/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp

Bug Summary

File:	jdk/src/hotspot/share/opto/parse2.cpp
Warning:	line 2550, column 5 Value stored to 'c' is never read

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 parse2.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/opto/parse2.cpp

1	/*
2	* Copyright (c) 1998, 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	#include "precompiled.hpp"
26	#include "jvm_io.h"
27	#include "ci/ciMethodData.hpp"
28	#include "classfile/vmSymbols.hpp"
29	#include "compiler/compileLog.hpp"
30	#include "interpreter/linkResolver.hpp"
31	#include "memory/resourceArea.hpp"
32	#include "memory/universe.hpp"
33	#include "oops/oop.inline.hpp"
34	#include "opto/addnode.hpp"
35	#include "opto/castnode.hpp"
36	#include "opto/convertnode.hpp"
37	#include "opto/divnode.hpp"
38	#include "opto/idealGraphPrinter.hpp"
39	#include "opto/matcher.hpp"
40	#include "opto/memnode.hpp"
41	#include "opto/mulnode.hpp"
42	#include "opto/opaquenode.hpp"
43	#include "opto/parse.hpp"
44	#include "opto/runtime.hpp"
45	#include "runtime/deoptimization.hpp"
46	#include "runtime/sharedRuntime.hpp"
47
48	#ifndef PRODUCT
49	extern int explicit_null_checks_inserted,
50	explicit_null_checks_elided;
51	#endif
52
53	//---------------------------------array_load----------------------------------
54	void Parse::array_load(BasicType bt) {
55	const Type* elemtype = Type::TOP;
56	bool big_val = bt == T_DOUBLE \|\| bt == T_LONG;
57	Node* adr = array_addressing(bt, 0, elemtype);
58	if (stopped()) return; // guaranteed null or range check
59
60	pop(); // index (already used)
61	Node* array = pop(); // the array itself
62
63	if (elemtype == TypeInt::BOOL) {
64	bt = T_BOOLEAN;
65	}
66	const TypeAryPtr* adr_type = TypeAryPtr::get_array_body_type(bt);
67
68	Node* ld = access_load_at(array, adr, adr_type, elemtype, bt,
69	IN_HEAP \| IS_ARRAY \| C2_CONTROL_DEPENDENT_LOAD);
70	if (big_val) {
71	push_pair(ld);
72	} else {
73	push(ld);
74	}
75	}
76
77
78	//--------------------------------array_store----------------------------------
79	void Parse::array_store(BasicType bt) {
80	const Type* elemtype = Type::TOP;
81	bool big_val = bt == T_DOUBLE \|\| bt == T_LONG;
82	Node* adr = array_addressing(bt, big_val ? 2 : 1, elemtype);
83	if (stopped()) return; // guaranteed null or range check
84	if (bt == T_OBJECT) {
85	array_store_check();
86	if (stopped()) {
87	return;
88	}
89	}
90	Node* val; // Oop to store
91	if (big_val) {
92	val = pop_pair();
93	} else {
94	val = pop();
95	}
96	pop(); // index (already used)
97	Node* array = pop(); // the array itself
98
99	if (elemtype == TypeInt::BOOL) {
100	bt = T_BOOLEAN;
101	}
102	const TypeAryPtr* adr_type = TypeAryPtr::get_array_body_type(bt);
103
104	access_store_at(array, adr, adr_type, val, elemtype, bt, MO_UNORDERED \| IN_HEAP \| IS_ARRAY);
105	}
106
107
108	//------------------------------array_addressing-------------------------------
109	// Pull array and index from the stack. Compute pointer-to-element.
110	Node* Parse::array_addressing(BasicType type, int vals, const Type*& elemtype) {
111	Node *idx = peek(0+vals); // Get from stack without popping
112	Node *ary = peek(1+vals); // in case of exception
113
114	// Null check the array base, with correct stack contents
115	ary = null_check(ary, T_ARRAY);
116	// Compile-time detect of null-exception?
117	if (stopped()) return top();
118
119	const TypeAryPtr* arytype = _gvn.type(ary)->is_aryptr();
120	const TypeInt* sizetype = arytype->size();
121	elemtype = arytype->elem();
122
123	if (UseUniqueSubclasses) {
124	const Type* el = elemtype->make_ptr();
125	if (el && el->isa_instptr()) {
126	const TypeInstPtr* toop = el->is_instptr();
127	if (toop->klass()->as_instance_klass()->unique_concrete_subklass()) {
128	// If we load from "AbstractClass[]" we must see "ConcreteSubClass".
129	const Type* subklass = Type::get_const_type(toop->klass());
130	elemtype = subklass->join_speculative(el);
131	}
132	}
133	}
134
135	// Check for big class initializers with all constant offsets
136	// feeding into a known-size array.
137	const TypeInt* idxtype = _gvn.type(idx)->is_int();
138	// See if the highest idx value is less than the lowest array bound,
139	// and if the idx value cannot be negative:
140	bool need_range_check = true;
141	if (idxtype->_hi < sizetype->_lo && idxtype->_lo >= 0) {
142	need_range_check = false;
143	if (C->log() != NULL__null) C->log()->elem("observe that='!need_range_check'");
144	}
145
146	ciKlass * arytype_klass = arytype->klass();
147	if ((arytype_klass != NULL__null) && (!arytype_klass->is_loaded())) {
148	// Only fails for some -Xcomp runs
149	// The class is unloaded. We have to run this bytecode in the interpreter.
150	uncommon_trap(Deoptimization::Reason_unloaded,
151	Deoptimization::Action_reinterpret,
152	arytype->klass(), "!loaded array");
153	return top();
154	}
155
156	// Do the range check
157	if (GenerateRangeChecks && need_range_check) {
158	Node* tst;
159	if (sizetype->_hi <= 0) {
160	// The greatest array bound is negative, so we can conclude that we're
161	// compiling unreachable code, but the unsigned compare trick used below
162	// only works with non-negative lengths. Instead, hack "tst" to be zero so
163	// the uncommon_trap path will always be taken.
164	tst = _gvn.intcon(0);
165	} else {
166	// Range is constant in array-oop, so we can use the original state of mem
167	Node* len = load_array_length(ary);
168
169	// Test length vs index (standard trick using unsigned compare)
170	Node* chk = _gvn.transform( new CmpUNode(idx, len) );
171	BoolTest::mask btest = BoolTest::lt;
172	tst = _gvn.transform( new BoolNode(chk, btest) );
173	}
174	RangeCheckNode* rc = new RangeCheckNode(control(), tst, PROB_MAX(1.0f-(1e-6f)), COUNT_UNKNOWN(-1.0f));
175	_gvn.set_type(rc, rc->Value(&_gvn));
176	if (!tst->is_Con()) {
177	record_for_igvn(rc);
178	}
179	set_control(_gvn.transform(new IfTrueNode(rc)));
180	// Branch to failure if out of bounds
181	{
182	PreserveJVMState pjvms(this);
183	set_control(_gvn.transform(new IfFalseNode(rc)));
184	if (C->allow_range_check_smearing()) {
185	// Do not use builtin_throw, since range checks are sometimes
186	// made more stringent by an optimistic transformation.
187	// This creates "tentative" range checks at this point,
188	// which are not guaranteed to throw exceptions.
189	// See IfNode::Ideal, is_range_check, adjust_check.
190	uncommon_trap(Deoptimization::Reason_range_check,
191	Deoptimization::Action_make_not_entrant,
192	NULL__null, "range_check");
193	} else {
194	// If we have already recompiled with the range-check-widening
195	// heroic optimization turned off, then we must really be throwing
196	// range check exceptions.
197	builtin_throw(Deoptimization::Reason_range_check, idx);
198	}
199	}
200	}
201	// Check for always knowing you are throwing a range-check exception
202	if (stopped()) return top();
203
204	// Make array address computation control dependent to prevent it
205	// from floating above the range check during loop optimizations.
206	Node* ptr = array_element_address(ary, idx, type, sizetype, control());
207	assert(ptr != top(), "top should go hand-in-hand with stopped")do { if (!(ptr != top())) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 207, "assert(" "ptr != top()" ") failed", "top should go hand-in-hand with stopped" ); ::breakpoint(); } } while (0);
208
209	return ptr;
210	}
211
212
213	// returns IfNode
214	IfNode* Parse::jump_if_fork_int(Node* a, Node* b, BoolTest::mask mask, float prob, float cnt) {
215	Node *cmp = _gvn.transform(new CmpINode(a, b)); // two cases: shiftcount > 32 and shiftcount <= 32
216	Node *tst = _gvn.transform(new BoolNode(cmp, mask));
217	IfNode *iff = create_and_map_if(control(), tst, prob, cnt);
218	return iff;
219	}
220
221
222	// sentinel value for the target bci to mark never taken branches
223	// (according to profiling)
224	static const int never_reached = INT_MAX2147483647;
225
226	//------------------------------helper for tableswitch-------------------------
227	void Parse::jump_if_true_fork(IfNode *iff, int dest_bci_if_true, bool unc) {
228	// True branch, use existing map info
229	{ PreserveJVMState pjvms(this);
230	Node *iftrue = _gvn.transform( new IfTrueNode (iff) );
231	set_control( iftrue );
232	if (unc) {
233	repush_if_args();
234	uncommon_trap(Deoptimization::Reason_unstable_if,
235	Deoptimization::Action_reinterpret,
236	NULL__null,
237	"taken always");
238	} else {
239	assert(dest_bci_if_true != never_reached, "inconsistent dest")do { if (!(dest_bci_if_true != never_reached)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 239, "assert(" "dest_bci_if_true != never_reached" ") failed" , "inconsistent dest"); ::breakpoint(); } } while (0);
240	merge_new_path(dest_bci_if_true);
241	}
242	}
243
244	// False branch
245	Node *iffalse = _gvn.transform( new IfFalseNode(iff) );
246	set_control( iffalse );
247	}
248
249	void Parse::jump_if_false_fork(IfNode *iff, int dest_bci_if_true, bool unc) {
250	// True branch, use existing map info
251	{ PreserveJVMState pjvms(this);
252	Node *iffalse = _gvn.transform( new IfFalseNode (iff) );
253	set_control( iffalse );
254	if (unc) {
255	repush_if_args();
256	uncommon_trap(Deoptimization::Reason_unstable_if,
257	Deoptimization::Action_reinterpret,
258	NULL__null,
259	"taken never");
260	} else {
261	assert(dest_bci_if_true != never_reached, "inconsistent dest")do { if (!(dest_bci_if_true != never_reached)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 261, "assert(" "dest_bci_if_true != never_reached" ") failed" , "inconsistent dest"); ::breakpoint(); } } while (0);
262	merge_new_path(dest_bci_if_true);
263	}
264	}
265
266	// False branch
267	Node *iftrue = _gvn.transform( new IfTrueNode(iff) );
268	set_control( iftrue );
269	}
270
271	void Parse::jump_if_always_fork(int dest_bci, bool unc) {
272	// False branch, use existing map and control()
273	if (unc) {
274	repush_if_args();
275	uncommon_trap(Deoptimization::Reason_unstable_if,
276	Deoptimization::Action_reinterpret,
277	NULL__null,
278	"taken never");
279	} else {
280	assert(dest_bci != never_reached, "inconsistent dest")do { if (!(dest_bci != never_reached)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 280, "assert(" "dest_bci != never_reached" ") failed", "inconsistent dest" ); ::breakpoint(); } } while (0);
281	merge_new_path(dest_bci);
282	}
283	}
284
285
286	extern "C" {
287	static int jint_cmp(const void i, const void j) {
288	int a = (jint )i;
289	int b = (jint )j;
290	return a > b ? 1 : a < b ? -1 : 0;
291	}
292	}
293
294
295	class SwitchRange : public StackObj {
296	// a range of integers coupled with a bci destination
297	jint _lo; // inclusive lower limit
298	jint _hi; // inclusive upper limit
299	int _dest;
300	float _cnt; // how many times this range was hit according to profiling
301
302	public:
303	jint lo() const { return _lo; }
304	jint hi() const { return _hi; }
305	int dest() const { return _dest; }
306	bool is_singleton() const { return _lo == _hi; }
307	float cnt() const { return _cnt; }
308
309	void setRange(jint lo, jint hi, int dest, float cnt) {
310	assert(lo <= hi, "must be a non-empty range")do { if (!(lo <= hi)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 310, "assert(" "lo <= hi" ") failed", "must be a non-empty range" ); ::breakpoint(); } } while (0);
311	_lo = lo, _hi = hi; _dest = dest; _cnt = cnt;
312	assert(_cnt >= 0, "")do { if (!(_cnt >= 0)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 312, "assert(" "_cnt >= 0" ") failed", ""); ::breakpoint (); } } while (0);
313	}
314	bool adjoinRange(jint lo, jint hi, int dest, float cnt, bool trim_ranges) {
315	assert(lo <= hi, "must be a non-empty range")do { if (!(lo <= hi)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 315, "assert(" "lo <= hi" ") failed", "must be a non-empty range" ); ::breakpoint(); } } while (0);
316	if (lo == _hi+1) {
317	// see merge_ranges() comment below
318	if (trim_ranges) {
319	if (cnt == 0) {
320	if (_cnt != 0) {
321	return false;
322	}
323	if (dest != _dest) {
324	_dest = never_reached;
325	}
326	} else {
327	if (_cnt == 0) {
328	return false;
329	}
330	if (dest != _dest) {
331	return false;
332	}
333	}
334	} else {
335	if (dest != _dest) {
336	return false;
337	}
338	}
339	_hi = hi;
340	_cnt += cnt;
341	return true;
342	}
343	return false;
344	}
345
346	void set (jint value, int dest, float cnt) {
347	setRange(value, value, dest, cnt);
348	}
349	bool adjoin(jint value, int dest, float cnt, bool trim_ranges) {
350	return adjoinRange(value, value, dest, cnt, trim_ranges);
351	}
352	bool adjoin(SwitchRange& other) {
353	return adjoinRange(other._lo, other._hi, other._dest, other._cnt, false);
354	}
355
356	void print() {
357	if (is_singleton())
358	tty->print(" {%d}=>%d (cnt=%f)", lo(), dest(), cnt());
359	else if (lo() == min_jint)
360	tty->print(" {..%d}=>%d (cnt=%f)", hi(), dest(), cnt());
361	else if (hi() == max_jint)
362	tty->print(" {%d..}=>%d (cnt=%f)", lo(), dest(), cnt());
363	else
364	tty->print(" {%d..%d}=>%d (cnt=%f)", lo(), hi(), dest(), cnt());
365	}
366	};
367
368	// We try to minimize the number of ranges and the size of the taken
369	// ones using profiling data. When ranges are created,
370	// SwitchRange::adjoinRange() only allows 2 adjoining ranges to merge
371	// if both were never hit or both were hit to build longer unreached
372	// ranges. Here, we now merge adjoining ranges with the same
373	// destination and finally set destination of unreached ranges to the
374	// special value never_reached because it can help minimize the number
375	// of tests that are necessary.
376	//
377	// For instance:
378	// [0, 1] to target1 sometimes taken
379	// [1, 2] to target1 never taken
380	// [2, 3] to target2 never taken
381	// would lead to:
382	// [0, 1] to target1 sometimes taken
383	// [1, 3] never taken
384	//
385	// (first 2 ranges to target1 are not merged)
386	static void merge_ranges(SwitchRange* ranges, int& rp) {
387	if (rp == 0) {
388	return;
389	}
390	int shift = 0;
391	for (int j = 0; j < rp; j++) {
392	SwitchRange& r1 = ranges[j-shift];
393	SwitchRange& r2 = ranges[j+1];
394	if (r1.adjoin(r2)) {
395	shift++;
396	} else if (shift > 0) {
397	ranges[j+1-shift] = r2;
398	}
399	}
400	rp -= shift;
401	for (int j = 0; j <= rp; j++) {
402	SwitchRange& r = ranges[j];
403	if (r.cnt() == 0 && r.dest() != never_reached) {
404	r.setRange(r.lo(), r.hi(), never_reached, r.cnt());
405	}
406	}
407	}
408
409	//-------------------------------do_tableswitch--------------------------------
410	void Parse::do_tableswitch() {
411	// Get information about tableswitch
412	int default_dest = iter().get_dest_table(0);
413	jint lo_index = iter().get_int_table(1);
414	jint hi_index = iter().get_int_table(2);
415	int len = hi_index - lo_index + 1;
416
417	if (len < 1) {
418	// If this is a backward branch, add safepoint
419	maybe_add_safepoint(default_dest);
420	pop(); // the effect of the instruction execution on the operand stack
421	merge(default_dest);
422	return;
423	}
424
425	ciMethodData* methodData = method()->method_data();
426	ciMultiBranchData* profile = NULL__null;
427	if (methodData->is_mature() && UseSwitchProfiling) {
428	ciProfileData* data = methodData->bci_to_data(bci());
429	if (data != NULL__null && data->is_MultiBranchData()) {
430	profile = (ciMultiBranchData*)data;
431	}
432	}
433	bool trim_ranges = !C->too_many_traps(method(), bci(), Deoptimization::Reason_unstable_if);
434
435	// generate decision tree, using trichotomy when possible
436	int rnum = len+2;
437	bool makes_backward_branch = false;
438	SwitchRange* ranges = NEW_RESOURCE_ARRAY(SwitchRange, rnum)(SwitchRange) resource_allocate_bytes((rnum) sizeof(SwitchRange ));
439	int rp = -1;
440	if (lo_index != min_jint) {
441	float cnt = 1.0F;
442	if (profile != NULL__null) {
443	cnt = (float)profile->default_count() / (hi_index != max_jint ? 2.0F : 1.0F);
444	}
445	ranges[++rp].setRange(min_jint, lo_index-1, default_dest, cnt);
446	}
447	for (int j = 0; j < len; j++) {
448	jint match_int = lo_index+j;
449	int dest = iter().get_dest_table(j+3);
450	makes_backward_branch \|= (dest <= bci());
451	float cnt = 1.0F;
452	if (profile != NULL__null) {
453	cnt = (float)profile->count_at(j);
454	}
455	if (rp < 0 \|\| !ranges[rp].adjoin(match_int, dest, cnt, trim_ranges)) {
456	ranges[++rp].set(match_int, dest, cnt);
457	}
458	}
459	jint highest = lo_index+(len-1);
460	assert(ranges[rp].hi() == highest, "")do { if (!(ranges[rp].hi() == highest)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 460, "assert(" "ranges[rp].hi() == highest" ") failed", "") ; ::breakpoint(); } } while (0);
461	if (highest != max_jint) {
462	float cnt = 1.0F;
463	if (profile != NULL__null) {
464	cnt = (float)profile->default_count() / (lo_index != min_jint ? 2.0F : 1.0F);
465	}
466	if (!ranges[rp].adjoinRange(highest+1, max_jint, default_dest, cnt, trim_ranges)) {
467	ranges[++rp].setRange(highest+1, max_jint, default_dest, cnt);
468	}
469	}
470	assert(rp < len+2, "not too many ranges")do { if (!(rp < len+2)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 470, "assert(" "rp < len+2" ") failed", "not too many ranges" ); ::breakpoint(); } } while (0);
471
472	if (trim_ranges) {
473	merge_ranges(ranges, rp);
474	}
475
476	// Safepoint in case if backward branch observed
477	if (makes_backward_branch) {
478	add_safepoint();
479	}
480
481	Node* lookup = pop(); // lookup value
482	jump_switch_ranges(lookup, &ranges[0], &ranges[rp]);
483	}
484
485
486	//------------------------------do_lookupswitch--------------------------------
487	void Parse::do_lookupswitch() {
488	// Get information about lookupswitch
489	int default_dest = iter().get_dest_table(0);
490	jint len = iter().get_int_table(1);
491
492	if (len < 1) { // If this is a backward branch, add safepoint
493	maybe_add_safepoint(default_dest);
494	pop(); // the effect of the instruction execution on the operand stack
495	merge(default_dest);
496	return;
497	}
498
499	ciMethodData* methodData = method()->method_data();
500	ciMultiBranchData* profile = NULL__null;
501	if (methodData->is_mature() && UseSwitchProfiling) {
502	ciProfileData* data = methodData->bci_to_data(bci());
503	if (data != NULL__null && data->is_MultiBranchData()) {
504	profile = (ciMultiBranchData*)data;
505	}
506	}
507	bool trim_ranges = !C->too_many_traps(method(), bci(), Deoptimization::Reason_unstable_if);
508
509	// generate decision tree, using trichotomy when possible
510	jint* table = NEW_RESOURCE_ARRAY(jint, len3)(jint) resource_allocate_bytes((len3) sizeof(jint));
511	{
512	for (int j = 0; j < len; j++) {
513	table[3j+0] = iter().get_int_table(2+2j);
514	table[3j+1] = iter().get_dest_table(2+2j+1);
515	// Handle overflow when converting from uint to jint
516	table[3*j+2] = (profile == NULL__null) ? 1 : (jint)MIN2<uint>((uint)max_jint, profile->count_at(j));
517	}
518	qsort(table, len, 3*sizeof(table[0]), jint_cmp);
519	}
520
521	float default_cnt = 1.0F;
522	if (profile != NULL__null) {
523	juint defaults = max_juint - len;
524	default_cnt = (float)profile->default_count()/(float)defaults;
525	}
526
527	int rnum = len*2+1;
528	bool makes_backward_branch = false;
529	SwitchRange* ranges = NEW_RESOURCE_ARRAY(SwitchRange, rnum)(SwitchRange) resource_allocate_bytes((rnum) sizeof(SwitchRange ));
530	int rp = -1;
531	for (int j = 0; j < len; j++) {
532	jint match_int = table[3*j+0];
533	jint dest = table[3*j+1];
534	jint cnt = table[3*j+2];
535	jint next_lo = rp < 0 ? min_jint : ranges[rp].hi()+1;
536	makes_backward_branch \|= (dest <= bci());
537	float c = default_cnt * ((float)match_int - (float)next_lo);
538	if (match_int != next_lo && (rp < 0 \|\| !ranges[rp].adjoinRange(next_lo, match_int-1, default_dest, c, trim_ranges))) {
539	assert(default_dest != never_reached, "sentinel value for dead destinations")do { if (!(default_dest != never_reached)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 539, "assert(" "default_dest != never_reached" ") failed", "sentinel value for dead destinations" ); ::breakpoint(); } } while (0);
540	ranges[++rp].setRange(next_lo, match_int-1, default_dest, c);
541	}
542	if (rp < 0 \|\| !ranges[rp].adjoin(match_int, dest, (float)cnt, trim_ranges)) {
543	assert(dest != never_reached, "sentinel value for dead destinations")do { if (!(dest != never_reached)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 543, "assert(" "dest != never_reached" ") failed", "sentinel value for dead destinations" ); ::breakpoint(); } } while (0);
544	ranges[++rp].set(match_int, dest, (float)cnt);
545	}
546	}
547	jint highest = table[3*(len-1)];
548	assert(ranges[rp].hi() == highest, "")do { if (!(ranges[rp].hi() == highest)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 548, "assert(" "ranges[rp].hi() == highest" ") failed", "") ; ::breakpoint(); } } while (0);
549	if (highest != max_jint &&
550	!ranges[rp].adjoinRange(highest+1, max_jint, default_dest, default_cnt * ((float)max_jint - (float)highest), trim_ranges)) {
551	ranges[++rp].setRange(highest+1, max_jint, default_dest, default_cnt * ((float)max_jint - (float)highest));
552	}
553	assert(rp < rnum, "not too many ranges")do { if (!(rp < rnum)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 553, "assert(" "rp < rnum" ") failed", "not too many ranges" ); ::breakpoint(); } } while (0);
554
555	if (trim_ranges) {
556	merge_ranges(ranges, rp);
557	}
558
559	// Safepoint in case backward branch observed
560	if (makes_backward_branch) {
561	add_safepoint();
562	}
563
564	Node *lookup = pop(); // lookup value
565	jump_switch_ranges(lookup, &ranges[0], &ranges[rp]);
566	}
567
568	static float if_prob(float taken_cnt, float total_cnt) {
569	assert(taken_cnt <= total_cnt, "")do { if (!(taken_cnt <= total_cnt)) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 569, "assert(" "taken_cnt <= total_cnt" ") failed", ""); ::breakpoint(); } } while (0);
570	if (total_cnt == 0) {
571	return PROB_FAIR(0.5f);
572	}
573	float p = taken_cnt / total_cnt;
574	return clamp(p, PROB_MIN(1e-6f), PROB_MAX(1.0f-(1e-6f)));
575	}
576
577	static float if_cnt(float cnt) {
578	if (cnt == 0) {
579	return COUNT_UNKNOWN(-1.0f);
580	}
581	return cnt;
582	}
583
584	static float sum_of_cnts(SwitchRange lo, SwitchRange hi) {
585	float total_cnt = 0;
586	for (SwitchRange* sr = lo; sr <= hi; sr++) {
587	total_cnt += sr->cnt();
588	}
589	return total_cnt;
590	}
591
592	class SwitchRanges : public ResourceObj {
593	public:
594	SwitchRange* _lo;
595	SwitchRange* _hi;
596	SwitchRange* _mid;
597	float _cost;
598
599	enum {
600	Start,
601	LeftDone,
602	RightDone,
603	Done
604	} _state;
605
606	SwitchRanges(SwitchRange lo, SwitchRange hi)
607	: _lo(lo), _hi(hi), _mid(NULL__null),
608	_cost(0), _state(Start) {
609	}
610
611	SwitchRanges()
612	: _lo(NULL__null), _hi(NULL__null), _mid(NULL__null),
613	_cost(0), _state(Start) {}
614	};
615
616	// Estimate cost of performing a binary search on lo..hi
617	static float compute_tree_cost(SwitchRange lo, SwitchRange hi, float total_cnt) {
618	GrowableArray<SwitchRanges> tree;
619	SwitchRanges root(lo, hi);
620	tree.push(root);
621
622	float cost = 0;
623	do {
624	SwitchRanges& r = *tree.adr_at(tree.length()-1);
625	if (r._hi != r._lo) {
626	if (r._mid == NULL__null) {
627	float r_cnt = sum_of_cnts(r._lo, r._hi);
628
629	if (r_cnt == 0) {
630	tree.pop();
631	cost = 0;
632	continue;
633	}
634
635	SwitchRange* mid = NULL__null;
636	mid = r._lo;
637	for (float cnt = 0; ; ) {
638	assert(mid <= r._hi, "out of bounds")do { if (!(mid <= r._hi)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 638, "assert(" "mid <= r._hi" ") failed", "out of bounds" ); ::breakpoint(); } } while (0);
639	cnt += mid->cnt();
640	if (cnt > r_cnt / 2) {
641	break;
642	}
643	mid++;
644	}
645	assert(mid <= r._hi, "out of bounds")do { if (!(mid <= r._hi)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 645, "assert(" "mid <= r._hi" ") failed", "out of bounds" ); ::breakpoint(); } } while (0);
646	r._mid = mid;
647	r._cost = r_cnt / total_cnt;
648	}
649	r._cost += cost;
650	if (r._state < SwitchRanges::LeftDone && r._mid > r._lo) {
651	cost = 0;
652	r._state = SwitchRanges::LeftDone;
653	tree.push(SwitchRanges(r._lo, r._mid-1));
654	} else if (r._state < SwitchRanges::RightDone) {
655	cost = 0;
656	r._state = SwitchRanges::RightDone;
657	tree.push(SwitchRanges(r._mid == r._lo ? r._mid+1 : r._mid, r._hi));
658	} else {
659	tree.pop();
660	cost = r._cost;
661	}
662	} else {
663	tree.pop();
664	cost = r._cost;
665	}
666	} while (tree.length() > 0);
667
668
669	return cost;
670	}
671
672	// It sometimes pays off to test most common ranges before the binary search
673	void Parse::linear_search_switch_ranges(Node* key_val, SwitchRange& lo, SwitchRange& hi) {
674	uint nr = hi - lo + 1;
675	float total_cnt = sum_of_cnts(lo, hi);
676
677	float min = compute_tree_cost(lo, hi, total_cnt);
678	float extra = 1;
679	float sub = 0;
680
681	SwitchRange* array1 = lo;
682	SwitchRange* array2 = NEW_RESOURCE_ARRAY(SwitchRange, nr)(SwitchRange) resource_allocate_bytes((nr) sizeof(SwitchRange ));
683
684	SwitchRange* ranges = NULL__null;
685
686	while (nr >= 2) {
687	assert(lo == array1 \|\| lo == array2, "one the 2 already allocated arrays")do { if (!(lo == array1 \|\| lo == array2)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 687, "assert(" "lo == array1 \|\| lo == array2" ") failed", "one the 2 already allocated arrays" ); ::breakpoint(); } } while (0);
688	ranges = (lo == array1) ? array2 : array1;
689
690	// Find highest frequency range
691	SwitchRange* candidate = lo;
692	for (SwitchRange* sr = lo+1; sr <= hi; sr++) {
693	if (sr->cnt() > candidate->cnt()) {
694	candidate = sr;
695	}
696	}
697	SwitchRange most_freq = *candidate;
698	if (most_freq.cnt() == 0) {
699	break;
700	}
701
702	// Copy remaining ranges into another array
703	int shift = 0;
704	for (uint i = 0; i < nr; i++) {
705	SwitchRange* sr = &lo[i];
706	if (sr != candidate) {
707	ranges[i-shift] = *sr;
708	} else {
709	shift++;
710	if (i > 0 && i < nr-1) {
711	SwitchRange prev = lo[i-1];
712	prev.setRange(prev.lo(), sr->hi(), prev.dest(), prev.cnt());
713	if (prev.adjoin(lo[i+1])) {
714	shift++;
715	i++;
716	}
717	ranges[i-shift] = prev;
718	}
719	}
720	}
721	nr -= shift;
722
723	// Evaluate cost of testing the most common range and performing a
724	// binary search on the other ranges
725	float cost = extra + compute_tree_cost(&ranges[0], &ranges[nr-1], total_cnt);
726	if (cost >= min) {
727	break;
728	}
729	// swap arrays
730	lo = &ranges[0];
731	hi = &ranges[nr-1];
732
733	// It pays off: emit the test for the most common range
734	assert(most_freq.cnt() > 0, "must be taken")do { if (!(most_freq.cnt() > 0)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 734, "assert(" "most_freq.cnt() > 0" ") failed", "must be taken" ); ::breakpoint(); } } while (0);
735	Node* val = _gvn.transform(new SubINode(key_val, _gvn.intcon(most_freq.lo())));
736	Node* cmp = _gvn.transform(new CmpUNode(val, _gvn.intcon(most_freq.hi() - most_freq.lo())));
737	Node* tst = _gvn.transform(new BoolNode(cmp, BoolTest::le));
738	IfNode* iff = create_and_map_if(control(), tst, if_prob(most_freq.cnt(), total_cnt), if_cnt(most_freq.cnt()));
739	jump_if_true_fork(iff, most_freq.dest(), false);
740
741	sub += most_freq.cnt() / total_cnt;
742	extra += 1 - sub;
743	min = cost;
744	}
745	}
746
747	//----------------------------create_jump_tables-------------------------------
748	bool Parse::create_jump_tables(Node* key_val, SwitchRange* lo, SwitchRange* hi) {
749	// Are jumptables enabled
750	if (!UseJumpTables) return false;
751
752	// Are jumptables supported
753	if (!Matcher::has_match_rule(Op_Jump)) return false;
754
755	bool trim_ranges = !C->too_many_traps(method(), bci(), Deoptimization::Reason_unstable_if);
756
757	// Decide if a guard is needed to lop off big ranges at either (or
758	// both) end(s) of the input set. We'll call this the default target
759	// even though we can't be sure that it is the true "default".
760
761	bool needs_guard = false;
762	int default_dest;
763	int64_t total_outlier_size = 0;
764	int64_t hi_size = ((int64_t)hi->hi()) - ((int64_t)hi->lo()) + 1;
765	int64_t lo_size = ((int64_t)lo->hi()) - ((int64_t)lo->lo()) + 1;
766
767	if (lo->dest() == hi->dest()) {
768	total_outlier_size = hi_size + lo_size;
769	default_dest = lo->dest();
770	} else if (lo_size > hi_size) {
771	total_outlier_size = lo_size;
772	default_dest = lo->dest();
773	} else {
774	total_outlier_size = hi_size;
775	default_dest = hi->dest();
776	}
777
778	float total = sum_of_cnts(lo, hi);
779	float cost = compute_tree_cost(lo, hi, total);
780
781	// If a guard test will eliminate very sparse end ranges, then
782	// it is worth the cost of an extra jump.
783	float trimmed_cnt = 0;
784	if (total_outlier_size > (MaxJumpTableSparseness * 4)) {
785	needs_guard = true;
786	if (default_dest == lo->dest()) {
787	trimmed_cnt += lo->cnt();
788	lo++;
789	}
790	if (default_dest == hi->dest()) {
791	trimmed_cnt += hi->cnt();
792	hi--;
793	}
794	}
795
796	// Find the total number of cases and ranges
797	int64_t num_cases = ((int64_t)hi->hi()) - ((int64_t)lo->lo()) + 1;
798	int num_range = hi - lo + 1;
799
800	// Don't create table if: too large, too small, or too sparse.
801	if (num_cases > MaxJumpTableSize)
802	return false;
803	if (UseSwitchProfiling) {
804	// MinJumpTableSize is set so with a well balanced binary tree,
805	// when the number of ranges is MinJumpTableSize, it's cheaper to
806	// go through a JumpNode that a tree of IfNodes. Average cost of a
807	// tree of IfNodes with MinJumpTableSize is
808	// log2f(MinJumpTableSize) comparisons. So if the cost computed
809	// from profile data is less than log2f(MinJumpTableSize) then
810	// going with the binary search is cheaper.
811	if (cost < log2f(MinJumpTableSize)) {
812	return false;
813	}
814	} else {
815	if (num_cases < MinJumpTableSize)
816	return false;
817	}
818	if (num_cases > (MaxJumpTableSparseness * num_range))
819	return false;
820
821	// Normalize table lookups to zero
822	int lowval = lo->lo();
823	key_val = _gvn.transform( new SubINode(key_val, _gvn.intcon(lowval)) );
824
825	// Generate a guard to protect against input keyvals that aren't
826	// in the switch domain.
827	if (needs_guard) {
828	Node* size = _gvn.intcon(num_cases);
829	Node* cmp = _gvn.transform(new CmpUNode(key_val, size));
830	Node* tst = _gvn.transform(new BoolNode(cmp, BoolTest::ge));
831	IfNode* iff = create_and_map_if(control(), tst, if_prob(trimmed_cnt, total), if_cnt(trimmed_cnt));
832	jump_if_true_fork(iff, default_dest, trim_ranges && trimmed_cnt == 0);
833
834	total -= trimmed_cnt;
835	}
836
837	// Create an ideal node JumpTable that has projections
838	// of all possible ranges for a switch statement
839	// The key_val input must be converted to a pointer offset and scaled.
840	// Compare Parse::array_addressing above.
841
842	// Clean the 32-bit int into a real 64-bit offset.
843	// Otherwise, the jint value 0 might turn into an offset of 0x0800000000.
844	// Make I2L conversion control dependent to prevent it from
845	// floating above the range check during loop optimizations.
846	// Do not use a narrow int type here to prevent the data path from dying
847	// while the control path is not removed. This can happen if the type of key_val
848	// is later known to be out of bounds of [0, num_cases] and therefore a narrow cast
849	// would be replaced by TOP while C2 is not able to fold the corresponding range checks.
850	// Set _carry_dependency for the cast to avoid being removed by IGVN.
851	#ifdef _LP641
852	key_val = C->constrained_convI2L(&_gvn, key_val, TypeInt::INT, control(), true /* carry_dependency */);
853	#endif
854
855	// Shift the value by wordsize so we have an index into the table, rather
856	// than a switch value
857	Node *shiftWord = _gvn.MakeConXlongcon(wordSize);
858	key_val = _gvn.transform( new MulXNodeMulLNode( key_val, shiftWord));
859
860	// Create the JumpNode
861	Arena* arena = C->comp_arena();
862	float* probs = (float)arena->Amalloc(sizeof(float)num_cases);
863	int i = 0;
864	if (total == 0) {
865	for (SwitchRange* r = lo; r <= hi; r++) {
866	for (int64_t j = r->lo(); j <= r->hi(); j++, i++) {
867	probs[i] = 1.0F / num_cases;
868	}
869	}
870	} else {
871	for (SwitchRange* r = lo; r <= hi; r++) {
872	float prob = r->cnt()/total;
873	for (int64_t j = r->lo(); j <= r->hi(); j++, i++) {
874	probs[i] = prob / (r->hi() - r->lo() + 1);
875	}
876	}
877	}
878
879	ciMethodData* methodData = method()->method_data();
880	ciMultiBranchData* profile = NULL__null;
881	if (methodData->is_mature()) {
882	ciProfileData* data = methodData->bci_to_data(bci());
883	if (data != NULL__null && data->is_MultiBranchData()) {
884	profile = (ciMultiBranchData*)data;
885	}
886	}
887
888	Node* jtn = _gvn.transform(new JumpNode(control(), key_val, num_cases, probs, profile == NULL__null ? COUNT_UNKNOWN(-1.0f) : total));
889
890	// These are the switch destinations hanging off the jumpnode
891	i = 0;
892	for (SwitchRange* r = lo; r <= hi; r++) {
893	for (int64_t j = r->lo(); j <= r->hi(); j++, i++) {
894	Node* input = _gvn.transform(new JumpProjNode(jtn, i, r->dest(), (int)(j - lowval)));
895	{
896	PreserveJVMState pjvms(this);
897	set_control(input);
898	jump_if_always_fork(r->dest(), trim_ranges && r->cnt() == 0);
899	}
900	}
901	}
902	assert(i == num_cases, "miscount of cases")do { if (!(i == num_cases)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 902, "assert(" "i == num_cases" ") failed", "miscount of cases" ); ::breakpoint(); } } while (0);
903	stop_and_kill_map(); // no more uses for this JVMS
904	return true;
905	}
906
907	//----------------------------jump_switch_ranges-------------------------------
908	void Parse::jump_switch_ranges(Node* key_val, SwitchRange lo, SwitchRange hi, int switch_depth) {
909	Block* switch_block = block();
910	bool trim_ranges = !C->too_many_traps(method(), bci(), Deoptimization::Reason_unstable_if);
911
912	if (switch_depth == 0) {
913	// Do special processing for the top-level call.
914	assert(lo->lo() == min_jint, "initial range must exhaust Type::INT")do { if (!(lo->lo() == min_jint)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 914, "assert(" "lo->lo() == min_jint" ") failed", "initial range must exhaust Type::INT" ); ::breakpoint(); } } while (0);
915	assert(hi->hi() == max_jint, "initial range must exhaust Type::INT")do { if (!(hi->hi() == max_jint)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 915, "assert(" "hi->hi() == max_jint" ") failed", "initial range must exhaust Type::INT" ); ::breakpoint(); } } while (0);
916
917	// Decrement pred-numbers for the unique set of nodes.
918	#ifdef ASSERT1
919	if (!trim_ranges) {
920	// Ensure that the block's successors are a (duplicate-free) set.
921	int successors_counted = 0; // block occurrences in [hi..lo]
922	int unique_successors = switch_block->num_successors();
923	for (int i = 0; i < unique_successors; i++) {
924	Block* target = switch_block->successor_at(i);
925
926	// Check that the set of successors is the same in both places.
927	int successors_found = 0;
928	for (SwitchRange* p = lo; p <= hi; p++) {
929	if (p->dest() == target->start()) successors_found++;
930	}
931	assert(successors_found > 0, "successor must be known")do { if (!(successors_found > 0)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 931, "assert(" "successors_found > 0" ") failed", "successor must be known" ); ::breakpoint(); } } while (0);
932	successors_counted += successors_found;
933	}
934	assert(successors_counted == (hi-lo)+1, "no unexpected successors")do { if (!(successors_counted == (hi-lo)+1)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 934, "assert(" "successors_counted == (hi-lo)+1" ") failed" , "no unexpected successors"); ::breakpoint(); } } while (0);
935	}
936	#endif
937
938	// Maybe prune the inputs, based on the type of key_val.
939	jint min_val = min_jint;
940	jint max_val = max_jint;
941	const TypeInt* ti = key_val->bottom_type()->isa_int();
942	if (ti != NULL__null) {
943	min_val = ti->_lo;
944	max_val = ti->_hi;
945	assert(min_val <= max_val, "invalid int type")do { if (!(min_val <= max_val)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 945, "assert(" "min_val <= max_val" ") failed", "invalid int type" ); ::breakpoint(); } } while (0);
946	}
947	while (lo->hi() < min_val) {
948	lo++;
949	}
950	if (lo->lo() < min_val) {
951	lo->setRange(min_val, lo->hi(), lo->dest(), lo->cnt());
952	}
953	while (hi->lo() > max_val) {
954	hi--;
955	}
956	if (hi->hi() > max_val) {
957	hi->setRange(hi->lo(), max_val, hi->dest(), hi->cnt());
958	}
959
960	linear_search_switch_ranges(key_val, lo, hi);
961	}
962
963	#ifndef PRODUCT
964	if (switch_depth == 0) {
965	_max_switch_depth = 0;
966	_est_switch_depth = log2i_graceful((hi - lo + 1) - 1) + 1;
967	}
968	#endif
969
970	assert(lo <= hi, "must be a non-empty set of ranges")do { if (!(lo <= hi)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 970, "assert(" "lo <= hi" ") failed", "must be a non-empty set of ranges" ); ::breakpoint(); } } while (0);
971	if (lo == hi) {
972	jump_if_always_fork(lo->dest(), trim_ranges && lo->cnt() == 0);
973	} else {
974	assert(lo->hi() == (lo+1)->lo()-1, "contiguous ranges")do { if (!(lo->hi() == (lo+1)->lo()-1)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 974, "assert(" "lo->hi() == (lo+1)->lo()-1" ") failed" , "contiguous ranges"); ::breakpoint(); } } while (0);
975	assert(hi->lo() == (hi-1)->hi()+1, "contiguous ranges")do { if (!(hi->lo() == (hi-1)->hi()+1)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 975, "assert(" "hi->lo() == (hi-1)->hi()+1" ") failed" , "contiguous ranges"); ::breakpoint(); } } while (0);
976
977	if (create_jump_tables(key_val, lo, hi)) return;
978
979	SwitchRange* mid = NULL__null;
980	float total_cnt = sum_of_cnts(lo, hi);
981
982	int nr = hi - lo + 1;
983	if (UseSwitchProfiling) {
984	// Don't keep the binary search tree balanced: pick up mid point
985	// that split frequencies in half.
986	float cnt = 0;
987	for (SwitchRange* sr = lo; sr <= hi; sr++) {
988	cnt += sr->cnt();
989	if (cnt >= total_cnt / 2) {
990	mid = sr;
991	break;
992	}
993	}
994	} else {
995	mid = lo + nr/2;
996
997	// if there is an easy choice, pivot at a singleton:
998	if (nr > 3 && !mid->is_singleton() && (mid-1)->is_singleton()) mid--;
999
1000	assert(lo < mid && mid <= hi, "good pivot choice")do { if (!(lo < mid && mid <= hi)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1000, "assert(" "lo < mid && mid <= hi" ") failed" , "good pivot choice"); ::breakpoint(); } } while (0);
1001	assert(nr != 2 \|\| mid == hi, "should pick higher of 2")do { if (!(nr != 2 \|\| mid == hi)) { (*g_assert_poison) = 'X'; ; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1001, "assert(" "nr != 2 \|\| mid == hi" ") failed", "should pick higher of 2" ); ::breakpoint(); } } while (0);
1002	assert(nr != 3 \|\| mid == hi-1, "should pick middle of 3")do { if (!(nr != 3 \|\| mid == hi-1)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1002, "assert(" "nr != 3 \|\| mid == hi-1" ") failed", "should pick middle of 3" ); ::breakpoint(); } } while (0);
1003	}
1004
1005
1006	Node *test_val = _gvn.intcon(mid == lo ? mid->hi() : mid->lo());
1007
1008	if (mid->is_singleton()) {
1009	IfNode *iff_ne = jump_if_fork_int(key_val, test_val, BoolTest::ne, 1-if_prob(mid->cnt(), total_cnt), if_cnt(mid->cnt()));
1010	jump_if_false_fork(iff_ne, mid->dest(), trim_ranges && mid->cnt() == 0);
1011
1012	// Special Case: If there are exactly three ranges, and the high
1013	// and low range each go to the same place, omit the "gt" test,
1014	// since it will not discriminate anything.
1015	bool eq_test_only = (hi == lo+2 && hi->dest() == lo->dest() && mid == hi-1) \|\| mid == lo;
1016
1017	// if there is a higher range, test for it and process it:
1018	if (mid < hi && !eq_test_only) {
1019	// two comparisons of same values--should enable 1 test for 2 branches
1020	// Use BoolTest::lt instead of BoolTest::gt
1021	float cnt = sum_of_cnts(lo, mid-1);
1022	IfNode *iff_lt = jump_if_fork_int(key_val, test_val, BoolTest::lt, if_prob(cnt, total_cnt), if_cnt(cnt));
1023	Node *iftrue = _gvn.transform( new IfTrueNode(iff_lt) );
1024	Node *iffalse = _gvn.transform( new IfFalseNode(iff_lt) );
1025	{ PreserveJVMState pjvms(this);
1026	set_control(iffalse);
1027	jump_switch_ranges(key_val, mid+1, hi, switch_depth+1);
1028	}
1029	set_control(iftrue);
1030	}
1031
1032	} else {
1033	// mid is a range, not a singleton, so treat mid..hi as a unit
1034	float cnt = sum_of_cnts(mid == lo ? mid+1 : mid, hi);
1035	IfNode *iff_ge = jump_if_fork_int(key_val, test_val, mid == lo ? BoolTest::gt : BoolTest::ge, if_prob(cnt, total_cnt), if_cnt(cnt));
1036
1037	// if there is a higher range, test for it and process it:
1038	if (mid == hi) {
1039	jump_if_true_fork(iff_ge, mid->dest(), trim_ranges && cnt == 0);
1040	} else {
1041	Node *iftrue = _gvn.transform( new IfTrueNode(iff_ge) );
1042	Node *iffalse = _gvn.transform( new IfFalseNode(iff_ge) );
1043	{ PreserveJVMState pjvms(this);
1044	set_control(iftrue);
1045	jump_switch_ranges(key_val, mid == lo ? mid+1 : mid, hi, switch_depth+1);
1046	}
1047	set_control(iffalse);
1048	}
1049	}
1050
1051	// in any case, process the lower range
1052	if (mid == lo) {
1053	if (mid->is_singleton()) {
1054	jump_switch_ranges(key_val, lo+1, hi, switch_depth+1);
1055	} else {
1056	jump_if_always_fork(lo->dest(), trim_ranges && lo->cnt() == 0);
1057	}
1058	} else {
1059	jump_switch_ranges(key_val, lo, mid-1, switch_depth+1);
1060	}
1061	}
1062
1063	// Decrease pred_count for each successor after all is done.
1064	if (switch_depth == 0) {
1065	int unique_successors = switch_block->num_successors();
1066	for (int i = 0; i < unique_successors; i++) {
1067	Block* target = switch_block->successor_at(i);
1068	// Throw away the pre-allocated path for each unique successor.
1069	target->next_path_num();
1070	}
1071	}
1072
1073	#ifndef PRODUCT
1074	_max_switch_depth = MAX2(switch_depth, _max_switch_depth);
1075	if (TraceOptoParse && Verbose && WizardMode && switch_depth == 0) {
1076	SwitchRange* r;
1077	int nsing = 0;
1078	for( r = lo; r <= hi; r++ ) {
1079	if( r->is_singleton() ) nsing++;
1080	}
1081	tty->print(">>> ");
1082	_method->print_short_name();
1083	tty->print_cr(" switch decision tree");
1084	tty->print_cr(" %d ranges (%d singletons), max_depth=%d, est_depth=%d",
1085	(int) (hi-lo+1), nsing, _max_switch_depth, _est_switch_depth);
1086	if (_max_switch_depth > _est_switch_depth) {
1087	tty->print_cr("****** BAD SWITCH DEPTH ******");
1088	}
1089	tty->print(" ");
1090	for( r = lo; r <= hi; r++ ) {
1091	r->print();
1092	}
1093	tty->cr();
1094	}
1095	#endif
1096	}
1097
1098	void Parse::modf() {
1099	Node *f2 = pop();
1100	Node *f1 = pop();
1101	Node* c = make_runtime_call(RC_LEAF, OptoRuntime::modf_Type(),
1102	CAST_FROM_FN_PTR(address, SharedRuntime::frem)((address)((address_word)(SharedRuntime::frem))),
1103	"frem", NULL__null, //no memory effects
1104	f1, f2);
1105	Node* res = _gvn.transform(new ProjNode(c, TypeFunc::Parms + 0));
1106
1107	push(res);
1108	}
1109
1110	void Parse::modd() {
1111	Node *d2 = pop_pair();
1112	Node *d1 = pop_pair();
1113	Node* c = make_runtime_call(RC_LEAF, OptoRuntime::Math_DD_D_Type(),
1114	CAST_FROM_FN_PTR(address, SharedRuntime::drem)((address)((address_word)(SharedRuntime::drem))),
1115	"drem", NULL__null, //no memory effects
1116	d1, top(), d2, top());
1117	Node* res_d = _gvn.transform(new ProjNode(c, TypeFunc::Parms + 0));
1118
1119	#ifdef ASSERT1
1120	Node* res_top = _gvn.transform(new ProjNode(c, TypeFunc::Parms + 1));
1121	assert(res_top == top(), "second value must be top")do { if (!(res_top == top())) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1121, "assert(" "res_top == top()" ") failed", "second value must be top" ); ::breakpoint(); } } while (0);
1122	#endif
1123
1124	push_pair(res_d);
1125	}
1126
1127	void Parse::l2f() {
1128	Node* f2 = pop();
1129	Node* f1 = pop();
1130	Node* c = make_runtime_call(RC_LEAF, OptoRuntime::l2f_Type(),
1131	CAST_FROM_FN_PTR(address, SharedRuntime::l2f)((address)((address_word)(SharedRuntime::l2f))),
1132	"l2f", NULL__null, //no memory effects
1133	f1, f2);
1134	Node* res = _gvn.transform(new ProjNode(c, TypeFunc::Parms + 0));
1135
1136	push(res);
1137	}
1138
1139	// Handle jsr and jsr_w bytecode
1140	void Parse::do_jsr() {
1141	assert(bc() == Bytecodes::_jsr \|\| bc() == Bytecodes::_jsr_w, "wrong bytecode")do { if (!(bc() == Bytecodes::_jsr \|\| bc() == Bytecodes::_jsr_w )) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1141, "assert(" "bc() == Bytecodes::_jsr \|\| bc() == Bytecodes::_jsr_w" ") failed", "wrong bytecode"); ::breakpoint(); } } while (0);
1142
1143	// Store information about current state, tagged with new _jsr_bci
1144	int return_bci = iter().next_bci();
1145	int jsr_bci = (bc() == Bytecodes::_jsr) ? iter().get_dest() : iter().get_far_dest();
1146
1147	// The way we do things now, there is only one successor block
1148	// for the jsr, because the target code is cloned by ciTypeFlow.
1149	Block* target = successor_for_bci(jsr_bci);
1150
1151	// What got pushed?
1152	const Type* ret_addr = target->peek();
1153	assert(ret_addr->singleton(), "must be a constant (cloned jsr body)")do { if (!(ret_addr->singleton())) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1153, "assert(" "ret_addr->singleton()" ") failed", "must be a constant (cloned jsr body)" ); ::breakpoint(); } } while (0);
1154
1155	// Effect on jsr on stack
1156	push(_gvn.makecon(ret_addr));
1157
1158	// Flow to the jsr.
1159	merge(jsr_bci);
1160	}
1161
1162	// Handle ret bytecode
1163	void Parse::do_ret() {
1164	// Find to whom we return.
1165	assert(block()->num_successors() == 1, "a ret can only go one place now")do { if (!(block()->num_successors() == 1)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1165, "assert(" "block()->num_successors() == 1" ") failed" , "a ret can only go one place now"); ::breakpoint(); } } while (0);
1166	Block* target = block()->successor_at(0);
1167	assert(!target->is_ready(), "our arrival must be expected")do { if (!(!target->is_ready())) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1167, "assert(" "!target->is_ready()" ") failed", "our arrival must be expected" ); ::breakpoint(); } } while (0);
1168	int pnum = target->next_path_num();
1169	merge_common(target, pnum);
1170	}
1171
1172	static bool has_injected_profile(BoolTest::mask btest, Node* test, int& taken, int& not_taken) {
1173	if (btest != BoolTest::eq && btest != BoolTest::ne) {
1174	// Only ::eq and ::ne are supported for profile injection.
1175	return false;
1176	}
1177	if (test->is_Cmp() &&
1178	test->in(1)->Opcode() == Op_ProfileBoolean) {
1179	ProfileBooleanNode* profile = (ProfileBooleanNode*)test->in(1);
1180	int false_cnt = profile->false_count();
1181	int true_cnt = profile->true_count();
1182
1183	// Counts matching depends on the actual test operation (::eq or ::ne).
1184	// No need to scale the counts because profile injection was designed
1185	// to feed exact counts into VM.
1186	taken = (btest == BoolTest::eq) ? false_cnt : true_cnt;
1187	not_taken = (btest == BoolTest::eq) ? true_cnt : false_cnt;
1188
1189	profile->consume();
1190	return true;
1191	}
1192	return false;
1193	}
1194	//--------------------------dynamic_branch_prediction--------------------------
1195	// Try to gather dynamic branch prediction behavior. Return a probability
1196	// of the branch being taken and set the "cnt" field. Returns a -1.0
1197	// if we need to use static prediction for some reason.
1198	float Parse::dynamic_branch_prediction(float &cnt, BoolTest::mask btest, Node* test) {
1199	ResourceMark rm;
1200
1201	cnt = COUNT_UNKNOWN(-1.0f);
1202
1203	int taken = 0;
1204	int not_taken = 0;
1205
1206	bool use_mdo = !has_injected_profile(btest, test, taken, not_taken);
1207
1208	if (use_mdo) {
1209	// Use MethodData information if it is available
1210	// FIXME: free the ProfileData structure
1211	ciMethodData* methodData = method()->method_data();
1212	if (!methodData->is_mature()) return PROB_UNKNOWN(-1.0f);
1213	ciProfileData* data = methodData->bci_to_data(bci());
1214	if (data == NULL__null) {
1215	return PROB_UNKNOWN(-1.0f);
1216	}
1217	if (!data->is_JumpData()) return PROB_UNKNOWN(-1.0f);
1218
1219	// get taken and not taken values
1220	taken = data->as_JumpData()->taken();
1221	not_taken = 0;
1222	if (data->is_BranchData()) {
1223	not_taken = data->as_BranchData()->not_taken();
1224	}
1225
1226	// scale the counts to be commensurate with invocation counts:
1227	taken = method()->scale_count(taken);
1228	not_taken = method()->scale_count(not_taken);
1229	}
1230
1231	// Give up if too few (or too many, in which case the sum will overflow) counts to be meaningful.
1232	// We also check that individual counters are positive first, otherwise the sum can become positive.
1233	if (taken < 0 \|\| not_taken < 0 \|\| taken + not_taken < 40) {
1234	if (C->log() != NULL__null) {
1235	C->log()->elem("branch target_bci='%d' taken='%d' not_taken='%d'", iter().get_dest(), taken, not_taken);
1236	}
1237	return PROB_UNKNOWN(-1.0f);
1238	}
1239
1240	// Compute frequency that we arrive here
1241	float sum = taken + not_taken;
1242	// Adjust, if this block is a cloned private block but the
1243	// Jump counts are shared. Taken the private counts for
1244	// just this path instead of the shared counts.
1245	if( block()->count() > 0 )
1246	sum = block()->count();
1247	cnt = sum / FreqCountInvocations;
1248
1249	// Pin probability to sane limits
1250	float prob;
1251	if( !taken )
1252	prob = (0+PROB_MIN(1e-6f)) / 2;
1253	else if( !not_taken )
1254	prob = (1+PROB_MAX(1.0f-(1e-6f))) / 2;
1255	else { // Compute probability of true path
1256	prob = (float)taken / (float)(taken + not_taken);
1257	if (prob > PROB_MAX(1.0f-(1e-6f))) prob = PROB_MAX(1.0f-(1e-6f));
1258	if (prob < PROB_MIN(1e-6f)) prob = PROB_MIN(1e-6f);
1259	}
1260
1261	assert((cnt > 0.0f) && (prob > 0.0f),do { if (!((cnt > 0.0f) && (prob > 0.0f))) { (* g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1262, "assert(" "(cnt > 0.0f) && (prob > 0.0f)" ") failed", "Bad frequency assignment in if"); ::breakpoint( ); } } while (0)
1262	"Bad frequency assignment in if")do { if (!((cnt > 0.0f) && (prob > 0.0f))) { (* g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1262, "assert(" "(cnt > 0.0f) && (prob > 0.0f)" ") failed", "Bad frequency assignment in if"); ::breakpoint( ); } } while (0);
1263
1264	if (C->log() != NULL__null) {
1265	const char* prob_str = NULL__null;
1266	if (prob >= PROB_MAX(1.0f-(1e-6f))) prob_str = (prob == PROB_MAX(1.0f-(1e-6f))) ? "max" : "always";
1267	if (prob <= PROB_MIN(1e-6f)) prob_str = (prob == PROB_MIN(1e-6f)) ? "min" : "never";
1268	char prob_str_buf[30];
1269	if (prob_str == NULL__null) {
1270	jio_snprintf(prob_str_buf, sizeof(prob_str_buf), "%20.2f", prob);
1271	prob_str = prob_str_buf;
1272	}
1273	C->log()->elem("branch target_bci='%d' taken='%d' not_taken='%d' cnt='%f' prob='%s'",
1274	iter().get_dest(), taken, not_taken, cnt, prob_str);
1275	}
1276	return prob;
1277	}
1278
1279	//-----------------------------branch_prediction-------------------------------
1280	float Parse::branch_prediction(float& cnt,
1281	BoolTest::mask btest,
1282	int target_bci,
1283	Node* test) {
1284	float prob = dynamic_branch_prediction(cnt, btest, test);
1285	// If prob is unknown, switch to static prediction
1286	if (prob != PROB_UNKNOWN(-1.0f)) return prob;
1287
1288	prob = PROB_FAIR(0.5f); // Set default value
1289	if (btest == BoolTest::eq) // Exactly equal test?
1290	prob = PROB_STATIC_INFREQUENT(1e-1f); // Assume its relatively infrequent
1291	else if (btest == BoolTest::ne)
1292	prob = PROB_STATIC_FREQUENT(1.0f-(1e-1f)); // Assume its relatively frequent
1293
1294	// If this is a conditional test guarding a backwards branch,
1295	// assume its a loop-back edge. Make it a likely taken branch.
1296	if (target_bci < bci()) {
1297	if (is_osr_parse()) { // Could be a hot OSR'd loop; force deopt
1298	// Since it's an OSR, we probably have profile data, but since
1299	// branch_prediction returned PROB_UNKNOWN, the counts are too small.
1300	// Let's make a special check here for completely zero counts.
1301	ciMethodData* methodData = method()->method_data();
1302	if (!methodData->is_empty()) {
1303	ciProfileData* data = methodData->bci_to_data(bci());
1304	// Only stop for truly zero counts, which mean an unknown part
1305	// of the OSR-ed method, and we want to deopt to gather more stats.
1306	// If you have ANY counts, then this loop is simply 'cold' relative
1307	// to the OSR loop.
1308	if (data == NULL__null \|\|
1309	(data->as_BranchData()->taken() + data->as_BranchData()->not_taken() == 0)) {
1310	// This is the only way to return PROB_UNKNOWN:
1311	return PROB_UNKNOWN(-1.0f);
1312	}
1313	}
1314	}
1315	prob = PROB_STATIC_FREQUENT(1.0f-(1e-1f)); // Likely to take backwards branch
1316	}
1317
1318	assert(prob != PROB_UNKNOWN, "must have some guess at this point")do { if (!(prob != (-1.0f))) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1318, "assert(" "prob != (-1.0f)" ") failed", "must have some guess at this point" ); ::breakpoint(); } } while (0);
1319	return prob;
1320	}
1321
1322	// The magic constants are chosen so as to match the output of
1323	// branch_prediction() when the profile reports a zero taken count.
1324	// It is important to distinguish zero counts unambiguously, because
1325	// some branches (e.g., _213_javac.Assembler.eliminate) validly produce
1326	// very small but nonzero probabilities, which if confused with zero
1327	// counts would keep the program recompiling indefinitely.
1328	bool Parse::seems_never_taken(float prob) const {
1329	return prob < PROB_MIN(1e-6f);
1330	}
1331
1332	// True if the comparison seems to be the kind that will not change its
1333	// statistics from true to false. See comments in adjust_map_after_if.
1334	// This question is only asked along paths which are already
1335	// classifed as untaken (by seems_never_taken), so really,
1336	// if a path is never taken, its controlling comparison is
1337	// already acting in a stable fashion. If the comparison
1338	// seems stable, we will put an expensive uncommon trap
1339	// on the untaken path.
1340	bool Parse::seems_stable_comparison() const {
1341	if (C->too_many_traps(method(), bci(), Deoptimization::Reason_unstable_if)) {
1342	return false;
1343	}
1344	return true;
1345	}
1346
1347	//-------------------------------repush_if_args--------------------------------
1348	// Push arguments of an "if" bytecode back onto the stack by adjusting _sp.
1349	inline int Parse::repush_if_args() {
1350	if (PrintOpto && WizardMode) {
1351	tty->print("defending against excessive implicit null exceptions on %s @%d in ",
1352	Bytecodes::name(iter().cur_bc()), iter().cur_bci());
1353	method()->print_name(); tty->cr();
1354	}
1355	int bc_depth = - Bytecodes::depth(iter().cur_bc());
1356	assert(bc_depth == 1 \|\| bc_depth == 2, "only two kinds of branches")do { if (!(bc_depth == 1 \|\| bc_depth == 2)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1356, "assert(" "bc_depth == 1 \|\| bc_depth == 2" ") failed" , "only two kinds of branches"); ::breakpoint(); } } while (0 );
1357	DEBUG_ONLY(sync_jvms())sync_jvms(); // argument(n) requires a synced jvms
1358	assert(argument(0) != NULL, "must exist")do { if (!(argument(0) != __null)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1358, "assert(" "argument(0) != __null" ") failed", "must exist" ); ::breakpoint(); } } while (0);
1359	assert(bc_depth == 1 \|\| argument(1) != NULL, "two must exist")do { if (!(bc_depth == 1 \|\| argument(1) != __null)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1359, "assert(" "bc_depth == 1 \|\| argument(1) != __null" ") failed" , "two must exist"); ::breakpoint(); } } while (0);
1360	inc_sp(bc_depth);
1361	return bc_depth;
1362	}
1363
1364	//----------------------------------do_ifnull----------------------------------
1365	void Parse::do_ifnull(BoolTest::mask btest, Node *c) {
1366	int target_bci = iter().get_dest();
1367
1368	Block* branch_block = successor_for_bci(target_bci);
1369	Block* next_block = successor_for_bci(iter().next_bci());
1370
1371	float cnt;
1372	float prob = branch_prediction(cnt, btest, target_bci, c);
1373	if (prob == PROB_UNKNOWN(-1.0f)) {
1374	// (An earlier version of do_ifnull omitted this trap for OSR methods.)
1375	if (PrintOpto && Verbose) {
1376	tty->print_cr("Never-taken edge stops compilation at bci %d", bci());
1377	}
1378	repush_if_args(); // to gather stats on loop
1379	uncommon_trap(Deoptimization::Reason_unreached,
1380	Deoptimization::Action_reinterpret,
1381	NULL__null, "cold");
1382	if (C->eliminate_boxing()) {
1383	// Mark the successor blocks as parsed
1384	branch_block->next_path_num();
1385	next_block->next_path_num();
1386	}
1387	return;
1388	}
1389
1390	NOT_PRODUCT(explicit_null_checks_inserted++)explicit_null_checks_inserted++;
1391
1392	// Generate real control flow
1393	Node *tst = _gvn.transform( new BoolNode( c, btest ) );
1394
1395	// Sanity check the probability value
1396	assert(prob > 0.0f,"Bad probability in Parser")do { if (!(prob > 0.0f)) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1396, "assert(" "prob > 0.0f" ") failed", "Bad probability in Parser" ); ::breakpoint(); } } while (0);
1397	// Need xform to put node in hash table
1398	IfNode *iff = create_and_xform_if( control(), tst, prob, cnt );
1399	assert(iff->_prob > 0.0f,"Optimizer made bad probability in parser")do { if (!(iff->_prob > 0.0f)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1399, "assert(" "iff->_prob > 0.0f" ") failed", "Optimizer made bad probability in parser" ); ::breakpoint(); } } while (0);
1400	// True branch
1401	{ PreserveJVMState pjvms(this);
1402	Node* iftrue = _gvn.transform( new IfTrueNode (iff) );
1403	set_control(iftrue);
1404
1405	if (stopped()) { // Path is dead?
1406	NOT_PRODUCT(explicit_null_checks_elided++)explicit_null_checks_elided++;
1407	if (C->eliminate_boxing()) {
1408	// Mark the successor block as parsed
1409	branch_block->next_path_num();
1410	}
1411	} else { // Path is live.
1412	adjust_map_after_if(btest, c, prob, branch_block, next_block);
1413	if (!stopped()) {
1414	merge(target_bci);
1415	}
1416	}
1417	}
1418
1419	// False branch
1420	Node* iffalse = _gvn.transform( new IfFalseNode(iff) );
1421	set_control(iffalse);
1422
1423	if (stopped()) { // Path is dead?
1424	NOT_PRODUCT(explicit_null_checks_elided++)explicit_null_checks_elided++;
1425	if (C->eliminate_boxing()) {
1426	// Mark the successor block as parsed
1427	next_block->next_path_num();
1428	}
1429	} else { // Path is live.
1430	adjust_map_after_if(BoolTest(btest).negate(), c, 1.0-prob,
1431	next_block, branch_block);
1432	}
1433	}
1434
1435	//------------------------------------do_if------------------------------------
1436	void Parse::do_if(BoolTest::mask btest, Node* c) {
1437	int target_bci = iter().get_dest();
1438
1439	Block* branch_block = successor_for_bci(target_bci);
1440	Block* next_block = successor_for_bci(iter().next_bci());
1441
1442	float cnt;
1443	float prob = branch_prediction(cnt, btest, target_bci, c);
1444	float untaken_prob = 1.0 - prob;
1445
1446	if (prob == PROB_UNKNOWN(-1.0f)) {
1447	if (PrintOpto && Verbose) {
1448	tty->print_cr("Never-taken edge stops compilation at bci %d", bci());
1449	}
1450	repush_if_args(); // to gather stats on loop
1451	uncommon_trap(Deoptimization::Reason_unreached,
1452	Deoptimization::Action_reinterpret,
1453	NULL__null, "cold");
1454	if (C->eliminate_boxing()) {
1455	// Mark the successor blocks as parsed
1456	branch_block->next_path_num();
1457	next_block->next_path_num();
1458	}
1459	return;
1460	}
1461
1462	// Sanity check the probability value
1463	assert(0.0f < prob && prob < 1.0f,"Bad probability in Parser")do { if (!(0.0f < prob && prob < 1.0f)) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1463, "assert(" "0.0f < prob && prob < 1.0f" ") failed" , "Bad probability in Parser"); ::breakpoint(); } } while (0);
1464
1465	bool taken_if_true = true;
1466	// Convert BoolTest to canonical form:
1467	if (!BoolTest(btest).is_canonical()) {
1468	btest = BoolTest(btest).negate();
1469	taken_if_true = false;
1470	// prob is NOT updated here; it remains the probability of the taken
1471	// path (as opposed to the prob of the path guarded by an 'IfTrueNode').
1472	}
1473	assert(btest != BoolTest::eq, "!= is the only canonical exact test")do { if (!(btest != BoolTest::eq)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1473, "assert(" "btest != BoolTest::eq" ") failed", "!= is the only canonical exact test" ); ::breakpoint(); } } while (0);
1474
1475	Node* tst0 = new BoolNode(c, btest);
1476	Node* tst = _gvn.transform(tst0);
1477	BoolTest::mask taken_btest = BoolTest::illegal;
1478	BoolTest::mask untaken_btest = BoolTest::illegal;
1479
1480	if (tst->is_Bool()) {
1481	// Refresh c from the transformed bool node, since it may be
1482	// simpler than the original c. Also re-canonicalize btest.
1483	// This wins when (Bool ne (Conv2B p) 0) => (Bool ne (CmpP p NULL)).
1484	// That can arise from statements like: if (x instanceof C) ...
1485	if (tst != tst0) {
1486	// Canonicalize one more time since transform can change it.
1487	btest = tst->as_Bool()->_test._test;
1488	if (!BoolTest(btest).is_canonical()) {
1489	// Reverse edges one more time...
1490	tst = _gvn.transform( tst->as_Bool()->negate(&_gvn) );
1491	btest = tst->as_Bool()->_test._test;
1492	assert(BoolTest(btest).is_canonical(), "sanity")do { if (!(BoolTest(btest).is_canonical())) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1492, "assert(" "BoolTest(btest).is_canonical()" ") failed" , "sanity"); ::breakpoint(); } } while (0);
1493	taken_if_true = !taken_if_true;
1494	}
1495	c = tst->in(1);
1496	}
1497	BoolTest::mask neg_btest = BoolTest(btest).negate();
1498	taken_btest = taken_if_true ? btest : neg_btest;
1499	untaken_btest = taken_if_true ? neg_btest : btest;
1500	}
1501
1502	// Generate real control flow
1503	float true_prob = (taken_if_true ? prob : untaken_prob);
1504	IfNode* iff = create_and_map_if(control(), tst, true_prob, cnt);
1505	assert(iff->_prob > 0.0f,"Optimizer made bad probability in parser")do { if (!(iff->_prob > 0.0f)) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1505, "assert(" "iff->_prob > 0.0f" ") failed", "Optimizer made bad probability in parser" ); ::breakpoint(); } } while (0);
1506	Node* taken_branch = new IfTrueNode(iff);
1507	Node* untaken_branch = new IfFalseNode(iff);
1508	if (!taken_if_true) { // Finish conversion to canonical form
1509	Node* tmp = taken_branch;
1510	taken_branch = untaken_branch;
1511	untaken_branch = tmp;
1512	}
1513
1514	// Branch is taken:
1515	{ PreserveJVMState pjvms(this);
1516	taken_branch = _gvn.transform(taken_branch);
1517	set_control(taken_branch);
1518
1519	if (stopped()) {
1520	if (C->eliminate_boxing()) {
1521	// Mark the successor block as parsed
1522	branch_block->next_path_num();
1523	}
1524	} else {
1525	adjust_map_after_if(taken_btest, c, prob, branch_block, next_block);
1526	if (!stopped()) {
1527	merge(target_bci);
1528	}
1529	}
1530	}
1531
1532	untaken_branch = _gvn.transform(untaken_branch);
1533	set_control(untaken_branch);
1534
1535	// Branch not taken.
1536	if (stopped()) {
1537	if (C->eliminate_boxing()) {
1538	// Mark the successor block as parsed
1539	next_block->next_path_num();
1540	}
1541	} else {
1542	adjust_map_after_if(untaken_btest, c, untaken_prob,
1543	next_block, branch_block);
1544	}
1545	}
1546
1547	bool Parse::path_is_suitable_for_uncommon_trap(float prob) const {
1548	// Don't want to speculate on uncommon traps when running with -Xcomp
1549	if (!UseInterpreter) {
1550	return false;
1551	}
1552	return (seems_never_taken(prob) && seems_stable_comparison());
1553	}
1554
1555	void Parse::maybe_add_predicate_after_if(Block* path) {
1556	if (path->is_SEL_head() && path->preds_parsed() == 0) {
1557	// Add predicates at bci of if dominating the loop so traps can be
1558	// recorded on the if's profile data
1559	int bc_depth = repush_if_args();
1560	add_empty_predicates();
1561	dec_sp(bc_depth);
1562	path->set_has_predicates();
1563	}
1564	}
1565
1566
1567	//----------------------------adjust_map_after_if------------------------------
1568	// Adjust the JVM state to reflect the result of taking this path.
1569	// Basically, it means inspecting the CmpNode controlling this
1570	// branch, seeing how it constrains a tested value, and then
1571	// deciding if it's worth our while to encode this constraint
1572	// as graph nodes in the current abstract interpretation map.
1573	void Parse::adjust_map_after_if(BoolTest::mask btest, Node* c, float prob,
1574	Block* path, Block* other_path) {
1575	if (!c->is_Cmp()) {
1576	maybe_add_predicate_after_if(path);
1577	return;
1578	}
1579
1580	if (stopped() \|\| btest == BoolTest::illegal) {
1581	return; // nothing to do
1582	}
1583
1584	bool is_fallthrough = (path == successor_for_bci(iter().next_bci()));
1585
1586	if (path_is_suitable_for_uncommon_trap(prob)) {
1587	repush_if_args();
1588	uncommon_trap(Deoptimization::Reason_unstable_if,
1589	Deoptimization::Action_reinterpret,
1590	NULL__null,
1591	(is_fallthrough ? "taken always" : "taken never"));
1592	return;
1593	}
1594
1595	Node* val = c->in(1);
1596	Node* con = c->in(2);
1597	const Type* tcon = _gvn.type(con);
1598	const Type* tval = _gvn.type(val);
1599	bool have_con = tcon->singleton();
1600	if (tval->singleton()) {
1601	if (!have_con) {
1602	// Swap, so constant is in con.
1603	con = val;
1604	tcon = tval;
1605	val = c->in(2);
1606	tval = _gvn.type(val);
1607	btest = BoolTest(btest).commute();
1608	have_con = true;
1609	} else {
1610	// Do we have two constants? Then leave well enough alone.
1611	have_con = false;
1612	}
1613	}
1614	if (!have_con) { // remaining adjustments need a con
1615	maybe_add_predicate_after_if(path);
1616	return;
1617	}
1618
1619	sharpen_type_after_if(btest, con, tcon, val, tval);
1620	maybe_add_predicate_after_if(path);
1621	}
1622
1623
1624	static Node* extract_obj_from_klass_load(PhaseGVN* gvn, Node* n) {
1625	Node* ldk;
1626	if (n->is_DecodeNKlass()) {
1627	if (n->in(1)->Opcode() != Op_LoadNKlass) {
1628	return NULL__null;
1629	} else {
1630	ldk = n->in(1);
1631	}
1632	} else if (n->Opcode() != Op_LoadKlass) {
1633	return NULL__null;
1634	} else {
1635	ldk = n;
1636	}
1637	assert(ldk != NULL && ldk->is_Load(), "should have found a LoadKlass or LoadNKlass node")do { if (!(ldk != __null && ldk->is_Load())) { (*g_assert_poison ) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1637, "assert(" "ldk != __null && ldk->is_Load()" ") failed", "should have found a LoadKlass or LoadNKlass node" ); ::breakpoint(); } } while (0);
1638
1639	Node* adr = ldk->in(MemNode::Address);
1640	intptr_t off = 0;
1641	Node* obj = AddPNode::Ideal_base_and_offset(adr, gvn, off);
1642	if (obj == NULL__null \|\| off != oopDesc::klass_offset_in_bytes()) // loading oopDesc::_klass?
1643	return NULL__null;
1644	const TypePtr* tp = gvn->type(obj)->is_ptr();
1645	if (tp == NULL__null \|\| !(tp->isa_instptr() \|\| tp->isa_aryptr())) // is obj a Java object ptr?
1646	return NULL__null;
1647
1648	return obj;
1649	}
1650
1651	void Parse::sharpen_type_after_if(BoolTest::mask btest,
1652	Node* con, const Type* tcon,
1653	Node* val, const Type* tval) {
1654	// Look for opportunities to sharpen the type of a node
1655	// whose klass is compared with a constant klass.
1656	if (btest == BoolTest::eq && tcon->isa_klassptr()) {
1657	Node* obj = extract_obj_from_klass_load(&_gvn, val);
1658	const TypeOopPtr* con_type = tcon->isa_klassptr()->as_instance_type();
1659	if (obj != NULL__null && (con_type->isa_instptr() \|\| con_type->isa_aryptr())) {
1660	// Found:
1661	// Bool(CmpP(LoadKlass(obj._klass), ConP(Foo.klass)), [eq])
1662	// or the narrowOop equivalent.
1663	const Type* obj_type = _gvn.type(obj);
1664	const TypeOopPtr* tboth = obj_type->join_speculative(con_type)->isa_oopptr();
1665	if (tboth != NULL__null && tboth->klass_is_exact() && tboth != obj_type &&
1666	tboth->higher_equal(obj_type)) {
1667	// obj has to be of the exact type Foo if the CmpP succeeds.
1668	int obj_in_map = map()->find_edge(obj);
1669	JVMState* jvms = this->jvms();
1670	if (obj_in_map >= 0 &&
1671	(jvms->is_loc(obj_in_map) \|\| jvms->is_stk(obj_in_map))) {
1672	TypeNode* ccast = new CheckCastPPNode(control(), obj, tboth);
1673	const Type* tcc = ccast->as_Type()->type();
1674	assert(tcc != obj_type && tcc->higher_equal(obj_type), "must improve")do { if (!(tcc != obj_type && tcc->higher_equal(obj_type ))) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1674, "assert(" "tcc != obj_type && tcc->higher_equal(obj_type)" ") failed", "must improve"); ::breakpoint(); } } while (0);
1675	// Delay transform() call to allow recovery of pre-cast value
1676	// at the control merge.
1677	_gvn.set_type_bottom(ccast);
1678	record_for_igvn(ccast);
1679	// Here's the payoff.
1680	replace_in_map(obj, ccast);
1681	}
1682	}
1683	}
1684	}
1685
1686	int val_in_map = map()->find_edge(val);
1687	if (val_in_map < 0) return; // replace_in_map would be useless
1688	{
1689	JVMState* jvms = this->jvms();
1690	if (!(jvms->is_loc(val_in_map) \|\|
1691	jvms->is_stk(val_in_map)))
1692	return; // again, it would be useless
1693	}
1694
1695	// Check for a comparison to a constant, and "know" that the compared
1696	// value is constrained on this path.
1697	assert(tcon->singleton(), "")do { if (!(tcon->singleton())) { (*g_assert_poison) = 'X'; ; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1697, "assert(" "tcon->singleton()" ") failed", ""); ::breakpoint (); } } while (0);
1698	ConstraintCastNode* ccast = NULL__null;
1699	Node* cast = NULL__null;
1700
1701	switch (btest) {
1702	case BoolTest::eq: // Constant test?
1703	{
1704	const Type* tboth = tcon->join_speculative(tval);
1705	if (tboth == tval) break; // Nothing to gain.
1706	if (tcon->isa_int()) {
1707	ccast = new CastIINode(val, tboth);
1708	} else if (tcon == TypePtr::NULL_PTR) {
1709	// Cast to null, but keep the pointer identity temporarily live.
1710	ccast = new CastPPNode(val, tboth);
1711	} else {
1712	const TypeF* tf = tcon->isa_float_constant();
1713	const TypeD* td = tcon->isa_double_constant();
1714	// Exclude tests vs float/double 0 as these could be
1715	// either +0 or -0. Just because you are equal to +0
1716	// doesn't mean you ARE +0!
1717	// Note, following code also replaces Long and Oop values.
1718	if ((!tf \|\| tf->_f != 0.0) &&
1719	(!td \|\| td->_d != 0.0))
1720	cast = con; // Replace non-constant val by con.
1721	}
1722	}
1723	break;
1724
1725	case BoolTest::ne:
1726	if (tcon == TypePtr::NULL_PTR) {
1727	cast = cast_not_null(val, false);
1728	}
1729	break;
1730
1731	default:
1732	// (At this point we could record int range types with CastII.)
1733	break;
1734	}
1735
1736	if (ccast != NULL__null) {
1737	const Type* tcc = ccast->as_Type()->type();
1738	assert(tcc != tval && tcc->higher_equal(tval), "must improve")do { if (!(tcc != tval && tcc->higher_equal(tval)) ) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1738, "assert(" "tcc != tval && tcc->higher_equal(tval)" ") failed", "must improve"); ::breakpoint(); } } while (0);
1739	// Delay transform() call to allow recovery of pre-cast value
1740	// at the control merge.
1741	ccast->set_req(0, control());
1742	_gvn.set_type_bottom(ccast);
1743	record_for_igvn(ccast);
1744	cast = ccast;
1745	}
1746
1747	if (cast != NULL__null) { // Here's the payoff.
1748	replace_in_map(val, cast);
1749	}
1750	}
1751
1752	/**
1753	* Use speculative type to optimize CmpP node: if comparison is
1754	* against the low level class, cast the object to the speculative
1755	* type if any. CmpP should then go away.
1756	*
1757	* @param c expected CmpP node
1758	* @return result of CmpP on object casted to speculative type
1759	*
1760	*/
1761	Node* Parse::optimize_cmp_with_klass(Node* c) {
1762	// If this is transformed by the _gvn to a comparison with the low
1763	// level klass then we may be able to use speculation
1764	if (c->Opcode() == Op_CmpP &&
1765	(c->in(1)->Opcode() == Op_LoadKlass \|\| c->in(1)->Opcode() == Op_DecodeNKlass) &&
1766	c->in(2)->is_Con()) {
1767	Node* load_klass = NULL__null;
1768	Node* decode = NULL__null;
1769	if (c->in(1)->Opcode() == Op_DecodeNKlass) {
1770	decode = c->in(1);
1771	load_klass = c->in(1)->in(1);
1772	} else {
1773	load_klass = c->in(1);
1774	}
1775	if (load_klass->in(2)->is_AddP()) {
1776	Node* addp = load_klass->in(2);
1777	Node* obj = addp->in(AddPNode::Address);
1778	const TypeOopPtr* obj_type = _gvn.type(obj)->is_oopptr();
1779	if (obj_type->speculative_type_not_null() != NULL__null) {
1780	ciKlass* k = obj_type->speculative_type();
1781	inc_sp(2);
1782	obj = maybe_cast_profiled_obj(obj, k);
1783	dec_sp(2);
1784	// Make the CmpP use the casted obj
1785	addp = basic_plus_adr(obj, addp->in(AddPNode::Offset));
1786	load_klass = load_klass->clone();
1787	load_klass->set_req(2, addp);
1788	load_klass = _gvn.transform(load_klass);
1789	if (decode != NULL__null) {
1790	decode = decode->clone();
1791	decode->set_req(1, load_klass);
1792	load_klass = _gvn.transform(decode);
1793	}
1794	c = c->clone();
1795	c->set_req(1, load_klass);
1796	c = _gvn.transform(c);
1797	}
1798	}
1799	}
1800	return c;
1801	}
1802
1803	//------------------------------do_one_bytecode--------------------------------
1804	// Parse this bytecode, and alter the Parsers JVM->Node mapping
1805	void Parse::do_one_bytecode() {
1806	Node a, b, c, d; // Handy temps
1807	BoolTest::mask btest;
1808	int i;
1809
1810	assert(!has_exceptions(), "bytecode entry state must be clear of throws")do { if (!(!has_exceptions())) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1810, "assert(" "!has_exceptions()" ") failed", "bytecode entry state must be clear of throws" ); ::breakpoint(); } } while (0);
1811
1812	if (C->check_node_count(NodeLimitFudgeFactor * 5,
1813	"out of nodes parsing method")) {
1814	return;
1815	}
1816
1817	#ifdef ASSERT1
1818	// for setting breakpoints
1819	if (TraceOptoParse) {
1820	tty->print(" @");
1821	dump_bci(bci());
1822	tty->cr();
1823	}
1824	#endif
1825
1826	switch (bc()) {
1827	case Bytecodes::_nop:
1828	// do nothing
1829	break;
1830	case Bytecodes::_lconst_0:
1831	push_pair(longcon(0));
1832	break;
1833
1834	case Bytecodes::_lconst_1:
1835	push_pair(longcon(1));
1836	break;
1837
1838	case Bytecodes::_fconst_0:
1839	push(zerocon(T_FLOAT));
1840	break;
1841
1842	case Bytecodes::_fconst_1:
1843	push(makecon(TypeF::ONE));
1844	break;
1845
1846	case Bytecodes::_fconst_2:
1847	push(makecon(TypeF::make(2.0f)));
1848	break;
1849
1850	case Bytecodes::_dconst_0:
1851	push_pair(zerocon(T_DOUBLE));
1852	break;
1853
1854	case Bytecodes::_dconst_1:
1855	push_pair(makecon(TypeD::ONE));
1856	break;
1857
1858	case Bytecodes::_iconst_m1:push(intcon(-1)); break;
1859	case Bytecodes::_iconst_0: push(intcon( 0)); break;
1860	case Bytecodes::_iconst_1: push(intcon( 1)); break;
1861	case Bytecodes::_iconst_2: push(intcon( 2)); break;
1862	case Bytecodes::_iconst_3: push(intcon( 3)); break;
1863	case Bytecodes::_iconst_4: push(intcon( 4)); break;
1864	case Bytecodes::_iconst_5: push(intcon( 5)); break;
1865	case Bytecodes::_bipush: push(intcon(iter().get_constant_u1())); break;
1866	case Bytecodes::_sipush: push(intcon(iter().get_constant_u2())); break;
1867	case Bytecodes::_aconst_null: push(null()); break;
1868	case Bytecodes::_ldc:
1869	case Bytecodes::_ldc_w:
1870	case Bytecodes::_ldc2_w:
1871	// If the constant is unresolved, run this BC once in the interpreter.
1872	{
1873	ciConstant constant = iter().get_constant();
1874	if (!constant.is_valid() \|\|
1875	(constant.basic_type() == T_OBJECT &&
1876	!constant.as_object()->is_loaded())) {
1877	int index = iter().get_constant_pool_index();
1878	constantTag tag = iter().get_constant_pool_tag(index);
1879	uncommon_trap(Deoptimization::make_trap_request
1880	(Deoptimization::Reason_unloaded,
1881	Deoptimization::Action_reinterpret,
1882	index),
1883	NULL__null, tag.internal_name());
1884	break;
1885	}
1886	assert(constant.basic_type() != T_OBJECT \|\| constant.as_object()->is_instance(),do { if (!(constant.basic_type() != T_OBJECT \|\| constant.as_object ()->is_instance())) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1887, "assert(" "constant.basic_type() != T_OBJECT \|\| constant.as_object()->is_instance()" ") failed", "must be java_mirror of klass"); ::breakpoint(); } } while (0)
1887	"must be java_mirror of klass")do { if (!(constant.basic_type() != T_OBJECT \|\| constant.as_object ()->is_instance())) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 1887, "assert(" "constant.basic_type() != T_OBJECT \|\| constant.as_object()->is_instance()" ") failed", "must be java_mirror of klass"); ::breakpoint(); } } while (0);
1888	const Type* con_type = Type::make_from_constant(constant);
1889	if (con_type != NULL__null) {
1890	push_node(con_type->basic_type(), makecon(con_type));
1891	}
1892	}
1893
1894	break;
1895
1896	case Bytecodes::_aload_0:
1897	push( local(0) );
1898	break;
1899	case Bytecodes::_aload_1:
1900	push( local(1) );
1901	break;
1902	case Bytecodes::_aload_2:
1903	push( local(2) );
1904	break;
1905	case Bytecodes::_aload_3:
1906	push( local(3) );
1907	break;
1908	case Bytecodes::_aload:
1909	push( local(iter().get_index()) );
1910	break;
1911
1912	case Bytecodes::_fload_0:
1913	case Bytecodes::_iload_0:
1914	push( local(0) );
1915	break;
1916	case Bytecodes::_fload_1:
1917	case Bytecodes::_iload_1:
1918	push( local(1) );
1919	break;
1920	case Bytecodes::_fload_2:
1921	case Bytecodes::_iload_2:
1922	push( local(2) );
1923	break;
1924	case Bytecodes::_fload_3:
1925	case Bytecodes::_iload_3:
1926	push( local(3) );
1927	break;
1928	case Bytecodes::_fload:
1929	case Bytecodes::_iload:
1930	push( local(iter().get_index()) );
1931	break;
1932	case Bytecodes::_lload_0:
1933	push_pair_local( 0 );
1934	break;
1935	case Bytecodes::_lload_1:
1936	push_pair_local( 1 );
1937	break;
1938	case Bytecodes::_lload_2:
1939	push_pair_local( 2 );
1940	break;
1941	case Bytecodes::_lload_3:
1942	push_pair_local( 3 );
1943	break;
1944	case Bytecodes::_lload:
1945	push_pair_local( iter().get_index() );
1946	break;
1947
1948	case Bytecodes::_dload_0:
1949	push_pair_local(0);
1950	break;
1951	case Bytecodes::_dload_1:
1952	push_pair_local(1);
1953	break;
1954	case Bytecodes::_dload_2:
1955	push_pair_local(2);
1956	break;
1957	case Bytecodes::_dload_3:
1958	push_pair_local(3);
1959	break;
1960	case Bytecodes::_dload:
1961	push_pair_local(iter().get_index());
1962	break;
1963	case Bytecodes::_fstore_0:
1964	case Bytecodes::_istore_0:
1965	case Bytecodes::_astore_0:
1966	set_local( 0, pop() );
1967	break;
1968	case Bytecodes::_fstore_1:
1969	case Bytecodes::_istore_1:
1970	case Bytecodes::_astore_1:
1971	set_local( 1, pop() );
1972	break;
1973	case Bytecodes::_fstore_2:
1974	case Bytecodes::_istore_2:
1975	case Bytecodes::_astore_2:
1976	set_local( 2, pop() );
1977	break;
1978	case Bytecodes::_fstore_3:
1979	case Bytecodes::_istore_3:
1980	case Bytecodes::_astore_3:
1981	set_local( 3, pop() );
1982	break;
1983	case Bytecodes::_fstore:
1984	case Bytecodes::_istore:
1985	case Bytecodes::_astore:
1986	set_local( iter().get_index(), pop() );
1987	break;
1988	// long stores
1989	case Bytecodes::_lstore_0:
1990	set_pair_local( 0, pop_pair() );
1991	break;
1992	case Bytecodes::_lstore_1:
1993	set_pair_local( 1, pop_pair() );
1994	break;
1995	case Bytecodes::_lstore_2:
1996	set_pair_local( 2, pop_pair() );
1997	break;
1998	case Bytecodes::_lstore_3:
1999	set_pair_local( 3, pop_pair() );
2000	break;
2001	case Bytecodes::_lstore:
2002	set_pair_local( iter().get_index(), pop_pair() );
2003	break;
2004
2005	// double stores
2006	case Bytecodes::_dstore_0:
2007	set_pair_local( 0, dstore_rounding(pop_pair()) );
2008	break;
2009	case Bytecodes::_dstore_1:
2010	set_pair_local( 1, dstore_rounding(pop_pair()) );
2011	break;
2012	case Bytecodes::_dstore_2:
2013	set_pair_local( 2, dstore_rounding(pop_pair()) );
2014	break;
2015	case Bytecodes::_dstore_3:
2016	set_pair_local( 3, dstore_rounding(pop_pair()) );
2017	break;
2018	case Bytecodes::_dstore:
2019	set_pair_local( iter().get_index(), dstore_rounding(pop_pair()) );
2020	break;
2021
2022	case Bytecodes::_pop: dec_sp(1); break;
2023	case Bytecodes::_pop2: dec_sp(2); break;
2024	case Bytecodes::_swap:
2025	a = pop();
2026	b = pop();
2027	push(a);
2028	push(b);
2029	break;
2030	case Bytecodes::_dup:
2031	a = pop();
2032	push(a);
2033	push(a);
2034	break;
2035	case Bytecodes::_dup_x1:
2036	a = pop();
2037	b = pop();
2038	push( a );
2039	push( b );
2040	push( a );
2041	break;
2042	case Bytecodes::_dup_x2:
2043	a = pop();
2044	b = pop();
2045	c = pop();
2046	push( a );
2047	push( c );
2048	push( b );
2049	push( a );
2050	break;
2051	case Bytecodes::_dup2:
2052	a = pop();
2053	b = pop();
2054	push( b );
2055	push( a );
2056	push( b );
2057	push( a );
2058	break;
2059
2060	case Bytecodes::_dup2_x1:
2061	// before: .. c, b, a
2062	// after: .. b, a, c, b, a
2063	// not tested
2064	a = pop();
2065	b = pop();
2066	c = pop();
2067	push( b );
2068	push( a );
2069	push( c );
2070	push( b );
2071	push( a );
2072	break;
2073	case Bytecodes::_dup2_x2:
2074	// before: .. d, c, b, a
2075	// after: .. b, a, d, c, b, a
2076	// not tested
2077	a = pop();
2078	b = pop();
2079	c = pop();
2080	d = pop();
2081	push( b );
2082	push( a );
2083	push( d );
2084	push( c );
2085	push( b );
2086	push( a );
2087	break;
2088
2089	case Bytecodes::_arraylength: {
2090	// Must do null-check with value on expression stack
2091	Node *ary = null_check(peek(), T_ARRAY);
2092	// Compile-time detect of null-exception?
2093	if (stopped()) return;
2094	a = pop();
2095	push(load_array_length(a));
2096	break;
2097	}
2098
2099	case Bytecodes::_baload: array_load(T_BYTE); break;
2100	case Bytecodes::_caload: array_load(T_CHAR); break;
2101	case Bytecodes::_iaload: array_load(T_INT); break;
2102	case Bytecodes::_saload: array_load(T_SHORT); break;
2103	case Bytecodes::_faload: array_load(T_FLOAT); break;
2104	case Bytecodes::_aaload: array_load(T_OBJECT); break;
2105	case Bytecodes::_laload: array_load(T_LONG); break;
2106	case Bytecodes::_daload: array_load(T_DOUBLE); break;
2107	case Bytecodes::_bastore: array_store(T_BYTE); break;
2108	case Bytecodes::_castore: array_store(T_CHAR); break;
2109	case Bytecodes::_iastore: array_store(T_INT); break;
2110	case Bytecodes::_sastore: array_store(T_SHORT); break;
2111	case Bytecodes::_fastore: array_store(T_FLOAT); break;
2112	case Bytecodes::_aastore: array_store(T_OBJECT); break;
2113	case Bytecodes::_lastore: array_store(T_LONG); break;
2114	case Bytecodes::_dastore: array_store(T_DOUBLE); break;
2115
2116	case Bytecodes::_getfield:
2117	do_getfield();
2118	break;
2119
2120	case Bytecodes::_getstatic:
2121	do_getstatic();
2122	break;
2123
2124	case Bytecodes::_putfield:
2125	do_putfield();
2126	break;
2127
2128	case Bytecodes::_putstatic:
2129	do_putstatic();
2130	break;
2131
2132	case Bytecodes::_irem:
2133	// Must keep both values on the expression-stack during null-check
2134	zero_check_int(peek());
2135	// Compile-time detect of null-exception?
2136	if (stopped()) return;
2137	b = pop();
2138	a = pop();
2139	push(_gvn.transform(new ModINode(control(), a, b)));
2140	break;
2141	case Bytecodes::_idiv:
2142	// Must keep both values on the expression-stack during null-check
2143	zero_check_int(peek());
2144	// Compile-time detect of null-exception?
2145	if (stopped()) return;
2146	b = pop();
2147	a = pop();
2148	push( _gvn.transform( new DivINode(control(),a,b) ) );
2149	break;
2150	case Bytecodes::_imul:
2151	b = pop(); a = pop();
2152	push( _gvn.transform( new MulINode(a,b) ) );
2153	break;
2154	case Bytecodes::_iadd:
2155	b = pop(); a = pop();
2156	push( _gvn.transform( new AddINode(a,b) ) );
2157	break;
2158	case Bytecodes::_ineg:
2159	a = pop();
2160	push( _gvn.transform( new SubINode(_gvn.intcon(0),a)) );
2161	break;
2162	case Bytecodes::_isub:
2163	b = pop(); a = pop();
2164	push( _gvn.transform( new SubINode(a,b) ) );
2165	break;
2166	case Bytecodes::_iand:
2167	b = pop(); a = pop();
2168	push( _gvn.transform( new AndINode(a,b) ) );
2169	break;
2170	case Bytecodes::_ior:
2171	b = pop(); a = pop();
2172	push( _gvn.transform( new OrINode(a,b) ) );
2173	break;
2174	case Bytecodes::_ixor:
2175	b = pop(); a = pop();
2176	push( _gvn.transform( new XorINode(a,b) ) );
2177	break;
2178	case Bytecodes::_ishl:
2179	b = pop(); a = pop();
2180	push( _gvn.transform( new LShiftINode(a,b) ) );
2181	break;
2182	case Bytecodes::_ishr:
2183	b = pop(); a = pop();
2184	push( _gvn.transform( new RShiftINode(a,b) ) );
2185	break;
2186	case Bytecodes::_iushr:
2187	b = pop(); a = pop();
2188	push( _gvn.transform( new URShiftINode(a,b) ) );
2189	break;
2190
2191	case Bytecodes::_fneg:
2192	a = pop();
2193	b = _gvn.transform(new NegFNode (a));
2194	push(b);
2195	break;
2196
2197	case Bytecodes::_fsub:
2198	b = pop();
2199	a = pop();
2200	c = _gvn.transform( new SubFNode(a,b) );
2201	d = precision_rounding(c);
2202	push( d );
2203	break;
2204
2205	case Bytecodes::_fadd:
2206	b = pop();
2207	a = pop();
2208	c = _gvn.transform( new AddFNode(a,b) );
2209	d = precision_rounding(c);
2210	push( d );
2211	break;
2212
2213	case Bytecodes::_fmul:
2214	b = pop();
2215	a = pop();
2216	c = _gvn.transform( new MulFNode(a,b) );
2217	d = precision_rounding(c);
2218	push( d );
2219	break;
2220
2221	case Bytecodes::_fdiv:
2222	b = pop();
2223	a = pop();
2224	c = _gvn.transform( new DivFNode(0,a,b) );
2225	d = precision_rounding(c);
2226	push( d );
2227	break;
2228
2229	case Bytecodes::_frem:
2230	if (Matcher::has_match_rule(Op_ModF)) {
2231	// Generate a ModF node.
2232	b = pop();
2233	a = pop();
2234	c = _gvn.transform( new ModFNode(0,a,b) );
2235	d = precision_rounding(c);
2236	push( d );
2237	}
2238	else {
2239	// Generate a call.
2240	modf();
2241	}
2242	break;
2243
2244	case Bytecodes::_fcmpl:
2245	b = pop();
2246	a = pop();
2247	c = _gvn.transform( new CmpF3Node( a, b));
2248	push(c);
2249	break;
2250	case Bytecodes::_fcmpg:
2251	b = pop();
2252	a = pop();
2253
2254	// Same as fcmpl but need to flip the unordered case. Swap the inputs,
2255	// which negates the result sign except for unordered. Flip the unordered
2256	// as well by using CmpF3 which implements unordered-lesser instead of
2257	// unordered-greater semantics. Finally, commute the result bits. Result
2258	// is same as using a CmpF3Greater except we did it with CmpF3 alone.
2259	c = _gvn.transform( new CmpF3Node( b, a));
2260	c = _gvn.transform( new SubINode(_gvn.intcon(0),c) );
2261	push(c);
2262	break;
2263
2264	case Bytecodes::_f2i:
2265	a = pop();
2266	push(_gvn.transform(new ConvF2INode(a)));
2267	break;
2268
2269	case Bytecodes::_d2i:
2270	a = pop_pair();
2271	b = _gvn.transform(new ConvD2INode(a));
2272	push( b );
2273	break;
2274
2275	case Bytecodes::_f2d:
2276	a = pop();
2277	b = _gvn.transform( new ConvF2DNode(a));
2278	push_pair( b );
2279	break;
2280
2281	case Bytecodes::_d2f:
2282	a = pop_pair();
2283	b = _gvn.transform( new ConvD2FNode(a));
2284	// This breaks _227_mtrt (speed & correctness) and _222_mpegaudio (speed)
2285	//b = _gvn.transform(new RoundFloatNode(0, b) );
2286	push( b );
2287	break;
2288
2289	case Bytecodes::_l2f:
2290	if (Matcher::convL2FSupported()) {
2291	a = pop_pair();
2292	b = _gvn.transform( new ConvL2FNode(a));
2293	// For x86_32.ad, FILD doesn't restrict precision to 24 or 53 bits.
2294	// Rather than storing the result into an FP register then pushing
2295	// out to memory to round, the machine instruction that implements
2296	// ConvL2D is responsible for rounding.
2297	// c = precision_rounding(b);
2298	c = _gvn.transform(b);
2299	push(c);
2300	} else {
2301	l2f();
2302	}
2303	break;
2304
2305	case Bytecodes::_l2d:
2306	a = pop_pair();
2307	b = _gvn.transform( new ConvL2DNode(a));
2308	// For x86_32.ad, rounding is always necessary (see _l2f above).
2309	// c = dprecision_rounding(b);
2310	c = _gvn.transform(b);
2311	push_pair(c);
2312	break;
2313
2314	case Bytecodes::_f2l:
2315	a = pop();
2316	b = _gvn.transform( new ConvF2LNode(a));
2317	push_pair(b);
2318	break;
2319
2320	case Bytecodes::_d2l:
2321	a = pop_pair();
2322	b = _gvn.transform( new ConvD2LNode(a));
2323	push_pair(b);
2324	break;
2325
2326	case Bytecodes::_dsub:
2327	b = pop_pair();
2328	a = pop_pair();
2329	c = _gvn.transform( new SubDNode(a,b) );
2330	d = dprecision_rounding(c);
2331	push_pair( d );
2332	break;
2333
2334	case Bytecodes::_dadd:
2335	b = pop_pair();
2336	a = pop_pair();
2337	c = _gvn.transform( new AddDNode(a,b) );
2338	d = dprecision_rounding(c);
2339	push_pair( d );
2340	break;
2341
2342	case Bytecodes::_dmul:
2343	b = pop_pair();
2344	a = pop_pair();
2345	c = _gvn.transform( new MulDNode(a,b) );
2346	d = dprecision_rounding(c);
2347	push_pair( d );
2348	break;
2349
2350	case Bytecodes::_ddiv:
2351	b = pop_pair();
2352	a = pop_pair();
2353	c = _gvn.transform( new DivDNode(0,a,b) );
2354	d = dprecision_rounding(c);
2355	push_pair( d );
2356	break;
2357
2358	case Bytecodes::_dneg:
2359	a = pop_pair();
2360	b = _gvn.transform(new NegDNode (a));
2361	push_pair(b);
2362	break;
2363
2364	case Bytecodes::_drem:
2365	if (Matcher::has_match_rule(Op_ModD)) {
2366	// Generate a ModD node.
2367	b = pop_pair();
2368	a = pop_pair();
2369	// a % b
2370
2371	c = _gvn.transform( new ModDNode(0,a,b) );
2372	d = dprecision_rounding(c);
2373	push_pair( d );
2374	}
2375	else {
2376	// Generate a call.
2377	modd();
2378	}
2379	break;
2380
2381	case Bytecodes::_dcmpl:
2382	b = pop_pair();
2383	a = pop_pair();
2384	c = _gvn.transform( new CmpD3Node( a, b));
2385	push(c);
2386	break;
2387
2388	case Bytecodes::_dcmpg:
2389	b = pop_pair();
2390	a = pop_pair();
2391	// Same as dcmpl but need to flip the unordered case.
2392	// Commute the inputs, which negates the result sign except for unordered.
2393	// Flip the unordered as well by using CmpD3 which implements
2394	// unordered-lesser instead of unordered-greater semantics.
2395	// Finally, negate the result bits. Result is same as using a
2396	// CmpD3Greater except we did it with CmpD3 alone.
2397	c = _gvn.transform( new CmpD3Node( b, a));
2398	c = _gvn.transform( new SubINode(_gvn.intcon(0),c) );
2399	push(c);
2400	break;
2401
2402
2403	// Note for longs -> lo word is on TOS, hi word is on TOS - 1
2404	case Bytecodes::_land:
2405	b = pop_pair();
2406	a = pop_pair();
2407	c = _gvn.transform( new AndLNode(a,b) );
2408	push_pair(c);
2409	break;
2410	case Bytecodes::_lor:
2411	b = pop_pair();
2412	a = pop_pair();
2413	c = _gvn.transform( new OrLNode(a,b) );
2414	push_pair(c);
2415	break;
2416	case Bytecodes::_lxor:
2417	b = pop_pair();
2418	a = pop_pair();
2419	c = _gvn.transform( new XorLNode(a,b) );
2420	push_pair(c);
2421	break;
2422
2423	case Bytecodes::_lshl:
2424	b = pop(); // the shift count
2425	a = pop_pair(); // value to be shifted
2426	c = _gvn.transform( new LShiftLNode(a,b) );
2427	push_pair(c);
2428	break;
2429	case Bytecodes::_lshr:
2430	b = pop(); // the shift count
2431	a = pop_pair(); // value to be shifted
2432	c = _gvn.transform( new RShiftLNode(a,b) );
2433	push_pair(c);
2434	break;
2435	case Bytecodes::_lushr:
2436	b = pop(); // the shift count
2437	a = pop_pair(); // value to be shifted
2438	c = _gvn.transform( new URShiftLNode(a,b) );
2439	push_pair(c);
2440	break;
2441	case Bytecodes::_lmul:
2442	b = pop_pair();
2443	a = pop_pair();
2444	c = _gvn.transform( new MulLNode(a,b) );
2445	push_pair(c);
2446	break;
2447
2448	case Bytecodes::_lrem:
2449	// Must keep both values on the expression-stack during null-check
2450	assert(peek(0) == top(), "long word order")do { if (!(peek(0) == top())) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 2450, "assert(" "peek(0) == top()" ") failed", "long word order" ); ::breakpoint(); } } while (0);
2451	zero_check_long(peek(1));
2452	// Compile-time detect of null-exception?
2453	if (stopped()) return;
2454	b = pop_pair();
2455	a = pop_pair();
2456	c = _gvn.transform( new ModLNode(control(),a,b) );
2457	push_pair(c);
2458	break;
2459
2460	case Bytecodes::_ldiv:
2461	// Must keep both values on the expression-stack during null-check
2462	assert(peek(0) == top(), "long word order")do { if (!(peek(0) == top())) { (*g_assert_poison) = 'X';; report_vm_error ("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 2462, "assert(" "peek(0) == top()" ") failed", "long word order" ); ::breakpoint(); } } while (0);
2463	zero_check_long(peek(1));
2464	// Compile-time detect of null-exception?
2465	if (stopped()) return;
2466	b = pop_pair();
2467	a = pop_pair();
2468	c = _gvn.transform( new DivLNode(control(),a,b) );
2469	push_pair(c);
2470	break;
2471
2472	case Bytecodes::_ladd:
2473	b = pop_pair();
2474	a = pop_pair();
2475	c = _gvn.transform( new AddLNode(a,b) );
2476	push_pair(c);
2477	break;
2478	case Bytecodes::_lsub:
2479	b = pop_pair();
2480	a = pop_pair();
2481	c = _gvn.transform( new SubLNode(a,b) );
2482	push_pair(c);
2483	break;
2484	case Bytecodes::_lcmp:
2485	// Safepoints are now inserted _before_ branches. The long-compare
2486	// bytecode painfully produces a 3-way value (-1,0,+1) which requires a
2487	// slew of control flow. These are usually followed by a CmpI vs zero and
2488	// a branch; this pattern then optimizes to the obvious long-compare and
2489	// branch. However, if the branch is backwards there's a Safepoint
2490	// inserted. The inserted Safepoint captures the JVM state at the
2491	// pre-branch point, i.e. it captures the 3-way value. Thus if a
2492	// long-compare is used to control a loop the debug info will force
2493	// computation of the 3-way value, even though the generated code uses a
2494	// long-compare and branch. We try to rectify the situation by inserting
2495	// a SafePoint here and have it dominate and kill the safepoint added at a
2496	// following backwards branch. At this point the JVM state merely holds 2
2497	// longs but not the 3-way value.
2498	switch (iter().next_bc()) {
2499	case Bytecodes::_ifgt:
2500	case Bytecodes::_iflt:
2501	case Bytecodes::_ifge:
2502	case Bytecodes::_ifle:
2503	case Bytecodes::_ifne:
2504	case Bytecodes::_ifeq:
2505	// If this is a backwards branch in the bytecodes, add Safepoint
2506	maybe_add_safepoint(iter().next_get_dest());
2507	default:
2508	break;
2509	}
2510	b = pop_pair();
2511	a = pop_pair();
2512	c = _gvn.transform( new CmpL3Node( a, b ));
2513	push(c);
2514	break;
2515
2516	case Bytecodes::_lneg:
2517	a = pop_pair();
2518	b = _gvn.transform( new SubLNode(longcon(0),a));
2519	push_pair(b);
2520	break;
2521	case Bytecodes::_l2i:
2522	a = pop_pair();
2523	push( _gvn.transform( new ConvL2INode(a)));
2524	break;
2525	case Bytecodes::_i2l:
2526	a = pop();
2527	b = _gvn.transform( new ConvI2LNode(a));
2528	push_pair(b);
2529	break;
2530	case Bytecodes::_i2b:
2531	// Sign extend
2532	a = pop();
2533	a = Compile::narrow_value(T_BYTE, a, NULL__null, &_gvn, true);
2534	push(a);
2535	break;
2536	case Bytecodes::_i2s:
2537	a = pop();
2538	a = Compile::narrow_value(T_SHORT, a, NULL__null, &_gvn, true);
2539	push(a);
2540	break;
2541	case Bytecodes::_i2c:
2542	a = pop();
2543	a = Compile::narrow_value(T_CHAR, a, NULL__null, &_gvn, true);
2544	push(a);
2545	break;
2546
2547	case Bytecodes::_i2f:
2548	a = pop();
2549	b = _gvn.transform( new ConvI2FNode(a) ) ;
2550	c = precision_rounding(b);
	Value stored to 'c' is never read
2551	push (b);
2552	break;
2553
2554	case Bytecodes::_i2d:
2555	a = pop();
2556	b = _gvn.transform( new ConvI2DNode(a));
2557	push_pair(b);
2558	break;
2559
2560	case Bytecodes::_iinc: // Increment local
2561	i = iter().get_index(); // Get local index
2562	set_local( i, _gvn.transform( new AddINode( _gvn.intcon(iter().get_iinc_con()), local(i) ) ) );
2563	break;
2564
2565	// Exit points of synchronized methods must have an unlock node
2566	case Bytecodes::_return:
2567	return_current(NULL__null);
2568	break;
2569
2570	case Bytecodes::_ireturn:
2571	case Bytecodes::_areturn:
2572	case Bytecodes::_freturn:
2573	return_current(pop());
2574	break;
2575	case Bytecodes::_lreturn:
2576	return_current(pop_pair());
2577	break;
2578	case Bytecodes::_dreturn:
2579	return_current(pop_pair());
2580	break;
2581
2582	case Bytecodes::_athrow:
2583	// null exception oop throws NULL pointer exception
2584	null_check(peek());
2585	if (stopped()) return;
2586	// Hook the thrown exception directly to subsequent handlers.
2587	if (BailoutToInterpreterForThrows) {
2588	// Keep method interpreted from now on.
2589	uncommon_trap(Deoptimization::Reason_unhandled,
2590	Deoptimization::Action_make_not_compilable);
2591	return;
2592	}
2593	if (env()->jvmti_can_post_on_exceptions()) {
2594	// check if we must post exception events, take uncommon trap if so (with must_throw = false)
2595	uncommon_trap_if_should_post_on_exceptions(Deoptimization::Reason_unhandled, false);
2596	}
2597	// Here if either can_post_on_exceptions or should_post_on_exceptions is false
2598	add_exception_state(make_exception_state(peek()));
2599	break;
2600
2601	case Bytecodes::_goto: // fall through
2602	case Bytecodes::_goto_w: {
2603	int target_bci = (bc() == Bytecodes::_goto) ? iter().get_dest() : iter().get_far_dest();
2604
2605	// If this is a backwards branch in the bytecodes, add Safepoint
2606	maybe_add_safepoint(target_bci);
2607
2608	// Merge the current control into the target basic block
2609	merge(target_bci);
2610
2611	// See if we can get some profile data and hand it off to the next block
2612	Block *target_block = block()->successor_for_bci(target_bci);
2613	if (target_block->pred_count() != 1) break;
2614	ciMethodData* methodData = method()->method_data();
2615	if (!methodData->is_mature()) break;
2616	ciProfileData* data = methodData->bci_to_data(bci());
2617	assert(data != NULL && data->is_JumpData(), "need JumpData for taken branch")do { if (!(data != __null && data->is_JumpData())) { (*g_assert_poison) = 'X';; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 2617, "assert(" "data != __null && data->is_JumpData()" ") failed", "need JumpData for taken branch"); ::breakpoint( ); } } while (0);
2618	int taken = ((ciJumpData*)data)->taken();
2619	taken = method()->scale_count(taken);
2620	target_block->set_count(taken);
2621	break;
2622	}
2623
2624	case Bytecodes::_ifnull: btest = BoolTest::eq; goto handle_if_null;
2625	case Bytecodes::_ifnonnull: btest = BoolTest::ne; goto handle_if_null;
2626	handle_if_null:
2627	// If this is a backwards branch in the bytecodes, add Safepoint
2628	maybe_add_safepoint(iter().get_dest());
2629	a = null();
2630	b = pop();
2631	if (!_gvn.type(b)->speculative_maybe_null() &&
2632	!too_many_traps(Deoptimization::Reason_speculate_null_check)) {
2633	inc_sp(1);
2634	Node* null_ctl = top();
2635	b = null_check_oop(b, &null_ctl, true, true, true);
2636	assert(null_ctl->is_top(), "no null control here")do { if (!(null_ctl->is_top())) { (*g_assert_poison) = 'X' ;; report_vm_error("/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 2636, "assert(" "null_ctl->is_top()" ") failed", "no null control here" ); ::breakpoint(); } } while (0);
2637	dec_sp(1);
2638	} else if (_gvn.type(b)->speculative_always_null() &&
2639	!too_many_traps(Deoptimization::Reason_speculate_null_assert)) {
2640	inc_sp(1);
2641	b = null_assert(b);
2642	dec_sp(1);
2643	}
2644	c = _gvn.transform( new CmpPNode(b, a) );
2645	do_ifnull(btest, c);
2646	break;
2647
2648	case Bytecodes::_if_acmpeq: btest = BoolTest::eq; goto handle_if_acmp;
2649	case Bytecodes::_if_acmpne: btest = BoolTest::ne; goto handle_if_acmp;
2650	handle_if_acmp:
2651	// If this is a backwards branch in the bytecodes, add Safepoint
2652	maybe_add_safepoint(iter().get_dest());
2653	a = pop();
2654	b = pop();
2655	c = _gvn.transform( new CmpPNode(b, a) );
2656	c = optimize_cmp_with_klass(c);
2657	do_if(btest, c);
2658	break;
2659
2660	case Bytecodes::_ifeq: btest = BoolTest::eq; goto handle_ifxx;
2661	case Bytecodes::_ifne: btest = BoolTest::ne; goto handle_ifxx;
2662	case Bytecodes::_iflt: btest = BoolTest::lt; goto handle_ifxx;
2663	case Bytecodes::_ifle: btest = BoolTest::le; goto handle_ifxx;
2664	case Bytecodes::_ifgt: btest = BoolTest::gt; goto handle_ifxx;
2665	case Bytecodes::_ifge: btest = BoolTest::ge; goto handle_ifxx;
2666	handle_ifxx:
2667	// If this is a backwards branch in the bytecodes, add Safepoint
2668	maybe_add_safepoint(iter().get_dest());
2669	a = _gvn.intcon(0);
2670	b = pop();
2671	c = _gvn.transform( new CmpINode(b, a) );
2672	do_if(btest, c);
2673	break;
2674
2675	case Bytecodes::_if_icmpeq: btest = BoolTest::eq; goto handle_if_icmp;
2676	case Bytecodes::_if_icmpne: btest = BoolTest::ne; goto handle_if_icmp;
2677	case Bytecodes::_if_icmplt: btest = BoolTest::lt; goto handle_if_icmp;
2678	case Bytecodes::_if_icmple: btest = BoolTest::le; goto handle_if_icmp;
2679	case Bytecodes::_if_icmpgt: btest = BoolTest::gt; goto handle_if_icmp;
2680	case Bytecodes::_if_icmpge: btest = BoolTest::ge; goto handle_if_icmp;
2681	handle_if_icmp:
2682	// If this is a backwards branch in the bytecodes, add Safepoint
2683	maybe_add_safepoint(iter().get_dest());
2684	a = pop();
2685	b = pop();
2686	c = _gvn.transform( new CmpINode( b, a ) );
2687	do_if(btest, c);
2688	break;
2689
2690	case Bytecodes::_tableswitch:
2691	do_tableswitch();
2692	break;
2693
2694	case Bytecodes::_lookupswitch:
2695	do_lookupswitch();
2696	break;
2697
2698	case Bytecodes::_invokestatic:
2699	case Bytecodes::_invokedynamic:
2700	case Bytecodes::_invokespecial:
2701	case Bytecodes::_invokevirtual:
2702	case Bytecodes::_invokeinterface:
2703	do_call();
2704	break;
2705	case Bytecodes::_checkcast:
2706	do_checkcast();
2707	break;
2708	case Bytecodes::_instanceof:
2709	do_instanceof();
2710	break;
2711	case Bytecodes::_anewarray:
2712	do_anewarray();
2713	break;
2714	case Bytecodes::_newarray:
2715	do_newarray((BasicType)iter().get_index());
2716	break;
2717	case Bytecodes::_multianewarray:
2718	do_multianewarray();
2719	break;
2720	case Bytecodes::_new:
2721	do_new();
2722	break;
2723
2724	case Bytecodes::_jsr:
2725	case Bytecodes::_jsr_w:
2726	do_jsr();
2727	break;
2728
2729	case Bytecodes::_ret:
2730	do_ret();
2731	break;
2732
2733
2734	case Bytecodes::_monitorenter:
2735	do_monitor_enter();
2736	break;
2737
2738	case Bytecodes::_monitorexit:
2739	do_monitor_exit();
2740	break;
2741
2742	case Bytecodes::_breakpoint:
2743	// Breakpoint set concurrently to compile
2744	// %%% use an uncommon trap?
2745	C->record_failure("breakpoint in method");
2746	return;
2747
2748	default:
2749	#ifndef PRODUCT
2750	map()->dump(99);
2751	#endif
2752	tty->print("\nUnhandled bytecode %s\n", Bytecodes::name(bc()) );
2753	ShouldNotReachHere()do { (*g_assert_poison) = 'X';; report_should_not_reach_here( "/home/daniel/Projects/java/jdk/src/hotspot/share/opto/parse2.cpp" , 2753); ::breakpoint(); } while (0);
2754	}
2755
2756	#ifndef PRODUCT
2757	if (C->should_print(1)) {
2758	IdealGraphPrinter* printer = C->printer();
2759	char buffer[256];
2760	jio_snprintf(buffer, sizeof(buffer), "Bytecode %d: %s", bci(), Bytecodes::name(bc()));
2761	bool old = printer->traverse_outs();
2762	printer->set_traverse_outs(true);
2763	printer->print_method(buffer, 4);
2764	printer->set_traverse_outs(old);
2765	}
2766	#endif
2767	}