DBG$HELP.HLB  —  DEBUG  SHOW

1  –  ABORT_KEY

    Identifies the Ctrl-key sequence currently defined to abort
    the execution of a debugger command or to interrupt program
    execution.

                                   NOTE

       This command is not available in the VSI DECwindows Motif for
       OpenVMS user interface to the debugger.

    Format

      SHOW ABORT_KEY

1.1  –  Description

    By default, the Ctrl/C sequence, when entered within a debugging
    session, aborts the execution of a debugger command and
    interrupts program execution. The SET ABORT_KEY command enables
    you to assign the abort function to another Ctrl-key sequence.
    The SHOW ABORT_KEY command identifies the Ctrl-key sequence
    currently in effect for the abort function.

    Related commands:

       Ctrl/C
       SET ABORT_KEY

1.2  –  Example

  DBG> SHOW ABORT_KEY
  Abort Command Key is CTRL_C
  DBG> SET ABORT_KEY = CTRL_P
  DBG> SHOW ABORT_KEY
  Abort Command Key is CTRL_P
  DBG>

      In this example, the first SHOW ABORT_KEY command identifies
      the default abort command key sequence, Ctrl/C. The SET ABORT_
      KEY = CTRL_P command assigns the abort-command function to
      Ctrl/P, as confirmed by the second SHOW ABORT_KEY command.

2  –  AST

    Indicates whether delivery of asynchronous system traps (ASTs) is
    enabled or disabled.

    Format

      SHOW AST

2.1  –  Description

    The SHOW AST command indicates whether delivery of ASTs is
    enabled or disabled. The command does not identify an AST whose
    delivery is pending. The delivery of ASTs is enabled by default
    and with the ENABLE AST command. The delivery of ASTs is disabled
    with the DISABLE AST command.

    Related commands:

       (ENABLE,DISABLE) AST

2.2  –  Example

  DBG> SHOW AST
  ASTs are enabled
  DBG> DISABLE AST
  DBG> SHOW AST
  ASTs are disabled
  DBG>

      The SHOW AST command indicates whether the delivery of ASTs is
      enabled.

3  –  ATSIGN

    Identifies the default file specification established with
    the last SET ATSIGN command. The debugger uses this file
    specification when processing the execute procedure (@) command.

    Format

      SHOW ATSIGN

3.1  –  Description

    Related commands:

       @ (Execute Procedure)
       SET ATSIGN

3.2  –  Examples

    1.DBG> SHOW ATSIGN
      No indirect command file default in effect, using DEBUG.COM
      DBG>

      This example shows that if you did not use the SET ATSIGN
      command, the debugger assumes command procedures have the
      default file specification SYS$DISK:[]DEBUG.COM.

    2.DBG> SET ATSIGN USER:[JONES.DEBUG].DBG
      DBG> SHOW ATSIGN
      Indirect command file default is USER:[JONES.DEBUG].DBG
      DBG>

      In this example, the SHOW ATSIGN command indicates the default
      file specification for command procedures, as previously
      established with the SET ATSIGN command.

4  –  BREAK

    Displays information about breakpoints.

    Format

      SHOW BREAK

4.1  –  Qualifiers

4.1.1    /PREDEFINED

    Displays information about predefined breakpoints.

4.1.2    /USER

    Displays information about user-defined breakpoints.

4.2  –  Description

    The SHOW BREAK command displays information about breakpoints
    that are currently set, including any options such as WHEN or DO
    clauses, /AFTER counts, and so on, and whether the breakpoints
    are deactivated.

    By default, SHOW BREAK displays information about both user-
    defined and predefined breakpoints (if any). This is equivalent
    to entering the SHOW BREAK/USER/PREDEFINED command. User-defined
    breakpoints are set with the SET BREAK command. Predefined
    breakpoints are set automatically when you start the debugger,
    and they depend on the type of program you are debugging.

    If you established a breakpoint using SET BREAK/AFTER:n, the SHOW
    BREAK command displays the current value of the decimal integer
    n, that is, the originally specified integer value minus 1 for
    each time the breakpoint location was reached. (The debugger
    decrements n each time the breakpoint location is reached until
    the value of n is 0, at which time the debugger takes break
    action.)

    On Alpha systems, the SHOW BREAK command does not display
    individual instructions when the break is on a particular class
    of instruction (as with SET BREAK/CALL or SET BREAK/RETURN).

    Related commands:

       (ACTIVATE,CANCEL,DEACTIVATE,SET) BREAK

4.3  –  Examples

    1.DBG> SHOW BREAK
      breakpoint at SUB1\LOOP
      breakpoint at MAIN\MAIN+1F
         do (EX SUB1\D ; EX/SYMBOLIC PSL; GO)
      breakpoint at routine SUB2\SUB2
         /after: 2
      DBG>

      The SHOW BREAK command identifies all breakpoints that are
      currently set. This example indicates user-defined breakpoints
      that are triggered whenever execution reaches SUB1\LOOP,
      MAIN\MAIN, and SUB2\SUB2, respectively.

    2.DBG> SHOW BREAK/PREDEFINED
      predefined breakpoint on Ada event "DEPENDENTS_EXCEPTION"
         for any value
      predefined breakpoint on Ada event "EXCEPTION_TERMINATED"
         for any value
      DBG>

      This command identifies the predefined breakpoints that are
      currently set. The example shows two predefined breakpoints,
      which are associated with Ada tasking exception events. These
      breakpoints are set automatically by the debugger for all Ada
      programs and for any mixed language program that is linked with
      an Ada module.

5  –  CALLS

    Identifies the currently active routine calls.

    Format

      SHOW CALLS  [integer]

5.1  –  Parameters

 integer

    A decimal integer that specifies the number of routine calls to
    be identified. If you omit the parameter, the debugger identifies
    all routine calls for which it has information.

5.2  –  Qualifiers

5.2.1    /IMAGE

    Displays the image name for each active call on the call stack.

5.3  –  Description

    The SHOW CALLS command shows a traceback that lists the sequence
    of active routine calls that lead to the routine in which
    execution appears suspended. Each recursive routine call is shown
    in the display, that is, you can use the SHOW CALLS command to
    examine the chain of recursion.

    SHOW CALLS displays one line of information for each call frame
    on the call stack, starting with the most recent call. The top
    line identifies the currently executing routine, the next line
    identifies its caller, the following line identifies the caller
    of the caller, and so on.

    Even if your program contains no routine calls, the SHOW CALLS
    command displays an active call because your program has at least
    one stack frame built for it when it is first activated.

    On Alpha and Integrity server processors, you also usually
    see a system and sometimes a DCL base frame. Note that if the
    SHOW CALLS display shows no active calls, either your program
    has terminated or the call stack has been corrupted. As your
    program executes, whenever a call is made to a routine a new
    call frame is built on the stack(s) or in the register set.
    Each call frame stores information about the calling or current
    routine. For example, the frame PC value enables the SHOW CALLS
    command to symbolize to module and routine information. On Alpha
    processors, a routine invocation results in either a stack frame
    procedure (with a call frame on the memory stack), a register
    frame procedure (with a call frame stored in the register set),
    or a null frame procedure (without a call frame).

    On Integrity server processors, a routine invocation can result
    in a memory stack frame and/or a register stack frame. That is,
    there two stacks on Integrity servers, register and memory. An
    Integrity server routine invocation could result in call frames
    on one or the other or both of those stacks. Also, an Integrity
    server leaf routine invocation (that does not itself make calls)
    can result in a null frame procedure, without a call frame on
    either stack. SHOW CALLS provides one line of information,
    regardless of the which stack or register results. (See the
    examples below.)

5.4  –  Description, Continued...

    The following information is provided for each line of the SHOW
    CALLS display:

    o  The name of the enclosing module. An asterisk (*)  to the left
       of a module name indicates that the module is set.

    o  The name of the calling routine, provided the module is set
       (the first line shows the currently executing routine).

    o  The line number where the call was made in that routine,
       provided the module is set (the first line shows the line
       number at which execution is suspended).

    o  The value of the PC in the calling routine at the time
       that control was transferred to the called routine. On VAX
       processors, the PC value is shown as a memory address relative
       to the nearest preceding symbol value (for example, a routine)
       and also as an absolute address. On Alpha and Integrity server
       processors, the PC is shown as a memory address relative to
       the first code address in the module and also as an absolute
       address.

       When you specify the /IMAGE qualifier, the debugger first does
       a SET IMAGE command for each image that has debug information
       (that is, it was linked using the /DEBUG or /TRACEBACK
       qualifier). The debugger then displays the image name for
       each active call on the calls stack. The output display has
       been expanded and displays the image name in the first column.

       The debugger suppresses the share$image_name module name,
       because that information is provided by the /IMAGE qualifier.

       The SET IMAGE command lasts only for the duration of the SHOW
       CALLS/IMAGE command. The debugger restores the set image state
       when the SHOW CALLS/IMAGE command is complete.

    Related commands:

       SHOW SCOPE
       SHOW STACK

5.5  –  Examples

    1.DBG> SHOW CALLS
       module name routine name  line     rel PC           abs PC
      *MAIN         FFFF          31  00000000000002B8 00000000000203C4
      -the above appears to be a null frame
                                     in the same scope as the frame below
      *MAIN         MAIN          13  00000000000000A8 00000000000200A8
                                      0000000000000000 FFFFFFFF8255A1F8

      This example has been reformatted for Help, and may appear
      slightly different from the actual output display. This example
      is on an Alpha system. Note that sections of routine prologues
      and epilogues appear to the debugger to be null frames. The
      portion of the prologue before the change in the frame pointer
      (FP) and the portion of the epilogue after restoration of the
      FP each look like a null frame, and are reported accordingly.

    2.DBG> SHOW CALLS

       module name    routine name     line           rel PC           abs PC
      *MAIN           FFFF               18       0000000000000190 0000000000010190
      *MAIN           MAIN               14       0000000000000180 0000000000010180
                                                  FFFFFFFF80C2A200 FFFFFFFF80C2A200

      This example has been reformatted for Help, and may appear
      slightly different from the actual output display. This example
      is on Integrity servers. Note that Integrity server prologues
      do not appear to be null frames to the debugger.

6  –  DEFINE

    Identifies the default (/ADDRESS, /COMMAND, /PROCESS_GROUP, or
    /VALUE) currently in effect for the DEFINE command.

    Format

      SHOW DEFINE

6.1  –  Description

    The default qualifier for the DEFINE command is the one last
    established with the SET DEFINE command. If you did not enter a
    SET DEFINE command, the default qualifier is /ADDRESS.

    To identify a symbol defined with the DEFINE command, use the
    SHOW SYMBOL/DEFINED command.

    Related commands:

       DEFINE
       DEFINE/PROCESS_SET
       DELETE
       SET DEFINE
       SHOW SYMBOL/DEFINED

6.2  –  Example

  DBG> SHOW DEFINE
  Current setting is: DEFINE/ADDRESS
  DBG>

      This command indicates that the DEFINE command is set for
      definition by address.

7  –  DISPLAY

    Identifies one or more existing screen displays.

                                   NOTE

       This command is not available in the VSI DECwindows Motif for
       OpenVMS user interface to the debugger.

    Format

      SHOW DISPLAY  [display-name[, . . . ]]

7.1  –  Parameters

 display-name

    Specifies the name of a display. If you do not specify a name,
    or if you specify the asterisk (*)  wildcard character by itself,
    all display definitions are listed. You can use the wildcard
    within a display name. Do not specify a display name with the
    /ALL qualifier.

7.2  –  Qualifiers

7.2.1    /ALL

    Lists all display definitions.

7.3  –  Description

    The SHOW DISPLAY command lists all displays according to their
    order in the display list. The most hidden display is listed
    first, and the display that is on top of the display pasteboard
    is listed last.

    For each display, the SHOW DISPLAY command lists its name,
    maximum size, screen window, and display kind (including any
    debug command list). It also identifies whether the display is
    removed from the pasteboard or is dynamic (a dynamic display
    automatically adjusts its window dimensions if the screen size is
    changed with the SET TERMINAL command).

    Related commands:

       DISPLAY
       EXTRACT/SCREEN_LAYOUT
       (CANCEL) DISPLAY
       (SET,CANCEL,SHOW) WINDOW
       SHOW SELECT

7.4  –  Example

  DBG> SHOW DISPLAY
  display SRC at H1, size = 64, dynamic
      kind = SOURCE (EXAMINE/SOURCE .%SOURCE_SCOPE\%PC)
  display INST at H1, size = 64, removed, dynamic
      kind = INSTRUCTION (EXAMINE/INSTRUCTION .0\%PC)
  display REG at RH1, size = 64, removed, dynamic, kind = REGISTER
  display OUT at S45, size = 100, dynamic, kind = OUTPUT
  display EXSUM at Q3, size = 64, dynamic, kind = DO (EXAMINE SUM)
  display PROMPT at S6, size = 64, dynamic, kind = PROGRAM
  DBG>

      The SHOW DISPLAY command lists all displays currently defined.
      In this example, they include the five predefined displays
      (SRC, INST, REG, OUT, and PROMPT), and the user-defined DO
      display EXSUM. Displays INST and REG are removed from the
      display pasteboard: the DISPLAY command must be used to display
      them on the screen.

8  –  EDITOR

    Indicates the action taken by the EDIT command, as established by
    the SET EDITOR command.

    Format

      SHOW EDITOR

8.1  –  Description

    Related commands:

       EDIT
       SET EDITOR

8.2  –  Examples

    1.DBG> SHOW EDITOR
      The editor is SPAWNed, with command line
          "EDT/START_POSITION=(n,1)"
      DBG>

      In this example, the EDIT command spawns the EDT editor in
      a subprocess. The /START_POSITION qualifier appended to the
      command line indicates that the editing cursor is initially
      positioned at the beginning of the line that is centered in the
      debugger's current source display.

    2.DBG> SET EDITOR/CALLABLE_TPU
      DBG> SHOW EDITOR
      The editor is CALLABLE_TPU, with command line "TPU"
      DBG>

      In this example, the SHOW EDITOR command indicates that the
      EDIT command invokes the callable version of the VSI Text
      Processing Utility (TPU). The editing cursor is initially
      positioned at the beginning of source line 1.

9  –  EVENT_FACILITY

    Identifies the current event facility and the associated event
    names.

    Event facilities are available for programs that call Ada
    routines or that use POSIX threads services. On VAX processors,
    event facilities are also available for programs that call SCAN
    routines.

    Format

      SHOW EVENT_FACILITY

9.1  –  Description

    The current event facility (ADA, THREADS, or SCAN) defines the
    eventpoints that you can set with the SET BREAK/EVENT and SET
    TRACE/EVENT commands.

    The SHOW EVENT_FACILITY command identifies the event names
    associated with the current event facility. These are the
    keywords that you can specify with the (SET,CANCEL) BREAK/EVENT
    and (SET,CANCEL) TRACE/EVENT commands.

    Related commands:

       (SET,CANCEL) BREAK/EVENT
       SET EVENT_FACILITY
       (SET,CANCEL) TRACE/EVENT
       SHOW BREAK
       SHOW TASK
       SHOW TRACE

9.2  –  Example

  DBG> SHOW EVENT_FACILITY
  event facility is THREADS
       . . .

      This command identifies the current event facility to be
      THREADS (POSIX threads) and lists the associated event names
      that can be used with SET BREAK/EVENT or SET TRACE/EVENT
      commands.

10  –  EXIT_HANDLERS

    Identifies the exit handlers that have been declared in your
    program.

    Format

      SHOW EXIT_HANDLERS

10.1  –  Description

    The exit handler routines are displayed in the order that they
    are called (that is, last in, first out). The routine name is
    displayed symbolically, if possible. Otherwise, its address is
    displayed. The debugger's exit handlers are not displayed.

10.2  –  Example

  DBG> SHOW EXIT_HANDLERS
  exit handler at STACKS\CLEANUP
  DBG>

      This command identifies the exit handler routine CLEANUP, which
      is declared in module STACKS.

11  –  IMAGE

    Displays information about one or more images that are part of
    your running program.

    Format

      SHOW IMAGE  [image-name]

11.1  –  Parameters

 image-name

    Specifies the name of an image to be included in the display. If
    you do not specify a name, or if you specify the asterisk (*)
    wildcard character by itself, all images are listed. You can use
    the wildcard within an image name.

11.2  –  Qualifiers

11.2.1    /FULL

    Displays complete information for a running image. This
    information includes all of the image sections and their
    addresses.

11.3  –  Description

    The SHOW IMAGE command displays the following information:

    o  Name of the image

    o  Start and end addresses of the image

    o  Whether the image has been set with the SET IMAGE command
       (loaded into the run-time symbol table, RST)

    o  Current image that is your debugging context (marked with an
       asterisk (*))

    o  Total number of images selected in the display

    o  Approximate number of bytes allocated for the RST and other
       internal structures

    o  A summary of the address space occupied by the images in your
       process

    On Integrity servers and Alpha, if you specify an image name or
    use the /FULL qualifier, the image sections for the image are
    also displayed.

    On Integrity servers, the /ALL qualifier displays all the images,
    including those for which the Debugger is unable to complete
    processing. In that case, the debugger shows the image name
    without the base and end address.

    In the following example, the Debugger is unable to complete
    processing for the SYS$PUBLIC_VECTORS image:

    DBG> SHOW IMAGE/ALL

         image name              set    base address          end address

         CMA$TIS_SHR             no     000000007B54A000      000000007B5694EF
         *C_MAIN                 yes    0000000000010000      00000000000400F7
         C_SHARED_AV             no     0000000000042000      00000000000A20DF
         DBGTBKMSG               no     000000000068A000      0000000000697D03
         DCL                     no     000000007ADCC000      000000007AEF7217
         DEBUG                   no     00000000002DC000      000000000062F037
         DECC$MSG                no     000000000067E000      0000000000681F5F
         DECC$SHR                no     000000007B8F6000      000000007B95803F
         DPML$SHR                no     000000007B6DC000      000000007B738C97
         LIBOTS                  no     000000007B37C000      000000007B38D9B7
         LIBRTL                  no     000000007B34A000      000000007B37A06F
         SHRIMGMSG               no     0000000000682000      000000000068881C
         SYS$PUBLIC_VECTORS      no
         SYS$SSISHR              no     0000000000630000      00000000006442F7
         SYS$SSISHRP             no     0000000000646000      00000000006501F7
         TIE$SHARE               no     00000000000A4000      00000000002A87CF

    SHOW IMAGE does not display all of the memory ranges of an image
    installed using the /RESIDENT qualifier. Instead, this command
    displays only the process data region.

    Related commands:

       (SET,CANCEL) IMAGE
       (SET,SHOW) MODULE

11.4  –  Example

  DBG> SHOW IMAGE SHARE*
   image name            set    base address    end address

  *SHARE                 yes    00000200        00000FFF
   SHARE1                no     00001000        000017FF
   SHARE2                yes    00018C00        000191FF
   SHARE3                no     00019200        000195FF
   SHARE4                no     00019600        0001B7FF

   total images: 5       bytes allocated: 33032
  DBG>

      This SHOW IMAGE command identifies all of the images whose
      names start with SHARE and which are associated with the
      program. Images SHARE and SHARE2 are set. The asterisk (*)
      identifies SHARE as the current image.

12  –  KEY

    Displays the debugger predefined key definitions and those
    created by the DEFINE/KEY command.

                                   NOTE

       This command is not available in the VSI DECwindows Motif for
       OpenVMS user interface to the debugger.

    Format

      SHOW KEY  [key-name]

12.1  –  Parameters

 key-name

    Specifies a function key whose definition is displayed. Do not
    use the asterisk (*)  wildcard character. Instead, use the /ALL
    qualifier. Do not specify a key name with /ALL or /DIRECTORY.
    Valid key names are as follows:

    Key       LK201
    Name      Keyboard      VT100-type    VT52-type

    PF1       PF1           PF1           Blue
    PF2       PF2           PF2           Red
    PF3       PF3           PF3           Black
    PF4       PF4           PF4
    KP0-KP9   Keypad 0-9    Keypad 0-9    Keypad 0-9
    PERIOD    Keypad        Keypad
              period (.)    period (.)
    COMMA     Keypad comma  Keypad comma
              (,)           (,)
    ENTER     Enter         ENTER         ENTER
    E1        Find
    E2        Insert Here
    E3        Remove
    E4        Select
    E5        Prev Screen
    E6        Next Screen
    HELP      Help
    DO        Do
    F6-F20    F6-F20

12.2  –  Qualifiers

12.2.1    /ALL

    Displays all key definitions for the current state, by default,
    or for the states specified with /STATE.

12.2.2    /BRIEF

    Displays only the key definitions (by default, all qualifiers
    associated with a key definition are also shown, including any
    specified state).

12.2.3    /DIRECTORY

    Displays the names of all the states for which keys have been
    defined. Do not specify other qualifiers with this qualifier.

12.2.4    /STATE

       /STATE=(state-name [, . . . ])
       /NOSTATE (default)

    Selects one or more states for which a key definition is
    displayed. The /STATE qualifier displays key definitions for the
    specified states. You can specify predefined key states, such as
    DEFAULT and GOLD, or user-defined states. A state name can be any
    appropriate alphanumeric string. The /NOSTATE qualifier displays
    key definitions for the current state only.

12.3  –  Description

    Keypad mode must be enabled (SET MODE KEYPAD) before you can use
    this command. Keypad mode is enabled by default.

    By default, the current key state is the DEFAULT state. You can
    change the current state by using the SET KEY/STATE command or
    by pressing a key that causes a state change (that is, a key that
    was defined with DEFINE/KEY/LOCK_STATE or /SET_STATE).

    Related commands:

       DEFINE/KEY
       DELETE/KEY
       SET KEY

12.4  –  Examples

    1.DBG> SHOW KEY/ALL

      This command displays all the key definitions for the current
      state.

    2.DBG> SHOW KEY/STATE=BLUE KP8
      GOLD keypad definitions:
        KP8 = "Scroll/Top" (noecho,terminate,nolock)
      DBG>

      This command displays the definition for keypad key 8 in the
      BLUE state.

    3.DBG> SHOW KEY/BRIEF KP8
      DEFAULT keypad definitions:
        KP8 = "Scroll/Up"
      DBG>

      This command displays the definition for keypad key 8 in the
      current state.

    4.DBG> SHOW KEY/DIRECTORY
      MOVE_GOLD
      MOVE_BLUE
      MOVE
      GOLD
      EXPAND_GOLD
      EXPAND_BLUE
      EXPAND
      DEFAULT
      CONTRACT_GOLD
      CONTRACT_BLUE
      CONTRACT
      BLUE
      DBG>

      This command displays the names of the states for which keys
      have been defined.

13  –  LANGUAGE

    Identifies the current language.

    Format

      SHOW LANGUAGE

13.1  –  Description

    The current language is the language last established with
    the SET LANGUAGE command. If you did not enter a SET LANGUAGE
    command, the current language is, by default, the language of the
    module containing the main program.

    Related command:

       SET LANGUAGE

13.2  –  Example

  DBG> SHOW LANGUAGE
  language: BASIC
  DBG>

      This command displays the name of the current language as
      BASIC.

14  –  LOG

    Indicates whether the debugger is writing to a log file and
    identifies the current log file.

    Format

      SHOW LOG

14.1  –  Description

    The current log file is the log file last established by a SET
    LOG command. By default, if you did not enter a SET LOG command,
    the current log file is the file SYS$DISK:[]DEBUG.LOG.

    Related commands:

       SET LOG
       SET OUTPUT [NO]LOG
       SET OUTPUT [NO]SCREEN_LOG

14.2  –  Examples

    1.DBG> SHOW LOG
      not logging to DEBUG.LOG
      DBG>

      This command displays the name of the current log file as
      DEBUG.LOG (the default log file) and reports that the debugger
      is not writing to it.

    2.DBG> SET LOG PROG4
      DBG> SET OUTPUT LOG
      DBG> SHOW LOG
      logging to USER$:[JONES.WORK]PROG4.LOG
      DBG>

      In this example, the SET LOG command establishes that the
      current log file is PROG4.LOG (in the current default
      directory). The SET OUTPUT LOG command causes the debugger
      to log debugger input and output into that file. The SHOW LOG
      command confirms that the debugger is writing to the log file
      PROG4.COM in your current default directory.

15  –  MARGINS

    Identifies the current source-line margin settings for displaying
    source code.

                                   NOTE

       This command is not available in the VSI DECwindows Motif for
       OpenVMS user interface to the debugger.

    Format

      SHOW MARGINS

15.1  –  Description

    The current margin settings are the margin settings last
    established with the SET MARGINS command. By default, if you
    did not enter a SET MARGINS command, the left margin is set to 1
    and the right margin is set to 255.

    Related command:

       SET MARGINS

15.2  –  Examples

    1.DBG> SHOW MARGINS
      left margin: 1 , right margin: 255
      DBG>

      This command displays the default margin settings of 1 and 255.

    2.DBG> SET MARGINS 50
      DBG> SHOW MARGINS
      left margin: 1 , right margin: 50
      DBG>

      This command displays the default left margin setting of 1 and
      the modified right margin setting of 50.

    3.DBG> SET MARGINS 10:60
      DBG> SHOW MARGINS
      left margin: 10 , right margin: 60
      DBG>

      This command displays both margin settings modified to 10 and
      60.

16  –  MODE

    Identifies the current debugger modes (screen or no screen,
    keypad or nokeypad, and so on) and the current radix.

    Format

      SHOW MODE

16.1  –  Description

    The current debugger modes are the modes last established with
    the SET MODE command. By default, if you did not enter a SET MODE
    command, the current modes are the following:

       DYNAMIC
       NOG_FLOAT (D_float)
       INTERRUPT
       KEYPAD
       LINE
       NOSCREEN
       SCROLL
       NOSEPARATE
       SYMBOLIC

    Related commands:

       (SET,CANCEL) MODE
       (SET,SHOW,CANCEL) RADIX

16.2  –  Example

  DBG> SHOW MODE
  modes: symbolic, line, d_float, screen, scroll, keypad,
         dynamic, interrupt, no separate window
  input radix :decimal
  output radix:decimal
  DBG>

      The SHOW MODE command displays the current modes and current
      input and output radix.

17  –  MODULE

    Displays information about the modules in the current image.

    Format

      SHOW MODULE  [module-name]

17.1  –  Parameters

 module-name

    Specifies the name of a module to be included in the display. If
    you do not specify a name, or if you specify the asterisk (*)
    wildcard character by itself, all modules are listed. You can
    use a wildcard within a module name. Shareable image modules are
    selected only if you specify /SHARE.

17.2  –  Qualifiers

17.2.1    /RELATED

       /RELATED
       /NORELATED (default)

    (Applies to Ada programs.) Controls whether the debugger
    includes, in the SHOW MODULE display, any module that is
    related to a specified module through a with-clause or subunit
    relationship.

    The SHOW MODULE/RELATED command displays related modules as
    well as those specified. The display identifies the exact
    relationship. By default (/NORELATED), no related modules are
    selected for display (only the modules specified are selected).

17.2.2    /SHARE

       /SHARE
       /NOSHARE (default)

    Controls whether the debugger includes, in the SHOW MODULE
    display, any shareable images that have been linked with your
    program. By default (/NOSHARE) no shareable image modules are
    selected for display.

    The debugger creates dummy modules for each shareable image in
    your program. The names of these shareable "image modules" have
    the prefix SHARE$. The SHOW MODULE/SHARE command identifies these
    shareable image modules, as well as the modules in the current
    image.

    Setting a shareable image module loads the universal symbols
    for that image into the run-time symbol table so that you can
    reference these symbols from the current image. However, you
    cannot reference other (local or global) symbols in that image
    from the current image. This feature overlaps the effect of the
    newer SET IMAGE and SHOW IMAGE commands.

17.3  –  Description

    The SHOW MODULE command displays the following information about
    one or more modules selected for display:

    o  Name of the module

    o  Programming language in which the module is coded, unless all
       modules are coded in the same language

    o  Whether the module has been set with the SET MODULE command.
       That is, whether the symbol records of the module have been
       loaded into the debugger's run-time symbol table (RST)

    o  Space (in bytes) required in the RST for symbol records in
       that module

    o  Total number of modules selected in the display

    o  Number of bytes allocated for the RST and other internal
       structures (the amount of heap space in use in the main
       debugger's process)

                                   NOTE

       The current image is either the main image (by default) or
       the image established as the current image by a previous SET
       IMAGE command.

    For information specific to Ada programs, type Help
    Language_Support Ada.

    Related commands:

       (SET,SHOW,CANCEL) IMAGE
       SET MODE [NO]DYNAMIC
       (SET) MODULE
       (SET,SHOW,CANCEL) SCOPE
       SHOW SYMBOL

17.4  –  Examples

    1.DBG> SHOW MODULE
      module name           symbols   size

      TEST                  yes       432
      SCREEN_IO             no        280

      total PASCAL modules: 2.    bytes allocated: 2740.
      DBG>

      In this example, the SHOW MODULE command, without a parameter,
      displays information about all of the modules in the current
      image, which is the main image by default. This example shows
      the display format when all modules have the same source
      language. The symbols column shows that module TEST has been
      set, but module SCREEN_IO has not.

    2.DBG> SHOW MODULE FOO,MAIN,SUB*
      module name           symbols   language   size

      FOO                   yes       MACRO      432
      MAIN                  no        FORTRAN    280
      SUB1                  no        FORTRAN    164
      SUB2                  no        FORTRAN    204

      total modules: 4.     bytes allocated: 60720.
      DBG>

      In this example, the SHOW MODULE command displays information
      about the modules FOO and MAIN, and all modules having the
      prefix SUB. This example shows the display format when the
      modules do not have the same source language.

    3.DBG> SHOW MODULE/SHARE
      module name           symbols   language   size

      FOO                   yes       MACRO       432
      MAIN                  no        FORTRAN     280
           . . .
      SHARE$DEBUG           no        Image         0
      SHARE$LIBRTL          no        Image         0
      SHARE$MTHRTL          no        Image         0
      SHARE$SHARE1          no        Image         0
      SHARE$SHARE2          no        Image         0

      total modules: 17.     bytes allocated: 162280.
      DBG> SET MODULE SHARE$SHARE2
      DBG> SHOW SYMBOL * IN SHARE$SHARE2

      In this example, the SHOW MODULE/SHARE command identifies all
      of the modules in the current image and all of the shareable
      images (the names of the shareable images are prefixed with
      SHARE$. The SET MODULE SHARE$SHARE2 command sets the shareable
      image module SHARE$SHARE2. The SHOW SYMBOL command identifies
      any universal symbols defined in the shareable image SHARE2.

18  –  OUTPUT

    Identifies the current output options.

    Format

      SHOW OUTPUT

18.1  –  Description

    The current output options are the options last established with
    the SET OUTPUT command. By default, if you did not enter a SET
    OUTPUT command, the output options are: NOLOG, NOSCREEN_LOG,
    TERMINAL, NOVERIFY.

    Related commands:

       SET LOG
       SET MODE SCREEN
       SET OUTPUT

18.2  –  Example

  DBG> SHOW OUTPUT
  noverify, terminal, screen_log,
      logging to USER$:[JONES.WORK]DEBUG.LOG;9
  DBG>

      This command shows the following current output options:

      o  Debugger commands read from debugger command procedures are
         not echoed on the terminal.

      o  Debugger output is being displayed on the terminal.

      o  The debugging session is being logged to the log file
         USER$:[JONES.WORK]DEBUG.LOG;9.

      o  The screen contents are logged as they are updated in screen
         mode.

19  –  PROCESS

    Displays information about processes that are currently under
    debugger control.

    Format

      SHOW PROCESS  [process-spec[, . . . ]]

19.1  –  Parameters

 process-spec

    Specifies a process currently under debugger control. Use any of
    the following forms:

    [%PROCESS_NAME] process-  The process name, if that name does not
    name                      contain spaces or lowercase characters.
                              The process name can include the
                              asterisk (*)  wildcard character.
    [%PROCESS_NAME]           The process name, if that name contains
    "process-name "           spaces or lowercase characters. You
                              can also use apostrophes (') instead of
                              quotation marks (").
    %PROCESS_PID process_id   The process identifier (PID, a
                              hexadecimal number).
    [%PROCESS_NUMBER]         The number assigned to a process when
    process-number            it comes under debugger control. A
    (or %PROC process-        new number is assigned sequentially,
    number)                   starting with 1, to each process. If
                              a process is terminated with the EXIT
                              or QUIT command, the number can be
                              assigned again during the debugging
                              session. Process numbers appear in a
                              SHOW PROCESS display. Processes are
                              ordered in a circular list so they can
                              be indexed with the built-in symbols
                              %PREVIOUS_PROCESS and %NEXT_PROCESS.
    process-set-name          A symbol defined with the
                              DEFINE/PROCESS_SET command to represent
                              a group of processes.
    %NEXT_PROCESS             The next process after the visible
                              process in the debugger's circular
                              process list.
    %PREVIOUS_PROCESS         The process previous to the visible
                              process in the debugger's circular
                              process list.
    %VISIBLE_PROCESS          The process whose stack, register set,
                              and images are the current context for
                              looking up symbols, register values,
                              routine calls, breakpoints, and so on.

    You can also use the asterisk (*)  wildcard character or the /ALL
    qualifier to specify all processes. Do not specify a process with
    /ALL or /DYNAMIC. If you do not specify a process or /ALL with
    /BRIEF, /FULL, or /[NO]HOLD, the visible process is selected.

19.2  –  Qualifiers

19.2.1    /ALL

    Selects all processes known to the debugger for display.

19.2.2    /BRIEF

    (Default) Displays only one line of information for each process
    selected for display.

19.2.3    /DYNAMIC

    Shows whether dynamic process setting is enabled or disabled.
    Dynamic process setting is enabled by default and is controlled
    with the SET PROCESS/[NO]DYNAMIC command.

19.2.4    /FULL

    Displays maximum information for each process selected for
    display.

19.2.5    /VISIBLE

    (Default). Selects the visible process for display.

19.3  –  Description

    The SHOW PROCESS command displays information about specified
    processes and any images running in those processes.

    The SHOW PROCESS/FULL command also displays information about the
    availability and use of the vector processor. This information
    is useful if you are debugging a program that uses vector
    instructions.

    A process can first appear in a SHOW PROCESS display as soon as
    it comes under debugger control. A process can no longer appear
    in a SHOW PROCESS display if it is terminated through an EXIT or
    QUIT command.

    By default (/BRIEF), one line of information is displayed for
    each process, including the following:

    o  The process number assigned by the debugger. A process number
       is assigned sequentially, starting with process 1, to each
       process that comes under debugger control. If a process is
       terminated by an EXIT or QUIT command, its process number is
       not reused during that debugging session. The visible process
       is marked with an asterisk (*)  in the leftmost column.

    o  The process name.

    o  The current debugging state for that process.

    o  The location (symbolized, if possible) at which execution of
       the image is suspended in that process.

    The SHOW PROCESS/FULL command gives additional information about
    processes (see the examples).

    Related commands:

       CONNECT
       Ctrl/C
       DEFINE/PROCESS_SET
       EXIT
       QUIT
       SET PROCESS

19.4  –  Examples

    1.all> SHOW PROCESS
       Number  Name             State      Current PC
      *    2 _WTA3:             break      SCREEN\%LINE 47
      all>

      By default, the SHOW PROCESS command displays one line of
      information about the visible process (which is identified
      with an asterisk (*)  in the leftmost column). The process has
      the process name _WTA3:. It is the second process brought under
      debugger control (process number 2). It is on hold, and the
      image's execution is suspended at a breakpoint at line 47 of
      module SCREEN.

    2.all> SHOW PROCESS TEST_3
       Number  Name          State       Current PC
           7 TEST_3          watch of TEST_3\ROUT4\COUNT
                                             TEST_3\%LINE 54
      all>

      This SHOW PROCESS command displays one line of information
      about process TEST_3. The image is suspended at a watchpoint of
      variable COUNT.

    3.all> SHOW PROCESS/DYNAMIC
      Dynamic process setting is enabled
      all>

      This command indicates that dynamic process setting is enabled.

20  –  RADIX

    Identifies the current radix for the entry and display of integer
    data or, if you specify /OVERRIDE, the current override radix.

    Format

      SHOW RADIX

20.1  –  Qualifiers

20.1.1    /OVERRIDE

    Identifies the current override radix.

20.2  –  Description

    The debugger can interpret and display integer data in any one
    of four radixes: binary, decimal, hexadecimal, and octal. The
    current radix for the entry and display of integer data is the
    radix last established with the SET RADIX command.

    If you did not enter a SET RADIX command, the default radix for
    both data entry and display is decimal for most languages. The
    exceptions are BLISS and MACRO, which have a default radix of
    hexadecimal.

    The current override radix for the display of all data is the
    override radix last established with the SET RADIX/OVERRIDE
    command. If you did not enter a SET RADIX/OVERRIDE command, the
    override radix is "none".

    Related commands:

       DEPOSIT
       EVALUATE
       EXAMINE
       (SET,CANCEL) RADIX

20.3  –  Examples

    1.DBG> SHOW RADIX
      input radix: decimal
      output radix: decimal
      DBG>

      This command identifies the input radix and output radix as
      decimal.

    2.DBG> SET RADIX/OVERRIDE HEX
      DBG> SHOW RADIX/OVERRIDE
      output override radix: hexadecimal
      DBG>

      In this example, the SET RADIX/OVERRIDE command sets the
      override radix to hexadecimal and the SHOW RADIX/OVERRIDE
      command indicates the override radix. This means that commands
      such as EXAMINE display all data as hexadecimal integer data.

21  –  SCOPE

    Identifies the current scope search list for symbol lookup.

    Format

      SHOW SCOPE

21.1  –  Description

    The current scope search list designates one or more program
    locations (specified by path names or other special characters)
    to be used in the interpretation of symbols that are specified
    without pathname prefixes in debugger commands.

    The current scope search list is the scope search list last
    established with the SET SCOPE command. By default, if you did
    not enter a SET SCOPE command, the current scope search list is
    0,1,2, . . . ,n.

    The default scope search list specifies that, for a symbol
    without a pathname prefix, a symbol lookup such as EXAMINE X
    first looks for X in the routine that is currently executing
    (scope 0); if no X is visible there, the debugger looks in the
    caller of that routine (scope 1), and so on down the call stack;
    if X is not found in scope n, the debugger searches the rest of
    the run-time symbol table (RST)-that is, all set modules and the
    global symbol table (GST), if necessary.

    If you used a decimal integer in the SET SCOPE command to
    represent a routine in the call stack, the SHOW SCOPE command
    displays the name of the routine represented by the integer, if
    possible.

    Related commands:

       (SET,CANCEL) SCOPE

21.2  –  Examples

    1.DBG> CANCEL SCOPE
      DBG> SHOW SCOPE
      scope:
       *  0 [ = EIGHTQUEENS\TRYCOL\REMOVEQUEEN ],
          1 [ = EIGHTQUEENS\TRYCOL ],
          2 [ = EIGHTQUEENS\TRYCOL 1 ],
          3 [ = EIGHTQUEENS\TRYCOL 2 ],
          4 [ = EIGHTQUEENS\TRYCOL 3 ],
          5 [ = EIGHTQUEENS\TRYCOL 4 ],
          6 [ = EIGHTQUEENS ]
      DBG> SET SCOPE/CURRENT 2
      DBG> SHOW SCOPE
      scope:
          0 [ = EIGHTQUEENS\TRYCOL\REMOVEQUEEN ],
          1 [ = EIGHTQUEENS\TRYCOL ],
       *  2 [ = EIGHTQUEENS\TRYCOL 1 ],
          3 [ = EIGHTQUEENS\TRYCOL 2 ],
          4 [ = EIGHTQUEENS\TRYCOL 3 ],
          5 [ = EIGHTQUEENS\TRYCOL 4 ],
          6 [ = EIGHTQUEENS ]
      DBG>

      The CANCEL SCOPE command restores the default scope search
      list, which is displayed by the (first) SHOW SCOPE command. In
      this example, execution is suspended at routine REMOVEQUEEN,
      after several recursive calls to routine TRYCOL. The asterisk
      (*)  indicates that the scope search list starts with scope 0,
      the scope of the routine in which execution is suspended.

      The SET SCOPE/CURRENT command resets the start of the scope
      search list to scope 2. Scope 2 is the scope of the caller of
      the routine in which execution is suspended. The asterisk in
      the output of the (second) SHOW SCOPE command indicates that
      the scope search list now starts with scope 2.

    2.DBG> SET SCOPE 0,STACKS\R2,SCREEN_IO,\
      DBG> SHOW SCOPE
      scope:
          0, [= TEST ],
          STACKS\R2,
          SCREEN_IO,
          \
      DBG>

      In this example, the SET SCOPE command directs the debugger
      to look for symbols without pathname prefixes according to
      the following scope search list. First the debugger looks in
      the PC scope (denoted by 0, which is in module TEST). If the
      debugger cannot find a specified symbol in the PC scope, it
      then looks in routine R2 of module STACKS; if necessary, it
      then looks in module SCREEN_IO, and then finally in the global
      symbol table (denoted by the global scope (\)).  The SHOW SCOPE
      command identifies the current scope search list for symbol
      lookup. No asterisk is shown in the SHOW SCOPE display unless
      the default scope search list is in effect or you have entered
      a SET SCOPE/CURRENT command.

22  –  SEARCH

    Identifies the default qualifiers (/ALL or /NEXT, /IDENTIFIER or
    /STRING) currently in effect for the SEARCH command.

    Format

      SHOW SEARCH

22.1  –  Description

    The default qualifiers for the SEARCH command are the default
    qualifiers last established with the SET SEARCH command. If you
    did not enter a SET SEARCH command, the default qualifiers are
    /NEXT and /STRING.

    Related commands:

       SEARCH
       (SET,SHOW) LANGUAGE
       SET SEARCH

22.2  –  Example

  DBG> SHOW SEARCH
  search settings: search for next occurrence, as a string
  DBG> SET SEARCH IDENT
  DBG> SHOW SEARCH
  search settings: search for next occurrence, as an identifier
  DBG> SET SEARCH ALL
  DBG> SHOW SEARCH
  search settings: search for all occurrences, as an identifier
  DBG>

      In this example, the first SHOW SEARCH command displays the
      default settings for the SET SEARCH command. By default, the
      debugger searches for and displays the next occurrence of the
      string.

      The second SHOW SEARCH command indicates that the debugger
      searches for the next occurrence of the string, but displays
      the string only if it is not bounded on either side by a
      character that can be part of an identifier in the current
      language.

      The third SHOW SEARCH command indicates that the debugger
      searches for all occurrences of the string, but displays
      the strings only if they are not bounded on either side by a
      character that can be part of an identifier in the current
      language.

23  –  SELECT

    Identifies the displays currently selected for each of the
    display attributes: error, input, instruction, output, program,
    prompt, scroll, and source.

                                   NOTE

       This command is not available in the VSI DECwindows Motif for
       OpenVMS user interface to the debugger.

    Format

      SHOW SELECT

23.1  –  Description

    The display attributes have the following properties:

    o  A display that has the error attribute displays debugger
       diagnostic messages.

    o  A display that has the input attribute echoes your debugger
       input.

    o  A display that has the instruction attribute displays the
       decoded instruction stream of the routine being debugged.
       The display is updated when you enter an EXAMINE/INSTRUCTION
       command.

    o  A display that has the output attribute displays any debugger
       output that is not directed to another display.

    o  A display that has the program attribute displays program
       input and output. Currently only the PROMPT display can have
       the program attribute.

    o  A display that has the prompt attribute is where the debugger
       prompts for input. Currently, only the PROMPT display can have
       the PROMPT attribute.

    o  A display that has the scroll attribute is the default display
       for the SCROLL, MOVE, and EXPAND commands.

    o  A display that has the source attribute displays the source
       code of the module being debugged, if available. The display
       is updated when you enter a TYPE or EXAMINE/SOURCE command.

    Related commands:

       SELECT
       SHOW DISPLAY

23.2  –  Example

  DBG> SHOW SELECT
  display selections:
       scroll = SRC
       input  = none
       output = OUT
       error  = PROMPT
       source = SRC
       instruction = none
       program = PROMPT
       prompt = PROMPT
  DBG>

      The SHOW SELECT command identifies the displays currently
      selected for each of the display attributes. These selections
      are the defaults for languages.

24  –  SOURCE

    Identifies the source directory search lists and search methods
    currently in effect.

    Format

      SHOW SOURCE

24.1  –  Qualifiers

24.1.1    /DISPLAY

    Identifies the search list used when the debugger displays source
    code.

24.1.2    /EDIT

    Identifies the search list to be used during execution of the
    debugger's EDIT command.

24.2  –  Description

    The SET SOURCE/MODULE=module-name command establishes a source
    directory search list for a particular module. The SET SOURCE
    command establishes a source directory search list for all
    modules not explicitly mentioned in a SET SOURCE/MODULE=module-
    name command. When you have used those commands, SHOW SOURCE
    identifies the source directory search list associated with each
    search category.

    If a source directory search list has not been established by
    using the SET SOURCE or SET SOURCE/MODULE=module-name command,
    the SHOW SOURCE command indicates that no directory search list
    is currently in effect. In this case, the debugger expects each
    source file to be in the same directory that it was in at compile
    time (the debugger also checks that the version number and the
    creation date and time of a source file match the information in
    the debugger's symbol table).

    The /EDIT qualifier is needed when the files used for the display
    of source code are different from the files to be edited by using
    the EDIT command. This is the case with Ada programs. For Ada
    programs, the SHOW SOURCE command identifies the search list of
    files used for source display (the copied source files in Ada
    program libraries); the SHOW SOURCE/EDIT command identifies the
    search list for the source files you edit when using the EDIT
    command.

    For information specific to Ada programs, see the
    Language_Support Ada help topic.

    Related commands:

       (SET,CANCEL) SOURCE

24.3  –  Examples

    1.DBG> SHOW SOURCE
      no directory search list in effect,
          match the latest source file version
      DBG> SET SOURCE [PROJA],[PROJB],DISK:[PETER.PROJC]
      DBG> SHOW SOURCE
      source directory search list for all modules,
          match the latest source file version:
              [PROJA]
              [PROJB]
              DISK:[PETER.PROJC]
      DBG>

      In this example, the SET SOURCE command directs the debugger to
      search the directories [PROJA],[PROJB], and DISK:[PETER.PROJC].
      By default, the debugger searches for the latest version of
      source files.

    2.DBG> SET SOURCE/MODULE=CTEST/EXACT [], DISK$2:[PROJD]
      DBG> SHOW SOURCE
      source directory search list for CTEST,
          match the exact source file version:
              []
              DISK$2:[PROJD]
      source directory search list for all other modules,
      match the latest source file version:
              [PROJA]
              [PROJB]
              DISK:[PETER.PROJC]
      DBG>

      In this example, the SET SOURCE command directs the debugger
      to search the current default directory ([]) and directory
      DISK$2:[PROJD] for source files to use with the module CTEST.
      The /EXACT qualifier specifies that the search will locate
      the exact version of the CTEST source files found in the debug
      symbol table.

25  –  STACK

    Displays information on the currently active routine calls.

    Format

      SHOW STACK  [integer]

25.1  –  Parameters

 integer

    Specifies the number of frames to display. If you omit the
    parameter, the debugger displays information about all call
    frames.

25.2  –  Qualifiers

25.2.1    /START_LEVEL

       /START_LEVEL=n

    Directs SHOW STACK to begin displaying information at call frame
    level n. For example, to see stack information for only frame 3,
    enter the following command:

    DBG>  SHOW STACK/START=3 1

    To see details for the 4th and 5th stack frames, enter the
    following command:

    DBG>  SHOW STACK/START=4 2

25.3  –  Description

    For each call frame, the SHOW STACK command displays information
    such as stack pointers, condition handler, saved register values
    (Alpha), local register allocation (Integrity servers). Note that
    an argument passed through a register or an argument list may
    contain the addresses of the actual argument. In such cases, use
    the EXAMINE address-expression command to display the values of
    these arguments.

    On Alpha and Integrity server processors, a routine invocation
    can result in:

    o  A stack frame procedure, with a call frame on the memory
       stack,

    o  A register frame procedure, with a call frame stored in the
       register set (Alpha) or on the register stack (Integrity
       servers), or

    o  A null frame procedure, without a call frame

    The SHOW STACK command provides information on all three
    procedures: stack frame, register frame, and null frame. (See
    the examples below.)

    Related command:

       SHOW CALLS

25.4  –  Examples

      Alpha example:

        DBG> SHOW STACK
        invocation block 0

            FP: 000000007F907AD0
            Detected what appears to be a NULL frame
            NULL frames operate in the same invocation context as their caller
            NULL Procedure Descriptor (0000000000010050):
                Flags:                  3089
                  KIND:                 PDSC$K_KIND_FP_STACK (09)
                Signature Offset        0000
                Entry Address:          MAIN\FFFF
            Procedure Descriptor (0000000000010000):
                Flags:                  3089
                  KIND:                 PDSC$K_KIND_FP_STACK (09)
                  FP is Base Register
                Rsa Offset:             0008
                Signature Offset        0000
                Entry Address:          MAIN
                Ireg Mask:              20000004 <R2,FP>
                  RA Saved @ 000000007F907AD8:  FFFFFFFF8255A1F8
                  R2 Saved @ 000000007F907AE0:  000000007FFBF880
                  FP Saved @ 000000007F907AE8:  000000007F907B30
                Freg Mask:              00000000
                Size:                   00000020

        invocation block 1

            FP: 000000007F907B30
            Procedure Descriptor (FFFFFFFF8255D910):
                Flags:                  3099
                  KIND:                 PDSC$K_KIND_FP_STACK (09)
                  Handler Valid
                  FP is Base Register
                Rsa Offset:             0048
                Signature Offset        0001
                Entry Address:          -2108317536
                Ireg Mask:              20002084 <R2,R7,R13,FP>
                  RA Saved @ 000000007F907B78:  000000007FA28160
                  R2 Saved @ 000000007F907B80:  0000000000000000
                  R7 Saved @ 000000007F907B88:  000000007FF9C9E0
                  R13 Saved @ 000000007F907B90: 000000007FA00900
                  FP Saved @ 000000007F907B98:  000000007F907BB0
                Freg Mask:              00000000
                Size:                   00000070
                Condition Handler:      -2108303104
        DBG>

      In the above example, note that sections of routine prologues
      and epilogues appear to the debugger to be null frames. The
      portion of the prologue before the change in the frame pointer
      (FP) and the portion of the epilogue after restoration of the
      FP each look like a null frame, and are reported accordingly.

      Integrity servers example-The following abbreviations are used
      in the example:

         GP-Global data segement Pointer (%R1)
         PC-Program Counter (Instruction Pointer + instruction slot
         number)
         SP-Stack Pointer (memory stack)
         BSP-Backing Store Pointer (register stack)
         CFM-Current Frame Marker

        DBG> SHOW STACK
        Invocation block 0      Invocation handle 000007FDC0000270

            GP:         0000000000240000
            PC:         MAIN\FFFF
                        In prologue region
            RETURN PC:  MAIN\%LINE 15
            SP:         000000007AD13B40
            Is memory stack frame:
                previous SP:    000000007AD13B40
            BSP:        000007FDC0000270
            Is register stack frame:
                previous BSP:   000007FDC0000248
            CFM:        0000000000000005
                No locals       Outs R32 : R36

        Invocation block 1      Invocation handle 000007FDC0000248
            GP:         0000000000240000
            PC:         MAIN\%LINE 15
            RETURN PC:  0FFFFFFFF80C2A200
            SP:         000000007AD13B40
            Is memory stack frame:
                previous SP:    000000007AD13B70
            BSP:        000007FDC0000248
            Is register stack frame:
                previous BSP:   000007FDC0000180
            CFM:        000000000000028A
                Ins/Locals R32 : R36    Outs R37 : R41

        Invocation block 2      Invocation handle 000007FDC0000180
            GP:         0FFFFFFFF844DEC00
            PC:         0FFFFFFFF80C2A200
            RETURN PC:  SHARE$DCL_CODE0+5AB9F
            SP:         000000007AD13B70
            Is memory stack frame:
                previous SP:    000000007AD13BC0
            BSP:        000007FDC0000180
            Is register stack frame:
                previous BSP:   000007FDC00000B8
            Has handler:
                function value:         0FFFFFFFF842DFBD0
            CFM:        0000000000000C20
                Ins/Locals R32 : R55    Outs R56 : R63
        DBG>

      See VSI OpenVMS Calling Standard for more information.

26  –  STEP

    Identifies the default qualifiers (/INTO, /INSTRUCTION, /NOSILENT
    and so on) currently in effect for the STEP command.

    Format

      SHOW STEP

26.1  –  Description

    The default qualifiers for the STEP command are the default
    qualifiers last established by the SET STEP command. If you did
    not enter a SET STEP command, the default qualifiers are /LINE,
    /OVER, /NOSILENT, and /SOURCE.

    Enabling screen mode by pressing PF1-PF3 enters the SET STEP
    NOSOURCE command as well as the SET MODE SCREEN command (to
    eliminate redundant source display in output and DO displays).
    In that case, the default qualifiers are /LINE, /OVER, /NOSILENT,
    and /NOSOURCE.

    Related commands:

       STEP
       SET STEP

26.2  –  Example

  DBG> SET STEP INTO,NOSYSTEM,NOSHARE,INSTRUCTION,NOSOURCE
  DBG> SHOW STEP
  step type: nosystem, noshare, nosource, nosilent, into routine calls,
             by instruction
  DBG>

      In this example, the SHOW STEP command indicates that the
      debugger take the following actions:

      o  Steps into called routines, but not those in system space or
         in shareable images

      o  Steps by instruction

      o  Does not display lines of source code while stepping

27  –  SYMBOL

    Displays information about the symbols in the debugger's run-time
    symbol table (RST) for the current image.

                                   NOTE

       The current image is either the main image (by default) or
       the image established as the current image by a previous SET
       IMAGE command.

    Format

      SHOW SYMBOL  symbol-name[, . . . ] [IN scope[, . . . ]]

27.1  –  Parameters

 symbol-name

    Specifies a symbol to be identified. A valid symbol name is
    a single identifier or a label name of the form %LABEL n,
    where n is an integer. Compound names such as RECORD.FIELD
    or ARRAY[1,2] are not valid. If you specify the asterisk (*)
    wildcard character by itself, all symbols are listed. You can use
    the wildcard within a symbol name.

 scope

    Specifies the name of a module, routine, or lexical block, or a
    numeric scope. It has the same syntax as the scope specification
    in a SET SCOPE command and can include path-name qualification.
    All specified scopes must be in set modules in the current image.

    The SHOW SYMBOL command displays only those symbols in the RST
    for the current image that both match the specified name and
    are declared within the lexical entity specified by the scope
    parameter. If you omit this parameter, all set modules and the
    global symbol table (GST) for the current image are searched
    for symbols that match the name specified by the symbol-name
    parameter.

27.2  –  Qualifiers

27.2.1    /ADDRESS

    Displays the address specification for each selected symbol. The
    address specification is the method of computing the symbol's
    address. It can merely be the symbol's memory address, but it can
    also involve indirection or an offset from a register value. Some
    symbols have address specifications too complicated to present in
    any understandable way. These address specifications are labeled
    "complex address specifications."

    On Alpha processors, the command SHOW SYMBOL/ADDRESS procedure-
    name displays both the code address and procedure descriptor
    address of a specified routine, entry point, or Ada package.

27.2.2    /DEFINED

    Displays symbols you have defined with the DEFINE command (symbol
    definitions that are in the DEFINE symbol table).

27.2.3    /DIRECT

    Displays only those symbols that are declared directly in the
    scope parameter. Symbols declared in lexical entities nested
    within the scope specified by the scope parameters are not shown.

27.2.4    /FULL

    Displays all information associated with the /ADDRESS, /TYPE, and
    /USE_CLAUSE qualifiers.

    For C++ modules, if symbol-name is a class, SHOW SYMBOL/FULL also
    displays information about the class.

27.2.5    /LOCAL

    Displays symbols that are defined with the DEFINE/LOCAL command
    (symbol definitions that are in the DEFINE symbol table).

27.2.6    /TYPE

    Displays data type information for each selected symbol.

27.2.7    /USE_CLAUSE

    (Applies to Ada programs.) Identifies any Ada package that a
    specified block, subprogram, or package names in a use clause.
    If the symbol specified is a package, also identifies any block,
    subprogram, package, and so on, that names the specified symbol
    in a use clause.

27.3  –  Description

    The SHOW SYMBOL command displays information that the debugger
    has about a given symbol in the current image. This information
    might not be the same as what the compiler had or even what
    you see in your source code. Nonetheless, it is useful for
    understanding why the debugger might act as it does when handling
    symbols.

    By default, the SHOW SYMBOL command lists all of the possible
    declarations or definitions of a specified symbol that exist in
    the RST for the current image (that is, in all set modules and
    in the GST for that image). Symbols are displayed with their
    path names. A path name identifies the search scope (module,
    nested routines, blocks, and so on) that the debugger must follow
    to reach a particular declaration of a symbol. When specifying
    symbolic address expressions in debugger commands, use path
    names only if a symbol is defined multiple times and the debugger
    cannot resolve the ambiguity.

    The /DEFINED and /LOCAL qualifiers display information about
    symbols defined with the DEFINE command (not the symbols that
    are derived from your program). The other qualifiers display
    information about symbols defined within your program.

    For information specific to Ada programs, type Help
    Language_Support Ada.

    Related commands:

       DEFINE
       DELETE
       SET MODE [NO]LINE
       SET MODE [NO]SYMBOLIC
       SHOW DEFINE
       SYMBOLIZE

27.4  –  Examples

    1.DBG> SHOW SYMBOL I
      data FORARRAY\I
      DBG>

      This command shows that symbol I is defined in module FORARRAY
      and is a variable (data) rather than a routine.

    2.DBG> SHOW SYMBOL/ADDRESS INTARRAY1
      data FORARRAY\INTARRAY1
           descriptor address: 0009DE8B
      DBG>

      This command shows that symbol INTARRAY1 is defined in module
      FORARRAY and has a memory address of 0009DE8B.

    3.DBG> SHOW SYMBOL *PL*

      This command lists all the symbols whose names contain the
      string "PL".

    4.DBG> SHOW SYMBOL/TYPE COLOR
      data SCALARS\MAIN\COLOR
          enumeration type (primary, 3 elements), size: 4 bytes

      This command shows that the variable COLOR is an enumeration
      type.

    5.DBG> SHOW SYMBOL/TYPE/ADDRESS *

      This command displays all information about all symbols.

    6.DBG> SHOW SYMBOL * IN MOD3\COUNTER
          routine MOD3\COUNTER
          data MOD3\COUNTER\X
          data MOD3\COUNTER\Y
      DBG>

      This command lists all the symbols that are defined in the
      scope denoted by the path name MOD3\COUNTER.

    7.DBG> DEFINE/COMMAND SB=SET BREAK
      DBG> SHOW SYMBOL/DEFINED SB
      defined SB
          bound to: SET BREAK
          was defined /command
      DBG>

      In this example, the DEFINE/COMMAND command defines SB as
      a symbol for the SET BREAK command. The SHOW SYMBOL/DEFINED
      command displays that definition.

28  –  TASK

    Displays information about the tasks of a multithread program
    (also called a tasking program).

                                   NOTE

       SET TASK and SET THREAD are synonymous commands. They
       perform identically.

    Format

      SHOW THREAD  [task-spec[, . . . ]]

28.1  –  Parameters

 task-spec

    Specifies a task value. Use any of the following forms:

    o  When the event facility is THREADS:

       -  A task (thread) name as declared in the program, or a
          language expression that yields a task ID number.

       -  A task ID number (for example, 2), as indicated in a SHOW
          THREAD display.

    o  When the event facility is ADA:

       -  A task (thread) name as declared in the program, or a
          language expression that yields a task value. You can use a
          path name.

       -  A task ID (for example, 2), as indicated in a SHOW THREAD
          display.

    o  One of the following task built-in symbols:

       %ACTIVE_TASK    The task that runs when a GO, STEP, CALL, or
                       EXIT command executes.
       %CALLER_TASK    (Applies only to Ada programs.) When an accept
                       statement executes, the task that called the
                       entry associated with the accept statement.
       %NEXT_TASK      The task after the visible task in the
                       debugger's task list. The ordering of tasks
                       is arbitrary but consistent within a single
                       run of a program.
       %PREVIOUS_      The task previous to the visible task in the
       TASK            debugger's task list.
       %VISIBLE_TASK   The task whose call stack and register set are
                       the current context for looking up symbols,
                       register values, routine calls, breakpoints,
                       and so on.

    Do not use the asterisk (*)  wildcard character. Instead, use the
    /ALL qualifier. Do not specify a task with /ALL, /STATISTICS, or
    /TIME_SLICE.

28.2  –  Qualifiers

28.2.1    /ALL

    Selects all existing tasks for display-namely, tasks that have
    been created and (in the case of Ada tasks) whose master has not
    yet terminated.

28.2.2    /CALLS

       /CALLS[=n]

    Does a SHOW CALLS command for each task selected for display.
    This identifies the currently active routine calls (the call
    stack) for a task.

28.2.3    /FULL

    When the event facility is THREADS, use the

      PTHREAD thread -f thread-number
 command.

    Displays additional information for each task selected for
    display. The additional information is provided if you use /FULL
    by itself or with /CALLS or /STATISTICS.

    You can get help on POSIX threads debugger commands by typing
    PTHREAD HELP.

    See the Guide to the POSIX Threads Library for more information
    about using the POSIX threads debugger.

28.2.4    /HOLD

       /HOLD
       /NOHOLD (default)

    When the event facility is THREADS, use the PTHREAD tset -n
    thread-number command.

    Selects either tasks that are on hold, or tasks that are not on
    hold for display.

    If you do not specify a task, /HOLD selects all tasks that are on
    hold. If you specify a task list, /HOLD selects the tasks in the
    task list that are on hold.

    If you do not specify a task, /NOHOLD selects all tasks that
    are not on hold. If you specify a task list, /NOHOLD selects the
    tasks in the task list that are not on hold.

    You can get help on POSIX threads debugger commands by typing
    PTHREAD HELP.

    See the Guide to the POSIX Threads Library for more information
    about using the POSIX threads debugger.

28.2.5    /IMAGE

    Displays the image name for each active call on the call stack.
    Valid only with the /CALLS qualifier.

28.2.6    /PRIORITY

       /PRIORITY=(n[, . . . ])

    When the event facility is THREADS, use the PTHREAD tset -s
    thread-number command.

    If you do not specify a task, selects all tasks having any of
    the specified priorities, n, where n is a decimal integer from 0
    to 15. If you specify a task list, selects the tasks in the task
    list that have any of the priorities specified.

    You can get help on POSIX threads debugger commands by typing
    PTHREAD HELP.

    See the Guide to the POSIX Threads Library for more information
    about using the POSIX threads debugger.

28.2.7    /STATE

       /STATE=(state[, . . . ])

    If you do not specify a task, selects all tasks that are in any
    of the specified states-RUNNING, READY, SUSPENDED, or TERMINATED.
    If you specify a task list, selects the tasks in the task list
    that are in any of the states specified.

28.3  –  Description

    A task can first appear in a SHOW THREAD display as soon as it
    is created. A task can no longer appear in a SHOW THREAD display
    if it is terminated or (in the case of an Ada tasking program)
    if its master is terminated. By default, the SHOW THREAD command
    displays one line of information for each task selected.

    When you specify the /IMAGE qualifier, the debugger first does a
    SET IMAGE command for each image that has debug information (that
    is, it was linked using the /DEBUG or /TRACEBACK qualifier). The
    debugger then displays the image name for each active call on the
    calls stack. The output display has been expanded and displays
    the image name in the first column.

    The debugger suppresses the share$image_name module name, because
    that information is provided by the /IMAGE qualifier.

    The SET IMAGE command lasts only for the duration of the SHOW
    THREAD/CALLS/IMAGE command. The debugger restores the set image
    state when the SHOW THREAD/CALLS/IMAGE command is complete.

    Related commands:

       DEPOSIT/TASK
       EXAMINE/TASK
       (SET, SHOW) EVENT_FACILITY
       SET TASK|THREAD

28.4  –  Examples

    1.DBG> SHOW EVENT_FACILITY
      event facility is ADA

           . . .
      DBG> SHOW TASK/ALL
        task id   pri hold state   substate        task object
      * %TASK 1    7       RUN                   122624
        %TASK 2    7  HOLD SUSP  Accept          H4.MONITOR
        %TASK 3    6       READY Entry call      H4.CHECK_IN
      DBG>

      In this example, the SHOW EVENT_FACILITY command identifies
      ADA as the current event facility. The SHOW TASK/ALL command
      provides basic information about all the tasks that were
      created through Ada services and currently exist. One line
      is devoted to each task. The active task is marked with an
      asterisk (*).  In this example, it is also the active task (the
      task that is in the RUN state).

    2.DBG> SHOW TASK %ACTIVE_TASK,3,MONITOR

      This command selects the active task, 3, and task MONITOR for
      display.

    3.DBG> SHOW TASK/PRIORITY=6

      This command selects all tasks with priority 6 for display.

    4.DBG> SHOW TASK/STATE=(RUN,SUSP)

      This command selects all tasks that are either running or
      suspended for display.

    5.DBG> SHOW TASK/STATE=SUSP/NOHOLD

      This command selects all tasks that are both suspended and not
      on hold for display.

    6.DBG> SHOW TASK/STATE=(RUN,SUSP)/PRIO=7 %VISIBLE_TASK, 3

      This command selects for display those tasks among the visible
      task and %TASK 3 that are in either the RUNNING or SUSPENDED
      state and have priority 7.

29  –  TERMINAL

    Identifies the current terminal screen height (page) and width
    being used to format output.

                                   NOTE

       This command is not available in the VSI DECwindows Motif for
       OpenVMS user interface to the debugger.

    Format

      SHOW TERMINAL

29.1  –  Description

    The current terminal screen height and width are the height and
    width last established by the SET TERMINAL command. By default,
    if you did not enter a SET TERMINAL command, the current height
    and width are the height and width known to the terminal driver,
    as displayed by the DCL command SHOW TERMINAL (usually 24 lines
    and 80 columns for VT-series terminals).

    Related commands:

       SET TERMINAL
       SHOW DISPLAY
       SHOW WINDOW

29.2  –  Example

  DBG>  SHOW TERMINAL
  terminal width: 80
           page:  24
           wrap:  80
  DBG>

      This command displays the current terminal screen width and
      height (page) as 80 columns and 24 lines, and the message wrap
      setting at column 80.

30  –  THREAD

    Displays information about the tasks of a multithread program
    (also called a tasking program).

                                   NOTE

       SET TASK and SET THREAD are synonymous commands. They
       perform identically.

    Format

      SHOW THREAD  [task-spec[, . . . ]]

30.1  –  Parameters

 task-spec

    Specifies a task value. Use any of the following forms:

    o  When the event facility is THREADS:

       -  A task (thread) name as declared in the program, or a
          language expression that yields a task ID number.

       -  A task ID number (for example, 2), as indicated in a SHOW
          THREAD display.

    o  When the event facility is ADA:

       -  A task (thread) name as declared in the program, or a
          language expression that yields a task value. You can use a
          path name.

       -  A task ID (for example, 2), as indicated in a SHOW THREAD
          display.

    o  One of the following task built-in symbols:

       %ACTIVE_TASK    The task that runs when a GO, STEP, CALL, or
                       EXIT command executes.
       %CALLER_TASK    (Applies only to Ada programs.) When an accept
                       statement executes, the task that called the
                       entry associated with the accept statement.
       %NEXT_TASK      The task after the visible task in the
                       debugger's task list. The ordering of tasks
                       is arbitrary but consistent within a single
                       run of a program.
       %PREVIOUS_      The task previous to the visible task in the
       TASK            debugger's task list.
       %VISIBLE_TASK   The task whose call stack and register set are
                       the current context for looking up symbols,
                       register values, routine calls, breakpoints,
                       and so on.

    Do not use the asterisk (*)  wildcard character. Instead, use the
    /ALL qualifier. Do not specify a task with /ALL, /STATISTICS, or
    /TIME_SLICE.

30.2  –  Qualifiers

30.2.1    /ALL

    Selects all existing tasks for display-namely, tasks that have
    been created and (in the case of Ada tasks) whose master has not
    yet terminated.

30.2.2    /CALLS

       /CALLS[=n]

    Does a SHOW CALLS command for each task selected for display.
    This identifies the currently active routine calls (the call
    stack) for a task.

30.2.3    /FULL

    When the event facility is THREADS, use the command.

    Displays additional information for each task selected for
    display. The additional information is provided if you use /FULL
    by itself or with /CALLS or /STATISTICS.

    You can get help on POSIX threads debugger commands by typing
    PTHREAD HELP.

    See the Guide to the POSIX Threads Library for more information
    about using the POSIX threads debugger.

30.2.4    /HOLD

       /HOLD
       /NOHOLD (default)

    When the event facility is THREADS, use the PTHREAD tset -n
    thread-number command.

    Selects either tasks that are on hold, or tasks that are not on
    hold for display.

    If you do not specify a task, /HOLD selects all tasks that are on
    hold. If you specify a task list, /HOLD selects the tasks in the
    task list that are on hold.

    If you do not specify a task, /NOHOLD selects all tasks that
    are not on hold. If you specify a task list, /NOHOLD selects the
    tasks in the task list that are not on hold.

    You can get help on POSIX threads debugger commands by typing
    PTHREAD HELP.

    See the Guide to the POSIX Threads Library for more information
    about using the POSIX threads debugger.

30.2.5    /IMAGE

    Displays the image name for each active call on the call stack.
    Valid only with the /CALLS qualifier.

30.2.6    /PRIORITY

       /PRIORITY=(n[, . . . ])

    When the event facility is THREADS, use the PTHREAD tset -s
    thread-number command.

    If you do not specify a task, selects all tasks having any of
    the specified priorities, n, where n is a decimal integer from 0
    to 15. If you specify a task list, selects the tasks in the task
    list that have any of the priorities specified.

    You can get help on POSIX threads debugger commands by typing
    PTHREAD HELP.

    See the Guide to the POSIX Threads Library for more information
    about using the POSIX threads debugger.

30.2.7    /STATE

       /STATE=(state[, . . . ])

    If you do not specify a task, selects all tasks that are in any
    of the specified states-RUNNING, READY, SUSPENDED, or TERMINATED.
    If you specify a task list, selects the tasks in the task list
    that are in any of the states specified.

30.3  –  Description

    A task can first appear in a SHOW THREAD display as soon as it
    is created. A task can no longer appear in a SHOW THREAD display
    if it is terminated or (in the case of an Ada tasking program)
    if its master is terminated. By default, the SHOW THREAD command
    displays one line of information for each task selected.

    When you specify the /IMAGE qualifier, the debugger first does a
    SET IMAGE command for each image that has debug information (that
    is, it was linked using the /DEBUG or /TRACEBACK qualifier). The
    debugger then displays the image name for each active call on the
    calls stack. The output display has been expanded and displays
    the image name in the first column.

    The debugger suppresses the share$image_name module name, because
    that information is provided by the /IMAGE qualifier.

    The SET IMAGE command lasts only for the duration of the SHOW
    THREAD/CALLS/IMAGE command. The debugger restores the set image
    state when the SHOW THREAD/CALLS/IMAGE command is complete.

    Related commands:

       DEPOSIT/TASK
       EXAMINE/TASK
       (SET, SHOW) EVENT_FACILITY
       SET TASK|THREAD

30.4  –  Examples

    1.DBG> SHOW EVENT_FACILITY
      event facility is ADA

           . . .
      DBG> SHOW TASK/ALL
        task id   pri hold state   substate        task object
      * %TASK 1    7       RUN                   122624
        %TASK 2    7  HOLD SUSP  Accept          H4.MONITOR
        %TASK 3    6       READY Entry call      H4.CHECK_IN
      DBG>

      In this example, the SHOW EVENT_FACILITY command identifies
      ADA as the current event facility. The SHOW TASK/ALL command
      provides basic information about all the tasks that were
      created through Ada services and currently exist. One line
      is devoted to each task. The active task is marked with an
      asterisk (*).  In this example, it is also the active task (the
      task that is in the RUN state).

    2.DBG> SHOW TASK %ACTIVE_TASK,3,MONITOR

      This command selects the active task, 3, and task MONITOR for
      display.

    3.DBG> SHOW TASK/PRIORITY=6

      This command selects all tasks with priority 6 for display.

    4.DBG> SHOW TASK/STATE=(RUN,SUSP)

      This command selects all tasks that are either running or
      suspended for display.

    5.DBG> SHOW TASK/STATE=SUSP/NOHOLD

      This command selects all tasks that are both suspended and not
      on hold for display.

    6.DBG> SHOW TASK/STATE=(RUN,SUSP)/PRIO=7 %VISIBLE_TASK, 3

      This command selects for display those tasks among the visible
      task and %TASK 3 that are in either the RUNNING or SUSPENDED
      state and have priority 7.

31  –  TRACE

    Displays information about tracepoints.

    Format

      SHOW TRACE

31.1  –  Qualifiers

31.1.1    /PREDEFINED

    Displays information about predefined tracepoints.

31.1.2    /USER

    Displays information about user-defined tracepoints.

31.2  –  Description

    The SHOW TRACE command displays information about tracepoints
    that are currently set, including any options such as WHEN or DO
    clauses, /AFTER counts, and so on, and whether the tracepoints
    are deactivated.

    By default, SHOW TRACE displays information about both user-
    defined and predefined tracepoints (if any). This is equivalent
    to entering the SHOW TRACE/USER/PREDEFINED command. User-defined
    tracepoints are set with the SET TRACE command. Predefined
    tracepoints are set automatically when you start the debugger,
    and they depend on the type of program you are debugging.

    If you established a tracepoint using SET TRACE/AFTER:n, the SHOW
    TRACE command displays the current value of the decimal integer
    n, that is, the originally specified integer value minus 1 for
    each time the tracepoint location was reached. (The debugger
    decrements n each time the tracepoint location is reached until
    the value of n is 0, at which time the debugger takes trace
    action.)

    On Alpha systems, the SHOW TRACE command does not display
    individual instructions when the trace is on a particular class
    of instruction (as with SET TRACE/CALL or SET TRACE/RETURN).

    Related commands:

       (ACTIVATE, DEACTIVATE, SET, CANCEL) TRACE

31.3  –  Examples

    1.DBG> SHOW TRACE
      tracepoint at routine CALC\MULT
      tracepoint on calls:
              RET     RSB     BSBB    JSB     BSBW    CALLG   CALLS
      DBG>

      In this VAX example, the SHOW TRACE command identifies all
      tracepoints that are currently set. This example indicates
      user-defined tracepoints that are triggered whenever execution
      reaches routine MULT in module CALC or one of the instructions
      RET, RSB, BSBB, JSB, BSBW, CALLG, or CALLS.

    2.all> SHOW TRACE/PREDEFINED
      predefined tracepoint on program activation
       DO (SET DISP/DYN/REM/SIZE:64/PROC SRC_ AT H1 SOURCE
              (EXAM/SOURCE .%SOURCE_SCOPE\%PC);
          SET DISP/DYN/REM/SIZE:64/PROC INST_ AT H1 INST
              (EXAM/INSTRUCTION .0\%PC))
      predefined tracepoint on program termination
      all>

      This command identifies the predefined tracepoints that are
      currently set. The example shows the predefined tracepoints
      that are set automatically by the debugger for a multiprocess
      program. The tracepoint on program activation triggers whenever
      a new process comes under debugger control. The DO clause
      creates a process-specific source display named SRC_n and a
      process-specific instruction display named INST_n whenever a
      process activation tracepoint is triggered. The tracepoint on
      program termination triggers whenever a process does an image
      exit.

32  –  TYPE

    Identifies the current type for program locations that do not
    have a compiler-generated type or, if you specify /OVERRIDE, the
    current override type.

    Format

      SHOW TYPE

32.1  –  Qualifiers

32.1.1    /OVERRIDE

    Identifies the current override type.

32.2  –  Description

    The current type for program locations that do not have a
    compiler-generated type is the type last established by the SET
    TYPE command. If you did not enter a SET TYPE command, the type
    for those locations is longword integer.

    The current override type for all program locations is the
    override type last established by the SET TYPE/OVERRIDE command.
    If you did not enter a SET TYPE/OVERRIDE command, the override
    type is "none".

    Related commands:

       CANCEL TYPE/OVERRIDE
       DEPOSIT
       EXAMINE
       (SET,SHOW,CANCEL) MODE
       (SET,SHOW,CANCEL) RADIX
       SET TYPE

32.3  –  Examples

    1.DBG> SET TYPE QUADWORD
      DBG> SHOW TYPE
      type: quadword integer
      DBG>

      In this example, you set the type to quadword for locations
      that do not have a compiler-generated type. The SHOW TYPE
      command displays the current default type for those locations
      as quadword integer. This means that the debugger interprets
      and displays entities at those locations as quadword integers
      unless you specify otherwise (for example with a type qualifier
      on the EXAMINE command).

    2.DBG> SHOW TYPE/OVERRIDE
      type/override: none
      DBG>

      This command indicates that no override type has been defined.

33  –  WATCH

    Displays information about watchpoints.

    Format

      SHOW WATCH

33.1  –  Description

    The SHOW WATCH command displays information about watchpoints
    that are currently set, including any options such as WHEN or DO
    clauses, /AFTER counts, and so on, and whether the watchpoints
    are deactivated.

    If you established a watchpoint using SET WATCH/AFTER:n, the SHOW
    WATCH command displays the current value of the decimal integer
    n, that is, the originally specified integer value minus 1 for
    each time the watchpoint location was reached. (The debugger
    decrements n each time the watchpoint location is reached until
    the value of n is 0, at which time the debugger takes watch
    action.)

    Related commands:

       (ACTIVATE,CANCEL,DEACTIVATE,SET) WATCH

33.2  –  Example

  DBG> SHOW WATCH
  watchpoint of MAIN\X
  watchpoint of SUB2\TABLE+20
  DBG>

      This command displays two watchpoints: one at the variable
      X (defined in module MAIN), and the other at the location
      SUB2\TABLE+20 (20 bytes beyond the address denoted by the
      address expression TABLE).

34  –  WINDOW

    Identifies the name and screen position of predefined and
    user-defined screen-mode windows.

                                   NOTE

       This command is not available in the VSI DECwindows Motif for
       OpenVMS user interface to the debugger.

    Format

      SHOW WINDOW  [window-name[, . . . ]]

34.1  –  Parameters

 windowname

    Specifies the name of a screen window definition. If you do not
    specify a name, or if you specify the asterisk (*)  wildcard
    character by itself, all window definitions are listed. You can
    use the wildcard within a window name. Do not specify a window
    definition name with the /ALL qualifier.

34.2  –  Qualifiers

34.2.1    /ALL

    Lists all window definitions.

34.3  –  Description

    Related commands:

       (SHOW,CANCEL) DISPLAY
       (SET,SHOW) TERMINAL
       (SET,CANCEL) WINDOW
       SHOW SELECT

34.4  –  Example

  DBG> SHOW WINDOW LH*,RH*
  window LH1 at (1,11,1,40)
  window LH12 at (1,23,1,40)
  window LH2 at (13,11,1,40)
  window RH1 at (1,11,42,39)
  window RH12 at (1,23,42,39)
  window RH2 at (13,11,42,39)
  DBG>

      This command displays the name and screen position of all
      screen window definitions whose names start with LH or RH.
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