int(11)



int(3erl)                  Erlang Module Definition                  int(3erl)

NAME
       int - Interpreter Interface.

DESCRIPTION
       The Erlang interpreter provides mechanisms for breakpoints and stepwise
       execution of code. It is primarily intended to be used by Debugger, see
       the User's Guide and debugger(3erl).

       The following can be done from the shell:

         * Specify the modules to be interpreted.

         * Specify breakpoints.

         * Monitor  the  current status of all processes executing code in in-
           terpreted modules, also processes at other Erlang nodes.

       By attaching to a process executing interpreted code, it is possible to
       examine variable bindings and order stepwise execution. This is done by
       sending and receiving information to/from the process through  a  third
       process,  called  the meta process. You can implement your own attached
       process. See int.erl for available functions and  dbg_wx_trace.erl  for
       possible messages.

       The  interpreter  depends  on  the Kernel, STDLIB, and GS applications.
       This means that modules belonging to any of these applications are  not
       allowed  to  be interpreted, as it could lead to a deadlock or emulator
       crash. This also applies to modules belonging to the Debugger  applica-
       tion.

BREAKPOINTS
       Breakpoints  are  specified  on  a line basis. When a process executing
       code in an interpreted module reaches  a  breakpoint,  it  stops.  This
       means  that  a breakpoint must be set at an executable line, that is, a
       code line containing an executable expression.

       A breakpoint has the following:

         * A status, which is active or inactive. An  inactive  breakpoint  is
           ignored.

         * A  trigger action. When a breakpoint is reached, the trigger action
           specifies if the breakpoint is to continue as active  (enable),  or
           to become inactive (disable), or to be removed (delete).

         * Optionally  an  associated  condition. A condition is a tuple {Mod-
           ule,Name}. When the breakpoint is reached, Module:Name(Bindings) is
           called.  If  it evaluates to true, execution stops. If it evaluates
           to false, the breakpoint is ignored. Bindings contains the  current
           variable  bindings. To retrieve the value for a specified variable,
           use get_binding.

       By default, a breakpoint is active, has trigger action enable, and  has
       no  associated condition. For details about breakpoints, see the User's
       Guide.

EXPORTS
       i(AbsModule) -> {module,Module} | error
       i(AbsModules) -> ok
       ni(AbsModule) -> {module,Module} | error
       ni(AbsModules) -> ok

              Types:

                 AbsModules = [AbsModule]
                 AbsModule = Module | File | [Module | File]
                  Module = atom()
                  File = string()

              Interprets the specified module(s). i/1  interprets  the  module
              only  at  the  current  node.  ni/1 interprets the module at all
              known nodes.

              A module can be specified by its module name (atom) or filename.

              If specified by its module name, the object code Module.beam  is
              searched  for in the current path. The source code Module.erl is
              searched for first in the same directory  as  the  object  code,
              then in an src directory next to it.

              If  specified  by  its filename, the filename can include a path
              and the .erl extension can be  omitted.  The  object  code  Mod-
              ule.beam  is  searched  for  first  in the same directory as the
              source code, then in an ebin directory next to it, and  then  in
              the current path.

          Note:
              The  interpreter  requires  both  the source code and the object
              code. The object code must include debug information,  that  is,
              only  modules  compiled with option debug_info set can be inter-
              preted.

              The functions returns {module,Module} if the module  was  inter-
              preted, otherwise error is returned.

              The  argument  can  also  be  a list of modules or filenames, in
              which case the function tries to interpret each module as speci-
              fied  earlier.  The  function then always returns ok, but prints
              some information to stdout if a module cannot be interpreted.

       n(AbsModule) -> ok
       nn(AbsModule) -> ok

              Types:

                 AbsModule = Module | File | [Module | File]
                  Module = atom()
                  File = string()

              Stops interpreting the specified module. n/1 stops  interpreting
              the module only at the current node. nn/1 stops interpreting the
              module at all known nodes.

              As for i/1 and ni/1, a module can be  specified  by  its  module
              name or filename.

       interpreted() -> [Module]

              Types:

                 Module = atom()

              Returns a list with all interpreted modules.

       file(Module) -> File | {error,not_loaded}

              Types:

                 Module = atom()
                 File = string()

              Returns  the source code filename File for an interpreted module
              Module.

       interpretable(AbsModule) -> true | {error,Reason}

              Types:

                 AbsModule = Module | File
                  Module = atom()
                  File = string()
                 Reason  =  no_src  |  no_beam  |  no_debug_info  |  badarg  |
                 {app,App}
                  App = atom()

              Checks  if a module can be interpreted. The module can be speci-
              fied by its module name Module or its source filename  File.  If
              specified  by  a  module name, the module is searched for in the
              code path.

              The function returns true if all of the following apply:

                * Both source code and object code for the module is found.

                * The module has been compiled with option debug_info set.

                * The module does not belong to any of the  applications  Ker-
                  nel, STDLIB, GS, or Debugger.

              The  function returns {error,Reason} if the module cannot be in-
              terpreted. Reason can have the following values:

                no_src:
                  No source code is found. It is assumed that the source  code
                  and object code are located either in the same directory, or
                  in src and ebin directories next to each other.

                no_beam:
                  No object code is found. It is assumed that the source  code
                  and object code are located either in the same directory, or
                  in src and ebin directories next to each other.

                no_debug_info:
                  The module has not been compiled with option debug_info set.

                badarg:
                  AbsModule is not found. This could be because the  specified
                  file does not exist, or because code:which/1 does not return
                  a BEAM filename, which is the case not only for non-existing
                  modules  but  also  for modules that are preloaded or cover-
                  compiled.

                {app,App}:
                  App is kernel, stdlib, gs, or debugger if AbsModule  belongs
                  to one of these applications.

              Notice  that  the  function can return true for a module that in
              fact is not interpretable in the case where the module is marked
              as sticky or resides in a directory marked as sticky. The reason
              is that this is not discovered until the  interpreter  tries  to
              load the module.

       auto_attach() -> false | {Flags,Function}
       auto_attach(false)
       auto_attach(Flags, Function)

              Types:

                 Flags = [init | break | exit]
                 Function = {Module,Name,Args}
                  Module = Name = atom()
                  Args = [term()]

              Gets  and sets when and how to attach automatically to a process
              executing code in interpreted modules. false means never  attach
              automatically,  this  is the default. Otherwise automatic attach
              is defined by a list of flags  and  a  function.  The  following
              flags can be specified:

                * init - Attach when a process for the first time calls an in-
                  terpreted function.

                * break - Attach whenever a process reaches a breakpoint.

                * exit - Attach when a process terminates.

              When the specified event occurs, the function Function is called
              as:

              spawn(Module, Name, [Pid | Args])

              Pid is the pid of the process executing interpreted code.

       stack_trace() -> Flag
       stack_trace(Flag)

              Types:

                 Flag = all | no_tail | false

              Gets  and sets how to save call frames in the stack. Saving call
              frames makes it possible to inspect the call chain of a process,
              and  is also used to emulate the stack trace if an error (an ex-
              ception of class error) occurs. The following flags can be spec-
              ified:

                all:
                  Save  information about all current calls, that is, function
                  calls that have not yet returned a value.

                no_tail:
                  Save information about current calls, but  discard  previous
                  information  when a tail recursive call is made. This option
                  consumes less memory and can be necessary to  use  for  pro-
                  cesses  with  long  lifetimes and many tail recursive calls.
                  This is the default.

                false:
                  Save no information about currentcalls.

       break(Module, Line) -> ok | {error,break_exists}

              Types:

                 Module = atom()
                 Line = int()

              Creates a breakpoint at Line in Module.

       delete_break(Module, Line) -> ok

              Types:

                 Module = atom()
                 Line = int()

              Deletes the breakpoint at Line in Module.

       break_in(Module, Name, Arity) -> ok | {error,function_not_found}

              Types:

                 Module = Name = atom()
                 Arity = int()

              Creates a breakpoint at the first line of every clause of  func-
              tion Module:Name/Arity.

       del_break_in(Module, Name, Arity) -> ok | {error,function_not_found}

              Types:

                 Module = Name = atom()
                 Arity = int()

              Deletes  the  breakpoints  at  the first line of every clause of
              function Module:Name/Arity.

       no_break() -> ok
       no_break(Module) -> ok

              Deletes all breakpoints, or all breakpoints in Module.

       disable_break(Module, Line) -> ok

              Types:

                 Module = atom()
                 Line = int()

              Makes the breakpoint at Line in Module inactive.

       enable_break(Module, Line) -> ok

              Types:

                 Module = atom()
                 Line = int()

              Makes the breakpoint at Line in Module active.

       action_at_break(Module, Line, Action) -> ok

              Types:

                 Module = atom()
                 Line = int()
                 Action = enable | disable | delete

              Sets the trigger action of the breakpoint at Line in  Module  to
              Action.

       test_at_break(Module, Line, Function) -> ok

              Types:

                 Module = atom()
                 Line = int()
                 Function = {Module,Name}
                  Name = atom()

              Sets the conditional test of the breakpoint at Line in Module to
              Function. The function must fulfill the  requirements  specified
              in section Breakpoints.

       get_binding(Var, Bindings) -> {value,Value} | unbound

              Types:

                 Var = atom()
                 Bindings = term()
                 Value = term()

              Retrieves  the  binding  of Var. This function is intended to be
              used by the conditional function of a breakpoint.

       all_breaks() -> [Break]
       all_breaks(Module) -> [Break]

              Types:

                 Break = {Point,Options}
                  Point = {Module,Line}
                  Module = atom()
                  Line = int()
                  Options = [Status,Trigger,null,Cond|]
                  Status = active | inactive
                  Trigger = enable | disable | delete
                  Cond = null | Function
                  Function = {Module,Name}
                  Name = atom()

              Gets all breakpoints, or all breakpoints in Module.

       snapshot() -> [Snapshot]

              Types:

                 Snapshot = {Pid, Function, Status, Info}
                  Pid = pid()
                  Function = {Module,Name,Args}
                  Module = Name = atom()
                  Args = [term()]
                  Status = idle | running | waiting | break | exit | no_conn
                  Info = {} | {Module,Line} | ExitReason
                  Line = int()
                  ExitReason = term()

              Gets information about all processes executing interpreted code.

                * Pid - Process identifier.

                * Function - First interpreted function called by the process.

                * Status - Current status of the process.

                * Info - More information.

              Status is one of the following:

                * idle - The process is no longer executing interpreted  code.
                  Info={}.

                * running - The process is running. Info={}.

                * waiting - The process is waiting at a receive. Info={}.

                * break  -  Process execution is stopped, normally at a break-
                  point. Info={Module,Line}.

                * exit - The process is terminated. Info=ExitReason.

                * no_conn - The connection is  down  to  the  node  where  the
                  process is running. Info={}.

       clear() -> ok

              Clears information about processes executing interpreted code by
              removing all information about terminated processes.

       continue(Pid) -> ok | {error,not_interpreted}
       continue(X,Y,Z) -> ok | {error,not_interpreted}

              Types:

                 Pid = pid()
                 X = Y = Z = int()

              Resumes process execution for Pid or c:pid(X,Y,Z).

Ericsson AB                      debugger 5.0                        int(3erl)

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