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------------------------------------------------------------------------------
--                                                                          --
--                         GNAT COMPILER COMPONENTS                         --
--                                                                          --
--                       G N A T . D E B U G _ P O O L S                    --
--                                                                          --
--                                 B o d y                                  --
--                                                                          --
--          Copyright (C) 1992-2009, Free Software Foundation, Inc.         --
--                                                                          --
-- GNAT is free software;  you can  redistribute it  and/or modify it under --
-- terms of the  GNU General Public License as published  by the Free Soft- --
-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
--                                                                          --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception,   --
-- version 3.1, as published by the Free Software Foundation.               --
--                                                                          --
-- You should have received a copy of the GNU General Public License and    --
-- a copy of the GCC Runtime Library Exception along with this program;     --
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
-- <http://www.gnu.org/licenses/>.                                          --
--                                                                          --
-- GNAT was originally developed  by the GNAT team at  New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
--                                                                          --
------------------------------------------------------------------------------
 
with Ada.Exceptions.Traceback;
with GNAT.IO; use GNAT.IO;
 
with System.Address_Image;
with System.Memory;     use System.Memory;
with System.Soft_Links; use System.Soft_Links;
 
with System.Traceback_Entries; use System.Traceback_Entries;
 
with GNAT.HTable;
with GNAT.Traceback; use GNAT.Traceback;
 
with Ada.Unchecked_Conversion;
 
package body GNAT.Debug_Pools is
 
   Default_Alignment : constant := Standard'Maximum_Alignment;
   --  Alignment used for the memory chunks returned by Allocate. Using this
   --  value guarantees that this alignment will be compatible with all types
   --  and at the same time makes it easy to find the location of the extra
   --  header allocated for each chunk.
 
   Max_Ignored_Levels : constant Natural := 10;
   --  Maximum number of levels that will be ignored in backtraces. This is so
   --  that we still have enough significant levels in the tracebacks returned
   --  to the user.
   --
   --  The value 10 is chosen as being greater than the maximum callgraph
   --  in this package. Its actual value is not really relevant, as long as it
   --  is high enough to make sure we still have enough frames to return to
   --  the user after we have hidden the frames internal to this package.
 
   ---------------------------
   -- Back Trace Hash Table --
   ---------------------------
 
   --  This package needs to store one set of tracebacks for each allocation
   --  point (when was it allocated or deallocated). This would use too much
   --  memory,  so the tracebacks are actually stored in a hash table, and
   --  we reference elements in this hash table instead.
 
   --  This hash-table will remain empty if the discriminant Stack_Trace_Depth
   --  for the pools is set to 0.
 
   --  This table is a global table, that can be shared among all debug pools
   --  with no problems.
 
   type Header is range 1 .. 1023;
   --  Number of elements in the hash-table
 
   type Tracebacks_Array_Access
      is access GNAT.Traceback.Tracebacks_Array;
 
   type Traceback_Kind is (Alloc, Dealloc, Indirect_Alloc, Indirect_Dealloc);
 
   type Traceback_Htable_Elem;
   type Traceback_Htable_Elem_Ptr
      is access Traceback_Htable_Elem;
 
   type Traceback_Htable_Elem is record
      Traceback : Tracebacks_Array_Access;
      Kind      : Traceback_Kind;
      Count     : Natural;
      Total     : Byte_Count;
      Next      : Traceback_Htable_Elem_Ptr;
   end record;
 
   --  Subprograms used for the Backtrace_Htable instantiation
 
   procedure Set_Next
     (E    : Traceback_Htable_Elem_Ptr;
      Next : Traceback_Htable_Elem_Ptr);
   pragma Inline (Set_Next);
 
   function Next
     (E : Traceback_Htable_Elem_Ptr) return Traceback_Htable_Elem_Ptr;
   pragma Inline (Next);
 
   function Get_Key
     (E : Traceback_Htable_Elem_Ptr) return Tracebacks_Array_Access;
   pragma Inline (Get_Key);
 
   function Hash (T : Tracebacks_Array_Access) return Header;
   pragma Inline (Hash);
 
   function Equal (K1, K2 : Tracebacks_Array_Access) return Boolean;
   --  Why is this not inlined???
 
   --  The hash table for back traces
 
   package Backtrace_Htable is new GNAT.HTable.Static_HTable
     (Header_Num => Header,
      Element    => Traceback_Htable_Elem,
      Elmt_Ptr   => Traceback_Htable_Elem_Ptr,
      Null_Ptr   => null,
      Set_Next   => Set_Next,
      Next       => Next,
      Key        => Tracebacks_Array_Access,
      Get_Key    => Get_Key,
      Hash       => Hash,
      Equal      => Equal);
 
   -----------------------
   -- Allocations table --
   -----------------------
 
   type Allocation_Header;
   type Allocation_Header_Access is access Allocation_Header;
 
   type Traceback_Ptr_Or_Address is new System.Address;
   --  A type that acts as a C union, and is either a System.Address or a
   --  Traceback_Htable_Elem_Ptr.
 
   --  The following record stores extra information that needs to be
   --  memorized for each block allocated with the special debug pool.
 
   type Allocation_Header is record
      Allocation_Address : System.Address;
      --  Address of the block returned by malloc, possibly unaligned
 
      Block_Size : Storage_Offset;
      --  Needed only for advanced freeing algorithms (traverse all allocated
      --  blocks for potential references). This value is negated when the
      --  chunk of memory has been logically freed by the application. This
      --  chunk has not been physically released yet.
 
      Alloc_Traceback : Traceback_Htable_Elem_Ptr;
      --  ??? comment required
 
      Dealloc_Traceback : Traceback_Ptr_Or_Address;
      --  Pointer to the traceback for the allocation (if the memory chunk is
      --  still valid), or to the first deallocation otherwise. Make sure this
      --  is a thin pointer to save space.
      --
      --  Dealloc_Traceback is also for blocks that are still allocated to
      --  point to the previous block in the list. This saves space in this
      --  header, and make manipulation of the lists of allocated pointers
      --  faster.
 
      Next : System.Address;
      --  Point to the next block of the same type (either allocated or
      --  logically freed) in memory. This points to the beginning of the user
      --  data, and does not include the header of that block.
   end record;
 
   function Header_Of (Address : System.Address)
      return Allocation_Header_Access;
   pragma Inline (Header_Of);
   --  Return the header corresponding to a previously allocated address
 
   function To_Address is new Ada.Unchecked_Conversion
     (Traceback_Ptr_Or_Address, System.Address);
 
   function To_Address is new Ada.Unchecked_Conversion
     (System.Address, Traceback_Ptr_Or_Address);
 
   function To_Traceback is new Ada.Unchecked_Conversion
     (Traceback_Ptr_Or_Address, Traceback_Htable_Elem_Ptr);
 
   function To_Traceback is new Ada.Unchecked_Conversion
     (Traceback_Htable_Elem_Ptr, Traceback_Ptr_Or_Address);
 
   Header_Offset : constant Storage_Count :=
                     Default_Alignment *
                       ((Allocation_Header'Size / System.Storage_Unit
                          + Default_Alignment - 1) / Default_Alignment);
   --  Offset of user data after allocation header
 
   Minimum_Allocation : constant Storage_Count :=
                          Default_Alignment - 1 + Header_Offset;
   --  Minimal allocation: size of allocation_header rounded up to next
   --  multiple of default alignment + worst-case padding.
 
   -----------------------
   -- Local subprograms --
   -----------------------
 
   function Find_Or_Create_Traceback
     (Pool                : Debug_Pool;
      Kind                : Traceback_Kind;
      Size                : Storage_Count;
      Ignored_Frame_Start : System.Address;
      Ignored_Frame_End   : System.Address) return Traceback_Htable_Elem_Ptr;
   --  Return an element matching the current traceback (omitting the frames
   --  that are in the current package). If this traceback already existed in
   --  the htable, a pointer to this is returned to spare memory. Null is
   --  returned if the pool is set not to store tracebacks. If the traceback
   --  already existed in the table, the count is incremented so that
   --  Dump_Tracebacks returns useful results. All addresses up to, and
   --  including, an address between Ignored_Frame_Start .. Ignored_Frame_End
   --  are ignored.
 
   function Output_File (Pool : Debug_Pool) return File_Type;
   pragma Inline (Output_File);
   --  Returns file_type on which error messages have to be generated for Pool
 
   procedure Put_Line
     (File                : File_Type;
      Depth               : Natural;
      Traceback           : Tracebacks_Array_Access;
      Ignored_Frame_Start : System.Address := System.Null_Address;
      Ignored_Frame_End   : System.Address := System.Null_Address);
   --  Print Traceback to File. If Traceback is null, print the call_chain
   --  at the current location, up to Depth levels, ignoring all addresses
   --  up to the first one in the range:
   --    Ignored_Frame_Start .. Ignored_Frame_End
 
   package Validity is
      function Is_Valid (Storage : System.Address) return Boolean;
      pragma Inline (Is_Valid);
      --  Return True if Storage is the address of a block that the debug pool
      --  has under its control, in which case Header_Of may be used to access
      --  the associated allocation header.
 
      procedure Set_Valid (Storage : System.Address; Value : Boolean);
      pragma Inline (Set_Valid);
      --  Mark the address Storage as being under control of the memory pool
      --  (if Value is True), or not (if Value is False).
   end Validity;
 
   use Validity;
 
   procedure Set_Dead_Beef
     (Storage_Address          : System.Address;
      Size_In_Storage_Elements : Storage_Count);
   --  Set the contents of the memory block pointed to by Storage_Address to
   --  the 16#DEADBEEF# pattern. If Size_In_Storage_Elements is not a multiple
   --  of the length of this pattern, the last instance may be partial.
 
   procedure Free_Physically (Pool : in out Debug_Pool);
   --  Start to physically release some memory to the system, until the amount
   --  of logically (but not physically) freed memory is lower than the
   --  expected amount in Pool.
 
   procedure Allocate_End;
   procedure Deallocate_End;
   procedure Dereference_End;
   --  These procedures are used as markers when computing the stacktraces,
   --  so that addresses in the debug pool itself are not reported to the user.
 
   Code_Address_For_Allocate_End    : System.Address;
   Code_Address_For_Deallocate_End  : System.Address;
   Code_Address_For_Dereference_End : System.Address;
   --  Taking the address of the above procedures will not work on some
   --  architectures (HPUX and VMS for instance). Thus we do the same thing
   --  that is done in a-except.adb, and get the address of labels instead
 
   procedure Skip_Levels
     (Depth               : Natural;
      Trace               : Tracebacks_Array;
      Start               : out Natural;
      Len                 : in out Natural;
      Ignored_Frame_Start : System.Address;
      Ignored_Frame_End   : System.Address);
   --  Set Start .. Len to the range of values from Trace that should be output
   --  to the user. This range of values excludes any address prior to the
   --  first one in Ignored_Frame_Start .. Ignored_Frame_End (basically
   --  addresses internal to this package). Depth is the number of levels that
   --  the user is interested in.
 
   ---------------
   -- Header_Of --
   ---------------
 
   function Header_Of (Address : System.Address)
      return Allocation_Header_Access
   is
      function Convert is new Ada.Unchecked_Conversion
        (System.Address, Allocation_Header_Access);
   begin
      return Convert (Address - Header_Offset);
   end Header_Of;
 
   --------------
   -- Set_Next --
   --------------
 
   procedure Set_Next
     (E    : Traceback_Htable_Elem_Ptr;
      Next : Traceback_Htable_Elem_Ptr)
   is
   begin
      E.Next := Next;
   end Set_Next;
 
   ----------
   -- Next --
   ----------
 
   function Next
     (E : Traceback_Htable_Elem_Ptr) return Traceback_Htable_Elem_Ptr is
   begin
      return E.Next;
   end Next;
 
   -----------
   -- Equal --
   -----------
 
   function Equal (K1, K2 : Tracebacks_Array_Access) return Boolean is
      use Ada.Exceptions.Traceback;
   begin
      return K1.all = K2.all;
   end Equal;
 
   -------------
   -- Get_Key --
   -------------
 
   function Get_Key
     (E : Traceback_Htable_Elem_Ptr) return Tracebacks_Array_Access
   is
   begin
      return E.Traceback;
   end Get_Key;
 
   ----------
   -- Hash --
   ----------
 
   function Hash (T : Tracebacks_Array_Access) return Header is
      Result : Integer_Address := 0;
 
   begin
      for X in T'Range loop
         Result := Result + To_Integer (PC_For (T (X)));
      end loop;
 
      return Header (1 + Result mod Integer_Address (Header'Last));
   end Hash;
 
   -----------------
   -- Output_File --
   -----------------
 
   function Output_File (Pool : Debug_Pool) return File_Type is
   begin
      if Pool.Errors_To_Stdout then
         return Standard_Output;
      else
         return Standard_Error;
      end if;
   end Output_File;
 
   --------------
   -- Put_Line --
   --------------
 
   procedure Put_Line
     (File                : File_Type;
      Depth               : Natural;
      Traceback           : Tracebacks_Array_Access;
      Ignored_Frame_Start : System.Address := System.Null_Address;
      Ignored_Frame_End   : System.Address := System.Null_Address)
   is
      procedure Print (Tr : Tracebacks_Array);
      --  Print the traceback to standard_output
 
      -----------
      -- Print --
      -----------
 
      procedure Print (Tr : Tracebacks_Array) is
      begin
         for J in Tr'Range loop
            Put (File, "0x" & Address_Image (PC_For (Tr (J))) & ' ');
         end loop;
         Put (File, ASCII.LF);
      end Print;
 
   --  Start of processing for Put_Line
 
   begin
      if Traceback = null then
         declare
            Tr  : aliased Tracebacks_Array (1 .. Depth + Max_Ignored_Levels);
            Start, Len : Natural;
 
         begin
            Call_Chain (Tr, Len);
            Skip_Levels (Depth, Tr, Start, Len,
                         Ignored_Frame_Start, Ignored_Frame_End);
            Print (Tr (Start .. Len));
         end;
 
      else
         Print (Traceback.all);
      end if;
   end Put_Line;
 
   -----------------
   -- Skip_Levels --
   -----------------
 
   procedure Skip_Levels
     (Depth               : Natural;
      Trace               : Tracebacks_Array;
      Start               : out Natural;
      Len                 : in out Natural;
      Ignored_Frame_Start : System.Address;
      Ignored_Frame_End   : System.Address)
   is
   begin
      Start := Trace'First;
 
      while Start <= Len
        and then (PC_For (Trace (Start)) < Ignored_Frame_Start
                    or else PC_For (Trace (Start)) > Ignored_Frame_End)
      loop
         Start := Start + 1;
      end loop;
 
      Start := Start + 1;
 
      --  Just in case: make sure we have a traceback even if Ignore_Till
      --  wasn't found.
 
      if Start > Len then
         Start := 1;
      end if;
 
      if Len - Start + 1 > Depth then
         Len := Depth + Start - 1;
      end if;
   end Skip_Levels;
 
   ------------------------------
   -- Find_Or_Create_Traceback --
   ------------------------------
 
   function Find_Or_Create_Traceback
     (Pool                : Debug_Pool;
      Kind                : Traceback_Kind;
      Size                : Storage_Count;
      Ignored_Frame_Start : System.Address;
      Ignored_Frame_End   : System.Address) return Traceback_Htable_Elem_Ptr
   is
   begin
      if Pool.Stack_Trace_Depth = 0 then
         return null;
      end if;
 
      declare
         Trace : aliased Tracebacks_Array
                  (1 .. Integer (Pool.Stack_Trace_Depth) + Max_Ignored_Levels);
         Len, Start   : Natural;
         Elem  : Traceback_Htable_Elem_Ptr;
 
      begin
         Call_Chain (Trace, Len);
         Skip_Levels (Pool.Stack_Trace_Depth, Trace, Start, Len,
                      Ignored_Frame_Start, Ignored_Frame_End);
 
         --  Check if the traceback is already in the table
 
         Elem :=
           Backtrace_Htable.Get (Trace (Start .. Len)'Unrestricted_Access);
 
         --  If not, insert it
 
         if Elem = null then
            Elem := new Traceback_Htable_Elem'
              (Traceback => new Tracebacks_Array'(Trace (Start .. Len)),
               Count     => 1,
               Kind      => Kind,
               Total     => Byte_Count (Size),
               Next      => null);
            Backtrace_Htable.Set (Elem);
 
         else
            Elem.Count := Elem.Count + 1;
            Elem.Total := Elem.Total + Byte_Count (Size);
         end if;
 
         return Elem;
      end;
   end Find_Or_Create_Traceback;
 
   --------------
   -- Validity --
   --------------
 
   package body Validity is
 
      --  The validity bits of the allocated blocks are kept in a has table.
      --  Each component of the hash table contains the validity bits for a
      --  16 Mbyte memory chunk.
 
      --  The reason the validity bits are kept for chunks of memory rather
      --  than in a big array is that on some 64 bit platforms, it may happen
      --  that two chunk of allocated data are very far from each other.
 
      Memory_Chunk_Size : constant Integer_Address := 2 ** 24; --  16 MB
      Validity_Divisor  : constant := Default_Alignment * System.Storage_Unit;
 
      Max_Validity_Byte_Index : constant :=
                                 Memory_Chunk_Size / Validity_Divisor;
 
      subtype Validity_Byte_Index is Integer_Address
                                      range 0 .. Max_Validity_Byte_Index - 1;
 
      type Byte is mod 2 ** System.Storage_Unit;
 
      type Validity_Bits is array (Validity_Byte_Index) of Byte;
 
      type Validity_Bits_Ref is access all Validity_Bits;
      No_Validity_Bits : constant Validity_Bits_Ref := null;
 
      Max_Header_Num : constant := 1023;
 
      type Header_Num is range 0 .. Max_Header_Num - 1;
 
      function Hash (F : Integer_Address) return Header_Num;
 
      package Validy_Htable is new GNAT.HTable.Simple_HTable
        (Header_Num => Header_Num,
         Element    => Validity_Bits_Ref,
         No_Element => No_Validity_Bits,
         Key        => Integer_Address,
         Hash       => Hash,
         Equal      => "=");
      --  Table to keep the validity bit blocks for the allocated data
 
      function To_Pointer is new Ada.Unchecked_Conversion
        (System.Address, Validity_Bits_Ref);
 
      procedure Memset (A : Address; C : Integer; N : size_t);
      pragma Import (C, Memset, "memset");
 
      ----------
      -- Hash --
      ----------
 
      function Hash (F : Integer_Address) return Header_Num is
      begin
         return Header_Num (F mod Max_Header_Num);
      end Hash;
 
      --------------
      -- Is_Valid --
      --------------
 
      function Is_Valid (Storage : System.Address) return Boolean is
         Int_Storage  : constant Integer_Address := To_Integer (Storage);
 
      begin
         --  The pool only returns addresses aligned on Default_Alignment so
         --  anything off cannot be a valid block address and we can return
         --  early in this case. We actually have to since our data structures
         --  map validity bits for such aligned addresses only.
 
         if Int_Storage mod Default_Alignment /= 0 then
            return False;
         end if;
 
         declare
            Block_Number : constant Integer_Address :=
                             Int_Storage /  Memory_Chunk_Size;
            Ptr          : constant Validity_Bits_Ref :=
                             Validy_Htable.Get (Block_Number);
            Offset       : constant Integer_Address :=
                             (Int_Storage -
                               (Block_Number * Memory_Chunk_Size)) /
                                  Default_Alignment;
            Bit          : constant Byte :=
                             2 ** Natural (Offset mod System.Storage_Unit);
         begin
            if Ptr = No_Validity_Bits then
               return False;
            else
               return (Ptr (Offset / System.Storage_Unit) and Bit) /= 0;
            end if;
         end;
      end Is_Valid;
 
      ---------------
      -- Set_Valid --
      ---------------
 
      procedure Set_Valid (Storage : System.Address; Value : Boolean) is
         Int_Storage  : constant Integer_Address := To_Integer (Storage);
         Block_Number : constant Integer_Address :=
                          Int_Storage /  Memory_Chunk_Size;
         Ptr          : Validity_Bits_Ref := Validy_Htable.Get (Block_Number);
         Offset       : constant Integer_Address :=
                          (Int_Storage - (Block_Number * Memory_Chunk_Size)) /
                             Default_Alignment;
         Bit          : constant Byte :=
                          2 ** Natural (Offset mod System.Storage_Unit);
 
      begin
         if Ptr = No_Validity_Bits then
 
            --  First time in this memory area: allocate a new block and put
            --  it in the table.
 
            if Value then
               Ptr := To_Pointer (Alloc (size_t (Max_Validity_Byte_Index)));
               Validy_Htable.Set (Block_Number, Ptr);
               Memset (Ptr.all'Address, 0, size_t (Max_Validity_Byte_Index));
               Ptr (Offset / System.Storage_Unit) := Bit;
            end if;
 
         else
            if Value then
               Ptr (Offset / System.Storage_Unit) :=
                 Ptr (Offset / System.Storage_Unit) or Bit;
 
            else
               Ptr (Offset / System.Storage_Unit) :=
                 Ptr (Offset / System.Storage_Unit) and (not Bit);
            end if;
         end if;
      end Set_Valid;
 
   end Validity;
 
   --------------
   -- Allocate --
   --------------
 
   procedure Allocate
     (Pool                     : in out Debug_Pool;
      Storage_Address          : out Address;
      Size_In_Storage_Elements : Storage_Count;
      Alignment                : Storage_Count)
   is
      pragma Unreferenced (Alignment);
      --  Ignored, we always force 'Default_Alignment
 
      type Local_Storage_Array is new Storage_Array
        (1 .. Size_In_Storage_Elements + Minimum_Allocation);
 
      type Ptr is access Local_Storage_Array;
      --  On some systems, we might want to physically protect pages against
      --  writing when they have been freed (of course, this is expensive in
      --  terms of wasted memory). To do that, all we should have to do it to
      --  set the size of this array to the page size. See mprotect().
 
      P : Ptr;
 
      Current : Byte_Count;
      Trace   : Traceback_Htable_Elem_Ptr;
 
   begin
      <<Allocate_Label>>
      Lock_Task.all;
 
      --  If necessary, start physically releasing memory. The reason this is
      --  done here, although Pool.Logically_Deallocated has not changed above,
      --  is so that we do this only after a series of deallocations (e.g loop
      --  that deallocates a big array). If we were doing that in Deallocate,
      --  we might be physically freeing memory several times during the loop,
      --  which is expensive.
 
      if Pool.Logically_Deallocated >
        Byte_Count (Pool.Maximum_Logically_Freed_Memory)
      then
         Free_Physically (Pool);
      end if;
 
      --  Use standard (i.e. through malloc) allocations. This automatically
      --  raises Storage_Error if needed. We also try once more to physically
      --  release memory, so that even marked blocks, in the advanced scanning,
      --  are freed.
 
      begin
         P := new Local_Storage_Array;
 
      exception
         when Storage_Error =>
            Free_Physically (Pool);
            P := new Local_Storage_Array;
      end;
 
      Storage_Address :=
        To_Address
          (Default_Alignment *
             ((To_Integer (P.all'Address) + Default_Alignment - 1)
               / Default_Alignment)
           + Integer_Address (Header_Offset));
      --  Computation is done in Integer_Address, not Storage_Offset, because
      --  the range of Storage_Offset may not be large enough.
 
      pragma Assert ((Storage_Address - System.Null_Address)
                     mod Default_Alignment = 0);
      pragma Assert (Storage_Address + Size_In_Storage_Elements
                     <= P.all'Address + P'Length);
 
      Trace := Find_Or_Create_Traceback
        (Pool, Alloc, Size_In_Storage_Elements,
         Allocate_Label'Address, Code_Address_For_Allocate_End);
 
      pragma Warnings (Off);
      --  Turn warning on alignment for convert call off. We know that in fact
      --  this conversion is safe since P itself is always aligned on
      --  Default_Alignment.
 
      Header_Of (Storage_Address).all :=
        (Allocation_Address => P.all'Address,
         Alloc_Traceback    => Trace,
         Dealloc_Traceback  => To_Traceback (null),
         Next               => Pool.First_Used_Block,
         Block_Size         => Size_In_Storage_Elements);
 
      pragma Warnings (On);
 
      --  Link this block in the list of used blocks. This will be used to list
      --  memory leaks in Print_Info, and for the advanced schemes of
      --  Physical_Free, where we want to traverse all allocated blocks and
      --  search for possible references.
 
      --  We insert in front, since most likely we'll be freeing the most
      --  recently allocated blocks first (the older one might stay allocated
      --  for the whole life of the application).
 
      if Pool.First_Used_Block /= System.Null_Address then
         Header_Of (Pool.First_Used_Block).Dealloc_Traceback :=
           To_Address (Storage_Address);
      end if;
 
      Pool.First_Used_Block := Storage_Address;
 
      --  Mark the new address as valid
 
      Set_Valid (Storage_Address, True);
 
      if Pool.Low_Level_Traces then
         Put (Output_File (Pool),
              "info: Allocated"
                & Storage_Count'Image (Size_In_Storage_Elements)
                & " bytes at 0x" & Address_Image (Storage_Address)
                & " (physically:"
                & Storage_Count'Image (Local_Storage_Array'Length)
                & " bytes at 0x" & Address_Image (P.all'Address)
                & "), at ");
         Put_Line (Output_File (Pool), Pool.Stack_Trace_Depth, null,
                   Allocate_Label'Address,
                   Code_Address_For_Deallocate_End);
      end if;
 
      --  Update internal data
 
      Pool.Allocated :=
        Pool.Allocated + Byte_Count (Size_In_Storage_Elements);
 
      Current := Pool.Allocated -
                   Pool.Logically_Deallocated -
                     Pool.Physically_Deallocated;
 
      if Current > Pool.High_Water then
         Pool.High_Water := Current;
      end if;
 
      Unlock_Task.all;
 
   exception
      when others =>
         Unlock_Task.all;
         raise;
   end Allocate;
 
   ------------------
   -- Allocate_End --
   ------------------
 
   --  DO NOT MOVE, this must be right after Allocate. This is similar to what
   --  is done in a-except, so that we can hide the traceback frames internal
   --  to this package
 
   procedure Allocate_End is
   begin
      <<Allocate_End_Label>>
      Code_Address_For_Allocate_End := Allocate_End_Label'Address;
   end Allocate_End;
 
   -------------------
   -- Set_Dead_Beef --
   -------------------
 
   procedure Set_Dead_Beef
     (Storage_Address          : System.Address;
      Size_In_Storage_Elements : Storage_Count)
   is
      Dead_Bytes : constant := 4;
 
      type Data is mod 2 ** (Dead_Bytes * 8);
      for Data'Size use Dead_Bytes * 8;
 
      Dead : constant Data := 16#DEAD_BEEF#;
 
      type Dead_Memory is array
        (1 .. Size_In_Storage_Elements / Dead_Bytes) of Data;
      type Mem_Ptr is access Dead_Memory;
 
      type Byte is mod 2 ** 8;
      for Byte'Size use 8;
 
      type Dead_Memory_Bytes is array (0 .. 2) of Byte;
      type Dead_Memory_Bytes_Ptr is access Dead_Memory_Bytes;
 
      function From_Ptr is new Ada.Unchecked_Conversion
        (System.Address, Mem_Ptr);
 
      function From_Ptr is new Ada.Unchecked_Conversion
        (System.Address, Dead_Memory_Bytes_Ptr);
 
      M      : constant Mem_Ptr := From_Ptr (Storage_Address);
      M2     : Dead_Memory_Bytes_Ptr;
      Modulo : constant Storage_Count :=
                 Size_In_Storage_Elements mod Dead_Bytes;
   begin
      M.all := (others => Dead);
 
      --  Any bytes left (up to three of them)
 
      if Modulo /= 0 then
         M2 := From_Ptr (Storage_Address + M'Length * Dead_Bytes);
 
         M2 (0) := 16#DE#;
         if Modulo >= 2 then
            M2 (1) := 16#AD#;
 
            if Modulo >= 3 then
               M2 (2) := 16#BE#;
            end if;
         end if;
      end if;
   end Set_Dead_Beef;
 
   ---------------------
   -- Free_Physically --
   ---------------------
 
   procedure Free_Physically (Pool : in out Debug_Pool) is
      type Byte is mod 256;
      type Byte_Access is access Byte;
 
      function To_Byte is new Ada.Unchecked_Conversion
        (System.Address, Byte_Access);
 
      type Address_Access is access System.Address;
 
      function To_Address_Access is new Ada.Unchecked_Conversion
        (System.Address, Address_Access);
 
      In_Use_Mark : constant Byte := 16#D#;
      Free_Mark   : constant Byte := 16#F#;
 
      Total_Freed : Storage_Count := 0;
 
      procedure Reset_Marks;
      --  Unmark all the logically freed blocks, so that they are considered
      --  for physical deallocation
 
      procedure Mark
        (H : Allocation_Header_Access; A : System.Address; In_Use : Boolean);
      --  Mark the user data block starting at A. For a block of size zero,
      --  nothing is done. For a block with a different size, the first byte
      --  is set to either "D" (in use) or "F" (free).
 
      function Marked (A : System.Address) return Boolean;
      --  Return true if the user data block starting at A might be in use
      --  somewhere else
 
      procedure Mark_Blocks;
      --  Traverse all allocated blocks, and search for possible references
      --  to logically freed blocks. Mark them appropriately
 
      procedure Free_Blocks (Ignore_Marks : Boolean);
      --  Physically release blocks. Only the blocks that haven't been marked
      --  will be released, unless Ignore_Marks is true.
 
      -----------------
      -- Free_Blocks --
      -----------------
 
      procedure Free_Blocks (Ignore_Marks : Boolean) is
         Header   : Allocation_Header_Access;
         Tmp      : System.Address := Pool.First_Free_Block;
         Next     : System.Address;
         Previous : System.Address := System.Null_Address;
 
      begin
         while Tmp /= System.Null_Address
           and then Total_Freed < Pool.Minimum_To_Free
         loop
            Header := Header_Of (Tmp);
 
            --  If we know, or at least assume, the block is no longer
            --  referenced anywhere, we can free it physically.
 
            if Ignore_Marks or else not Marked (Tmp) then
 
               declare
                  pragma Suppress (All_Checks);
                  --  Suppress the checks on this section. If they are overflow
                  --  errors, it isn't critical, and we'd rather avoid a
                  --  Constraint_Error in that case.
               begin
                  --  Note that block_size < zero for freed blocks
 
                  Pool.Physically_Deallocated :=
                    Pool.Physically_Deallocated -
                      Byte_Count (Header.Block_Size);
 
                  Pool.Logically_Deallocated :=
                    Pool.Logically_Deallocated +
                      Byte_Count (Header.Block_Size);
 
                  Total_Freed := Total_Freed - Header.Block_Size;
               end;
 
               Next := Header.Next;
 
               if Pool.Low_Level_Traces then
                  Put_Line
                    (Output_File (Pool),
                     "info: Freeing physical memory "
                       & Storage_Count'Image
                       ((abs Header.Block_Size) + Minimum_Allocation)
                       & " bytes at 0x"
                       & Address_Image (Header.Allocation_Address));
               end if;
 
               System.Memory.Free (Header.Allocation_Address);
               Set_Valid (Tmp, False);
 
               --  Remove this block from the list
 
               if Previous = System.Null_Address then
                  Pool.First_Free_Block := Next;
               else
                  Header_Of (Previous).Next := Next;
               end if;
 
               Tmp  := Next;
 
            else
               Previous := Tmp;
               Tmp := Header.Next;
            end if;
         end loop;
      end Free_Blocks;
 
      ----------
      -- Mark --
      ----------
 
      procedure Mark
        (H      : Allocation_Header_Access;
         A      : System.Address;
         In_Use : Boolean)
      is
      begin
         if H.Block_Size /= 0 then
            To_Byte (A).all := (if In_Use then In_Use_Mark else Free_Mark);
         end if;
      end Mark;
 
      -----------------
      -- Mark_Blocks --
      -----------------
 
      procedure Mark_Blocks is
         Tmp      : System.Address := Pool.First_Used_Block;
         Previous : System.Address;
         Last     : System.Address;
         Pointed  : System.Address;
         Header   : Allocation_Header_Access;
 
      begin
         --  For each allocated block, check its contents. Things that look
         --  like a possible address are used to mark the blocks so that we try
         --  and keep them, for better detection in case of invalid access.
         --  This mechanism is far from being fool-proof: it doesn't check the
         --  stacks of the threads, doesn't check possible memory allocated not
         --  under control of this debug pool. But it should allow us to catch
         --  more cases.
 
         while Tmp /= System.Null_Address loop
            Previous := Tmp;
            Last     := Tmp + Header_Of (Tmp).Block_Size;
            while Previous < Last loop
               --  ??? Should we move byte-per-byte, or consider that addresses
               --  are always aligned on 4-bytes boundaries ? Let's use the
               --  fastest for now.
 
               Pointed := To_Address_Access (Previous).all;
               if Is_Valid (Pointed) then
                  Header := Header_Of (Pointed);
 
                  --  Do not even attempt to mark blocks in use. That would
                  --  screw up the whole application, of course.
 
                  if Header.Block_Size < 0 then
                     Mark (Header, Pointed, In_Use => True);
                  end if;
               end if;
 
               Previous := Previous + System.Address'Size;
            end loop;
 
            Tmp := Header_Of (Tmp).Next;
         end loop;
      end Mark_Blocks;
 
      ------------
      -- Marked --
      ------------
 
      function Marked (A : System.Address) return Boolean is
      begin
         return To_Byte (A).all = In_Use_Mark;
      end Marked;
 
      -----------------
      -- Reset_Marks --
      -----------------
 
      procedure Reset_Marks is
         Current : System.Address := Pool.First_Free_Block;
         Header  : Allocation_Header_Access;
      begin
         while Current /= System.Null_Address loop
            Header := Header_Of (Current);
            Mark (Header, Current, False);
            Current := Header.Next;
         end loop;
      end Reset_Marks;
 
   --  Start of processing for Free_Physically
 
   begin
      Lock_Task.all;
 
      if Pool.Advanced_Scanning then
 
         --  Reset the mark for each freed block
 
         Reset_Marks;
 
         Mark_Blocks;
      end if;
 
      Free_Blocks (Ignore_Marks => not Pool.Advanced_Scanning);
 
      --  The contract is that we need to free at least Minimum_To_Free bytes,
      --  even if this means freeing marked blocks in the advanced scheme
 
      if Total_Freed < Pool.Minimum_To_Free
        and then Pool.Advanced_Scanning
      then
         Pool.Marked_Blocks_Deallocated := True;
         Free_Blocks (Ignore_Marks => True);
      end if;
 
      Unlock_Task.all;
 
   exception
      when others =>
         Unlock_Task.all;
         raise;
   end Free_Physically;
 
   ----------------
   -- Deallocate --
   ----------------
 
   procedure Deallocate
     (Pool                     : in out Debug_Pool;
      Storage_Address          : Address;
      Size_In_Storage_Elements : Storage_Count;
      Alignment                : Storage_Count)
   is
      pragma Unreferenced (Alignment);
 
      Header   : constant Allocation_Header_Access :=
        Header_Of (Storage_Address);
      Valid    : Boolean;
      Previous : System.Address;
 
   begin
      <<Deallocate_Label>>
      Lock_Task.all;
      Valid := Is_Valid (Storage_Address);
 
      if not Valid then
         Unlock_Task.all;
         if Pool.Raise_Exceptions then
            raise Freeing_Not_Allocated_Storage;
         else
            Put (Output_File (Pool),
                 "error: Freeing not allocated storage, at ");
            Put_Line (Output_File (Pool), Pool.Stack_Trace_Depth, null,
                      Deallocate_Label'Address,
                      Code_Address_For_Deallocate_End);
         end if;
 
      elsif Header.Block_Size < 0 then
         Unlock_Task.all;
         if Pool.Raise_Exceptions then
            raise Freeing_Deallocated_Storage;
         else
            Put (Output_File (Pool),
                 "error: Freeing already deallocated storage, at ");
            Put_Line (Output_File (Pool), Pool.Stack_Trace_Depth, null,
                      Deallocate_Label'Address,
                      Code_Address_For_Deallocate_End);
            Put (Output_File (Pool), "   Memory already deallocated at ");
            Put_Line
               (Output_File (Pool), 0,
                To_Traceback (Header.Dealloc_Traceback).Traceback);
            Put (Output_File (Pool), "   Memory was allocated at ");
            Put_Line (Output_File (Pool), 0, Header.Alloc_Traceback.Traceback);
         end if;
 
      else
         --  Some sort of codegen problem or heap corruption caused the
         --  Size_In_Storage_Elements to be wrongly computed.
         --  The code below is all based on the assumption that Header.all
         --  is not corrupted, such that the error is non-fatal.
 
         if Header.Block_Size /= Size_In_Storage_Elements then
            Put_Line (Output_File (Pool),
                      "error: Deallocate size "
                        & Storage_Count'Image (Size_In_Storage_Elements)
                        & " does not match allocate size "
                        & Storage_Count'Image (Header.Block_Size));
         end if;
 
         if Pool.Low_Level_Traces then
            Put (Output_File (Pool),
                 "info: Deallocated"
                 & Storage_Count'Image (Size_In_Storage_Elements)
                 & " bytes at 0x" & Address_Image (Storage_Address)
                 & " (physically"
                 & Storage_Count'Image (Header.Block_Size + Minimum_Allocation)
                 & " bytes at 0x" & Address_Image (Header.Allocation_Address)
                 & "), at ");
            Put_Line (Output_File (Pool), Pool.Stack_Trace_Depth, null,
                      Deallocate_Label'Address,
                      Code_Address_For_Deallocate_End);
            Put (Output_File (Pool), "   Memory was allocated at ");
            Put_Line (Output_File (Pool), 0, Header.Alloc_Traceback.Traceback);
         end if;
 
         --  Remove this block from the list of used blocks
 
         Previous :=
           To_Address (Header.Dealloc_Traceback);
 
         if Previous = System.Null_Address then
            Pool.First_Used_Block := Header_Of (Pool.First_Used_Block).Next;
 
            if Pool.First_Used_Block /= System.Null_Address then
               Header_Of (Pool.First_Used_Block).Dealloc_Traceback :=
                 To_Traceback (null);
            end if;
 
         else
            Header_Of (Previous).Next := Header.Next;
 
            if Header.Next /= System.Null_Address then
               Header_Of
                 (Header.Next).Dealloc_Traceback := To_Address (Previous);
            end if;
         end if;
 
         --  Update the header
 
         Header.all :=
           (Allocation_Address => Header.Allocation_Address,
            Alloc_Traceback    => Header.Alloc_Traceback,
            Dealloc_Traceback  => To_Traceback
                                    (Find_Or_Create_Traceback
                                       (Pool, Dealloc,
                                        Size_In_Storage_Elements,
                                        Deallocate_Label'Address,
                                        Code_Address_For_Deallocate_End)),
            Next               => System.Null_Address,
            Block_Size         => -Header.Block_Size);
 
         if Pool.Reset_Content_On_Free then
            Set_Dead_Beef (Storage_Address, -Header.Block_Size);
         end if;
 
         Pool.Logically_Deallocated :=
           Pool.Logically_Deallocated + Byte_Count (-Header.Block_Size);
 
         --  Link this free block with the others (at the end of the list, so
         --  that we can start releasing the older blocks first later on).
 
         if Pool.First_Free_Block = System.Null_Address then
            Pool.First_Free_Block := Storage_Address;
            Pool.Last_Free_Block := Storage_Address;
 
         else
            Header_Of (Pool.Last_Free_Block).Next := Storage_Address;
            Pool.Last_Free_Block := Storage_Address;
         end if;
 
         --  Do not physically release the memory here, but in Alloc.
         --  See comment there for details.
 
         Unlock_Task.all;
      end if;
 
   exception
      when others =>
         Unlock_Task.all;
         raise;
   end Deallocate;
 
   --------------------
   -- Deallocate_End --
   --------------------
 
   --  DO NOT MOVE, this must be right after Deallocate
 
   --  See Allocate_End
 
   --  This is making assumptions about code order that may be invalid ???
 
   procedure Deallocate_End is
   begin
      <<Deallocate_End_Label>>
      Code_Address_For_Deallocate_End := Deallocate_End_Label'Address;
   end Deallocate_End;
 
   -----------------
   -- Dereference --
   -----------------
 
   procedure Dereference
     (Pool                     : in out Debug_Pool;
      Storage_Address          : Address;
      Size_In_Storage_Elements : Storage_Count;
      Alignment                : Storage_Count)
   is
      pragma Unreferenced (Alignment, Size_In_Storage_Elements);
 
      Valid   : constant Boolean := Is_Valid (Storage_Address);
      Header  : Allocation_Header_Access;
 
   begin
      --  Locking policy: we do not do any locking in this procedure. The
      --  tables are only read, not written to, and although a problem might
      --  appear if someone else is modifying the tables at the same time, this
      --  race condition is not intended to be detected by this storage_pool (a
      --  now invalid pointer would appear as valid). Instead, we prefer
      --  optimum performance for dereferences.
 
      <<Dereference_Label>>
 
      if not Valid then
         if Pool.Raise_Exceptions then
            raise Accessing_Not_Allocated_Storage;
         else
            Put (Output_File (Pool),
                 "error: Accessing not allocated storage, at ");
            Put_Line (Output_File (Pool), Pool.Stack_Trace_Depth, null,
                      Dereference_Label'Address,
                      Code_Address_For_Dereference_End);
         end if;
 
      else
         Header := Header_Of (Storage_Address);
 
         if Header.Block_Size < 0 then
            if Pool.Raise_Exceptions then
               raise Accessing_Deallocated_Storage;
            else
               Put (Output_File (Pool),
                    "error: Accessing deallocated storage, at ");
               Put_Line
                 (Output_File (Pool), Pool.Stack_Trace_Depth, null,
                  Dereference_Label'Address,
                  Code_Address_For_Dereference_End);
               Put (Output_File (Pool), "  First deallocation at ");
               Put_Line
                 (Output_File (Pool),
                  0, To_Traceback (Header.Dealloc_Traceback).Traceback);
               Put (Output_File (Pool), "  Initial allocation at ");
               Put_Line
                 (Output_File (Pool),
                  0, Header.Alloc_Traceback.Traceback);
            end if;
         end if;
      end if;
   end Dereference;
 
   ---------------------
   -- Dereference_End --
   ---------------------
 
   --  DO NOT MOVE: this must be right after Dereference
 
   --  See Allocate_End
 
   --  This is making assumptions about code order that may be invalid ???
 
   procedure Dereference_End is
   begin
      <<Dereference_End_Label>>
      Code_Address_For_Dereference_End := Dereference_End_Label'Address;
   end Dereference_End;
 
   ----------------
   -- Print_Info --
   ----------------
 
   procedure Print_Info
     (Pool          : Debug_Pool;
      Cumulate      : Boolean := False;
      Display_Slots : Boolean := False;
      Display_Leaks : Boolean := False)
   is
 
      package Backtrace_Htable_Cumulate is new GNAT.HTable.Static_HTable
        (Header_Num => Header,
         Element    => Traceback_Htable_Elem,
         Elmt_Ptr   => Traceback_Htable_Elem_Ptr,
         Null_Ptr   => null,
         Set_Next   => Set_Next,
         Next       => Next,
         Key        => Tracebacks_Array_Access,
         Get_Key    => Get_Key,
         Hash       => Hash,
         Equal      => Equal);
      --  This needs a comment ??? probably some of the ones below do too???
 
      Data    : Traceback_Htable_Elem_Ptr;
      Elem    : Traceback_Htable_Elem_Ptr;
      Current : System.Address;
      Header  : Allocation_Header_Access;
      K       : Traceback_Kind;
 
   begin
      Put_Line
        ("Total allocated bytes : " &
         Byte_Count'Image (Pool.Allocated));
 
      Put_Line
        ("Total logically deallocated bytes : " &
         Byte_Count'Image (Pool.Logically_Deallocated));
 
      Put_Line
        ("Total physically deallocated bytes : " &
         Byte_Count'Image (Pool.Physically_Deallocated));
 
      if Pool.Marked_Blocks_Deallocated then
         Put_Line ("Marked blocks were physically deallocated. This is");
         Put_Line ("potentially dangerous, and you might want to run");
         Put_Line ("again with a lower value of Minimum_To_Free");
      end if;
 
      Put_Line
        ("Current Water Mark: " &
         Byte_Count'Image
          (Pool.Allocated - Pool.Logically_Deallocated
                                   - Pool.Physically_Deallocated));
 
      Put_Line
        ("High Water Mark: " &
          Byte_Count'Image (Pool.High_Water));
 
      Put_Line ("");
 
      if Display_Slots then
         Data := Backtrace_Htable.Get_First;
         while Data /= null loop
            if Data.Kind in Alloc .. Dealloc then
               Elem :=
                 new Traceback_Htable_Elem'
                      (Traceback => new Tracebacks_Array'(Data.Traceback.all),
                       Count     => Data.Count,
                       Kind      => Data.Kind,
                       Total     => Data.Total,
                       Next      => null);
               Backtrace_Htable_Cumulate.Set (Elem);
 
               if Cumulate then
                  K := (if Data.Kind = Alloc then Indirect_Alloc
                                             else Indirect_Dealloc);
 
                  --  Propagate the direct call to all its parents
 
                  for T in Data.Traceback'First + 1 .. Data.Traceback'Last loop
                     Elem := Backtrace_Htable_Cumulate.Get
                       (Data.Traceback
                          (T .. Data.Traceback'Last)'Unrestricted_Access);
 
                     --  If not, insert it
 
                     if Elem = null then
                        Elem := new Traceback_Htable_Elem'
                          (Traceback => new Tracebacks_Array'
                             (Data.Traceback (T .. Data.Traceback'Last)),
                           Count     => Data.Count,
                           Kind      => K,
                           Total     => Data.Total,
                           Next      => null);
                        Backtrace_Htable_Cumulate.Set (Elem);
 
                        --  Properly take into account that the subprograms
                        --  indirectly called might be doing either allocations
                        --  or deallocations. This needs to be reflected in the
                        --  counts.
 
                     else
                        Elem.Count := Elem.Count + Data.Count;
 
                        if K = Elem.Kind then
                           Elem.Total := Elem.Total + Data.Total;
 
                        elsif Elem.Total > Data.Total then
                           Elem.Total := Elem.Total - Data.Total;
 
                        else
                           Elem.Kind  := K;
                           Elem.Total := Data.Total - Elem.Total;
                        end if;
                     end if;
                  end loop;
               end if;
 
               Data := Backtrace_Htable.Get_Next;
            end if;
         end loop;
 
         Put_Line ("List of allocations/deallocations: ");
 
         Data := Backtrace_Htable_Cumulate.Get_First;
         while Data /= null loop
            case Data.Kind is
               when Alloc            => Put ("alloc (count:");
               when Indirect_Alloc   => Put ("indirect alloc (count:");
               when Dealloc          => Put ("free  (count:");
               when Indirect_Dealloc => Put ("indirect free  (count:");
            end case;
 
            Put (Natural'Image (Data.Count) & ", total:" &
                 Byte_Count'Image (Data.Total) & ") ");
 
            for T in Data.Traceback'Range loop
               Put ("0x" & Address_Image (PC_For (Data.Traceback (T))) & ' ');
            end loop;
 
            Put_Line ("");
 
            Data := Backtrace_Htable_Cumulate.Get_Next;
         end loop;
 
         Backtrace_Htable_Cumulate.Reset;
      end if;
 
      if Display_Leaks then
         Put_Line ("");
         Put_Line ("List of not deallocated blocks:");
 
         --  Do not try to group the blocks with the same stack traces
         --  together. This is done by the gnatmem output.
 
         Current := Pool.First_Used_Block;
         while Current /= System.Null_Address loop
            Header := Header_Of (Current);
 
            Put ("Size: " & Storage_Count'Image (Header.Block_Size) & " at: ");
 
            for T in Header.Alloc_Traceback.Traceback'Range loop
               Put ("0x" & Address_Image
                      (PC_For (Header.Alloc_Traceback.Traceback (T))) & ' ');
            end loop;
 
            Put_Line ("");
            Current := Header.Next;
         end loop;
      end if;
   end Print_Info;
 
   ------------------
   -- Storage_Size --
   ------------------
 
   function Storage_Size (Pool : Debug_Pool) return Storage_Count is
      pragma Unreferenced (Pool);
   begin
      return Storage_Count'Last;
   end Storage_Size;
 
   ---------------
   -- Configure --
   ---------------
 
   procedure Configure
     (Pool                           : in out Debug_Pool;
      Stack_Trace_Depth              : Natural := Default_Stack_Trace_Depth;
      Maximum_Logically_Freed_Memory : SSC     := Default_Max_Freed;
      Minimum_To_Free                : SSC     := Default_Min_Freed;
      Reset_Content_On_Free          : Boolean := Default_Reset_Content;
      Raise_Exceptions               : Boolean := Default_Raise_Exceptions;
      Advanced_Scanning              : Boolean := Default_Advanced_Scanning;
      Errors_To_Stdout               : Boolean := Default_Errors_To_Stdout;
      Low_Level_Traces               : Boolean := Default_Low_Level_Traces)
   is
   begin
      Pool.Stack_Trace_Depth              := Stack_Trace_Depth;
      Pool.Maximum_Logically_Freed_Memory := Maximum_Logically_Freed_Memory;
      Pool.Reset_Content_On_Free          := Reset_Content_On_Free;
      Pool.Raise_Exceptions               := Raise_Exceptions;
      Pool.Minimum_To_Free                := Minimum_To_Free;
      Pool.Advanced_Scanning              := Advanced_Scanning;
      Pool.Errors_To_Stdout               := Errors_To_Stdout;
      Pool.Low_Level_Traces               := Low_Level_Traces;
   end Configure;
 
   ----------------
   -- Print_Pool --
   ----------------
 
   procedure Print_Pool (A : System.Address) is
      Storage : constant Address := A;
      Valid   : constant Boolean := Is_Valid (Storage);
      Header  : Allocation_Header_Access;
 
   begin
      --  We might get Null_Address if the call from gdb was done
      --  incorrectly. For instance, doing a "print_pool(my_var)" passes 0x0,
      --  instead of passing the value of my_var
 
      if A = System.Null_Address then
         Put_Line
            (Standard_Output, "Memory not under control of the storage pool");
         return;
      end if;
 
      if not Valid then
         Put_Line
            (Standard_Output, "Memory not under control of the storage pool");
 
      else
         Header := Header_Of (Storage);
         Put_Line (Standard_Output, "0x" & Address_Image (A)
                     & " allocated at:");
         Put_Line (Standard_Output, 0, Header.Alloc_Traceback.Traceback);
 
         if To_Traceback (Header.Dealloc_Traceback) /= null then
            Put_Line (Standard_Output, "0x" & Address_Image (A)
                      & " logically freed memory, deallocated at:");
            Put_Line
               (Standard_Output, 0,
                To_Traceback (Header.Dealloc_Traceback).Traceback);
         end if;
      end if;
   end Print_Pool;
 
   -----------------------
   -- Print_Info_Stdout --
   -----------------------
 
   procedure Print_Info_Stdout
     (Pool          : Debug_Pool;
      Cumulate      : Boolean := False;
      Display_Slots : Boolean := False;
      Display_Leaks : Boolean := False)
   is
      procedure Stdout_Put      (S : String);
      procedure Stdout_Put_Line (S : String);
      --  Wrappers for Put and Put_Line that ensure we always write to stdout
      --  instead of the current output file defined in GNAT.IO.
 
      procedure Internal is new Print_Info
        (Put_Line => Stdout_Put_Line,
         Put      => Stdout_Put);
 
      ----------------
      -- Stdout_Put --
      ----------------
 
      procedure Stdout_Put (S : String) is
      begin
         Put_Line (Standard_Output, S);
      end Stdout_Put;
 
      ---------------------
      -- Stdout_Put_Line --
      ---------------------
 
      procedure Stdout_Put_Line (S : String) is
      begin
         Put_Line (Standard_Output, S);
      end Stdout_Put_Line;
 
   --  Start of processing for Print_Info_Stdout
 
   begin
      Internal (Pool, Cumulate, Display_Slots, Display_Leaks);
   end Print_Info_Stdout;
 
   ------------------
   -- Dump_Gnatmem --
   ------------------
 
   procedure Dump_Gnatmem (Pool : Debug_Pool; File_Name : String) is
      type File_Ptr is new System.Address;
 
      function fopen (Path : String; Mode : String) return File_Ptr;
      pragma Import (C, fopen);
 
      procedure fwrite
        (Ptr    : System.Address;
         Size   : size_t;
         Nmemb  : size_t;
         Stream : File_Ptr);
 
      procedure fwrite
        (Str    : String;
         Size   : size_t;
         Nmemb  : size_t;
         Stream : File_Ptr);
      pragma Import (C, fwrite);
 
      procedure fputc (C : Integer; Stream : File_Ptr);
      pragma Import (C, fputc);
 
      procedure fclose (Stream : File_Ptr);
      pragma Import (C, fclose);
 
      Address_Size : constant size_t :=
                       System.Address'Max_Size_In_Storage_Elements;
      --  Size in bytes of a pointer
 
      File        : File_Ptr;
      Current     : System.Address;
      Header      : Allocation_Header_Access;
      Actual_Size : size_t;
      Num_Calls   : Integer;
      Tracebk     : Tracebacks_Array_Access;
      Dummy_Time  : Duration := 1.0;
 
   begin
      File := fopen (File_Name & ASCII.NUL, "wb" & ASCII.NUL);
      fwrite ("GMEM DUMP" & ASCII.LF, 10, 1, File);
      fwrite (Dummy_Time'Address, Duration'Max_Size_In_Storage_Elements, 1,
              File);
 
      --  List of not deallocated blocks (see Print_Info)
 
      Current := Pool.First_Used_Block;
      while Current /= System.Null_Address loop
         Header := Header_Of (Current);
 
         Actual_Size := size_t (Header.Block_Size);
         Tracebk := Header.Alloc_Traceback.Traceback;
         Num_Calls := Tracebk'Length;
 
         --  (Code taken from memtrack.adb in GNAT's sources)
 
         --  Logs allocation call using the format:
 
         --   'A' <mem addr> <size chunk> <len backtrace> <addr1> ... <addrn>
 
         fputc (Character'Pos ('A'), File);
         fwrite (Current'Address, Address_Size, 1, File);
         fwrite (Actual_Size'Address, size_t'Max_Size_In_Storage_Elements, 1,
                 File);
         fwrite (Dummy_Time'Address, Duration'Max_Size_In_Storage_Elements, 1,
                 File);
         fwrite (Num_Calls'Address, Integer'Max_Size_In_Storage_Elements, 1,
                 File);
 
         for J in Tracebk'First .. Tracebk'First + Num_Calls - 1 loop
            declare
               Ptr : System.Address := PC_For (Tracebk (J));
            begin
               fwrite (Ptr'Address, Address_Size, 1, File);
            end;
         end loop;
 
         Current := Header.Next;
      end loop;
 
      fclose (File);
   end Dump_Gnatmem;
 
--  Package initialization
 
begin
   Allocate_End;
   Deallocate_End;
   Dereference_End;
end GNAT.Debug_Pools;
 

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