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comparison src/share/vm/opto/idealKit.hpp @ 0:a61af66fc99e jdk7-b24

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author duke
date Sat, 01 Dec 2007 00:00:00 +0000
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1 /*
2 * Copyright 2005-2006 Sun Microsystems, Inc. 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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
20 * CA 95054 USA or visit www.sun.com if you need additional information or
21 * have any questions.
22 *
23 */
24
25 //-----------------------------------------------------------------------------
26 //----------------------------IdealKit-----------------------------------------
27 // Set of utilities for creating control flow and scalar SSA data flow.
28 // Control:
29 // if_then(left, relop, right)
30 // else_ (optional)
31 // end_if
32 // loop(iv variable, initial, relop, limit)
33 // - sets iv to initial for first trip
34 // - exits when relation on limit is true
35 // - the values of initial and limit should be loop invariant
36 // - no increment, must be explicitly coded
37 // - final value of iv is available after end_loop (until dead())
38 // end_loop
39 // make_label(number of gotos)
40 // goto_(label)
41 // bind(label)
42 // Data:
43 // ConI(integer constant) - create an integer constant
44 // set(variable, value) - assignment
45 // value(variable) - reference value
46 // dead(variable) - variable's value is no longer live
47 // increment(variable, value) - increment variable by value
48 // simple operations: AddI, SubI, AndI, LShiftI, etc.
49 // Example:
50 // Node* limit = ??
51 // IdealVariable i(kit), j(kit);
52 // declares_done();
53 // Node* exit = make_label(1); // 1 goto
54 // set(j, ConI(0));
55 // loop(i, ConI(0), BoolTest::lt, limit); {
56 // if_then(value(i), BoolTest::gt, ConI(5)) {
57 // set(j, ConI(1));
58 // goto_(exit); dead(i);
59 // } end_if();
60 // increment(i, ConI(1));
61 // } end_loop(); dead(i);
62 // bind(exit);
63 //
64 // See string_indexOf for a more complete example.
65
66 class IdealKit;
67
68 // Variable definition for IdealKit
69 class IdealVariable: public StackObj {
70 friend class IdealKit;
71 private:
72 int _id;
73 void set_id(int id) { _id = id; }
74 public:
75 IdealVariable(IdealKit &k);
76 int id() { assert(has_id(),"uninitialized id"); return _id; }
77 bool has_id() { return _id >= 0; }
78 };
79
80 class IdealKit: public StackObj {
81 friend class IdealVariable;
82 // The main state (called a cvstate for Control and Variables)
83 // contains both the current values of the variables and the
84 // current set of predecessor control edges. The variable values
85 // are managed via a Node [in(1)..in(_var_ct)], and the predecessor
86 // control edges managed via a RegionNode. The in(0) of the Node
87 // for variables points to the RegionNode for the control edges.
88 protected:
89 Compile * const C;
90 PhaseGVN &_gvn;
91 GrowableArray<Node*>* _pending_cvstates; // stack of cvstates
92 GrowableArray<Node*>* _delay_transform; // delay invoking gvn.transform until drain
93 Node* _cvstate; // current cvstate (control, memory and variables)
94 uint _var_ct; // number of variables
95 bool _delay_all_transforms; // flag forcing all transforms to be delayed
96 Node* _initial_ctrl; // saves initial control until variables declared
97 Node* _initial_memory; // saves initial memory until variables declared
98
99 PhaseGVN& gvn() const { return _gvn; }
100 // Create a new cvstate filled with nulls
101 Node* new_cvstate(); // Create a new cvstate
102 Node* cvstate() { return _cvstate; } // current cvstate
103 Node* copy_cvstate(); // copy current cvstate
104 void set_ctrl(Node* ctrl) { _cvstate->set_req(TypeFunc::Control, ctrl); }
105
106 // Should this assert this is a MergeMem???
107 void set_all_memory(Node* mem){ _cvstate->set_req(TypeFunc::Memory, mem); }
108 void set_memory(Node* mem, uint alias_idx );
109 void do_memory_merge(Node* merging, Node* join);
110 void clear(Node* m); // clear a cvstate
111 void stop() { clear(_cvstate); } // clear current cvstate
112 Node* delay_transform(Node* n);
113 Node* transform(Node* n); // gvn.transform or push node on delay list
114 Node* promote_to_phi(Node* n, Node* reg);// Promote "n" to a phi on region "reg"
115 bool was_promoted_to_phi(Node* n, Node* reg) {
116 return (n->is_Phi() && n->in(0) == reg);
117 }
118 void declare(IdealVariable* v) { v->set_id(_var_ct++); }
119 // This declares the position where vars are kept in the cvstate
120 // For some degree of consistency we use the TypeFunc enum to
121 // soak up spots in the inputs even though we only use early Control
122 // and Memory slots. (So far.)
123 static const uint first_var; // = TypeFunc::Parms + 1;
124
125 #ifdef ASSERT
126 enum State { NullS=0, BlockS=1, LoopS=2, IfThenS=4, ElseS=8, EndifS= 16 };
127 GrowableArray<int>* _state;
128 State state() { return (State)(_state->top()); }
129 #endif
130
131 // Users should not care about slices only MergedMem so no access for them.
132 Node* memory(uint alias_idx);
133
134 public:
135 IdealKit(PhaseGVN &gvn, Node* control, Node* memory, bool delay_all_transforms = false);
136 ~IdealKit() {
137 stop();
138 drain_delay_transform();
139 }
140 // Control
141 Node* ctrl() { return _cvstate->in(TypeFunc::Control); }
142 Node* top() { return C->top(); }
143 MergeMemNode* merged_memory() { return _cvstate->in(TypeFunc::Memory)->as_MergeMem(); }
144 void set(IdealVariable& v, Node* rhs) { _cvstate->set_req(first_var + v.id(), rhs); }
145 Node* value(IdealVariable& v) { return _cvstate->in(first_var + v.id()); }
146 void dead(IdealVariable& v) { set(v, (Node*)NULL); }
147 void if_then(Node* left, BoolTest::mask relop, Node* right,
148 float prob = PROB_FAIR, float cnt = COUNT_UNKNOWN,
149 bool push_new_state = true);
150 void else_();
151 void end_if();
152 void loop(IdealVariable& iv, Node* init, BoolTest::mask cmp, Node* limit,
153 float prob = PROB_LIKELY(0.9), float cnt = COUNT_UNKNOWN);
154 void end_loop();
155 Node* make_label(int goto_ct);
156 void bind(Node* lab);
157 void goto_(Node* lab, bool bind = false);
158 void declares_done();
159 void drain_delay_transform();
160
161 Node* IfTrue(IfNode* iff) { return transform(new (C,1) IfTrueNode(iff)); }
162 Node* IfFalse(IfNode* iff) { return transform(new (C,1) IfFalseNode(iff)); }
163
164 // Data
165 Node* ConI(jint k) { return (Node*)gvn().intcon(k); }
166 Node* makecon(const Type *t) const { return _gvn.makecon(t); }
167
168 Node* AddI(Node* l, Node* r) { return transform(new (C,3) AddINode(l, r)); }
169 Node* SubI(Node* l, Node* r) { return transform(new (C,3) SubINode(l, r)); }
170 Node* AndI(Node* l, Node* r) { return transform(new (C,3) AndINode(l, r)); }
171 Node* MaxI(Node* l, Node* r) { return transform(new (C,3) MaxINode(l, r)); }
172 Node* LShiftI(Node* l, Node* r) { return transform(new (C,3) LShiftINode(l, r)); }
173 Node* CmpI(Node* l, Node* r) { return transform(new (C,3) CmpINode(l, r)); }
174 Node* Bool(Node* cmp, BoolTest::mask relop) { return transform(new (C,2) BoolNode(cmp, relop)); }
175 void increment(IdealVariable& v, Node* j) { set(v, AddI(value(v), j)); }
176 void decrement(IdealVariable& v, Node* j) { set(v, SubI(value(v), j)); }
177
178 Node* CmpL(Node* l, Node* r) { return transform(new (C,3) CmpLNode(l, r)); }
179
180 // TLS
181 Node* thread() { return gvn().transform(new (C, 1) ThreadLocalNode()); }
182
183 // Pointers
184 Node* AddP(Node *base, Node *ptr, Node *off) { return transform(new (C,4) AddPNode(base, ptr, off)); }
185 Node* CmpP(Node* l, Node* r) { return transform(new (C,3) CmpPNode(l, r)); }
186 #ifdef _LP64
187 Node* XorX(Node* l, Node* r) { return transform(new (C,3) XorLNode(l, r)); }
188 #else // _LP64
189 Node* XorX(Node* l, Node* r) { return transform(new (C,3) XorINode(l, r)); }
190 #endif // _LP64
191 Node* URShiftX(Node* l, Node* r) { return transform(new (C,3) URShiftXNode(l, r)); }
192 Node* ConX(jint k) { return (Node*)gvn().MakeConX(k); }
193 Node* CastPX(Node* ctl, Node* p) { return transform(new (C,2) CastP2XNode(ctl, p)); }
194 // Add a fixed offset to a pointer
195 Node* basic_plus_adr(Node* base, Node* ptr, intptr_t offset);
196
197 // Memory operations
198
199 // This is the base version which is given an alias index.
200 Node* load(Node* ctl,
201 Node* adr,
202 const Type* t,
203 BasicType bt,
204 int adr_idx,
205 bool require_atomic_access = false);
206
207 // Return the new StoreXNode
208 Node* store(Node* ctl,
209 Node* adr,
210 Node* val,
211 BasicType bt,
212 int adr_idx,
213 bool require_atomic_access = false);
214
215 // Store a card mark ordered after store_oop
216 Node* storeCM(Node* ctl,
217 Node* adr,
218 Node* val,
219 Node* oop_store,
220 BasicType bt,
221 int adr_idx);
222
223 // Trivial call
224 void make_leaf_call(const TypeFunc *slow_call_type,
225 address slow_call,
226 const char *leaf_name,
227 Node* parm0,
228 Node* parm1 = NULL,
229 Node* parm2 = NULL);
230 };