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  20. <title>GTY Options (GNU Compiler Collection (GCC) Internals)</title>
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  61. <a name="GTY-Options"></a>
  62. <div class="header">
  63. <p>
  64. Next: <a href="Inheritance-and-GTY.html#Inheritance-and-GTY" accesskey="n" rel="next">Inheritance and GTY</a>, Up: <a href="Type-Information.html#Type-Information" accesskey="u" rel="up">Type Information</a> &nbsp; [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Option-Index.html#Option-Index" title="Index" rel="index">Index</a>]</p>
  65. </div>
  66. <hr>
  67. <a name="The-Inside-of-a-GTY_0028_0028_0029_0029"></a>
  68. <h3 class="section">23.1 The Inside of a <code>GTY(())</code></h3>
  69. <p>Sometimes the C code is not enough to fully describe the type
  70. structure. Extra information can be provided with <code>GTY</code> options
  71. and additional markers. Some options take a parameter, which may be
  72. either a string or a type name, depending on the parameter. If an
  73. option takes no parameter, it is acceptable either to omit the
  74. parameter entirely, or to provide an empty string as a parameter. For
  75. example, <code>GTY&nbsp;((skip))<!-- /@w --></code> and <code>GTY&nbsp;((skip&nbsp;(&quot;&quot;)))<!-- /@w --></code> are
  76. equivalent.
  77. </p>
  78. <p>When the parameter is a string, often it is a fragment of C code. Four
  79. special escapes may be used in these strings, to refer to pieces of
  80. the data structure being marked:
  81. </p>
  82. <a name="index-_0025-in-GTY-option"></a>
  83. <dl compact="compact">
  84. <dt><code>%h</code></dt>
  85. <dd><p>The current structure.
  86. </p></dd>
  87. <dt><code>%1</code></dt>
  88. <dd><p>The structure that immediately contains the current structure.
  89. </p></dd>
  90. <dt><code>%0</code></dt>
  91. <dd><p>The outermost structure that contains the current structure.
  92. </p></dd>
  93. <dt><code>%a</code></dt>
  94. <dd><p>A partial expression of the form <code>[i1][i2]&hellip;</code> that indexes
  95. the array item currently being marked.
  96. </p></dd>
  97. </dl>
  98. <p>For instance, suppose that you have a structure of the form
  99. </p><div class="smallexample">
  100. <pre class="smallexample">struct A {
  101. &hellip;
  102. };
  103. struct B {
  104. struct A foo[12];
  105. };
  106. </pre></div>
  107. <p>and <code>b</code> is a variable of type <code>struct B</code>. When marking
  108. &lsquo;<samp>b.foo[11]</samp>&rsquo;, <code>%h</code> would expand to &lsquo;<samp>b.foo[11]</samp>&rsquo;,
  109. <code>%0</code> and <code>%1</code> would both expand to &lsquo;<samp>b</samp>&rsquo;, and <code>%a</code>
  110. would expand to &lsquo;<samp>[11]</samp>&rsquo;.
  111. </p>
  112. <p>As in ordinary C, adjacent strings will be concatenated; this is
  113. helpful when you have a complicated expression.
  114. </p><div class="smallexample">
  115. <pre class="smallexample">GTY ((chain_next (&quot;TREE_CODE (&amp;%h.generic) == INTEGER_TYPE&quot;
  116. &quot; ? TYPE_NEXT_VARIANT (&amp;%h.generic)&quot;
  117. &quot; : TREE_CHAIN (&amp;%h.generic)&quot;)))
  118. </pre></div>
  119. <p>The available options are:
  120. </p>
  121. <dl compact="compact">
  122. <dd><a name="index-length"></a>
  123. </dd>
  124. <dt><code>length (&quot;<var>expression</var>&quot;)</code></dt>
  125. <dd>
  126. <p>There are two places the type machinery will need to be explicitly told
  127. the length of an array of non-atomic objects. The first case is when a
  128. structure ends in a variable-length array, like this:
  129. </p><div class="smallexample">
  130. <pre class="smallexample">struct GTY(()) rtvec_def {
  131. int num_elem; /* <span class="roman">number of elements</span> */
  132. rtx GTY ((length (&quot;%h.num_elem&quot;))) elem[1];
  133. };
  134. </pre></div>
  135. <p>In this case, the <code>length</code> option is used to override the specified
  136. array length (which should usually be <code>1</code>). The parameter of the
  137. option is a fragment of C code that calculates the length.
  138. </p>
  139. <p>The second case is when a structure or a global variable contains a
  140. pointer to an array, like this:
  141. </p><div class="smallexample">
  142. <pre class="smallexample">struct gimple_omp_for_iter * GTY((length (&quot;%h.collapse&quot;))) iter;
  143. </pre></div>
  144. <p>In this case, <code>iter</code> has been allocated by writing something like
  145. </p><div class="smallexample">
  146. <pre class="smallexample"> x-&gt;iter = ggc_alloc_cleared_vec_gimple_omp_for_iter (collapse);
  147. </pre></div>
  148. <p>and the <code>collapse</code> provides the length of the field.
  149. </p>
  150. <p>This second use of <code>length</code> also works on global variables, like:
  151. </p><pre class="verbatim">static GTY((length(&quot;reg_known_value_size&quot;))) rtx *reg_known_value;
  152. </pre>
  153. <p>Note that the <code>length</code> option is only meant for use with arrays of
  154. non-atomic objects, that is, objects that contain pointers pointing to
  155. other GTY-managed objects. For other GC-allocated arrays and strings
  156. you should use <code>atomic</code>.
  157. </p>
  158. <a name="index-skip"></a>
  159. </dd>
  160. <dt><code>skip</code></dt>
  161. <dd>
  162. <p>If <code>skip</code> is applied to a field, the type machinery will ignore it.
  163. This is somewhat dangerous; the only safe use is in a union when one
  164. field really isn&rsquo;t ever used.
  165. </p>
  166. <a name="index-for_005fuser"></a>
  167. </dd>
  168. <dt><code>for_user</code></dt>
  169. <dd>
  170. <p>Use this to mark types that need to be marked by user gc routines, but are not
  171. refered to in a template argument. So if you have some user gc type T1 and a
  172. non user gc type T2 you can give T2 the for_user option so that the marking
  173. functions for T1 can call non mangled functions to mark T2.
  174. </p>
  175. <a name="index-desc"></a>
  176. <a name="index-tag"></a>
  177. <a name="index-default"></a>
  178. </dd>
  179. <dt><code>desc (&quot;<var>expression</var>&quot;)</code></dt>
  180. <dt><code>tag (&quot;<var>constant</var>&quot;)</code></dt>
  181. <dt><code>default</code></dt>
  182. <dd>
  183. <p>The type machinery needs to be told which field of a <code>union</code> is
  184. currently active. This is done by giving each field a constant
  185. <code>tag</code> value, and then specifying a discriminator using <code>desc</code>.
  186. The value of the expression given by <code>desc</code> is compared against
  187. each <code>tag</code> value, each of which should be different. If no
  188. <code>tag</code> is matched, the field marked with <code>default</code> is used if
  189. there is one, otherwise no field in the union will be marked.
  190. </p>
  191. <p>In the <code>desc</code> option, the &ldquo;current structure&rdquo; is the union that
  192. it discriminates. Use <code>%1</code> to mean the structure containing it.
  193. There are no escapes available to the <code>tag</code> option, since it is a
  194. constant.
  195. </p>
  196. <p>For example,
  197. </p><div class="smallexample">
  198. <pre class="smallexample">struct GTY(()) tree_binding
  199. {
  200. struct tree_common common;
  201. union tree_binding_u {
  202. tree GTY ((tag (&quot;0&quot;))) scope;
  203. struct cp_binding_level * GTY ((tag (&quot;1&quot;))) level;
  204. } GTY ((desc (&quot;BINDING_HAS_LEVEL_P ((tree)&amp;%0)&quot;))) xscope;
  205. tree value;
  206. };
  207. </pre></div>
  208. <p>In this example, the value of BINDING_HAS_LEVEL_P when applied to a
  209. <code>struct tree_binding *</code> is presumed to be 0 or 1. If 1, the type
  210. mechanism will treat the field <code>level</code> as being present and if 0,
  211. will treat the field <code>scope</code> as being present.
  212. </p>
  213. <p>The <code>desc</code> and <code>tag</code> options can also be used for inheritance
  214. to denote which subclass an instance is. See <a href="Inheritance-and-GTY.html#Inheritance-and-GTY">Inheritance and GTY</a>
  215. for more information.
  216. </p>
  217. <a name="index-cache"></a>
  218. </dd>
  219. <dt><code>cache</code></dt>
  220. <dd>
  221. <p>When the <code>cache</code> option is applied to a global variable gt_clear_cache is
  222. called on that variable between the mark and sweep phases of garbage
  223. collection. The gt_clear_cache function is free to mark blocks as used, or to
  224. clear pointers in the variable.
  225. </p>
  226. <a name="index-deletable"></a>
  227. </dd>
  228. <dt><code>deletable</code></dt>
  229. <dd>
  230. <p><code>deletable</code>, when applied to a global variable, indicates that when
  231. garbage collection runs, there&rsquo;s no need to mark anything pointed to
  232. by this variable, it can just be set to <code>NULL</code> instead. This is used
  233. to keep a list of free structures around for re-use.
  234. </p>
  235. <a name="index-maybe_005fundef"></a>
  236. </dd>
  237. <dt><code>maybe_undef</code></dt>
  238. <dd>
  239. <p>When applied to a field, <code>maybe_undef</code> indicates that it&rsquo;s OK if
  240. the structure that this fields points to is never defined, so long as
  241. this field is always <code>NULL</code>. This is used to avoid requiring
  242. backends to define certain optional structures. It doesn&rsquo;t work with
  243. language frontends.
  244. </p>
  245. <a name="index-nested_005fptr"></a>
  246. </dd>
  247. <dt><code>nested_ptr (<var>type</var>, &quot;<var>to expression</var>&quot;, &quot;<var>from expression</var>&quot;)</code></dt>
  248. <dd>
  249. <p>The type machinery expects all pointers to point to the start of an
  250. object. Sometimes for abstraction purposes it&rsquo;s convenient to have
  251. a pointer which points inside an object. So long as it&rsquo;s possible to
  252. convert the original object to and from the pointer, such pointers
  253. can still be used. <var>type</var> is the type of the original object,
  254. the <var>to expression</var> returns the pointer given the original object,
  255. and the <var>from expression</var> returns the original object given
  256. the pointer. The pointer will be available using the <code>%h</code>
  257. escape.
  258. </p>
  259. <a name="index-chain_005fnext"></a>
  260. <a name="index-chain_005fprev"></a>
  261. <a name="index-chain_005fcircular"></a>
  262. </dd>
  263. <dt><code>chain_next (&quot;<var>expression</var>&quot;)</code></dt>
  264. <dt><code>chain_prev (&quot;<var>expression</var>&quot;)</code></dt>
  265. <dt><code>chain_circular (&quot;<var>expression</var>&quot;)</code></dt>
  266. <dd>
  267. <p>It&rsquo;s helpful for the type machinery to know if objects are often
  268. chained together in long lists; this lets it generate code that uses
  269. less stack space by iterating along the list instead of recursing down
  270. it. <code>chain_next</code> is an expression for the next item in the list,
  271. <code>chain_prev</code> is an expression for the previous item. For singly
  272. linked lists, use only <code>chain_next</code>; for doubly linked lists, use
  273. both. The machinery requires that taking the next item of the
  274. previous item gives the original item. <code>chain_circular</code> is similar
  275. to <code>chain_next</code>, but can be used for circular single linked lists.
  276. </p>
  277. <a name="index-reorder"></a>
  278. </dd>
  279. <dt><code>reorder (&quot;<var>function name</var>&quot;)</code></dt>
  280. <dd>
  281. <p>Some data structures depend on the relative ordering of pointers. If
  282. the precompiled header machinery needs to change that ordering, it
  283. will call the function referenced by the <code>reorder</code> option, before
  284. changing the pointers in the object that&rsquo;s pointed to by the field the
  285. option applies to. The function must take four arguments, with the
  286. signature &lsquo;<samp>void&nbsp;*,&nbsp;void&nbsp;*,&nbsp;<span class="nolinebreak">gt_pointer_operator,</span>&nbsp;void&nbsp;*<!-- /@w --></samp>&rsquo;.
  287. The first parameter is a pointer to the structure that contains the
  288. object being updated, or the object itself if there is no containing
  289. structure. The second parameter is a cookie that should be ignored.
  290. The third parameter is a routine that, given a pointer, will update it
  291. to its correct new value. The fourth parameter is a cookie that must
  292. be passed to the second parameter.
  293. </p>
  294. <p>PCH cannot handle data structures that depend on the absolute values
  295. of pointers. <code>reorder</code> functions can be expensive. When
  296. possible, it is better to depend on properties of the data, like an ID
  297. number or the hash of a string instead.
  298. </p>
  299. <a name="index-atomic"></a>
  300. </dd>
  301. <dt><code>atomic</code></dt>
  302. <dd>
  303. <p>The <code>atomic</code> option can only be used with pointers. It informs
  304. the GC machinery that the memory that the pointer points to does not
  305. contain any pointers, and hence it should be treated by the GC and PCH
  306. machinery as an &ldquo;atomic&rdquo; block of memory that does not need to be
  307. examined when scanning memory for pointers. In particular, the
  308. machinery will not scan that memory for pointers to mark them as
  309. reachable (when marking pointers for GC) or to relocate them (when
  310. writing a PCH file).
  311. </p>
  312. <p>The <code>atomic</code> option differs from the <code>skip</code> option.
  313. <code>atomic</code> keeps the memory under Garbage Collection, but makes the
  314. GC ignore the contents of the memory. <code>skip</code> is more drastic in
  315. that it causes the pointer and the memory to be completely ignored by
  316. the Garbage Collector. So, memory marked as <code>atomic</code> is
  317. automatically freed when no longer reachable, while memory marked as
  318. <code>skip</code> is not.
  319. </p>
  320. <p>The <code>atomic</code> option must be used with great care, because all
  321. sorts of problem can occur if used incorrectly, that is, if the memory
  322. the pointer points to does actually contain a pointer.
  323. </p>
  324. <p>Here is an example of how to use it:
  325. </p><div class="smallexample">
  326. <pre class="smallexample">struct GTY(()) my_struct {
  327. int number_of_elements;
  328. unsigned int * GTY ((atomic)) elements;
  329. };
  330. </pre></div>
  331. <p>In this case, <code>elements</code> is a pointer under GC, and the memory it
  332. points to needs to be allocated using the Garbage Collector, and will
  333. be freed automatically by the Garbage Collector when it is no longer
  334. referenced. But the memory that the pointer points to is an array of
  335. <code>unsigned int</code> elements, and the GC must not try to scan it to
  336. find pointers to mark or relocate, which is why it is marked with the
  337. <code>atomic</code> option.
  338. </p>
  339. <p>Note that, currently, global variables cannot be marked with
  340. <code>atomic</code>; only fields of a struct can. This is a known
  341. limitation. It would be useful to be able to mark global pointers
  342. with <code>atomic</code> to make the PCH machinery aware of them so that
  343. they are saved and restored correctly to PCH files.
  344. </p>
  345. <a name="index-special"></a>
  346. </dd>
  347. <dt><code>special (&quot;<var>name</var>&quot;)</code></dt>
  348. <dd>
  349. <p>The <code>special</code> option is used to mark types that have to be dealt
  350. with by special case machinery. The parameter is the name of the
  351. special case. See <samp>gengtype.c</samp> for further details. Avoid
  352. adding new special cases unless there is no other alternative.
  353. </p>
  354. <a name="index-user"></a>
  355. </dd>
  356. <dt><code>user</code></dt>
  357. <dd>
  358. <p>The <code>user</code> option indicates that the code to mark structure
  359. fields is completely handled by user-provided routines. See section
  360. <a href="User-GC.html#User-GC">User GC</a> for details on what functions need to be provided.
  361. </p></dd>
  362. </dl>
  363. <hr>
  364. <div class="header">
  365. <p>
  366. Next: <a href="Inheritance-and-GTY.html#Inheritance-and-GTY" accesskey="n" rel="next">Inheritance and GTY</a>, Up: <a href="Type-Information.html#Type-Information" accesskey="u" rel="up">Type Information</a> &nbsp; [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Option-Index.html#Option-Index" title="Index" rel="index">Index</a>]</p>
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