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 Previous:&nbsp;<a rel="previous" accesskey="p" href="Retrieving-Descriptions.html#Retrieving-Descriptions">Retrieving Descriptions</a>,
 Up:&nbsp;<a rel="up" accesskey="u" href="Target-Descriptions.html#Target-Descriptions">Target Descriptions</a>
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 <h3 class="section">G.2 Target Description Format</h3>

 <p><a name="index-target-descriptions_002c-XML-format-2539"></a>
 A target description annex is an <a href="http://www.w3.org/XML/">XML</a>
 document which complies with the Document Type Definition provided in
 the <span class="sc">gdb</span> sources in <samp><span class="file">gdb/features/gdb-target.dtd</span></samp>.  This
 means you can use generally available tools like <samp><span class="command">xmllint</span></samp> to
 check that your feature descriptions are well-formed and valid.
 However, to help people unfamiliar with XML write descriptions for
 their targets, we also describe the grammar here.

    <p>Target descriptions can identify the architecture of the remote target
 and (for some architectures) provide information about custom register
 sets.  They can also identify the OS ABI of the remote target.
 <span class="sc">gdb</span> can use this information to autoconfigure for your
 target, or to warn you if you connect to an unsupported target.

    <p>Here is a simple target description:

 <pre class="smallexample">     &lt;target version="1.0"&gt;
        &lt;architecture&gt;i386:x86-64&lt;/architecture&gt;
      &lt;/target&gt;
 </pre>
    <p class="noindent">This minimal description only says that the target uses
 the x86-64 architecture.

    <p>A target description has the following overall form, with [ ] marking
 optional elements and <small class="dots">...</small> marking repeatable elements.  The elements
 are explained further below.

 <pre class="smallexample">     &lt;?xml version="1.0"?&gt;
      &lt;!DOCTYPE target SYSTEM "gdb-target.dtd"&gt;
      &lt;target version="1.0"&gt;
        <span class="roman">[</span><var>architecture</var><span class="roman">]</span>
        <span class="roman">[</span><var>osabi</var><span class="roman">]</span>
        <span class="roman">[</span><var>compatible</var><span class="roman">]</span>
        <span class="roman">[</span><var>feature</var>...<span class="roman">]</span>
      &lt;/target&gt;
 </pre>
    <p class="noindent">The description is generally insensitive to whitespace and line
 breaks, under the usual common-sense rules.  The XML version
 declaration and document type declaration can generally be omitted
 (<span class="sc">gdb</span> does not require them), but specifying them may be
 useful for XML validation tools.  The &lsquo;<samp><span class="samp">version</span></samp>&rsquo; attribute for
 &lsquo;<samp><span class="samp">&lt;target&gt;</span></samp>&rsquo; may also be omitted, but we recommend
 including it; if future versions of <span class="sc">gdb</span> use an incompatible
 revision of <samp><span class="file">gdb-target.dtd</span></samp>, they will detect and report
 the version mismatch.

 <h4 class="subsection">G.2.1 Inclusion</h4>

 <p><a name="index-target-descriptions_002c-inclusion-2540"></a><a name="index-XInclude-2541"></a><a name="index-g_t_003cxi_003ainclude_003e-2542"></a>
 It can sometimes be valuable to split a target description up into
 several different annexes, either for organizational purposes, or to
 share files between different possible target descriptions.  You can
 divide a description into multiple files by replacing any element of
 the target description with an inclusion directive of the form:

 <pre class="smallexample">     &lt;xi:include href="<var>document</var>"/&gt;
 </pre>
    <p class="noindent">When <span class="sc">gdb</span> encounters an element of this form, it will retrieve
 the named XML <var>document</var>, and replace the inclusion directive with
 the contents of that document.  If the current description was read
 using &lsquo;<samp><span class="samp">qXfer</span></samp>&rsquo;, then so will be the included document;
 <var>document</var> will be interpreted as the name of an annex.  If the
 current description was read from a file, <span class="sc">gdb</span> will look for
 <var>document</var> as a file in the same directory where it found the
 original description.

 <h4 class="subsection">G.2.2 Architecture</h4>

 <p><a name="index-g_t_003carchitecture_003e-2543"></a>
 An &lsquo;<samp><span class="samp">&lt;architecture&gt;</span></samp>&rsquo; element has this form:

 <pre class="smallexample">       &lt;architecture&gt;<var>arch</var>&lt;/architecture&gt;
 </pre>
    <p><var>arch</var> is one of the architectures from the set accepted by
 <code>set architecture</code> (see <a href="Targets.html#Targets">Specifying a Debugging Target</a>).

 <h4 class="subsection">G.2.3 OS ABI</h4>

 <p><a name="index-g_t_0040code_007b_003cosabi_003e_007d-2544"></a>
 This optional field was introduced in <span class="sc">gdb</span> version 7.0.
 Previous versions of <span class="sc">gdb</span> ignore it.

    <p>An &lsquo;<samp><span class="samp">&lt;osabi&gt;</span></samp>&rsquo; element has this form:

 <pre class="smallexample">       &lt;osabi&gt;<var>abi-name</var>&lt;/osabi&gt;
 </pre>
    <p><var>abi-name</var> is an OS ABI name from the same selection accepted by
 <code>set&nbsp;osabi</code><!-- /@w --> (see <a href="ABI.html#ABI">Configuring the Current ABI</a>).

 <h4 class="subsection">G.2.4 Compatible Architecture</h4>

 <p><a name="index-g_t_0040code_007b_003ccompatible_003e_007d-2545"></a>
 This optional field was introduced in <span class="sc">gdb</span> version 7.0.
 Previous versions of <span class="sc">gdb</span> ignore it.

    <p>A &lsquo;<samp><span class="samp">&lt;compatible&gt;</span></samp>&rsquo; element has this form:

 <pre class="smallexample">       &lt;compatible&gt;<var>arch</var>&lt;/compatible&gt;
 </pre>
    <p><var>arch</var> is one of the architectures from the set accepted by
 <code>set architecture</code> (see <a href="Targets.html#Targets">Specifying a Debugging Target</a>).

    <p>A &lsquo;<samp><span class="samp">&lt;compatible&gt;</span></samp>&rsquo; element is used to specify that the target
 is able to run binaries in some other than the main target architecture
 given by the &lsquo;<samp><span class="samp">&lt;architecture&gt;</span></samp>&rsquo; element.  For example, on the
 Cell Broadband Engine, the main architecture is <code>powerpc:common</code>
 or <code>powerpc:common64</code>, but the system is able to run binaries
 in the <code>spu</code> architecture as well.  The way to describe this
 capability with &lsquo;<samp><span class="samp">&lt;compatible&gt;</span></samp>&rsquo; is as follows:

 <pre class="smallexample">       &lt;architecture&gt;powerpc:common&lt;/architecture&gt;
        &lt;compatible&gt;spu&lt;/compatible&gt;
 </pre>
    <h4 class="subsection">G.2.5 Features</h4>

 <p><a name="index-g_t_003cfeature_003e-2546"></a>
 Each &lsquo;<samp><span class="samp">&lt;feature&gt;</span></samp>&rsquo; describes some logical portion of the target
 system.  Features are currently used to describe available CPU
 registers and the types of their contents.  A &lsquo;<samp><span class="samp">&lt;feature&gt;</span></samp>&rsquo; element
 has this form:

 <pre class="smallexample">     &lt;feature name="<var>name</var>"&gt;
        <span class="roman">[</span><var>type</var>...<span class="roman">]</span>
        <var>reg</var>...
      &lt;/feature&gt;
 </pre>
    <p class="noindent">Each feature's name should be unique within the description.  The name
 of a feature does not matter unless <span class="sc">gdb</span> has some special
 knowledge of the contents of that feature; if it does, the feature
 should have its standard name.  See <a href="Standard-Target-Features.html#Standard-Target-Features">Standard Target Features</a>.

 <h4 class="subsection">G.2.6 Types</h4>

 <p>Any register's value is a collection of bits which <span class="sc">gdb</span> must
 interpret.  The default interpretation is a two's complement integer,
 but other types can be requested by name in the register description.
 Some predefined types are provided by <span class="sc">gdb</span> (see <a href="Predefined-Target-Types.html#Predefined-Target-Types">Predefined Target Types</a>), and the description can define additional composite types.

    <p>Each type element must have an &lsquo;<samp><span class="samp">id</span></samp>&rsquo; attribute, which gives
 a unique (within the containing &lsquo;<samp><span class="samp">&lt;feature&gt;</span></samp>&rsquo;) name to the type.
 Types must be defined before they are used.

    <p><a name="index-g_t_003cvector_003e-2547"></a>Some targets offer vector registers, which can be treated as arrays
 of scalar elements.  These types are written as &lsquo;<samp><span class="samp">&lt;vector&gt;</span></samp>&rsquo; elements,
 specifying the array element type, <var>type</var>, and the number of elements,
 <var>count</var>:

 <pre class="smallexample">     &lt;vector id="<var>id</var>" type="<var>type</var>" count="<var>count</var>"/&gt;
 </pre>
    <p><a name="index-g_t_003cunion_003e-2548"></a>If a register's value is usefully viewed in multiple ways, define it
 with a union type containing the useful representations.  The
 &lsquo;<samp><span class="samp">&lt;union&gt;</span></samp>&rsquo; element contains one or more &lsquo;<samp><span class="samp">&lt;field&gt;</span></samp>&rsquo; elements,
 each of which has a <var>name</var> and a <var>type</var>:

 <pre class="smallexample">     &lt;union id="<var>id</var>"&gt;
        &lt;field name="<var>name</var>" type="<var>type</var>"/&gt;
        ...
      &lt;/union&gt;
 </pre>
    <p><a name="index-g_t_003cstruct_003e-2549"></a>If a register's value is composed from several separate values, define
 it with a structure type.  There are two forms of the &lsquo;<samp><span class="samp">&lt;struct&gt;</span></samp>&rsquo;
 element; a &lsquo;<samp><span class="samp">&lt;struct&gt;</span></samp>&rsquo; element must either contain only bitfields
 or contain no bitfields.  If the structure contains only bitfields,
 its total size in bytes must be specified, each bitfield must have an
 explicit start and end, and bitfields are automatically assigned an
 integer type.  The field's <var>start</var> should be less than or
 equal to its <var>end</var>, and zero represents the least significant bit.

 <pre class="smallexample">     &lt;struct id="<var>id</var>" size="<var>size</var>"&gt;
        &lt;field name="<var>name</var>" start="<var>start</var>" end="<var>end</var>"/&gt;
        ...
      &lt;/struct&gt;
 </pre>
    <p>If the structure contains no bitfields, then each field has an
 explicit type, and no implicit padding is added.

 <pre class="smallexample">     &lt;struct id="<var>id</var>"&gt;
        &lt;field name="<var>name</var>" type="<var>type</var>"/&gt;
        ...
      &lt;/struct&gt;
 </pre>
    <p><a name="index-g_t_003cflags_003e-2550"></a>If a register's value is a series of single-bit flags, define it with
 a flags type.  The &lsquo;<samp><span class="samp">&lt;flags&gt;</span></samp>&rsquo; element has an explicit <var>size</var>
 and contains one or more &lsquo;<samp><span class="samp">&lt;field&gt;</span></samp>&rsquo; elements.  Each field has a
 <var>name</var>, a <var>start</var>, and an <var>end</var>.  Only single-bit flags
 are supported.

 <pre class="smallexample">     &lt;flags id="<var>id</var>" size="<var>size</var>"&gt;
        &lt;field name="<var>name</var>" start="<var>start</var>" end="<var>end</var>"/&gt;
        ...
      &lt;/flags&gt;
 </pre>
    <h4 class="subsection">G.2.7 Registers</h4>

 <p><a name="index-g_t_003creg_003e-2551"></a>
 Each register is represented as an element with this form:

 <pre class="smallexample">     &lt;reg name="<var>name</var>"
           bitsize="<var>size</var>"
           <span class="roman">[</span>regnum="<var>num</var>"<span class="roman">]</span>
           <span class="roman">[</span>save-restore="<var>save-restore</var>"<span class="roman">]</span>
           <span class="roman">[</span>type="<var>type</var>"<span class="roman">]</span>
           <span class="roman">[</span>group="<var>group</var>"<span class="roman">]</span>/&gt;
 </pre>
    <p class="noindent">The components are as follows:

      <dl>
 <dt><var>name</var><dd>The register's name; it must be unique within the target description.

      <br><dt><var>bitsize</var><dd>The register's size, in bits.

      <br><dt><var>regnum</var><dd>The register's number.  If omitted, a register's number is one greater
 than that of the previous register (either in the current feature or in
 a preceeding feature); the first register in the target description
 defaults to zero.  This register number is used to read or write
 the register; e.g. it is used in the remote <code>p</code> and <code>P</code>
 packets, and registers appear in the <code>g</code> and <code>G</code> packets
 in order of increasing register number.

      <br><dt><var>save-restore</var><dd>Whether the register should be preserved across inferior function
 calls; this must be either <code>yes</code> or <code>no</code>.  The default is
 <code>yes</code>, which is appropriate for most registers except for
 some system control registers; this is not related to the target's
 ABI.

      <br><dt><var>type</var><dd>The type of the register.  <var>type</var> may be a predefined type, a type
 defined in the current feature, or one of the special types <code>int</code>
 and <code>float</code>.  <code>int</code> is an integer type of the correct size
 for <var>bitsize</var>, and <code>float</code> is a floating point type (in the
 architecture's normal floating point format) of the correct size for
 <var>bitsize</var>.  The default is <code>int</code>.

      <br><dt><var>group</var><dd>The register group to which this register belongs.  <var>group</var> must
 be either <code>general</code>, <code>float</code>, or <code>vector</code>.  If no
 <var>group</var> is specified, <span class="sc">gdb</span> will not display the register
 in <code>info registers</code>.

    </dl>

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	Next: <a rel="next" accesskey="n" href="Predefined-Target-Types.html#Predefined-Target-Types">Predefined Target Types</a>,
	Previous: <a rel="previous" accesskey="p" href="Retrieving-Descriptions.html#Retrieving-Descriptions">Retrieving Descriptions</a>,
	Up: <a rel="up" accesskey="u" href="Target-Descriptions.html#Target-Descriptions">Target Descriptions</a>
	<hr>
	</div>

	<h3 class="section">G.2 Target Description Format</h3>

	<p><a name="index-target-descriptions_002c-XML-format-2539"></a>
	A target description annex is an <a href="http://www.w3.org/XML/">XML</a>
	document which complies with the Document Type Definition provided in
	the <span class="sc">gdb</span> sources in <samp><span class="file">gdb/features/gdb-target.dtd</span></samp>. This
	means you can use generally available tools like <samp><span class="command">xmllint</span></samp> to
	check that your feature descriptions are well-formed and valid.
	However, to help people unfamiliar with XML write descriptions for
	their targets, we also describe the grammar here.

	<p>Target descriptions can identify the architecture of the remote target
	and (for some architectures) provide information about custom register
	sets. They can also identify the OS ABI of the remote target.
	<span class="sc">gdb</span> can use this information to autoconfigure for your
	target, or to warn you if you connect to an unsupported target.

	<p>Here is a simple target description:

	<pre class="smallexample"> <target version="1.0">
	<architecture>i386:x86-64</architecture>
	</target>
	</pre>
	<p class="noindent">This minimal description only says that the target uses
	the x86-64 architecture.

	<p>A target description has the following overall form, with [ ] marking
	optional elements and <small class="dots">...</small> marking repeatable elements. The elements
	are explained further below.

	<pre class="smallexample"> <?xml version="1.0"?>
	<!DOCTYPE target SYSTEM "gdb-target.dtd">
	<target version="1.0">
	<span class="roman">[</span><var>architecture</var><span class="roman">]</span>
	<span class="roman">[</span><var>osabi</var><span class="roman">]</span>
	<span class="roman">[</span><var>compatible</var><span class="roman">]</span>
	<span class="roman">[</span><var>feature</var>...<span class="roman">]</span>
	</target>
	</pre>
	<p class="noindent">The description is generally insensitive to whitespace and line
	breaks, under the usual common-sense rules. The XML version
	declaration and document type declaration can generally be omitted
	(<span class="sc">gdb</span> does not require them), but specifying them may be
	useful for XML validation tools. The ‘<samp><span class="samp">version</span></samp>’ attribute for
	‘<samp><span class="samp"><target></span></samp>’ may also be omitted, but we recommend
	including it; if future versions of <span class="sc">gdb</span> use an incompatible
	revision of <samp><span class="file">gdb-target.dtd</span></samp>, they will detect and report
	the version mismatch.

	<h4 class="subsection">G.2.1 Inclusion</h4>

	<p><a name="index-target-descriptions_002c-inclusion-2540"></a><a name="index-XInclude-2541"></a><a name="index-g_t_003cxi_003ainclude_003e-2542"></a>
	It can sometimes be valuable to split a target description up into
	several different annexes, either for organizational purposes, or to
	share files between different possible target descriptions. You can
	divide a description into multiple files by replacing any element of
	the target description with an inclusion directive of the form:

	<pre class="smallexample"> <xi:include href="<var>document</var>"/>
	</pre>
	<p class="noindent">When <span class="sc">gdb</span> encounters an element of this form, it will retrieve
	the named XML <var>document</var>, and replace the inclusion directive with
	the contents of that document. If the current description was read
	using ‘<samp><span class="samp">qXfer</span></samp>’, then so will be the included document;
	<var>document</var> will be interpreted as the name of an annex. If the
	current description was read from a file, <span class="sc">gdb</span> will look for
	<var>document</var> as a file in the same directory where it found the
	original description.

	<h4 class="subsection">G.2.2 Architecture</h4>

	<p><a name="index-g_t_003carchitecture_003e-2543"></a>
	An ‘<samp><span class="samp"><architecture></span></samp>’ element has this form:

	<pre class="smallexample"> <architecture><var>arch</var></architecture>
	</pre>
	<p><var>arch</var> is one of the architectures from the set accepted by
	<code>set architecture</code> (see <a href="Targets.html#Targets">Specifying a Debugging Target</a>).

	<h4 class="subsection">G.2.3 OS ABI</h4>

	<p><a name="index-g_t_0040code_007b_003cosabi_003e_007d-2544"></a>
	This optional field was introduced in <span class="sc">gdb</span> version 7.0.
	Previous versions of <span class="sc">gdb</span> ignore it.

	<p>An ‘<samp><span class="samp"><osabi></span></samp>’ element has this form:

	<pre class="smallexample"> <osabi><var>abi-name</var></osabi>
	</pre>
	<p><var>abi-name</var> is an OS ABI name from the same selection accepted by
	<code>set osabi</code><!-- /@w --> (see <a href="ABI.html#ABI">Configuring the Current ABI</a>).

	<h4 class="subsection">G.2.4 Compatible Architecture</h4>

	<p><a name="index-g_t_0040code_007b_003ccompatible_003e_007d-2545"></a>
	This optional field was introduced in <span class="sc">gdb</span> version 7.0.
	Previous versions of <span class="sc">gdb</span> ignore it.

	<p>A ‘<samp><span class="samp"><compatible></span></samp>’ element has this form:

	<pre class="smallexample"> <compatible><var>arch</var></compatible>
	</pre>
	<p><var>arch</var> is one of the architectures from the set accepted by
	<code>set architecture</code> (see <a href="Targets.html#Targets">Specifying a Debugging Target</a>).

	<p>A ‘<samp><span class="samp"><compatible></span></samp>’ element is used to specify that the target
	is able to run binaries in some other than the main target architecture
	given by the ‘<samp><span class="samp"><architecture></span></samp>’ element. For example, on the
	Cell Broadband Engine, the main architecture is <code>powerpc:common</code>
	or <code>powerpc:common64</code>, but the system is able to run binaries
	in the <code>spu</code> architecture as well. The way to describe this
	capability with ‘<samp><span class="samp"><compatible></span></samp>’ is as follows:

	<pre class="smallexample"> <architecture>powerpc:common</architecture>
	<compatible>spu</compatible>
	</pre>
	<h4 class="subsection">G.2.5 Features</h4>

	<p><a name="index-g_t_003cfeature_003e-2546"></a>
	Each ‘<samp><span class="samp"><feature></span></samp>’ describes some logical portion of the target
	system. Features are currently used to describe available CPU
	registers and the types of their contents. A ‘<samp><span class="samp"><feature></span></samp>’ element
	has this form:

	<pre class="smallexample"> <feature name="<var>name</var>">
	<span class="roman">[</span><var>type</var>...<span class="roman">]</span>
	<var>reg</var>...
	</feature>
	</pre>
	<p class="noindent">Each feature's name should be unique within the description. The name
	of a feature does not matter unless <span class="sc">gdb</span> has some special
	knowledge of the contents of that feature; if it does, the feature
	should have its standard name. See <a href="Standard-Target-Features.html#Standard-Target-Features">Standard Target Features</a>.

	<h4 class="subsection">G.2.6 Types</h4>

	<p>Any register's value is a collection of bits which <span class="sc">gdb</span> must
	interpret. The default interpretation is a two's complement integer,
	but other types can be requested by name in the register description.
	Some predefined types are provided by <span class="sc">gdb</span> (see <a href="Predefined-Target-Types.html#Predefined-Target-Types">Predefined Target Types</a>), and the description can define additional composite types.

	<p>Each type element must have an ‘<samp><span class="samp">id</span></samp>’ attribute, which gives
	a unique (within the containing ‘<samp><span class="samp"><feature></span></samp>’) name to the type.
	Types must be defined before they are used.

	<p><a name="index-g_t_003cvector_003e-2547"></a>Some targets offer vector registers, which can be treated as arrays
	of scalar elements. These types are written as ‘<samp><span class="samp"><vector></span></samp>’ elements,
	specifying the array element type, <var>type</var>, and the number of elements,
	<var>count</var>:

	<pre class="smallexample"> <vector id="<var>id</var>" type="<var>type</var>" count="<var>count</var>"/>
	</pre>
	<p><a name="index-g_t_003cunion_003e-2548"></a>If a register's value is usefully viewed in multiple ways, define it
	with a union type containing the useful representations. The
	‘<samp><span class="samp"><union></span></samp>’ element contains one or more ‘<samp><span class="samp"><field></span></samp>’ elements,
	each of which has a <var>name</var> and a <var>type</var>:

	<pre class="smallexample"> <union id="<var>id</var>">
	<field name="<var>name</var>" type="<var>type</var>"/>
	...
	</union>
	</pre>
	<p><a name="index-g_t_003cstruct_003e-2549"></a>If a register's value is composed from several separate values, define
	it with a structure type. There are two forms of the ‘<samp><span class="samp"><struct></span></samp>’
	element; a ‘<samp><span class="samp"><struct></span></samp>’ element must either contain only bitfields
	or contain no bitfields. If the structure contains only bitfields,
	its total size in bytes must be specified, each bitfield must have an
	explicit start and end, and bitfields are automatically assigned an
	integer type. The field's <var>start</var> should be less than or
	equal to its <var>end</var>, and zero represents the least significant bit.

	<pre class="smallexample"> <struct id="<var>id</var>" size="<var>size</var>">
	<field name="<var>name</var>" start="<var>start</var>" end="<var>end</var>"/>
	...
	</struct>
	</pre>
	<p>If the structure contains no bitfields, then each field has an
	explicit type, and no implicit padding is added.

	<pre class="smallexample"> <struct id="<var>id</var>">
	<field name="<var>name</var>" type="<var>type</var>"/>
	...
	</struct>
	</pre>
	<p><a name="index-g_t_003cflags_003e-2550"></a>If a register's value is a series of single-bit flags, define it with
	a flags type. The ‘<samp><span class="samp"><flags></span></samp>’ element has an explicit <var>size</var>
	and contains one or more ‘<samp><span class="samp"><field></span></samp>’ elements. Each field has a
	<var>name</var>, a <var>start</var>, and an <var>end</var>. Only single-bit flags
	are supported.

	<pre class="smallexample"> <flags id="<var>id</var>" size="<var>size</var>">
	<field name="<var>name</var>" start="<var>start</var>" end="<var>end</var>"/>
	...
	</flags>
	</pre>
	<h4 class="subsection">G.2.7 Registers</h4>

	<p><a name="index-g_t_003creg_003e-2551"></a>
	Each register is represented as an element with this form:

	<pre class="smallexample"> <reg name="<var>name</var>"
	bitsize="<var>size</var>"
	<span class="roman">[</span>regnum="<var>num</var>"<span class="roman">]</span>
	<span class="roman">[</span>save-restore="<var>save-restore</var>"<span class="roman">]</span>
	<span class="roman">[</span>type="<var>type</var>"<span class="roman">]</span>
	<span class="roman">[</span>group="<var>group</var>"<span class="roman">]</span>/>
	</pre>
	<p class="noindent">The components are as follows:

	<dl>
	<dt><var>name</var><dd>The register's name; it must be unique within the target description.

	<br><dt><var>bitsize</var><dd>The register's size, in bits.

	<br><dt><var>regnum</var><dd>The register's number. If omitted, a register's number is one greater
	than that of the previous register (either in the current feature or in
	a preceeding feature); the first register in the target description
	defaults to zero. This register number is used to read or write
	the register; e.g. it is used in the remote <code>p</code> and <code>P</code>
	packets, and registers appear in the <code>g</code> and <code>G</code> packets
	in order of increasing register number.

	<br><dt><var>save-restore</var><dd>Whether the register should be preserved across inferior function
	calls; this must be either <code>yes</code> or <code>no</code>. The default is
	<code>yes</code>, which is appropriate for most registers except for
	some system control registers; this is not related to the target's
	ABI.

	<br><dt><var>type</var><dd>The type of the register. <var>type</var> may be a predefined type, a type
	defined in the current feature, or one of the special types <code>int</code>
	and <code>float</code>. <code>int</code> is an integer type of the correct size
	for <var>bitsize</var>, and <code>float</code> is a floating point type (in the
	architecture's normal floating point format) of the correct size for
	<var>bitsize</var>. The default is <code>int</code>.

	<br><dt><var>group</var><dd>The register group to which this register belongs. <var>group</var> must
	be either <code>general</code>, <code>float</code>, or <code>vector</code>. If no
	<var>group</var> is specified, <span class="sc">gdb</span> will not display the register
	in <code>info registers</code>.

	</dl>

	</body></html>