Bug Summary

File:jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp
Warning:line 761, column 17
Called C++ object pointer is null

Annotated Source Code

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clang -cc1 -triple x86_64-pc-linux-gnu -analyze -disable-free -disable-llvm-verifier -discard-value-names -main-file-name g1BarrierSetC2.cpp -analyzer-store=region -analyzer-opt-analyze-nested-blocks -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=cplusplus -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -mthread-model posix -fno-delete-null-pointer-checks -mframe-pointer=all -relaxed-aliasing -fmath-errno -fno-rounding-math -masm-verbose -mconstructor-aliases -munwind-tables -target-cpu x86-64 -dwarf-column-info -fno-split-dwarf-inlining -debugger-tuning=gdb -resource-dir /usr/lib/llvm-10/lib/clang/10.0.0 -I /home/daniel/Projects/java/jdk/build/linux-x86_64-server-fastdebug/hotspot/variant-server/libjvm/objs/precompiled -D __STDC_FORMAT_MACROS -D __STDC_LIMIT_MACROS -D __STDC_CONSTANT_MACROS -D _GNU_SOURCE -D _REENTRANT -D LIBC=gnu -D LINUX -D VM_LITTLE_ENDIAN -D _LP64=1 -D ASSERT -D CHECK_UNHANDLED_OOPS -D TARGET_ARCH_x86 -D INCLUDE_SUFFIX_OS=_linux -D INCLUDE_SUFFIX_CPU=_x86 -D INCLUDE_SUFFIX_COMPILER=_gcc -D TARGET_COMPILER_gcc -D AMD64 -D HOTSPOT_LIB_ARCH="amd64" -D COMPILER1 -D COMPILER2 -I /home/daniel/Projects/java/jdk/build/linux-x86_64-server-fastdebug/hotspot/variant-server/gensrc/adfiles -I /home/daniel/Projects/java/jdk/src/hotspot/share -I /home/daniel/Projects/java/jdk/src/hotspot/os/linux -I /home/daniel/Projects/java/jdk/src/hotspot/os/posix -I /home/daniel/Projects/java/jdk/src/hotspot/cpu/x86 -I /home/daniel/Projects/java/jdk/src/hotspot/os_cpu/linux_x86 -I /home/daniel/Projects/java/jdk/build/linux-x86_64-server-fastdebug/hotspot/variant-server/gensrc -I /home/daniel/Projects/java/jdk/src/hotspot/share/precompiled -I /home/daniel/Projects/java/jdk/src/hotspot/share/include -I /home/daniel/Projects/java/jdk/src/hotspot/os/posix/include -I /home/daniel/Projects/java/jdk/build/linux-x86_64-server-fastdebug/support/modules_include/java.base -I /home/daniel/Projects/java/jdk/build/linux-x86_64-server-fastdebug/support/modules_include/java.base/linux -I /home/daniel/Projects/java/jdk/src/java.base/share/native/libjimage -I /home/daniel/Projects/java/jdk/build/linux-x86_64-server-fastdebug/hotspot/variant-server/gensrc/adfiles -I /home/daniel/Projects/java/jdk/src/hotspot/share -I /home/daniel/Projects/java/jdk/src/hotspot/os/linux -I /home/daniel/Projects/java/jdk/src/hotspot/os/posix -I /home/daniel/Projects/java/jdk/src/hotspot/cpu/x86 -I /home/daniel/Projects/java/jdk/src/hotspot/os_cpu/linux_x86 -I /home/daniel/Projects/java/jdk/build/linux-x86_64-server-fastdebug/hotspot/variant-server/gensrc -D _FORTIFY_SOURCE=2 -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/7.5.0/../../../../include/c++/7.5.0 -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/7.5.0/../../../../include/x86_64-linux-gnu/c++/7.5.0 -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/7.5.0/../../../../include/x86_64-linux-gnu/c++/7.5.0 -internal-isystem /usr/lib/gcc/x86_64-linux-gnu/7.5.0/../../../../include/c++/7.5.0/backward -internal-isystem /usr/local/include -internal-isystem /usr/lib/llvm-10/lib/clang/10.0.0/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -O3 -Wno-format-zero-length -Wno-unused-parameter -Wno-unused -Wno-parentheses -Wno-comment -Wno-unknown-pragmas -Wno-address -Wno-delete-non-virtual-dtor -Wno-char-subscripts -Wno-array-bounds -Wno-int-in-bool-context -Wno-ignored-qualifiers -Wno-missing-field-initializers -Wno-implicit-fallthrough -Wno-empty-body -Wno-strict-overflow -Wno-sequence-point -Wno-maybe-uninitialized -Wno-misleading-indentation -Wno-cast-function-type -Wno-shift-negative-value -std=c++14 -fdeprecated-macro -fdebug-compilation-dir /home/daniel/Projects/java/jdk/make/hotspot -ferror-limit 19 -fmessage-length 0 -fvisibility hidden -stack-protector 1 -fno-rtti -fgnuc-version=4.2.1 -fobjc-runtime=gcc -fdiagnostics-show-option -vectorize-loops -vectorize-slp -analyzer-output=html -faddrsig -o /home/daniel/Projects/java/scan/2021-12-21-193737-8510-1 -x c++ /home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp

/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp

1/*
2 * Copyright (c) 2018, 2020, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25#include "precompiled.hpp"
26#include "classfile/javaClasses.hpp"
27#include "gc/g1/c2/g1BarrierSetC2.hpp"
28#include "gc/g1/g1BarrierSet.hpp"
29#include "gc/g1/g1BarrierSetRuntime.hpp"
30#include "gc/g1/g1CardTable.hpp"
31#include "gc/g1/g1ThreadLocalData.hpp"
32#include "gc/g1/heapRegion.hpp"
33#include "opto/arraycopynode.hpp"
34#include "opto/compile.hpp"
35#include "opto/escape.hpp"
36#include "opto/graphKit.hpp"
37#include "opto/idealKit.hpp"
38#include "opto/macro.hpp"
39#include "opto/rootnode.hpp"
40#include "opto/type.hpp"
41#include "utilities/macros.hpp"
42
43const TypeFunc *G1BarrierSetC2::write_ref_field_pre_entry_Type() {
44 const Type **fields = TypeTuple::fields(2);
45 fields[TypeFunc::Parms+0] = TypeInstPtr::NOTNULL; // original field value
46 fields[TypeFunc::Parms+1] = TypeRawPtr::NOTNULL; // thread
47 const TypeTuple *domain = TypeTuple::make(TypeFunc::Parms+2, fields);
48
49 // create result type (range)
50 fields = TypeTuple::fields(0);
51 const TypeTuple *range = TypeTuple::make(TypeFunc::Parms+0, fields);
52
53 return TypeFunc::make(domain, range);
54}
55
56const TypeFunc *G1BarrierSetC2::write_ref_field_post_entry_Type() {
57 const Type **fields = TypeTuple::fields(2);
58 fields[TypeFunc::Parms+0] = TypeRawPtr::NOTNULL; // Card addr
59 fields[TypeFunc::Parms+1] = TypeRawPtr::NOTNULL; // thread
60 const TypeTuple *domain = TypeTuple::make(TypeFunc::Parms+2, fields);
61
62 // create result type (range)
63 fields = TypeTuple::fields(0);
64 const TypeTuple *range = TypeTuple::make(TypeFunc::Parms, fields);
65
66 return TypeFunc::make(domain, range);
67}
68
69#define __ ideal.
70/*
71 * Determine if the G1 pre-barrier can be removed. The pre-barrier is
72 * required by SATB to make sure all objects live at the start of the
73 * marking are kept alive, all reference updates need to any previous
74 * reference stored before writing.
75 *
76 * If the previous value is NULL there is no need to save the old value.
77 * References that are NULL are filtered during runtime by the barrier
78 * code to avoid unnecessary queuing.
79 *
80 * However in the case of newly allocated objects it might be possible to
81 * prove that the reference about to be overwritten is NULL during compile
82 * time and avoid adding the barrier code completely.
83 *
84 * The compiler needs to determine that the object in which a field is about
85 * to be written is newly allocated, and that no prior store to the same field
86 * has happened since the allocation.
87 *
88 * Returns true if the pre-barrier can be removed
89 */
90bool G1BarrierSetC2::g1_can_remove_pre_barrier(GraphKit* kit,
91 PhaseTransform* phase,
92 Node* adr,
93 BasicType bt,
94 uint adr_idx) const {
95 intptr_t offset = 0;
96 Node* base = AddPNode::Ideal_base_and_offset(adr, phase, offset);
97 AllocateNode* alloc = AllocateNode::Ideal_allocation(base, phase);
98
99 if (offset == Type::OffsetBot) {
100 return false; // cannot unalias unless there are precise offsets
101 }
102
103 if (alloc == NULL__null) {
104 return false; // No allocation found
105 }
106
107 intptr_t size_in_bytes = type2aelembytes(bt);
108
109 Node* mem = kit->memory(adr_idx); // start searching here...
110
111 for (int cnt = 0; cnt < 50; cnt++) {
112
113 if (mem->is_Store()) {
114
115 Node* st_adr = mem->in(MemNode::Address);
116 intptr_t st_offset = 0;
117 Node* st_base = AddPNode::Ideal_base_and_offset(st_adr, phase, st_offset);
118
119 if (st_base == NULL__null) {
120 break; // inscrutable pointer
121 }
122
123 // Break we have found a store with same base and offset as ours so break
124 if (st_base == base && st_offset == offset) {
125 break;
126 }
127
128 if (st_offset != offset && st_offset != Type::OffsetBot) {
129 const int MAX_STORE = BytesPerLong;
130 if (st_offset >= offset + size_in_bytes ||
131 st_offset <= offset - MAX_STORE ||
132 st_offset <= offset - mem->as_Store()->memory_size()) {
133 // Success: The offsets are provably independent.
134 // (You may ask, why not just test st_offset != offset and be done?
135 // The answer is that stores of different sizes can co-exist
136 // in the same sequence of RawMem effects. We sometimes initialize
137 // a whole 'tile' of array elements with a single jint or jlong.)
138 mem = mem->in(MemNode::Memory);
139 continue; // advance through independent store memory
140 }
141 }
142
143 if (st_base != base
144 && MemNode::detect_ptr_independence(base, alloc, st_base,
145 AllocateNode::Ideal_allocation(st_base, phase),
146 phase)) {
147 // Success: The bases are provably independent.
148 mem = mem->in(MemNode::Memory);
149 continue; // advance through independent store memory
150 }
151 } else if (mem->is_Proj() && mem->in(0)->is_Initialize()) {
152
153 InitializeNode* st_init = mem->in(0)->as_Initialize();
154 AllocateNode* st_alloc = st_init->allocation();
155
156 // Make sure that we are looking at the same allocation site.
157 // The alloc variable is guaranteed to not be null here from earlier check.
158 if (alloc == st_alloc) {
159 // Check that the initialization is storing NULL so that no previous store
160 // has been moved up and directly write a reference
161 Node* captured_store = st_init->find_captured_store(offset,
162 type2aelembytes(T_OBJECT),
163 phase);
164 if (captured_store == NULL__null || captured_store == st_init->zero_memory()) {
165 return true;
166 }
167 }
168 }
169
170 // Unless there is an explicit 'continue', we must bail out here,
171 // because 'mem' is an inscrutable memory state (e.g., a call).
172 break;
173 }
174
175 return false;
176}
177
178// G1 pre/post barriers
179void G1BarrierSetC2::pre_barrier(GraphKit* kit,
180 bool do_load,
181 Node* ctl,
182 Node* obj,
183 Node* adr,
184 uint alias_idx,
185 Node* val,
186 const TypeOopPtr* val_type,
187 Node* pre_val,
188 BasicType bt) const {
189 // Some sanity checks
190 // Note: val is unused in this routine.
191
192 if (do_load) {
193 // We need to generate the load of the previous value
194 assert(obj != NULL, "must have a base")do { if (!(obj != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 194, "assert(" "obj != __null" ") failed", "must have a base"
); ::breakpoint(); } } while (0)
;
195 assert(adr != NULL, "where are loading from?")do { if (!(adr != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 195, "assert(" "adr != __null" ") failed", "where are loading from?"
); ::breakpoint(); } } while (0)
;
196 assert(pre_val == NULL, "loaded already?")do { if (!(pre_val == __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 196, "assert(" "pre_val == __null" ") failed", "loaded already?"
); ::breakpoint(); } } while (0)
;
197 assert(val_type != NULL, "need a type")do { if (!(val_type != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 197, "assert(" "val_type != __null" ") failed", "need a type"
); ::breakpoint(); } } while (0)
;
198
199 if (use_ReduceInitialCardMarks()
200 && g1_can_remove_pre_barrier(kit, &kit->gvn(), adr, bt, alias_idx)) {
201 return;
202 }
203
204 } else {
205 // In this case both val_type and alias_idx are unused.
206 assert(pre_val != NULL, "must be loaded already")do { if (!(pre_val != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 206, "assert(" "pre_val != __null" ") failed", "must be loaded already"
); ::breakpoint(); } } while (0)
;
207 // Nothing to be done if pre_val is null.
208 if (pre_val->bottom_type() == TypePtr::NULL_PTR) return;
209 assert(pre_val->bottom_type()->basic_type() == T_OBJECT, "or we shouldn't be here")do { if (!(pre_val->bottom_type()->basic_type() == T_OBJECT
)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 209, "assert(" "pre_val->bottom_type()->basic_type() == T_OBJECT"
") failed", "or we shouldn't be here"); ::breakpoint(); } } while
(0)
;
210 }
211 assert(bt == T_OBJECT, "or we shouldn't be here")do { if (!(bt == T_OBJECT)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 211, "assert(" "bt == T_OBJECT" ") failed", "or we shouldn't be here"
); ::breakpoint(); } } while (0)
;
212
213 IdealKit ideal(kit, true);
214
215 Node* tls = __ thread(); // ThreadLocalStorage
216
217 Node* no_base = __ top();
218 Node* zero = __ ConI(0);
219 Node* zeroX = __ ConX(0);
220
221 float likely = PROB_LIKELY(0.999)((float) (0.999));
222 float unlikely = PROB_UNLIKELY(0.999)(1.0f - (float)(0.999));
223
224 BasicType active_type = in_bytes(SATBMarkQueue::byte_width_of_active()) == 4 ? T_INT : T_BYTE;
225 assert(in_bytes(SATBMarkQueue::byte_width_of_active()) == 4 || in_bytes(SATBMarkQueue::byte_width_of_active()) == 1, "flag width")do { if (!(in_bytes(SATBMarkQueue::byte_width_of_active()) ==
4 || in_bytes(SATBMarkQueue::byte_width_of_active()) == 1)) {
(*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 225, "assert(" "in_bytes(SATBMarkQueue::byte_width_of_active()) == 4 || in_bytes(SATBMarkQueue::byte_width_of_active()) == 1"
") failed", "flag width"); ::breakpoint(); } } while (0)
;
226
227 // Offsets into the thread
228 const int marking_offset = in_bytes(G1ThreadLocalData::satb_mark_queue_active_offset());
229 const int index_offset = in_bytes(G1ThreadLocalData::satb_mark_queue_index_offset());
230 const int buffer_offset = in_bytes(G1ThreadLocalData::satb_mark_queue_buffer_offset());
231
232 // Now the actual pointers into the thread
233 Node* marking_adr = __ AddP(no_base, tls, __ ConX(marking_offset));
234 Node* buffer_adr = __ AddP(no_base, tls, __ ConX(buffer_offset));
235 Node* index_adr = __ AddP(no_base, tls, __ ConX(index_offset));
236
237 // Now some of the values
238 Node* marking = __ load(__ ctrl(), marking_adr, TypeInt::INT, active_type, Compile::AliasIdxRaw);
239
240 // if (!marking)
241 __ if_then(marking, BoolTest::ne, zero, unlikely); {
242 BasicType index_bt = TypeX_XTypeLong::LONG->basic_type();
243 assert(sizeof(size_t) == type2aelembytes(index_bt), "Loading G1 SATBMarkQueue::_index with wrong size.")do { if (!(sizeof(size_t) == type2aelembytes(index_bt))) { (*
g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 243, "assert(" "sizeof(size_t) == type2aelembytes(index_bt)"
") failed", "Loading G1 SATBMarkQueue::_index with wrong size."
); ::breakpoint(); } } while (0)
;
244 Node* index = __ load(__ ctrl(), index_adr, TypeX_XTypeLong::LONG, index_bt, Compile::AliasIdxRaw);
245
246 if (do_load) {
247 // load original value
248 // alias_idx correct??
249 pre_val = __ load(__ ctrl(), adr, val_type, bt, alias_idx);
250 }
251
252 // if (pre_val != NULL)
253 __ if_then(pre_val, BoolTest::ne, kit->null()); {
254 Node* buffer = __ load(__ ctrl(), buffer_adr, TypeRawPtr::NOTNULL, T_ADDRESS, Compile::AliasIdxRaw);
255
256 // is the queue for this thread full?
257 __ if_then(index, BoolTest::ne, zeroX, likely); {
258
259 // decrement the index
260 Node* next_index = kit->gvn().transform(new SubXNodeSubLNode(index, __ ConX(sizeof(intptr_t))));
261
262 // Now get the buffer location we will log the previous value into and store it
263 Node *log_addr = __ AddP(no_base, buffer, next_index);
264 __ store(__ ctrl(), log_addr, pre_val, T_OBJECT, Compile::AliasIdxRaw, MemNode::unordered);
265 // update the index
266 __ store(__ ctrl(), index_adr, next_index, index_bt, Compile::AliasIdxRaw, MemNode::unordered);
267
268 } __ else_(); {
269
270 // logging buffer is full, call the runtime
271 const TypeFunc *tf = write_ref_field_pre_entry_Type();
272 __ make_leaf_call(tf, CAST_FROM_FN_PTR(address, G1BarrierSetRuntime::write_ref_field_pre_entry)((address)((address_word)(G1BarrierSetRuntime::write_ref_field_pre_entry
)))
, "write_ref_field_pre_entry", pre_val, tls);
273 } __ end_if(); // (!index)
274 } __ end_if(); // (pre_val != NULL)
275 } __ end_if(); // (!marking)
276
277 // Final sync IdealKit and GraphKit.
278 kit->final_sync(ideal);
279}
280
281/*
282 * G1 similar to any GC with a Young Generation requires a way to keep track of
283 * references from Old Generation to Young Generation to make sure all live
284 * objects are found. G1 also requires to keep track of object references
285 * between different regions to enable evacuation of old regions, which is done
286 * as part of mixed collections. References are tracked in remembered sets and
287 * is continuously updated as reference are written to with the help of the
288 * post-barrier.
289 *
290 * To reduce the number of updates to the remembered set the post-barrier
291 * filters updates to fields in objects located in the Young Generation,
292 * the same region as the reference, when the NULL is being written or
293 * if the card is already marked as dirty by an earlier write.
294 *
295 * Under certain circumstances it is possible to avoid generating the
296 * post-barrier completely if it is possible during compile time to prove
297 * the object is newly allocated and that no safepoint exists between the
298 * allocation and the store.
299 *
300 * In the case of slow allocation the allocation code must handle the barrier
301 * as part of the allocation in the case the allocated object is not located
302 * in the nursery; this would happen for humongous objects.
303 *
304 * Returns true if the post barrier can be removed
305 */
306bool G1BarrierSetC2::g1_can_remove_post_barrier(GraphKit* kit,
307 PhaseTransform* phase, Node* store,
308 Node* adr) const {
309 intptr_t offset = 0;
310 Node* base = AddPNode::Ideal_base_and_offset(adr, phase, offset);
311 AllocateNode* alloc = AllocateNode::Ideal_allocation(base, phase);
312
313 if (offset == Type::OffsetBot) {
314 return false; // cannot unalias unless there are precise offsets
315 }
316
317 if (alloc == NULL__null) {
318 return false; // No allocation found
319 }
320
321 // Start search from Store node
322 Node* mem = store->in(MemNode::Control);
323 if (mem->is_Proj() && mem->in(0)->is_Initialize()) {
324
325 InitializeNode* st_init = mem->in(0)->as_Initialize();
326 AllocateNode* st_alloc = st_init->allocation();
327
328 // Make sure we are looking at the same allocation
329 if (alloc == st_alloc) {
330 return true;
331 }
332 }
333
334 return false;
335}
336
337//
338// Update the card table and add card address to the queue
339//
340void G1BarrierSetC2::g1_mark_card(GraphKit* kit,
341 IdealKit& ideal,
342 Node* card_adr,
343 Node* oop_store,
344 uint oop_alias_idx,
345 Node* index,
346 Node* index_adr,
347 Node* buffer,
348 const TypeFunc* tf) const {
349 Node* zero = __ ConI(0);
350 Node* zeroX = __ ConX(0);
351 Node* no_base = __ top();
352 BasicType card_bt = T_BYTE;
353 // Smash zero into card. MUST BE ORDERED WRT TO STORE
354 __ storeCM(__ ctrl(), card_adr, zero, oop_store, oop_alias_idx, card_bt, Compile::AliasIdxRaw);
355
356 // Now do the queue work
357 __ if_then(index, BoolTest::ne, zeroX); {
358
359 Node* next_index = kit->gvn().transform(new SubXNodeSubLNode(index, __ ConX(sizeof(intptr_t))));
360 Node* log_addr = __ AddP(no_base, buffer, next_index);
361
362 // Order, see storeCM.
363 __ store(__ ctrl(), log_addr, card_adr, T_ADDRESS, Compile::AliasIdxRaw, MemNode::unordered);
364 __ store(__ ctrl(), index_adr, next_index, TypeX_XTypeLong::LONG->basic_type(), Compile::AliasIdxRaw, MemNode::unordered);
365
366 } __ else_(); {
367 __ make_leaf_call(tf, CAST_FROM_FN_PTR(address, G1BarrierSetRuntime::write_ref_field_post_entry)((address)((address_word)(G1BarrierSetRuntime::write_ref_field_post_entry
)))
, "write_ref_field_post_entry", card_adr, __ thread());
368 } __ end_if();
369
370}
371
372void G1BarrierSetC2::post_barrier(GraphKit* kit,
373 Node* ctl,
374 Node* oop_store,
375 Node* obj,
376 Node* adr,
377 uint alias_idx,
378 Node* val,
379 BasicType bt,
380 bool use_precise) const {
381 // If we are writing a NULL then we need no post barrier
382
383 if (val != NULL__null && val->is_Con() && val->bottom_type() == TypePtr::NULL_PTR) {
384 // Must be NULL
385 const Type* t = val->bottom_type();
386 assert(t == Type::TOP || t == TypePtr::NULL_PTR, "must be NULL")do { if (!(t == Type::TOP || t == TypePtr::NULL_PTR)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 386, "assert(" "t == Type::TOP || t == TypePtr::NULL_PTR" ") failed"
, "must be NULL"); ::breakpoint(); } } while (0)
;
387 // No post barrier if writing NULLx
388 return;
389 }
390
391 if (use_ReduceInitialCardMarks() && obj == kit->just_allocated_object(kit->control())) {
392 // We can skip marks on a freshly-allocated object in Eden.
393 // Keep this code in sync with new_deferred_store_barrier() in runtime.cpp.
394 // That routine informs GC to take appropriate compensating steps,
395 // upon a slow-path allocation, so as to make this card-mark
396 // elision safe.
397 return;
398 }
399
400 if (use_ReduceInitialCardMarks()
401 && g1_can_remove_post_barrier(kit, &kit->gvn(), oop_store, adr)) {
402 return;
403 }
404
405 if (!use_precise) {
406 // All card marks for a (non-array) instance are in one place:
407 adr = obj;
408 }
409 // (Else it's an array (or unknown), and we want more precise card marks.)
410 assert(adr != NULL, "")do { if (!(adr != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 410, "assert(" "adr != __null" ") failed", ""); ::breakpoint
(); } } while (0)
;
411
412 IdealKit ideal(kit, true);
413
414 Node* tls = __ thread(); // ThreadLocalStorage
415
416 Node* no_base = __ top();
417 float likely = PROB_LIKELY_MAG(3)(1.0f-(1e-3f));
418 float unlikely = PROB_UNLIKELY_MAG(3)(1e-3f);
419 Node* young_card = __ ConI((jint)G1CardTable::g1_young_card_val());
420 Node* dirty_card = __ ConI((jint)G1CardTable::dirty_card_val());
421 Node* zeroX = __ ConX(0);
422
423 const TypeFunc *tf = write_ref_field_post_entry_Type();
424
425 // Offsets into the thread
426 const int index_offset = in_bytes(G1ThreadLocalData::dirty_card_queue_index_offset());
427 const int buffer_offset = in_bytes(G1ThreadLocalData::dirty_card_queue_buffer_offset());
428
429 // Pointers into the thread
430
431 Node* buffer_adr = __ AddP(no_base, tls, __ ConX(buffer_offset));
432 Node* index_adr = __ AddP(no_base, tls, __ ConX(index_offset));
433
434 // Now some values
435 // Use ctrl to avoid hoisting these values past a safepoint, which could
436 // potentially reset these fields in the JavaThread.
437 Node* index = __ load(__ ctrl(), index_adr, TypeX_XTypeLong::LONG, TypeX_XTypeLong::LONG->basic_type(), Compile::AliasIdxRaw);
438 Node* buffer = __ load(__ ctrl(), buffer_adr, TypeRawPtr::NOTNULL, T_ADDRESS, Compile::AliasIdxRaw);
439
440 // Convert the store obj pointer to an int prior to doing math on it
441 // Must use ctrl to prevent "integerized oop" existing across safepoint
442 Node* cast = __ CastPX(__ ctrl(), adr);
443
444 // Divide pointer by card size
445 Node* card_offset = __ URShiftX( cast, __ ConI(CardTable::card_shift()) );
446
447 // Combine card table base and card offset
448 Node* card_adr = __ AddP(no_base, byte_map_base_node(kit), card_offset );
449
450 // If we know the value being stored does it cross regions?
451
452 if (val != NULL__null) {
453 // Does the store cause us to cross regions?
454
455 // Should be able to do an unsigned compare of region_size instead of
456 // and extra shift. Do we have an unsigned compare??
457 // Node* region_size = __ ConI(1 << HeapRegion::LogOfHRGrainBytes);
458 Node* xor_res = __ URShiftX ( __ XorX( cast, __ CastPX(__ ctrl(), val)), __ ConI(HeapRegion::LogOfHRGrainBytes));
459
460 // if (xor_res == 0) same region so skip
461 __ if_then(xor_res, BoolTest::ne, zeroX, likely); {
462
463 // No barrier if we are storing a NULL
464 __ if_then(val, BoolTest::ne, kit->null(), likely); {
465
466 // Ok must mark the card if not already dirty
467
468 // load the original value of the card
469 Node* card_val = __ load(__ ctrl(), card_adr, TypeInt::INT, T_BYTE, Compile::AliasIdxRaw);
470
471 __ if_then(card_val, BoolTest::ne, young_card, unlikely); {
472 kit->sync_kit(ideal);
473 kit->insert_mem_bar(Op_MemBarVolatile, oop_store);
474 __ sync_kit(kit);
475
476 Node* card_val_reload = __ load(__ ctrl(), card_adr, TypeInt::INT, T_BYTE, Compile::AliasIdxRaw);
477 __ if_then(card_val_reload, BoolTest::ne, dirty_card); {
478 g1_mark_card(kit, ideal, card_adr, oop_store, alias_idx, index, index_adr, buffer, tf);
479 } __ end_if();
480 } __ end_if();
481 } __ end_if();
482 } __ end_if();
483 } else {
484 // The Object.clone() intrinsic uses this path if !ReduceInitialCardMarks.
485 // We don't need a barrier here if the destination is a newly allocated object
486 // in Eden. Otherwise, GC verification breaks because we assume that cards in Eden
487 // are set to 'g1_young_gen' (see G1CardTable::verify_g1_young_region()).
488 assert(!use_ReduceInitialCardMarks(), "can only happen with card marking")do { if (!(!use_ReduceInitialCardMarks())) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 488, "assert(" "!use_ReduceInitialCardMarks()" ") failed", "can only happen with card marking"
); ::breakpoint(); } } while (0)
;
489 Node* card_val = __ load(__ ctrl(), card_adr, TypeInt::INT, T_BYTE, Compile::AliasIdxRaw);
490 __ if_then(card_val, BoolTest::ne, young_card); {
491 g1_mark_card(kit, ideal, card_adr, oop_store, alias_idx, index, index_adr, buffer, tf);
492 } __ end_if();
493 }
494
495 // Final sync IdealKit and GraphKit.
496 kit->final_sync(ideal);
497}
498
499// Helper that guards and inserts a pre-barrier.
500void G1BarrierSetC2::insert_pre_barrier(GraphKit* kit, Node* base_oop, Node* offset,
501 Node* pre_val, bool need_mem_bar) const {
502 // We could be accessing the referent field of a reference object. If so, when G1
503 // is enabled, we need to log the value in the referent field in an SATB buffer.
504 // This routine performs some compile time filters and generates suitable
505 // runtime filters that guard the pre-barrier code.
506 // Also add memory barrier for non volatile load from the referent field
507 // to prevent commoning of loads across safepoint.
508
509 // Some compile time checks.
510
511 // If offset is a constant, is it java_lang_ref_Reference::_reference_offset?
512 const TypeXTypeLong* otype = offset->find_intptr_t_typefind_long_type();
513 if (otype != NULL__null && otype->is_con() &&
514 otype->get_con() != java_lang_ref_Reference::referent_offset()) {
515 // Constant offset but not the reference_offset so just return
516 return;
517 }
518
519 // We only need to generate the runtime guards for instances.
520 const TypeOopPtr* btype = base_oop->bottom_type()->isa_oopptr();
521 if (btype != NULL__null) {
522 if (btype->isa_aryptr()) {
523 // Array type so nothing to do
524 return;
525 }
526
527 const TypeInstPtr* itype = btype->isa_instptr();
528 if (itype != NULL__null) {
529 // Can the klass of base_oop be statically determined to be
530 // _not_ a sub-class of Reference and _not_ Object?
531 ciKlass* klass = itype->klass();
532 if ( klass->is_loaded() &&
533 !klass->is_subtype_of(kit->env()->Reference_klass()) &&
534 !kit->env()->Object_klass()->is_subtype_of(klass)) {
535 return;
536 }
537 }
538 }
539
540 // The compile time filters did not reject base_oop/offset so
541 // we need to generate the following runtime filters
542 //
543 // if (offset == java_lang_ref_Reference::_reference_offset) {
544 // if (instance_of(base, java.lang.ref.Reference)) {
545 // pre_barrier(_, pre_val, ...);
546 // }
547 // }
548
549 float likely = PROB_LIKELY( 0.999)((float) (0.999));
550 float unlikely = PROB_UNLIKELY(0.999)(1.0f - (float)(0.999));
551
552 IdealKit ideal(kit);
553
554 Node* referent_off = __ ConX(java_lang_ref_Reference::referent_offset());
555
556 __ if_then(offset, BoolTest::eq, referent_off, unlikely); {
557 // Update graphKit memory and control from IdealKit.
558 kit->sync_kit(ideal);
559
560 Node* ref_klass_con = kit->makecon(TypeKlassPtr::make(kit->env()->Reference_klass()));
561 Node* is_instof = kit->gen_instanceof(base_oop, ref_klass_con);
562
563 // Update IdealKit memory and control from graphKit.
564 __ sync_kit(kit);
565
566 Node* one = __ ConI(1);
567 // is_instof == 0 if base_oop == NULL
568 __ if_then(is_instof, BoolTest::eq, one, unlikely); {
569
570 // Update graphKit from IdeakKit.
571 kit->sync_kit(ideal);
572
573 // Use the pre-barrier to record the value in the referent field
574 pre_barrier(kit, false /* do_load */,
575 __ ctrl(),
576 NULL__null /* obj */, NULL__null /* adr */, max_juint /* alias_idx */, NULL__null /* val */, NULL__null /* val_type */,
577 pre_val /* pre_val */,
578 T_OBJECT);
579 if (need_mem_bar) {
580 // Add memory barrier to prevent commoning reads from this field
581 // across safepoint since GC can change its value.
582 kit->insert_mem_bar(Op_MemBarCPUOrder);
583 }
584 // Update IdealKit from graphKit.
585 __ sync_kit(kit);
586
587 } __ end_if(); // _ref_type != ref_none
588 } __ end_if(); // offset == referent_offset
589
590 // Final sync IdealKit and GraphKit.
591 kit->final_sync(ideal);
592}
593
594#undef __
595
596Node* G1BarrierSetC2::load_at_resolved(C2Access& access, const Type* val_type) const {
597 DecoratorSet decorators = access.decorators();
598 Node* adr = access.addr().node();
599 Node* obj = access.base();
600
601 bool anonymous = (decorators & C2_UNSAFE_ACCESS) != 0;
602 bool mismatched = (decorators & C2_MISMATCHED) != 0;
603 bool unknown = (decorators & ON_UNKNOWN_OOP_REF) != 0;
604 bool in_heap = (decorators & IN_HEAP) != 0;
605 bool in_native = (decorators & IN_NATIVE) != 0;
606 bool on_weak = (decorators & ON_WEAK_OOP_REF) != 0;
607 bool on_phantom = (decorators & ON_PHANTOM_OOP_REF) != 0;
608 bool is_unordered = (decorators & MO_UNORDERED) != 0;
609 bool no_keepalive = (decorators & AS_NO_KEEPALIVE) != 0;
610 bool is_mixed = !in_heap && !in_native;
611 bool need_cpu_mem_bar = !is_unordered || mismatched || is_mixed;
612
613 Node* top = Compile::current()->top();
614 Node* offset = adr->is_AddP() ? adr->in(AddPNode::Offset) : top;
615 Node* load = CardTableBarrierSetC2::load_at_resolved(access, val_type);
616
617 // If we are reading the value of the referent field of a Reference
618 // object (either by using Unsafe directly or through reflection)
619 // then, if G1 is enabled, we need to record the referent in an
620 // SATB log buffer using the pre-barrier mechanism.
621 // Also we need to add memory barrier to prevent commoning reads
622 // from this field across safepoint since GC can change its value.
623 bool need_read_barrier = (((on_weak || on_phantom) && !no_keepalive) ||
624 (in_heap && unknown && offset != top && obj != top));
625
626 if (!access.is_oop() || !need_read_barrier) {
627 return load;
628 }
629
630 assert(access.is_parse_access(), "entry not supported at optimization time")do { if (!(access.is_parse_access())) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 630, "assert(" "access.is_parse_access()" ") failed", "entry not supported at optimization time"
); ::breakpoint(); } } while (0)
;
631 C2ParseAccess& parse_access = static_cast<C2ParseAccess&>(access);
632 GraphKit* kit = parse_access.kit();
633
634 if (on_weak || on_phantom) {
635 // Use the pre-barrier to record the value in the referent field
636 pre_barrier(kit, false /* do_load */,
637 kit->control(),
638 NULL__null /* obj */, NULL__null /* adr */, max_juint /* alias_idx */, NULL__null /* val */, NULL__null /* val_type */,
639 load /* pre_val */, T_OBJECT);
640 // Add memory barrier to prevent commoning reads from this field
641 // across safepoint since GC can change its value.
642 kit->insert_mem_bar(Op_MemBarCPUOrder);
643 } else if (unknown) {
644 // We do not require a mem bar inside pre_barrier if need_mem_bar
645 // is set: the barriers would be emitted by us.
646 insert_pre_barrier(kit, obj, offset, load, !need_cpu_mem_bar);
647 }
648
649 return load;
650}
651
652bool G1BarrierSetC2::is_gc_barrier_node(Node* node) const {
653 if (CardTableBarrierSetC2::is_gc_barrier_node(node)) {
654 return true;
655 }
656 if (node->Opcode() != Op_CallLeaf) {
657 return false;
658 }
659 CallLeafNode *call = node->as_CallLeaf();
660 if (call->_name == NULL__null) {
661 return false;
662 }
663
664 return strcmp(call->_name, "write_ref_field_pre_entry") == 0 || strcmp(call->_name, "write_ref_field_post_entry") == 0;
665}
666
667void G1BarrierSetC2::eliminate_gc_barrier(PhaseMacroExpand* macro, Node* node) const {
668 assert(node->Opcode() == Op_CastP2X, "ConvP2XNode required")do { if (!(node->Opcode() == Op_CastP2X)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 668, "assert(" "node->Opcode() == Op_CastP2X" ") failed"
, "ConvP2XNode required"); ::breakpoint(); } } while (0)
;
669 assert(node->outcnt() <= 2, "expects 1 or 2 users: Xor and URShift nodes")do { if (!(node->outcnt() <= 2)) { (*g_assert_poison) =
'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 669, "assert(" "node->outcnt() <= 2" ") failed", "expects 1 or 2 users: Xor and URShift nodes"
); ::breakpoint(); } } while (0)
;
670 // It could be only one user, URShift node, in Object.clone() intrinsic
671 // but the new allocation is passed to arraycopy stub and it could not
672 // be scalar replaced. So we don't check the case.
673
674 // An other case of only one user (Xor) is when the value check for NULL
675 // in G1 post barrier is folded after CCP so the code which used URShift
676 // is removed.
677
678 // Take Region node before eliminating post barrier since it also
679 // eliminates CastP2X node when it has only one user.
680 Node* this_region = node->in(0);
681 assert(this_region != NULL, "")do { if (!(this_region != __null)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 681, "assert(" "this_region != __null" ") failed", ""); ::breakpoint
(); } } while (0)
;
682
683 // Remove G1 post barrier.
684
685 // Search for CastP2X->Xor->URShift->Cmp path which
686 // checks if the store done to a different from the value's region.
687 // And replace Cmp with #0 (false) to collapse G1 post barrier.
688 Node* xorx = node->find_out_with(Op_XorXOp_XorL);
689 if (xorx != NULL__null) {
690 Node* shift = xorx->unique_out();
691 Node* cmpx = shift->unique_out();
692 assert(cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() &&do { if (!(cmpx->is_Cmp() && cmpx->unique_out()
->is_Bool() && cmpx->unique_out()->as_Bool()
->_test._test == BoolTest::ne)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 694, "assert(" "cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() && cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne"
") failed", "missing region check in G1 post barrier"); ::breakpoint
(); } } while (0)
693 cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne,do { if (!(cmpx->is_Cmp() && cmpx->unique_out()
->is_Bool() && cmpx->unique_out()->as_Bool()
->_test._test == BoolTest::ne)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 694, "assert(" "cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() && cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne"
") failed", "missing region check in G1 post barrier"); ::breakpoint
(); } } while (0)
694 "missing region check in G1 post barrier")do { if (!(cmpx->is_Cmp() && cmpx->unique_out()
->is_Bool() && cmpx->unique_out()->as_Bool()
->_test._test == BoolTest::ne)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 694, "assert(" "cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() && cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne"
") failed", "missing region check in G1 post barrier"); ::breakpoint
(); } } while (0)
;
695 macro->replace_node(cmpx, macro->makecon(TypeInt::CC_EQ));
696
697 // Remove G1 pre barrier.
698
699 // Search "if (marking != 0)" check and set it to "false".
700 // There is no G1 pre barrier if previous stored value is NULL
701 // (for example, after initialization).
702 if (this_region->is_Region() && this_region->req() == 3) {
703 int ind = 1;
704 if (!this_region->in(ind)->is_IfFalse()) {
705 ind = 2;
706 }
707 if (this_region->in(ind)->is_IfFalse() &&
708 this_region->in(ind)->in(0)->Opcode() == Op_If) {
709 Node* bol = this_region->in(ind)->in(0)->in(1);
710 assert(bol->is_Bool(), "")do { if (!(bol->is_Bool())) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 710, "assert(" "bol->is_Bool()" ") failed", ""); ::breakpoint
(); } } while (0)
;
711 cmpx = bol->in(1);
712 if (bol->as_Bool()->_test._test == BoolTest::ne &&
713 cmpx->is_Cmp() && cmpx->in(2) == macro->intcon(0) &&
714 cmpx->in(1)->is_Load()) {
715 Node* adr = cmpx->in(1)->as_Load()->in(MemNode::Address);
716 const int marking_offset = in_bytes(G1ThreadLocalData::satb_mark_queue_active_offset());
717 if (adr->is_AddP() && adr->in(AddPNode::Base) == macro->top() &&
718 adr->in(AddPNode::Address)->Opcode() == Op_ThreadLocal &&
719 adr->in(AddPNode::Offset) == macro->MakeConXlongcon(marking_offset)) {
720 macro->replace_node(cmpx, macro->makecon(TypeInt::CC_EQ));
721 }
722 }
723 }
724 }
725 } else {
726 assert(!use_ReduceInitialCardMarks(), "can only happen with card marking")do { if (!(!use_ReduceInitialCardMarks())) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 726, "assert(" "!use_ReduceInitialCardMarks()" ") failed", "can only happen with card marking"
); ::breakpoint(); } } while (0)
;
727 // This is a G1 post barrier emitted by the Object.clone() intrinsic.
728 // Search for the CastP2X->URShiftX->AddP->LoadB->Cmp path which checks if the card
729 // is marked as young_gen and replace the Cmp with 0 (false) to collapse the barrier.
730 Node* shift = node->find_out_with(Op_URShiftXOp_URShiftL);
731 assert(shift != NULL, "missing G1 post barrier")do { if (!(shift != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 731, "assert(" "shift != __null" ") failed", "missing G1 post barrier"
); ::breakpoint(); } } while (0)
;
732 Node* addp = shift->unique_out();
733 Node* load = addp->find_out_with(Op_LoadB);
734 assert(load != NULL, "missing G1 post barrier")do { if (!(load != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 734, "assert(" "load != __null" ") failed", "missing G1 post barrier"
); ::breakpoint(); } } while (0)
;
735 Node* cmpx = load->unique_out();
736 assert(cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() &&do { if (!(cmpx->is_Cmp() && cmpx->unique_out()
->is_Bool() && cmpx->unique_out()->as_Bool()
->_test._test == BoolTest::ne)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 738, "assert(" "cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() && cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne"
") failed", "missing card value check in G1 post barrier"); ::
breakpoint(); } } while (0)
737 cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne,do { if (!(cmpx->is_Cmp() && cmpx->unique_out()
->is_Bool() && cmpx->unique_out()->as_Bool()
->_test._test == BoolTest::ne)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 738, "assert(" "cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() && cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne"
") failed", "missing card value check in G1 post barrier"); ::
breakpoint(); } } while (0)
738 "missing card value check in G1 post barrier")do { if (!(cmpx->is_Cmp() && cmpx->unique_out()
->is_Bool() && cmpx->unique_out()->as_Bool()
->_test._test == BoolTest::ne)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 738, "assert(" "cmpx->is_Cmp() && cmpx->unique_out()->is_Bool() && cmpx->unique_out()->as_Bool()->_test._test == BoolTest::ne"
") failed", "missing card value check in G1 post barrier"); ::
breakpoint(); } } while (0)
;
739 macro->replace_node(cmpx, macro->makecon(TypeInt::CC_EQ));
740 // There is no G1 pre barrier in this case
741 }
742 // Now CastP2X can be removed since it is used only on dead path
743 // which currently still alive until igvn optimize it.
744 assert(node->outcnt() == 0 || node->unique_out()->Opcode() == Op_URShiftX, "")do { if (!(node->outcnt() == 0 || node->unique_out()->
Opcode() == Op_URShiftL)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 744, "assert(" "node->outcnt() == 0 || node->unique_out()->Opcode() == Op_URShiftL"
") failed", ""); ::breakpoint(); } } while (0)
;
745 macro->replace_node(node, macro->top());
746}
747
748Node* G1BarrierSetC2::step_over_gc_barrier(Node* c) const {
749 if (!use_ReduceInitialCardMarks() &&
1
Assuming the condition is true
8
Taking true branch
750 c != NULL__null && c->is_Region() && c->req() == 3) {
2
Assuming 'c' is not equal to NULL
3
Calling 'Node::is_Region'
6
Returning from 'Node::is_Region'
7
Assuming the condition is true
751 for (uint i = 1; i < c->req(); i++) {
9
Loop condition is true. Entering loop body
752 if (c->in(i) != NULL__null && c->in(i)->is_Region() &&
10
Assuming the condition is true
11
Calling 'Node::is_Region'
14
Returning from 'Node::is_Region'
16
Taking true branch
753 c->in(i)->req() == 3) {
15
Assuming the condition is true
754 Node* r = c->in(i);
755 for (uint j = 1; j < r->req(); j++) {
17
Loop condition is true. Entering loop body
37
Loop condition is true. Entering loop body
756 if (r->in(j) != NULL__null && r->in(j)->is_Proj() &&
18
Assuming the condition is true
19
Calling 'Node::is_Proj'
22
Returning from 'Node::is_Proj'
27
Taking true branch
38
Assuming the condition is true
39
Calling 'Node::is_Proj'
42
Returning from 'Node::is_Proj'
46
Taking true branch
757 r->in(j)->in(0) != NULL__null &&
23
Passing the value 0 via 1st parameter 'i'
24
Assuming pointer value is null
43
Assuming the condition is true
758 r->in(j)->in(0)->Opcode() == Op_CallLeaf &&
25
Assuming the condition is true
44
Assuming the condition is true
759 r->in(j)->in(0)->as_Call()->entry_point() == CAST_FROM_FN_PTR(address, G1BarrierSetRuntime::write_ref_field_post_entry)((address)((address_word)(G1BarrierSetRuntime::write_ref_field_post_entry
)))
) {
26
Assuming the condition is true
45
Assuming the condition is true
760 Node* call = r->in(j)->in(0);
761 c = c->in(i
27.1
'i' is equal to 1
46.1
'i' is equal to 1
27.1
'i' is equal to 1
46.1
'i' is equal to 1
== 1 ? 2 : 1)
;
28
'?' condition is true
29
Calling 'Node::in'
34
Returning from 'Node::in'
35
Value assigned to 'c'
47
'?' condition is true
48
Called C++ object pointer is null
762 if (c != NULL__null && c->Opcode() != Op_Parm) {
36
Assuming 'c' is equal to NULL
763 c = c->in(0);
764 if (c != NULL__null) {
765 c = c->in(0);
766 assert(call->in(0) == NULL ||do { if (!(call->in(0) == __null || call->in(0)->in(
0) == __null || call->in(0)->in(0)->in(0) == __null ||
call->in(0)->in(0)->in(0)->in(0) == __null || call
->in(0)->in(0)->in(0)->in(0)->in(0) == __null ||
c == call->in(0)->in(0)->in(0)->in(0)->in(0))
) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 771, "assert(" "call->in(0) == __null || call->in(0)->in(0) == __null || call->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0)->in(0) == __null || c == call->in(0)->in(0)->in(0)->in(0)->in(0)"
") failed", "bad barrier shape"); ::breakpoint(); } } while (
0)
767 call->in(0)->in(0) == NULL ||do { if (!(call->in(0) == __null || call->in(0)->in(
0) == __null || call->in(0)->in(0)->in(0) == __null ||
call->in(0)->in(0)->in(0)->in(0) == __null || call
->in(0)->in(0)->in(0)->in(0)->in(0) == __null ||
c == call->in(0)->in(0)->in(0)->in(0)->in(0))
) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 771, "assert(" "call->in(0) == __null || call->in(0)->in(0) == __null || call->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0)->in(0) == __null || c == call->in(0)->in(0)->in(0)->in(0)->in(0)"
") failed", "bad barrier shape"); ::breakpoint(); } } while (
0)
768 call->in(0)->in(0)->in(0) == NULL ||do { if (!(call->in(0) == __null || call->in(0)->in(
0) == __null || call->in(0)->in(0)->in(0) == __null ||
call->in(0)->in(0)->in(0)->in(0) == __null || call
->in(0)->in(0)->in(0)->in(0)->in(0) == __null ||
c == call->in(0)->in(0)->in(0)->in(0)->in(0))
) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 771, "assert(" "call->in(0) == __null || call->in(0)->in(0) == __null || call->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0)->in(0) == __null || c == call->in(0)->in(0)->in(0)->in(0)->in(0)"
") failed", "bad barrier shape"); ::breakpoint(); } } while (
0)
769 call->in(0)->in(0)->in(0)->in(0) == NULL ||do { if (!(call->in(0) == __null || call->in(0)->in(
0) == __null || call->in(0)->in(0)->in(0) == __null ||
call->in(0)->in(0)->in(0)->in(0) == __null || call
->in(0)->in(0)->in(0)->in(0)->in(0) == __null ||
c == call->in(0)->in(0)->in(0)->in(0)->in(0))
) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 771, "assert(" "call->in(0) == __null || call->in(0)->in(0) == __null || call->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0)->in(0) == __null || c == call->in(0)->in(0)->in(0)->in(0)->in(0)"
") failed", "bad barrier shape"); ::breakpoint(); } } while (
0)
770 call->in(0)->in(0)->in(0)->in(0)->in(0) == NULL ||do { if (!(call->in(0) == __null || call->in(0)->in(
0) == __null || call->in(0)->in(0)->in(0) == __null ||
call->in(0)->in(0)->in(0)->in(0) == __null || call
->in(0)->in(0)->in(0)->in(0)->in(0) == __null ||
c == call->in(0)->in(0)->in(0)->in(0)->in(0))
) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 771, "assert(" "call->in(0) == __null || call->in(0)->in(0) == __null || call->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0)->in(0) == __null || c == call->in(0)->in(0)->in(0)->in(0)->in(0)"
") failed", "bad barrier shape"); ::breakpoint(); } } while (
0)
771 c == call->in(0)->in(0)->in(0)->in(0)->in(0), "bad barrier shape")do { if (!(call->in(0) == __null || call->in(0)->in(
0) == __null || call->in(0)->in(0)->in(0) == __null ||
call->in(0)->in(0)->in(0)->in(0) == __null || call
->in(0)->in(0)->in(0)->in(0)->in(0) == __null ||
c == call->in(0)->in(0)->in(0)->in(0)->in(0))
) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 771, "assert(" "call->in(0) == __null || call->in(0)->in(0) == __null || call->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0) == __null || call->in(0)->in(0)->in(0)->in(0)->in(0) == __null || c == call->in(0)->in(0)->in(0)->in(0)->in(0)"
") failed", "bad barrier shape"); ::breakpoint(); } } while (
0)
;
772 return c;
773 }
774 }
775 }
776 }
777 }
778 }
779 }
780 return c;
781}
782
783#ifdef ASSERT1
784void G1BarrierSetC2::verify_gc_barriers(Compile* compile, CompilePhase phase) const {
785 if (phase != BarrierSetC2::BeforeCodeGen) {
786 return;
787 }
788 // Verify G1 pre-barriers
789 const int marking_offset = in_bytes(G1ThreadLocalData::satb_mark_queue_active_offset());
790
791 Unique_Node_List visited;
792 Node_List worklist;
793 // We're going to walk control flow backwards starting from the Root
794 worklist.push(compile->root());
795 while (worklist.size() > 0) {
796 Node* x = worklist.pop();
797 if (x == NULL__null || x == compile->top()) continue;
798 if (visited.member(x)) {
799 continue;
800 } else {
801 visited.push(x);
802 }
803
804 if (x->is_Region()) {
805 for (uint i = 1; i < x->req(); i++) {
806 worklist.push(x->in(i));
807 }
808 } else {
809 worklist.push(x->in(0));
810 // We are looking for the pattern:
811 // /->ThreadLocal
812 // If->Bool->CmpI->LoadB->AddP->ConL(marking_offset)
813 // \->ConI(0)
814 // We want to verify that the If and the LoadB have the same control
815 // See GraphKit::g1_write_barrier_pre()
816 if (x->is_If()) {
817 IfNode *iff = x->as_If();
818 if (iff->in(1)->is_Bool() && iff->in(1)->in(1)->is_Cmp()) {
819 CmpNode *cmp = iff->in(1)->in(1)->as_Cmp();
820 if (cmp->Opcode() == Op_CmpI && cmp->in(2)->is_Con() && cmp->in(2)->bottom_type()->is_int()->get_con() == 0
821 && cmp->in(1)->is_Load()) {
822 LoadNode* load = cmp->in(1)->as_Load();
823 if (load->Opcode() == Op_LoadB && load->in(2)->is_AddP() && load->in(2)->in(2)->Opcode() == Op_ThreadLocal
824 && load->in(2)->in(3)->is_Con()
825 && load->in(2)->in(3)->bottom_type()->is_intptr_tis_long()->get_con() == marking_offset) {
826
827 Node* if_ctrl = iff->in(0);
828 Node* load_ctrl = load->in(0);
829
830 if (if_ctrl != load_ctrl) {
831 // Skip possible CProj->NeverBranch in infinite loops
832 if ((if_ctrl->is_Proj() && if_ctrl->Opcode() == Op_CProj)
833 && (if_ctrl->in(0)->is_MultiBranch() && if_ctrl->in(0)->Opcode() == Op_NeverBranch)) {
834 if_ctrl = if_ctrl->in(0)->in(0);
835 }
836 }
837 assert(load_ctrl != NULL && if_ctrl == load_ctrl, "controls must match")do { if (!(load_ctrl != __null && if_ctrl == load_ctrl
)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/gc/g1/c2/g1BarrierSetC2.cpp"
, 837, "assert(" "load_ctrl != __null && if_ctrl == load_ctrl"
") failed", "controls must match"); ::breakpoint(); } } while
(0)
;
838 }
839 }
840 }
841 }
842 }
843 }
844}
845#endif
846
847bool G1BarrierSetC2::escape_add_to_con_graph(ConnectionGraph* conn_graph, PhaseGVN* gvn, Unique_Node_List* delayed_worklist, Node* n, uint opcode) const {
848 if (opcode == Op_StoreP) {
849 Node* adr = n->in(MemNode::Address);
850 const Type* adr_type = gvn->type(adr);
851 // Pointer stores in G1 barriers looks like unsafe access.
852 // Ignore such stores to be able scalar replace non-escaping
853 // allocations.
854 if (adr_type->isa_rawptr() && adr->is_AddP()) {
855 Node* base = conn_graph->get_addp_base(adr);
856 if (base->Opcode() == Op_LoadP &&
857 base->in(MemNode::Address)->is_AddP()) {
858 adr = base->in(MemNode::Address);
859 Node* tls = conn_graph->get_addp_base(adr);
860 if (tls->Opcode() == Op_ThreadLocal) {
861 int offs = (int) gvn->find_intptr_t_confind_long_con(adr->in(AddPNode::Offset), Type::OffsetBot);
862 const int buf_offset = in_bytes(G1ThreadLocalData::satb_mark_queue_buffer_offset());
863 if (offs == buf_offset) {
864 return true; // G1 pre barrier previous oop value store.
865 }
866 if (offs == in_bytes(G1ThreadLocalData::dirty_card_queue_buffer_offset())) {
867 return true; // G1 post barrier card address store.
868 }
869 }
870 }
871 }
872 }
873 return false;
874}

/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp

1/*
2 * Copyright (c) 1997, 2021, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
24
25#ifndef SHARE_OPTO_NODE_HPP
26#define SHARE_OPTO_NODE_HPP
27
28#include "libadt/vectset.hpp"
29#include "opto/compile.hpp"
30#include "opto/type.hpp"
31#include "utilities/copy.hpp"
32
33// Portions of code courtesy of Clifford Click
34
35// Optimization - Graph Style
36
37
38class AbstractLockNode;
39class AddNode;
40class AddPNode;
41class AliasInfo;
42class AllocateArrayNode;
43class AllocateNode;
44class ArrayCopyNode;
45class BaseCountedLoopNode;
46class BaseCountedLoopEndNode;
47class BlackholeNode;
48class Block;
49class BoolNode;
50class BoxLockNode;
51class CMoveNode;
52class CallDynamicJavaNode;
53class CallJavaNode;
54class CallLeafNode;
55class CallLeafNoFPNode;
56class CallNode;
57class CallRuntimeNode;
58class CallNativeNode;
59class CallStaticJavaNode;
60class CastFFNode;
61class CastDDNode;
62class CastVVNode;
63class CastIINode;
64class CastLLNode;
65class CatchNode;
66class CatchProjNode;
67class CheckCastPPNode;
68class ClearArrayNode;
69class CmpNode;
70class CodeBuffer;
71class ConstraintCastNode;
72class ConNode;
73class CompareAndSwapNode;
74class CompareAndExchangeNode;
75class CountedLoopNode;
76class CountedLoopEndNode;
77class DecodeNarrowPtrNode;
78class DecodeNNode;
79class DecodeNKlassNode;
80class EncodeNarrowPtrNode;
81class EncodePNode;
82class EncodePKlassNode;
83class FastLockNode;
84class FastUnlockNode;
85class HaltNode;
86class IfNode;
87class IfProjNode;
88class IfFalseNode;
89class IfTrueNode;
90class InitializeNode;
91class JVMState;
92class JumpNode;
93class JumpProjNode;
94class LoadNode;
95class LoadStoreNode;
96class LoadStoreConditionalNode;
97class LockNode;
98class LongCountedLoopNode;
99class LongCountedLoopEndNode;
100class LoopNode;
101class LShiftNode;
102class MachBranchNode;
103class MachCallDynamicJavaNode;
104class MachCallJavaNode;
105class MachCallLeafNode;
106class MachCallNode;
107class MachCallNativeNode;
108class MachCallRuntimeNode;
109class MachCallStaticJavaNode;
110class MachConstantBaseNode;
111class MachConstantNode;
112class MachGotoNode;
113class MachIfNode;
114class MachJumpNode;
115class MachNode;
116class MachNullCheckNode;
117class MachProjNode;
118class MachReturnNode;
119class MachSafePointNode;
120class MachSpillCopyNode;
121class MachTempNode;
122class MachMergeNode;
123class MachMemBarNode;
124class Matcher;
125class MemBarNode;
126class MemBarStoreStoreNode;
127class MemNode;
128class MergeMemNode;
129class MoveNode;
130class MulNode;
131class MultiNode;
132class MultiBranchNode;
133class NeverBranchNode;
134class Opaque1Node;
135class OuterStripMinedLoopNode;
136class OuterStripMinedLoopEndNode;
137class Node;
138class Node_Array;
139class Node_List;
140class Node_Stack;
141class OopMap;
142class ParmNode;
143class PCTableNode;
144class PhaseCCP;
145class PhaseGVN;
146class PhaseIterGVN;
147class PhaseRegAlloc;
148class PhaseTransform;
149class PhaseValues;
150class PhiNode;
151class Pipeline;
152class ProjNode;
153class RangeCheckNode;
154class RegMask;
155class RegionNode;
156class RootNode;
157class SafePointNode;
158class SafePointScalarObjectNode;
159class StartNode;
160class State;
161class StoreNode;
162class SubNode;
163class SubTypeCheckNode;
164class Type;
165class TypeNode;
166class UnlockNode;
167class VectorNode;
168class LoadVectorNode;
169class LoadVectorMaskedNode;
170class StoreVectorMaskedNode;
171class LoadVectorGatherNode;
172class StoreVectorNode;
173class StoreVectorScatterNode;
174class VectorMaskCmpNode;
175class VectorUnboxNode;
176class VectorSet;
177class VectorReinterpretNode;
178class ShiftVNode;
179
180// The type of all node counts and indexes.
181// It must hold at least 16 bits, but must also be fast to load and store.
182// This type, if less than 32 bits, could limit the number of possible nodes.
183// (To make this type platform-specific, move to globalDefinitions_xxx.hpp.)
184typedef unsigned int node_idx_t;
185
186
187#ifndef OPTO_DU_ITERATOR_ASSERT1
188#ifdef ASSERT1
189#define OPTO_DU_ITERATOR_ASSERT1 1
190#else
191#define OPTO_DU_ITERATOR_ASSERT1 0
192#endif
193#endif //OPTO_DU_ITERATOR_ASSERT
194
195#if OPTO_DU_ITERATOR_ASSERT1
196class DUIterator;
197class DUIterator_Fast;
198class DUIterator_Last;
199#else
200typedef uint DUIterator;
201typedef Node** DUIterator_Fast;
202typedef Node** DUIterator_Last;
203#endif
204
205// Node Sentinel
206#define NodeSentinel(Node*)-1 (Node*)-1
207
208// Unknown count frequency
209#define COUNT_UNKNOWN(-1.0f) (-1.0f)
210
211//------------------------------Node-------------------------------------------
212// Nodes define actions in the program. They create values, which have types.
213// They are both vertices in a directed graph and program primitives. Nodes
214// are labeled; the label is the "opcode", the primitive function in the lambda
215// calculus sense that gives meaning to the Node. Node inputs are ordered (so
216// that "a-b" is different from "b-a"). The inputs to a Node are the inputs to
217// the Node's function. These inputs also define a Type equation for the Node.
218// Solving these Type equations amounts to doing dataflow analysis.
219// Control and data are uniformly represented in the graph. Finally, Nodes
220// have a unique dense integer index which is used to index into side arrays
221// whenever I have phase-specific information.
222
223class Node {
224 friend class VMStructs;
225
226 // Lots of restrictions on cloning Nodes
227 NONCOPYABLE(Node)Node(Node const&) = delete; Node& operator=(Node const
&) = delete
;
228
229public:
230 friend class Compile;
231 #if OPTO_DU_ITERATOR_ASSERT1
232 friend class DUIterator_Common;
233 friend class DUIterator;
234 friend class DUIterator_Fast;
235 friend class DUIterator_Last;
236 #endif
237
238 // Because Nodes come and go, I define an Arena of Node structures to pull
239 // from. This should allow fast access to node creation & deletion. This
240 // field is a local cache of a value defined in some "program fragment" for
241 // which these Nodes are just a part of.
242
243 inline void* operator new(size_t x) throw() {
244 Compile* C = Compile::current();
245 Node* n = (Node*)C->node_arena()->AmallocWords(x);
246 return (void*)n;
247 }
248
249 // Delete is a NOP
250 void operator delete( void *ptr ) {}
251 // Fancy destructor; eagerly attempt to reclaim Node numberings and storage
252 void destruct(PhaseValues* phase);
253
254 // Create a new Node. Required is the number is of inputs required for
255 // semantic correctness.
256 Node( uint required );
257
258 // Create a new Node with given input edges.
259 // This version requires use of the "edge-count" new.
260 // E.g. new (C,3) FooNode( C, NULL, left, right );
261 Node( Node *n0 );
262 Node( Node *n0, Node *n1 );
263 Node( Node *n0, Node *n1, Node *n2 );
264 Node( Node *n0, Node *n1, Node *n2, Node *n3 );
265 Node( Node *n0, Node *n1, Node *n2, Node *n3, Node *n4 );
266 Node( Node *n0, Node *n1, Node *n2, Node *n3, Node *n4, Node *n5 );
267 Node( Node *n0, Node *n1, Node *n2, Node *n3,
268 Node *n4, Node *n5, Node *n6 );
269
270 // Clone an inherited Node given only the base Node type.
271 Node* clone() const;
272
273 // Clone a Node, immediately supplying one or two new edges.
274 // The first and second arguments, if non-null, replace in(1) and in(2),
275 // respectively.
276 Node* clone_with_data_edge(Node* in1, Node* in2 = NULL__null) const {
277 Node* nn = clone();
278 if (in1 != NULL__null) nn->set_req(1, in1);
279 if (in2 != NULL__null) nn->set_req(2, in2);
280 return nn;
281 }
282
283private:
284 // Shared setup for the above constructors.
285 // Handles all interactions with Compile::current.
286 // Puts initial values in all Node fields except _idx.
287 // Returns the initial value for _idx, which cannot
288 // be initialized by assignment.
289 inline int Init(int req);
290
291//----------------- input edge handling
292protected:
293 friend class PhaseCFG; // Access to address of _in array elements
294 Node **_in; // Array of use-def references to Nodes
295 Node **_out; // Array of def-use references to Nodes
296
297 // Input edges are split into two categories. Required edges are required
298 // for semantic correctness; order is important and NULLs are allowed.
299 // Precedence edges are used to help determine execution order and are
300 // added, e.g., for scheduling purposes. They are unordered and not
301 // duplicated; they have no embedded NULLs. Edges from 0 to _cnt-1
302 // are required, from _cnt to _max-1 are precedence edges.
303 node_idx_t _cnt; // Total number of required Node inputs.
304
305 node_idx_t _max; // Actual length of input array.
306
307 // Output edges are an unordered list of def-use edges which exactly
308 // correspond to required input edges which point from other nodes
309 // to this one. Thus the count of the output edges is the number of
310 // users of this node.
311 node_idx_t _outcnt; // Total number of Node outputs.
312
313 node_idx_t _outmax; // Actual length of output array.
314
315 // Grow the actual input array to the next larger power-of-2 bigger than len.
316 void grow( uint len );
317 // Grow the output array to the next larger power-of-2 bigger than len.
318 void out_grow( uint len );
319
320 public:
321 // Each Node is assigned a unique small/dense number. This number is used
322 // to index into auxiliary arrays of data and bit vectors.
323 // The field _idx is declared constant to defend against inadvertent assignments,
324 // since it is used by clients as a naked field. However, the field's value can be
325 // changed using the set_idx() method.
326 //
327 // The PhaseRenumberLive phase renumbers nodes based on liveness information.
328 // Therefore, it updates the value of the _idx field. The parse-time _idx is
329 // preserved in _parse_idx.
330 const node_idx_t _idx;
331 DEBUG_ONLY(const node_idx_t _parse_idx;)const node_idx_t _parse_idx;
332 // IGV node identifier. Two nodes, possibly in different compilation phases,
333 // have the same IGV identifier if (and only if) they are the very same node
334 // (same memory address) or one is "derived" from the other (by e.g.
335 // renumbering or matching). This identifier makes it possible to follow the
336 // entire lifetime of a node in IGV even if its C2 identifier (_idx) changes.
337 NOT_PRODUCT(node_idx_t _igv_idx;)node_idx_t _igv_idx;
338
339 // Get the (read-only) number of input edges
340 uint req() const { return _cnt; }
341 uint len() const { return _max; }
342 // Get the (read-only) number of output edges
343 uint outcnt() const { return _outcnt; }
344
345#if OPTO_DU_ITERATOR_ASSERT1
346 // Iterate over the out-edges of this node. Deletions are illegal.
347 inline DUIterator outs() const;
348 // Use this when the out array might have changed to suppress asserts.
349 inline DUIterator& refresh_out_pos(DUIterator& i) const;
350 // Does the node have an out at this position? (Used for iteration.)
351 inline bool has_out(DUIterator& i) const;
352 inline Node* out(DUIterator& i) const;
353 // Iterate over the out-edges of this node. All changes are illegal.
354 inline DUIterator_Fast fast_outs(DUIterator_Fast& max) const;
355 inline Node* fast_out(DUIterator_Fast& i) const;
356 // Iterate over the out-edges of this node, deleting one at a time.
357 inline DUIterator_Last last_outs(DUIterator_Last& min) const;
358 inline Node* last_out(DUIterator_Last& i) const;
359 // The inline bodies of all these methods are after the iterator definitions.
360#else
361 // Iterate over the out-edges of this node. Deletions are illegal.
362 // This iteration uses integral indexes, to decouple from array reallocations.
363 DUIterator outs() const { return 0; }
364 // Use this when the out array might have changed to suppress asserts.
365 DUIterator refresh_out_pos(DUIterator i) const { return i; }
366
367 // Reference to the i'th output Node. Error if out of bounds.
368 Node* out(DUIterator i) const { assert(i < _outcnt, "oob")do { if (!(i < _outcnt)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 368, "assert(" "i < _outcnt" ") failed", "oob"); ::breakpoint
(); } } while (0)
; return _out[i]; }
369 // Does the node have an out at this position? (Used for iteration.)
370 bool has_out(DUIterator i) const { return i < _outcnt; }
371
372 // Iterate over the out-edges of this node. All changes are illegal.
373 // This iteration uses a pointer internal to the out array.
374 DUIterator_Fast fast_outs(DUIterator_Fast& max) const {
375 Node** out = _out;
376 // Assign a limit pointer to the reference argument:
377 max = out + (ptrdiff_t)_outcnt;
378 // Return the base pointer:
379 return out;
380 }
381 Node* fast_out(DUIterator_Fast i) const { return *i; }
382 // Iterate over the out-edges of this node, deleting one at a time.
383 // This iteration uses a pointer internal to the out array.
384 DUIterator_Last last_outs(DUIterator_Last& min) const {
385 Node** out = _out;
386 // Assign a limit pointer to the reference argument:
387 min = out;
388 // Return the pointer to the start of the iteration:
389 return out + (ptrdiff_t)_outcnt - 1;
390 }
391 Node* last_out(DUIterator_Last i) const { return *i; }
392#endif
393
394 // Reference to the i'th input Node. Error if out of bounds.
395 Node* in(uint i) const { assert(i < _max, "oob: i=%d, _max=%d", i, _max)do { if (!(i < _max)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 395, "assert(" "i < _max" ") failed", "oob: i=%d, _max=%d"
, i, _max); ::breakpoint(); } } while (0)
; return _in[i]; }
30
Assuming 'i' is < field '_max'
31
Taking false branch
32
Loop condition is false. Exiting loop
33
Returning pointer
396 // Reference to the i'th input Node. NULL if out of bounds.
397 Node* lookup(uint i) const { return ((i < _max) ? _in[i] : NULL__null); }
398 // Reference to the i'th output Node. Error if out of bounds.
399 // Use this accessor sparingly. We are going trying to use iterators instead.
400 Node* raw_out(uint i) const { assert(i < _outcnt,"oob")do { if (!(i < _outcnt)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 400, "assert(" "i < _outcnt" ") failed", "oob"); ::breakpoint
(); } } while (0)
; return _out[i]; }
401 // Return the unique out edge.
402 Node* unique_out() const { assert(_outcnt==1,"not unique")do { if (!(_outcnt==1)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 402, "assert(" "_outcnt==1" ") failed", "not unique"); ::breakpoint
(); } } while (0)
; return _out[0]; }
403 // Delete out edge at position 'i' by moving last out edge to position 'i'
404 void raw_del_out(uint i) {
405 assert(i < _outcnt,"oob")do { if (!(i < _outcnt)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 405, "assert(" "i < _outcnt" ") failed", "oob"); ::breakpoint
(); } } while (0)
;
406 assert(_outcnt > 0,"oob")do { if (!(_outcnt > 0)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 406, "assert(" "_outcnt > 0" ") failed", "oob"); ::breakpoint
(); } } while (0)
;
407 #if OPTO_DU_ITERATOR_ASSERT1
408 // Record that a change happened here.
409 debug_only(_last_del = _out[i]; ++_del_tick)_last_del = _out[i]; ++_del_tick;
410 #endif
411 _out[i] = _out[--_outcnt];
412 // Smash the old edge so it can't be used accidentally.
413 debug_only(_out[_outcnt] = (Node *)(uintptr_t)0xdeadbeef)_out[_outcnt] = (Node *)(uintptr_t)0xdeadbeef;
414 }
415
416#ifdef ASSERT1
417 bool is_dead() const;
418#define is_not_dead(n)((n) == __null || !VerifyIterativeGVN || !((n)->is_dead())
)
((n) == NULL__null || !VerifyIterativeGVN || !((n)->is_dead()))
419 bool is_reachable_from_root() const;
420#endif
421 // Check whether node has become unreachable
422 bool is_unreachable(PhaseIterGVN &igvn) const;
423
424 // Set a required input edge, also updates corresponding output edge
425 void add_req( Node *n ); // Append a NEW required input
426 void add_req( Node *n0, Node *n1 ) {
427 add_req(n0); add_req(n1); }
428 void add_req( Node *n0, Node *n1, Node *n2 ) {
429 add_req(n0); add_req(n1); add_req(n2); }
430 void add_req_batch( Node* n, uint m ); // Append m NEW required inputs (all n).
431 void del_req( uint idx ); // Delete required edge & compact
432 void del_req_ordered( uint idx ); // Delete required edge & compact with preserved order
433 void ins_req( uint i, Node *n ); // Insert a NEW required input
434 void set_req( uint i, Node *n ) {
435 assert( is_not_dead(n), "can not use dead node")do { if (!(((n) == __null || !VerifyIterativeGVN || !((n)->
is_dead())))) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 435, "assert(" "((n) == __null || !VerifyIterativeGVN || !((n)->is_dead()))"
") failed", "can not use dead node"); ::breakpoint(); } } while
(0)
;
436 assert( i < _cnt, "oob: i=%d, _cnt=%d", i, _cnt)do { if (!(i < _cnt)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 436, "assert(" "i < _cnt" ") failed", "oob: i=%d, _cnt=%d"
, i, _cnt); ::breakpoint(); } } while (0)
;
437 assert( !VerifyHashTableKeys || _hash_lock == 0,do { if (!(!VerifyHashTableKeys || _hash_lock == 0)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 438, "assert(" "!VerifyHashTableKeys || _hash_lock == 0" ") failed"
, "remove node from hash table before modifying it"); ::breakpoint
(); } } while (0)
438 "remove node from hash table before modifying it")do { if (!(!VerifyHashTableKeys || _hash_lock == 0)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 438, "assert(" "!VerifyHashTableKeys || _hash_lock == 0" ") failed"
, "remove node from hash table before modifying it"); ::breakpoint
(); } } while (0)
;
439 Node** p = &_in[i]; // cache this._in, across the del_out call
440 if (*p != NULL__null) (*p)->del_out((Node *)this);
441 (*p) = n;
442 if (n != NULL__null) n->add_out((Node *)this);
443 Compile::current()->record_modified_node(this);
444 }
445 // Light version of set_req() to init inputs after node creation.
446 void init_req( uint i, Node *n ) {
447 assert( i == 0 && this == n ||do { if (!(i == 0 && this == n || ((n) == __null || !
VerifyIterativeGVN || !((n)->is_dead())))) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 448, "assert(" "i == 0 && this == n || ((n) == __null || !VerifyIterativeGVN || !((n)->is_dead()))"
") failed", "can not use dead node"); ::breakpoint(); } } while
(0)
448 is_not_dead(n), "can not use dead node")do { if (!(i == 0 && this == n || ((n) == __null || !
VerifyIterativeGVN || !((n)->is_dead())))) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 448, "assert(" "i == 0 && this == n || ((n) == __null || !VerifyIterativeGVN || !((n)->is_dead()))"
") failed", "can not use dead node"); ::breakpoint(); } } while
(0)
;
449 assert( i < _cnt, "oob")do { if (!(i < _cnt)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 449, "assert(" "i < _cnt" ") failed", "oob"); ::breakpoint
(); } } while (0)
;
450 assert( !VerifyHashTableKeys || _hash_lock == 0,do { if (!(!VerifyHashTableKeys || _hash_lock == 0)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 451, "assert(" "!VerifyHashTableKeys || _hash_lock == 0" ") failed"
, "remove node from hash table before modifying it"); ::breakpoint
(); } } while (0)
451 "remove node from hash table before modifying it")do { if (!(!VerifyHashTableKeys || _hash_lock == 0)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 451, "assert(" "!VerifyHashTableKeys || _hash_lock == 0" ") failed"
, "remove node from hash table before modifying it"); ::breakpoint
(); } } while (0)
;
452 assert( _in[i] == NULL, "sanity")do { if (!(_in[i] == __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 452, "assert(" "_in[i] == __null" ") failed", "sanity"); ::
breakpoint(); } } while (0)
;
453 _in[i] = n;
454 if (n != NULL__null) n->add_out((Node *)this);
455 Compile::current()->record_modified_node(this);
456 }
457 // Find first occurrence of n among my edges:
458 int find_edge(Node* n);
459 int find_prec_edge(Node* n) {
460 for (uint i = req(); i < len(); i++) {
461 if (_in[i] == n) return i;
462 if (_in[i] == NULL__null) {
463 DEBUG_ONLY( while ((++i) < len()) assert(_in[i] == NULL, "Gap in prec edges!"); )while ((++i) < len()) do { if (!(_in[i] == __null)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 463, "assert(" "_in[i] == __null" ") failed", "Gap in prec edges!"
); ::breakpoint(); } } while (0);
464 break;
465 }
466 }
467 return -1;
468 }
469 int replace_edge(Node* old, Node* neww, PhaseGVN* gvn = NULL__null);
470 int replace_edges_in_range(Node* old, Node* neww, int start, int end, PhaseGVN* gvn);
471 // NULL out all inputs to eliminate incoming Def-Use edges.
472 void disconnect_inputs(Compile* C);
473
474 // Quickly, return true if and only if I am Compile::current()->top().
475 bool is_top() const {
476 assert((this == (Node*) Compile::current()->top()) == (_out == NULL), "")do { if (!((this == (Node*) Compile::current()->top()) == (
_out == __null))) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 476, "assert(" "(this == (Node*) Compile::current()->top()) == (_out == __null)"
") failed", ""); ::breakpoint(); } } while (0)
;
477 return (_out == NULL__null);
478 }
479 // Reaffirm invariants for is_top. (Only from Compile::set_cached_top_node.)
480 void setup_is_top();
481
482 // Strip away casting. (It is depth-limited.)
483 Node* uncast(bool keep_deps = false) const;
484 // Return whether two Nodes are equivalent, after stripping casting.
485 bool eqv_uncast(const Node* n, bool keep_deps = false) const {
486 return (this->uncast(keep_deps) == n->uncast(keep_deps));
487 }
488
489 // Find out of current node that matches opcode.
490 Node* find_out_with(int opcode);
491 // Return true if the current node has an out that matches opcode.
492 bool has_out_with(int opcode);
493 // Return true if the current node has an out that matches any of the opcodes.
494 bool has_out_with(int opcode1, int opcode2, int opcode3, int opcode4);
495
496private:
497 static Node* uncast_helper(const Node* n, bool keep_deps);
498
499 // Add an output edge to the end of the list
500 void add_out( Node *n ) {
501 if (is_top()) return;
502 if( _outcnt == _outmax ) out_grow(_outcnt);
503 _out[_outcnt++] = n;
504 }
505 // Delete an output edge
506 void del_out( Node *n ) {
507 if (is_top()) return;
508 Node** outp = &_out[_outcnt];
509 // Find and remove n
510 do {
511 assert(outp > _out, "Missing Def-Use edge")do { if (!(outp > _out)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 511, "assert(" "outp > _out" ") failed", "Missing Def-Use edge"
); ::breakpoint(); } } while (0)
;
512 } while (*--outp != n);
513 *outp = _out[--_outcnt];
514 // Smash the old edge so it can't be used accidentally.
515 debug_only(_out[_outcnt] = (Node *)(uintptr_t)0xdeadbeef)_out[_outcnt] = (Node *)(uintptr_t)0xdeadbeef;
516 // Record that a change happened here.
517 #if OPTO_DU_ITERATOR_ASSERT1
518 debug_only(_last_del = n; ++_del_tick)_last_del = n; ++_del_tick;
519 #endif
520 }
521 // Close gap after removing edge.
522 void close_prec_gap_at(uint gap) {
523 assert(_cnt <= gap && gap < _max, "no valid prec edge")do { if (!(_cnt <= gap && gap < _max)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 523, "assert(" "_cnt <= gap && gap < _max" ") failed"
, "no valid prec edge"); ::breakpoint(); } } while (0)
;
524 uint i = gap;
525 Node *last = NULL__null;
526 for (; i < _max-1; ++i) {
527 Node *next = _in[i+1];
528 if (next == NULL__null) break;
529 last = next;
530 }
531 _in[gap] = last; // Move last slot to empty one.
532 _in[i] = NULL__null; // NULL out last slot.
533 }
534
535public:
536 // Globally replace this node by a given new node, updating all uses.
537 void replace_by(Node* new_node);
538 // Globally replace this node by a given new node, updating all uses
539 // and cutting input edges of old node.
540 void subsume_by(Node* new_node, Compile* c) {
541 replace_by(new_node);
542 disconnect_inputs(c);
543 }
544 void set_req_X(uint i, Node *n, PhaseIterGVN *igvn);
545 void set_req_X(uint i, Node *n, PhaseGVN *gvn);
546 // Find the one non-null required input. RegionNode only
547 Node *nonnull_req() const;
548 // Add or remove precedence edges
549 void add_prec( Node *n );
550 void rm_prec( uint i );
551
552 // Note: prec(i) will not necessarily point to n if edge already exists.
553 void set_prec( uint i, Node *n ) {
554 assert(i < _max, "oob: i=%d, _max=%d", i, _max)do { if (!(i < _max)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 554, "assert(" "i < _max" ") failed", "oob: i=%d, _max=%d"
, i, _max); ::breakpoint(); } } while (0)
;
555 assert(is_not_dead(n), "can not use dead node")do { if (!(((n) == __null || !VerifyIterativeGVN || !((n)->
is_dead())))) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 555, "assert(" "((n) == __null || !VerifyIterativeGVN || !((n)->is_dead()))"
") failed", "can not use dead node"); ::breakpoint(); } } while
(0)
;
556 assert(i >= _cnt, "not a precedence edge")do { if (!(i >= _cnt)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 556, "assert(" "i >= _cnt" ") failed", "not a precedence edge"
); ::breakpoint(); } } while (0)
;
557 // Avoid spec violation: duplicated prec edge.
558 if (_in[i] == n) return;
559 if (n == NULL__null || find_prec_edge(n) != -1) {
560 rm_prec(i);
561 return;
562 }
563 if (_in[i] != NULL__null) _in[i]->del_out((Node *)this);
564 _in[i] = n;
565 n->add_out((Node *)this);
566 }
567
568 // Set this node's index, used by cisc_version to replace current node
569 void set_idx(uint new_idx) {
570 const node_idx_t* ref = &_idx;
571 *(node_idx_t*)ref = new_idx;
572 }
573 // Swap input edge order. (Edge indexes i1 and i2 are usually 1 and 2.)
574 void swap_edges(uint i1, uint i2) {
575 debug_only(uint check_hash = (VerifyHashTableKeys && _hash_lock) ? hash() : NO_HASH)uint check_hash = (VerifyHashTableKeys && _hash_lock)
? hash() : NO_HASH
;
576 // Def-Use info is unchanged
577 Node* n1 = in(i1);
578 Node* n2 = in(i2);
579 _in[i1] = n2;
580 _in[i2] = n1;
581 // If this node is in the hash table, make sure it doesn't need a rehash.
582 assert(check_hash == NO_HASH || check_hash == hash(), "edge swap must preserve hash code")do { if (!(check_hash == NO_HASH || check_hash == hash())) { (
*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 582, "assert(" "check_hash == NO_HASH || check_hash == hash()"
") failed", "edge swap must preserve hash code"); ::breakpoint
(); } } while (0)
;
583 }
584
585 // Iterators over input Nodes for a Node X are written as:
586 // for( i = 0; i < X.req(); i++ ) ... X[i] ...
587 // NOTE: Required edges can contain embedded NULL pointers.
588
589//----------------- Other Node Properties
590
591 // Generate class IDs for (some) ideal nodes so that it is possible to determine
592 // the type of a node using a non-virtual method call (the method is_<Node>() below).
593 //
594 // A class ID of an ideal node is a set of bits. In a class ID, a single bit determines
595 // the type of the node the ID represents; another subset of an ID's bits are reserved
596 // for the superclasses of the node represented by the ID.
597 //
598 // By design, if A is a supertype of B, A.is_B() returns true and B.is_A()
599 // returns false. A.is_A() returns true.
600 //
601 // If two classes, A and B, have the same superclass, a different bit of A's class id
602 // is reserved for A's type than for B's type. That bit is specified by the third
603 // parameter in the macro DEFINE_CLASS_ID.
604 //
605 // By convention, classes with deeper hierarchy are declared first. Moreover,
606 // classes with the same hierarchy depth are sorted by usage frequency.
607 //
608 // The query method masks the bits to cut off bits of subclasses and then compares
609 // the result with the class id (see the macro DEFINE_CLASS_QUERY below).
610 //
611 // Class_MachCall=30, ClassMask_MachCall=31
612 // 12 8 4 0
613 // 0 0 0 0 0 0 0 0 1 1 1 1 0
614 // | | | |
615 // | | | Bit_Mach=2
616 // | | Bit_MachReturn=4
617 // | Bit_MachSafePoint=8
618 // Bit_MachCall=16
619 //
620 // Class_CountedLoop=56, ClassMask_CountedLoop=63
621 // 12 8 4 0
622 // 0 0 0 0 0 0 0 1 1 1 0 0 0
623 // | | |
624 // | | Bit_Region=8
625 // | Bit_Loop=16
626 // Bit_CountedLoop=32
627
628 #define DEFINE_CLASS_ID(cl, supcl, subn) \
629 Bit_##cl = (Class_##supcl == 0) ? 1 << subn : (Bit_##supcl) << (1 + subn) , \
630 Class_##cl = Class_##supcl + Bit_##cl , \
631 ClassMask_##cl = ((Bit_##cl << 1) - 1) ,
632
633 // This enum is used only for C2 ideal and mach nodes with is_<node>() methods
634 // so that its values fit into 32 bits.
635 enum NodeClasses {
636 Bit_Node = 0x00000000,
637 Class_Node = 0x00000000,
638 ClassMask_Node = 0xFFFFFFFF,
639
640 DEFINE_CLASS_ID(Multi, Node, 0)
641 DEFINE_CLASS_ID(SafePoint, Multi, 0)
642 DEFINE_CLASS_ID(Call, SafePoint, 0)
643 DEFINE_CLASS_ID(CallJava, Call, 0)
644 DEFINE_CLASS_ID(CallStaticJava, CallJava, 0)
645 DEFINE_CLASS_ID(CallDynamicJava, CallJava, 1)
646 DEFINE_CLASS_ID(CallRuntime, Call, 1)
647 DEFINE_CLASS_ID(CallLeaf, CallRuntime, 0)
648 DEFINE_CLASS_ID(CallLeafNoFP, CallLeaf, 0)
649 DEFINE_CLASS_ID(Allocate, Call, 2)
650 DEFINE_CLASS_ID(AllocateArray, Allocate, 0)
651 DEFINE_CLASS_ID(AbstractLock, Call, 3)
652 DEFINE_CLASS_ID(Lock, AbstractLock, 0)
653 DEFINE_CLASS_ID(Unlock, AbstractLock, 1)
654 DEFINE_CLASS_ID(ArrayCopy, Call, 4)
655 DEFINE_CLASS_ID(CallNative, Call, 5)
656 DEFINE_CLASS_ID(MultiBranch, Multi, 1)
657 DEFINE_CLASS_ID(PCTable, MultiBranch, 0)
658 DEFINE_CLASS_ID(Catch, PCTable, 0)
659 DEFINE_CLASS_ID(Jump, PCTable, 1)
660 DEFINE_CLASS_ID(If, MultiBranch, 1)
661 DEFINE_CLASS_ID(BaseCountedLoopEnd, If, 0)
662 DEFINE_CLASS_ID(CountedLoopEnd, BaseCountedLoopEnd, 0)
663 DEFINE_CLASS_ID(LongCountedLoopEnd, BaseCountedLoopEnd, 1)
664 DEFINE_CLASS_ID(RangeCheck, If, 1)
665 DEFINE_CLASS_ID(OuterStripMinedLoopEnd, If, 2)
666 DEFINE_CLASS_ID(NeverBranch, MultiBranch, 2)
667 DEFINE_CLASS_ID(Start, Multi, 2)
668 DEFINE_CLASS_ID(MemBar, Multi, 3)
669 DEFINE_CLASS_ID(Initialize, MemBar, 0)
670 DEFINE_CLASS_ID(MemBarStoreStore, MemBar, 1)
671
672 DEFINE_CLASS_ID(Mach, Node, 1)
673 DEFINE_CLASS_ID(MachReturn, Mach, 0)
674 DEFINE_CLASS_ID(MachSafePoint, MachReturn, 0)
675 DEFINE_CLASS_ID(MachCall, MachSafePoint, 0)
676 DEFINE_CLASS_ID(MachCallJava, MachCall, 0)
677 DEFINE_CLASS_ID(MachCallStaticJava, MachCallJava, 0)
678 DEFINE_CLASS_ID(MachCallDynamicJava, MachCallJava, 1)
679 DEFINE_CLASS_ID(MachCallRuntime, MachCall, 1)
680 DEFINE_CLASS_ID(MachCallLeaf, MachCallRuntime, 0)
681 DEFINE_CLASS_ID(MachCallNative, MachCall, 2)
682 DEFINE_CLASS_ID(MachBranch, Mach, 1)
683 DEFINE_CLASS_ID(MachIf, MachBranch, 0)
684 DEFINE_CLASS_ID(MachGoto, MachBranch, 1)
685 DEFINE_CLASS_ID(MachNullCheck, MachBranch, 2)
686 DEFINE_CLASS_ID(MachSpillCopy, Mach, 2)
687 DEFINE_CLASS_ID(MachTemp, Mach, 3)
688 DEFINE_CLASS_ID(MachConstantBase, Mach, 4)
689 DEFINE_CLASS_ID(MachConstant, Mach, 5)
690 DEFINE_CLASS_ID(MachJump, MachConstant, 0)
691 DEFINE_CLASS_ID(MachMerge, Mach, 6)
692 DEFINE_CLASS_ID(MachMemBar, Mach, 7)
693
694 DEFINE_CLASS_ID(Type, Node, 2)
695 DEFINE_CLASS_ID(Phi, Type, 0)
696 DEFINE_CLASS_ID(ConstraintCast, Type, 1)
697 DEFINE_CLASS_ID(CastII, ConstraintCast, 0)
698 DEFINE_CLASS_ID(CheckCastPP, ConstraintCast, 1)
699 DEFINE_CLASS_ID(CastLL, ConstraintCast, 2)
700 DEFINE_CLASS_ID(CastFF, ConstraintCast, 3)
701 DEFINE_CLASS_ID(CastDD, ConstraintCast, 4)
702 DEFINE_CLASS_ID(CastVV, ConstraintCast, 5)
703 DEFINE_CLASS_ID(CMove, Type, 3)
704 DEFINE_CLASS_ID(SafePointScalarObject, Type, 4)
705 DEFINE_CLASS_ID(DecodeNarrowPtr, Type, 5)
706 DEFINE_CLASS_ID(DecodeN, DecodeNarrowPtr, 0)
707 DEFINE_CLASS_ID(DecodeNKlass, DecodeNarrowPtr, 1)
708 DEFINE_CLASS_ID(EncodeNarrowPtr, Type, 6)
709 DEFINE_CLASS_ID(EncodeP, EncodeNarrowPtr, 0)
710 DEFINE_CLASS_ID(EncodePKlass, EncodeNarrowPtr, 1)
711 DEFINE_CLASS_ID(Vector, Type, 7)
712 DEFINE_CLASS_ID(VectorMaskCmp, Vector, 0)
713 DEFINE_CLASS_ID(VectorUnbox, Vector, 1)
714 DEFINE_CLASS_ID(VectorReinterpret, Vector, 2)
715 DEFINE_CLASS_ID(ShiftV, Vector, 3)
716
717 DEFINE_CLASS_ID(Proj, Node, 3)
718 DEFINE_CLASS_ID(CatchProj, Proj, 0)
719 DEFINE_CLASS_ID(JumpProj, Proj, 1)
720 DEFINE_CLASS_ID(IfProj, Proj, 2)
721 DEFINE_CLASS_ID(IfTrue, IfProj, 0)
722 DEFINE_CLASS_ID(IfFalse, IfProj, 1)
723 DEFINE_CLASS_ID(Parm, Proj, 4)
724 DEFINE_CLASS_ID(MachProj, Proj, 5)
725
726 DEFINE_CLASS_ID(Mem, Node, 4)
727 DEFINE_CLASS_ID(Load, Mem, 0)
728 DEFINE_CLASS_ID(LoadVector, Load, 0)
729 DEFINE_CLASS_ID(LoadVectorGather, LoadVector, 0)
730 DEFINE_CLASS_ID(LoadVectorMasked, LoadVector, 1)
731 DEFINE_CLASS_ID(Store, Mem, 1)
732 DEFINE_CLASS_ID(StoreVector, Store, 0)
733 DEFINE_CLASS_ID(StoreVectorScatter, StoreVector, 0)
734 DEFINE_CLASS_ID(StoreVectorMasked, StoreVector, 1)
735 DEFINE_CLASS_ID(LoadStore, Mem, 2)
736 DEFINE_CLASS_ID(LoadStoreConditional, LoadStore, 0)
737 DEFINE_CLASS_ID(CompareAndSwap, LoadStoreConditional, 0)
738 DEFINE_CLASS_ID(CompareAndExchangeNode, LoadStore, 1)
739
740 DEFINE_CLASS_ID(Region, Node, 5)
741 DEFINE_CLASS_ID(Loop, Region, 0)
742 DEFINE_CLASS_ID(Root, Loop, 0)
743 DEFINE_CLASS_ID(BaseCountedLoop, Loop, 1)
744 DEFINE_CLASS_ID(CountedLoop, BaseCountedLoop, 0)
745 DEFINE_CLASS_ID(LongCountedLoop, BaseCountedLoop, 1)
746 DEFINE_CLASS_ID(OuterStripMinedLoop, Loop, 2)
747
748 DEFINE_CLASS_ID(Sub, Node, 6)
749 DEFINE_CLASS_ID(Cmp, Sub, 0)
750 DEFINE_CLASS_ID(FastLock, Cmp, 0)
751 DEFINE_CLASS_ID(FastUnlock, Cmp, 1)
752 DEFINE_CLASS_ID(SubTypeCheck,Cmp, 2)
753
754 DEFINE_CLASS_ID(MergeMem, Node, 7)
755 DEFINE_CLASS_ID(Bool, Node, 8)
756 DEFINE_CLASS_ID(AddP, Node, 9)
757 DEFINE_CLASS_ID(BoxLock, Node, 10)
758 DEFINE_CLASS_ID(Add, Node, 11)
759 DEFINE_CLASS_ID(Mul, Node, 12)
760 DEFINE_CLASS_ID(ClearArray, Node, 14)
761 DEFINE_CLASS_ID(Halt, Node, 15)
762 DEFINE_CLASS_ID(Opaque1, Node, 16)
763 DEFINE_CLASS_ID(Move, Node, 17)
764 DEFINE_CLASS_ID(LShift, Node, 18)
765
766 _max_classes = ClassMask_Move
767 };
768 #undef DEFINE_CLASS_ID
769
770 // Flags are sorted by usage frequency.
771 enum NodeFlags {
772 Flag_is_Copy = 1 << 0, // should be first bit to avoid shift
773 Flag_rematerialize = 1 << 1,
774 Flag_needs_anti_dependence_check = 1 << 2,
775 Flag_is_macro = 1 << 3,
776 Flag_is_Con = 1 << 4,
777 Flag_is_cisc_alternate = 1 << 5,
778 Flag_is_dead_loop_safe = 1 << 6,
779 Flag_may_be_short_branch = 1 << 7,
780 Flag_avoid_back_to_back_before = 1 << 8,
781 Flag_avoid_back_to_back_after = 1 << 9,
782 Flag_has_call = 1 << 10,
783 Flag_is_reduction = 1 << 11,
784 Flag_is_scheduled = 1 << 12,
785 Flag_has_vector_mask_set = 1 << 13,
786 Flag_is_expensive = 1 << 14,
787 Flag_is_predicated_vector = 1 << 15,
788 Flag_for_post_loop_opts_igvn = 1 << 16,
789 _last_flag = Flag_for_post_loop_opts_igvn
790 };
791
792 class PD;
793
794private:
795 juint _class_id;
796 juint _flags;
797
798 static juint max_flags();
799
800protected:
801 // These methods should be called from constructors only.
802 void init_class_id(juint c) {
803 _class_id = c; // cast out const
804 }
805 void init_flags(uint fl) {
806 assert(fl <= max_flags(), "invalid node flag")do { if (!(fl <= max_flags())) { (*g_assert_poison) = 'X';
; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 806, "assert(" "fl <= max_flags()" ") failed", "invalid node flag"
); ::breakpoint(); } } while (0)
;
807 _flags |= fl;
808 }
809 void clear_flag(uint fl) {
810 assert(fl <= max_flags(), "invalid node flag")do { if (!(fl <= max_flags())) { (*g_assert_poison) = 'X';
; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 810, "assert(" "fl <= max_flags()" ") failed", "invalid node flag"
); ::breakpoint(); } } while (0)
;
811 _flags &= ~fl;
812 }
813
814public:
815 const juint class_id() const { return _class_id; }
816
817 const juint flags() const { return _flags; }
818
819 void add_flag(juint fl) { init_flags(fl); }
820
821 void remove_flag(juint fl) { clear_flag(fl); }
822
823 // Return a dense integer opcode number
824 virtual int Opcode() const;
825
826 // Virtual inherited Node size
827 virtual uint size_of() const;
828
829 // Other interesting Node properties
830 #define DEFINE_CLASS_QUERY(type) \
831 bool is_##type() const { \
832 return ((_class_id & ClassMask_##type) == Class_##type); \
833 } \
834 type##Node *as_##type() const { \
835 assert(is_##type(), "invalid node class: %s", Name())do { if (!(is_##type())) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 835, "assert(" "is_##type()" ") failed", "invalid node class: %s"
, Name()); ::breakpoint(); } } while (0)
; \
836 return (type##Node*)this; \
837 } \
838 type##Node* isa_##type() const { \
839 return (is_##type()) ? as_##type() : NULL__null; \
840 }
841
842 DEFINE_CLASS_QUERY(AbstractLock)
843 DEFINE_CLASS_QUERY(Add)
844 DEFINE_CLASS_QUERY(AddP)
845 DEFINE_CLASS_QUERY(Allocate)
846 DEFINE_CLASS_QUERY(AllocateArray)
847 DEFINE_CLASS_QUERY(ArrayCopy)
848 DEFINE_CLASS_QUERY(BaseCountedLoop)
849 DEFINE_CLASS_QUERY(BaseCountedLoopEnd)
850 DEFINE_CLASS_QUERY(Bool)
851 DEFINE_CLASS_QUERY(BoxLock)
852 DEFINE_CLASS_QUERY(Call)
853 DEFINE_CLASS_QUERY(CallNative)
854 DEFINE_CLASS_QUERY(CallDynamicJava)
855 DEFINE_CLASS_QUERY(CallJava)
856 DEFINE_CLASS_QUERY(CallLeaf)
857 DEFINE_CLASS_QUERY(CallLeafNoFP)
858 DEFINE_CLASS_QUERY(CallRuntime)
859 DEFINE_CLASS_QUERY(CallStaticJava)
860 DEFINE_CLASS_QUERY(Catch)
861 DEFINE_CLASS_QUERY(CatchProj)
862 DEFINE_CLASS_QUERY(CheckCastPP)
863 DEFINE_CLASS_QUERY(CastII)
864 DEFINE_CLASS_QUERY(CastLL)
865 DEFINE_CLASS_QUERY(ConstraintCast)
866 DEFINE_CLASS_QUERY(ClearArray)
867 DEFINE_CLASS_QUERY(CMove)
868 DEFINE_CLASS_QUERY(Cmp)
869 DEFINE_CLASS_QUERY(CountedLoop)
870 DEFINE_CLASS_QUERY(CountedLoopEnd)
871 DEFINE_CLASS_QUERY(DecodeNarrowPtr)
872 DEFINE_CLASS_QUERY(DecodeN)
873 DEFINE_CLASS_QUERY(DecodeNKlass)
874 DEFINE_CLASS_QUERY(EncodeNarrowPtr)
875 DEFINE_CLASS_QUERY(EncodeP)
876 DEFINE_CLASS_QUERY(EncodePKlass)
877 DEFINE_CLASS_QUERY(FastLock)
878 DEFINE_CLASS_QUERY(FastUnlock)
879 DEFINE_CLASS_QUERY(Halt)
880 DEFINE_CLASS_QUERY(If)
881 DEFINE_CLASS_QUERY(RangeCheck)
882 DEFINE_CLASS_QUERY(IfProj)
883 DEFINE_CLASS_QUERY(IfFalse)
884 DEFINE_CLASS_QUERY(IfTrue)
885 DEFINE_CLASS_QUERY(Initialize)
886 DEFINE_CLASS_QUERY(Jump)
887 DEFINE_CLASS_QUERY(JumpProj)
888 DEFINE_CLASS_QUERY(LongCountedLoop)
889 DEFINE_CLASS_QUERY(LongCountedLoopEnd)
890 DEFINE_CLASS_QUERY(Load)
891 DEFINE_CLASS_QUERY(LoadStore)
892 DEFINE_CLASS_QUERY(LoadStoreConditional)
893 DEFINE_CLASS_QUERY(Lock)
894 DEFINE_CLASS_QUERY(Loop)
895 DEFINE_CLASS_QUERY(LShift)
896 DEFINE_CLASS_QUERY(Mach)
897 DEFINE_CLASS_QUERY(MachBranch)
898 DEFINE_CLASS_QUERY(MachCall)
899 DEFINE_CLASS_QUERY(MachCallNative)
900 DEFINE_CLASS_QUERY(MachCallDynamicJava)
901 DEFINE_CLASS_QUERY(MachCallJava)
902 DEFINE_CLASS_QUERY(MachCallLeaf)
903 DEFINE_CLASS_QUERY(MachCallRuntime)
904 DEFINE_CLASS_QUERY(MachCallStaticJava)
905 DEFINE_CLASS_QUERY(MachConstantBase)
906 DEFINE_CLASS_QUERY(MachConstant)
907 DEFINE_CLASS_QUERY(MachGoto)
908 DEFINE_CLASS_QUERY(MachIf)
909 DEFINE_CLASS_QUERY(MachJump)
910 DEFINE_CLASS_QUERY(MachNullCheck)
911 DEFINE_CLASS_QUERY(MachProj)
912 DEFINE_CLASS_QUERY(MachReturn)
913 DEFINE_CLASS_QUERY(MachSafePoint)
914 DEFINE_CLASS_QUERY(MachSpillCopy)
915 DEFINE_CLASS_QUERY(MachTemp)
916 DEFINE_CLASS_QUERY(MachMemBar)
917 DEFINE_CLASS_QUERY(MachMerge)
918 DEFINE_CLASS_QUERY(Mem)
919 DEFINE_CLASS_QUERY(MemBar)
920 DEFINE_CLASS_QUERY(MemBarStoreStore)
921 DEFINE_CLASS_QUERY(MergeMem)
922 DEFINE_CLASS_QUERY(Move)
923 DEFINE_CLASS_QUERY(Mul)
924 DEFINE_CLASS_QUERY(Multi)
925 DEFINE_CLASS_QUERY(MultiBranch)
926 DEFINE_CLASS_QUERY(Opaque1)
927 DEFINE_CLASS_QUERY(OuterStripMinedLoop)
928 DEFINE_CLASS_QUERY(OuterStripMinedLoopEnd)
929 DEFINE_CLASS_QUERY(Parm)
930 DEFINE_CLASS_QUERY(PCTable)
931 DEFINE_CLASS_QUERY(Phi)
932 DEFINE_CLASS_QUERY(Proj)
20
Assuming the condition is true
21
Returning the value 1, which participates in a condition later
40
Assuming the condition is true
41
Returning the value 1, which participates in a condition later
933 DEFINE_CLASS_QUERY(Region)
4
Assuming the condition is true
5
Returning the value 1, which participates in a condition later
12
Assuming the condition is true
13
Returning the value 1, which participates in a condition later
934 DEFINE_CLASS_QUERY(Root)
935 DEFINE_CLASS_QUERY(SafePoint)
936 DEFINE_CLASS_QUERY(SafePointScalarObject)
937 DEFINE_CLASS_QUERY(Start)
938 DEFINE_CLASS_QUERY(Store)
939 DEFINE_CLASS_QUERY(Sub)
940 DEFINE_CLASS_QUERY(SubTypeCheck)
941 DEFINE_CLASS_QUERY(Type)
942 DEFINE_CLASS_QUERY(Vector)
943 DEFINE_CLASS_QUERY(VectorMaskCmp)
944 DEFINE_CLASS_QUERY(VectorUnbox)
945 DEFINE_CLASS_QUERY(VectorReinterpret);
946 DEFINE_CLASS_QUERY(LoadVector)
947 DEFINE_CLASS_QUERY(LoadVectorGather)
948 DEFINE_CLASS_QUERY(StoreVector)
949 DEFINE_CLASS_QUERY(StoreVectorScatter)
950 DEFINE_CLASS_QUERY(ShiftV)
951 DEFINE_CLASS_QUERY(Unlock)
952
953 #undef DEFINE_CLASS_QUERY
954
955 // duplicate of is_MachSpillCopy()
956 bool is_SpillCopy () const {
957 return ((_class_id & ClassMask_MachSpillCopy) == Class_MachSpillCopy);
958 }
959
960 bool is_Con () const { return (_flags & Flag_is_Con) != 0; }
961 // The data node which is safe to leave in dead loop during IGVN optimization.
962 bool is_dead_loop_safe() const;
963
964 // is_Copy() returns copied edge index (0 or 1)
965 uint is_Copy() const { return (_flags & Flag_is_Copy); }
966
967 virtual bool is_CFG() const { return false; }
968
969 // If this node is control-dependent on a test, can it be
970 // rerouted to a dominating equivalent test? This is usually
971 // true of non-CFG nodes, but can be false for operations which
972 // depend for their correct sequencing on more than one test.
973 // (In that case, hoisting to a dominating test may silently
974 // skip some other important test.)
975 virtual bool depends_only_on_test() const { assert(!is_CFG(), "")do { if (!(!is_CFG())) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 975, "assert(" "!is_CFG()" ") failed", ""); ::breakpoint();
} } while (0)
; return true; };
976
977 // When building basic blocks, I need to have a notion of block beginning
978 // Nodes, next block selector Nodes (block enders), and next block
979 // projections. These calls need to work on their machine equivalents. The
980 // Ideal beginning Nodes are RootNode, RegionNode and StartNode.
981 bool is_block_start() const {
982 if ( is_Region() )
983 return this == (const Node*)in(0);
984 else
985 return is_Start();
986 }
987
988 // The Ideal control projection Nodes are IfTrue/IfFalse, JumpProjNode, Root,
989 // Goto and Return. This call also returns the block ending Node.
990 virtual const Node *is_block_proj() const;
991
992 // The node is a "macro" node which needs to be expanded before matching
993 bool is_macro() const { return (_flags & Flag_is_macro) != 0; }
994 // The node is expensive: the best control is set during loop opts
995 bool is_expensive() const { return (_flags & Flag_is_expensive) != 0 && in(0) != NULL__null; }
996
997 // An arithmetic node which accumulates a data in a loop.
998 // It must have the loop's phi as input and provide a def to the phi.
999 bool is_reduction() const { return (_flags & Flag_is_reduction) != 0; }
1000
1001 bool is_predicated_vector() const { return (_flags & Flag_is_predicated_vector) != 0; }
1002
1003 // The node is a CountedLoopEnd with a mask annotation so as to emit a restore context
1004 bool has_vector_mask_set() const { return (_flags & Flag_has_vector_mask_set) != 0; }
1005
1006 // Used in lcm to mark nodes that have scheduled
1007 bool is_scheduled() const { return (_flags & Flag_is_scheduled) != 0; }
1008
1009 bool for_post_loop_opts_igvn() const { return (_flags & Flag_for_post_loop_opts_igvn) != 0; }
1010
1011//----------------- Optimization
1012
1013 // Get the worst-case Type output for this Node.
1014 virtual const class Type *bottom_type() const;
1015
1016 // If we find a better type for a node, try to record it permanently.
1017 // Return true if this node actually changed.
1018 // Be sure to do the hash_delete game in the "rehash" variant.
1019 void raise_bottom_type(const Type* new_type);
1020
1021 // Get the address type with which this node uses and/or defs memory,
1022 // or NULL if none. The address type is conservatively wide.
1023 // Returns non-null for calls, membars, loads, stores, etc.
1024 // Returns TypePtr::BOTTOM if the node touches memory "broadly".
1025 virtual const class TypePtr *adr_type() const { return NULL__null; }
1026
1027 // Return an existing node which computes the same function as this node.
1028 // The optimistic combined algorithm requires this to return a Node which
1029 // is a small number of steps away (e.g., one of my inputs).
1030 virtual Node* Identity(PhaseGVN* phase);
1031
1032 // Return the set of values this Node can take on at runtime.
1033 virtual const Type* Value(PhaseGVN* phase) const;
1034
1035 // Return a node which is more "ideal" than the current node.
1036 // The invariants on this call are subtle. If in doubt, read the
1037 // treatise in node.cpp above the default implemention AND TEST WITH
1038 // +VerifyIterativeGVN!
1039 virtual Node *Ideal(PhaseGVN *phase, bool can_reshape);
1040
1041 // Some nodes have specific Ideal subgraph transformations only if they are
1042 // unique users of specific nodes. Such nodes should be put on IGVN worklist
1043 // for the transformations to happen.
1044 bool has_special_unique_user() const;
1045
1046 // Skip Proj and CatchProj nodes chains. Check for Null and Top.
1047 Node* find_exact_control(Node* ctrl);
1048
1049 // Check if 'this' node dominates or equal to 'sub'.
1050 bool dominates(Node* sub, Node_List &nlist);
1051
1052protected:
1053 bool remove_dead_region(PhaseGVN *phase, bool can_reshape);
1054public:
1055
1056 // See if there is valid pipeline info
1057 static const Pipeline *pipeline_class();
1058 virtual const Pipeline *pipeline() const;
1059
1060 // Compute the latency from the def to this instruction of the ith input node
1061 uint latency(uint i);
1062
1063 // Hash & compare functions, for pessimistic value numbering
1064
1065 // If the hash function returns the special sentinel value NO_HASH,
1066 // the node is guaranteed never to compare equal to any other node.
1067 // If we accidentally generate a hash with value NO_HASH the node
1068 // won't go into the table and we'll lose a little optimization.
1069 static const uint NO_HASH = 0;
1070 virtual uint hash() const;
1071 virtual bool cmp( const Node &n ) const;
1072
1073 // Operation appears to be iteratively computed (such as an induction variable)
1074 // It is possible for this operation to return false for a loop-varying
1075 // value, if it appears (by local graph inspection) to be computed by a simple conditional.
1076 bool is_iteratively_computed();
1077
1078 // Determine if a node is a counted loop induction variable.
1079 // NOTE: The method is defined in "loopnode.cpp".
1080 bool is_cloop_ind_var() const;
1081
1082 // Return a node with opcode "opc" and same inputs as "this" if one can
1083 // be found; Otherwise return NULL;
1084 Node* find_similar(int opc);
1085
1086 // Return the unique control out if only one. Null if none or more than one.
1087 Node* unique_ctrl_out() const;
1088
1089 // Set control or add control as precedence edge
1090 void ensure_control_or_add_prec(Node* c);
1091
1092//----------------- Code Generation
1093
1094 // Ideal register class for Matching. Zero means unmatched instruction
1095 // (these are cloned instead of converted to machine nodes).
1096 virtual uint ideal_reg() const;
1097
1098 static const uint NotAMachineReg; // must be > max. machine register
1099
1100 // Do we Match on this edge index or not? Generally false for Control
1101 // and true for everything else. Weird for calls & returns.
1102 virtual uint match_edge(uint idx) const;
1103
1104 // Register class output is returned in
1105 virtual const RegMask &out_RegMask() const;
1106 // Register class input is expected in
1107 virtual const RegMask &in_RegMask(uint) const;
1108 // Should we clone rather than spill this instruction?
1109 bool rematerialize() const;
1110
1111 // Return JVM State Object if this Node carries debug info, or NULL otherwise
1112 virtual JVMState* jvms() const;
1113
1114 // Print as assembly
1115 virtual void format( PhaseRegAlloc *, outputStream* st = tty ) const;
1116 // Emit bytes starting at parameter 'ptr'
1117 // Bump 'ptr' by the number of output bytes
1118 virtual void emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const;
1119 // Size of instruction in bytes
1120 virtual uint size(PhaseRegAlloc *ra_) const;
1121
1122 // Convenience function to extract an integer constant from a node.
1123 // If it is not an integer constant (either Con, CastII, or Mach),
1124 // return value_if_unknown.
1125 jint find_int_con(jint value_if_unknown) const {
1126 const TypeInt* t = find_int_type();
1127 return (t != NULL__null && t->is_con()) ? t->get_con() : value_if_unknown;
1128 }
1129 // Return the constant, knowing it is an integer constant already
1130 jint get_int() const {
1131 const TypeInt* t = find_int_type();
1132 guarantee(t != NULL, "must be con")do { if (!(t != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1132, "guarantee(" "t != NULL" ") failed", "must be con"); ::
breakpoint(); } } while (0)
;
1133 return t->get_con();
1134 }
1135 // Here's where the work is done. Can produce non-constant int types too.
1136 const TypeInt* find_int_type() const;
1137 const TypeInteger* find_integer_type(BasicType bt) const;
1138
1139 // Same thing for long (and intptr_t, via type.hpp):
1140 jlong get_long() const {
1141 const TypeLong* t = find_long_type();
1142 guarantee(t != NULL, "must be con")do { if (!(t != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1142, "guarantee(" "t != NULL" ") failed", "must be con"); ::
breakpoint(); } } while (0)
;
1143 return t->get_con();
1144 }
1145 jlong find_long_con(jint value_if_unknown) const {
1146 const TypeLong* t = find_long_type();
1147 return (t != NULL__null && t->is_con()) ? t->get_con() : value_if_unknown;
1148 }
1149 const TypeLong* find_long_type() const;
1150
1151 jlong get_integer_as_long(BasicType bt) const {
1152 const TypeInteger* t = find_integer_type(bt);
1153 guarantee(t != NULL, "must be con")do { if (!(t != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1153, "guarantee(" "t != NULL" ") failed", "must be con"); ::
breakpoint(); } } while (0)
;
1154 return t->get_con_as_long(bt);
1155 }
1156 const TypePtr* get_ptr_type() const;
1157
1158 // These guys are called by code generated by ADLC:
1159 intptr_t get_ptr() const;
1160 intptr_t get_narrowcon() const;
1161 jdouble getd() const;
1162 jfloat getf() const;
1163
1164 // Nodes which are pinned into basic blocks
1165 virtual bool pinned() const { return false; }
1166
1167 // Nodes which use memory without consuming it, hence need antidependences
1168 // More specifically, needs_anti_dependence_check returns true iff the node
1169 // (a) does a load, and (b) does not perform a store (except perhaps to a
1170 // stack slot or some other unaliased location).
1171 bool needs_anti_dependence_check() const;
1172
1173 // Return which operand this instruction may cisc-spill. In other words,
1174 // return operand position that can convert from reg to memory access
1175 virtual int cisc_operand() const { return AdlcVMDeps::Not_cisc_spillable; }
1176 bool is_cisc_alternate() const { return (_flags & Flag_is_cisc_alternate) != 0; }
1177
1178 // Whether this is a memory-writing machine node.
1179 bool is_memory_writer() const { return is_Mach() && bottom_type()->has_memory(); }
1180
1181//----------------- Printing, etc
1182#ifndef PRODUCT
1183 private:
1184 int _indent;
1185
1186 public:
1187 void set_indent(int indent) { _indent = indent; }
1188
1189 private:
1190 static bool add_to_worklist(Node* n, Node_List* worklist, Arena* old_arena, VectorSet* old_space, VectorSet* new_space);
1191public:
1192 Node* find(int idx, bool only_ctrl = false); // Search the graph for the given idx.
1193 Node* find_ctrl(int idx); // Search control ancestors for the given idx.
1194 void dump() const { dump("\n"); } // Print this node.
1195 void dump(const char* suffix, bool mark = false, outputStream *st = tty) const; // Print this node.
1196 void dump(int depth) const; // Print this node, recursively to depth d
1197 void dump_ctrl(int depth) const; // Print control nodes, to depth d
1198 void dump_comp() const; // Print this node in compact representation.
1199 // Print this node in compact representation.
1200 void dump_comp(const char* suffix, outputStream *st = tty) const;
1201 virtual void dump_req(outputStream *st = tty) const; // Print required-edge info
1202 virtual void dump_prec(outputStream *st = tty) const; // Print precedence-edge info
1203 virtual void dump_out(outputStream *st = tty) const; // Print the output edge info
1204 virtual void dump_spec(outputStream *st) const {}; // Print per-node info
1205 // Print compact per-node info
1206 virtual void dump_compact_spec(outputStream *st) const { dump_spec(st); }
1207 void dump_related() const; // Print related nodes (depends on node at hand).
1208 // Print related nodes up to given depths for input and output nodes.
1209 void dump_related(uint d_in, uint d_out) const;
1210 void dump_related_compact() const; // Print related nodes in compact representation.
1211 // Collect related nodes.
1212 virtual void related(GrowableArray<Node*> *in_rel, GrowableArray<Node*> *out_rel, bool compact) const;
1213 // Collect nodes starting from this node, explicitly including/excluding control and data links.
1214 void collect_nodes(GrowableArray<Node*> *ns, int d, bool ctrl, bool data) const;
1215
1216 // Node collectors, to be used in implementations of Node::rel().
1217 // Collect the entire data input graph. Include control inputs if requested.
1218 void collect_nodes_in_all_data(GrowableArray<Node*> *ns, bool ctrl) const;
1219 // Collect the entire control input graph. Include data inputs if requested.
1220 void collect_nodes_in_all_ctrl(GrowableArray<Node*> *ns, bool data) const;
1221 // Collect the entire output graph until hitting and including control nodes.
1222 void collect_nodes_out_all_ctrl_boundary(GrowableArray<Node*> *ns) const;
1223
1224 void verify_edges(Unique_Node_List &visited); // Verify bi-directional edges
1225 static void verify(int verify_depth, VectorSet& visited, Node_List& worklist);
1226
1227 // This call defines a class-unique string used to identify class instances
1228 virtual const char *Name() const;
1229
1230 void dump_format(PhaseRegAlloc *ra) const; // debug access to MachNode::format(...)
1231 // RegMask Print Functions
1232 void dump_in_regmask(int idx) { in_RegMask(idx).dump(); }
1233 void dump_out_regmask() { out_RegMask().dump(); }
1234 static bool in_dump() { return Compile::current()->_in_dump_cnt > 0; }
1235 void fast_dump() const {
1236 tty->print("%4d: %-17s", _idx, Name());
1237 for (uint i = 0; i < len(); i++)
1238 if (in(i))
1239 tty->print(" %4d", in(i)->_idx);
1240 else
1241 tty->print(" NULL");
1242 tty->print("\n");
1243 }
1244#endif
1245#ifdef ASSERT1
1246 void verify_construction();
1247 bool verify_jvms(const JVMState* jvms) const;
1248 int _debug_idx; // Unique value assigned to every node.
1249 int debug_idx() const { return _debug_idx; }
1250 void set_debug_idx( int debug_idx ) { _debug_idx = debug_idx; }
1251
1252 Node* _debug_orig; // Original version of this, if any.
1253 Node* debug_orig() const { return _debug_orig; }
1254 void set_debug_orig(Node* orig); // _debug_orig = orig
1255 void dump_orig(outputStream *st, bool print_key = true) const;
1256
1257 int _hash_lock; // Barrier to modifications of nodes in the hash table
1258 void enter_hash_lock() { ++_hash_lock; assert(_hash_lock < 99, "in too many hash tables?")do { if (!(_hash_lock < 99)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1258, "assert(" "_hash_lock < 99" ") failed", "in too many hash tables?"
); ::breakpoint(); } } while (0)
; }
1259 void exit_hash_lock() { --_hash_lock; assert(_hash_lock >= 0, "mispaired hash locks")do { if (!(_hash_lock >= 0)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1259, "assert(" "_hash_lock >= 0" ") failed", "mispaired hash locks"
); ::breakpoint(); } } while (0)
; }
1260
1261 static void init_NodeProperty();
1262
1263 #if OPTO_DU_ITERATOR_ASSERT1
1264 const Node* _last_del; // The last deleted node.
1265 uint _del_tick; // Bumped when a deletion happens..
1266 #endif
1267#endif
1268};
1269
1270inline bool not_a_node(const Node* n) {
1271 if (n == NULL__null) return true;
1272 if (((intptr_t)n & 1) != 0) return true; // uninitialized, etc.
1273 if (*(address*)n == badAddress((address)::badAddressVal)) return true; // kill by Node::destruct
1274 return false;
1275}
1276
1277//-----------------------------------------------------------------------------
1278// Iterators over DU info, and associated Node functions.
1279
1280#if OPTO_DU_ITERATOR_ASSERT1
1281
1282// Common code for assertion checking on DU iterators.
1283class DUIterator_Common {
1284#ifdef ASSERT1
1285 protected:
1286 bool _vdui; // cached value of VerifyDUIterators
1287 const Node* _node; // the node containing the _out array
1288 uint _outcnt; // cached node->_outcnt
1289 uint _del_tick; // cached node->_del_tick
1290 Node* _last; // last value produced by the iterator
1291
1292 void sample(const Node* node); // used by c'tor to set up for verifies
1293 void verify(const Node* node, bool at_end_ok = false);
1294 void verify_resync();
1295 void reset(const DUIterator_Common& that);
1296
1297// The VDUI_ONLY macro protects code conditionalized on VerifyDUIterators
1298 #define I_VDUI_ONLY(i,x) { if ((i)._vdui) { x; } }
1299#else
1300 #define I_VDUI_ONLY(i,x) { }
1301#endif //ASSERT
1302};
1303
1304#define VDUI_ONLY(x) I_VDUI_ONLY(*this, x)
1305
1306// Default DU iterator. Allows appends onto the out array.
1307// Allows deletion from the out array only at the current point.
1308// Usage:
1309// for (DUIterator i = x->outs(); x->has_out(i); i++) {
1310// Node* y = x->out(i);
1311// ...
1312// }
1313// Compiles in product mode to a unsigned integer index, which indexes
1314// onto a repeatedly reloaded base pointer of x->_out. The loop predicate
1315// also reloads x->_outcnt. If you delete, you must perform "--i" just
1316// before continuing the loop. You must delete only the last-produced
1317// edge. You must delete only a single copy of the last-produced edge,
1318// or else you must delete all copies at once (the first time the edge
1319// is produced by the iterator).
1320class DUIterator : public DUIterator_Common {
1321 friend class Node;
1322
1323 // This is the index which provides the product-mode behavior.
1324 // Whatever the product-mode version of the system does to the
1325 // DUI index is done to this index. All other fields in
1326 // this class are used only for assertion checking.
1327 uint _idx;
1328
1329 #ifdef ASSERT1
1330 uint _refresh_tick; // Records the refresh activity.
1331
1332 void sample(const Node* node); // Initialize _refresh_tick etc.
1333 void verify(const Node* node, bool at_end_ok = false);
1334 void verify_increment(); // Verify an increment operation.
1335 void verify_resync(); // Verify that we can back up over a deletion.
1336 void verify_finish(); // Verify that the loop terminated properly.
1337 void refresh(); // Resample verification info.
1338 void reset(const DUIterator& that); // Resample after assignment.
1339 #endif
1340
1341 DUIterator(const Node* node, int dummy_to_avoid_conversion)
1342 { _idx = 0; debug_only(sample(node))sample(node); }
1343
1344 public:
1345 // initialize to garbage; clear _vdui to disable asserts
1346 DUIterator()
1347 { /*initialize to garbage*/ debug_only(_vdui = false)_vdui = false; }
1348
1349 DUIterator(const DUIterator& that)
1350 { _idx = that._idx; debug_only(_vdui = false; reset(that))_vdui = false; reset(that); }
1351
1352 void operator++(int dummy_to_specify_postfix_op)
1353 { _idx++; VDUI_ONLY(verify_increment()); }
1354
1355 void operator--()
1356 { VDUI_ONLY(verify_resync()); --_idx; }
1357
1358 ~DUIterator()
1359 { VDUI_ONLY(verify_finish()); }
1360
1361 void operator=(const DUIterator& that)
1362 { _idx = that._idx; debug_only(reset(that))reset(that); }
1363};
1364
1365DUIterator Node::outs() const
1366 { return DUIterator(this, 0); }
1367DUIterator& Node::refresh_out_pos(DUIterator& i) const
1368 { I_VDUI_ONLY(i, i.refresh()); return i; }
1369bool Node::has_out(DUIterator& i) const
1370 { I_VDUI_ONLY(i, i.verify(this,true));return i._idx < _outcnt; }
1371Node* Node::out(DUIterator& i) const
1372 { I_VDUI_ONLY(i, i.verify(this)); return debug_only(i._last=)i._last= _out[i._idx]; }
1373
1374
1375// Faster DU iterator. Disallows insertions into the out array.
1376// Allows deletion from the out array only at the current point.
1377// Usage:
1378// for (DUIterator_Fast imax, i = x->fast_outs(imax); i < imax; i++) {
1379// Node* y = x->fast_out(i);
1380// ...
1381// }
1382// Compiles in product mode to raw Node** pointer arithmetic, with
1383// no reloading of pointers from the original node x. If you delete,
1384// you must perform "--i; --imax" just before continuing the loop.
1385// If you delete multiple copies of the same edge, you must decrement
1386// imax, but not i, multiple times: "--i, imax -= num_edges".
1387class DUIterator_Fast : public DUIterator_Common {
1388 friend class Node;
1389 friend class DUIterator_Last;
1390
1391 // This is the pointer which provides the product-mode behavior.
1392 // Whatever the product-mode version of the system does to the
1393 // DUI pointer is done to this pointer. All other fields in
1394 // this class are used only for assertion checking.
1395 Node** _outp;
1396
1397 #ifdef ASSERT1
1398 void verify(const Node* node, bool at_end_ok = false);
1399 void verify_limit();
1400 void verify_resync();
1401 void verify_relimit(uint n);
1402 void reset(const DUIterator_Fast& that);
1403 #endif
1404
1405 // Note: offset must be signed, since -1 is sometimes passed
1406 DUIterator_Fast(const Node* node, ptrdiff_t offset)
1407 { _outp = node->_out + offset; debug_only(sample(node))sample(node); }
1408
1409 public:
1410 // initialize to garbage; clear _vdui to disable asserts
1411 DUIterator_Fast()
1412 { /*initialize to garbage*/ debug_only(_vdui = false)_vdui = false; }
1413
1414 DUIterator_Fast(const DUIterator_Fast& that)
1415 { _outp = that._outp; debug_only(_vdui = false; reset(that))_vdui = false; reset(that); }
1416
1417 void operator++(int dummy_to_specify_postfix_op)
1418 { _outp++; VDUI_ONLY(verify(_node, true)); }
1419
1420 void operator--()
1421 { VDUI_ONLY(verify_resync()); --_outp; }
1422
1423 void operator-=(uint n) // applied to the limit only
1424 { _outp -= n; VDUI_ONLY(verify_relimit(n)); }
1425
1426 bool operator<(DUIterator_Fast& limit) {
1427 I_VDUI_ONLY(*this, this->verify(_node, true));
1428 I_VDUI_ONLY(limit, limit.verify_limit());
1429 return _outp < limit._outp;
1430 }
1431
1432 void operator=(const DUIterator_Fast& that)
1433 { _outp = that._outp; debug_only(reset(that))reset(that); }
1434};
1435
1436DUIterator_Fast Node::fast_outs(DUIterator_Fast& imax) const {
1437 // Assign a limit pointer to the reference argument:
1438 imax = DUIterator_Fast(this, (ptrdiff_t)_outcnt);
1439 // Return the base pointer:
1440 return DUIterator_Fast(this, 0);
1441}
1442Node* Node::fast_out(DUIterator_Fast& i) const {
1443 I_VDUI_ONLY(i, i.verify(this));
1444 return debug_only(i._last=)i._last= *i._outp;
1445}
1446
1447
1448// Faster DU iterator. Requires each successive edge to be removed.
1449// Does not allow insertion of any edges.
1450// Usage:
1451// for (DUIterator_Last imin, i = x->last_outs(imin); i >= imin; i -= num_edges) {
1452// Node* y = x->last_out(i);
1453// ...
1454// }
1455// Compiles in product mode to raw Node** pointer arithmetic, with
1456// no reloading of pointers from the original node x.
1457class DUIterator_Last : private DUIterator_Fast {
1458 friend class Node;
1459
1460 #ifdef ASSERT1
1461 void verify(const Node* node, bool at_end_ok = false);
1462 void verify_limit();
1463 void verify_step(uint num_edges);
1464 #endif
1465
1466 // Note: offset must be signed, since -1 is sometimes passed
1467 DUIterator_Last(const Node* node, ptrdiff_t offset)
1468 : DUIterator_Fast(node, offset) { }
1469
1470 void operator++(int dummy_to_specify_postfix_op) {} // do not use
1471 void operator<(int) {} // do not use
1472
1473 public:
1474 DUIterator_Last() { }
1475 // initialize to garbage
1476
1477 DUIterator_Last(const DUIterator_Last& that) = default;
1478
1479 void operator--()
1480 { _outp--; VDUI_ONLY(verify_step(1)); }
1481
1482 void operator-=(uint n)
1483 { _outp -= n; VDUI_ONLY(verify_step(n)); }
1484
1485 bool operator>=(DUIterator_Last& limit) {
1486 I_VDUI_ONLY(*this, this->verify(_node, true));
1487 I_VDUI_ONLY(limit, limit.verify_limit());
1488 return _outp >= limit._outp;
1489 }
1490
1491 DUIterator_Last& operator=(const DUIterator_Last& that) = default;
1492};
1493
1494DUIterator_Last Node::last_outs(DUIterator_Last& imin) const {
1495 // Assign a limit pointer to the reference argument:
1496 imin = DUIterator_Last(this, 0);
1497 // Return the initial pointer:
1498 return DUIterator_Last(this, (ptrdiff_t)_outcnt - 1);
1499}
1500Node* Node::last_out(DUIterator_Last& i) const {
1501 I_VDUI_ONLY(i, i.verify(this));
1502 return debug_only(i._last=)i._last= *i._outp;
1503}
1504
1505#endif //OPTO_DU_ITERATOR_ASSERT
1506
1507#undef I_VDUI_ONLY
1508#undef VDUI_ONLY
1509
1510// An Iterator that truly follows the iterator pattern. Doesn't
1511// support deletion but could be made to.
1512//
1513// for (SimpleDUIterator i(n); i.has_next(); i.next()) {
1514// Node* m = i.get();
1515//
1516class SimpleDUIterator : public StackObj {
1517 private:
1518 Node* node;
1519 DUIterator_Fast i;
1520 DUIterator_Fast imax;
1521 public:
1522 SimpleDUIterator(Node* n): node(n), i(n->fast_outs(imax)) {}
1523 bool has_next() { return i < imax; }
1524 void next() { i++; }
1525 Node* get() { return node->fast_out(i); }
1526};
1527
1528
1529//-----------------------------------------------------------------------------
1530// Map dense integer indices to Nodes. Uses classic doubling-array trick.
1531// Abstractly provides an infinite array of Node*'s, initialized to NULL.
1532// Note that the constructor just zeros things, and since I use Arena
1533// allocation I do not need a destructor to reclaim storage.
1534class Node_Array : public ResourceObj {
1535 friend class VMStructs;
1536protected:
1537 Arena* _a; // Arena to allocate in
1538 uint _max;
1539 Node** _nodes;
1540 void grow( uint i ); // Grow array node to fit
1541public:
1542 Node_Array(Arena* a, uint max = OptoNodeListSize) : _a(a), _max(max) {
1543 _nodes = NEW_ARENA_ARRAY(a, Node*, max)(Node**) (a)->Amalloc((max) * sizeof(Node*));
1544 clear();
1545 }
1546
1547 Node_Array(Node_Array* na) : _a(na->_a), _max(na->_max), _nodes(na->_nodes) {}
1548 Node *operator[] ( uint i ) const // Lookup, or NULL for not mapped
1549 { return (i<_max) ? _nodes[i] : (Node*)NULL__null; }
1550 Node* at(uint i) const { assert(i<_max,"oob")do { if (!(i<_max)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1550, "assert(" "i<_max" ") failed", "oob"); ::breakpoint
(); } } while (0)
; return _nodes[i]; }
1551 Node** adr() { return _nodes; }
1552 // Extend the mapping: index i maps to Node *n.
1553 void map( uint i, Node *n ) { if( i>=_max ) grow(i); _nodes[i] = n; }
1554 void insert( uint i, Node *n );
1555 void remove( uint i ); // Remove, preserving order
1556 // Clear all entries in _nodes to NULL but keep storage
1557 void clear() {
1558 Copy::zero_to_bytes(_nodes, _max * sizeof(Node*));
1559 }
1560
1561 uint Size() const { return _max; }
1562 void dump() const;
1563};
1564
1565class Node_List : public Node_Array {
1566 friend class VMStructs;
1567 uint _cnt;
1568public:
1569 Node_List(uint max = OptoNodeListSize) : Node_Array(Thread::current()->resource_area(), max), _cnt(0) {}
1570 Node_List(Arena *a, uint max = OptoNodeListSize) : Node_Array(a, max), _cnt(0) {}
1571 bool contains(const Node* n) const {
1572 for (uint e = 0; e < size(); e++) {
1573 if (at(e) == n) return true;
1574 }
1575 return false;
1576 }
1577 void insert( uint i, Node *n ) { Node_Array::insert(i,n); _cnt++; }
1578 void remove( uint i ) { Node_Array::remove(i); _cnt--; }
1579 void push( Node *b ) { map(_cnt++,b); }
1580 void yank( Node *n ); // Find and remove
1581 Node *pop() { return _nodes[--_cnt]; }
1582 void clear() { _cnt = 0; Node_Array::clear(); } // retain storage
1583 void copy(const Node_List& from) {
1584 if (from._max > _max) {
1585 grow(from._max);
1586 }
1587 _cnt = from._cnt;
1588 Copy::conjoint_words_to_higher((HeapWord*)&from._nodes[0], (HeapWord*)&_nodes[0], from._max * sizeof(Node*));
1589 }
1590
1591 uint size() const { return _cnt; }
1592 void dump() const;
1593 void dump_simple() const;
1594};
1595
1596//------------------------------Unique_Node_List-------------------------------
1597class Unique_Node_List : public Node_List {
1598 friend class VMStructs;
1599 VectorSet _in_worklist;
1600 uint _clock_index; // Index in list where to pop from next
1601public:
1602 Unique_Node_List() : Node_List(), _clock_index(0) {}
1603 Unique_Node_List(Arena *a) : Node_List(a), _in_worklist(a), _clock_index(0) {}
1604
1605 void remove( Node *n );
1606 bool member( Node *n ) { return _in_worklist.test(n->_idx) != 0; }
1607 VectorSet& member_set(){ return _in_worklist; }
1608
1609 void push(Node* b) {
1610 if( !_in_worklist.test_set(b->_idx) )
1611 Node_List::push(b);
1612 }
1613 Node *pop() {
1614 if( _clock_index >= size() ) _clock_index = 0;
1615 Node *b = at(_clock_index);
1616 map( _clock_index, Node_List::pop());
1617 if (size() != 0) _clock_index++; // Always start from 0
1618 _in_worklist.remove(b->_idx);
1619 return b;
1620 }
1621 Node *remove(uint i) {
1622 Node *b = Node_List::at(i);
1623 _in_worklist.remove(b->_idx);
1624 map(i,Node_List::pop());
1625 return b;
1626 }
1627 void yank(Node *n) {
1628 _in_worklist.remove(n->_idx);
1629 Node_List::yank(n);
1630 }
1631 void clear() {
1632 _in_worklist.clear(); // Discards storage but grows automatically
1633 Node_List::clear();
1634 _clock_index = 0;
1635 }
1636
1637 // Used after parsing to remove useless nodes before Iterative GVN
1638 void remove_useless_nodes(VectorSet& useful);
1639
1640 bool contains(const Node* n) const {
1641 fatal("use faster member() instead")do { (*g_assert_poison) = 'X';; report_fatal(INTERNAL_ERROR, "/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1641, "use faster member() instead"); ::breakpoint(); } while
(0)
;
1642 return false;
1643 }
1644
1645#ifndef PRODUCT
1646 void print_set() const { _in_worklist.print(); }
1647#endif
1648};
1649
1650// Inline definition of Compile::record_for_igvn must be deferred to this point.
1651inline void Compile::record_for_igvn(Node* n) {
1652 _for_igvn->push(n);
1653}
1654
1655//------------------------------Node_Stack-------------------------------------
1656class Node_Stack {
1657 friend class VMStructs;
1658protected:
1659 struct INode {
1660 Node *node; // Processed node
1661 uint indx; // Index of next node's child
1662 };
1663 INode *_inode_top; // tos, stack grows up
1664 INode *_inode_max; // End of _inodes == _inodes + _max
1665 INode *_inodes; // Array storage for the stack
1666 Arena *_a; // Arena to allocate in
1667 void grow();
1668public:
1669 Node_Stack(int size) {
1670 size_t max = (size > OptoNodeListSize) ? size : OptoNodeListSize;
1671 _a = Thread::current()->resource_area();
1672 _inodes = NEW_ARENA_ARRAY( _a, INode, max )(INode*) (_a)->Amalloc((max) * sizeof(INode));
1673 _inode_max = _inodes + max;
1674 _inode_top = _inodes - 1; // stack is empty
1675 }
1676
1677 Node_Stack(Arena *a, int size) : _a(a) {
1678 size_t max = (size > OptoNodeListSize) ? size : OptoNodeListSize;
1679 _inodes = NEW_ARENA_ARRAY( _a, INode, max )(INode*) (_a)->Amalloc((max) * sizeof(INode));
1680 _inode_max = _inodes + max;
1681 _inode_top = _inodes - 1; // stack is empty
1682 }
1683
1684 void pop() {
1685 assert(_inode_top >= _inodes, "node stack underflow")do { if (!(_inode_top >= _inodes)) { (*g_assert_poison) = 'X'
;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1685, "assert(" "_inode_top >= _inodes" ") failed", "node stack underflow"
); ::breakpoint(); } } while (0)
;
1686 --_inode_top;
1687 }
1688 void push(Node *n, uint i) {
1689 ++_inode_top;
1690 if (_inode_top >= _inode_max) grow();
1691 INode *top = _inode_top; // optimization
1692 top->node = n;
1693 top->indx = i;
1694 }
1695 Node *node() const {
1696 return _inode_top->node;
1697 }
1698 Node* node_at(uint i) const {
1699 assert(_inodes + i <= _inode_top, "in range")do { if (!(_inodes + i <= _inode_top)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1699, "assert(" "_inodes + i <= _inode_top" ") failed", "in range"
); ::breakpoint(); } } while (0)
;
1700 return _inodes[i].node;
1701 }
1702 uint index() const {
1703 return _inode_top->indx;
1704 }
1705 uint index_at(uint i) const {
1706 assert(_inodes + i <= _inode_top, "in range")do { if (!(_inodes + i <= _inode_top)) { (*g_assert_poison
) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1706, "assert(" "_inodes + i <= _inode_top" ") failed", "in range"
); ::breakpoint(); } } while (0)
;
1707 return _inodes[i].indx;
1708 }
1709 void set_node(Node *n) {
1710 _inode_top->node = n;
1711 }
1712 void set_index(uint i) {
1713 _inode_top->indx = i;
1714 }
1715 uint size_max() const { return (uint)pointer_delta(_inode_max, _inodes, sizeof(INode)); } // Max size
1716 uint size() const { return (uint)pointer_delta((_inode_top+1), _inodes, sizeof(INode)); } // Current size
1717 bool is_nonempty() const { return (_inode_top >= _inodes); }
1718 bool is_empty() const { return (_inode_top < _inodes); }
1719 void clear() { _inode_top = _inodes - 1; } // retain storage
1720
1721 // Node_Stack is used to map nodes.
1722 Node* find(uint idx) const;
1723};
1724
1725
1726//-----------------------------Node_Notes--------------------------------------
1727// Debugging or profiling annotations loosely and sparsely associated
1728// with some nodes. See Compile::node_notes_at for the accessor.
1729class Node_Notes {
1730 friend class VMStructs;
1731 JVMState* _jvms;
1732
1733public:
1734 Node_Notes(JVMState* jvms = NULL__null) {
1735 _jvms = jvms;
1736 }
1737
1738 JVMState* jvms() { return _jvms; }
1739 void set_jvms(JVMState* x) { _jvms = x; }
1740
1741 // True if there is nothing here.
1742 bool is_clear() {
1743 return (_jvms == NULL__null);
1744 }
1745
1746 // Make there be nothing here.
1747 void clear() {
1748 _jvms = NULL__null;
1749 }
1750
1751 // Make a new, clean node notes.
1752 static Node_Notes* make(Compile* C) {
1753 Node_Notes* nn = NEW_ARENA_ARRAY(C->comp_arena(), Node_Notes, 1)(Node_Notes*) (C->comp_arena())->Amalloc((1) * sizeof(Node_Notes
))
;
1754 nn->clear();
1755 return nn;
1756 }
1757
1758 Node_Notes* clone(Compile* C) {
1759 Node_Notes* nn = NEW_ARENA_ARRAY(C->comp_arena(), Node_Notes, 1)(Node_Notes*) (C->comp_arena())->Amalloc((1) * sizeof(Node_Notes
))
;
1760 (*nn) = (*this);
1761 return nn;
1762 }
1763
1764 // Absorb any information from source.
1765 bool update_from(Node_Notes* source) {
1766 bool changed = false;
1767 if (source != NULL__null) {
1768 if (source->jvms() != NULL__null) {
1769 set_jvms(source->jvms());
1770 changed = true;
1771 }
1772 }
1773 return changed;
1774 }
1775};
1776
1777// Inlined accessors for Compile::node_nodes that require the preceding class:
1778inline Node_Notes*
1779Compile::locate_node_notes(GrowableArray<Node_Notes*>* arr,
1780 int idx, bool can_grow) {
1781 assert(idx >= 0, "oob")do { if (!(idx >= 0)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1781, "assert(" "idx >= 0" ") failed", "oob"); ::breakpoint
(); } } while (0)
;
1782 int block_idx = (idx >> _log2_node_notes_block_size);
1783 int grow_by = (block_idx - (arr == NULL__null? 0: arr->length()));
1784 if (grow_by >= 0) {
1785 if (!can_grow) return NULL__null;
1786 grow_node_notes(arr, grow_by + 1);
1787 }
1788 if (arr == NULL__null) return NULL__null;
1789 // (Every element of arr is a sub-array of length _node_notes_block_size.)
1790 return arr->at(block_idx) + (idx & (_node_notes_block_size-1));
1791}
1792
1793inline bool
1794Compile::set_node_notes_at(int idx, Node_Notes* value) {
1795 if (value == NULL__null || value->is_clear())
1796 return false; // nothing to write => write nothing
1797 Node_Notes* loc = locate_node_notes(_node_note_array, idx, true);
1798 assert(loc != NULL, "")do { if (!(loc != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1798, "assert(" "loc != __null" ") failed", ""); ::breakpoint
(); } } while (0)
;
1799 return loc->update_from(value);
1800}
1801
1802
1803//------------------------------TypeNode---------------------------------------
1804// Node with a Type constant.
1805class TypeNode : public Node {
1806protected:
1807 virtual uint hash() const; // Check the type
1808 virtual bool cmp( const Node &n ) const;
1809 virtual uint size_of() const; // Size is bigger
1810 const Type* const _type;
1811public:
1812 void set_type(const Type* t) {
1813 assert(t != NULL, "sanity")do { if (!(t != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1813, "assert(" "t != __null" ") failed", "sanity"); ::breakpoint
(); } } while (0)
;
1814 debug_only(uint check_hash = (VerifyHashTableKeys && _hash_lock) ? hash() : NO_HASH)uint check_hash = (VerifyHashTableKeys && _hash_lock)
? hash() : NO_HASH
;
1815 *(const Type**)&_type = t; // cast away const-ness
1816 // If this node is in the hash table, make sure it doesn't need a rehash.
1817 assert(check_hash == NO_HASH || check_hash == hash(), "type change must preserve hash code")do { if (!(check_hash == NO_HASH || check_hash == hash())) { (
*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1817, "assert(" "check_hash == NO_HASH || check_hash == hash()"
") failed", "type change must preserve hash code"); ::breakpoint
(); } } while (0)
;
1818 }
1819 const Type* type() const { assert(_type != NULL, "sanity")do { if (!(_type != __null)) { (*g_assert_poison) = 'X';; report_vm_error
("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1819, "assert(" "_type != __null" ") failed", "sanity"); ::
breakpoint(); } } while (0)
; return _type; };
1820 TypeNode( const Type *t, uint required ) : Node(required), _type(t) {
1821 init_class_id(Class_Type);
1822 }
1823 virtual const Type* Value(PhaseGVN* phase) const;
1824 virtual const Type *bottom_type() const;
1825 virtual uint ideal_reg() const;
1826#ifndef PRODUCT
1827 virtual void dump_spec(outputStream *st) const;
1828 virtual void dump_compact_spec(outputStream *st) const;
1829#endif
1830};
1831
1832#include "opto/opcodes.hpp"
1833
1834#define Op_IL(op)inline int Op_op(BasicType bt) { do { if (!(bt == T_INT || bt
== T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1834, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_opI
; } return Op_opL; }
\
1835 inline int Op_ ## op(BasicType bt) { \
1836 assert(bt == T_INT || bt == T_LONG, "only for int or longs")do { if (!(bt == T_INT || bt == T_LONG)) { (*g_assert_poison)
= 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1836, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0)
; \
1837 if (bt == T_INT) { \
1838 return Op_## op ## I; \
1839 } \
1840 return Op_## op ## L; \
1841}
1842
1843Op_IL(Add)inline int Op_Add(BasicType bt) { do { if (!(bt == T_INT || bt
== T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1843, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_AddI
; } return Op_AddL; }
1844Op_IL(Sub)inline int Op_Sub(BasicType bt) { do { if (!(bt == T_INT || bt
== T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1844, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_SubI
; } return Op_SubL; }
1845Op_IL(Mul)inline int Op_Mul(BasicType bt) { do { if (!(bt == T_INT || bt
== T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1845, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_MulI
; } return Op_MulL; }
1846Op_IL(URShift)inline int Op_URShift(BasicType bt) { do { if (!(bt == T_INT ||
bt == T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error(
"/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1846, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_URShiftI
; } return Op_URShiftL; }
1847Op_IL(LShift)inline int Op_LShift(BasicType bt) { do { if (!(bt == T_INT ||
bt == T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error(
"/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1847, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_LShiftI
; } return Op_LShiftL; }
1848Op_IL(Xor)inline int Op_Xor(BasicType bt) { do { if (!(bt == T_INT || bt
== T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1848, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_XorI
; } return Op_XorL; }
1849Op_IL(Cmp)inline int Op_Cmp(BasicType bt) { do { if (!(bt == T_INT || bt
== T_LONG)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1849, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0); if (bt == T_INT) { return Op_CmpI
; } return Op_CmpL; }
1850
1851inline int Op_Cmp_unsigned(BasicType bt) {
1852 assert(bt == T_INT || bt == T_LONG, "only for int or longs")do { if (!(bt == T_INT || bt == T_LONG)) { (*g_assert_poison)
= 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1852, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0)
;
1853 if (bt == T_INT) {
1854 return Op_CmpU;
1855 }
1856 return Op_CmpUL;
1857}
1858
1859inline int Op_Cast(BasicType bt) {
1860 assert(bt == T_INT || bt == T_LONG, "only for int or longs")do { if (!(bt == T_INT || bt == T_LONG)) { (*g_assert_poison)
= 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/node.hpp"
, 1860, "assert(" "bt == T_INT || bt == T_LONG" ") failed", "only for int or longs"
); ::breakpoint(); } } while (0)
;
1861 if (bt == T_INT) {
1862 return Op_CastII;
1863 }
1864 return Op_CastLL;
1865}
1866
1867#endif // SHARE_OPTO_NODE_HPP