the beginning of the record, at which the field begins.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the POS attribute.

19  –  READONLY

  The READONLY attribute specifies that an object can be read by a
  program, but cannot have values assigned to it.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the READONLY attribute.

20  –  Size

  Size attributes indicate the amount of storage  to  be  reserved
  for the object.

20.1  –  BIT

  The BIT attribute specifies the amount of storage in bits to  be
  received by the object.

  Syntax:

     BIT [[( n )]]

  The optional constant 'n' indicates the number  of  bit  storage
  units.   It  must denote a positive integer.  If you omit n, the
  default value is 1.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the BIT attribute.

20.2  –  BYTE

  The BYTE attribute specifies the amount of storage in  bytes  to
  be received by the object.

  Syntax:

     BYTE [[( n )]]

  The optional constant 'n' indicates the number of  byte  storage
  units.  It must denote a positive integer.  If you omit 'n', the
  default value is 1.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the BYTE attribute.

20.3  –  WORD

  The WORD attribute specifies the amount of storage in  words  to
  be received by the object.

  Syntax:

     WORD [[( n )]]

  The optional constant 'n' indicates the number of  word  storage
  units.   It  must denote a positive integer.  If you omit n, the
  default value is 1.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the WORD attribute.

20.4  –  LONG

  The LONG attribute specifies the amount of storage in  longwords
  to be received by the object.

  Syntax:

     LONG [[( n )]]

  The optional constant  'n'  indicates  the  number  of  longword
  storage  units.  It must denote a positive integer.  If you omit
  'n', the default value is 1.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the LONG attribute.

20.5  –  QUAD

  The QUAD attribute specifies the amount of storage in  quadwords
  to be received by the object.

  Syntax:

     QUAD [[( n )]]

  The optional constant  'n'  indicates  the  number  of  quadword
  storage  units.  It must denote a positive integer.  If you omit
  'n', the default value is 1.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the QUAD attribute.

20.6  –  OCTA

  The OCTA attribute specifies the amount of storage in  octawords
  to be received by the object.

  Syntax:

     OCTA [[( n )]]

  The optional constant  'n'  indicates  the  number  of  octaword
  storage  units.  It must denote a positive integer.  If you omit
  'n', the default value is 1.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the OCTA attribute.

21  –  TRUNCATE

  The TRUNCATE attribute indicates that an actual  parameter  list
  for  a  routine can be truncated at the point that the attribute
  was specified.

  This attribute can be specified  on  a  formal  parameter  in  a
  routine declaration, and can be used with the PRESENT function.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the TRUNCATE attribute.

22  –  UNBOUND

  The UNBOUND attribute specifies that a routine does  not  access
  automatic  variables  outside the scope in which it is declared.
  That is, the bound procedure value of an  unbound  routine  does
  not include the static scope pointer.

  This attribute can be applied to  routines  and  formal  routine
  parameters.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the UNBOUND attribute.

23  –  UNSAFE

  The UNSAFE attribute indicates that an object can accept  values
  of  any  type without type checking.  The exact properties of an
  unsafe object depend on the object's machine representation.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the UNSAFE attribute.

24  –  VALUE

  The VALUE attribute causes the variable to be a reference to  an
  external  constant  or  to  be  the  defining  point of a global
  constant.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the VALUE attribute.

25  –  Visibility

  The visibility attributes indicate the ability of an  object  to
  be shared by compilation units.

25.1  –  LOCAL

  The LOCAL attribute indicates that an object is  unavailable  to
  other  independently  compiled units.  By default, all variables
  and routines are local.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the LOCAL attribute.

25.2  –  GLOBAL

  The GLOBAL attribute provides a strong definition of a  variable
  or  routine so that other independently compiled units can refer
  to it.

  Syntax:

     [GLOBAL]

  or,

     [GLOBAL(idenifier)]

  or,

     [GLOBAL('string-literal')]

  The 'identifier' is the name of the  identifier  passed  to  the
  linker.   It  is passed in uppercase on OpenVMS systems.  If you
  omit the identifier, the name of the variable is used.

  The 'string-literal' is  a  specified  string  literal  that  is
  passed unmodified to the linker.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the GLOBAL attribute.

25.3  –  EXTERNAL

  The EXTERNAL attribute indicates a variable or routine  that  is
  assumed to be global in another independently compiled unit.

  Syntax:

     [EXTERNAL]

  or,

     [EXTERNAL(identifer)]

  or,

     [EXTERNAL('string-literal')]

  The 'identifer' is the name of  the  identifier  passed  to  the
  linker.   It  is passed in uppercase on OpenVMS systems.  If you
  omit the identifier, the name of the variable is used.

  The 'string-literal' passes a specified  string-literal  to  the
  linker unmodified.

25.4  –  WEAK_EXTERNAL

  The WEAK_EXTERNAL attribute specifies that a variable or routine
  is  not  critical  to  the linking operation.  To resolve a weak
  reference, the linker searches only  the  named  input  modules.
  You  can  specify  an identifier with this attribute to indicate
  the name by which the  corresponding  object  is  known  to  the
  linker.

  Syntax:

     [WEAK_EXTERNAL]

  or,

     [WEAK_EXTERNAL(identifier)]

  or,

     [WEAK_EXTERNAL('string-literal')]

  The 'identifier' is the name of the  identifier  passed  to  the
  linker.  If you omit the identifier, the name of the variable is
  used.

  The 'string-literal' is the name of the string literal  that  is
  passed to the linker unmodified.

  Compilation units cannot  have  the  EXTERNAL  or  WEAK_EXTERNAL
  attribute.

25.5  –  WEAK_GLOBAL

  The WEAK_GLOBAL attribute specifies that  an  object  is  linked
  only  when it is specifically included in the linking operation.
  To resolve a weak reference, the linker searches only the  named
  input  modules.   You  can specify an identifier to indicate the
  name by which the corresponding object is known to the linker.

  Syntax:

     [WEAK_GLOBAL]

  or,

     [WEAK_GLOBAL(identifier)]

  or,

     [WEAK_GLOBAL('string_literal')]

  The 'identifier' is the name of the  identifier  passed  to  the
  linker.  If you omit the identifier, the name of the variable is
  used.

  The 'string-literal' passes a specified string  literal  to  the
  linker unmodified.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the WEAK_GLOBAL attribute.

26  –  VOLATILE

  The VOLATILE attribute indicates to the compiler that the  value
  of  an  object is subject to change at unusual points in program
  execution.   Normally,  during  execution,  an  object's   value
  generally  changes  only  when  another value is assigned to it,
  when it is passed as a writeable VAR parameter, when it is  read
  into  by  a READ, READLN, or READV procedure, or when it is used
  as the control variable of a FOR loop.

  In addition, the compiler expects to evaluate  the  object  only
  when it appears in an expression.

  The value of a volatile object may change as the  result  of  an
  action  not  directly  specified  in  the  program.   Thus,  the
  compiler assumes that the value of  a  volatile  object  can  be
  changed  or  evaluated  at  any  time  during program execution.
  Consequently, a volatile object  does  not  participate  in  any
  optimization based on assumptions about its value.

  The behavior of many  device  registers,  and  modifications  by
  asynchronous  processes and exception handlers, are two examples
  that demonstrate volatile behavior.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the VOLATILE attribute.

27  –  WRITEONLY

  The WRITEONLY attribute specifies that an object can have values
  assigned to it but cannot be read by a program.

  See the "HP Pascal Language Reference Manual" for  the  complete
  description of using the WRITEONLY attribute.
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