HELPLIB.HLB  —  PASCAL  Predeclared Routines, Dyn Alloc
  VSI Pascal provides dynamic allocation routines for the creation
  and use of pointer variables.  Use pointer variables and dynamic
  allocation routines to create linked data structures.

1  –  ADDRESS

  The ADDRESS function returns a pointer value that is the address
  of the parameter.

  Syntax:

     ADDRESS( x )

  The parameter 'x' can  be  a  variable  of  any  type  except  a
  component  of  a packed structured type.  A compile-time warning
  results if 'x' is a formal  VAR  parameter,  a  component  of  a
  formal  VAR  parameter,  or  a  variable  that does not have the
  READONLY or VOLATILE attribute.

  A pointer can only refer to a VOLATILE variable  or  a  variable
  allocated by the NEW procedure.

2  –  DISPOSE

  The DISPOSE procedure deallocates memory for a dynamic variable.

  Syntax:

     DISPOSE( p )

  The parameter 'p' is a pointer variable.  The 't' parameters are
  constant  expressions that match the corresponding 't' parameter
  used in the call to the NEW procedure that allocated the memory.
  If you use 't' parameters in a call to NEW, you must specify the
  same 't' parameters in the call to DISPOSE.   If  you  allocated
  memory  using d parameters, just specify the pointer variable to
  the corresponding DISPOSE call.

  The DISPOSE  procedure  deallocates  the  object  to  which  the
  pointer variable points.  You cannot call DISPOSE more than once
  for the same dynamic variable.

3  –  IADDRESS

  The IADDRESS function  returns  an  INTEGER_ADDRESS  value  that
  refers  to  a  the  address  of either a VOLATILE parameter or a
  routine, and does not generate compile-time  warnings  (as  does
  the  ADDRESS  function).  The IADDRESS function is commonly used
  for constructing arguments for system services  of  the  OpenVMS
  operating system.

  Syntax:

     IADDRESS( x )

  The parameter 'x' can be of any type except  a  component  of  a
  packed structured type or a routine name.  The parameter 'x' can
  be a variable, parameter, routine, or constant-expression.  When
  IADDRESS  is  used on constant-expressions, the returned address
  is valid for  the  remainder  of  the  program.   Two  calls  to
  IADDRESS with the same constant may not return the same address.

  Note that the VSI Pascal compiler automatically assumes that all
  pointers  refer either to dynamic variables allocated by the NEW
  procedure or to variables  that  have  the  VOLATILE  attribute;
  therefore, you should use utmost caution when using the IADDRESS
  function.   This  function  does   not   generate   compile-time
  warnings.

4  –  IADDRESS64

  The IADDRESS64 function is essentially identical to the IADDRESS
  function with the exception that IADDRESS64 returns an INTEGER64
  result.  This does not force the parameter  of  IADDRESS64  into
  64-bit  address  space  but  simply  returns  the address of the
  parameter as an INTEGER64 value.

  Syntax:

     IADDRESS64( x )

  The parameter 'x' can be of any type except  a  component  of  a
  packed structured type or a routine name.  The parameter 'x' can
  be a variable, parameter, routine, or constant-expression.  When
  IADDRESS  is  used on constant-expressions, the returned address
  is valid for  the  remainder  of  the  program.   Two  calls  to
  IADDRESS64  with  the  same  constant  may  not  return the same
  address.

  Note that the VSI Pascal compiler automatically assumes that all
  pointers  refer either to dynamic variables allocated by the NEW
  procedure or to variables  that  have  the  VOLATILE  attribute;
  therefore, you should use utmost caution when using the IADDRESS
  function.   This  function  does   not   generate   compile-time
  warnings.

5  –  NEW

  The NEW procedure allocates memory for the dynamic  variable  to
  which  a  pointer  variable  refers.   The  value  of  the newly
  allocated variable is set to the initial value of the base  type
  if defined; otherwise, the value of the variable is undefined.

  Syntax:

     NEW( p [[, {t1,...,tn | d1,...,dn} ]] )

  The parameter 'p' is a  32-bit  pointer  variable.   On  OpenVMS
  Alpha  and  OpenVMS  I64, the parameter 'p' may also be a 64-bit
  pointer variable.

  The  parameters  't1,...,tn'  are  constant  expressions  of  an
  ordinal  type that represent nested tag-field values, where 't1'
  is the outermost variant.

  If the object of the pointer is a non-schema  record  type  with
  variants,  then  you have two ways of allocating memory.  If you
  do not specify  't'  parameters,  VSI  Pascal  allocates  enough
  memory  to  hold  any  of the variants of the record.  If you do
  specify 't' parameters, then VSI Pascal allocates enough  memory
  to hold only the variant or variants that you specify.

  Since the 't' parameters cause VSI Pascal to allocate memory for
  the  variant  alone  and  not  for  the whole record, you cannot
  assign or evaluate the record as a whole;  you  can  assign  and
  evaluate  only  the individual fields.  Also, a call to NEW does
  not set the tag fields of a variant record.

  The paramters 'd1,...,dn' are compile-time or  run-time  ordinal
  values that must be the same type as the formal discriminants of
  the object.

  If the object of the pointer is  of  an  undiscriminated  schema
  type,  you  must  specify a 'd' parameter for each of the formal
  discriminants  of  the  schema   type.    The   'd'   parameters
  discriminate  the  schema  type  in  much the same way as actual
  discriminants in a discriminated schema.  HP  Pascal  bases  the
  size of the allocation on the value of the 'd' parameters.

  If the object is a schema record type, then  you  must  use  'd'
  parameters;  you  cannot  use 't' parameters or a combination of
  the syntaxes.  If the schema  record  type  contains  a  variant
  (which  depends on one of the formal discriminants) then the 'd'
  parameter discriminates the schema, determines the variant,  and
  allows   VSI  Pascal  to  compute  the  necessary  size  of  the
  allocation.

  Note that if you specify 't' parameters to  the  NEW  procedure,
  you  must  specify  the  same  't'  parameters  to  the  DISPOSE
  procedure  that  deallocates  memory   for   the   corresponding
  variable.

  If the parameter 'p' is  a  64-bit  pointer  variable,  the  NEW
  procedure  will  call LIB$GET_VM_64 to allocate memory from "P2"
  space.  Likewise, DISPOSE of a 64-bit  pointer  expression  will
  call LIB$FREE_VM_64 to return the memory.
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