448 lines
15 KiB
C
448 lines
15 KiB
C
/* hash.c -- hash table routines for BFD
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Copyright 1993 Free Software Foundation, Inc.
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Written by Steve Chamberlain <sac@cygnus.com>
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This file is part of GLD, the Gnu Linker.
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GLD is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2, or (at your option)
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any later version.
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GLD is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GLD; see the file COPYING. If not, write to
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the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
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#include "bfd.h"
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#include "sysdep.h"
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#include "libbfd.h"
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#include "obstack.h"
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/*
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SECTION
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Hash Tables
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@cindex Hash tables
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BFD provides a simple set of hash table functions. Routines
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are provided to initialize a hash table, to free a hash table,
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to look up a string in a hash table and optionally create an
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entry for it, and to traverse a hash table. There is
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currently no routine to delete an string from a hash table.
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The basic hash table does not permit any data to be stored
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with a string. However, a hash table is designed to present a
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base class from which other types of hash tables may be
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derived. These derived types may store additional information
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with the string. Hash tables were implemented in this way,
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rather than simply providing a data pointer in a hash table
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entry, because they were designed for use by the linker back
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ends. The linker may create thousands of hash table entries,
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and the overhead of allocating private data and storing and
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following pointers becomes noticeable.
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The basic hash table code is in <<hash.c>>.
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@menu
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@* Creating and Freeing a Hash Table::
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@* Looking Up or Entering a String::
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@* Traversing a Hash Table::
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@* Deriving a New Hash Table Type::
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@end menu
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INODE
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Creating and Freeing a Hash Table, Looking Up or Entering a String, Hash Tables, Hash Tables
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SUBSECTION
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Creating and freeing a hash table
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@findex bfd_hash_table_init
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@findex bfd_hash_table_init_n
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To create a hash table, create an instance of a <<struct
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bfd_hash_table>> (defined in <<bfd.h>>) and call
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<<bfd_hash_table_init>> (if you know approximately how many
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entries you will need, the function <<bfd_hash_table_init_n>>,
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which takes a @var{size} argument, may be used).
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<<bfd_hash_table_init>> returns <<false>> if some sort of
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error occurs.
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@findex bfd_hash_newfunc
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The function <<bfd_hash_table_init>> take as an argument a
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function to use to create new entries. For a basic hash
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table, use the function <<bfd_hash_newfunc>>. @xref{Deriving
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a New Hash Table Type} for why you would want to use a
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different value for this argument.
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@findex bfd_hash_allocate
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<<bfd_hash_table_init>> will create an obstack which will be
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used to allocate new entries. You may allocate memory on this
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obstack using <<bfd_hash_allocate>>.
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@findex bfd_hash_table_free
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Use <<bfd_hash_table_free>> to free up all the memory that has
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been allocated for a hash table. This will not free up the
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<<struct bfd_hash_table>> itself, which you must provide.
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INODE
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Looking Up or Entering a String, Traversing a Hash Table, Creating and Freeing a Hash Table, Hash Tables
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SUBSECTION
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Looking up or entering a string
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@findex bfd_hash_lookup
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The function <<bfd_hash_lookup>> is used both to look up a
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string in the hash table and to create a new entry.
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If the @var{create} argument is <<false>>, <<bfd_hash_lookup>>
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will look up a string. If the string is found, it will
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returns a pointer to a <<struct bfd_hash_entry>>. If the
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string is not found in the table <<bfd_hash_lookup>> will
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return <<NULL>>. You should not modify any of the fields in
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the returns <<struct bfd_hash_entry>>.
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If the @var{create} argument is <<true>>, the string will be
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entered into the hash table if it is not already there.
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Either way a pointer to a <<struct bfd_hash_entry>> will be
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returned, either to the existing structure or to a newly
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created one. In this case, a <<NULL>> return means that an
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error occurred.
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If the @var{create} argument is <<true>>, and a new entry is
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created, the @var{copy} argument is used to decide whether to
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copy the string onto the hash table obstack or not. If
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@var{copy} is passed as <<false>>, you must be careful not to
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deallocate or modify the string as long as the hash table
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exists.
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INODE
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Traversing a Hash Table, Deriving a New Hash Table Type, Looking Up or Entering a String, Hash Tables
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SUBSECTION
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Traversing a hash table
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@findex bfd_hash_traverse
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The function <<bfd_hash_traverse>> may be used to traverse a
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hash table, calling a function on each element. The traversal
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is done in a random order.
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<<bfd_hash_traverse>> takes as arguments a function and a
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generic <<void *>> pointer. The function is called with a
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hash table entry (a <<struct bfd_hash_entry *>>) and the
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generic pointer passed to <<bfd_hash_traverse>>. The function
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must return a <<boolean>> value, which indicates whether to
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continue traversing the hash table. If the function returns
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<<false>>, <<bfd_hash_traverse>> will stop the traversal and
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return immediately.
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INODE
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Deriving a New Hash Table Type, , Traversing a Hash Table, Hash Tables
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SUBSECTION
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Deriving a new hash table type
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Many uses of hash tables want to store additional information
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which each entry in the hash table. Some also find it
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convenient to store additional information with the hash table
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itself. This may be done using a derived hash table.
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Since C is not an object oriented language, creating a derived
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hash table requires sticking together some boilerplate
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routines with a few differences specific to the type of hash
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table you want to create.
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An example of a derived hash table is the linker hash table.
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The structures for this are defined in <<bfdlink.h>>. The
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functions are in <<linker.c>>.
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You may also derive a hash table from an already derived hash
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table. For example, the a.out linker backend code uses a hash
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table derived from the linker hash table.
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@menu
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@* Define the Derived Structures::
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@* Write the Derived Creation Routine::
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@* Write Other Derived Routines::
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@end menu
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INODE
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Define the Derived Structures, Write the Derived Creation Routine, Deriving a New Hash Table Type, Deriving a New Hash Table Type
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SUBSUBSECTION
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Define the derived structures
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You must define a structure for an entry in the hash table,
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and a structure for the hash table itself.
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The first field in the structure for an entry in the hash
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table must be of the type used for an entry in the hash table
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you are deriving from. If you are deriving from a basic hash
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table this is <<struct bfd_hash_entry>>, which is defined in
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<<bfd.h>>. The first field in the structure for the hash
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table itself must be of the type of the hash table you are
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deriving from itself. If you are deriving from a basic hash
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table, this is <<struct bfd_hash_table>>.
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For example, the linker hash table defines <<struct
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bfd_link_hash_entry>> (in <<bfdlink.h>>). The first field,
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<<root>>, is of type <<struct bfd_hash_entry>>. Similarly,
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the first field in <<struct bfd_link_hash_table>>, <<table>>,
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is of type <<struct bfd_hash_table>>.
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INODE
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Write the Derived Creation Routine, Write Other Derived Routines, Define the Derived Structures, Deriving a New Hash Table Type
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SUBSUBSECTION
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Write the derived creation routine
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You must write a routine which will create and initialize an
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entry in the hash table. This routine is passed as the
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function argument to <<bfd_hash_table_init>>.
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In order to permit other hash tables to be derived from the
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hash table you are creating, this routine must be written in a
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standard way.
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The first argument to the creation routine is a pointer to a
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hash table entry. This may be <<NULL>>, in which case the
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routine should allocate the right amount of space. Otherwise
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the space has already been allocated by a hash table type
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derived from this one.
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After allocating space, the creation routine must call the
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creation routine of the hash table type it is derived from,
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passing in a pointer to the space it just allocated. This
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will initialize any fields used by the base hash table.
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Finally the creation routine must initialize any local fields
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for the new hash table type.
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Here is a boilerplate example of a creation routine.
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@var{function_name} is the name of the routine.
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@var{entry_type} is the type of an entry in the hash table you
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are creating. @var{base_newfunc} is the name of the creation
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routine of the hash table type your hash table is derived
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from.
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EXAMPLE
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.struct bfd_hash_entry *
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.@var{function_name} (entry, table, string)
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. struct bfd_hash_entry *entry;
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. struct bfd_hash_table *table;
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. const char *string;
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.{
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. struct @var{entry_type} *ret = (@var{entry_type} *) entry;
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.
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. {* Allocate the structure if it has not already been allocated by a
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. derived class. *}
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. if (ret == (@var{entry_type} *) NULL)
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. ret = ((@var{entry_type} *)
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. bfd_hash_allocate (table, sizeof (@var{entry_type})));
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.
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. {* Call the allocation method of the base class. *}
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. ret = ((@var{entry_type} *)
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. @var{base_newfunc} ((struct bfd_hash_entry *) ret, table, string));
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.
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. {* Initialize the local fields here. *}
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.
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. return (struct bfd_hash_entry *) ret;
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.}
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DESCRIPTION
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The creation routine for the linker hash table, which is in
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<<linker.c>>, looks just like this example.
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@var{function_name} is <<_bfd_link_hash_newfunc>>.
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@var{entry_type} is <<struct bfd_link_hash_entry>>.
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@var{base_newfunc} is <<bfd_hash_newfunc>>, the creation
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routine for a basic hash table.
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<<_bfd_link_hash_newfunc>> also initializes the local fields
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in a linker hash table entry: <<type>>, <<written>> and
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<<next>>.
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INODE
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Write Other Derived Routines, , Write the Derived Creation Routine, Deriving a New Hash Table Type
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SUBSUBSECTION
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Write other derived routines
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You will want to write other routines for your new hash table,
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as well.
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You will want an initialization routine which calls the
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initialization routine of the hash table you are deriving from
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and initializes any other local fields. For the linker hash
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table, this is <<_bfd_link_hash_table_init>> in <<linker.c>>.
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You will want a lookup routine which calls the lookup routine
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of the hash table you are deriving from and casts the result.
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The linker hash table uses <<bfd_link_hash_lookup>> in
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<<linker.c>> (this actually takes an additional argument which
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it uses to decide how to return the looked up value).
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You may want a traversal routine. This should just call the
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traversal routine of the hash table you are deriving from with
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appropriate casts. The linker hash table uses
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<<bfd_link_hash_traverse>> in <<linker.c>>.
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These routines may simply be defined as macros. For example,
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the a.out backend linker hash table, which is derived from the
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linker hash table, uses macros for the lookup and traversal
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routines. These are <<aout_link_hash_lookup>> and
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<<aout_link_hash_traverse>> in aoutx.h.
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*/
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/* Obstack allocation and deallocation routines. */
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#define obstack_chunk_alloc bfd_xmalloc_by_size_t
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#define obstack_chunk_free free
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/* The default number of entries to use when creating a hash table. */
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#define DEFAULT_SIZE (4051)
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/* Create a new hash table, given a number of entries. */
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boolean
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bfd_hash_table_init_n (table, newfunc, size)
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struct bfd_hash_table *table;
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struct bfd_hash_entry *(*newfunc) PARAMS ((struct bfd_hash_entry *,
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struct bfd_hash_table *,
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const char *));
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unsigned int size;
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{
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unsigned int alloc;
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alloc = size * sizeof (struct bfd_hash_entry *);
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obstack_begin (&table->memory, alloc);
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table->table = ((struct bfd_hash_entry **)
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obstack_alloc (&table->memory, alloc));
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memset ((PTR) table->table, 0, alloc);
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table->size = size;
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table->newfunc = newfunc;
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return true;
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}
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/* Create a new hash table with the default number of entries. */
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boolean
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bfd_hash_table_init (table, newfunc)
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struct bfd_hash_table *table;
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struct bfd_hash_entry *(*newfunc) PARAMS ((struct bfd_hash_entry *,
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struct bfd_hash_table *,
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const char *));
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{
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return bfd_hash_table_init_n (table, newfunc, DEFAULT_SIZE);
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}
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/* Free a hash table. */
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void
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bfd_hash_table_free (table)
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struct bfd_hash_table *table;
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{
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obstack_free (&table->memory, (PTR) NULL);
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}
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/* Look up a string in a hash table. */
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struct bfd_hash_entry *
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bfd_hash_lookup (table, string, create, copy)
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struct bfd_hash_table *table;
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const char *string;
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boolean create;
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boolean copy;
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{
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register const unsigned char *s;
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register unsigned long hash;
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register unsigned int c;
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struct bfd_hash_entry *hashp;
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unsigned int len;
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unsigned int index;
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hash = 0;
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len = 0;
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s = (const unsigned char *) string;
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while ((c = *s++) != '\0')
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{
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hash += c + (c << 17);
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hash ^= hash >> 2;
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++len;
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}
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hash += len + (len << 17);
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hash ^= hash >> 2;
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index = hash % table->size;
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for (hashp = table->table[index];
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hashp != (struct bfd_hash_entry *) NULL;
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hashp = hashp->next)
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{
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if (hashp->hash == hash
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&& strcmp (hashp->string, string) == 0)
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return hashp;
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}
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if (! create)
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return (struct bfd_hash_entry *) NULL;
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hashp = (*table->newfunc) ((struct bfd_hash_entry *) NULL, table, string);
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if (hashp == (struct bfd_hash_entry *) NULL)
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return (struct bfd_hash_entry *) NULL;
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if (copy)
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{
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char *new;
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new = (char *) obstack_alloc (&table->memory, len + 1);
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strcpy (new, string);
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string = new;
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}
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hashp->string = string;
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hashp->hash = hash;
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hashp->next = table->table[index];
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table->table[index] = hashp;
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return hashp;
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}
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/* Base method for creating a new hash table entry. */
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/*ARGSUSED*/
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struct bfd_hash_entry *
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bfd_hash_newfunc (entry, table, string)
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struct bfd_hash_entry *entry;
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struct bfd_hash_table *table;
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const char *string;
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{
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if (entry == (struct bfd_hash_entry *) NULL)
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entry = ((struct bfd_hash_entry *)
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bfd_hash_allocate (table, sizeof (struct bfd_hash_entry)));
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return entry;
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}
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/* Allocate space in a hash table. */
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PTR
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bfd_hash_allocate (table, size)
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struct bfd_hash_table *table;
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size_t size;
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{
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return obstack_alloc (&table->memory, size);
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}
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/* Traverse a hash table. */
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void
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bfd_hash_traverse (table, func, info)
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struct bfd_hash_table *table;
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boolean (*func) PARAMS ((struct bfd_hash_entry *, PTR));
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PTR info;
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{
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unsigned int i;
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for (i = 0; i < table->size; i++)
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{
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struct bfd_hash_entry *p;
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for (p = table->table[i]; p != NULL; p = p->next)
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{
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if (! (*func) (p, info))
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return;
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}
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}
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}
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