1 /* Callgraph transformations to handle inlining
2 Copyright (C) 2003, 2004, 2007, 2008, 2009, 2010, 2011
3 Free Software Foundation, Inc.
4 Contributed by Jan Hubicka
6 This file is part of GCC.
8 GCC is free software; you can redistribute it and/or modify it under
9 the terms of the GNU General Public License as published by the Free
10 Software Foundation; either version 3, or (at your option) any later
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
18 You should have received a copy of the GNU General Public License
19 along with GCC; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
22 /* The inline decisions are stored in callgraph in "inline plan" and
25 To mark given call inline, use inline_call function.
26 The function marks the edge inlinable and, if necessary, produces
27 virtual clone in the callgraph representing the new copy of callee's
30 The inline plan is applied on given function body by inline_transform. */
34 #include "coretypes.h"
37 #include "langhooks.h"
44 #include "tree-flow.h"
46 #include "ipa-inline.h"
47 #include "tree-inline.h"
48 #include "tree-pass.h"
51 int nfunctions_inlined
;
53 /* Scale frequency of NODE edges by FREQ_SCALE. */
56 update_noncloned_frequencies (struct cgraph_node
*node
,
59 struct cgraph_edge
*e
;
61 /* We do not want to ignore high loop nest after freq drops to 0. */
64 for (e
= node
->callees
; e
; e
= e
->next_callee
)
66 e
->frequency
= e
->frequency
* (gcov_type
) freq_scale
/ CGRAPH_FREQ_BASE
;
67 if (e
->frequency
> CGRAPH_FREQ_MAX
)
68 e
->frequency
= CGRAPH_FREQ_MAX
;
69 if (!e
->inline_failed
)
70 update_noncloned_frequencies (e
->callee
, freq_scale
);
72 for (e
= node
->indirect_calls
; e
; e
= e
->next_callee
)
74 e
->frequency
= e
->frequency
* (gcov_type
) freq_scale
/ CGRAPH_FREQ_BASE
;
75 if (e
->frequency
> CGRAPH_FREQ_MAX
)
76 e
->frequency
= CGRAPH_FREQ_MAX
;
80 /* We removed or are going to remove the last call to NODE.
81 Return true if we can and want proactively remove the NODE now.
82 This is important to do, since we want inliner to know when offline
83 copy of function was removed. */
86 can_remove_node_now_p_1 (struct cgraph_node
*node
)
88 /* FIXME: When address is taken of DECL_EXTERNAL function we still
89 can remove its offline copy, but we would need to keep unanalyzed node in
90 the callgraph so references can point to it. */
91 return (!node
->address_taken
92 && !ipa_ref_has_aliases_p (&node
->ref_list
)
93 && cgraph_can_remove_if_no_direct_calls_p (node
)
94 /* Inlining might enable more devirtualizing, so we want to remove
95 those only after all devirtualizable virtual calls are processed.
96 Lacking may edges in callgraph we just preserve them post
98 && (!DECL_VIRTUAL_P (node
->decl
)
99 || (!DECL_COMDAT (node
->decl
)
100 && !DECL_EXTERNAL (node
->decl
)))
101 /* During early inlining some unanalyzed cgraph nodes might be in the
102 callgraph and they might reffer the function in question. */
103 && !cgraph_new_nodes
);
106 /* We are going to eliminate last direct call to NODE (or alias of it) via edge E.
107 Verify that the NODE can be removed from unit and if it is contained in comdat
108 group that the whole comdat group is removable. */
111 can_remove_node_now_p (struct cgraph_node
*node
, struct cgraph_edge
*e
)
113 struct cgraph_node
*next
;
114 if (!can_remove_node_now_p_1 (node
))
117 /* When we see same comdat group, we need to be sure that all
118 items can be removed. */
119 if (!node
->same_comdat_group
)
121 for (next
= node
->same_comdat_group
;
122 next
!= node
; next
= next
->same_comdat_group
)
123 if ((next
->callers
&& next
->callers
!= e
)
124 || !can_remove_node_now_p_1 (next
))
130 /* E is expected to be an edge being inlined. Clone destination node of
131 the edge and redirect it to the new clone.
132 DUPLICATE is used for bookkeeping on whether we are actually creating new
133 clones or re-using node originally representing out-of-line function call.
137 clone_inlined_nodes (struct cgraph_edge
*e
, bool duplicate
,
138 bool update_original
, int *overall_size
)
142 /* We may eliminate the need for out-of-line copy to be output.
143 In that case just go ahead and re-use it. This is not just an
144 memory optimization. Making offline copy of fuction disappear
145 from the program will improve future decisions on inlining. */
146 if (!e
->callee
->callers
->next_caller
147 /* Recursive inlining never wants the master clone to
150 && can_remove_node_now_p (e
->callee
, e
))
152 /* TODO: When callee is in a comdat group, we could remove all of it,
153 including all inline clones inlined into it. That would however
154 need small function inlining to register edge removal hook to
155 maintain the priority queue.
157 For now we keep the ohter functions in the group in program until
158 cgraph_remove_unreachable_functions gets rid of them. */
159 gcc_assert (!e
->callee
->global
.inlined_to
);
160 if (e
->callee
->analyzed
&& !DECL_EXTERNAL (e
->callee
->decl
))
163 *overall_size
-= inline_summary (e
->callee
)->size
;
164 nfunctions_inlined
++;
167 e
->callee
->local
.externally_visible
= false;
168 update_noncloned_frequencies (e
->callee
, e
->frequency
);
172 struct cgraph_node
*n
;
173 n
= cgraph_clone_node (e
->callee
, e
->callee
->decl
,
174 e
->count
, e
->frequency
,
175 update_original
, NULL
, true);
176 cgraph_redirect_edge_callee (e
, n
);
180 if (e
->caller
->global
.inlined_to
)
181 e
->callee
->global
.inlined_to
= e
->caller
->global
.inlined_to
;
183 e
->callee
->global
.inlined_to
= e
->caller
;
185 /* Recursively clone all bodies. */
186 for (e
= e
->callee
->callees
; e
; e
= e
->next_callee
)
187 if (!e
->inline_failed
)
188 clone_inlined_nodes (e
, duplicate
, update_original
, overall_size
);
192 /* Mark edge E as inlined and update callgraph accordingly. UPDATE_ORIGINAL
193 specify whether profile of original function should be updated. If any new
194 indirect edges are discovered in the process, add them to NEW_EDGES, unless
195 it is NULL. Return true iff any new callgraph edges were discovered as a
196 result of inlining. */
199 inline_call (struct cgraph_edge
*e
, bool update_original
,
200 VEC (cgraph_edge_p
, heap
) **new_edges
,
203 int old_size
= 0, new_size
= 0;
204 struct cgraph_node
*to
= NULL
;
205 struct cgraph_edge
*curr
= e
;
206 struct cgraph_node
*callee
= cgraph_function_or_thunk_node (e
->callee
, NULL
);
208 /* Don't inline inlined edges. */
209 gcc_assert (e
->inline_failed
);
210 /* Don't even think of inlining inline clone. */
211 gcc_assert (!callee
->global
.inlined_to
);
213 e
->inline_failed
= CIF_OK
;
214 DECL_POSSIBLY_INLINED (callee
->decl
) = true;
217 if (to
->global
.inlined_to
)
218 to
= to
->global
.inlined_to
;
220 /* If aliases are involved, redirect edge to the actual destination and
221 possibly remove the aliases. */
222 if (e
->callee
!= callee
)
224 struct cgraph_node
*alias
= e
->callee
, *next_alias
;
225 cgraph_redirect_edge_callee (e
, callee
);
226 while (alias
&& alias
!= callee
)
229 && can_remove_node_now_p (alias
, e
))
231 next_alias
= cgraph_alias_aliased_node (alias
);
232 cgraph_remove_node (alias
);
240 clone_inlined_nodes (e
, true, update_original
, overall_size
);
242 gcc_assert (curr
->callee
->global
.inlined_to
== to
);
244 old_size
= inline_summary (to
)->size
;
245 inline_merge_summary (e
);
246 new_size
= inline_summary (to
)->size
;
248 *overall_size
+= new_size
- old_size
;
251 /* This must happen after inline_merge_summary that rely on jump
252 functions of callee to not be updated. */
254 return ipa_propagate_indirect_call_infos (curr
, new_edges
);
260 /* Copy function body of NODE and redirect all inline clones to it.
261 This is done before inline plan is applied to NODE when there are
262 still some inline clones if it.
264 This is neccesary because inline decisions are not really transitive
265 and the other inline clones may have different bodies. */
267 static struct cgraph_node
*
268 save_inline_function_body (struct cgraph_node
*node
)
270 struct cgraph_node
*first_clone
, *n
;
273 fprintf (dump_file
, "\nSaving body of %s for later reuse\n",
274 cgraph_node_name (node
));
276 gcc_assert (node
== cgraph_get_node (node
->decl
));
278 /* first_clone will be turned into real function. */
279 first_clone
= node
->clones
;
280 first_clone
->decl
= copy_node (node
->decl
);
281 cgraph_insert_node_to_hashtable (first_clone
);
282 gcc_assert (first_clone
== cgraph_get_node (first_clone
->decl
));
284 /* Now reshape the clone tree, so all other clones descends from
286 if (first_clone
->next_sibling_clone
)
288 for (n
= first_clone
->next_sibling_clone
; n
->next_sibling_clone
; n
= n
->next_sibling_clone
)
289 n
->clone_of
= first_clone
;
290 n
->clone_of
= first_clone
;
291 n
->next_sibling_clone
= first_clone
->clones
;
292 if (first_clone
->clones
)
293 first_clone
->clones
->prev_sibling_clone
= n
;
294 first_clone
->clones
= first_clone
->next_sibling_clone
;
295 first_clone
->next_sibling_clone
->prev_sibling_clone
= NULL
;
296 first_clone
->next_sibling_clone
= NULL
;
297 gcc_assert (!first_clone
->prev_sibling_clone
);
299 first_clone
->clone_of
= NULL
;
301 /* Now node in question has no clones. */
304 /* Inline clones share decl with the function they are cloned
305 from. Walk the whole clone tree and redirect them all to the
307 if (first_clone
->clones
)
308 for (n
= first_clone
->clones
; n
!= first_clone
;)
310 gcc_assert (n
->decl
== node
->decl
);
311 n
->decl
= first_clone
->decl
;
314 else if (n
->next_sibling_clone
)
315 n
= n
->next_sibling_clone
;
318 while (n
!= first_clone
&& !n
->next_sibling_clone
)
320 if (n
!= first_clone
)
321 n
= n
->next_sibling_clone
;
325 /* Copy the OLD_VERSION_NODE function tree to the new version. */
326 tree_function_versioning (node
->decl
, first_clone
->decl
, NULL
, true, NULL
,
329 /* The function will be short lived and removed after we inline all the clones,
330 but make it internal so we won't confuse ourself. */
331 DECL_EXTERNAL (first_clone
->decl
) = 0;
332 DECL_COMDAT_GROUP (first_clone
->decl
) = NULL_TREE
;
333 TREE_PUBLIC (first_clone
->decl
) = 0;
334 DECL_COMDAT (first_clone
->decl
) = 0;
335 VEC_free (ipa_opt_pass
, heap
,
336 first_clone
->ipa_transforms_to_apply
);
337 first_clone
->ipa_transforms_to_apply
= NULL
;
339 #ifdef ENABLE_CHECKING
340 verify_cgraph_node (first_clone
);
346 /* Apply inline plan to function. */
349 inline_transform (struct cgraph_node
*node
)
351 unsigned int todo
= 0;
352 struct cgraph_edge
*e
;
354 /* FIXME: Currently the pass manager is adding inline transform more than
355 once to some clones. This needs revisiting after WPA cleanups. */
356 if (cfun
->after_inlining
)
359 /* We might need the body of this function so that we can expand
360 it inline somewhere else. */
361 if (cgraph_preserve_function_body_p (node
))
362 save_inline_function_body (node
);
364 for (e
= node
->callees
; e
; e
= e
->next_callee
)
365 cgraph_redirect_edge_call_stmt_to_callee (e
);
367 timevar_push (TV_INTEGRATION
);
369 todo
= optimize_inline_calls (current_function_decl
);
370 timevar_pop (TV_INTEGRATION
);
372 if (!(todo
& TODO_update_ssa_any
))
373 /* Redirecting edges might lead to a need for vops to be recomputed. */
374 todo
|= TODO_update_ssa_only_virtuals
;
376 cfun
->always_inline_functions_inlined
= true;
377 cfun
->after_inlining
= true;
378 return todo
| execute_fixup_cfg ();