Remove infrun.hacked.c. I just looked at the diff, and don't see any

interesting ideas there.  It is over two years old....

2 files changed, 0 insertions, 1705 deletions

diff --git a/gdb/.Sanitize b/gdb/.Sanitize
index 692517f..9d486bb 100644
--- a/gdb/.Sanitize
+++ b/gdb/.Sanitize
@@ -286,9 +286,6 @@ z8k-tdep.c
 # energize-patches	- Part of Lucid support.
 # energize.c		- Part of Lucid support.
 # energize.h		- Part of Lucid support.
-# infrun.hacked.c	- An old version of infrun.c that had some 
-#			  wait_for_inferior improvements by gnu,
-#			  which were never fully debugged.
 # remote-sa.sparc.c	- Remote target for a standalone SPARC, using
 #			  the FORTH console ROMs.  We never got the paperwork
 #			  straight, since Sun's lawyers messed with the
@@ -306,7 +303,6 @@ energize
 energize-patches
 energize.c
 energize.h
-infrun.hacked.c
 remote-sa.sparc.c
 state.c
 state.h
diff --git a/gdb/infrun.hacked.c b/gdb/infrun.hacked.c
deleted file mode 100644
index 777a286..0000000
--- a/gdb/infrun.hacked.c
+++ /dev/null
@@ -1,1701 +0,0 @@
-/* Start and stop the inferior process, for GDB.
-   Copyright (C) 1986, 1987, 1988, 1989 Free Software Foundation, Inc.
-
-This file is part of GDB.
-
-This program is free software; you can redistribute it and/or modify
-it under the terms of the GNU General Public License as published by
-the Free Software Foundation; either version 2 of the License, or
-(at your option) any later version.
-
-This program is distributed in the hope that it will be useful,
-but WITHOUT ANY WARRANTY; without even the implied warranty of
-MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-GNU General Public License for more details.
-
-You should have received a copy of the GNU General Public License
-along with this program; if not, write to the Free Software
-Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.  */
-
-/* Notes on the algorithm used in wait_for_inferior to determine if we
-   just did a subroutine call when stepping.  We have the following
-   information at that point:
-
-                  Current and previous (just before this step) pc.
-		  Current and previous sp.
-		  Current and previous start of current function.
-
-   If the start's of the functions don't match, then
-
-   	a) We did a subroutine call.
-
-   In this case, the pc will be at the beginning of a function.
-
-	b) We did a subroutine return.
-
-   Otherwise.
-
-	c) We did a longjmp.
-
-   If we did a longjump, we were doing "nexti", since a next would
-   have attempted to skip over the assembly language routine in which
-   the longjmp is coded and would have simply been the equivalent of a
-   continue.  I consider this ok behaivior.  We'd like one of two
-   things to happen if we are doing a nexti through the longjmp()
-   routine: 1) It behaves as a stepi, or 2) It acts like a continue as
-   above.  Given that this is a special case, and that anybody who
-   thinks that the concept of sub calls is meaningful in the context
-   of a longjmp, I'll take either one.  Let's see what happens.  
-
-   Acts like a subroutine return.  I can handle that with no problem
-   at all.
-
-   -->So: If the current and previous beginnings of the current
-   function don't match, *and* the pc is at the start of a function,
-   we've done a subroutine call.  If the pc is not at the start of a
-   function, we *didn't* do a subroutine call.  
-
-   -->If the beginnings of the current and previous function do match,
-   either: 
-
-   	a) We just did a recursive call.
-
-	   In this case, we would be at the very beginning of a
-	   function and 1) it will have a prologue (don't jump to
-	   before prologue, or 2) (we assume here that it doesn't have
-	   a prologue) there will have been a change in the stack
-	   pointer over the last instruction.  (Ie. it's got to put
-	   the saved pc somewhere.  The stack is the usual place.  In
-	   a recursive call a register is only an option if there's a
-	   prologue to do something with it.  This is even true on
-	   register window machines; the prologue sets up the new
-	   window.  It might not be true on a register window machine
-	   where the call instruction moved the register window
-	   itself.  Hmmm.  One would hope that the stack pointer would
-	   also change.  If it doesn't, somebody send me a note, and
-	   I'll work out a more general theory.
-	   bug-gdb@prep.ai.mit.edu).  This is true (albeit slipperly
-	   so) on all machines I'm aware of:
-
-	      m68k:	Call changes stack pointer.  Regular jumps don't.
-
-	      sparc:	Recursive calls must have frames and therefor,
-	                prologues.
-
-	      vax:	All calls have frames and hence change the
-	                stack pointer.
-
-	b) We did a return from a recursive call.  I don't see that we
-	   have either the ability or the need to distinguish this
-	   from an ordinary jump.  The stack frame will be printed
-	   when and if the frame pointer changes; if we are in a
-	   function without a frame pointer, it's the users own
-	   lookout.
-
-	c) We did a jump within a function.  We assume that this is
-	   true if we didn't do a recursive call.
-
-	d) We are in no-man's land ("I see no symbols here").  We
-	   don't worry about this; it will make calls look like simple
-	   jumps (and the stack frames will be printed when the frame
-	   pointer moves), which is a reasonably non-violent response.
-
-#if 0
-    We skip this; it causes more problems than it's worth.
-#ifdef SUN4_COMPILER_FEATURE
-    We do a special ifdef for the sun 4, forcing it to single step
-  into calls which don't have prologues.  This means that we can't
-  nexti over leaf nodes, we can probably next over them (since they
-  won't have debugging symbols, usually), and we can next out of
-  functions returning structures (with a "call .stret4" at the end).
-#endif
-#endif
-*/
-   
-
-   
-   
-
-#include "defs.h"
-#include <string.h>
-#include "symtab.h"
-#include "frame.h"
-#include "inferior.h"
-#include "breakpoint.h"
-#include "wait.h"
-#include "gdbcore.h"
-#include "signame.h"
-#include "command.h"
-#include "terminal.h"		/* For #ifdef TIOCGPGRP and new_tty */
-#include "target.h"
-
-#include <signal.h>
-
-/* unistd.h is needed to #define X_OK */
-#ifdef USG
-#include <unistd.h>
-#else
-#include <sys/file.h>
-#endif
-
-#ifdef SET_STACK_LIMIT_HUGE
-extern int original_stack_limit;
-#endif /* SET_STACK_LIMIT_HUGE */
-
-/* Required by <sys/user.h>.  */
-#include <sys/types.h>
-/* Required by <sys/user.h>, at least on system V.  */
-#include <sys/dir.h>
-/* Needed by IN_SIGTRAMP on some machines (e.g. vax).  */
-#include <sys/param.h>
-/* Needed by IN_SIGTRAMP on some machines (e.g. vax).  */
-#include <sys/user.h>
-
-extern int errno;
-extern char *getenv ();
-
-extern struct target_ops child_ops;	/* In inftarg.c */
-
-/* Copy of inferior_io_terminal when inferior was last started.  */
-
-extern char *inferior_thisrun_terminal;
-
-
-/* Sigtramp is a routine that the kernel calls (which then calls the
-   signal handler).  On most machines it is a library routine that
-   is linked into the executable.
-
-   This macro, given a program counter value and the name of the
-   function in which that PC resides (which can be null if the
-   name is not known), returns nonzero if the PC and name show
-   that we are in sigtramp.
-
-   On most machines just see if the name is sigtramp (and if we have
-   no name, assume we are not in sigtramp).  */
-#if !defined (IN_SIGTRAMP)
-#define IN_SIGTRAMP(pc, name) \
-  name && STREQ ("_sigtramp", name)
-#endif
-
-/* Tables of how to react to signals; the user sets them.  */
-
-static char signal_stop[NSIG];
-static char signal_print[NSIG];
-static char signal_program[NSIG];
-
-/* Nonzero if breakpoints are now inserted in the inferior.  */
-/* Nonstatic for initialization during xxx_create_inferior. FIXME. */
-
-/*static*/ int breakpoints_inserted;
-
-/* Function inferior was in as of last step command.  */
-
-static struct symbol *step_start_function;
-
-/* Nonzero => address for special breakpoint for resuming stepping.  */
-
-static CORE_ADDR step_resume_break_address;
-
-/* Pointer to orig contents of the byte where the special breakpoint is.  */
-
-static char step_resume_break_shadow[BREAKPOINT_MAX];
-
-/* Nonzero means the special breakpoint is a duplicate
-   so it has not itself been inserted.  */
-
-static int step_resume_break_duplicate;
-
-/* Nonzero if we are expecting a trace trap and should proceed from it.  */
-
-static int trap_expected;
-
-/* Nonzero if the next time we try to continue the inferior, it will
-   step one instruction and generate a spurious trace trap.
-   This is used to compensate for a bug in HP-UX.  */
-
-static int trap_expected_after_continue;
-
-/* Nonzero means expecting a trace trap
-   and should stop the inferior and return silently when it happens.  */
-
-int stop_after_trap;
-
-/* Nonzero means expecting a trap and caller will handle it themselves.
-   It is used after attach, due to attaching to a process;
-   when running in the shell before the child program has been exec'd;
-   and when running some kinds of remote stuff (FIXME?).  */
-
-int stop_soon_quietly;
-
-/* Nonzero if pc has been changed by the debugger
-   since the inferior stopped.  */
-
-int pc_changed;
-
-/* Nonzero if proceed is being used for a "finish" command or a similar
-   situation when stop_registers should be saved.  */
-
-int proceed_to_finish;
-
-/* Save register contents here when about to pop a stack dummy frame,
-   if-and-only-if proceed_to_finish is set.
-   Thus this contains the return value from the called function (assuming
-   values are returned in a register).  */
-
-char stop_registers[REGISTER_BYTES];
-
-/* Nonzero if program stopped due to error trying to insert breakpoints.  */
-
-static int breakpoints_failed;
-
-/* Nonzero after stop if current stack frame should be printed.  */
-
-static int stop_print_frame;
-
-#ifdef NO_SINGLE_STEP
-extern int one_stepped;		/* From machine dependent code */
-extern void single_step ();	/* Same. */
-#endif /* NO_SINGLE_STEP */
-
-static void insert_step_breakpoint ();
-static void remove_step_breakpoint ();
-/*static*/ void wait_for_inferior ();
-void init_wait_for_inferior ();
-static void normal_stop ();
-
-
-/* Clear out all variables saying what to do when inferior is continued.
-   First do this, then set the ones you want, then call `proceed'.  */
-
-void
-clear_proceed_status ()
-{
-  trap_expected = 0;
-  step_range_start = 0;
-  step_range_end = 0;
-  step_frame_address = 0;
-  step_over_calls = -1;
-  step_resume_break_address = 0;
-  stop_after_trap = 0;
-  stop_soon_quietly = 0;
-  proceed_to_finish = 0;
-  breakpoint_proceeded = 1;	/* We're about to proceed... */
-
-  /* Discard any remaining commands or status from previous stop.  */
-  bpstat_clear (&stop_bpstat);
-}
-
-/* Basic routine for continuing the program in various fashions.
-
-   ADDR is the address to resume at, or -1 for resume where stopped.
-   SIGGNAL is the signal to give it, or 0 for none,
-     or -1 for act according to how it stopped.
-   STEP is nonzero if should trap after one instruction.
-     -1 means return after that and print nothing.
-     You should probably set various step_... variables
-     before calling here, if you are stepping.
-
-   You should call clear_proceed_status before calling proceed.  */
-
-void
-proceed (addr, siggnal, step)
-     CORE_ADDR addr;
-     int siggnal;
-     int step;
-{
-  int oneproc = 0;
-
-  if (step > 0)
-    step_start_function = find_pc_function (read_pc ());
-  if (step < 0)
-    stop_after_trap = 1;
-
-  if (addr == -1)
-    {
-      /* If there is a breakpoint at the address we will resume at,
-	 step one instruction before inserting breakpoints
-	 so that we do not stop right away.  */
-
-      if (!pc_changed && breakpoint_here_p (read_pc ()))
-	oneproc = 1;
-    }
-  else
-    {
-      write_register (PC_REGNUM, addr);
-#ifdef NPC_REGNUM
-      write_register (NPC_REGNUM, addr + 4);
-#ifdef NNPC_REGNUM
-      write_register (NNPC_REGNUM, addr + 8);
-#endif
-#endif
-    }
-
-  if (trap_expected_after_continue)
-    {
-      /* If (step == 0), a trap will be automatically generated after
-	 the first instruction is executed.  Force step one
-	 instruction to clear this condition.  This should not occur
-	 if step is nonzero, but it is harmless in that case.  */
-      oneproc = 1;
-      trap_expected_after_continue = 0;
-    }
-
-  if (oneproc)
-    /* We will get a trace trap after one instruction.
-       Continue it automatically and insert breakpoints then.  */
-    trap_expected = 1;
-  else
-    {
-      int temp = insert_breakpoints ();
-      if (temp)
-	{
-	  print_sys_errmsg ("ptrace", temp);
-	  error ("Cannot insert breakpoints.\n\
-The same program may be running in another process.");
-	}
-      breakpoints_inserted = 1;
-    }
-
-  /* Install inferior's terminal modes.  */
-  target_terminal_inferior ();
-
-  if (siggnal >= 0)
-    stop_signal = siggnal;
-  /* If this signal should not be seen by program,
-     give it zero.  Used for debugging signals.  */
-  else if (stop_signal < NSIG && !signal_program[stop_signal])
-    stop_signal= 0;
-
-  /* Handle any optimized stores to the inferior NOW...  */
-#ifdef DO_DEFERRED_STORES
-  DO_DEFERRED_STORES;
-#endif
-
-  /* Resume inferior.  */
-  target_resume (oneproc || step || bpstat_should_step (), stop_signal);
-
-  /* Wait for it to stop (if not standalone)
-     and in any case decode why it stopped, and act accordingly.  */
-
-  wait_for_inferior ();
-  normal_stop ();
-}
-
-#if 0
-/* This might be useful (not sure), but isn't currently used.  See also
-   write_pc().  */
-/* Writing the inferior pc as a register calls this function
-   to inform infrun that the pc has been set in the debugger.  */
-
-void
-writing_pc (val)
-     CORE_ADDR val;
-{
-  stop_pc = val;
-  pc_changed = 1;
-}
-#endif
-
-/* Record the pc and sp of the program the last time it stopped.
-   These are just used internally by wait_for_inferior, but need
-   to be preserved over calls to it and cleared when the inferior
-   is started.  */
-static CORE_ADDR prev_pc;
-static CORE_ADDR prev_sp;
-static CORE_ADDR prev_func_start;
-static char *prev_func_name;
-
-/* Start an inferior Unix child process and sets inferior_pid to its pid.
-   EXEC_FILE is the file to run.
-   ALLARGS is a string containing the arguments to the program.
-   ENV is the environment vector to pass.  Errors reported with error().  */
-
-#ifndef SHELL_FILE
-#define SHELL_FILE "/bin/sh"
-#endif
-
-void
-child_create_inferior (exec_file, allargs, env)
-     char *exec_file;
-     char *allargs;
-     char **env;
-{
-  int pid;
-  char *shell_command;
-  extern int sys_nerr;
-  extern char *sys_errlist[];
-  extern int errno;
-  char *shell_file;
-  static char default_shell_file[] = SHELL_FILE;
-  int len;
-  int pending_execs;
-  /* Set debug_fork then attach to the child while it sleeps, to debug. */
-  static int debug_fork = 0;
-  /* This is set to the result of setpgrp, which if vforked, will be visible
-     to you in the parent process.  It's only used by humans for debugging.  */
-  static int debug_setpgrp = 657473;
-
-  /* The user might want tilde-expansion, and in general probably wants
-     the program to behave the same way as if run from
-     his/her favorite shell.  So we let the shell run it for us.
-     FIXME, this should probably search the local environment (as
-     modified by the setenv command), not the env gdb inherited.  */
-  shell_file = getenv ("SHELL");
-  if (shell_file == NULL)
-    shell_file = default_shell_file;
-  
-  len = 5 + strlen (exec_file) + 1 + strlen (allargs) + 1 + /*slop*/ 10;
-  /* If desired, concat something onto the front of ALLARGS.
-     SHELL_COMMAND is the result.  */
-#ifdef SHELL_COMMAND_CONCAT
-  shell_command = (char *) alloca (strlen (SHELL_COMMAND_CONCAT) + len);
-  strcpy (shell_command, SHELL_COMMAND_CONCAT);
-#else
-  shell_command = (char *) alloca (len);
-  shell_command[0] = '\0';
-#endif
-  strcat (shell_command, "exec ");
-  strcat (shell_command, exec_file);
-  strcat (shell_command, " ");
-  strcat (shell_command, allargs);
-
-  /* exec is said to fail if the executable is open.  */
-  close_exec_file ();
-
-#if defined(USG) && !defined(HAVE_VFORK)
-  pid = fork ();
-#else
-  if (debug_fork)
-    pid = fork ();
-  else
-    pid = vfork ();
-#endif
-
-  if (pid < 0)
-    perror_with_name ("vfork");
-
-  if (pid == 0)
-    {
-      if (debug_fork) 
-	sleep (debug_fork);
-
-#ifdef TIOCGPGRP
-      /* Run inferior in a separate process group.  */
-      debug_setpgrp = setpgrp (getpid (), getpid ());
-      if (0 != debug_setpgrp)
-	 perror("setpgrp failed in child");
-#endif /* TIOCGPGRP */
-
-#ifdef SET_STACK_LIMIT_HUGE
-      /* Reset the stack limit back to what it was.  */
-      {
-	struct rlimit rlim;
-
-	getrlimit (RLIMIT_STACK, &rlim);
-	rlim.rlim_cur = original_stack_limit;
-	setrlimit (RLIMIT_STACK, &rlim);
-      }
-#endif /* SET_STACK_LIMIT_HUGE */
-
-      /* Tell the terminal handling subsystem what tty we plan to run on;
-	 it will now switch to that one if non-null.  */
-
-      new_tty (inferior_io_terminal);
-
-      /* Changing the signal handlers for the inferior after
-	 a vfork can also change them for the superior, so we don't mess
-	 with signals here.  See comments in
-	 initialize_signals for how we get the right signal handlers
-	 for the inferior.  */
-
-      call_ptrace (0, 0, 0, 0);		/* "Trace me, Dr. Memory!" */
-      execle (shell_file, shell_file, "-c", shell_command, (char *)0, env);
-
-      fprintf (stderr, "Cannot exec %s: %s.\n", shell_file,
-	       errno < sys_nerr ? sys_errlist[errno] : "unknown error");
-      gdb_flush (stderr);
-      _exit (0177);
-    }
-
-  /* Now that we have a child process, make it our target.  */
-  push_target (&child_ops);
-
-#ifdef CREATE_INFERIOR_HOOK
-  CREATE_INFERIOR_HOOK (pid);
-#endif  
-
-/* The process was started by the fork that created it,
-   but it will have stopped one instruction after execing the shell.
-   Here we must get it up to actual execution of the real program.  */
-
-  inferior_pid = pid;		/* Needed for wait_for_inferior stuff below */
-
-  clear_proceed_status ();
-
-  /* We will get a trace trap after one instruction.
-     Continue it automatically.  Eventually (after shell does an exec)
-     it will get another trace trap.  Then insert breakpoints and continue.  */
-
-#ifdef START_INFERIOR_TRAPS_EXPECTED
-  pending_execs = START_INFERIOR_TRAPS_EXPECTED;
-#else
-  pending_execs = 2;
-#endif
-
-  init_wait_for_inferior ();
-
-  /* Set up the "saved terminal modes" of the inferior
-     based on what modes we are starting it with.  */
-  target_terminal_init ();
-
-  /* Install inferior's terminal modes.  */
-  target_terminal_inferior ();
-
-  while (1)
-    {
-      stop_soon_quietly = 1;	/* Make wait_for_inferior be quiet */
-      wait_for_inferior ();
-      if (stop_signal != SIGTRAP)
-	{
-	  /* Let shell child handle its own signals in its own way */
-	  /* FIXME, what if child has exit()ed?  Must exit loop somehow */
-	  target_resume (0, stop_signal);
-	}
-      else
-	{
-	  /* We handle SIGTRAP, however; it means child did an exec.  */
-	  if (0 == --pending_execs)
-	    break;
-	  target_resume (0, 0);		/* Just make it go on */
-	}
-    }
-  stop_soon_quietly = 0;
-
-  /* Should this perhaps just be a "proceed" call?  FIXME */
-  insert_step_breakpoint ();
-  breakpoints_failed = insert_breakpoints ();
-  if (!breakpoints_failed)
-    {
-      breakpoints_inserted = 1;
-      target_terminal_inferior();
-      /* Start the child program going on its first instruction, single-
-	 stepping if we need to.  */
-      target_resume (bpstat_should_step (), 0);
-      wait_for_inferior ();
-      normal_stop ();
-    }
-}
-
-/* Start remote-debugging of a machine over a serial link.  */
-
-void
-start_remote ()
-{
-  init_wait_for_inferior ();
-  clear_proceed_status ();
-  stop_soon_quietly = 1;
-  trap_expected = 0;
-}
-
-/* Initialize static vars when a new inferior begins.  */
-
-void
-init_wait_for_inferior ()
-{
-  /* These are meaningless until the first time through wait_for_inferior.  */
-  prev_pc = 0;
-  prev_sp = 0;
-  prev_func_start = 0;
-  prev_func_name = NULL;
-
-  trap_expected_after_continue = 0;
-  breakpoints_inserted = 0;
-  mark_breakpoints_out ();
-}
-
-
-/* Attach to process PID, then initialize for debugging it
-   and wait for the trace-trap that results from attaching.  */
-
-void
-child_open (args, from_tty)
-     char *args;
-     int from_tty;
-{
-  char *exec_file;
-  int pid;
-
-  dont_repeat();
-
-  if (!args)
-    error_no_arg ("process-id to attach");
-
-#ifndef ATTACH_DETACH
-  error ("Can't attach to a process on this machine.");
-#else
-  pid = atoi (args);
-
-  if (target_has_execution)
-    {
-      if (query ("A program is being debugged already.  Kill it? "))
-	target_kill ((char *)0, from_tty);
-      else
-	error ("Inferior not killed.");
-    }
-
-  exec_file = (char *) get_exec_file (1);
-
-  if (from_tty)
-    {
-      printf ("Attaching program: %s pid %d\n",
-	      exec_file, pid);
-      gdb_flush (stdout);
-    }
-
-  attach (pid);
-  inferior_pid = pid;
-  push_target (&child_ops);
-
-  mark_breakpoints_out ();
-  target_terminal_init ();
-  clear_proceed_status ();
-  stop_soon_quietly = 1;
-  /*proceed (-1, 0, -2);*/
-  target_terminal_inferior ();
-  wait_for_inferior ();
-  normal_stop ();
-#endif  /* ATTACH_DETACH */
-}
-
-/* Wait for control to return from inferior to debugger.
-   If inferior gets a signal, we may decide to start it up again
-   instead of returning.  That is why there is a loop in this function.
-   When this function actually returns it means the inferior
-   should be left stopped and GDB should read more commands.  */
-
-void
-wait_for_inferior ()
-{
-  WAITTYPE w;
-  int another_trap;
-  int random_signal;
-  CORE_ADDR stop_sp;
-  CORE_ADDR stop_func_start;
-  char *stop_func_name;
-  CORE_ADDR prologue_pc;
-  int stop_step_resume_break;
-  struct symtab_and_line sal;
-  int remove_breakpoints_on_following_step = 0;
-
-#if 0
-  /* This no longer works now that read_register is lazy;
-     it might try to ptrace when the process is not stopped.  */
-  prev_pc = read_pc ();
-  (void) find_pc_partial_function (prev_pc, &prev_func_name,
-				   &prev_func_start);
-  prev_func_start += FUNCTION_START_OFFSET;
-  prev_sp = read_register (SP_REGNUM);
-#endif /* 0 */
-
-  while (1)
-    {
-      /* Clean up saved state that will become invalid.  */
-      pc_changed = 0;
-      flush_cached_frames ();
-      registers_changed ();
-
-      target_wait (&w);
-
-      /* See if the process still exists; clean up if it doesn't.  */
-      if (WIFEXITED (w))
-	{
-	  target_terminal_ours_for_output ();
-	  if (WEXITSTATUS (w))
-	    printf ("\nProgram exited with code 0%o.\n", 
-		     (unsigned int)WEXITSTATUS (w));
-	  else
-	    if (!batch_mode())
-	      printf ("\nProgram exited normally.\n");
-	  gdb_flush (stdout);
-	  target_mourn_inferior ();
-#ifdef NO_SINGLE_STEP
-	  one_stepped = 0;
-#endif
-	  stop_print_frame = 0;
-	  break;
-	}
-      else if (!WIFSTOPPED (w))
-	{
-	  target_kill ((char *)0, 0);
-	  stop_print_frame = 0;
-	  stop_signal = WTERMSIG (w);
-	  target_terminal_ours_for_output ();
-	  printf ("\nProgram terminated with signal %d, %s\n",
-		  stop_signal,
-		  stop_signal < NSIG
-		  ? sys_siglist[stop_signal]
-		  : "(undocumented)");
-	  printf ("The inferior process no longer exists.\n");
-	  gdb_flush (stdout);
-#ifdef NO_SINGLE_STEP
-	  one_stepped = 0;
-#endif
-	  break;
-	}
-      
-#ifdef NO_SINGLE_STEP
-      if (one_stepped)
-	single_step (0);	/* This actually cleans up the ss */
-#endif /* NO_SINGLE_STEP */
-      
-      stop_pc = read_pc ();
-      set_current_frame ( create_new_frame (read_register (FP_REGNUM),
-					    read_pc ()));
-      
-      stop_frame_address = FRAME_FP (get_current_frame ());
-      stop_sp = read_register (SP_REGNUM);
-      stop_func_start = 0;
-      stop_func_name = 0;
-      /* Don't care about return value; stop_func_start and stop_func_name
-	 will both be 0 if it doesn't work.  */
-      (void) find_pc_partial_function (stop_pc, &stop_func_name,
-				       &stop_func_start);
-      stop_func_start += FUNCTION_START_OFFSET;
-      another_trap = 0;
-      bpstat_clear (&stop_bpstat);
-      stop_step = 0;
-      stop_stack_dummy = 0;
-      stop_print_frame = 1;
-      stop_step_resume_break = 0;
-      random_signal = 0;
-      stopped_by_random_signal = 0;
-      breakpoints_failed = 0;
-      
-      /* Look at the cause of the stop, and decide what to do.
-	 The alternatives are:
-	 1) break; to really stop and return to the debugger,
-	 2) drop through to start up again
-	 (set another_trap to 1 to single step once)
-	 3) set random_signal to 1, and the decision between 1 and 2
-	 will be made according to the signal handling tables.  */
-      
-      stop_signal = WSTOPSIG (w);
-      
-      /* First, distinguish signals caused by the debugger from signals
-	 that have to do with the program's own actions.
-	 Note that breakpoint insns may cause SIGTRAP or SIGILL
-	 or SIGEMT, depending on the operating system version.
-	 Here we detect when a SIGILL or SIGEMT is really a breakpoint
-	 and change it to SIGTRAP.  */
-      
-      if (stop_signal == SIGTRAP
-	  || (breakpoints_inserted &&
-	      (stop_signal == SIGILL
-	       || stop_signal == SIGEMT))
-	  || stop_soon_quietly)
-	{
-	  if (stop_signal == SIGTRAP && stop_after_trap)
-	    {
-	      stop_print_frame = 0;
-	      break;
-	    }
-	  if (stop_soon_quietly)
-	    break;
-
-	  /* Don't even think about breakpoints
-	     if just proceeded over a breakpoint.
-
-	     However, if we are trying to proceed over a breakpoint
-	     and end up in sigtramp, then step_resume_break_address
-	     will be set and we should check whether we've hit the
-	     step breakpoint.  */
-	  if (stop_signal == SIGTRAP && trap_expected
-	      && step_resume_break_address == NULL)
-	    bpstat_clear (&stop_bpstat);
-	  else
-	    {
-	      /* See if there is a breakpoint at the current PC.  */
-#if DECR_PC_AFTER_BREAK
-	      /* Notice the case of stepping through a jump
-		 that leads just after a breakpoint.
-		 Don't confuse that with hitting the breakpoint.
-		 What we check for is that 1) stepping is going on
-		 and 2) the pc before the last insn does not match
-		 the address of the breakpoint before the current pc.  */
-	      if (!(prev_pc != stop_pc - DECR_PC_AFTER_BREAK
-		    && step_range_end && !step_resume_break_address))
-#endif /* DECR_PC_AFTER_BREAK not zero */
-		{
-		  /* See if we stopped at the special breakpoint for
-		     stepping over a subroutine call.  */
-		  if (stop_pc - DECR_PC_AFTER_BREAK
-		      == step_resume_break_address)
-		    {
-		      stop_step_resume_break = 1;
-		      if (DECR_PC_AFTER_BREAK)
-			{
-			  stop_pc -= DECR_PC_AFTER_BREAK;
-			  write_register (PC_REGNUM, stop_pc);
-			  pc_changed = 0;
-			}
-		    }
-		  else
-		    {
-		      stop_bpstat =
-			bpstat_stop_status (&stop_pc, stop_frame_address);
-		      /* Following in case break condition called a
-			 function.  */
-		      stop_print_frame = 1;
-		    }
-		}
-	    }
-	  
-	  if (stop_signal == SIGTRAP)
-	    random_signal
-	      = !(bpstat_explains_signal (stop_bpstat)
-		  || trap_expected
-		  || stop_step_resume_break
-		  || PC_IN_CALL_DUMMY (stop_pc, stop_sp, stop_frame_address)
-		  || (step_range_end && !step_resume_break_address));
-	  else
-	    {
-	      random_signal
-		= !(bpstat_explains_signal (stop_bpstat)
-		    || stop_step_resume_break
-		    /* End of a stack dummy.  Some systems (e.g. Sony
-		       news) give another signal besides SIGTRAP,
-		       so check here as well as above.  */
-		    || (stop_sp INNER_THAN stop_pc
-			&& stop_pc INNER_THAN stop_frame_address)
-		    );
-	      if (!random_signal)
-		stop_signal = SIGTRAP;
-	    }
-	}
-      else
-	random_signal = 1;
-      
-      /* For the program's own signals, act according to
-	 the signal handling tables.  */
-      
-      if (random_signal)
-	{
-	  /* Signal not for debugging purposes.  */
-	  int printed = 0;
-	  
-	  stopped_by_random_signal = 1;
-	  
-	  if (stop_signal >= NSIG
-	      || signal_print[stop_signal])
-	    {
-	      printed = 1;
-	      target_terminal_ours_for_output ();
-#ifdef PRINT_RANDOM_SIGNAL
-	      PRINT_RANDOM_SIGNAL (stop_signal);
-#else
-	      printf ("\nProgram received signal %d, %s\n",
-		      stop_signal,
-		      stop_signal < NSIG
-		      ? sys_siglist[stop_signal]
-		      : "(undocumented)");
-#endif /* PRINT_RANDOM_SIGNAL */
-	      gdb_flush (stdout);
-	    }
-	  if (stop_signal >= NSIG
-	      || signal_stop[stop_signal])
-	    break;
-	  /* If not going to stop, give terminal back
-	     if we took it away.  */
-	  else if (printed)
-	    target_terminal_inferior ();
-	}
-      
-      /* Handle cases caused by hitting a user breakpoint.  */
-      
-      if (!random_signal && bpstat_explains_signal (stop_bpstat))
-      {
-	  /* Does a breakpoint want us to stop?  */
-	  if (bpstat_stop (stop_bpstat))
-	    {
-	      stop_print_frame = bpstat_should_print (stop_bpstat);
-	      break;
-	    }
-
-	  /* Otherwise we continue.  Must remove breakpoints and single-step
-	     to get us past the one we hit.  Possibly we also were stepping
-	     and should stop for that.  So fall through and
-	     test for stepping.  But, if not stepping,
-	     do not stop.  */
-	  else
-	    {
-	      remove_breakpoints ();
-	      remove_step_breakpoint (); /* FIXME someday, do we need this? */
-	      breakpoints_inserted = 0;
-	      another_trap = 1;
-	    }
-	}
-
-      /* Handle cases caused by hitting a step-resumption breakpoint.  */
-      
-      else if (!random_signal && stop_step_resume_break)
-	{
-	  /* We have hit the step-resumption breakpoint.
-	     If we aren't in a recursive call that hit it again
-	     before returning from the original call, remove it;
-	     it has done its job getting us here.  We then resume
-	     the stepping we were doing before the function call.
-
-	     If we are in a recursive call, just proceed from this
-	     breakpoint as usual, keeping it around to catch the final
-	     return of interest.
-
-	     There used to be an sp test to make sure that we don't get hung
-	     up in recursive calls in functions without frame
-	     pointers.  If the stack pointer isn't outside of
-	     where the breakpoint was set (within a routine to be
-	     stepped over), we're in the middle of a recursive
-	     call. Not true for reg window machines (sparc)
-	     because they must change frames to call things and
-	     the stack pointer doesn't have to change if
-	     the bp was set in a routine without a frame (pc can
-	     be stored in some other window).
-
-	     The removal of the sp test is to allow calls to
-	     alloca.  Nasty things were happening.  Oh, well,
-	     gdb can only handle one level deep of lack of
-	     frame pointer. */
-	  if (step_frame_address == 0
-	      || (stop_frame_address == step_frame_address))
-	    {
-	      /* We really hit it:  not a recursive call.  */
-	      remove_step_breakpoint ();
-	      step_resume_break_address = 0;
-
-	      /* If we're waiting for a trap, hitting the step_resume_break
-		 doesn't count as getting it.  */
-	      if (trap_expected)
-		another_trap = 1;
-	      /* Fall through to resume stepping... */
-	    }
-	  else
-	    {
-	      /* Otherwise, it's the recursive call case.  */
-	      remove_breakpoints ();
-	      remove_step_breakpoint ();
-	      breakpoints_inserted = 0;
-	      another_trap = 1;
-	      /* Fall through to continue executing at full speed 
-		 (with a possible single-step lurch over the step-resumption
-		  breakpoint as we start.)  */
-	    }
-	}
-      
-      /* If this is the breakpoint at the end of a stack dummy,
-	 just stop silently.  */
-      if (PC_IN_CALL_DUMMY (stop_pc, stop_sp, stop_frame_address))
-	  {
-	    stop_print_frame = 0;
-	    stop_stack_dummy = 1;
-#ifdef HP_OS_BUG
-	    trap_expected_after_continue = 1;
-#endif
-	    break;
-	  }
-      
-      if (step_resume_break_address)
-	/* Having a step-resume breakpoint overrides anything
-	   else having to do with stepping commands until
-	   that breakpoint is reached.  */
-	;
-      /* If stepping through a line, keep going if still within it.  */
-      else if (!random_signal
-	       && step_range_end
-	       && stop_pc >= step_range_start
-	       && stop_pc < step_range_end
-	       /* The step range might include the start of the
-		  function, so if we are at the start of the
-		  step range and either the stack or frame pointers
-		  just changed, we've stepped outside */
-	       && !(stop_pc == step_range_start
-		    && stop_frame_address
-		    && (stop_sp INNER_THAN prev_sp
-			|| stop_frame_address != step_frame_address)))
-	{
-#if 0
-	  /* When "next"ing through a function,
-	     This causes an extra stop at the end.
-	     Is there any reason for this?
-	     It's confusing to the user.  */
-	  /* Don't step through the return from a function
-	     unless that is the first instruction stepped through.  */
-	  if (ABOUT_TO_RETURN (stop_pc))
-	    {
-	      stop_step = 1;
-	      break;
-	    }
-#endif
-	}
-      
-      /* We stepped out of the stepping range.  See if that was due
-	 to a subroutine call that we should proceed to the end of.  */
-      else if (!random_signal && step_range_end)
-	{
-	  if (stop_func_start)
-	    {
-	      prologue_pc = stop_func_start;
-	      SKIP_PROLOGUE (prologue_pc);
-	    }
-
-	  /* Did we just take a signal?  */
-	  if (IN_SIGTRAMP (stop_pc, stop_func_name)
-	      && !IN_SIGTRAMP (prev_pc, prev_func_name))
-	    {
-	      /* This code is needed at least in the following case:
-		 The user types "next" and then a signal arrives (before
-		 the "next" is done).  */
-	      /* We've just taken a signal; go until we are back to
-		 the point where we took it and one more.  */
-	      step_resume_break_address = prev_pc;
-	      step_resume_break_duplicate =
-		breakpoint_here_p (step_resume_break_address);
-	      if (breakpoints_inserted)
-		insert_step_breakpoint ();
-	      /* Make sure that the stepping range gets us past
-		 that instruction.  */
-	      if (step_range_end == 1)
-		step_range_end = (step_range_start = prev_pc) + 1;
-	      remove_breakpoints_on_following_step = 1;
-	    }
-
-	  /* ==> See comments at top of file on this algorithm.  <==*/
-	  
-	  else if (stop_pc == stop_func_start
-	      && (stop_func_start != prev_func_start
-		  || prologue_pc != stop_func_start
-		  || stop_sp != prev_sp))
-	    {
-	      /* It's a subroutine call */
-	      if (step_over_calls > 0 
-		  || (step_over_calls &&  find_pc_function (stop_pc) == 0))
-		{
-		  /* A subroutine call has happened.  */
-		  /* Set a special breakpoint after the return */
-		  step_resume_break_address =
-		    ADDR_BITS_REMOVE
-		      (SAVED_PC_AFTER_CALL (get_current_frame ()));
-		  step_resume_break_duplicate
-		    = breakpoint_here_p (step_resume_break_address);
-		  if (breakpoints_inserted)
-		    insert_step_breakpoint ();
-		}
-	      /* Subroutine call with source code we should not step over.
-		 Do step to the first line of code in it.  */
-	      else if (step_over_calls)
-		{
-		  SKIP_PROLOGUE (stop_func_start);
-		  sal = find_pc_line (stop_func_start, 0);
-		  /* Use the step_resume_break to step until
-		     the end of the prologue, even if that involves jumps
-		     (as it seems to on the vax under 4.2).  */
-		  /* If the prologue ends in the middle of a source line,
-		     continue to the end of that source line.
-		     Otherwise, just go to end of prologue.  */
-#ifdef PROLOGUE_FIRSTLINE_OVERLAP
-		  /* no, don't either.  It skips any code that's
-		     legitimately on the first line.  */
-#else
-		  if (sal.end && sal.pc != stop_func_start)
-		    stop_func_start = sal.end;
-#endif
-		  
-		  if (stop_func_start == stop_pc)
-		    {
-		      /* We are already there: stop now.  */
-		      stop_step = 1;
-		      break;
-		    }
-		  else
-		    /* Put the step-breakpoint there and go until there. */
-		    {
-		      step_resume_break_address = stop_func_start;
-		      
-		      step_resume_break_duplicate
-			= breakpoint_here_p (step_resume_break_address);
-		      if (breakpoints_inserted)
-			insert_step_breakpoint ();
-		      /* Do not specify what the fp should be when we stop
-			 since on some machines the prologue
-			 is where the new fp value is established.  */
-		      step_frame_address = 0;
-		      /* And make sure stepping stops right away then.  */
-		      step_range_end = step_range_start;
-		    }
-		}
-	      else
-		{
-		  /* We get here only if step_over_calls is 0 and we
-		     just stepped into a subroutine.  I presume
-		     that step_over_calls is only 0 when we're
-		     supposed to be stepping at the assembly
-		     language level.*/
-		  stop_step = 1;
-		  break;
-		}
-	    }
-	  /* No subroutine call; stop now.  */
-	  else
-	    {
-	      stop_step = 1;
-	      break;
-	    }
-	}
-
-      else if (trap_expected
-	       && IN_SIGTRAMP (stop_pc, stop_func_name)
-	       && !IN_SIGTRAMP (prev_pc, prev_func_name))
-	{
-	  /* What has happened here is that we have just stepped the inferior
-	     with a signal (because it is a signal which shouldn't make
-	     us stop), thus stepping into sigtramp.
-
-	     So we need to set a step_resume_break_address breakpoint
-	     and continue until we hit it, and then step.  */
-	  step_resume_break_address = prev_pc;
-	  /* Always 1, I think, but it's probably easier to have
-	     the step_resume_break as usual rather than trying to
-	     re-use the breakpoint which is already there.  */
-	  step_resume_break_duplicate =
-	    breakpoint_here_p (step_resume_break_address);
-	  if (breakpoints_inserted)
-	    insert_step_breakpoint ();
-	  remove_breakpoints_on_following_step = 1;
-	  another_trap = 1;
-	}
-
-      /* Save the pc before execution, to compare with pc after stop.  */
-      prev_pc = read_pc ();	/* Might have been DECR_AFTER_BREAK */
-      prev_func_start = stop_func_start; /* Ok, since if DECR_PC_AFTER
-					  BREAK is defined, the
-					  original pc would not have
-					  been at the start of a
-					  function. */
-      prev_func_name = stop_func_name;
-      prev_sp = stop_sp;
-
-      /* If we did not do break;, it means we should keep
-	 running the inferior and not return to debugger.  */
-
-      if (trap_expected && stop_signal != SIGTRAP)
-	{
-	  /* We took a signal (which we are supposed to pass through to
-	     the inferior, else we'd have done a break above) and we
-	     haven't yet gotten our trap.  Simply continue.  */
-	  target_resume ((step_range_end && !step_resume_break_address)
-		  || (trap_expected && !step_resume_break_address)
-		  || bpstat_should_step (),
-		  stop_signal);
-	}
-      else
-	{
-	  /* Either the trap was not expected, but we are continuing
-	     anyway (the user asked that this signal be passed to the
-	     child)
-	       -- or --
-	     The signal was SIGTRAP, e.g. it was our signal, but we
-	     decided we should resume from it.
-
-	     We're going to run this baby now!
-
-	     Insert breakpoints now, unless we are trying
-	     to one-proceed past a breakpoint.  */
-	  /* If we've just finished a special step resume and we don't
-	     want to hit a breakpoint, pull em out.  */
-	  if (!step_resume_break_address &&
-	      remove_breakpoints_on_following_step)
-	    {
-	      remove_breakpoints_on_following_step = 0;
-	      remove_breakpoints ();
-	      breakpoints_inserted = 0;
-	    }
-	  else if (!breakpoints_inserted &&
-		   (step_resume_break_address != NULL || !another_trap))
-	    {
-	      insert_step_breakpoint ();
-	      breakpoints_failed = insert_breakpoints ();
-	      if (breakpoints_failed)
-		break;
-	      breakpoints_inserted = 1;
-	    }
-
-	  trap_expected = another_trap;
-
-	  if (stop_signal == SIGTRAP)
-	    stop_signal = 0;
-
-#ifdef SHIFT_INST_REGS
-	  /* I'm not sure when this following segment applies.  I do know, now,
-	     that we shouldn't rewrite the regs when we were stopped by a
-	     random signal from the inferior process.  */
-
-          if (!stop_breakpoint && (stop_signal != SIGCLD) 
-              && !stopped_by_random_signal)
-            {
-            CORE_ADDR pc_contents = read_register (PC_REGNUM);
-            CORE_ADDR npc_contents = read_register (NPC_REGNUM);
-            if (pc_contents != npc_contents)
-              {
-              write_register (NNPC_REGNUM, npc_contents);
-              write_register (NPC_REGNUM, pc_contents);
-	      }
-            }
-#endif /* SHIFT_INST_REGS */
-
-	  target_resume ((step_range_end && !step_resume_break_address)
-		  || (trap_expected && !step_resume_break_address)
-		  || bpstat_should_step (),
-		  stop_signal);
-	}
-    }
-  if (target_has_execution)
-    {
-      /* Assuming the inferior still exists, set these up for next
-	 time, just like we did above if we didn't break out of the
-	 loop.  */
-      prev_pc = read_pc ();
-      prev_func_start = stop_func_start;
-      prev_func_name = stop_func_name;
-      prev_sp = stop_sp;
-    }
-}
-
-/* Here to return control to GDB when the inferior stops for real.
-   Print appropriate messages, remove breakpoints, give terminal our modes.
-
-   STOP_PRINT_FRAME nonzero means print the executing frame
-   (pc, function, args, file, line number and line text).
-   BREAKPOINTS_FAILED nonzero means stop was due to error
-   attempting to insert breakpoints.  */
-
-static void
-normal_stop ()
-{
-  /* Make sure that the current_frame's pc is correct.  This
-     is a correction for setting up the frame info before doing
-     DECR_PC_AFTER_BREAK */
-  if (target_has_execution)
-    (get_current_frame ())->pc = read_pc ();
-  
-  if (breakpoints_failed)
-    {
-      target_terminal_ours_for_output ();
-      print_sys_errmsg ("ptrace", breakpoints_failed);
-      printf ("Stopped; cannot insert breakpoints.\n\
-The same program may be running in another process.\n");
-    }
-
-  if (target_has_execution)
-    remove_step_breakpoint ();
-
-  if (target_has_execution && breakpoints_inserted)
-    if (remove_breakpoints ())
-      {
-	target_terminal_ours_for_output ();
-	printf ("Cannot remove breakpoints because program is no longer writable.\n\
-It must be running in another process.\n\
-Further execution is probably impossible.\n");
-      }
-
-  breakpoints_inserted = 0;
-
-  /* Delete the breakpoint we stopped at, if it wants to be deleted.
-     Delete any breakpoint that is to be deleted at the next stop.  */
-
-  breakpoint_auto_delete (stop_bpstat);
-
-  /* If an auto-display called a function and that got a signal,
-     delete that auto-display to avoid an infinite recursion.  */
-
-  if (stopped_by_random_signal)
-    disable_current_display ();
-
-  if (step_multi && stop_step)
-    return;
-
-  target_terminal_ours ();
-
-  if (!target_has_stack)
-    return;
-
-  /* Select innermost stack frame except on return from a stack dummy routine,
-     or if the program has exited.  */
-  if (!stop_stack_dummy)
-    {
-      select_frame (get_current_frame (), 0);
-
-      if (stop_print_frame)
-	{
-	  int source_only = bpstat_print (stop_bpstat);
-	  print_sel_frame
-	    (source_only
-	     || (stop_step
-		 && step_frame_address == stop_frame_address
-		 && step_start_function == find_pc_function (stop_pc)));
-
-	  /* Display the auto-display expressions.  */
-	  do_displays ();
-	}
-    }
-
-  /* Save the function value return registers, if we care.
-     We might be about to restore their previous contents.  */
-  if (proceed_to_finish)
-    read_register_bytes (0, stop_registers, REGISTER_BYTES);
-
-  if (stop_stack_dummy)
-    {
-      /* Pop the empty frame that contains the stack dummy.
-         POP_FRAME ends with a setting of the current frame, so we
-	 can use that next. */
-      POP_FRAME;
-      select_frame (get_current_frame (), 0);
-    }
-}
-
-static void
-insert_step_breakpoint ()
-{
-  if (step_resume_break_address && !step_resume_break_duplicate)
-    target_insert_breakpoint (step_resume_break_address,
-			      step_resume_break_shadow);
-}
-
-static void
-remove_step_breakpoint ()
-{
-  if (step_resume_break_address && !step_resume_break_duplicate)
-    target_remove_breakpoint (step_resume_break_address,
-			      step_resume_break_shadow);
-}
-
-static void
-sig_print_header ()
-{
-  printf_filtered ("Signal\t\tStop\tPrint\tPass to program\tDescription\n");
-}
-
-static void
-sig_print_info (number)
-     int number;
-{
-  char *abbrev = sig_abbrev(number);
-  if (abbrev == NULL)
-    printf_filtered ("%d\t\t", number);
-  else
-    printf_filtered ("SIG%s (%d)\t", abbrev, number);
-  printf_filtered ("%s\t", signal_stop[number] ? "Yes" : "No");
-  printf_filtered ("%s\t", signal_print[number] ? "Yes" : "No");
-  printf_filtered ("%s\t\t", signal_program[number] ? "Yes" : "No");
-  printf_filtered ("%s\n", sys_siglist[number]);
-}
-
-/* Specify how various signals in the inferior should be handled.  */
-
-static void
-handle_command (args, from_tty)
-     char *args;
-     int from_tty;
-{
-  register char *p = args;
-  int signum = 0;
-  register int digits, wordlen;
-  char *nextarg;
-
-  if (!args)
-    error_no_arg ("signal to handle");
-
-  while (*p)
-    {
-      /* Find the end of the next word in the args.  */
-      for (wordlen = 0;
-	   p[wordlen] && p[wordlen] != ' ' && p[wordlen] != '\t';
-	   wordlen++);
-      /* Set nextarg to the start of the word after the one we just
-	 found, and null-terminate this one.  */
-      if (p[wordlen] == '\0')
-	nextarg = p + wordlen;
-      else
-	{
-	  p[wordlen] = '\0';
-	  nextarg = p + wordlen + 1;
-	}
-      
-
-      for (digits = 0; p[digits] >= '0' && p[digits] <= '9'; digits++);
-
-      if (signum == 0)
-	{
-	  /* It is the first argument--must be the signal to operate on.  */
-	  if (digits == wordlen)
-	    {
-	      /* Numeric.  */
-	      signum = atoi (p);
-	      if (signum <= 0 || signum >= NSIG)
-		{
-		  p[wordlen] = '\0';
-		  error ("Invalid signal %s given as argument to \"handle\".", p);
-		}
-	    }
-	  else
-	    {
-	      /* Symbolic.  */
-	      signum = sig_number (p);
-	      if (signum == -1)
-		error ("No such signal \"%s\"", p);
-	    }
-
-	  if (signum == SIGTRAP || signum == SIGINT)
-	    {
-	      if (!query ("SIG%s is used by the debugger.\nAre you sure you want to change it? ", sig_abbrev (signum)))
-		error ("Not confirmed.");
-	    }
-	}
-      /* Else, if already got a signal number, look for flag words
-	 saying what to do for it.  */
-      else if (!strncmp (p, "stop", wordlen))
-	{
-	  signal_stop[signum] = 1;
-	  signal_print[signum] = 1;
-	}
-      else if (wordlen >= 2 && !strncmp (p, "print", wordlen))
-	signal_print[signum] = 1;
-      else if (wordlen >= 2 && !strncmp (p, "pass", wordlen))
-	signal_program[signum] = 1;
-      else if (!strncmp (p, "ignore", wordlen))
-	signal_program[signum] = 0;
-      else if (wordlen >= 3 && !strncmp (p, "nostop", wordlen))
-	signal_stop[signum] = 0;
-      else if (wordlen >= 4 && !strncmp (p, "noprint", wordlen))
-	{
-	  signal_print[signum] = 0;
-	  signal_stop[signum] = 0;
-	}
-      else if (wordlen >= 4 && !strncmp (p, "nopass", wordlen))
-	signal_program[signum] = 0;
-      else if (wordlen >= 3 && !strncmp (p, "noignore", wordlen))
-	signal_program[signum] = 1;
-      /* Not a number and not a recognized flag word => complain.  */
-      else
-	{
-	  error ("Unrecognized flag word: \"%s\".", p);
-	}
-
-      /* Find start of next word.  */
-      p = nextarg;
-      while (*p == ' ' || *p == '\t') p++;
-    }
-
-  if (from_tty)
-    {
-      /* Show the results.  */
-      sig_print_header ();
-      sig_print_info (signum);
-    }
-}
-
-/* Print current contents of the tables set by the handle command.  */
-
-static void
-signals_info (signum_exp)
-     char *signum_exp;
-{
-  register int i;
-  sig_print_header ();
-
-  if (signum_exp)
-    {
-      /* First see if this is a symbol name.  */
-      i = sig_number (signum_exp);
-      if (i == -1)
-	{
-	  /* Nope, maybe it's an address which evaluates to a signal
-	     number.  */
-	  i = parse_and_eval_address (signum_exp);
-	  if (i >= NSIG || i < 0)
-	    error ("Signal number out of bounds.");
-	}
-      sig_print_info (i);
-      return;
-    }
-
-  printf_filtered ("\n");
-  for (i = 0; i < NSIG; i++)
-    {
-      QUIT;
-
-      sig_print_info (i);
-    }
-
-  printf_filtered ("\nUse the \"handle\" command to change these tables.\n");
-}
-
-/* Save all of the information associated with the inferior<==>gdb
-   connection.  INF_STATUS is a pointer to a "struct inferior_status"
-   (defined in inferior.h).  */
-
-void
-save_inferior_status (inf_status, restore_stack_info)
-     struct inferior_status *inf_status;
-     int restore_stack_info;
-{
-  inf_status->pc_changed = pc_changed;
-  inf_status->stop_signal = stop_signal;
-  inf_status->stop_pc = stop_pc;
-  inf_status->stop_frame_address = stop_frame_address;
-  inf_status->stop_step = stop_step;
-  inf_status->stop_stack_dummy = stop_stack_dummy;
-  inf_status->stopped_by_random_signal = stopped_by_random_signal;
-  inf_status->trap_expected = trap_expected;
-  inf_status->step_range_start = step_range_start;
-  inf_status->step_range_end = step_range_end;
-  inf_status->step_frame_address = step_frame_address;
-  inf_status->step_over_calls = step_over_calls;
-  inf_status->step_resume_break_address = step_resume_break_address;
-  inf_status->stop_after_trap = stop_after_trap;
-  inf_status->stop_soon_quietly = stop_soon_quietly;
-  /* Save original bpstat chain here; replace it with copy of chain. 
-     If caller's caller is walking the chain, they'll be happier if we
-     hand them back the original chain when restore_i_s is called.  */
-  inf_status->stop_bpstat = stop_bpstat;
-  stop_bpstat = bpstat_copy (stop_bpstat);
-  inf_status->breakpoint_proceeded = breakpoint_proceeded;
-  inf_status->restore_stack_info = restore_stack_info;
-  inf_status->proceed_to_finish = proceed_to_finish;
-  
-  bcopy (stop_registers, inf_status->stop_registers, REGISTER_BYTES);
-  
-  record_selected_frame (&(inf_status->selected_frame_address),
-			 &(inf_status->selected_level));
-  return;
-}
-
-void
-restore_inferior_status (inf_status)
-     struct inferior_status *inf_status;
-{
-  FRAME fid;
-  int level = inf_status->selected_level;
-
-  pc_changed = inf_status->pc_changed;
-  stop_signal = inf_status->stop_signal;
-  stop_pc = inf_status->stop_pc;
-  stop_frame_address = inf_status->stop_frame_address;
-  stop_step = inf_status->stop_step;
-  stop_stack_dummy = inf_status->stop_stack_dummy;
-  stopped_by_random_signal = inf_status->stopped_by_random_signal;
-  trap_expected = inf_status->trap_expected;
-  step_range_start = inf_status->step_range_start;
-  step_range_end = inf_status->step_range_end;
-  step_frame_address = inf_status->step_frame_address;
-  step_over_calls = inf_status->step_over_calls;
-  step_resume_break_address = inf_status->step_resume_break_address;
-  stop_after_trap = inf_status->stop_after_trap;
-  stop_soon_quietly = inf_status->stop_soon_quietly;
-  bpstat_clear (&stop_bpstat);
-  stop_bpstat = inf_status->stop_bpstat;
-  breakpoint_proceeded = inf_status->breakpoint_proceeded;
-  proceed_to_finish = inf_status->proceed_to_finish;
-
-  bcopy (inf_status->stop_registers, stop_registers, REGISTER_BYTES);
-
-  /* The inferior can be gone if the user types "print exit(0)"
-     (and perhaps other times).  */
-  if (target_has_stack && inf_status->restore_stack_info)
-    {
-      fid = find_relative_frame (get_current_frame (),
-				 &level);
-
-      if (fid == 0 ||
-	  FRAME_FP (fid) != inf_status->selected_frame_address ||
-	  level != 0)
-	{
-#if 0
-	  /* I'm not sure this error message is a good idea.  I have
-	     only seen it occur after "Can't continue previously
-	     requested operation" (we get called from do_cleanups), in
-	     which case it just adds insult to injury (one confusing
-	     error message after another.  Besides which, does the
-	     user really care if we can't restore the previously
-	     selected frame?  */
-	  fprintf (stderr, "Unable to restore previously selected frame.\n");
-#endif
-	  select_frame (get_current_frame (), 0);
-	  return;
-	}
-      
-      select_frame (fid, inf_status->selected_level);
-    }
-}
-
-
-void
-_initialize_infrun ()
-{
-  register int i;
-
-  add_info ("signals", signals_info,
-	    "What debugger does when program gets various signals.\n\
-Specify a signal number as argument to print info on that signal only.");
-
-  add_com ("handle", class_run, handle_command,
-	   "Specify how to handle a signal.\n\
-Args are signal number followed by flags.\n\
-Flags allowed are \"stop\", \"print\", \"pass\",\n\
- \"nostop\", \"noprint\" or \"nopass\".\n\
-Print means print a message if this signal happens.\n\
-Stop means reenter debugger if this signal happens (implies print).\n\
-Pass means let program see this signal; otherwise program doesn't know.\n\
-Pass and Stop may be combined.");
-
-  for (i = 0; i < NSIG; i++)
-    {
-      signal_stop[i] = 1;
-      signal_print[i] = 1;
-      signal_program[i] = 1;
-    }
-
-  /* Signals caused by debugger's own actions
-     should not be given to the program afterwards.  */
-  signal_program[SIGTRAP] = 0;
-  signal_program[SIGINT] = 0;
-
-  /* Signals that are not errors should not normally enter the debugger.  */
-#ifdef SIGALRM
-  signal_stop[SIGALRM] = 0;
-  signal_print[SIGALRM] = 0;
-#endif /* SIGALRM */
-#ifdef SIGVTALRM
-  signal_stop[SIGVTALRM] = 0;
-  signal_print[SIGVTALRM] = 0;
-#endif /* SIGVTALRM */
-#ifdef SIGPROF
-  signal_stop[SIGPROF] = 0;
-  signal_print[SIGPROF] = 0;
-#endif /* SIGPROF */
-#ifdef SIGCHLD
-  signal_stop[SIGCHLD] = 0;
-  signal_print[SIGCHLD] = 0;
-#endif /* SIGCHLD */
-#ifdef SIGCLD
-  signal_stop[SIGCLD] = 0;
-  signal_print[SIGCLD] = 0;
-#endif /* SIGCLD */
-#ifdef SIGIO
-  signal_stop[SIGIO] = 0;
-  signal_print[SIGIO] = 0;
-#endif /* SIGIO */
-#ifdef SIGURG
-  signal_stop[SIGURG] = 0;
-  signal_print[SIGURG] = 0;
-#endif /* SIGURG */
-}
-