diff --git a/ext/dl/README b/ext/dl/README
deleted file mode 100644
index 2463e48bb7..0000000000
--- a/ext/dl/README
+++ /dev/null
@@ -1,186 +0,0 @@
-                                    Ruby/DL                                    
-                                                                               
-                    an interface to dynamic linking loader                     
--------------------------------------------------------------------------------
-
-Ruby/DL
-
-`Ruby/DL' provides an interface to the dynamic linking loader.
--------------------------------------------------------------------------------
-
-Installing
-
-    $ ruby extconf.rb    # to create the Makefile
-    $ make               # to build the library 'dl.so'
-    $ make libtest.so    # to build the C library 'libtest.so' for the test script
-    $ make test          # to run the test script
-    $ make install       # to install the library
-    $ make clean         # to remove the created files without Makefile
-    $ make distclean     # to remove the all created files
-
--------------------------------------------------------------------------------
-
-Functions and Classes
-
-after loading the `dl' library, we get access to the module called `DL'. the DL
-module has the following constants, functions and classes.
-
-Constants
-
-VERSION
-MAJOR_VERSION
-MINOR_VERSION
-PATCH_VERSION
-RTLD_GLOBAL
-RTLD_LAZY
-RTLD_NOW
-MAX_ARG
-MAX_CBARG
-MAX_CBENT
-
-Functions
-
-handle = dlopen(lib){|handle| ... }
-    is quite equal to `Handle.new(lib)'
-sym = set_callback(cbtype, entry){|args| ... }
-sym = set_callback(cbtype, entry, proc)
-    makes entry-th pre-defined function to call the proc or given block. the 
-    entry-th pre-defined function is specified by cbtype and entry. cbtype is a
-    prototype of the callback. see also the section `Type specifiers' about 
-    cbtype.
-sym = get_callback(cbtype, entry)
-    returns the Proc object which is given by the above function
-    `set_callback'.
-ptr = malloc(size, [free = nil])
-    allocates the size bytes, and returns the pointer as a PtrData object ptr.
-ptr = strdup(str)
-    returns a PtrData object ptr which represents the pointer to a new string
-    which is a duplicate of the string str.
-size = sizeof(type)
-    returns the size of type. `sizeof("C") + sizeof("L")' is not equal to
-    `sizeof("CL")'. the latter is assumed to returns the enough size of the
-    structure `struct foo { char c; long l; }', but the size may not equal to
-    `sizeof(foo)' of C.
-
-class Handle
-
-handle = Handle.new(lib){|handle| ... }
-    opens a library lib and returns a Handle object handle. if a block is
-    given, the handle is automatically closed as the block ends.
-Handle#close
-    closes the handle opened by the above Handle.new(lib).
-sym = Handle#sym(func, prototype = "0")
-sym = Handle#[func, prototype = nil]
-    obtains the pointer to a function called func and returns a Symbol object
-    or a DataPtr object. prototype is a string which consists of type
-    specifiers, it indicates the function's prototype. see also the section
-    `Type specifiers'.
-
-class Symbol
-
-sym = Symbol.new(addr, type = nil, name = nil)
-    creates the Symbol object sym with the type type if type is not nil. addr
-    is the address where the function is allocated. If type is nil, it returns
-    a DataPtr object.
-Symbol::char2type(char)
-    takes a character char that represents a type and returns the type
-    specifier of the C language.
-str = Symbol#proto()
-    returns the function prototype.
-str = Symbol#name()
-    Returns the function name.
-str = Symbol#cproto()
-str = Symbol#to_s()
-    returns the prototype of the C language.
-str = Symbol#inspect()
-    returns the inspectable string.
-r,rs = Symbol#call(arg1,arg2,...,argN)
-r,rs = Symbol#[](arg1,arg2,...,argN)
-    calls the function with parameters arg1, arg2, ..., argN. and the result
-    consists of the return value r and parameters rs. rs is an array.
-ptr = Symbol#to_ptr
-    returns the corresponding PtrData object ptr.
-
-class PtrData
-
-ptr = PtrData.new(addr, [free = nil])
-    returns the PtrData object representing the pointer which indicates the
-    address addr. GC frees the memory using the free function.
-PtrData#free=(sym)
-    if you specify a symbol object sym, GC frees the memory using the function
-    represented by sym.
-sym = PtrData#free
-    returns a symbol object sym which is used when GC frees the memory. it
-    usually configured by `PtrData#free=' or `PtrData.new'.
-size = PtrData#size, PtrData#size=(size)
-    gets and sets allocated size of the memory.
-ary = PtrData#to_a(type, [size])
-    returns an array of the type which specified with type. type must be one of
-    'S','P','I','L','D' and 'F'.
-str = PtrData#to_s([len])
-    returns a string which length is len. if len is omitted, the end of the
-    string is '\0'.
-ptr = PtrData#ptr,+@
-    returns the pointed value as a PtrData object ptr.
-ptr = PtrData#ref,-@
-    returns the reference as a PtrData object ptr.
-ptr = PtrData#+
-    returns the PtrData object
-ptr = PtrData#-
-    returns the PtrData object
-PtrData#struct!(type, *members)
-    defines the data type to get access to a structure member with a symbol.
-    (see also PtrData#[])
-PtrData#union!(type, *members)
-    defines the data type to get access to a union member with a symbol. (see
-    also PtrData#[])
-val = PtrData#[key], PtrData#[key, num = 0]
-    if the key is a string or symbol, this method returns the value of the
-    structure/union member which has the type defined by PtrData#
-    {struct!,union!}. if the key is a integer value and this object represents
-    the pointer ptr, it returns the value of `(ptr + key).to_s(num)'
-PtrData#[key,num]=val, PtrData#[key]=val
-    if the key is a string or symbol, this method substitute the value of the
-    structure/union member with val. if the key is a integer value and val is a
-    string, this method copies num bytes of val to the memory area ptr using
-    memcpy(3).
-
--------------------------------------------------------------------------------
-
-Type specifiers
-
-the prototype consists of the following type specifiers, first element of 
-prototype represents the type of return value, and remaining elements represent
-the type of each argument.
-
-    C : a character (char)
-    c : a pointer to a character (char *)
-    H : a short integer (short)
-    h : a pointer to a short integer (short *)
-    I : an integer (char, short, int)
-    i : a pointer to an integer (char *, short *, int *)
-    L : a long integer (long)
-    l : a pointer to a long integer (long *)
-    F : a real (float)
-    f : a pointer to a real (float *)
-    D : a real (double)
-    d : a pointer to a real (double *)
-    S : an immutable string (const char *)
-    s : a mutable string (char *)
-    A : an array (const type[])
-    a : a mutable array (type[])
-    P : a pointer (void *)
-    p : a mutable object (void *)
-    0 : void function (this must be a first character of the prototype)
-
-the cbtype consists of type specifiers 0, I, L, D and P.
-for example:
-
-    DL.set_callback('IPP',0){|ptr1,ptr2|
-      str1 = ptr1.ptr.to_s
-      str2 = ptr2.ptr.to_s
-      return str1 <=> str2
-    }
-
--------------------------------------------------------------------------------
-ttate@kt.jaist.ac.jp
diff --git a/ext/dl/README.html b/ext/dl/README.html
deleted file mode 100644
index b248cce1f3..0000000000
--- a/ext/dl/README.html
+++ /dev/null
@@ -1,247 +0,0 @@
-<html>
-<head><title>Ruby/DL</title></head>
-<body>
-<center>
- <h2>Ruby/DL</h2>
- an interface to dynamic linking loader
-</center>
-
-<hr>
-<h2>Ruby/DL</h2>
-
-`Ruby/DL' provides an interface to the dynamic linking loader.
-
-<hr>
-<h2>Installing</h2>
-
-<blockquote>
-<pre>
-$ ruby extconf.rb    # to create the Makefile
-$ make               # to build the library 'dl.so'
-$ make libtest.so    # to build the C library 'libtest.so' for the test script
-$ make test          # to run the test script
-$ make install       # to install the library
-$ make clean         # to remove the created files without Makefile
-$ make distclean     # to remove the all created files
-</pre>
-</blockquote>
-
-<hr>
-<h2>Functions and Classes</h2>
-
-after loading the `dl' library, we get access to the module called `DL'.
-the DL module has the following constants, functions and classes.
-
-<h2>Constants</h2>
-
-VERSION<br>
-MAJOR_VERSION<br>
-MINOR_VERSION<br>
-PATCH_VERSION<br>
-RTLD_GLOBAL<br>
-RTLD_LAZY<br>
-RTLD_NOW<br>
-MAX_ARG<br>
-MAX_CBARG<br>
-MAX_CBENT<br>
-
-<h2>Functions</h2>
-
-<dl>
- <dt>handle = dlopen(lib){|handle| ... }</dt>
- <dd>is quite equal to `Handle.new(lib)'
-
- <dt>sym = set_callback(cbtype, entry){|args| ... }
- <dt>sym = set_callback(cbtype, entry, proc)
- <dd>makes <u>entry</u>-th pre-defined function to call the <u>proc</u>
-     or given block.
-     the <u>entry</u>-th pre-defined function is specified by
-     <u>cbtype</u> and <u>entry</u>.
-     <u>cbtype</u> is a prototype of the callback.
-     see also the section `Type specifiers' about <u>cbtype</u>.
-
- <dt>sym = get_callback(cbtype, entry)
- <dd>returns the Proc object which is given by the above function `set_callback'.
-
- <dt>ptr = malloc(size, [free = nil])
- <dd>allocates the <u>size</u> bytes, and returns the pointer as a
-     PtrData object <u>ptr</u>.
-
- <dt>ptr = strdup(str)
- <dd>returns a PtrData object <u>ptr</u> which represents the pointer to
-     a new string which is a duplicate of the string <u>str</u>.
-
- <dt>size = sizeof(type)
- <dd>returns the size of <u>type</u>. `sizeof("C") + sizeof("L")' is not
-     equal to `sizeof("CL")'. the latter is assumed to returns the
-     enough size of the structure `struct foo { char c; long l; }',
-     but the size may not equal to `sizeof(foo)' of C.
-</dl>
-
-<h2>class Handle</h2>
-
-<dl>
- <dt>handle = Handle.new(lib){|handle| ... }</dt>
- <dd>opens a library <u>lib</u> and returns a Handle object
-     <u>handle</u>. if a block is given, the handle is
-     automatically closed as the block ends.
-
- <dt>Handle#close
- <dd>closes the handle opened by the above Handle.new(lib).
-
- <dt>sym = Handle#sym(func, prototype = "0")
- <dt>sym = Handle#[func, prototype = nil]
- <dd>obtains the pointer to a function called <u>func</u> and returns
-     a Symbol object or a DataPtr object.
-     <u>prototype</u> is a string which consists of type specifiers,
-     it indicates the function's prototype.
-     see also the section `Type specifiers'.
-</dl>
-
-<h2>class Symbol</h2>
-
-<dl>
- <dt>sym = Symbol.new(addr, type = nil, name = nil)
- <dd>creates the Symbol object <u>sym</u> with the type <u>type</u>
-     if <u>type</u> is not nil. <u>addr</u> is the address where the
-     function is allocated. If <u>type</u> is nil, it returns a DataPtr
-     object.
-
- <dt>Symbol::char2type(char)
- <dd>takes a character <u>char</u> that represents a type and returns
-     the type specifier of the C language.
-
- <dt>str = Symbol#proto()
- <dd>returns the function prototype.
-
- <dt>str = Symbol#name()
- <dd>Returns the function name.
-
- <dt>str = Symbol#cproto()
- <dt>str = Symbol#to_s()
- <dd>returns the prototype of the C language.
-
- <dt>str = Symbol#inspect()
- <dd>returns the inspectable string.
-
- <dt>r,rs = Symbol#call(arg1,arg2,...,argN)
- <dt>r,rs = Symbol#[](arg1,arg2,...,argN)
- <dd>calls the function with parameters arg1, arg2, ..., argN.
-     and the result consists of the return value <u>r</u> and
-     parameters <u>rs</u>. <u>rs</u> is an array.
-
- <dt>ptr = Symbol#to_ptr
- <dd>returns the corresponding PtrData object <u>ptr</u>.
-</dl>
-
-<h2>class PtrData</h2>
-
-<dl>
- <dt>ptr = PtrData.new(addr, [free = nil])
- <dd>returns the PtrData object representing the pointer which
-     indicates the address <u>addr</u>.
-     GC frees the memory using the <u>free</u> function.
-
- <dt>PtrData#free=(sym)
- <dd>if you specify a symbol object <u>sym</u>, GC frees the memory
-     using the function represented by <u>sym</u>.
-
- <dt>sym = PtrData#free
- <dd>returns a symbol object <u>sym</u> which is used when GC frees
-     the memory. it usually configured by `PtrData#free=' or `PtrData.new'.
-
- <dt>size = PtrData#size, PtrData#size=(size)
- <dd>gets and sets allocated size of the memory.
-
- <dt>ary = PtrData#to_a(type, [size])
- <dd>returns an array of the type which specified with <u>type</u>.
-     <u>type</u> must be one of 'S','P','I','L','D' and 'F'.
-
- <dt>str = PtrData#to_s([len])
- <dd>returns a string which length is <u>len</u>. if <u>len</u>
-     is omitted, the end of the string is '\0'.
-
- <dt>ptr = PtrData#ptr,+@
- <dd>returns the pointed value as a PtrData object <u>ptr</u>.
-
- <dt>ptr = PtrData#ref,-@
- <dd>returns the reference as a PtrData object <u>ptr</u>.
-
- <dt>ptr = PtrData#+
- <dd>returns the PtrData object
-
- <dt>ptr = PtrData#-
- <dd>returns the PtrData object
-
- <dt>PtrData#struct!(type, *members)
- <dd>defines the data type to get access to a structure member with a symbol.
-     (see also PtrData#[])
-
- <dt>PtrData#union!(type, *members)
- <dd>defines the data type to get access to a union member with a symbol.
-     (see also PtrData#[])
-
- <dt>val = PtrData#[key], PtrData#[key, num = 0]
- <dd>if the <u>key</u> is a string or symbol, this method returns the
-     value of the structure/union member which has the type defined by
-     PtrData#{struct!,union!}.
-     if the <u>key</u> is a integer value and this object represents
-     the pointer <u>ptr</u>, it returns the value of 
-     `(<u>ptr</u> + <u>key</u>).to_s(num)'
-
- <dt>PtrData#[key,num]=val, PtrData#[key]=val
- <dd>if the <u>key</u> is a string or symbol, this method substitute
-     the value of the structure/union member with <u>val</u>.
-     if the <u>key</u> is a integer value and <u>val</u> is a string,
-     this method copies <u>num</u> bytes of <u>val</u> to the memory
-     area <u>ptr</u> using memcpy(3).
-</dl>
-
-<hr>
-<h2>Type specifiers</h2>
-
-the <u>prototype</u> consists of the following type specifiers,
-first element of <u>prototype</u> represents the type of return value,
-and remaining elements represent the type of each argument.
-
-<blockquote>
- C : a character (char)<br>
- c : a pointer to a character (char *)<br>
- H : a short integer (short)<br>
- h : a pointer to a short integer (short *)<br>
- I : an integer (char, short, int)<br>
- i : a pointer to an integer (char *, short *, int *)<br>
- L : a long integer (long)<br>
- l : a pointer to a long integer (long *)<br>
- F : a real (float)<br>
- f : a pointer to a real (float *)<br>
- D : a real (double)<br>
- d : a pointer to a real (double *)<br>
- S : an immutable string (const char *)<br>
- s : a mutable string (char *)<br>
- A : an array (const type[])<br>
- a : a mutable array (type[])<br>
- P : a pointer (void *)<br>
- p : a mutable object (void *)<br>
- 0 : void function
-     (this must be a first character of the <u>prototype</u>)<br>
-</blockquote>
-
-the <u>cbtype</u> consists of type specifiers 0, I, L, D and P.
-<br>
-for example:
-<blockquote>
-<pre>
-DL.set_callback('IPP',0){|ptr1,ptr2|
-  str1 = ptr1.ptr.to_s
-  str2 = ptr2.ptr.to_s
-  return str1 <=> str2
-}
-</pre>
-</blockquote>
-
-<hr>
-<i>ttate@kt.jaist.ac.jp</i>
-
-</body>
-</html>
\ No newline at end of file
diff --git a/ext/dl/lib/dl/struct.rb b/ext/dl/lib/dl/struct.rb
index 131322d349..57703801a6 100644
--- a/ext/dl/lib/dl/struct.rb
+++ b/ext/dl/lib/dl/struct.rb
@@ -47,6 +47,10 @@ module DL
 	def to_ptr
 	  return @ptr
 	end
+
+	def size
+	  return @ptr.size
+	end
       end
 
       class Struct
@@ -62,6 +66,14 @@ module DL
 	  parse(contents)
 	end
 
+	def size
+	  return @size
+	end
+
+	def members
+	  return @names
+	end
+
 	def new(size = nil)
 	  if( !size )
 	    size = @size