VMS Help  —  BASIC
   Invokes the VSI BASIC for OpenVMS I64 compiler.

   Format:

      BASIC [/command-qualifier]... {source-file [/file-qualifier]... }...

   When you supply one or more file specifications, the compiler  compiles  the
   source file(s).

   If you  separate  source  file  specifications  with  commas,  the  compiler
   compiles  each module separately and produces multiple object files.  If you
   separate source file  specifications  with  plus  signs  (+),  the  compiler
   appends the files and produces a single object file.

1  –  Release notes

   The release notes for the current version of VSI BASIC for OpenVMS I64 are
   in the file BASIC018.RELEASE_NOTES which resides in SYS$HELP.

   You can also access the release notes from the BASIC help file at the  DCL
   command level with the following command:

      $ HELP/LIBRARY=BASICHELP RELEASE_NOTES

2    /ANALYSIS_DATA

   The /ANALYSIS_DATA qualifier controls the creation of  a  file  containing
   data  analysis  information for use by the DECset Source Code Analyzer for
   OpenVMS systems (SCA).

   The format of the /ANALYSIS_DATA qualifier is as follows:

      /[NO]ANALYSIS_DATA[=file-spec]

   The file created by the /ANALYSIS_DATA qualifier has a default  file  type
   of  .ANA.   SCA  uses the .ANA file to display cross-reference information
   and analyze source code.

   The default is /NOANALYSIS_DATA.

3    /ARCHITECTURE

   The /ARCHITECTURE qualifier specifies which version of the architecture to
   generate instructions for.

   The format of the /ARCHITECTURE qualifier is as follows:

      /ARCHITECTURE={GENERIC }
                    {HOST    }
                    {MERCED  }
                    {ITANIUM2}

   where:

      GENERIC        generate  instructions  that  are  appropriate  for  all
                     processors.  This option is the default.

      HOST           generate  instructions  for  the  processor   that   the
                     compiler is running on.

   The default is /ARCHITECTURE=GENERIC.

4    /AUDIT

   The /AUDIT qualifier causes the compiler to include  a  history  entry  in
   CDD/Repository when extracting a CDD/Repository definition.

   The format of the /AUDIT qualifier is as follows:

      /[NO]AUDIT[={str-lit  }]
                  {file-spec}

   where:

      str-lit        is a quoted string.

      file-spec      is a file specification.

   If you specify a quoted string, the compiler includes it as  part  of  the
   history entry.  If you specify a file specification, the compiler includes
   up to the first 64 lines of the specified file.

   When  you  specify  /AUDIT,  the  compiler  also  includes  the  following
   information about a CDD/Repository record extraction in the history entry:

    o  The name of the program module making the extraction
    o  The time and date of the extraction
    o  A note that access was made by way of a  VSI  BASIC  for  OpenVMS  I64
       program
    o  A note that the access was an extraction
    o  The username and UIC of the process accessing CDD/Repository

   The default is /NOAUDIT.

5    /CHECK

   The /CHECK qualifier causes the compiler to  generate  code  to  test  for
   arithmetic overflow and for array references outside array boundaries when
   the program executes.

   The format of the /CHECK qualifier is as follows:

      /[NO]CHECK[=({[NO]BOUNDS                              },...)]
                   {[NO]OVERFLOW[=([NO]INTEGER,[NO]DECIMAL)]}
                   {ALL                                     }
                   {NONE                                    }

   where:

      BOUNDS         checks array subscripts to ensure that they  are  within
                     array boundaries specified by the program.

      OVERFLOW       enables the detection of arithmetic overflow for integer
                     and packed decimal operations.

   The /CHECK qualifier specifies that both OVERFLOW and BOUNDS checking  are
   performed.    The   /NOCHECK  qualifier  specifies  that  no  checking  is
   performed.  If you specify /CHECK=OVERFLOW, overflow checking  is  enabled
   for  both  integers  and  packed  decimal  numbers.  Similarly, specifying
   /CHECK=NOOVERFLOW disables overflow checking for both types of numbers.

   Specifying /CHECK=NOBOUNDS means that your program  is  smaller  and  runs
   faster.   However, no error is signaled for an array reference outside the
   bounds of an array.   This  means  that  the  program  may  get  a  memory
   management  or access violation error at run time.  Therefore, this option
   should be used only for programs that have been  thoroughly  debugged  and
   whose execution time is critical.

   The default is /CHECK = (BOUNDS, OVERFLOW).

6    /CROSS_REFERENCE

   The  /CROSS_REFERENCE  qualifier  causes  the  compiler  to   generate   a
   cross-reference listing.

   The format of the /CROSS_REFERENCE qualifier is as follows:

      /[NO]CROSS_REFERENCE[=[NO]KEYWORDS]

   The cross-reference listing shows program symbols, their  class,  and  the
   program lines in which they are referenced.  The /CROSS_REFERENCE=KEYWORDS
   qualifier  specifies  that  the  cross-reference  listing   includes   all
   references  to  VSI  BASIC  keywords.   /CROSS_REFERENCE  is  the  same as
   /CROSS_REFERENCE = NOKEYWORDS.

   The  /NOCROSS_REFERENCE   qualifier   suppresses   the   creation   of   a
   cross-reference  listing.   See  the  HP  BASIC  for OpenVMS Alpha and VAX
   Systems User Manual for more information on cross reference listings.

   The default is /NOCROSS_REFERENCE.

7    /DEBUG

   The /DEBUG qualifier causes the compiler to provide  information  for  the
   OpenVMS  Debugger  and  the  system  run-time  error  traceback mechanism.
   Neither TRACEBACK nor SYMBOLS affects a program's executable code.

   The format of the /DEBUG qualifier is as follows:

      /[NO]DEBUG[=({[NO]SYMBOLS  },...)]
                   {[NO]TRACEBACK}
                   {ALL          }
                   {NONE         }

   where:

      SYMBOLS        causes the compiler to provide the debugger  with  local
                     symbol definitions for user-defined variables (including
                     dimension information for arrays).

      TRACEBACK      causes the compiler to provide  an  address  correlation
                     table  so  the debugger and the run-time error traceback
                     mechanism can translate absolute addresses  into  source
                     program routine names and line numbers.

   The /NODEBUG qualifier causes the compiler to suppress information for the
   OpenVMS Debugger and the system run-time error traceback mechanism.

   For more information on debugging, see the HP BASIC for OpenVMS Alpha  and
   VAX Systems User Manual.

   The default is /DEBUG = (TRACEBACK, NOSYMBOLS).

8    /DECIMAL_SIZE

   The /DECIMAL_SIZE qualifier lets you specify the default size  for  packed
   decimal  data.   You  specify the total number of digits in the number and
   the number of digits to the right of the decimal point.

   The format of the /DECIMAL_SIZE qualifier is as follows:

      /DECIMAL_SIZE=(d,s)

   where:

      d              is the total number of digits in the number.

      s              is the number of digits to  the  right  of  the  decimal
                     point.

   The default decimal size applies to all decimal variables  for  which  the
   total  number  of  digits and digits to the right of the decimal point are
   not explicitly declared.  See the HP  BASIC  for  OpenVMS  Alpha  and  VAX
   Systems  Reference  Manual  for  more  information  about  packed  decimal
   numbers.

   The default is /DECIMAL_SIZE = (15, 2).

9    /DEPENDENCY_DATA

   If you have CDD/Repository V5.4 installed  on  your  system  and  if  your
   current   CDD$DEFAULT   is  a  CDO-format  dictionary,  you  can  use  the
   /DEPENDENCY_DATA qualifier to generate a compiled  module  entity  in  the
   CDD$DEFAULT for each compilation unit.

   The format of the /DEPENDENCY_DATA qualifier is as follows:

      /[NO]DEPENDENCY_DATA

   You must specify this qualifier  if  you  want  %INCLUDE  %FROM  %CDD  and
   %REPORT %DEPENDENCY directives to establish dependency relationships.

   If /NODEPENDENCY_DATA is specified,  the  compiler  does  not  generate  a
   compiled module entity.

   The default is /NODEPENDENCY_DATA.

10    /DIAGNOSTICS

   The /DIAGNOSTICS qualifier controls the creation  of  a  diagnostics  file
   containing  messages  and  diagnostic  information  for  use by the Compaq
   Language-Sensitive Editor (LSE).

   The format of the /DIAGNOSTICS qualifier is as follows:

      /[NO]DIAGNOSTICS[=file-spec]

   LSE uses the diagnostics file to display diagnostic error messages and  to
   position the cursor on the line and column where a source error exists.

   If you do not supply a file specification with the /DIAGNOSTICS qualifier,
   the  diagnostics  file  has the same name as its corresponding source file
   and a default file type of .DIA.  All other file specification  attributes
   depend on the placement of the qualifier in the command.

   The default is /NODIAGNOSTICS.

11    /DOUBLE

   The /DOUBLE qualifier specifies that floating-point variables  are  double
   precision.   This qualifier is present for compatibility with HP BASIC for
   OpenVMS VAX.  You should use  the  /REAL_SIZE  qualifier  to  specify  the
   precision of floating-point variables.

12    /FLAG

   The /FLAG qualifier lets you specify  whether  the  compiler  informs  you
   about declining features.

   The format of the /FLAG qualifier is as follows:

      /[NO]FLAG[=[NO]DECLINING]

   The /NOFLAG qualifier suppresses  any  warning  messages  about  declining
   features.

   /FLAG is the same as /FLAG = NODECLINING.

   The default is /NOFLAG.

13    /INTEGER_SIZE

   The /INTEGER_SIZE qualifier lets you specify the default size for  integer
   data.

   The format of the /INTEGER_SIZE qualifier is as follows:

      /INTEGER_SIZE={BYTE}
                    {WORD}
                    {LONG}
                    {QUAD}

   The default integer size applies to all integer variables whose data  type
   is  not  explicitly  declared.  See the HP BASIC for OpenVMS Alpha and VAX
   Systems User Manual for more information about integer data types.

   The default is /INTEGER_SIZE = LONG.

14    /LINES

   The /LINES qualifier makes line number information available for  the  ERL
   function, and the BASIC error reporter.

   The format of the /LINES qualifier is as follows:

      /[NO]LINES

   Note that if ERL (or RESUME) is  found  in  a  program  that  is  compiled
   /NOLINES,  HP  BASIC  for  OpenVMS Alpha will not produce the message, but
   will silently turn on /LINES.

   If you specify /NOLINES, your program runs faster.

   The default is /NOLINES.

15    /LISTING

   The /LISTING qualifier causes the compiler  to  create  a  source  listing
   file.

   The format of the /LISTING qualifier is as follows:

      /[NO]LISTING[=file-spec]

   To create a listing file with an explicit file specification, you must use
   the  /LISTING  qualifier in the form /LISTING = file-spec.  Otherwise, the
   listing file has the same name as its corresponding source file and a file
   type  of  .LIS.   All  other  file  specification attributes depend on the
   placement of the qualifier in the command.

   Note that the /LISTING qualifier only controls whether or not the compiler
   produces  a listing file.  The /SHOW qualifier controls which parts of the
   listing are produced.

   The default is /NOLISTING from a terminal, and /LISTING in batch mode.

16    /LONG

   The /LONG qualifier specifies  that  integer  variables  are  LONG.   This
   qualifier is present for compatibility with HP BASIC for OpenVMS VAX.  You
   should use the /INTEGER_SIZE qualifier to specify the precision of integer
   variables.

17    /MACHINE_CODE

   The /MACHINE_CODE qualifier controls whether the listing file  contains  a
   list of compiler generated machine code.

   The format of the /MACHINE_CODE qualifier is as follows:

      /[NO]MACHINE_CODE

   The /MACHINE_CODE qualifier has no effect  unless  you  also  specify  the
   /LISTING  qualifier.   If you specify the /MACHINE_CODE qualifier with the
   /OPTIMIZE qualifier, the machine code listing may not reflect  the  actual
   code executed for a given statement nor the order of execution.

   The /NOMACHINE_CODE qualifier suppresses compiler generated  machine  code
   in the listing file.

   The default is /NOMACHINE_CODE.

18    /OBJECT

   The /OBJECT qualifier causes the compiler to produce an object module, and
   optionally specifies its file name.

   The format of the /OBJECT qualifier is as follows:

      /[NO]OBJECT[=file-spec]

   By default, the compiler generates object files as follows:

    o  If you specify one source file,  the  compiler  generates  one  object
       file.
    o  If you specify multiple source files  separated  by  plus  signs,  the
       compiler appends the files and generates one object file.
    o  If you specify multiple source files separated by commas, the compiler
       compiles and generates a separate object file for each source file.
    o  You can use both plus signs and commas in the  same  command  line  to
       produce different combinations of appended and separated object files.

   To produce an object file with an explicit file  specification,  you  must
   use  the /OBJECT qualifier, in the form /OBJECT=file-spec.  Otherwise, the
   object file has the same name as its corresponding source file, and a file
   type  of  .OBJ.   All  other  file  specification attributes depend on the
   placement of the qualifier in the command.

   The /NOOBJECT qualifier suppresses the creation of an object file.  During
   the  early  stages  of  program  development,  you  may find it helpful to
   suppress the production of object files until your source program compiles
   without errors.

   The default is /OBJECT.

19    /OLD_VERSION

   The /OLD_VERSION  qualifier  is  provided  for  compatibility  with  early
   versions of HP BASIC for OpenVMS VAX.

   The format of the /OLD_VERSION qualifier is as follows:

      /[NO]OLD_VERSION[=CDD_ARRAYS]

   When you use the /OLD_VERSION qualifier, the compiler  changes  the  lower
   bound  to  zero  and  adjusts  the upper bound of the array.  For example,
   Array 2:5 in CDD/Repository is translated by the compiler to be  an  array
   with  a  lower bound of 0 and an upper bound of 3.  The compiler issues an
   informational message to confirm the array bounds.

   The /NOOLD_VERSION qualifier causes the compiler to extract an array  from
   CDD/Repository  with  the bounds as specified in the data definition.  For
   example, Array 2:5 in CDD/Repository is translated by the compiler  to  be
   an array with a lower bound of 2 and an upper bound of 5.

   CDD/Repository assumes a default lower bound of 1, if none  is  specified.
   Therefore,  if  no  lower  bound is specified, the compiler translates the
   CDD/Repository array to have a lower bound of 1.  For example, Array 5  in
   CDD/Repository  is  translated by the compiler to be an array with a lower
   bound of 1 and an upper bound of 5.

   The default is /NOOLD_VERSION.

20    /OPTIMIZE

   The /OPTIMIZE  qualifier  controls  whether  the  compiler  optimizes  the
   program to generate more efficient code for optimum run-time performance.

   The format of the /OPTIMIZE qualifier is as follows:

      /[NO]OPTIMIZE[=({LEVEL=n       },...)]
                      {TUNE={GENERIC}}
                            {HOST   }

   where:

      LEVEL=n        controls   the   amount   of   optimization   performed.
                     /OPTIMIZE=LEVEL=4 is the equivalent of /OPTIMIZE.

           0              all optimizations are turned  off.   Has  the  same
                          effect as /NOOPTIMIZE.

           1              local  optimizations   and   common   subexpression
                          recognition turned on.

           2              adds  some  global  optimizations  including   loop
                          unrolling,  split  lifetime  analysis, code motion,
                          and code scheduling to those in level 1.

           3              adds more global optimizations that  improve  speed
                          (at  the  cost of extra code size), such as integer
                          multiplication  and   division   expansion   (using
                          shifts),  loop  unrolling,  and code replication to
                          eliminate branches to those in level 2.

           4              adds automatic inline expansion of  procedures  and
                          functions to those of level 3.  This is the default
                          level.

      TUNE=processor selects  processor-specific  instruction  tuning  for  a
                     specific  implementation  of  the  Itanium architecture.
                     Tuning  for  a  specific  implementation   can   provide
                     improvements in run-time performance.

                     Regardless of  the  setting  of  the  TUNE  option,  the
                     generated code will run correctly on all implementations
                     of the Itanium architecture.  Note that code tuned for a
                     specific  target  may  run more slowly on another target
                     than generically-tuned code.

                     Also see the /ARCHITECTURE qualifier.

                     TUNE=GENERIC is the default.

                     The processor keyword can be one of the following:

           GENERIC        selects instruction tuning that is appropriate  for
                          all  implementations  of  the Itanium architecture.
                          This option is the default.

           HOST           selects instruction tuning that is appropriate  for
                          the machine on which the code is being compiled.

           ITANIUM2       selects  instruction  tuning   for   the   Itanium2
                          implementation of the Itanium architecture.

           MERCED         selects   instruction   tuning   for   the   Merced
                          implementation of the Itanium architecture.

   The default is /OPTIMIZE=(LEVEL=4, TUNE=GENERIC).

21    /REAL_SIZE

   The  REAL_SIZE  qualifier  lets  you  specify   the   default   size   for
   floating-point data.

   The format of the REAL_SIZE qualifier is as follows:

      /REAL_SIZE={SINGLE}
                 {DOUBLE}
                 {GFLOAT}
                 {SFLOAT}
                 {TFLOAT}
                 {XFLOAT}

   The default floating-point size applies to  all  floating-point  variables
   whose size is not explicitly declared.  See the HP BASIC for OpenVMS Alpha
   and VAX Systems User Manual for more information  on  floating-point  data
   types.

   The default is /REAL_SIZE = SFLOAT.

22    /ROUND_DECIMAL

   The /ROUND_DECIMAL qualifier causes the compiler to round  packed  decimal
   numbers rather than truncate them.

   The format of the /ROUND_DECIMAL qualifier is as follows:

      /[NO]ROUND_DECIMAL

   The /NOROUND_DECIMAL qualifier causes  the  compiler  to  truncate  packed
   decimal numbers rather than round them.

   The default is /NOROUND_DECIMAL.

23    /SCALE

   The /SCALE qualifier specifies  a  scale  factor  between  zero  and  six,
   inclusive.  The scale factor affects only double-precision numbers.

   The format of the /SCALE qualifier is as follows:

      /SCALE=n

   The /SCALE qualifier helps to  control  accumulated  round-off  errors  by
   multiplying  floating-point  values by 10 raised to the scale factor power
   before storing them in variables.  The /SCALE qualifier is ignored for all
   but double-precision floating-point numbers.

                                      NOTE

           The /SCALE qualifier is provided for compatibility with HP
           BASIC for OpenVMS VAX.  It is recommended that you not use
           this feature for  new  program  development.   Accumulated
           round-off  errors  can  be  better  controlled with packed
           decimal numbers.  See the HP BASIC for OpenVMS  Alpha  and
           VAX  Systems  Reference  Manual  for  more  information on
           packed decimal numbers.

   The default is /SCALE = 0.

24    /SEPARATE_COMPILATION

   Controls whether an individual compilation unit becomes a separate  module
   in an object file.

   The format of the /SEPARATE_COMPILATION qualifier is as follows:

      /[NO]SEPARATE_COMPILATION

   Specifying /SEPARATE_COMPILATION will cause the  compiler  to  place  each
   routine  in  a  separate module within the output object file.  This is HP
   BASIC for OpenVMS VAX behavior.

   Specifying /NOSEPARATE_COMPILATION groups individual compilation units  as
   a single module in an object file.

   When creating modules  for  use  in  an  object  library,  consider  using
   /SEPARATE_COMPILATION to minimize the size of the routines included by the
   linker as it creates the executable  image.   Using  /SEPARATE_COMPILATION
   will  also  reduce  the compiler virtual memory requirements when a source
   contains several compilation units.

   In  most  cases  /NOSEPARATE_COMPILATION   allows   more   interprocedural
   optimizations.

   The default is /NOSEPARATE_COMPILATION.

25    /SHOW

   The /SHOW qualifier determines which parts of the compilation listing  are
   created.   The  /LISTING  qualifier must have been specified for the /SHOW
   qualifier to have any effect.

   The format of the /SHOW qualifier is as follows:

      /[NO]SHOW[=({[NO]CDD_DEFINITIONS},...)]
                  {[NO]ENVIRONMENT    }
                  {[NO]INCLUDE        }
                  {[NO]MAP            }
                  {[NO]OVERRIDE       }
                  {ALL                }
                  {NONE               }

   where:

      CDD_DEFINITIONS controls whether the translation  of  a  CDD/Repository
                     record is displayed in the listing.

      ENVIRONMENT    lets you display all defaults that were in  effect  when
                     the program was compiled.

      INCLUDE        controls  whether  files  accessed  with  the   %INCLUDE
                     directive are displayed in the listing.

      MAP            determines whether the listing  contains  an  allocation
                     map.   The  allocation  map lists all program variables,
                     their size and their data type.

      OVERRIDE       helps you debug code by  disabling  the  effect  of  the
                     %NOLIST directive.

   The /NOSHOW qualifier causes the  compiler  to  display  only  the  source
   listing.

   /SHOW = ALL is the same as /SHOW = (CDD_DEFINITIONS, ENVIRONMENT, INCLUDE,
   MAP,  OVERRIDE).   /SHOW = NONE is the same as /NOSHOW.  /SHOW is the same
   as /SHOW = ALL.

   The default  is  /SHOW  =  (CDD_DEFINITIONS,  ENVIRONMENT,  INCLUDE,  MAP,
   NOOVERRIDE).

26    /SINGLE

   The /SINGLE qualifier specifies that floating-point variables  are  single
   precision.   This qualifier is present for compatibility with HP BASIC for
   OpenVMS VAX.  You should use  the  /REAL_SIZE  qualifier  to  specify  the
   precision of floating-point variables.

27    /SYNCHRONOUS_EXCEPTIONS

   Controls whether or not the compiler produces additional code  to  emulate
   HP BASIC for OpenVMS VAX exception behavior.

   The format of the /SYNCHRONOUS_EXCEPTIONS qualifier is as follows:

      /[NO]SYNCHRONOUS_EXCEPTIONS

   Normally the compiler may reorder  the  execution  of  certain  arithmetic
   instructions  to  improve  performance.   If  your  program  generates  an
   arithmetic exception, such as  an  overflow  or  divide  by  zero,  it  is
   possible  that  certain statements surrounding the offending statement may
   or may not have executed.

   For example if a source program contains:

                     A = B
                     C = D / E
                     G = F

   and the value of E is zero, the second statement will generate a divide by
   zero  exception.   Because  of instruction reordering, it is possible that
   the assignment of B to A may not take place.  Further, it is possible that
   the assignment of F to G may take place even though the previous statement
   generated an exception.

   The /SYNCHRONOUS_EXCEPTIONS  qualifier  disables  such  reordering.   This
   allows  programs  which rely on arithmetic exceptions occurring at precise
   times to execute as expected.  It only impacts arithmetic  exceptions  and
   variable  stores  in  the  immediate  vicinity of the excepting statement.
   Usually  programs  will   produce   the   correct   result   without   the
   /SYNCHRONOUS_EXCEPTIONS qualifier.

   The /NOSYNCHRONOUS_EXCEPTIONS qualifier allows  the  compiler  to  produce
   more  efficient  code.   However  this  instruction  reordering  can cause
   incompatibilities with VAX BASIC.

   The default is /NOSYNCHRONOUS_EXCEPTIONS.

28    /TYPE_DEFAULT

   The /TYPE_DEFAULT qualifier lets you specify the  default  data  type  for
   numeric variables.

   The format of the /TYPE_DEFAULT qualifier is as follows:

      /TYPE_DEFAULT={INTEGER }
                    {REAL    }
                    {DECIMAL }
                    {EXPLICIT}

   Specifying EXPLICIT means that all program variables  must  be  explicitly
   declared  in DECLARE, EXTERNAL, COMMON, MAP or DIM statements.  Specifying
   INTEGER, REAL, or DECIMAL means that variables  and  data  which  are  not
   explicitly  declared  default  to  integer,  real  or  packed decimal.  To
   specify the actual size of  variables  and  data,  use  the  INTEGER_SIZE,
   REAL_SIZE and DECIMAL_SIZE qualifiers.

   The default is /TYPE_DEFAULT = REAL.

29    /VARIANT

   The /VARIANT qualifier lets you specify  the  value  associated  with  the
   lexical variable %VARIANT.

   The format of the /VARIANT qualifier is as follows:

      /VARIANT[=int-const]

   See the HP BASIC for OpenVMS Alpha and VAX Systems User Manual or HP BASIC
   for  OpenVMS  Alpha  and VAX Systems Reference Manual for more information
   about the /VARIANT qualifier and the %VARIANT lexical variable.

   If the /VARIANT qualifier is not specified, the value of  %VARIANT  is  0.
   If  the  /VARIANT  qualifier  is  specified  without a value, the value of
   %VARIANT is 1.

   The default is /VARIANT = 0.

30    /WARNINGS

   The /WARNINGS qualifier lets you specify  whether  the  compiler  displays
   informational, warning, or alignment messages.

   The format of the /WARNINGS qualifier is as follows:

      /[NO]WARNINGS[=({[NO]WARNINGS      },...)]
                      {[NO]INFORMATIONALS}
                      {[NO]ALIGNMENT     }
                      {ALL               }
                      {NONE              }

   Specifying /WARNINGS=NOWARNINGS causes the compiler  to  suppress  warning
   messages.   Specifying  /WARNINGS=NOINFORMATIONALS  causes the compiler to
   suppress informational messages.  Specifying /WARNINGS=NOALIGNMENT  causes
   the  compiler  to suppress alignment warning messages.  Alignment warnings
   are suppressed by default; to get alignment  warning  messages,  you  must
   explicitly specify /WARNINGS=ALIGNMENT on the command line.

   The  /NOWARNINGS  qualifier  causes   the   compiler   to   suppress   any
   informational, warning, or alignment messages.

   /WARNINGS = ALL is the same  as  /WARNINGS  =  (INFORMATIONALS,  WARNINGS,
   ALIGNMENT).  /WARNINGS = NONE is the same as /NOWARNINGS.

   The default is /WARNINGS = (INFORMATIONALS, WARNINGS, NOALIGNMENT).

31    /WORD

   The /WORD qualifier specifies that  integer  variables  are  word  length.
   This qualifier is present for compatibility with HP BASIC for OpenVMS VAX.
   You should use the /INTEGER_SIZE qualifier to  specify  the  precision  of
   integer variables.

32  –  Language topics

   To access the online language help, type the following command:

      $ HELP/LIBRARY=BASICHELP
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