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src/share/vm/ci/bcEscapeAnalyzer.cpp@1d7922586cf6 (annotated)

src/share/vm/ci/bcEscapeAnalyzer.cpp

Tue, 24 Jul 2012 10:51:00 -0700

author

twisti

date

Tue, 24 Jul 2012 10:51:00 -0700

changeset 3969

1d7922586cf6

parent 3496

5ed8f599a788

child 4021

7f813940ac35

permissions

-rw-r--r--

7023639: JSR 292 method handle invocation needs a fast path for compiled code
6984705: JSR 292 method handle creation should not go through JNI
Summary: remove assembly code for JDK 7 chained method handles
Reviewed-by: jrose, twisti, kvn, mhaupt
Contributed-by: John Rose <john.r.rose@oracle.com>, Christian Thalinger <christian.thalinger@oracle.com>, Michael Haupt <michael.haupt@oracle.com>

duke@435	1	/*
kvn@3496	2	* Copyright (c) 2005, 2012, Oracle and/or its affiliates. All rights reserved.
duke@435	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@435	4	*
duke@435	5	* This code is free software; you can redistribute it and/or modify it
duke@435	6	* under the terms of the GNU General Public License version 2 only, as
duke@435	7	* published by the Free Software Foundation.
duke@435	8	*
duke@435	9	* This code is distributed in the hope that it will be useful, but WITHOUT
duke@435	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@435	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@435	12	* version 2 for more details (a copy is included in the LICENSE file that
duke@435	13	* accompanied this code).
duke@435	14	*
duke@435	15	* You should have received a copy of the GNU General Public License version
duke@435	16	* 2 along with this work; if not, write to the Free Software Foundation,
duke@435	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@435	18	*
trims@1907	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907	20	* or visit www.oracle.com if you need additional information or have any
trims@1907	21	* questions.
duke@435	22	*
duke@435	23	*/
duke@435	24
stefank@2314	25	#include "precompiled.hpp"
stefank@2314	26	#include "ci/bcEscapeAnalyzer.hpp"
stefank@2314	27	#include "ci/ciConstant.hpp"
stefank@2314	28	#include "ci/ciField.hpp"
stefank@2314	29	#include "ci/ciMethodBlocks.hpp"
stefank@2314	30	#include "ci/ciStreams.hpp"
stefank@2314	31	#include "interpreter/bytecode.hpp"
stefank@2314	32	#include "utilities/bitMap.inline.hpp"
duke@435	33
duke@435	34
duke@435	35
duke@435	36	#ifndef PRODUCT
duke@435	37	#define TRACE_BCEA(level, code) \
duke@435	38	if (EstimateArgEscape && BCEATraceLevel >= level) { \
duke@435	39	code; \
duke@435	40	}
duke@435	41	#else
duke@435	42	#define TRACE_BCEA(level, code)
duke@435	43	#endif
duke@435	44
duke@435	45	// Maintain a map of which aguments a local variable or
duke@435	46	// stack slot may contain. In addition to tracking
duke@435	47	// arguments, it tracks two special values, "allocated"
duke@435	48	// which represents any object allocated in the current
duke@435	49	// method, and "unknown" which is any other object.
duke@435	50	// Up to 30 arguments are handled, with the last one
duke@435	51	// representing summary information for any extra arguments
duke@435	52	class BCEscapeAnalyzer::ArgumentMap {
duke@435	53	uint _bits;
duke@435	54	enum {MAXBIT = 29,
duke@435	55	ALLOCATED = 1,
duke@435	56	UNKNOWN = 2};
duke@435	57
duke@435	58	uint int_to_bit(uint e) const {
duke@435	59	if (e > MAXBIT)
duke@435	60	e = MAXBIT;
duke@435	61	return (1 << (e + 2));
duke@435	62	}
duke@435	63
duke@435	64	public:
duke@435	65	ArgumentMap() { _bits = 0;}
duke@435	66	void set_bits(uint bits) { _bits = bits;}
duke@435	67	uint get_bits() const { return _bits;}
duke@435	68	void clear() { _bits = 0;}
duke@435	69	void set_all() { _bits = ~0u; }
duke@435	70	bool is_empty() const { return _bits == 0; }
duke@435	71	bool contains(uint var) const { return (_bits & int_to_bit(var)) != 0; }
duke@435	72	bool is_singleton(uint var) const { return (_bits == int_to_bit(var)); }
duke@435	73	bool contains_unknown() const { return (_bits & UNKNOWN) != 0; }
duke@435	74	bool contains_allocated() const { return (_bits & ALLOCATED) != 0; }
duke@435	75	bool contains_vars() const { return (_bits & (((1 << MAXBIT) -1) << 2)) != 0; }
duke@435	76	void set(uint var) { _bits = int_to_bit(var); }
duke@435	77	void add(uint var) { _bits |= int_to_bit(var); }
duke@435	78	void add_unknown() { _bits = UNKNOWN; }
duke@435	79	void add_allocated() { _bits = ALLOCATED; }
duke@435	80	void set_union(const ArgumentMap &am) { _bits |= am._bits; }
duke@435	81	void set_intersect(const ArgumentMap &am) { _bits |= am._bits; }
duke@435	82	void set_difference(const ArgumentMap &am) { _bits &= ~am._bits; }
duke@435	83	void operator=(const ArgumentMap &am) { _bits = am._bits; }
duke@435	84	bool operator==(const ArgumentMap &am) { return _bits == am._bits; }
duke@435	85	bool operator!=(const ArgumentMap &am) { return _bits != am._bits; }
duke@435	86	};
duke@435	87
duke@435	88	class BCEscapeAnalyzer::StateInfo {
duke@435	89	public:
duke@435	90	ArgumentMap *_vars;
duke@435	91	ArgumentMap *_stack;
duke@435	92	short _stack_height;
duke@435	93	short _max_stack;
duke@435	94	bool _initialized;
duke@435	95	ArgumentMap empty_map;
duke@435	96
duke@435	97	StateInfo() {
duke@435	98	empty_map.clear();
duke@435	99	}
duke@435	100
kvn@2102	101	ArgumentMap raw_pop() { guarantee(_stack_height > 0, "stack underflow"); return _stack[--_stack_height]; }
duke@435	102	ArgumentMap apop() { return raw_pop(); }
duke@435	103	void spop() { raw_pop(); }
duke@435	104	void lpop() { spop(); spop(); }
kvn@2102	105	void raw_push(ArgumentMap i) { guarantee(_stack_height < _max_stack, "stack overflow"); _stack[_stack_height++] = i; }
duke@435	106	void apush(ArgumentMap i) { raw_push(i); }
duke@435	107	void spush() { raw_push(empty_map); }
duke@435	108	void lpush() { spush(); spush(); }
duke@435	109
duke@435	110	};
duke@435	111
duke@435	112	void BCEscapeAnalyzer::set_returned(ArgumentMap vars) {
kvn@480	113	for (int i = 0; i < _arg_size; i++) {
duke@435	114	if (vars.contains(i))
kvn@2003	115	_arg_returned.set(i);
duke@435	116	}
duke@435	117	_return_local = _return_local && !(vars.contains_unknown() || vars.contains_allocated());
duke@435	118	_return_allocated = _return_allocated && vars.contains_allocated() && !(vars.contains_unknown() || vars.contains_vars());
duke@435	119	}
duke@435	120
duke@435	121	// return true if any element of vars is an argument
duke@435	122	bool BCEscapeAnalyzer::is_argument(ArgumentMap vars) {
kvn@480	123	for (int i = 0; i < _arg_size; i++) {
duke@435	124	if (vars.contains(i))
duke@435	125	return true;
duke@435	126	}
duke@435	127	return false;
duke@435	128	}
duke@435	129
duke@435	130	// return true if any element of vars is an arg_stack argument
duke@435	131	bool BCEscapeAnalyzer::is_arg_stack(ArgumentMap vars){
duke@435	132	if (_conservative)
duke@435	133	return true;
kvn@480	134	for (int i = 0; i < _arg_size; i++) {
kvn@2003	135	if (vars.contains(i) && _arg_stack.test(i))
duke@435	136	return true;
duke@435	137	}
duke@435	138	return false;
duke@435	139	}
duke@435	140
kvn@2003	141	void BCEscapeAnalyzer::clear_bits(ArgumentMap vars, VectorSet &bm) {
kvn@480	142	for (int i = 0; i < _arg_size; i++) {
duke@435	143	if (vars.contains(i)) {
kvn@2003	144	bm >>= i;
duke@435	145	}
duke@435	146	}
duke@435	147	}
kvn@480	148
duke@435	149	void BCEscapeAnalyzer::set_method_escape(ArgumentMap vars) {
duke@435	150	clear_bits(vars, _arg_local);
duke@435	151	}
duke@435	152
kvn@3318	153	void BCEscapeAnalyzer::set_global_escape(ArgumentMap vars, bool merge) {
duke@435	154	clear_bits(vars, _arg_local);
duke@435	155	clear_bits(vars, _arg_stack);
duke@435	156	if (vars.contains_allocated())
duke@435	157	_allocated_escapes = true;
kvn@3318	158
kvn@3318	159	if (merge && !vars.is_empty()) {
kvn@3318	160	// Merge new state into already processed block.
kvn@3318	161	// New state is not taken into account and
kvn@3318	162	// it may invalidate set_returned() result.
kvn@3318	163	if (vars.contains_unknown() || vars.contains_allocated()) {
kvn@3318	164	_return_local = false;
kvn@3318	165	}
kvn@3318	166	if (vars.contains_unknown() || vars.contains_vars()) {
kvn@3318	167	_return_allocated = false;
kvn@3318	168	}
kvn@3318	169	}
duke@435	170	}
duke@435	171
duke@435	172	void BCEscapeAnalyzer::set_dirty(ArgumentMap vars) {
duke@435	173	clear_bits(vars, _dirty);
duke@435	174	}
duke@435	175
kvn@480	176	void BCEscapeAnalyzer::set_modified(ArgumentMap vars, int offs, int size) {
kvn@480	177
kvn@480	178	for (int i = 0; i < _arg_size; i++) {
kvn@480	179	if (vars.contains(i)) {
kvn@480	180	set_arg_modified(i, offs, size);
kvn@480	181	}
kvn@480	182	}
kvn@480	183	if (vars.contains_unknown())
kvn@480	184	_unknown_modified = true;
kvn@480	185	}
kvn@480	186
duke@435	187	bool BCEscapeAnalyzer::is_recursive_call(ciMethod* callee) {
duke@435	188	for (BCEscapeAnalyzer* scope = this; scope != NULL; scope = scope->_parent) {
duke@435	189	if (scope->method() == callee) {
duke@435	190	return true;
duke@435	191	}
duke@435	192	}
duke@435	193	return false;
duke@435	194	}
duke@435	195
kvn@480	196	bool BCEscapeAnalyzer::is_arg_modified(int arg, int offset, int size_in_bytes) {
kvn@480	197	if (offset == OFFSET_ANY)
kvn@480	198	return _arg_modified[arg] != 0;
kvn@480	199	assert(arg >= 0 && arg < _arg_size, "must be an argument.");
kvn@480	200	bool modified = false;
kvn@480	201	int l = offset / HeapWordSize;
kvn@480	202	int h = round_to(offset + size_in_bytes, HeapWordSize) / HeapWordSize;
kvn@480	203	if (l > ARG_OFFSET_MAX)
kvn@480	204	l = ARG_OFFSET_MAX;
kvn@480	205	if (h > ARG_OFFSET_MAX+1)
kvn@480	206	h = ARG_OFFSET_MAX + 1;
kvn@480	207	for (int i = l; i < h; i++) {
kvn@480	208	modified = modified || (_arg_modified[arg] & (1 << i)) != 0;
kvn@480	209	}
kvn@480	210	return modified;
kvn@480	211	}
kvn@480	212
kvn@480	213	void BCEscapeAnalyzer::set_arg_modified(int arg, int offset, int size_in_bytes) {
kvn@480	214	if (offset == OFFSET_ANY) {
kvn@480	215	_arg_modified[arg] = (uint) -1;
kvn@480	216	return;
kvn@480	217	}
kvn@480	218	assert(arg >= 0 && arg < _arg_size, "must be an argument.");
kvn@480	219	int l = offset / HeapWordSize;
kvn@480	220	int h = round_to(offset + size_in_bytes, HeapWordSize) / HeapWordSize;
kvn@480	221	if (l > ARG_OFFSET_MAX)
kvn@480	222	l = ARG_OFFSET_MAX;
kvn@480	223	if (h > ARG_OFFSET_MAX+1)
kvn@480	224	h = ARG_OFFSET_MAX + 1;
kvn@480	225	for (int i = l; i < h; i++) {
kvn@480	226	_arg_modified[arg] |= (1 << i);
kvn@480	227	}
kvn@480	228	}
kvn@480	229
duke@435	230	void BCEscapeAnalyzer::invoke(StateInfo &state, Bytecodes::Code code, ciMethod* target, ciKlass* holder) {
duke@435	231	int i;
duke@435	232
duke@435	233	// retrieve information about the callee
duke@435	234	ciInstanceKlass* klass = target->holder();
duke@435	235	ciInstanceKlass* calling_klass = method()->holder();
duke@435	236	ciInstanceKlass* callee_holder = ciEnv::get_instance_klass_for_declared_method_holder(holder);
duke@435	237	ciInstanceKlass* actual_recv = callee_holder;
duke@435	238
kvn@589	239	// some methods are obviously bindable without any type checks so
kvn@589	240	// convert them directly to an invokespecial.
twisti@3969	241	if (target->is_loaded() && !target->is_abstract() && target->can_be_statically_bound()) {
twisti@3969	242	switch (code) {
twisti@3969	243	case Bytecodes::_invokevirtual: code = Bytecodes::_invokespecial; break;
twisti@3969	244	case Bytecodes::_invokehandle: code = Bytecodes::_invokestatic; break;
twisti@3969	245	}
kvn@589	246	}
kvn@589	247
duke@435	248	// compute size of arguments
never@2812	249	int arg_size = target->invoke_arg_size(code);
duke@435	250	int arg_base = MAX2(state._stack_height - arg_size, 0);
duke@435	251
duke@435	252	// direct recursive calls are skipped if they can be bound statically without introducing
duke@435	253	// dependencies and if parameters are passed at the same position as in the current method
duke@435	254	// other calls are skipped if there are no unescaped arguments passed to them
duke@435	255	bool directly_recursive = (method() == target) &&
duke@435	256	(code != Bytecodes::_invokevirtual || target->is_final_method() || state._stack[arg_base] .is_empty());
duke@435	257
duke@435	258	// check if analysis of callee can safely be skipped
duke@435	259	bool skip_callee = true;
duke@435	260	for (i = state._stack_height - 1; i >= arg_base && skip_callee; i--) {
duke@435	261	ArgumentMap arg = state._stack[i];
duke@435	262	skip_callee = !is_argument(arg) || !is_arg_stack(arg) || (directly_recursive && arg.is_singleton(i - arg_base));
duke@435	263	}
twisti@2484	264	// For now we conservatively skip invokedynamic.
twisti@2484	265	if (code == Bytecodes::_invokedynamic) {
twisti@2484	266	skip_callee = true;
twisti@2484	267	}
duke@435	268	if (skip_callee) {
duke@435	269	TRACE_BCEA(3, tty->print_cr("[EA] skipping method %s::%s", holder->name()->as_utf8(), target->name()->as_utf8()));
duke@435	270	for (i = 0; i < arg_size; i++) {
duke@435	271	set_method_escape(state.raw_pop());
duke@435	272	}
kvn@480	273	_unknown_modified = true; // assume the worst since we don't analyze the called method
duke@435	274	return;
duke@435	275	}
duke@435	276
duke@435	277	// determine actual method (use CHA if necessary)
duke@435	278	ciMethod* inline_target = NULL;
duke@435	279	if (target->is_loaded() && klass->is_loaded()
duke@435	280	&& (klass->is_initialized() || klass->is_interface() && target->holder()->is_initialized())
duke@435	281	&& target->will_link(klass, callee_holder, code)) {
duke@435	282	if (code == Bytecodes::_invokestatic
duke@435	283	|| code == Bytecodes::_invokespecial
duke@435	284	|| code == Bytecodes::_invokevirtual && target->is_final_method()) {
duke@435	285	inline_target = target;
duke@435	286	} else {
duke@435	287	inline_target = target->find_monomorphic_target(calling_klass, callee_holder, actual_recv);
duke@435	288	}
duke@435	289	}
duke@435	290
duke@435	291	if (inline_target != NULL && !is_recursive_call(inline_target)) {
duke@435	292	// analyze callee
duke@435	293	BCEscapeAnalyzer analyzer(inline_target, this);
duke@435	294
duke@435	295	// adjust escape state of actual parameters
duke@435	296	bool must_record_dependencies = false;
duke@435	297	for (i = arg_size - 1; i >= 0; i--) {
duke@435	298	ArgumentMap arg = state.raw_pop();
duke@435	299	if (!is_argument(arg))
duke@435	300	continue;
kvn@480	301	for (int j = 0; j < _arg_size; j++) {
kvn@480	302	if (arg.contains(j)) {
kvn@480	303	_arg_modified[j] |= analyzer._arg_modified[i];
kvn@480	304	}
kvn@480	305	}
duke@435	306	if (!is_arg_stack(arg)) {
duke@435	307	// arguments have already been recognized as escaping
duke@435	308	} else if (analyzer.is_arg_stack(i) && !analyzer.is_arg_returned(i)) {
duke@435	309	set_method_escape(arg);
duke@435	310	must_record_dependencies = true;
duke@435	311	} else {
duke@435	312	set_global_escape(arg);
duke@435	313	}
duke@435	314	}
kvn@480	315	_unknown_modified = _unknown_modified || analyzer.has_non_arg_side_affects();
duke@435	316
duke@435	317	// record dependencies if at least one parameter retained stack-allocatable
duke@435	318	if (must_record_dependencies) {
duke@435	319	if (code == Bytecodes::_invokeinterface || code == Bytecodes::_invokevirtual && !target->is_final_method()) {
duke@435	320	_dependencies.append(actual_recv);
duke@435	321	_dependencies.append(inline_target);
duke@435	322	}
duke@435	323	_dependencies.appendAll(analyzer.dependencies());
duke@435	324	}
duke@435	325	} else {
duke@435	326	TRACE_BCEA(1, tty->print_cr("[EA] virtual method %s is not monomorphic.",
duke@435	327	target->name()->as_utf8()));
duke@435	328	// conservatively mark all actual parameters as escaping globally
duke@435	329	for (i = 0; i < arg_size; i++) {
duke@435	330	ArgumentMap arg = state.raw_pop();
duke@435	331	if (!is_argument(arg))
duke@435	332	continue;
kvn@480	333	set_modified(arg, OFFSET_ANY, type2size[T_INT]*HeapWordSize);
duke@435	334	set_global_escape(arg);
duke@435	335	}
kvn@480	336	_unknown_modified = true; // assume the worst since we don't know the called method
duke@435	337	}
duke@435	338	}
duke@435	339
duke@435	340	bool BCEscapeAnalyzer::contains(uint arg_set1, uint arg_set2) {
duke@435	341	return ((~arg_set1) | arg_set2) == 0;
duke@435	342	}
duke@435	343
duke@435	344
duke@435	345	void BCEscapeAnalyzer::iterate_one_block(ciBlock *blk, StateInfo &state, GrowableArray<ciBlock *> &successors) {
duke@435	346
duke@435	347	blk->set_processed();
duke@435	348	ciBytecodeStream s(method());
duke@435	349	int limit_bci = blk->limit_bci();
duke@435	350	bool fall_through = false;
duke@435	351	ArgumentMap allocated_obj;
duke@435	352	allocated_obj.add_allocated();
duke@435	353	ArgumentMap unknown_obj;
duke@435	354	unknown_obj.add_unknown();
duke@435	355	ArgumentMap empty_map;
duke@435	356
duke@435	357	s.reset_to_bci(blk->start_bci());
duke@435	358	while (s.next() != ciBytecodeStream::EOBC() && s.cur_bci() < limit_bci) {
duke@435	359	fall_through = true;
duke@435	360	switch (s.cur_bc()) {
duke@435	361	case Bytecodes::_nop:
duke@435	362	break;
duke@435	363	case Bytecodes::_aconst_null:
kvn@3496	364	state.apush(unknown_obj);
duke@435	365	break;
duke@435	366	case Bytecodes::_iconst_m1:
duke@435	367	case Bytecodes::_iconst_0:
duke@435	368	case Bytecodes::_iconst_1:
duke@435	369	case Bytecodes::_iconst_2:
duke@435	370	case Bytecodes::_iconst_3:
duke@435	371	case Bytecodes::_iconst_4:
duke@435	372	case Bytecodes::_iconst_5:
duke@435	373	case Bytecodes::_fconst_0:
duke@435	374	case Bytecodes::_fconst_1:
duke@435	375	case Bytecodes::_fconst_2:
duke@435	376	case Bytecodes::_bipush:
duke@435	377	case Bytecodes::_sipush:
duke@435	378	state.spush();
duke@435	379	break;
duke@435	380	case Bytecodes::_lconst_0:
duke@435	381	case Bytecodes::_lconst_1:
duke@435	382	case Bytecodes::_dconst_0:
duke@435	383	case Bytecodes::_dconst_1:
duke@435	384	state.lpush();
duke@435	385	break;
duke@435	386	case Bytecodes::_ldc:
duke@435	387	case Bytecodes::_ldc_w:
duke@435	388	case Bytecodes::_ldc2_w:
kvn@2102	389	{
kvn@2102	390	// Avoid calling get_constant() which will try to allocate
kvn@2102	391	// unloaded constant. We need only constant's type.
kvn@2102	392	int index = s.get_constant_pool_index();
kvn@2102	393	constantTag tag = s.get_constant_pool_tag(index);
kvn@2102	394	if (tag.is_long() || tag.is_double()) {
kvn@2102	395	// Only longs and doubles use 2 stack slots.
kvn@2102	396	state.lpush();
kvn@3496	397	} else if (tag.basic_type() == T_OBJECT) {
kvn@3496	398	state.apush(unknown_obj);
kvn@2102	399	} else {
duke@435	400	state.spush();
duke@435	401	}
duke@435	402	break;
kvn@2102	403	}
duke@435	404	case Bytecodes::_aload:
duke@435	405	state.apush(state._vars[s.get_index()]);
duke@435	406	break;
duke@435	407	case Bytecodes::_iload:
duke@435	408	case Bytecodes::_fload:
duke@435	409	case Bytecodes::_iload_0:
duke@435	410	case Bytecodes::_iload_1:
duke@435	411	case Bytecodes::_iload_2:
duke@435	412	case Bytecodes::_iload_3:
duke@435	413	case Bytecodes::_fload_0:
duke@435	414	case Bytecodes::_fload_1:
duke@435	415	case Bytecodes::_fload_2:
duke@435	416	case Bytecodes::_fload_3:
duke@435	417	state.spush();
duke@435	418	break;
duke@435	419	case Bytecodes::_lload:
duke@435	420	case Bytecodes::_dload:
duke@435	421	case Bytecodes::_lload_0:
duke@435	422	case Bytecodes::_lload_1:
duke@435	423	case Bytecodes::_lload_2:
duke@435	424	case Bytecodes::_lload_3:
duke@435	425	case Bytecodes::_dload_0:
duke@435	426	case Bytecodes::_dload_1:
duke@435	427	case Bytecodes::_dload_2:
duke@435	428	case Bytecodes::_dload_3:
duke@435	429	state.lpush();
duke@435	430	break;
duke@435	431	case Bytecodes::_aload_0:
duke@435	432	state.apush(state._vars[0]);
duke@435	433	break;
duke@435	434	case Bytecodes::_aload_1:
duke@435	435	state.apush(state._vars[1]);
duke@435	436	break;
duke@435	437	case Bytecodes::_aload_2:
duke@435	438	state.apush(state._vars[2]);
duke@435	439	break;
duke@435	440	case Bytecodes::_aload_3:
duke@435	441	state.apush(state._vars[3]);
duke@435	442	break;
duke@435	443	case Bytecodes::_iaload:
duke@435	444	case Bytecodes::_faload:
duke@435	445	case Bytecodes::_baload:
duke@435	446	case Bytecodes::_caload:
duke@435	447	case Bytecodes::_saload:
duke@435	448	state.spop();
duke@435	449	set_method_escape(state.apop());
duke@435	450	state.spush();
duke@435	451	break;
duke@435	452	case Bytecodes::_laload:
duke@435	453	case Bytecodes::_daload:
duke@435	454	state.spop();
duke@435	455	set_method_escape(state.apop());
duke@435	456	state.lpush();
duke@435	457	break;
duke@435	458	case Bytecodes::_aaload:
duke@435	459	{ state.spop();
duke@435	460	ArgumentMap array = state.apop();
duke@435	461	set_method_escape(array);
duke@435	462	state.apush(unknown_obj);
duke@435	463	set_dirty(array);
duke@435	464	}
duke@435	465	break;
duke@435	466	case Bytecodes::_istore:
duke@435	467	case Bytecodes::_fstore:
duke@435	468	case Bytecodes::_istore_0:
duke@435	469	case Bytecodes::_istore_1:
duke@435	470	case Bytecodes::_istore_2:
duke@435	471	case Bytecodes::_istore_3:
duke@435	472	case Bytecodes::_fstore_0:
duke@435	473	case Bytecodes::_fstore_1:
duke@435	474	case Bytecodes::_fstore_2:
duke@435	475	case Bytecodes::_fstore_3:
duke@435	476	state.spop();
duke@435	477	break;
duke@435	478	case Bytecodes::_lstore:
duke@435	479	case Bytecodes::_dstore:
duke@435	480	case Bytecodes::_lstore_0:
duke@435	481	case Bytecodes::_lstore_1:
duke@435	482	case Bytecodes::_lstore_2:
duke@435	483	case Bytecodes::_lstore_3:
duke@435	484	case Bytecodes::_dstore_0:
duke@435	485	case Bytecodes::_dstore_1:
duke@435	486	case Bytecodes::_dstore_2:
duke@435	487	case Bytecodes::_dstore_3:
duke@435	488	state.lpop();
duke@435	489	break;
duke@435	490	case Bytecodes::_astore:
duke@435	491	state._vars[s.get_index()] = state.apop();
duke@435	492	break;
duke@435	493	case Bytecodes::_astore_0:
duke@435	494	state._vars[0] = state.apop();
duke@435	495	break;
duke@435	496	case Bytecodes::_astore_1:
duke@435	497	state._vars[1] = state.apop();
duke@435	498	break;
duke@435	499	case Bytecodes::_astore_2:
duke@435	500	state._vars[2] = state.apop();
duke@435	501	break;
duke@435	502	case Bytecodes::_astore_3:
duke@435	503	state._vars[3] = state.apop();
duke@435	504	break;
duke@435	505	case Bytecodes::_iastore:
duke@435	506	case Bytecodes::_fastore:
duke@435	507	case Bytecodes::_bastore:
duke@435	508	case Bytecodes::_castore:
duke@435	509	case Bytecodes::_sastore:
duke@435	510	{
duke@435	511	state.spop();
duke@435	512	state.spop();
duke@435	513	ArgumentMap arr = state.apop();
duke@435	514	set_method_escape(arr);
kvn@480	515	set_modified(arr, OFFSET_ANY, type2size[T_INT]*HeapWordSize);
duke@435	516	break;
duke@435	517	}
duke@435	518	case Bytecodes::_lastore:
duke@435	519	case Bytecodes::_dastore:
duke@435	520	{
duke@435	521	state.lpop();
duke@435	522	state.spop();
duke@435	523	ArgumentMap arr = state.apop();
duke@435	524	set_method_escape(arr);
kvn@480	525	set_modified(arr, OFFSET_ANY, type2size[T_LONG]*HeapWordSize);
duke@435	526	break;
duke@435	527	}
duke@435	528	case Bytecodes::_aastore:
duke@435	529	{
duke@435	530	set_global_escape(state.apop());
duke@435	531	state.spop();
duke@435	532	ArgumentMap arr = state.apop();
kvn@480	533	set_modified(arr, OFFSET_ANY, type2size[T_OBJECT]*HeapWordSize);
duke@435	534	break;
duke@435	535	}
duke@435	536	case Bytecodes::_pop:
duke@435	537	state.raw_pop();
duke@435	538	break;
duke@435	539	case Bytecodes::_pop2:
duke@435	540	state.raw_pop();
duke@435	541	state.raw_pop();
duke@435	542	break;
duke@435	543	case Bytecodes::_dup:
duke@435	544	{ ArgumentMap w1 = state.raw_pop();
duke@435	545	state.raw_push(w1);
duke@435	546	state.raw_push(w1);
duke@435	547	}
duke@435	548	break;
duke@435	549	case Bytecodes::_dup_x1:
duke@435	550	{ ArgumentMap w1 = state.raw_pop();
duke@435	551	ArgumentMap w2 = state.raw_pop();
duke@435	552	state.raw_push(w1);
duke@435	553	state.raw_push(w2);
duke@435	554	state.raw_push(w1);
duke@435	555	}
duke@435	556	break;
duke@435	557	case Bytecodes::_dup_x2:
duke@435	558	{ ArgumentMap w1 = state.raw_pop();
duke@435	559	ArgumentMap w2 = state.raw_pop();
duke@435	560	ArgumentMap w3 = state.raw_pop();
duke@435	561	state.raw_push(w1);
duke@435	562	state.raw_push(w3);
duke@435	563	state.raw_push(w2);
duke@435	564	state.raw_push(w1);
duke@435	565	}
duke@435	566	break;
duke@435	567	case Bytecodes::_dup2:
duke@435	568	{ ArgumentMap w1 = state.raw_pop();
duke@435	569	ArgumentMap w2 = state.raw_pop();
duke@435	570	state.raw_push(w2);
duke@435	571	state.raw_push(w1);
duke@435	572	state.raw_push(w2);
duke@435	573	state.raw_push(w1);
duke@435	574	}
duke@435	575	break;
duke@435	576	case Bytecodes::_dup2_x1:
duke@435	577	{ ArgumentMap w1 = state.raw_pop();
duke@435	578	ArgumentMap w2 = state.raw_pop();
duke@435	579	ArgumentMap w3 = state.raw_pop();
duke@435	580	state.raw_push(w2);
duke@435	581	state.raw_push(w1);
duke@435	582	state.raw_push(w3);
duke@435	583	state.raw_push(w2);
duke@435	584	state.raw_push(w1);
duke@435	585	}
duke@435	586	break;
duke@435	587	case Bytecodes::_dup2_x2:
duke@435	588	{ ArgumentMap w1 = state.raw_pop();
duke@435	589	ArgumentMap w2 = state.raw_pop();
duke@435	590	ArgumentMap w3 = state.raw_pop();
duke@435	591	ArgumentMap w4 = state.raw_pop();
duke@435	592	state.raw_push(w2);
duke@435	593	state.raw_push(w1);
duke@435	594	state.raw_push(w4);
duke@435	595	state.raw_push(w3);
duke@435	596	state.raw_push(w2);
duke@435	597	state.raw_push(w1);
duke@435	598	}
duke@435	599	break;
duke@435	600	case Bytecodes::_swap:
duke@435	601	{ ArgumentMap w1 = state.raw_pop();
duke@435	602	ArgumentMap w2 = state.raw_pop();
duke@435	603	state.raw_push(w1);
duke@435	604	state.raw_push(w2);
duke@435	605	}
duke@435	606	break;
duke@435	607	case Bytecodes::_iadd:
duke@435	608	case Bytecodes::_fadd:
duke@435	609	case Bytecodes::_isub:
duke@435	610	case Bytecodes::_fsub:
duke@435	611	case Bytecodes::_imul:
duke@435	612	case Bytecodes::_fmul:
duke@435	613	case Bytecodes::_idiv:
duke@435	614	case Bytecodes::_fdiv:
duke@435	615	case Bytecodes::_irem:
duke@435	616	case Bytecodes::_frem:
duke@435	617	case Bytecodes::_iand:
duke@435	618	case Bytecodes::_ior:
duke@435	619	case Bytecodes::_ixor:
duke@435	620	state.spop();
duke@435	621	state.spop();
duke@435	622	state.spush();
duke@435	623	break;
duke@435	624	case Bytecodes::_ladd:
duke@435	625	case Bytecodes::_dadd:
duke@435	626	case Bytecodes::_lsub:
duke@435	627	case Bytecodes::_dsub:
duke@435	628	case Bytecodes::_lmul:
duke@435	629	case Bytecodes::_dmul:
duke@435	630	case Bytecodes::_ldiv:
duke@435	631	case Bytecodes::_ddiv:
duke@435	632	case Bytecodes::_lrem:
duke@435	633	case Bytecodes::_drem:
duke@435	634	case Bytecodes::_land:
duke@435	635	case Bytecodes::_lor:
duke@435	636	case Bytecodes::_lxor:
duke@435	637	state.lpop();
duke@435	638	state.lpop();
duke@435	639	state.lpush();
duke@435	640	break;
duke@435	641	case Bytecodes::_ishl:
duke@435	642	case Bytecodes::_ishr:
duke@435	643	case Bytecodes::_iushr:
duke@435	644	state.spop();
duke@435	645	state.spop();
duke@435	646	state.spush();
duke@435	647	break;
duke@435	648	case Bytecodes::_lshl:
duke@435	649	case Bytecodes::_lshr:
duke@435	650	case Bytecodes::_lushr:
duke@435	651	state.spop();
duke@435	652	state.lpop();
duke@435	653	state.lpush();
duke@435	654	break;
duke@435	655	case Bytecodes::_ineg:
duke@435	656	case Bytecodes::_fneg:
duke@435	657	state.spop();
duke@435	658	state.spush();
duke@435	659	break;
duke@435	660	case Bytecodes::_lneg:
duke@435	661	case Bytecodes::_dneg:
duke@435	662	state.lpop();
duke@435	663	state.lpush();
duke@435	664	break;
duke@435	665	case Bytecodes::_iinc:
duke@435	666	break;
duke@435	667	case Bytecodes::_i2l:
duke@435	668	case Bytecodes::_i2d:
duke@435	669	case Bytecodes::_f2l:
duke@435	670	case Bytecodes::_f2d:
duke@435	671	state.spop();
duke@435	672	state.lpush();
duke@435	673	break;
duke@435	674	case Bytecodes::_i2f:
duke@435	675	case Bytecodes::_f2i:
duke@435	676	state.spop();
duke@435	677	state.spush();
duke@435	678	break;
duke@435	679	case Bytecodes::_l2i:
duke@435	680	case Bytecodes::_l2f:
duke@435	681	case Bytecodes::_d2i:
duke@435	682	case Bytecodes::_d2f:
duke@435	683	state.lpop();
duke@435	684	state.spush();
duke@435	685	break;
duke@435	686	case Bytecodes::_l2d:
duke@435	687	case Bytecodes::_d2l:
duke@435	688	state.lpop();
duke@435	689	state.lpush();
duke@435	690	break;
duke@435	691	case Bytecodes::_i2b:
duke@435	692	case Bytecodes::_i2c:
duke@435	693	case Bytecodes::_i2s:
duke@435	694	state.spop();
duke@435	695	state.spush();
duke@435	696	break;
duke@435	697	case Bytecodes::_lcmp:
duke@435	698	case Bytecodes::_dcmpl:
duke@435	699	case Bytecodes::_dcmpg:
duke@435	700	state.lpop();
duke@435	701	state.lpop();
duke@435	702	state.spush();
duke@435	703	break;
duke@435	704	case Bytecodes::_fcmpl:
duke@435	705	case Bytecodes::_fcmpg:
duke@435	706	state.spop();
duke@435	707	state.spop();
duke@435	708	state.spush();
duke@435	709	break;
duke@435	710	case Bytecodes::_ifeq:
duke@435	711	case Bytecodes::_ifne:
duke@435	712	case Bytecodes::_iflt:
duke@435	713	case Bytecodes::_ifge:
duke@435	714	case Bytecodes::_ifgt:
duke@435	715	case Bytecodes::_ifle:
duke@435	716	{
duke@435	717	state.spop();
duke@435	718	int dest_bci = s.get_dest();
duke@435	719	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	720	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	721	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	722	break;
duke@435	723	}
duke@435	724	case Bytecodes::_if_icmpeq:
duke@435	725	case Bytecodes::_if_icmpne:
duke@435	726	case Bytecodes::_if_icmplt:
duke@435	727	case Bytecodes::_if_icmpge:
duke@435	728	case Bytecodes::_if_icmpgt:
duke@435	729	case Bytecodes::_if_icmple:
duke@435	730	{
duke@435	731	state.spop();
duke@435	732	state.spop();
duke@435	733	int dest_bci = s.get_dest();
duke@435	734	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	735	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	736	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	737	break;
duke@435	738	}
duke@435	739	case Bytecodes::_if_acmpeq:
duke@435	740	case Bytecodes::_if_acmpne:
duke@435	741	{
duke@435	742	set_method_escape(state.apop());
duke@435	743	set_method_escape(state.apop());
duke@435	744	int dest_bci = s.get_dest();
duke@435	745	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	746	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	747	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	748	break;
duke@435	749	}
duke@435	750	case Bytecodes::_goto:
duke@435	751	{
duke@435	752	int dest_bci = s.get_dest();
duke@435	753	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	754	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	755	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	756	fall_through = false;
duke@435	757	break;
duke@435	758	}
duke@435	759	case Bytecodes::_jsr:
duke@435	760	{
duke@435	761	int dest_bci = s.get_dest();
duke@435	762	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	763	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	764	state.apush(empty_map);
duke@435	765	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	766	fall_through = false;
duke@435	767	break;
duke@435	768	}
duke@435	769	case Bytecodes::_ret:
duke@435	770	// we don't track the destination of a "ret" instruction
duke@435	771	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	772	fall_through = false;
duke@435	773	break;
duke@435	774	case Bytecodes::_return:
duke@435	775	assert(s.next_bci() == limit_bci, "return must end block");
duke@435	776	fall_through = false;
duke@435	777	break;
duke@435	778	case Bytecodes::_tableswitch:
duke@435	779	{
duke@435	780	state.spop();
never@2462	781	Bytecode_tableswitch sw(&s);
never@2462	782	int len = sw.length();
duke@435	783	int dest_bci;
duke@435	784	for (int i = 0; i < len; i++) {
never@2462	785	dest_bci = s.cur_bci() + sw.dest_offset_at(i);
duke@435	786	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	787	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	788	}
never@2462	789	dest_bci = s.cur_bci() + sw.default_offset();
duke@435	790	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	791	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	792	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	793	fall_through = false;
duke@435	794	break;
duke@435	795	}
duke@435	796	case Bytecodes::_lookupswitch:
duke@435	797	{
duke@435	798	state.spop();
never@2462	799	Bytecode_lookupswitch sw(&s);
never@2462	800	int len = sw.number_of_pairs();
duke@435	801	int dest_bci;
duke@435	802	for (int i = 0; i < len; i++) {
never@2462	803	dest_bci = s.cur_bci() + sw.pair_at(i).offset();
duke@435	804	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	805	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	806	}
never@2462	807	dest_bci = s.cur_bci() + sw.default_offset();
duke@435	808	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	809	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	810	fall_through = false;
duke@435	811	break;
duke@435	812	}
duke@435	813	case Bytecodes::_ireturn:
duke@435	814	case Bytecodes::_freturn:
duke@435	815	state.spop();
duke@435	816	fall_through = false;
duke@435	817	break;
duke@435	818	case Bytecodes::_lreturn:
duke@435	819	case Bytecodes::_dreturn:
duke@435	820	state.lpop();
duke@435	821	fall_through = false;
duke@435	822	break;
duke@435	823	case Bytecodes::_areturn:
duke@435	824	set_returned(state.apop());
duke@435	825	fall_through = false;
duke@435	826	break;
duke@435	827	case Bytecodes::_getstatic:
duke@435	828	case Bytecodes::_getfield:
duke@435	829	{ bool will_link;
duke@435	830	ciField* field = s.get_field(will_link);
duke@435	831	BasicType field_type = field->type()->basic_type();
duke@435	832	if (s.cur_bc() != Bytecodes::_getstatic) {
duke@435	833	set_method_escape(state.apop());
duke@435	834	}
duke@435	835	if (field_type == T_OBJECT || field_type == T_ARRAY) {
duke@435	836	state.apush(unknown_obj);
duke@435	837	} else if (type2size[field_type] == 1) {
duke@435	838	state.spush();
duke@435	839	} else {
duke@435	840	state.lpush();
duke@435	841	}
duke@435	842	}
duke@435	843	break;
duke@435	844	case Bytecodes::_putstatic:
duke@435	845	case Bytecodes::_putfield:
duke@435	846	{ bool will_link;
duke@435	847	ciField* field = s.get_field(will_link);
duke@435	848	BasicType field_type = field->type()->basic_type();
duke@435	849	if (field_type == T_OBJECT || field_type == T_ARRAY) {
duke@435	850	set_global_escape(state.apop());
duke@435	851	} else if (type2size[field_type] == 1) {
duke@435	852	state.spop();
duke@435	853	} else {
duke@435	854	state.lpop();
duke@435	855	}
duke@435	856	if (s.cur_bc() != Bytecodes::_putstatic) {
duke@435	857	ArgumentMap p = state.apop();
duke@435	858	set_method_escape(p);
kvn@480	859	set_modified(p, will_link ? field->offset() : OFFSET_ANY, type2size[field_type]*HeapWordSize);
duke@435	860	}
duke@435	861	}
duke@435	862	break;
duke@435	863	case Bytecodes::_invokevirtual:
duke@435	864	case Bytecodes::_invokespecial:
duke@435	865	case Bytecodes::_invokestatic:
jrose@1161	866	case Bytecodes::_invokedynamic:
duke@435	867	case Bytecodes::_invokeinterface:
duke@435	868	{ bool will_link;
duke@435	869	ciMethod* target = s.get_method(will_link);
duke@435	870	ciKlass* holder = s.get_declared_method_holder();
twisti@3969	871	// Push appendix argument, if one.
twisti@3969	872	if (s.has_appendix()) {
twisti@3969	873	state.apush(unknown_obj);
twisti@3969	874	}
twisti@3969	875	// Pass in raw bytecode because we need to see invokehandle instructions.
twisti@3969	876	invoke(state, s.cur_bc_raw(), target, holder);
duke@435	877	ciType* return_type = target->return_type();
duke@435	878	if (!return_type->is_primitive_type()) {
duke@435	879	state.apush(unknown_obj);
duke@435	880	} else if (return_type->is_one_word()) {
duke@435	881	state.spush();
duke@435	882	} else if (return_type->is_two_word()) {
duke@435	883	state.lpush();
duke@435	884	}
duke@435	885	}
duke@435	886	break;
duke@435	887	case Bytecodes::_new:
duke@435	888	state.apush(allocated_obj);
duke@435	889	break;
duke@435	890	case Bytecodes::_newarray:
duke@435	891	case Bytecodes::_anewarray:
duke@435	892	state.spop();
duke@435	893	state.apush(allocated_obj);
duke@435	894	break;
duke@435	895	case Bytecodes::_multianewarray:
duke@435	896	{ int i = s.cur_bcp()[3];
duke@435	897	while (i-- > 0) state.spop();
duke@435	898	state.apush(allocated_obj);
duke@435	899	}
duke@435	900	break;
duke@435	901	case Bytecodes::_arraylength:
duke@435	902	set_method_escape(state.apop());
duke@435	903	state.spush();
duke@435	904	break;
duke@435	905	case Bytecodes::_athrow:
duke@435	906	set_global_escape(state.apop());
duke@435	907	fall_through = false;
duke@435	908	break;
duke@435	909	case Bytecodes::_checkcast:
duke@435	910	{ ArgumentMap obj = state.apop();
duke@435	911	set_method_escape(obj);
duke@435	912	state.apush(obj);
duke@435	913	}
duke@435	914	break;
duke@435	915	case Bytecodes::_instanceof:
duke@435	916	set_method_escape(state.apop());
duke@435	917	state.spush();
duke@435	918	break;
duke@435	919	case Bytecodes::_monitorenter:
duke@435	920	case Bytecodes::_monitorexit:
duke@435	921	state.apop();
duke@435	922	break;
duke@435	923	case Bytecodes::_wide:
duke@435	924	ShouldNotReachHere();
duke@435	925	break;
duke@435	926	case Bytecodes::_ifnull:
duke@435	927	case Bytecodes::_ifnonnull:
duke@435	928	{
duke@435	929	set_method_escape(state.apop());
duke@435	930	int dest_bci = s.get_dest();
duke@435	931	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	932	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	933	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	934	break;
duke@435	935	}
duke@435	936	case Bytecodes::_goto_w:
duke@435	937	{
duke@435	938	int dest_bci = s.get_far_dest();
duke@435	939	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	940	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	941	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	942	fall_through = false;
duke@435	943	break;
duke@435	944	}
duke@435	945	case Bytecodes::_jsr_w:
duke@435	946	{
duke@435	947	int dest_bci = s.get_far_dest();
duke@435	948	assert(_methodBlocks->is_block_start(dest_bci), "branch destination must start a block");
duke@435	949	assert(s.next_bci() == limit_bci, "branch must end block");
duke@435	950	state.apush(empty_map);
duke@435	951	successors.push(_methodBlocks->block_containing(dest_bci));
duke@435	952	fall_through = false;
duke@435	953	break;
duke@435	954	}
duke@435	955	case Bytecodes::_breakpoint:
duke@435	956	break;
duke@435	957	default:
duke@435	958	ShouldNotReachHere();
duke@435	959	break;
duke@435	960	}
duke@435	961
duke@435	962	}
duke@435	963	if (fall_through) {
duke@435	964	int fall_through_bci = s.cur_bci();
duke@435	965	if (fall_through_bci < _method->code_size()) {
duke@435	966	assert(_methodBlocks->is_block_start(fall_through_bci), "must fall through to block start.");
duke@435	967	successors.push(_methodBlocks->block_containing(fall_through_bci));
duke@435	968	}
duke@435	969	}
duke@435	970	}
duke@435	971
duke@435	972	void BCEscapeAnalyzer::merge_block_states(StateInfo *blockstates, ciBlock *dest, StateInfo *s_state) {
kvn@480	973	StateInfo *d_state = blockstates + dest->index();
duke@435	974	int nlocals = _method->max_locals();
duke@435	975
duke@435	976	// exceptions may cause transfer of control to handlers in the middle of a
duke@435	977	// block, so we don't merge the incoming state of exception handlers
duke@435	978	if (dest->is_handler())
duke@435	979	return;
duke@435	980	if (!d_state->_initialized ) {
duke@435	981	// destination not initialized, just copy
duke@435	982	for (int i = 0; i < nlocals; i++) {
duke@435	983	d_state->_vars[i] = s_state->_vars[i];
duke@435	984	}
duke@435	985	for (int i = 0; i < s_state->_stack_height; i++) {
duke@435	986	d_state->_stack[i] = s_state->_stack[i];
duke@435	987	}
duke@435	988	d_state->_stack_height = s_state->_stack_height;
duke@435	989	d_state->_max_stack = s_state->_max_stack;
duke@435	990	d_state->_initialized = true;
duke@435	991	} else if (!dest->processed()) {
duke@435	992	// we have not yet walked the bytecodes of dest, we can merge
duke@435	993	// the states
duke@435	994	assert(d_state->_stack_height == s_state->_stack_height, "computed stack heights must match");
duke@435	995	for (int i = 0; i < nlocals; i++) {
duke@435	996	d_state->_vars[i].set_union(s_state->_vars[i]);
duke@435	997	}
duke@435	998	for (int i = 0; i < s_state->_stack_height; i++) {
duke@435	999	d_state->_stack[i].set_union(s_state->_stack[i]);
duke@435	1000	}
duke@435	1001	} else {
duke@435	1002	// the bytecodes of dest have already been processed, mark any
duke@435	1003	// arguments in the source state which are not in the dest state
duke@435	1004	// as global escape.
duke@435	1005	// Future refinement: we only need to mark these variable to the
duke@435	1006	// maximum escape of any variables in dest state
duke@435	1007	assert(d_state->_stack_height == s_state->_stack_height, "computed stack heights must match");
duke@435	1008	ArgumentMap extra_vars;
duke@435	1009	for (int i = 0; i < nlocals; i++) {
duke@435	1010	ArgumentMap t;
duke@435	1011	t = s_state->_vars[i];
duke@435	1012	t.set_difference(d_state->_vars[i]);
duke@435	1013	extra_vars.set_union(t);
duke@435	1014	}
duke@435	1015	for (int i = 0; i < s_state->_stack_height; i++) {
duke@435	1016	ArgumentMap t;
kvn@480	1017	//extra_vars |= !d_state->_vars[i] & s_state->_vars[i];
duke@435	1018	t.clear();
duke@435	1019	t = s_state->_stack[i];
duke@435	1020	t.set_difference(d_state->_stack[i]);
duke@435	1021	extra_vars.set_union(t);
duke@435	1022	}
kvn@3318	1023	set_global_escape(extra_vars, true);
duke@435	1024	}
duke@435	1025	}
duke@435	1026
duke@435	1027	void BCEscapeAnalyzer::iterate_blocks(Arena *arena) {
duke@435	1028	int numblocks = _methodBlocks->num_blocks();
duke@435	1029	int stkSize = _method->max_stack();
duke@435	1030	int numLocals = _method->max_locals();
duke@435	1031	StateInfo state;
duke@435	1032
duke@435	1033	int datacount = (numblocks + 1) * (stkSize + numLocals);
duke@435	1034	int datasize = datacount * sizeof(ArgumentMap);
kvn@480	1035	StateInfo *blockstates = (StateInfo *) arena->Amalloc(numblocks * sizeof(StateInfo));
duke@435	1036	ArgumentMap *statedata = (ArgumentMap *) arena->Amalloc(datasize);
duke@435	1037	for (int i = 0; i < datacount; i++) ::new ((void*)&statedata[i]) ArgumentMap();
duke@435	1038	ArgumentMap *dp = statedata;
duke@435	1039	state._vars = dp;
duke@435	1040	dp += numLocals;
duke@435	1041	state._stack = dp;
duke@435	1042	dp += stkSize;
duke@435	1043	state._initialized = false;
duke@435	1044	state._max_stack = stkSize;
duke@435	1045	for (int i = 0; i < numblocks; i++) {
duke@435	1046	blockstates[i]._vars = dp;
duke@435	1047	dp += numLocals;
duke@435	1048	blockstates[i]._stack = dp;
duke@435	1049	dp += stkSize;
duke@435	1050	blockstates[i]._initialized = false;
duke@435	1051	blockstates[i]._stack_height = 0;
duke@435	1052	blockstates[i]._max_stack = stkSize;
duke@435	1053	}
duke@435	1054	GrowableArray<ciBlock *> worklist(arena, numblocks / 4, 0, NULL);
duke@435	1055	GrowableArray<ciBlock *> successors(arena, 4, 0, NULL);
duke@435	1056
duke@435	1057	_methodBlocks->clear_processed();
duke@435	1058
duke@435	1059	// initialize block 0 state from method signature
duke@435	1060	ArgumentMap allVars; // all oop arguments to method
duke@435	1061	ciSignature* sig = method()->signature();
duke@435	1062	int j = 0;
kvn@480	1063	ciBlock* first_blk = _methodBlocks->block_containing(0);
kvn@480	1064	int fb_i = first_blk->index();
duke@435	1065	if (!method()->is_static()) {
duke@435	1066	// record information for "this"
kvn@480	1067	blockstates[fb_i]._vars[j].set(j);
duke@435	1068	allVars.add(j);
duke@435	1069	j++;
duke@435	1070	}
duke@435	1071	for (int i = 0; i < sig->count(); i++) {
duke@435	1072	ciType* t = sig->type_at(i);
duke@435	1073	if (!t->is_primitive_type()) {
kvn@480	1074	blockstates[fb_i]._vars[j].set(j);
duke@435	1075	allVars.add(j);
duke@435	1076	}
duke@435	1077	j += t->size();
duke@435	1078	}
kvn@480	1079	blockstates[fb_i]._initialized = true;
duke@435	1080	assert(j == _arg_size, "just checking");
duke@435	1081
duke@435	1082	ArgumentMap unknown_map;
duke@435	1083	unknown_map.add_unknown();
duke@435	1084
kvn@480	1085	worklist.push(first_blk);
duke@435	1086	while(worklist.length() > 0) {
duke@435	1087	ciBlock *blk = worklist.pop();
kvn@480	1088	StateInfo *blkState = blockstates + blk->index();
duke@435	1089	if (blk->is_handler() || blk->is_ret_target()) {
duke@435	1090	// for an exception handler or a target of a ret instruction, we assume the worst case,
kvn@480	1091	// that any variable could contain any argument
duke@435	1092	for (int i = 0; i < numLocals; i++) {
duke@435	1093	state._vars[i] = allVars;
duke@435	1094	}
duke@435	1095	if (blk->is_handler()) {
duke@435	1096	state._stack_height = 1;
duke@435	1097	} else {
duke@435	1098	state._stack_height = blkState->_stack_height;
duke@435	1099	}
duke@435	1100	for (int i = 0; i < state._stack_height; i++) {
kvn@480	1101	// ??? should this be unknown_map ???
duke@435	1102	state._stack[i] = allVars;
duke@435	1103	}
duke@435	1104	} else {
duke@435	1105	for (int i = 0; i < numLocals; i++) {
duke@435	1106	state._vars[i] = blkState->_vars[i];
duke@435	1107	}
duke@435	1108	for (int i = 0; i < blkState->_stack_height; i++) {
duke@435	1109	state._stack[i] = blkState->_stack[i];
duke@435	1110	}
duke@435	1111	state._stack_height = blkState->_stack_height;
duke@435	1112	}
duke@435	1113	iterate_one_block(blk, state, successors);
duke@435	1114	// if this block has any exception handlers, push them
duke@435	1115	// onto successor list
duke@435	1116	if (blk->has_handler()) {
duke@435	1117	DEBUG_ONLY(int handler_count = 0;)
duke@435	1118	int blk_start = blk->start_bci();
duke@435	1119	int blk_end = blk->limit_bci();
duke@435	1120	for (int i = 0; i < numblocks; i++) {
duke@435	1121	ciBlock *b = _methodBlocks->block(i);
duke@435	1122	if (b->is_handler()) {
duke@435	1123	int ex_start = b->ex_start_bci();
duke@435	1124	int ex_end = b->ex_limit_bci();
duke@435	1125	if ((ex_start >= blk_start && ex_start < blk_end) ||
duke@435	1126	(ex_end > blk_start && ex_end <= blk_end)) {
duke@435	1127	successors.push(b);
duke@435	1128	}
duke@435	1129	DEBUG_ONLY(handler_count++;)
duke@435	1130	}
duke@435	1131	}
duke@435	1132	assert(handler_count > 0, "must find at least one handler");
duke@435	1133	}
duke@435	1134	// merge computed variable state with successors
duke@435	1135	while(successors.length() > 0) {
duke@435	1136	ciBlock *succ = successors.pop();
duke@435	1137	merge_block_states(blockstates, succ, &state);
duke@435	1138	if (!succ->processed())
duke@435	1139	worklist.push(succ);
duke@435	1140	}
duke@435	1141	}
duke@435	1142	}
duke@435	1143
duke@435	1144	bool BCEscapeAnalyzer::do_analysis() {
duke@435	1145	Arena* arena = CURRENT_ENV->arena();
duke@435	1146	// identify basic blocks
duke@435	1147	_methodBlocks = _method->get_method_blocks();
duke@435	1148
duke@435	1149	iterate_blocks(arena);
duke@435	1150	// TEMPORARY
duke@435	1151	return true;
duke@435	1152	}
duke@435	1153
duke@435	1154	vmIntrinsics::ID BCEscapeAnalyzer::known_intrinsic() {
duke@435	1155	vmIntrinsics::ID iid = method()->intrinsic_id();
duke@435	1156
duke@435	1157	if (iid == vmIntrinsics::_getClass ||
kvn@480	1158	iid == vmIntrinsics::_fillInStackTrace ||
duke@435	1159	iid == vmIntrinsics::_hashCode)
duke@435	1160	return iid;
duke@435	1161	else
duke@435	1162	return vmIntrinsics::_none;
duke@435	1163	}
duke@435	1164
duke@435	1165	bool BCEscapeAnalyzer::compute_escape_for_intrinsic(vmIntrinsics::ID iid) {
kvn@480	1166	ArgumentMap arg;
kvn@480	1167	arg.clear();
duke@435	1168	switch (iid) {
duke@435	1169	case vmIntrinsics::_getClass:
duke@435	1170	_return_local = false;
duke@435	1171	break;
kvn@480	1172	case vmIntrinsics::_fillInStackTrace:
kvn@480	1173	arg.set(0); // 'this'
kvn@480	1174	set_returned(arg);
kvn@480	1175	break;
duke@435	1176	case vmIntrinsics::_hashCode:
duke@435	1177	// initialized state is correct
duke@435	1178	break;
duke@435	1179	default:
duke@435	1180	assert(false, "unexpected intrinsic");
duke@435	1181	}
duke@435	1182	return true;
duke@435	1183	}
duke@435	1184
duke@435	1185	void BCEscapeAnalyzer::initialize() {
duke@435	1186	int i;
duke@435	1187
duke@435	1188	// clear escape information (method may have been deoptimized)
duke@435	1189	methodData()->clear_escape_info();
duke@435	1190
duke@435	1191	// initialize escape state of object parameters
duke@435	1192	ciSignature* sig = method()->signature();
duke@435	1193	int j = 0;
duke@435	1194	if (!method()->is_static()) {
kvn@2003	1195	_arg_local.set(0);
kvn@2003	1196	_arg_stack.set(0);
duke@435	1197	j++;
duke@435	1198	}
duke@435	1199	for (i = 0; i < sig->count(); i++) {
duke@435	1200	ciType* t = sig->type_at(i);
duke@435	1201	if (!t->is_primitive_type()) {
kvn@2003	1202	_arg_local.set(j);
kvn@2003	1203	_arg_stack.set(j);
duke@435	1204	}
duke@435	1205	j += t->size();
duke@435	1206	}
duke@435	1207	assert(j == _arg_size, "just checking");
duke@435	1208
duke@435	1209	// start with optimistic assumption
duke@435	1210	ciType *rt = _method->return_type();
duke@435	1211	if (rt->is_primitive_type()) {
duke@435	1212	_return_local = false;
duke@435	1213	_return_allocated = false;
duke@435	1214	} else {
duke@435	1215	_return_local = true;
duke@435	1216	_return_allocated = true;
duke@435	1217	}
duke@435	1218	_allocated_escapes = false;
kvn@480	1219	_unknown_modified = false;
duke@435	1220	}
duke@435	1221
duke@435	1222	void BCEscapeAnalyzer::clear_escape_info() {
duke@435	1223	ciSignature* sig = method()->signature();
duke@435	1224	int arg_count = sig->count();
duke@435	1225	ArgumentMap var;
kvn@480	1226	if (!method()->is_static()) {
kvn@480	1227	arg_count++; // allow for "this"
kvn@480	1228	}
duke@435	1229	for (int i = 0; i < arg_count; i++) {
kvn@480	1230	set_arg_modified(i, OFFSET_ANY, 4);
duke@435	1231	var.clear();
duke@435	1232	var.set(i);
kvn@480	1233	set_modified(var, OFFSET_ANY, 4);
duke@435	1234	set_global_escape(var);
duke@435	1235	}
kvn@2003	1236	_arg_local.Clear();
kvn@2003	1237	_arg_stack.Clear();
kvn@2003	1238	_arg_returned.Clear();
duke@435	1239	_return_local = false;
duke@435	1240	_return_allocated = false;
duke@435	1241	_allocated_escapes = true;
kvn@480	1242	_unknown_modified = true;
duke@435	1243	}
duke@435	1244
duke@435	1245
duke@435	1246	void BCEscapeAnalyzer::compute_escape_info() {
duke@435	1247	int i;
duke@435	1248	assert(!methodData()->has_escape_info(), "do not overwrite escape info");
duke@435	1249
duke@435	1250	vmIntrinsics::ID iid = known_intrinsic();
duke@435	1251
duke@435	1252	// check if method can be analyzed
duke@435	1253	if (iid == vmIntrinsics::_none && (method()->is_abstract() || method()->is_native() || !method()->holder()->is_initialized()
duke@435	1254	|| _level > MaxBCEAEstimateLevel
duke@435	1255	|| method()->code_size() > MaxBCEAEstimateSize)) {
duke@435	1256	if (BCEATraceLevel >= 1) {
duke@435	1257	tty->print("Skipping method because: ");
duke@435	1258	if (method()->is_abstract())
duke@435	1259	tty->print_cr("method is abstract.");
duke@435	1260	else if (method()->is_native())
duke@435	1261	tty->print_cr("method is native.");
duke@435	1262	else if (!method()->holder()->is_initialized())
duke@435	1263	tty->print_cr("class of method is not initialized.");
duke@435	1264	else if (_level > MaxBCEAEstimateLevel)
duke@435	1265	tty->print_cr("level (%d) exceeds MaxBCEAEstimateLevel (%d).",
duke@435	1266	_level, MaxBCEAEstimateLevel);
duke@435	1267	else if (method()->code_size() > MaxBCEAEstimateSize)
duke@435	1268	tty->print_cr("code size (%d) exceeds MaxBCEAEstimateSize.",
duke@435	1269	method()->code_size(), MaxBCEAEstimateSize);
duke@435	1270	else
duke@435	1271	ShouldNotReachHere();
duke@435	1272	}
duke@435	1273	clear_escape_info();
duke@435	1274
duke@435	1275	return;
duke@435	1276	}
duke@435	1277
duke@435	1278	if (BCEATraceLevel >= 1) {
duke@435	1279	tty->print("[EA] estimating escape information for");
duke@435	1280	if (iid != vmIntrinsics::_none)
duke@435	1281	tty->print(" intrinsic");
duke@435	1282	method()->print_short_name();
duke@435	1283	tty->print_cr(" (%d bytes)", method()->code_size());
duke@435	1284	}
duke@435	1285
duke@435	1286	bool success;
duke@435	1287
duke@435	1288	initialize();
duke@435	1289
kvn@513	1290	// Do not scan method if it has no object parameters and
kvn@513	1291	// does not returns an object (_return_allocated is set in initialize()).
kvn@2003	1292	if (_arg_local.Size() == 0 && !_return_allocated) {
kvn@513	1293	// Clear all info since method's bytecode was not analysed and
kvn@513	1294	// set pessimistic escape information.
kvn@513	1295	clear_escape_info();
kvn@513	1296	methodData()->set_eflag(methodDataOopDesc::allocated_escapes);
kvn@513	1297	methodData()->set_eflag(methodDataOopDesc::unknown_modified);
duke@435	1298	methodData()->set_eflag(methodDataOopDesc::estimated);
duke@435	1299	return;
duke@435	1300	}
duke@435	1301
duke@435	1302	if (iid != vmIntrinsics::_none)
duke@435	1303	success = compute_escape_for_intrinsic(iid);
duke@435	1304	else {
duke@435	1305	success = do_analysis();
duke@435	1306	}
duke@435	1307
kvn@513	1308	// don't store interprocedural escape information if it introduces
kvn@513	1309	// dependencies or if method data is empty
duke@435	1310	//
duke@435	1311	if (!has_dependencies() && !methodData()->is_empty()) {
duke@435	1312	for (i = 0; i < _arg_size; i++) {
kvn@2003	1313	if (_arg_local.test(i)) {
kvn@2003	1314	assert(_arg_stack.test(i), "inconsistent escape info");
duke@435	1315	methodData()->set_arg_local(i);
duke@435	1316	methodData()->set_arg_stack(i);
kvn@2003	1317	} else if (_arg_stack.test(i)) {
duke@435	1318	methodData()->set_arg_stack(i);
duke@435	1319	}
kvn@2003	1320	if (_arg_returned.test(i)) {
duke@435	1321	methodData()->set_arg_returned(i);
duke@435	1322	}
kvn@480	1323	methodData()->set_arg_modified(i, _arg_modified[i]);
duke@435	1324	}
duke@435	1325	if (_return_local) {
duke@435	1326	methodData()->set_eflag(methodDataOopDesc::return_local);
duke@435	1327	}
kvn@513	1328	if (_return_allocated) {
kvn@513	1329	methodData()->set_eflag(methodDataOopDesc::return_allocated);
kvn@513	1330	}
kvn@513	1331	if (_allocated_escapes) {
kvn@513	1332	methodData()->set_eflag(methodDataOopDesc::allocated_escapes);
kvn@513	1333	}
kvn@513	1334	if (_unknown_modified) {
kvn@513	1335	methodData()->set_eflag(methodDataOopDesc::unknown_modified);
kvn@513	1336	}
duke@435	1337	methodData()->set_eflag(methodDataOopDesc::estimated);
duke@435	1338	}
duke@435	1339	}
duke@435	1340
duke@435	1341	void BCEscapeAnalyzer::read_escape_info() {
duke@435	1342	assert(methodData()->has_escape_info(), "no escape info available");
duke@435	1343
duke@435	1344	// read escape information from method descriptor
duke@435	1345	for (int i = 0; i < _arg_size; i++) {
kvn@2003	1346	if (methodData()->is_arg_local(i))
kvn@2003	1347	_arg_local.set(i);
kvn@2003	1348	if (methodData()->is_arg_stack(i))
kvn@2003	1349	_arg_stack.set(i);
kvn@2003	1350	if (methodData()->is_arg_returned(i))
kvn@2003	1351	_arg_returned.set(i);
kvn@480	1352	_arg_modified[i] = methodData()->arg_modified(i);
duke@435	1353	}
duke@435	1354	_return_local = methodData()->eflag_set(methodDataOopDesc::return_local);
kvn@513	1355	_return_allocated = methodData()->eflag_set(methodDataOopDesc::return_allocated);
kvn@513	1356	_allocated_escapes = methodData()->eflag_set(methodDataOopDesc::allocated_escapes);
kvn@513	1357	_unknown_modified = methodData()->eflag_set(methodDataOopDesc::unknown_modified);
duke@435	1358
duke@435	1359	}
duke@435	1360
kvn@513	1361	#ifndef PRODUCT
kvn@513	1362	void BCEscapeAnalyzer::dump() {
kvn@513	1363	tty->print("[EA] estimated escape information for");
kvn@513	1364	method()->print_short_name();
kvn@513	1365	tty->print_cr(has_dependencies() ? " (not stored)" : "");
kvn@513	1366	tty->print(" non-escaping args: ");
kvn@513	1367	_arg_local.print_on(tty);
kvn@513	1368	tty->print(" stack-allocatable args: ");
kvn@513	1369	_arg_stack.print_on(tty);
kvn@513	1370	if (_return_local) {
kvn@513	1371	tty->print(" returned args: ");
kvn@513	1372	_arg_returned.print_on(tty);
kvn@513	1373	} else if (is_return_allocated()) {
kvn@513	1374	tty->print_cr(" return allocated value");
kvn@513	1375	} else {
kvn@513	1376	tty->print_cr(" return non-local value");
kvn@513	1377	}
kvn@513	1378	tty->print(" modified args: ");
kvn@513	1379	for (int i = 0; i < _arg_size; i++) {
kvn@513	1380	if (_arg_modified[i] == 0)
kvn@513	1381	tty->print(" 0");
kvn@513	1382	else
kvn@513	1383	tty->print(" 0x%x", _arg_modified[i]);
kvn@513	1384	}
kvn@513	1385	tty->cr();
kvn@513	1386	tty->print(" flags: ");
kvn@513	1387	if (_return_allocated)
kvn@513	1388	tty->print(" return_allocated");
kvn@513	1389	if (_allocated_escapes)
kvn@513	1390	tty->print(" allocated_escapes");
kvn@513	1391	if (_unknown_modified)
kvn@513	1392	tty->print(" unknown_modified");
kvn@513	1393	tty->cr();
kvn@513	1394	}
kvn@513	1395	#endif
duke@435	1396
duke@435	1397	BCEscapeAnalyzer::BCEscapeAnalyzer(ciMethod* method, BCEscapeAnalyzer* parent)
duke@435	1398	: _conservative(method == NULL || !EstimateArgEscape)
kvn@2003	1399	, _arena(CURRENT_ENV->arena())
duke@435	1400	, _method(method)
duke@435	1401	, _methodData(method ? method->method_data() : NULL)
duke@435	1402	, _arg_size(method ? method->arg_size() : 0)
kvn@2003	1403	, _arg_local(_arena)
kvn@2003	1404	, _arg_stack(_arena)
kvn@2003	1405	, _arg_returned(_arena)
kvn@2003	1406	, _dirty(_arena)
duke@435	1407	, _return_local(false)
duke@435	1408	, _return_allocated(false)
duke@435	1409	, _allocated_escapes(false)
kvn@480	1410	, _unknown_modified(false)
kvn@2003	1411	, _dependencies(_arena, 4, 0, NULL)
duke@435	1412	, _parent(parent)
duke@435	1413	, _level(parent == NULL ? 0 : parent->level() + 1) {
duke@435	1414	if (!_conservative) {
kvn@2003	1415	_arg_local.Clear();
kvn@2003	1416	_arg_stack.Clear();
kvn@2003	1417	_arg_returned.Clear();
kvn@2003	1418	_dirty.Clear();
duke@435	1419	Arena* arena = CURRENT_ENV->arena();
kvn@480	1420	_arg_modified = (uint *) arena->Amalloc(_arg_size * sizeof(uint));
kvn@480	1421	Copy::zero_to_bytes(_arg_modified, _arg_size * sizeof(uint));
duke@435	1422
duke@435	1423	if (methodData() == NULL)
duke@435	1424	return;
duke@435	1425	bool printit = _method->should_print_assembly();
duke@435	1426	if (methodData()->has_escape_info()) {
duke@435	1427	TRACE_BCEA(2, tty->print_cr("[EA] Reading previous results for %s.%s",
duke@435	1428	method->holder()->name()->as_utf8(),
duke@435	1429	method->name()->as_utf8()));
duke@435	1430	read_escape_info();
duke@435	1431	} else {
duke@435	1432	TRACE_BCEA(2, tty->print_cr("[EA] computing results for %s.%s",
duke@435	1433	method->holder()->name()->as_utf8(),
duke@435	1434	method->name()->as_utf8()));
duke@435	1435
duke@435	1436	compute_escape_info();
duke@435	1437	methodData()->update_escape_info();
duke@435	1438	}
kvn@513	1439	#ifndef PRODUCT
kvn@513	1440	if (BCEATraceLevel >= 3) {
kvn@513	1441	// dump escape information
kvn@513	1442	dump();
kvn@513	1443	}
kvn@513	1444	#endif
duke@435	1445	}
duke@435	1446	}
duke@435	1447
duke@435	1448	void BCEscapeAnalyzer::copy_dependencies(Dependencies *deps) {
never@1832	1449	if (ciEnv::current()->jvmti_can_hotswap_or_post_breakpoint()) {
never@1832	1450	// Also record evol dependencies so redefinition of the
never@1832	1451	// callee will trigger recompilation.
never@1832	1452	deps->assert_evol_method(method());
never@1832	1453	}
duke@435	1454	for (int i = 0; i < _dependencies.length(); i+=2) {
kvn@2003	1455	ciKlass *k = _dependencies.at(i)->as_klass();
kvn@2003	1456	ciMethod *m = _dependencies.at(i+1)->as_method();
duke@435	1457	deps->assert_unique_concrete_method(k, m);
duke@435	1458	}
duke@435	1459	}