Mercurial > hg > truffle
annotate src/share/vm/opto/type.cpp @ 12190:edb5ab0f3fe5
8001107: @Stable annotation for constant folding of lazily evaluated variables
Reviewed-by: rbackman, twisti, kvn
Contributed-by: john.r.rose@oracle.com, vladimir.x.ivanov@oracle.com
author | vlivanov |
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date | Tue, 10 Sep 2013 14:51:48 -0700 |
parents | 6f3fd5150b67 |
children | 884ed7a10f09 |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved. |
0 | 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 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
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26 #include "ci/ciMethodData.hpp" |
1972 | 27 #include "ci/ciTypeFlow.hpp" |
28 #include "classfile/symbolTable.hpp" | |
29 #include "classfile/systemDictionary.hpp" | |
30 #include "compiler/compileLog.hpp" | |
31 #include "libadt/dict.hpp" | |
32 #include "memory/gcLocker.hpp" | |
33 #include "memory/oopFactory.hpp" | |
34 #include "memory/resourceArea.hpp" | |
35 #include "oops/instanceKlass.hpp" | |
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36 #include "oops/instanceMirrorKlass.hpp" |
1972 | 37 #include "oops/objArrayKlass.hpp" |
38 #include "oops/typeArrayKlass.hpp" | |
39 #include "opto/matcher.hpp" | |
40 #include "opto/node.hpp" | |
41 #include "opto/opcodes.hpp" | |
42 #include "opto/type.hpp" | |
43 | |
0 | 44 // Portions of code courtesy of Clifford Click |
45 | |
46 // Optimization - Graph Style | |
47 | |
48 // Dictionary of types shared among compilations. | |
49 Dict* Type::_shared_type_dict = NULL; | |
50 | |
51 // Array which maps compiler types to Basic Types | |
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52 Type::TypeInfo Type::_type_info[Type::lastype] = { |
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53 { Bad, T_ILLEGAL, "bad", false, Node::NotAMachineReg, relocInfo::none }, // Bad |
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54 { Control, T_ILLEGAL, "control", false, 0, relocInfo::none }, // Control |
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55 { Bottom, T_VOID, "top", false, 0, relocInfo::none }, // Top |
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56 { Bad, T_INT, "int:", false, Op_RegI, relocInfo::none }, // Int |
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57 { Bad, T_LONG, "long:", false, Op_RegL, relocInfo::none }, // Long |
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58 { Half, T_VOID, "half", false, 0, relocInfo::none }, // Half |
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59 { Bad, T_NARROWOOP, "narrowoop:", false, Op_RegN, relocInfo::none }, // NarrowOop |
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60 { Bad, T_NARROWKLASS,"narrowklass:", false, Op_RegN, relocInfo::none }, // NarrowKlass |
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61 { Bad, T_ILLEGAL, "tuple:", false, Node::NotAMachineReg, relocInfo::none }, // Tuple |
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62 { Bad, T_ARRAY, "array:", false, Node::NotAMachineReg, relocInfo::none }, // Array |
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63 |
6890 | 64 #ifndef SPARC |
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65 { Bad, T_ILLEGAL, "vectors:", false, Op_VecS, relocInfo::none }, // VectorS |
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66 { Bad, T_ILLEGAL, "vectord:", false, Op_VecD, relocInfo::none }, // VectorD |
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67 { Bad, T_ILLEGAL, "vectorx:", false, Op_VecX, relocInfo::none }, // VectorX |
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68 { Bad, T_ILLEGAL, "vectory:", false, Op_VecY, relocInfo::none }, // VectorY |
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69 #else |
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70 { Bad, T_ILLEGAL, "vectors:", false, 0, relocInfo::none }, // VectorS |
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71 { Bad, T_ILLEGAL, "vectord:", false, Op_RegD, relocInfo::none }, // VectorD |
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72 { Bad, T_ILLEGAL, "vectorx:", false, 0, relocInfo::none }, // VectorX |
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73 { Bad, T_ILLEGAL, "vectory:", false, 0, relocInfo::none }, // VectorY |
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74 #endif // IA32 || AMD64 |
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75 { Bad, T_ADDRESS, "anyptr:", false, Op_RegP, relocInfo::none }, // AnyPtr |
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76 { Bad, T_ADDRESS, "rawptr:", false, Op_RegP, relocInfo::none }, // RawPtr |
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77 { Bad, T_OBJECT, "oop:", true, Op_RegP, relocInfo::oop_type }, // OopPtr |
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78 { Bad, T_OBJECT, "inst:", true, Op_RegP, relocInfo::oop_type }, // InstPtr |
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79 { Bad, T_OBJECT, "ary:", true, Op_RegP, relocInfo::oop_type }, // AryPtr |
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80 { Bad, T_METADATA, "metadata:", false, Op_RegP, relocInfo::metadata_type }, // MetadataPtr |
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81 { Bad, T_METADATA, "klass:", false, Op_RegP, relocInfo::metadata_type }, // KlassPtr |
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82 { Bad, T_OBJECT, "func", false, 0, relocInfo::none }, // Function |
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83 { Abio, T_ILLEGAL, "abIO", false, 0, relocInfo::none }, // Abio |
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84 { Return_Address, T_ADDRESS, "return_address",false, Op_RegP, relocInfo::none }, // Return_Address |
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85 { Memory, T_ILLEGAL, "memory", false, 0, relocInfo::none }, // Memory |
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86 { FloatBot, T_FLOAT, "float_top", false, Op_RegF, relocInfo::none }, // FloatTop |
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87 { FloatCon, T_FLOAT, "ftcon:", false, Op_RegF, relocInfo::none }, // FloatCon |
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88 { FloatTop, T_FLOAT, "float", false, Op_RegF, relocInfo::none }, // FloatBot |
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89 { DoubleBot, T_DOUBLE, "double_top", false, Op_RegD, relocInfo::none }, // DoubleTop |
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90 { DoubleCon, T_DOUBLE, "dblcon:", false, Op_RegD, relocInfo::none }, // DoubleCon |
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91 { DoubleTop, T_DOUBLE, "double", false, Op_RegD, relocInfo::none }, // DoubleBot |
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92 { Top, T_ILLEGAL, "bottom", false, 0, relocInfo::none } // Bottom |
0 | 93 }; |
94 | |
95 // Map ideal registers (machine types) to ideal types | |
96 const Type *Type::mreg2type[_last_machine_leaf]; | |
97 | |
98 // Map basic types to canonical Type* pointers. | |
99 const Type* Type:: _const_basic_type[T_CONFLICT+1]; | |
100 | |
101 // Map basic types to constant-zero Types. | |
102 const Type* Type:: _zero_type[T_CONFLICT+1]; | |
103 | |
104 // Map basic types to array-body alias types. | |
105 const TypeAryPtr* TypeAryPtr::_array_body_type[T_CONFLICT+1]; | |
106 | |
107 //============================================================================= | |
108 // Convenience common pre-built types. | |
109 const Type *Type::ABIO; // State-of-machine only | |
110 const Type *Type::BOTTOM; // All values | |
111 const Type *Type::CONTROL; // Control only | |
112 const Type *Type::DOUBLE; // All doubles | |
113 const Type *Type::FLOAT; // All floats | |
114 const Type *Type::HALF; // Placeholder half of doublewide type | |
115 const Type *Type::MEMORY; // Abstract store only | |
116 const Type *Type::RETURN_ADDRESS; | |
117 const Type *Type::TOP; // No values in set | |
118 | |
119 //------------------------------get_const_type--------------------------- | |
120 const Type* Type::get_const_type(ciType* type) { | |
121 if (type == NULL) { | |
122 return NULL; | |
123 } else if (type->is_primitive_type()) { | |
124 return get_const_basic_type(type->basic_type()); | |
125 } else { | |
126 return TypeOopPtr::make_from_klass(type->as_klass()); | |
127 } | |
128 } | |
129 | |
130 //---------------------------array_element_basic_type--------------------------------- | |
131 // Mapping to the array element's basic type. | |
132 BasicType Type::array_element_basic_type() const { | |
133 BasicType bt = basic_type(); | |
134 if (bt == T_INT) { | |
135 if (this == TypeInt::INT) return T_INT; | |
136 if (this == TypeInt::CHAR) return T_CHAR; | |
137 if (this == TypeInt::BYTE) return T_BYTE; | |
138 if (this == TypeInt::BOOL) return T_BOOLEAN; | |
139 if (this == TypeInt::SHORT) return T_SHORT; | |
140 return T_VOID; | |
141 } | |
142 return bt; | |
143 } | |
144 | |
145 //---------------------------get_typeflow_type--------------------------------- | |
146 // Import a type produced by ciTypeFlow. | |
147 const Type* Type::get_typeflow_type(ciType* type) { | |
148 switch (type->basic_type()) { | |
149 | |
150 case ciTypeFlow::StateVector::T_BOTTOM: | |
151 assert(type == ciTypeFlow::StateVector::bottom_type(), ""); | |
152 return Type::BOTTOM; | |
153 | |
154 case ciTypeFlow::StateVector::T_TOP: | |
155 assert(type == ciTypeFlow::StateVector::top_type(), ""); | |
156 return Type::TOP; | |
157 | |
158 case ciTypeFlow::StateVector::T_NULL: | |
159 assert(type == ciTypeFlow::StateVector::null_type(), ""); | |
160 return TypePtr::NULL_PTR; | |
161 | |
162 case ciTypeFlow::StateVector::T_LONG2: | |
163 // The ciTypeFlow pass pushes a long, then the half. | |
164 // We do the same. | |
165 assert(type == ciTypeFlow::StateVector::long2_type(), ""); | |
166 return TypeInt::TOP; | |
167 | |
168 case ciTypeFlow::StateVector::T_DOUBLE2: | |
169 // The ciTypeFlow pass pushes double, then the half. | |
170 // Our convention is the same. | |
171 assert(type == ciTypeFlow::StateVector::double2_type(), ""); | |
172 return Type::TOP; | |
173 | |
174 case T_ADDRESS: | |
175 assert(type->is_return_address(), ""); | |
176 return TypeRawPtr::make((address)(intptr_t)type->as_return_address()->bci()); | |
177 | |
178 default: | |
179 // make sure we did not mix up the cases: | |
180 assert(type != ciTypeFlow::StateVector::bottom_type(), ""); | |
181 assert(type != ciTypeFlow::StateVector::top_type(), ""); | |
182 assert(type != ciTypeFlow::StateVector::null_type(), ""); | |
183 assert(type != ciTypeFlow::StateVector::long2_type(), ""); | |
184 assert(type != ciTypeFlow::StateVector::double2_type(), ""); | |
185 assert(!type->is_return_address(), ""); | |
186 | |
187 return Type::get_const_type(type); | |
188 } | |
189 } | |
190 | |
191 | |
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192 //-----------------------make_from_constant------------------------------------ |
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193 const Type* Type::make_from_constant(ciConstant constant, |
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194 bool require_constant, bool is_autobox_cache) { |
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195 switch (constant.basic_type()) { |
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196 case T_BOOLEAN: return TypeInt::make(constant.as_boolean()); |
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197 case T_CHAR: return TypeInt::make(constant.as_char()); |
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198 case T_BYTE: return TypeInt::make(constant.as_byte()); |
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199 case T_SHORT: return TypeInt::make(constant.as_short()); |
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200 case T_INT: return TypeInt::make(constant.as_int()); |
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201 case T_LONG: return TypeLong::make(constant.as_long()); |
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202 case T_FLOAT: return TypeF::make(constant.as_float()); |
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203 case T_DOUBLE: return TypeD::make(constant.as_double()); |
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204 case T_ARRAY: |
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205 case T_OBJECT: |
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206 { |
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207 // cases: |
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208 // can_be_constant = (oop not scavengable || ScavengeRootsInCode != 0) |
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209 // should_be_constant = (oop not scavengable || ScavengeRootsInCode >= 2) |
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210 // An oop is not scavengable if it is in the perm gen. |
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211 ciObject* oop_constant = constant.as_object(); |
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212 if (oop_constant->is_null_object()) { |
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213 return Type::get_zero_type(T_OBJECT); |
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214 } else if (require_constant || oop_constant->should_be_constant()) { |
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215 return TypeOopPtr::make_from_constant(oop_constant, require_constant, is_autobox_cache); |
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216 } |
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217 } |
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218 } |
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219 // Fall through to failure |
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220 return NULL; |
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221 } |
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222 |
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223 |
0 | 224 //------------------------------make------------------------------------------- |
225 // Create a simple Type, with default empty symbol sets. Then hashcons it | |
226 // and look for an existing copy in the type dictionary. | |
227 const Type *Type::make( enum TYPES t ) { | |
228 return (new Type(t))->hashcons(); | |
229 } | |
223 | 230 |
0 | 231 //------------------------------cmp-------------------------------------------- |
232 int Type::cmp( const Type *const t1, const Type *const t2 ) { | |
233 if( t1->_base != t2->_base ) | |
234 return 1; // Missed badly | |
235 assert(t1 != t2 || t1->eq(t2), "eq must be reflexive"); | |
236 return !t1->eq(t2); // Return ZERO if equal | |
237 } | |
238 | |
239 //------------------------------hash------------------------------------------- | |
240 int Type::uhash( const Type *const t ) { | |
241 return t->hash(); | |
242 } | |
243 | |
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244 #define SMALLINT ((juint)3) // a value too insignificant to consider widening |
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245 |
0 | 246 //--------------------------Initialize_shared---------------------------------- |
247 void Type::Initialize_shared(Compile* current) { | |
248 // This method does not need to be locked because the first system | |
249 // compilations (stub compilations) occur serially. If they are | |
250 // changed to proceed in parallel, then this section will need | |
251 // locking. | |
252 | |
253 Arena* save = current->type_arena(); | |
6197 | 254 Arena* shared_type_arena = new (mtCompiler)Arena(); |
0 | 255 |
256 current->set_type_arena(shared_type_arena); | |
257 _shared_type_dict = | |
258 new (shared_type_arena) Dict( (CmpKey)Type::cmp, (Hash)Type::uhash, | |
259 shared_type_arena, 128 ); | |
260 current->set_type_dict(_shared_type_dict); | |
261 | |
262 // Make shared pre-built types. | |
263 CONTROL = make(Control); // Control only | |
264 TOP = make(Top); // No values in set | |
265 MEMORY = make(Memory); // Abstract store only | |
266 ABIO = make(Abio); // State-of-machine only | |
267 RETURN_ADDRESS=make(Return_Address); | |
268 FLOAT = make(FloatBot); // All floats | |
269 DOUBLE = make(DoubleBot); // All doubles | |
270 BOTTOM = make(Bottom); // Everything | |
271 HALF = make(Half); // Placeholder half of doublewide type | |
272 | |
273 TypeF::ZERO = TypeF::make(0.0); // Float 0 (positive zero) | |
274 TypeF::ONE = TypeF::make(1.0); // Float 1 | |
275 | |
276 TypeD::ZERO = TypeD::make(0.0); // Double 0 (positive zero) | |
277 TypeD::ONE = TypeD::make(1.0); // Double 1 | |
278 | |
279 TypeInt::MINUS_1 = TypeInt::make(-1); // -1 | |
280 TypeInt::ZERO = TypeInt::make( 0); // 0 | |
281 TypeInt::ONE = TypeInt::make( 1); // 1 | |
282 TypeInt::BOOL = TypeInt::make(0,1, WidenMin); // 0 or 1, FALSE or TRUE. | |
283 TypeInt::CC = TypeInt::make(-1, 1, WidenMin); // -1, 0 or 1, condition codes | |
284 TypeInt::CC_LT = TypeInt::make(-1,-1, WidenMin); // == TypeInt::MINUS_1 | |
285 TypeInt::CC_GT = TypeInt::make( 1, 1, WidenMin); // == TypeInt::ONE | |
286 TypeInt::CC_EQ = TypeInt::make( 0, 0, WidenMin); // == TypeInt::ZERO | |
287 TypeInt::CC_LE = TypeInt::make(-1, 0, WidenMin); | |
288 TypeInt::CC_GE = TypeInt::make( 0, 1, WidenMin); // == TypeInt::BOOL | |
289 TypeInt::BYTE = TypeInt::make(-128,127, WidenMin); // Bytes | |
624 | 290 TypeInt::UBYTE = TypeInt::make(0, 255, WidenMin); // Unsigned Bytes |
0 | 291 TypeInt::CHAR = TypeInt::make(0,65535, WidenMin); // Java chars |
292 TypeInt::SHORT = TypeInt::make(-32768,32767, WidenMin); // Java shorts | |
293 TypeInt::POS = TypeInt::make(0,max_jint, WidenMin); // Non-neg values | |
294 TypeInt::POS1 = TypeInt::make(1,max_jint, WidenMin); // Positive values | |
295 TypeInt::INT = TypeInt::make(min_jint,max_jint, WidenMax); // 32-bit integers | |
296 TypeInt::SYMINT = TypeInt::make(-max_jint,max_jint,WidenMin); // symmetric range | |
297 // CmpL is overloaded both as the bytecode computation returning | |
298 // a trinary (-1,0,+1) integer result AND as an efficient long | |
299 // compare returning optimizer ideal-type flags. | |
300 assert( TypeInt::CC_LT == TypeInt::MINUS_1, "types must match for CmpL to work" ); | |
301 assert( TypeInt::CC_GT == TypeInt::ONE, "types must match for CmpL to work" ); | |
302 assert( TypeInt::CC_EQ == TypeInt::ZERO, "types must match for CmpL to work" ); | |
303 assert( TypeInt::CC_GE == TypeInt::BOOL, "types must match for CmpL to work" ); | |
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304 assert( (juint)(TypeInt::CC->_hi - TypeInt::CC->_lo) <= SMALLINT, "CC is truly small"); |
0 | 305 |
306 TypeLong::MINUS_1 = TypeLong::make(-1); // -1 | |
307 TypeLong::ZERO = TypeLong::make( 0); // 0 | |
308 TypeLong::ONE = TypeLong::make( 1); // 1 | |
309 TypeLong::POS = TypeLong::make(0,max_jlong, WidenMin); // Non-neg values | |
310 TypeLong::LONG = TypeLong::make(min_jlong,max_jlong,WidenMax); // 64-bit integers | |
311 TypeLong::INT = TypeLong::make((jlong)min_jint,(jlong)max_jint,WidenMin); | |
312 TypeLong::UINT = TypeLong::make(0,(jlong)max_juint,WidenMin); | |
313 | |
314 const Type **fboth =(const Type**)shared_type_arena->Amalloc_4(2*sizeof(Type*)); | |
315 fboth[0] = Type::CONTROL; | |
316 fboth[1] = Type::CONTROL; | |
317 TypeTuple::IFBOTH = TypeTuple::make( 2, fboth ); | |
318 | |
319 const Type **ffalse =(const Type**)shared_type_arena->Amalloc_4(2*sizeof(Type*)); | |
320 ffalse[0] = Type::CONTROL; | |
321 ffalse[1] = Type::TOP; | |
322 TypeTuple::IFFALSE = TypeTuple::make( 2, ffalse ); | |
323 | |
324 const Type **fneither =(const Type**)shared_type_arena->Amalloc_4(2*sizeof(Type*)); | |
325 fneither[0] = Type::TOP; | |
326 fneither[1] = Type::TOP; | |
327 TypeTuple::IFNEITHER = TypeTuple::make( 2, fneither ); | |
328 | |
329 const Type **ftrue =(const Type**)shared_type_arena->Amalloc_4(2*sizeof(Type*)); | |
330 ftrue[0] = Type::TOP; | |
331 ftrue[1] = Type::CONTROL; | |
332 TypeTuple::IFTRUE = TypeTuple::make( 2, ftrue ); | |
333 | |
334 const Type **floop =(const Type**)shared_type_arena->Amalloc_4(2*sizeof(Type*)); | |
335 floop[0] = Type::CONTROL; | |
336 floop[1] = TypeInt::INT; | |
337 TypeTuple::LOOPBODY = TypeTuple::make( 2, floop ); | |
338 | |
339 TypePtr::NULL_PTR= TypePtr::make( AnyPtr, TypePtr::Null, 0 ); | |
340 TypePtr::NOTNULL = TypePtr::make( AnyPtr, TypePtr::NotNull, OffsetBot ); | |
341 TypePtr::BOTTOM = TypePtr::make( AnyPtr, TypePtr::BotPTR, OffsetBot ); | |
342 | |
343 TypeRawPtr::BOTTOM = TypeRawPtr::make( TypePtr::BotPTR ); | |
344 TypeRawPtr::NOTNULL= TypeRawPtr::make( TypePtr::NotNull ); | |
345 | |
346 const Type **fmembar = TypeTuple::fields(0); | |
347 TypeTuple::MEMBAR = TypeTuple::make(TypeFunc::Parms+0, fmembar); | |
348 | |
349 const Type **fsc = (const Type**)shared_type_arena->Amalloc_4(2*sizeof(Type*)); | |
350 fsc[0] = TypeInt::CC; | |
351 fsc[1] = Type::MEMORY; | |
352 TypeTuple::STORECONDITIONAL = TypeTuple::make(2, fsc); | |
353 | |
354 TypeInstPtr::NOTNULL = TypeInstPtr::make(TypePtr::NotNull, current->env()->Object_klass()); | |
355 TypeInstPtr::BOTTOM = TypeInstPtr::make(TypePtr::BotPTR, current->env()->Object_klass()); | |
356 TypeInstPtr::MIRROR = TypeInstPtr::make(TypePtr::NotNull, current->env()->Class_klass()); | |
357 TypeInstPtr::MARK = TypeInstPtr::make(TypePtr::BotPTR, current->env()->Object_klass(), | |
358 false, 0, oopDesc::mark_offset_in_bytes()); | |
359 TypeInstPtr::KLASS = TypeInstPtr::make(TypePtr::BotPTR, current->env()->Object_klass(), | |
360 false, 0, oopDesc::klass_offset_in_bytes()); | |
992 | 361 TypeOopPtr::BOTTOM = TypeOopPtr::make(TypePtr::BotPTR, OffsetBot, TypeOopPtr::InstanceBot); |
0 | 362 |
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363 TypeMetadataPtr::BOTTOM = TypeMetadataPtr::make(TypePtr::BotPTR, NULL, OffsetBot); |
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364 |
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365 TypeNarrowOop::NULL_PTR = TypeNarrowOop::make( TypePtr::NULL_PTR ); |
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366 TypeNarrowOop::BOTTOM = TypeNarrowOop::make( TypeInstPtr::BOTTOM ); |
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367 |
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368 TypeNarrowKlass::NULL_PTR = TypeNarrowKlass::make( TypePtr::NULL_PTR ); |
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369 |
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370 mreg2type[Op_Node] = Type::BOTTOM; |
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371 mreg2type[Op_Set ] = 0; |
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372 mreg2type[Op_RegN] = TypeNarrowOop::BOTTOM; |
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373 mreg2type[Op_RegI] = TypeInt::INT; |
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374 mreg2type[Op_RegP] = TypePtr::BOTTOM; |
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375 mreg2type[Op_RegF] = Type::FLOAT; |
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376 mreg2type[Op_RegD] = Type::DOUBLE; |
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377 mreg2type[Op_RegL] = TypeLong::LONG; |
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378 mreg2type[Op_RegFlags] = TypeInt::CC; |
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379 |
1761 | 380 TypeAryPtr::RANGE = TypeAryPtr::make( TypePtr::BotPTR, TypeAry::make(Type::BOTTOM,TypeInt::POS), NULL /* current->env()->Object_klass() */, false, arrayOopDesc::length_offset_in_bytes()); |
163 | 381 |
382 TypeAryPtr::NARROWOOPS = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(TypeNarrowOop::BOTTOM, TypeInt::POS), NULL /*ciArrayKlass::make(o)*/, false, Type::OffsetBot); | |
383 | |
384 #ifdef _LP64 | |
385 if (UseCompressedOops) { | |
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386 assert(TypeAryPtr::NARROWOOPS->is_ptr_to_narrowoop(), "array of narrow oops must be ptr to narrow oop"); |
163 | 387 TypeAryPtr::OOPS = TypeAryPtr::NARROWOOPS; |
388 } else | |
389 #endif | |
390 { | |
391 // There is no shared klass for Object[]. See note in TypeAryPtr::klass(). | |
392 TypeAryPtr::OOPS = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(TypeInstPtr::BOTTOM,TypeInt::POS), NULL /*ciArrayKlass::make(o)*/, false, Type::OffsetBot); | |
393 } | |
0 | 394 TypeAryPtr::BYTES = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(TypeInt::BYTE ,TypeInt::POS), ciTypeArrayKlass::make(T_BYTE), true, Type::OffsetBot); |
395 TypeAryPtr::SHORTS = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(TypeInt::SHORT ,TypeInt::POS), ciTypeArrayKlass::make(T_SHORT), true, Type::OffsetBot); | |
396 TypeAryPtr::CHARS = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(TypeInt::CHAR ,TypeInt::POS), ciTypeArrayKlass::make(T_CHAR), true, Type::OffsetBot); | |
397 TypeAryPtr::INTS = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(TypeInt::INT ,TypeInt::POS), ciTypeArrayKlass::make(T_INT), true, Type::OffsetBot); | |
398 TypeAryPtr::LONGS = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(TypeLong::LONG ,TypeInt::POS), ciTypeArrayKlass::make(T_LONG), true, Type::OffsetBot); | |
399 TypeAryPtr::FLOATS = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(Type::FLOAT ,TypeInt::POS), ciTypeArrayKlass::make(T_FLOAT), true, Type::OffsetBot); | |
400 TypeAryPtr::DOUBLES = TypeAryPtr::make(TypePtr::BotPTR, TypeAry::make(Type::DOUBLE ,TypeInt::POS), ciTypeArrayKlass::make(T_DOUBLE), true, Type::OffsetBot); | |
401 | |
163 | 402 // Nobody should ask _array_body_type[T_NARROWOOP]. Use NULL as assert. |
403 TypeAryPtr::_array_body_type[T_NARROWOOP] = NULL; | |
0 | 404 TypeAryPtr::_array_body_type[T_OBJECT] = TypeAryPtr::OOPS; |
163 | 405 TypeAryPtr::_array_body_type[T_ARRAY] = TypeAryPtr::OOPS; // arrays are stored in oop arrays |
0 | 406 TypeAryPtr::_array_body_type[T_BYTE] = TypeAryPtr::BYTES; |
407 TypeAryPtr::_array_body_type[T_BOOLEAN] = TypeAryPtr::BYTES; // boolean[] is a byte array | |
408 TypeAryPtr::_array_body_type[T_SHORT] = TypeAryPtr::SHORTS; | |
409 TypeAryPtr::_array_body_type[T_CHAR] = TypeAryPtr::CHARS; | |
410 TypeAryPtr::_array_body_type[T_INT] = TypeAryPtr::INTS; | |
411 TypeAryPtr::_array_body_type[T_LONG] = TypeAryPtr::LONGS; | |
412 TypeAryPtr::_array_body_type[T_FLOAT] = TypeAryPtr::FLOATS; | |
413 TypeAryPtr::_array_body_type[T_DOUBLE] = TypeAryPtr::DOUBLES; | |
414 | |
415 TypeKlassPtr::OBJECT = TypeKlassPtr::make( TypePtr::NotNull, current->env()->Object_klass(), 0 ); | |
416 TypeKlassPtr::OBJECT_OR_NULL = TypeKlassPtr::make( TypePtr::BotPTR, current->env()->Object_klass(), 0 ); | |
417 | |
418 const Type **fi2c = TypeTuple::fields(2); | |
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419 fi2c[TypeFunc::Parms+0] = TypeInstPtr::BOTTOM; // Method* |
0 | 420 fi2c[TypeFunc::Parms+1] = TypeRawPtr::BOTTOM; // argument pointer |
421 TypeTuple::START_I2C = TypeTuple::make(TypeFunc::Parms+2, fi2c); | |
422 | |
423 const Type **intpair = TypeTuple::fields(2); | |
424 intpair[0] = TypeInt::INT; | |
425 intpair[1] = TypeInt::INT; | |
426 TypeTuple::INT_PAIR = TypeTuple::make(2, intpair); | |
427 | |
428 const Type **longpair = TypeTuple::fields(2); | |
429 longpair[0] = TypeLong::LONG; | |
430 longpair[1] = TypeLong::LONG; | |
431 TypeTuple::LONG_PAIR = TypeTuple::make(2, longpair); | |
432 | |
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433 _const_basic_type[T_NARROWOOP] = TypeNarrowOop::BOTTOM; |
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434 _const_basic_type[T_NARROWKLASS] = Type::BOTTOM; |
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435 _const_basic_type[T_BOOLEAN] = TypeInt::BOOL; |
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436 _const_basic_type[T_CHAR] = TypeInt::CHAR; |
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437 _const_basic_type[T_BYTE] = TypeInt::BYTE; |
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438 _const_basic_type[T_SHORT] = TypeInt::SHORT; |
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439 _const_basic_type[T_INT] = TypeInt::INT; |
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440 _const_basic_type[T_LONG] = TypeLong::LONG; |
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441 _const_basic_type[T_FLOAT] = Type::FLOAT; |
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442 _const_basic_type[T_DOUBLE] = Type::DOUBLE; |
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443 _const_basic_type[T_OBJECT] = TypeInstPtr::BOTTOM; |
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444 _const_basic_type[T_ARRAY] = TypeInstPtr::BOTTOM; // there is no separate bottom for arrays |
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445 _const_basic_type[T_VOID] = TypePtr::NULL_PTR; // reflection represents void this way |
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446 _const_basic_type[T_ADDRESS] = TypeRawPtr::BOTTOM; // both interpreter return addresses & random raw ptrs |
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447 _const_basic_type[T_CONFLICT] = Type::BOTTOM; // why not? |
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448 |
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449 _zero_type[T_NARROWOOP] = TypeNarrowOop::NULL_PTR; |
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450 _zero_type[T_NARROWKLASS] = TypeNarrowKlass::NULL_PTR; |
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451 _zero_type[T_BOOLEAN] = TypeInt::ZERO; // false == 0 |
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452 _zero_type[T_CHAR] = TypeInt::ZERO; // '\0' == 0 |
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453 _zero_type[T_BYTE] = TypeInt::ZERO; // 0x00 == 0 |
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454 _zero_type[T_SHORT] = TypeInt::ZERO; // 0x0000 == 0 |
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455 _zero_type[T_INT] = TypeInt::ZERO; |
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456 _zero_type[T_LONG] = TypeLong::ZERO; |
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457 _zero_type[T_FLOAT] = TypeF::ZERO; |
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458 _zero_type[T_DOUBLE] = TypeD::ZERO; |
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459 _zero_type[T_OBJECT] = TypePtr::NULL_PTR; |
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460 _zero_type[T_ARRAY] = TypePtr::NULL_PTR; // null array is null oop |
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461 _zero_type[T_ADDRESS] = TypePtr::NULL_PTR; // raw pointers use the same null |
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462 _zero_type[T_VOID] = Type::TOP; // the only void value is no value at all |
0 | 463 |
464 // get_zero_type() should not happen for T_CONFLICT | |
465 _zero_type[T_CONFLICT]= NULL; | |
466 | |
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467 // Vector predefined types, it needs initialized _const_basic_type[]. |
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468 if (Matcher::vector_size_supported(T_BYTE,4)) { |
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469 TypeVect::VECTS = TypeVect::make(T_BYTE,4); |
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470 } |
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471 if (Matcher::vector_size_supported(T_FLOAT,2)) { |
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472 TypeVect::VECTD = TypeVect::make(T_FLOAT,2); |
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473 } |
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474 if (Matcher::vector_size_supported(T_FLOAT,4)) { |
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475 TypeVect::VECTX = TypeVect::make(T_FLOAT,4); |
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476 } |
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477 if (Matcher::vector_size_supported(T_FLOAT,8)) { |
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478 TypeVect::VECTY = TypeVect::make(T_FLOAT,8); |
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479 } |
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480 mreg2type[Op_VecS] = TypeVect::VECTS; |
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481 mreg2type[Op_VecD] = TypeVect::VECTD; |
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482 mreg2type[Op_VecX] = TypeVect::VECTX; |
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483 mreg2type[Op_VecY] = TypeVect::VECTY; |
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484 |
0 | 485 // Restore working type arena. |
486 current->set_type_arena(save); | |
487 current->set_type_dict(NULL); | |
488 } | |
489 | |
490 //------------------------------Initialize------------------------------------- | |
491 void Type::Initialize(Compile* current) { | |
492 assert(current->type_arena() != NULL, "must have created type arena"); | |
493 | |
494 if (_shared_type_dict == NULL) { | |
495 Initialize_shared(current); | |
496 } | |
497 | |
498 Arena* type_arena = current->type_arena(); | |
499 | |
500 // Create the hash-cons'ing dictionary with top-level storage allocation | |
501 Dict *tdic = new (type_arena) Dict( (CmpKey)Type::cmp,(Hash)Type::uhash, type_arena, 128 ); | |
502 current->set_type_dict(tdic); | |
503 | |
504 // Transfer the shared types. | |
505 DictI i(_shared_type_dict); | |
506 for( ; i.test(); ++i ) { | |
507 Type* t = (Type*)i._value; | |
508 tdic->Insert(t,t); // New Type, insert into Type table | |
509 } | |
510 } | |
511 | |
512 //------------------------------hashcons--------------------------------------- | |
513 // Do the hash-cons trick. If the Type already exists in the type table, | |
514 // delete the current Type and return the existing Type. Otherwise stick the | |
515 // current Type in the Type table. | |
516 const Type *Type::hashcons(void) { | |
517 debug_only(base()); // Check the assertion in Type::base(). | |
518 // Look up the Type in the Type dictionary | |
519 Dict *tdic = type_dict(); | |
520 Type* old = (Type*)(tdic->Insert(this, this, false)); | |
521 if( old ) { // Pre-existing Type? | |
522 if( old != this ) // Yes, this guy is not the pre-existing? | |
523 delete this; // Yes, Nuke this guy | |
524 assert( old->_dual, "" ); | |
525 return old; // Return pre-existing | |
526 } | |
527 | |
528 // Every type has a dual (to make my lattice symmetric). | |
529 // Since we just discovered a new Type, compute its dual right now. | |
530 assert( !_dual, "" ); // No dual yet | |
531 _dual = xdual(); // Compute the dual | |
532 if( cmp(this,_dual)==0 ) { // Handle self-symmetric | |
533 _dual = this; | |
534 return this; | |
535 } | |
536 assert( !_dual->_dual, "" ); // No reverse dual yet | |
537 assert( !(*tdic)[_dual], "" ); // Dual not in type system either | |
538 // New Type, insert into Type table | |
539 tdic->Insert((void*)_dual,(void*)_dual); | |
540 ((Type*)_dual)->_dual = this; // Finish up being symmetric | |
541 #ifdef ASSERT | |
542 Type *dual_dual = (Type*)_dual->xdual(); | |
543 assert( eq(dual_dual), "xdual(xdual()) should be identity" ); | |
544 delete dual_dual; | |
545 #endif | |
546 return this; // Return new Type | |
547 } | |
548 | |
549 //------------------------------eq--------------------------------------------- | |
550 // Structural equality check for Type representations | |
551 bool Type::eq( const Type * ) const { | |
552 return true; // Nothing else can go wrong | |
553 } | |
554 | |
555 //------------------------------hash------------------------------------------- | |
556 // Type-specific hashing function. | |
557 int Type::hash(void) const { | |
558 return _base; | |
559 } | |
560 | |
561 //------------------------------is_finite-------------------------------------- | |
562 // Has a finite value | |
563 bool Type::is_finite() const { | |
564 return false; | |
565 } | |
566 | |
567 //------------------------------is_nan----------------------------------------- | |
568 // Is not a number (NaN) | |
569 bool Type::is_nan() const { | |
570 return false; | |
571 } | |
572 | |
820
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573 //----------------------interface_vs_oop--------------------------------------- |
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574 #ifdef ASSERT |
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575 bool Type::interface_vs_oop(const Type *t) const { |
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576 bool result = false; |
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577 |
992 | 578 const TypePtr* this_ptr = this->make_ptr(); // In case it is narrow_oop |
579 const TypePtr* t_ptr = t->make_ptr(); | |
580 if( this_ptr == NULL || t_ptr == NULL ) | |
581 return result; | |
582 | |
583 const TypeInstPtr* this_inst = this_ptr->isa_instptr(); | |
584 const TypeInstPtr* t_inst = t_ptr->isa_instptr(); | |
820
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585 if( this_inst && this_inst->is_loaded() && t_inst && t_inst->is_loaded() ) { |
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586 bool this_interface = this_inst->klass()->is_interface(); |
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587 bool t_interface = t_inst->klass()->is_interface(); |
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588 result = this_interface ^ t_interface; |
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589 } |
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590 |
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591 return result; |
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592 } |
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593 #endif |
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594 |
0 | 595 //------------------------------meet------------------------------------------- |
596 // Compute the MEET of two types. NOT virtual. It enforces that meet is | |
597 // commutative and the lattice is symmetric. | |
598 const Type *Type::meet( const Type *t ) const { | |
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599 if (isa_narrowoop() && t->isa_narrowoop()) { |
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600 const Type* result = make_ptr()->meet(t->make_ptr()); |
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601 return result->make_narrowoop(); |
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602 } |
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603 if (isa_narrowklass() && t->isa_narrowklass()) { |
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604 const Type* result = make_ptr()->meet(t->make_ptr()); |
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605 return result->make_narrowklass(); |
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606 } |
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607 |
0 | 608 const Type *mt = xmeet(t); |
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609 if (isa_narrowoop() || t->isa_narrowoop()) return mt; |
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610 if (isa_narrowklass() || t->isa_narrowklass()) return mt; |
0 | 611 #ifdef ASSERT |
612 assert( mt == t->xmeet(this), "meet not commutative" ); | |
613 const Type* dual_join = mt->_dual; | |
614 const Type *t2t = dual_join->xmeet(t->_dual); | |
615 const Type *t2this = dual_join->xmeet( _dual); | |
616 | |
617 // Interface meet Oop is Not Symmetric: | |
618 // Interface:AnyNull meet Oop:AnyNull == Interface:AnyNull | |
619 // Interface:NotNull meet Oop:NotNull == java/lang/Object:NotNull | |
820
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620 |
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621 if( !interface_vs_oop(t) && (t2t != t->_dual || t2this != _dual) ) { |
0 | 622 tty->print_cr("=== Meet Not Symmetric ==="); |
623 tty->print("t = "); t->dump(); tty->cr(); | |
624 tty->print("this= "); dump(); tty->cr(); | |
625 tty->print("mt=(t meet this)= "); mt->dump(); tty->cr(); | |
626 | |
627 tty->print("t_dual= "); t->_dual->dump(); tty->cr(); | |
628 tty->print("this_dual= "); _dual->dump(); tty->cr(); | |
629 tty->print("mt_dual= "); mt->_dual->dump(); tty->cr(); | |
630 | |
631 tty->print("mt_dual meet t_dual= "); t2t ->dump(); tty->cr(); | |
632 tty->print("mt_dual meet this_dual= "); t2this ->dump(); tty->cr(); | |
633 | |
634 fatal("meet not symmetric" ); | |
635 } | |
636 #endif | |
637 return mt; | |
638 } | |
639 | |
640 //------------------------------xmeet------------------------------------------ | |
641 // Compute the MEET of two types. It returns a new Type object. | |
642 const Type *Type::xmeet( const Type *t ) const { | |
643 // Perform a fast test for common case; meeting the same types together. | |
644 if( this == t ) return this; // Meeting same type-rep? | |
645 | |
646 // Meeting TOP with anything? | |
647 if( _base == Top ) return t; | |
648 | |
649 // Meeting BOTTOM with anything? | |
650 if( _base == Bottom ) return BOTTOM; | |
651 | |
652 // Current "this->_base" is one of: Bad, Multi, Control, Top, | |
653 // Abio, Abstore, Floatxxx, Doublexxx, Bottom, lastype. | |
654 switch (t->base()) { // Switch on original type | |
655 | |
656 // Cut in half the number of cases I must handle. Only need cases for when | |
657 // the given enum "t->type" is less than or equal to the local enum "type". | |
658 case FloatCon: | |
659 case DoubleCon: | |
660 case Int: | |
661 case Long: | |
662 return t->xmeet(this); | |
663 | |
664 case OopPtr: | |
665 return t->xmeet(this); | |
666 | |
667 case InstPtr: | |
668 return t->xmeet(this); | |
669 | |
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670 case MetadataPtr: |
0 | 671 case KlassPtr: |
672 return t->xmeet(this); | |
673 | |
674 case AryPtr: | |
675 return t->xmeet(this); | |
676 | |
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677 case NarrowOop: |
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678 return t->xmeet(this); |
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679 |
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680 case NarrowKlass: |
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681 return t->xmeet(this); |
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682 |
0 | 683 case Bad: // Type check |
684 default: // Bogus type not in lattice | |
685 typerr(t); | |
686 return Type::BOTTOM; | |
687 | |
688 case Bottom: // Ye Olde Default | |
689 return t; | |
690 | |
691 case FloatTop: | |
692 if( _base == FloatTop ) return this; | |
693 case FloatBot: // Float | |
694 if( _base == FloatBot || _base == FloatTop ) return FLOAT; | |
695 if( _base == DoubleTop || _base == DoubleBot ) return Type::BOTTOM; | |
696 typerr(t); | |
697 return Type::BOTTOM; | |
698 | |
699 case DoubleTop: | |
700 if( _base == DoubleTop ) return this; | |
701 case DoubleBot: // Double | |
702 if( _base == DoubleBot || _base == DoubleTop ) return DOUBLE; | |
703 if( _base == FloatTop || _base == FloatBot ) return Type::BOTTOM; | |
704 typerr(t); | |
705 return Type::BOTTOM; | |
706 | |
707 // These next few cases must match exactly or it is a compile-time error. | |
708 case Control: // Control of code | |
709 case Abio: // State of world outside of program | |
710 case Memory: | |
711 if( _base == t->_base ) return this; | |
712 typerr(t); | |
713 return Type::BOTTOM; | |
714 | |
715 case Top: // Top of the lattice | |
716 return this; | |
717 } | |
718 | |
719 // The type is unchanged | |
720 return this; | |
721 } | |
722 | |
723 //-----------------------------filter------------------------------------------ | |
724 const Type *Type::filter( const Type *kills ) const { | |
725 const Type* ft = join(kills); | |
726 if (ft->empty()) | |
727 return Type::TOP; // Canonical empty value | |
728 return ft; | |
729 } | |
730 | |
731 //------------------------------xdual------------------------------------------ | |
732 // Compute dual right now. | |
733 const Type::TYPES Type::dual_type[Type::lastype] = { | |
734 Bad, // Bad | |
735 Control, // Control | |
736 Bottom, // Top | |
737 Bad, // Int - handled in v-call | |
738 Bad, // Long - handled in v-call | |
739 Half, // Half | |
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740 Bad, // NarrowOop - handled in v-call |
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741 Bad, // NarrowKlass - handled in v-call |
0 | 742 |
743 Bad, // Tuple - handled in v-call | |
744 Bad, // Array - handled in v-call | |
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745 Bad, // VectorS - handled in v-call |
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746 Bad, // VectorD - handled in v-call |
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747 Bad, // VectorX - handled in v-call |
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748 Bad, // VectorY - handled in v-call |
0 | 749 |
750 Bad, // AnyPtr - handled in v-call | |
751 Bad, // RawPtr - handled in v-call | |
752 Bad, // OopPtr - handled in v-call | |
753 Bad, // InstPtr - handled in v-call | |
754 Bad, // AryPtr - handled in v-call | |
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755 |
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756 Bad, // MetadataPtr - handled in v-call |
0 | 757 Bad, // KlassPtr - handled in v-call |
758 | |
759 Bad, // Function - handled in v-call | |
760 Abio, // Abio | |
761 Return_Address,// Return_Address | |
762 Memory, // Memory | |
763 FloatBot, // FloatTop | |
764 FloatCon, // FloatCon | |
765 FloatTop, // FloatBot | |
766 DoubleBot, // DoubleTop | |
767 DoubleCon, // DoubleCon | |
768 DoubleTop, // DoubleBot | |
769 Top // Bottom | |
770 }; | |
771 | |
772 const Type *Type::xdual() const { | |
773 // Note: the base() accessor asserts the sanity of _base. | |
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774 assert(_type_info[base()].dual_type != Bad, "implement with v-call"); |
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775 return new Type(_type_info[_base].dual_type); |
0 | 776 } |
777 | |
778 //------------------------------has_memory------------------------------------- | |
779 bool Type::has_memory() const { | |
780 Type::TYPES tx = base(); | |
781 if (tx == Memory) return true; | |
782 if (tx == Tuple) { | |
783 const TypeTuple *t = is_tuple(); | |
784 for (uint i=0; i < t->cnt(); i++) { | |
785 tx = t->field_at(i)->base(); | |
786 if (tx == Memory) return true; | |
787 } | |
788 } | |
789 return false; | |
790 } | |
791 | |
792 #ifndef PRODUCT | |
793 //------------------------------dump2------------------------------------------ | |
794 void Type::dump2( Dict &d, uint depth, outputStream *st ) const { | |
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795 st->print(_type_info[_base].msg); |
0 | 796 } |
797 | |
798 //------------------------------dump------------------------------------------- | |
799 void Type::dump_on(outputStream *st) const { | |
800 ResourceMark rm; | |
801 Dict d(cmpkey,hashkey); // Stop recursive type dumping | |
802 dump2(d,1, st); | |
163 | 803 if (is_ptr_to_narrowoop()) { |
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804 st->print(" [narrow]"); |
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805 } else if (is_ptr_to_narrowklass()) { |
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806 st->print(" [narrowklass]"); |
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807 } |
0 | 808 } |
809 #endif | |
810 | |
811 //------------------------------singleton-------------------------------------- | |
812 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
813 // constants (Ldi nodes). Singletons are integer, float or double constants. | |
814 bool Type::singleton(void) const { | |
815 return _base == Top || _base == Half; | |
816 } | |
817 | |
818 //------------------------------empty------------------------------------------ | |
819 // TRUE if Type is a type with no values, FALSE otherwise. | |
820 bool Type::empty(void) const { | |
821 switch (_base) { | |
822 case DoubleTop: | |
823 case FloatTop: | |
824 case Top: | |
825 return true; | |
826 | |
827 case Half: | |
828 case Abio: | |
829 case Return_Address: | |
830 case Memory: | |
831 case Bottom: | |
832 case FloatBot: | |
833 case DoubleBot: | |
834 return false; // never a singleton, therefore never empty | |
835 } | |
836 | |
837 ShouldNotReachHere(); | |
838 return false; | |
839 } | |
840 | |
841 //------------------------------dump_stats------------------------------------- | |
842 // Dump collected statistics to stderr | |
843 #ifndef PRODUCT | |
844 void Type::dump_stats() { | |
845 tty->print("Types made: %d\n", type_dict()->Size()); | |
846 } | |
847 #endif | |
848 | |
849 //------------------------------typerr----------------------------------------- | |
850 void Type::typerr( const Type *t ) const { | |
851 #ifndef PRODUCT | |
852 tty->print("\nError mixing types: "); | |
853 dump(); | |
854 tty->print(" and "); | |
855 t->dump(); | |
856 tty->print("\n"); | |
857 #endif | |
858 ShouldNotReachHere(); | |
859 } | |
860 | |
861 | |
862 //============================================================================= | |
863 // Convenience common pre-built types. | |
864 const TypeF *TypeF::ZERO; // Floating point zero | |
865 const TypeF *TypeF::ONE; // Floating point one | |
866 | |
867 //------------------------------make------------------------------------------- | |
868 // Create a float constant | |
869 const TypeF *TypeF::make(float f) { | |
870 return (TypeF*)(new TypeF(f))->hashcons(); | |
871 } | |
872 | |
873 //------------------------------meet------------------------------------------- | |
874 // Compute the MEET of two types. It returns a new Type object. | |
875 const Type *TypeF::xmeet( const Type *t ) const { | |
876 // Perform a fast test for common case; meeting the same types together. | |
877 if( this == t ) return this; // Meeting same type-rep? | |
878 | |
879 // Current "this->_base" is FloatCon | |
880 switch (t->base()) { // Switch on original type | |
881 case AnyPtr: // Mixing with oops happens when javac | |
882 case RawPtr: // reuses local variables | |
883 case OopPtr: | |
884 case InstPtr: | |
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885 case AryPtr: |
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886 case MetadataPtr: |
0 | 887 case KlassPtr: |
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888 case NarrowOop: |
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889 case NarrowKlass: |
0 | 890 case Int: |
891 case Long: | |
892 case DoubleTop: | |
893 case DoubleCon: | |
894 case DoubleBot: | |
895 case Bottom: // Ye Olde Default | |
896 return Type::BOTTOM; | |
897 | |
898 case FloatBot: | |
899 return t; | |
900 | |
901 default: // All else is a mistake | |
902 typerr(t); | |
903 | |
904 case FloatCon: // Float-constant vs Float-constant? | |
905 if( jint_cast(_f) != jint_cast(t->getf()) ) // unequal constants? | |
906 // must compare bitwise as positive zero, negative zero and NaN have | |
907 // all the same representation in C++ | |
908 return FLOAT; // Return generic float | |
909 // Equal constants | |
910 case Top: | |
911 case FloatTop: | |
912 break; // Return the float constant | |
913 } | |
914 return this; // Return the float constant | |
915 } | |
916 | |
917 //------------------------------xdual------------------------------------------ | |
918 // Dual: symmetric | |
919 const Type *TypeF::xdual() const { | |
920 return this; | |
921 } | |
922 | |
923 //------------------------------eq--------------------------------------------- | |
924 // Structural equality check for Type representations | |
925 bool TypeF::eq( const Type *t ) const { | |
926 if( g_isnan(_f) || | |
927 g_isnan(t->getf()) ) { | |
928 // One or both are NANs. If both are NANs return true, else false. | |
929 return (g_isnan(_f) && g_isnan(t->getf())); | |
930 } | |
931 if (_f == t->getf()) { | |
932 // (NaN is impossible at this point, since it is not equal even to itself) | |
933 if (_f == 0.0) { | |
934 // difference between positive and negative zero | |
935 if (jint_cast(_f) != jint_cast(t->getf())) return false; | |
936 } | |
937 return true; | |
938 } | |
939 return false; | |
940 } | |
941 | |
942 //------------------------------hash------------------------------------------- | |
943 // Type-specific hashing function. | |
944 int TypeF::hash(void) const { | |
945 return *(int*)(&_f); | |
946 } | |
947 | |
948 //------------------------------is_finite-------------------------------------- | |
949 // Has a finite value | |
950 bool TypeF::is_finite() const { | |
951 return g_isfinite(getf()) != 0; | |
952 } | |
953 | |
954 //------------------------------is_nan----------------------------------------- | |
955 // Is not a number (NaN) | |
956 bool TypeF::is_nan() const { | |
957 return g_isnan(getf()) != 0; | |
958 } | |
959 | |
960 //------------------------------dump2------------------------------------------ | |
961 // Dump float constant Type | |
962 #ifndef PRODUCT | |
963 void TypeF::dump2( Dict &d, uint depth, outputStream *st ) const { | |
964 Type::dump2(d,depth, st); | |
965 st->print("%f", _f); | |
966 } | |
967 #endif | |
968 | |
969 //------------------------------singleton-------------------------------------- | |
970 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
971 // constants (Ldi nodes). Singletons are integer, float or double constants | |
972 // or a single symbol. | |
973 bool TypeF::singleton(void) const { | |
974 return true; // Always a singleton | |
975 } | |
976 | |
977 bool TypeF::empty(void) const { | |
978 return false; // always exactly a singleton | |
979 } | |
980 | |
981 //============================================================================= | |
982 // Convenience common pre-built types. | |
983 const TypeD *TypeD::ZERO; // Floating point zero | |
984 const TypeD *TypeD::ONE; // Floating point one | |
985 | |
986 //------------------------------make------------------------------------------- | |
987 const TypeD *TypeD::make(double d) { | |
988 return (TypeD*)(new TypeD(d))->hashcons(); | |
989 } | |
990 | |
991 //------------------------------meet------------------------------------------- | |
992 // Compute the MEET of two types. It returns a new Type object. | |
993 const Type *TypeD::xmeet( const Type *t ) const { | |
994 // Perform a fast test for common case; meeting the same types together. | |
995 if( this == t ) return this; // Meeting same type-rep? | |
996 | |
997 // Current "this->_base" is DoubleCon | |
998 switch (t->base()) { // Switch on original type | |
999 case AnyPtr: // Mixing with oops happens when javac | |
1000 case RawPtr: // reuses local variables | |
1001 case OopPtr: | |
1002 case InstPtr: | |
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1003 case AryPtr: |
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1004 case MetadataPtr: |
0 | 1005 case KlassPtr: |
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1006 case NarrowOop: |
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1007 case NarrowKlass: |
0 | 1008 case Int: |
1009 case Long: | |
1010 case FloatTop: | |
1011 case FloatCon: | |
1012 case FloatBot: | |
1013 case Bottom: // Ye Olde Default | |
1014 return Type::BOTTOM; | |
1015 | |
1016 case DoubleBot: | |
1017 return t; | |
1018 | |
1019 default: // All else is a mistake | |
1020 typerr(t); | |
1021 | |
1022 case DoubleCon: // Double-constant vs Double-constant? | |
1023 if( jlong_cast(_d) != jlong_cast(t->getd()) ) // unequal constants? (see comment in TypeF::xmeet) | |
1024 return DOUBLE; // Return generic double | |
1025 case Top: | |
1026 case DoubleTop: | |
1027 break; | |
1028 } | |
1029 return this; // Return the double constant | |
1030 } | |
1031 | |
1032 //------------------------------xdual------------------------------------------ | |
1033 // Dual: symmetric | |
1034 const Type *TypeD::xdual() const { | |
1035 return this; | |
1036 } | |
1037 | |
1038 //------------------------------eq--------------------------------------------- | |
1039 // Structural equality check for Type representations | |
1040 bool TypeD::eq( const Type *t ) const { | |
1041 if( g_isnan(_d) || | |
1042 g_isnan(t->getd()) ) { | |
1043 // One or both are NANs. If both are NANs return true, else false. | |
1044 return (g_isnan(_d) && g_isnan(t->getd())); | |
1045 } | |
1046 if (_d == t->getd()) { | |
1047 // (NaN is impossible at this point, since it is not equal even to itself) | |
1048 if (_d == 0.0) { | |
1049 // difference between positive and negative zero | |
1050 if (jlong_cast(_d) != jlong_cast(t->getd())) return false; | |
1051 } | |
1052 return true; | |
1053 } | |
1054 return false; | |
1055 } | |
1056 | |
1057 //------------------------------hash------------------------------------------- | |
1058 // Type-specific hashing function. | |
1059 int TypeD::hash(void) const { | |
1060 return *(int*)(&_d); | |
1061 } | |
1062 | |
1063 //------------------------------is_finite-------------------------------------- | |
1064 // Has a finite value | |
1065 bool TypeD::is_finite() const { | |
1066 return g_isfinite(getd()) != 0; | |
1067 } | |
1068 | |
1069 //------------------------------is_nan----------------------------------------- | |
1070 // Is not a number (NaN) | |
1071 bool TypeD::is_nan() const { | |
1072 return g_isnan(getd()) != 0; | |
1073 } | |
1074 | |
1075 //------------------------------dump2------------------------------------------ | |
1076 // Dump double constant Type | |
1077 #ifndef PRODUCT | |
1078 void TypeD::dump2( Dict &d, uint depth, outputStream *st ) const { | |
1079 Type::dump2(d,depth,st); | |
1080 st->print("%f", _d); | |
1081 } | |
1082 #endif | |
1083 | |
1084 //------------------------------singleton-------------------------------------- | |
1085 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
1086 // constants (Ldi nodes). Singletons are integer, float or double constants | |
1087 // or a single symbol. | |
1088 bool TypeD::singleton(void) const { | |
1089 return true; // Always a singleton | |
1090 } | |
1091 | |
1092 bool TypeD::empty(void) const { | |
1093 return false; // always exactly a singleton | |
1094 } | |
1095 | |
1096 //============================================================================= | |
1097 // Convience common pre-built types. | |
1098 const TypeInt *TypeInt::MINUS_1;// -1 | |
1099 const TypeInt *TypeInt::ZERO; // 0 | |
1100 const TypeInt *TypeInt::ONE; // 1 | |
1101 const TypeInt *TypeInt::BOOL; // 0 or 1, FALSE or TRUE. | |
1102 const TypeInt *TypeInt::CC; // -1,0 or 1, condition codes | |
1103 const TypeInt *TypeInt::CC_LT; // [-1] == MINUS_1 | |
1104 const TypeInt *TypeInt::CC_GT; // [1] == ONE | |
1105 const TypeInt *TypeInt::CC_EQ; // [0] == ZERO | |
1106 const TypeInt *TypeInt::CC_LE; // [-1,0] | |
1107 const TypeInt *TypeInt::CC_GE; // [0,1] == BOOL (!) | |
1108 const TypeInt *TypeInt::BYTE; // Bytes, -128 to 127 | |
624 | 1109 const TypeInt *TypeInt::UBYTE; // Unsigned Bytes, 0 to 255 |
0 | 1110 const TypeInt *TypeInt::CHAR; // Java chars, 0-65535 |
1111 const TypeInt *TypeInt::SHORT; // Java shorts, -32768-32767 | |
1112 const TypeInt *TypeInt::POS; // Positive 32-bit integers or zero | |
1113 const TypeInt *TypeInt::POS1; // Positive 32-bit integers | |
1114 const TypeInt *TypeInt::INT; // 32-bit integers | |
1115 const TypeInt *TypeInt::SYMINT; // symmetric range [-max_jint..max_jint] | |
1116 | |
1117 //------------------------------TypeInt---------------------------------------- | |
1118 TypeInt::TypeInt( jint lo, jint hi, int w ) : Type(Int), _lo(lo), _hi(hi), _widen(w) { | |
1119 } | |
1120 | |
1121 //------------------------------make------------------------------------------- | |
1122 const TypeInt *TypeInt::make( jint lo ) { | |
1123 return (TypeInt*)(new TypeInt(lo,lo,WidenMin))->hashcons(); | |
1124 } | |
1125 | |
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1126 static int normalize_int_widen( jint lo, jint hi, int w ) { |
0 | 1127 // Certain normalizations keep us sane when comparing types. |
1128 // The 'SMALLINT' covers constants and also CC and its relatives. | |
1129 if (lo <= hi) { | |
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1130 if ((juint)(hi - lo) <= SMALLINT) w = Type::WidenMin; |
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1131 if ((juint)(hi - lo) >= max_juint) w = Type::WidenMax; // TypeInt::INT |
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1132 } else { |
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1133 if ((juint)(lo - hi) <= SMALLINT) w = Type::WidenMin; |
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1134 if ((juint)(lo - hi) >= max_juint) w = Type::WidenMin; // dual TypeInt::INT |
0 | 1135 } |
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1136 return w; |
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1137 } |
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1138 |
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1139 const TypeInt *TypeInt::make( jint lo, jint hi, int w ) { |
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1140 w = normalize_int_widen(lo, hi, w); |
0 | 1141 return (TypeInt*)(new TypeInt(lo,hi,w))->hashcons(); |
1142 } | |
1143 | |
1144 //------------------------------meet------------------------------------------- | |
1145 // Compute the MEET of two types. It returns a new Type representation object | |
1146 // with reference count equal to the number of Types pointing at it. | |
1147 // Caller should wrap a Types around it. | |
1148 const Type *TypeInt::xmeet( const Type *t ) const { | |
1149 // Perform a fast test for common case; meeting the same types together. | |
1150 if( this == t ) return this; // Meeting same type? | |
1151 | |
1152 // Currently "this->_base" is a TypeInt | |
1153 switch (t->base()) { // Switch on original type | |
1154 case AnyPtr: // Mixing with oops happens when javac | |
1155 case RawPtr: // reuses local variables | |
1156 case OopPtr: | |
1157 case InstPtr: | |
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1158 case AryPtr: |
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1159 case MetadataPtr: |
0 | 1160 case KlassPtr: |
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1161 case NarrowOop: |
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1162 case NarrowKlass: |
0 | 1163 case Long: |
1164 case FloatTop: | |
1165 case FloatCon: | |
1166 case FloatBot: | |
1167 case DoubleTop: | |
1168 case DoubleCon: | |
1169 case DoubleBot: | |
1170 case Bottom: // Ye Olde Default | |
1171 return Type::BOTTOM; | |
1172 default: // All else is a mistake | |
1173 typerr(t); | |
1174 case Top: // No change | |
1175 return this; | |
1176 case Int: // Int vs Int? | |
1177 break; | |
1178 } | |
1179 | |
1180 // Expand covered set | |
1181 const TypeInt *r = t->is_int(); | |
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1182 return make( MIN2(_lo,r->_lo), MAX2(_hi,r->_hi), MAX2(_widen,r->_widen) ); |
0 | 1183 } |
1184 | |
1185 //------------------------------xdual------------------------------------------ | |
1186 // Dual: reverse hi & lo; flip widen | |
1187 const Type *TypeInt::xdual() const { | |
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1188 int w = normalize_int_widen(_hi,_lo, WidenMax-_widen); |
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1189 return new TypeInt(_hi,_lo,w); |
0 | 1190 } |
1191 | |
1192 //------------------------------widen------------------------------------------ | |
1193 // Only happens for optimistic top-down optimizations. | |
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1194 const Type *TypeInt::widen( const Type *old, const Type* limit ) const { |
0 | 1195 // Coming from TOP or such; no widening |
1196 if( old->base() != Int ) return this; | |
1197 const TypeInt *ot = old->is_int(); | |
1198 | |
1199 // If new guy is equal to old guy, no widening | |
1200 if( _lo == ot->_lo && _hi == ot->_hi ) | |
1201 return old; | |
1202 | |
1203 // If new guy contains old, then we widened | |
1204 if( _lo <= ot->_lo && _hi >= ot->_hi ) { | |
1205 // New contains old | |
1206 // If new guy is already wider than old, no widening | |
1207 if( _widen > ot->_widen ) return this; | |
1208 // If old guy was a constant, do not bother | |
1209 if (ot->_lo == ot->_hi) return this; | |
1210 // Now widen new guy. | |
1211 // Check for widening too far | |
1212 if (_widen == WidenMax) { | |
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1213 int max = max_jint; |
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1214 int min = min_jint; |
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1215 if (limit->isa_int()) { |
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1216 max = limit->is_int()->_hi; |
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1217 min = limit->is_int()->_lo; |
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1218 } |
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1219 if (min < _lo && _hi < max) { |
0 | 1220 // If neither endpoint is extremal yet, push out the endpoint |
1221 // which is closer to its respective limit. | |
1222 if (_lo >= 0 || // easy common case | |
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1223 (juint)(_lo - min) >= (juint)(max - _hi)) { |
0 | 1224 // Try to widen to an unsigned range type of 31 bits: |
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1225 return make(_lo, max, WidenMax); |
0 | 1226 } else { |
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1227 return make(min, _hi, WidenMax); |
0 | 1228 } |
1229 } | |
1230 return TypeInt::INT; | |
1231 } | |
1232 // Returned widened new guy | |
1233 return make(_lo,_hi,_widen+1); | |
1234 } | |
1235 | |
1236 // If old guy contains new, then we probably widened too far & dropped to | |
1237 // bottom. Return the wider fellow. | |
1238 if ( ot->_lo <= _lo && ot->_hi >= _hi ) | |
1239 return old; | |
1240 | |
1241 //fatal("Integer value range is not subset"); | |
1242 //return this; | |
1243 return TypeInt::INT; | |
1244 } | |
1245 | |
1246 //------------------------------narrow--------------------------------------- | |
1247 // Only happens for pessimistic optimizations. | |
1248 const Type *TypeInt::narrow( const Type *old ) const { | |
1249 if (_lo >= _hi) return this; // already narrow enough | |
1250 if (old == NULL) return this; | |
1251 const TypeInt* ot = old->isa_int(); | |
1252 if (ot == NULL) return this; | |
1253 jint olo = ot->_lo; | |
1254 jint ohi = ot->_hi; | |
1255 | |
1256 // If new guy is equal to old guy, no narrowing | |
1257 if (_lo == olo && _hi == ohi) return old; | |
1258 | |
1259 // If old guy was maximum range, allow the narrowing | |
1260 if (olo == min_jint && ohi == max_jint) return this; | |
1261 | |
1262 if (_lo < olo || _hi > ohi) | |
1263 return this; // doesn't narrow; pretty wierd | |
1264 | |
1265 // The new type narrows the old type, so look for a "death march". | |
1266 // See comments on PhaseTransform::saturate. | |
1267 juint nrange = _hi - _lo; | |
1268 juint orange = ohi - olo; | |
1269 if (nrange < max_juint - 1 && nrange > (orange >> 1) + (SMALLINT*2)) { | |
1270 // Use the new type only if the range shrinks a lot. | |
1271 // We do not want the optimizer computing 2^31 point by point. | |
1272 return old; | |
1273 } | |
1274 | |
1275 return this; | |
1276 } | |
1277 | |
1278 //-----------------------------filter------------------------------------------ | |
1279 const Type *TypeInt::filter( const Type *kills ) const { | |
1280 const TypeInt* ft = join(kills)->isa_int(); | |
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1281 if (ft == NULL || ft->empty()) |
0 | 1282 return Type::TOP; // Canonical empty value |
1283 if (ft->_widen < this->_widen) { | |
1284 // Do not allow the value of kill->_widen to affect the outcome. | |
1285 // The widen bits must be allowed to run freely through the graph. | |
1286 ft = TypeInt::make(ft->_lo, ft->_hi, this->_widen); | |
1287 } | |
1288 return ft; | |
1289 } | |
1290 | |
1291 //------------------------------eq--------------------------------------------- | |
1292 // Structural equality check for Type representations | |
1293 bool TypeInt::eq( const Type *t ) const { | |
1294 const TypeInt *r = t->is_int(); // Handy access | |
1295 return r->_lo == _lo && r->_hi == _hi && r->_widen == _widen; | |
1296 } | |
1297 | |
1298 //------------------------------hash------------------------------------------- | |
1299 // Type-specific hashing function. | |
1300 int TypeInt::hash(void) const { | |
1301 return _lo+_hi+_widen+(int)Type::Int; | |
1302 } | |
1303 | |
1304 //------------------------------is_finite-------------------------------------- | |
1305 // Has a finite value | |
1306 bool TypeInt::is_finite() const { | |
1307 return true; | |
1308 } | |
1309 | |
1310 //------------------------------dump2------------------------------------------ | |
1311 // Dump TypeInt | |
1312 #ifndef PRODUCT | |
1313 static const char* intname(char* buf, jint n) { | |
1314 if (n == min_jint) | |
1315 return "min"; | |
1316 else if (n < min_jint + 10000) | |
1317 sprintf(buf, "min+" INT32_FORMAT, n - min_jint); | |
1318 else if (n == max_jint) | |
1319 return "max"; | |
1320 else if (n > max_jint - 10000) | |
1321 sprintf(buf, "max-" INT32_FORMAT, max_jint - n); | |
1322 else | |
1323 sprintf(buf, INT32_FORMAT, n); | |
1324 return buf; | |
1325 } | |
1326 | |
1327 void TypeInt::dump2( Dict &d, uint depth, outputStream *st ) const { | |
1328 char buf[40], buf2[40]; | |
1329 if (_lo == min_jint && _hi == max_jint) | |
1330 st->print("int"); | |
1331 else if (is_con()) | |
1332 st->print("int:%s", intname(buf, get_con())); | |
1333 else if (_lo == BOOL->_lo && _hi == BOOL->_hi) | |
1334 st->print("bool"); | |
1335 else if (_lo == BYTE->_lo && _hi == BYTE->_hi) | |
1336 st->print("byte"); | |
1337 else if (_lo == CHAR->_lo && _hi == CHAR->_hi) | |
1338 st->print("char"); | |
1339 else if (_lo == SHORT->_lo && _hi == SHORT->_hi) | |
1340 st->print("short"); | |
1341 else if (_hi == max_jint) | |
1342 st->print("int:>=%s", intname(buf, _lo)); | |
1343 else if (_lo == min_jint) | |
1344 st->print("int:<=%s", intname(buf, _hi)); | |
1345 else | |
1346 st->print("int:%s..%s", intname(buf, _lo), intname(buf2, _hi)); | |
1347 | |
1348 if (_widen != 0 && this != TypeInt::INT) | |
1349 st->print(":%.*s", _widen, "wwww"); | |
1350 } | |
1351 #endif | |
1352 | |
1353 //------------------------------singleton-------------------------------------- | |
1354 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
1355 // constants. | |
1356 bool TypeInt::singleton(void) const { | |
1357 return _lo >= _hi; | |
1358 } | |
1359 | |
1360 bool TypeInt::empty(void) const { | |
1361 return _lo > _hi; | |
1362 } | |
1363 | |
1364 //============================================================================= | |
1365 // Convenience common pre-built types. | |
1366 const TypeLong *TypeLong::MINUS_1;// -1 | |
1367 const TypeLong *TypeLong::ZERO; // 0 | |
1368 const TypeLong *TypeLong::ONE; // 1 | |
1369 const TypeLong *TypeLong::POS; // >=0 | |
1370 const TypeLong *TypeLong::LONG; // 64-bit integers | |
1371 const TypeLong *TypeLong::INT; // 32-bit subrange | |
1372 const TypeLong *TypeLong::UINT; // 32-bit unsigned subrange | |
1373 | |
1374 //------------------------------TypeLong--------------------------------------- | |
1375 TypeLong::TypeLong( jlong lo, jlong hi, int w ) : Type(Long), _lo(lo), _hi(hi), _widen(w) { | |
1376 } | |
1377 | |
1378 //------------------------------make------------------------------------------- | |
1379 const TypeLong *TypeLong::make( jlong lo ) { | |
1380 return (TypeLong*)(new TypeLong(lo,lo,WidenMin))->hashcons(); | |
1381 } | |
1382 | |
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1383 static int normalize_long_widen( jlong lo, jlong hi, int w ) { |
0 | 1384 // Certain normalizations keep us sane when comparing types. |
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1385 // The 'SMALLINT' covers constants. |
0 | 1386 if (lo <= hi) { |
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1387 if ((julong)(hi - lo) <= SMALLINT) w = Type::WidenMin; |
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1388 if ((julong)(hi - lo) >= max_julong) w = Type::WidenMax; // TypeLong::LONG |
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1389 } else { |
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1390 if ((julong)(lo - hi) <= SMALLINT) w = Type::WidenMin; |
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1391 if ((julong)(lo - hi) >= max_julong) w = Type::WidenMin; // dual TypeLong::LONG |
0 | 1392 } |
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1393 return w; |
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1394 } |
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1395 |
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1396 const TypeLong *TypeLong::make( jlong lo, jlong hi, int w ) { |
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1397 w = normalize_long_widen(lo, hi, w); |
0 | 1398 return (TypeLong*)(new TypeLong(lo,hi,w))->hashcons(); |
1399 } | |
1400 | |
1401 | |
1402 //------------------------------meet------------------------------------------- | |
1403 // Compute the MEET of two types. It returns a new Type representation object | |
1404 // with reference count equal to the number of Types pointing at it. | |
1405 // Caller should wrap a Types around it. | |
1406 const Type *TypeLong::xmeet( const Type *t ) const { | |
1407 // Perform a fast test for common case; meeting the same types together. | |
1408 if( this == t ) return this; // Meeting same type? | |
1409 | |
1410 // Currently "this->_base" is a TypeLong | |
1411 switch (t->base()) { // Switch on original type | |
1412 case AnyPtr: // Mixing with oops happens when javac | |
1413 case RawPtr: // reuses local variables | |
1414 case OopPtr: | |
1415 case InstPtr: | |
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1416 case AryPtr: |
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1417 case MetadataPtr: |
0 | 1418 case KlassPtr: |
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1419 case NarrowOop: |
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1420 case NarrowKlass: |
0 | 1421 case Int: |
1422 case FloatTop: | |
1423 case FloatCon: | |
1424 case FloatBot: | |
1425 case DoubleTop: | |
1426 case DoubleCon: | |
1427 case DoubleBot: | |
1428 case Bottom: // Ye Olde Default | |
1429 return Type::BOTTOM; | |
1430 default: // All else is a mistake | |
1431 typerr(t); | |
1432 case Top: // No change | |
1433 return this; | |
1434 case Long: // Long vs Long? | |
1435 break; | |
1436 } | |
1437 | |
1438 // Expand covered set | |
1439 const TypeLong *r = t->is_long(); // Turn into a TypeLong | |
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1440 return make( MIN2(_lo,r->_lo), MAX2(_hi,r->_hi), MAX2(_widen,r->_widen) ); |
0 | 1441 } |
1442 | |
1443 //------------------------------xdual------------------------------------------ | |
1444 // Dual: reverse hi & lo; flip widen | |
1445 const Type *TypeLong::xdual() const { | |
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1446 int w = normalize_long_widen(_hi,_lo, WidenMax-_widen); |
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1447 return new TypeLong(_hi,_lo,w); |
0 | 1448 } |
1449 | |
1450 //------------------------------widen------------------------------------------ | |
1451 // Only happens for optimistic top-down optimizations. | |
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1452 const Type *TypeLong::widen( const Type *old, const Type* limit ) const { |
0 | 1453 // Coming from TOP or such; no widening |
1454 if( old->base() != Long ) return this; | |
1455 const TypeLong *ot = old->is_long(); | |
1456 | |
1457 // If new guy is equal to old guy, no widening | |
1458 if( _lo == ot->_lo && _hi == ot->_hi ) | |
1459 return old; | |
1460 | |
1461 // If new guy contains old, then we widened | |
1462 if( _lo <= ot->_lo && _hi >= ot->_hi ) { | |
1463 // New contains old | |
1464 // If new guy is already wider than old, no widening | |
1465 if( _widen > ot->_widen ) return this; | |
1466 // If old guy was a constant, do not bother | |
1467 if (ot->_lo == ot->_hi) return this; | |
1468 // Now widen new guy. | |
1469 // Check for widening too far | |
1470 if (_widen == WidenMax) { | |
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1471 jlong max = max_jlong; |
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1472 jlong min = min_jlong; |
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1473 if (limit->isa_long()) { |
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1474 max = limit->is_long()->_hi; |
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1475 min = limit->is_long()->_lo; |
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1476 } |
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1477 if (min < _lo && _hi < max) { |
0 | 1478 // If neither endpoint is extremal yet, push out the endpoint |
1479 // which is closer to its respective limit. | |
1480 if (_lo >= 0 || // easy common case | |
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1481 (julong)(_lo - min) >= (julong)(max - _hi)) { |
0 | 1482 // Try to widen to an unsigned range type of 32/63 bits: |
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1483 if (max >= max_juint && _hi < max_juint) |
0 | 1484 return make(_lo, max_juint, WidenMax); |
1485 else | |
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1486 return make(_lo, max, WidenMax); |
0 | 1487 } else { |
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1488 return make(min, _hi, WidenMax); |
0 | 1489 } |
1490 } | |
1491 return TypeLong::LONG; | |
1492 } | |
1493 // Returned widened new guy | |
1494 return make(_lo,_hi,_widen+1); | |
1495 } | |
1496 | |
1497 // If old guy contains new, then we probably widened too far & dropped to | |
1498 // bottom. Return the wider fellow. | |
1499 if ( ot->_lo <= _lo && ot->_hi >= _hi ) | |
1500 return old; | |
1501 | |
1502 // fatal("Long value range is not subset"); | |
1503 // return this; | |
1504 return TypeLong::LONG; | |
1505 } | |
1506 | |
1507 //------------------------------narrow---------------------------------------- | |
1508 // Only happens for pessimistic optimizations. | |
1509 const Type *TypeLong::narrow( const Type *old ) const { | |
1510 if (_lo >= _hi) return this; // already narrow enough | |
1511 if (old == NULL) return this; | |
1512 const TypeLong* ot = old->isa_long(); | |
1513 if (ot == NULL) return this; | |
1514 jlong olo = ot->_lo; | |
1515 jlong ohi = ot->_hi; | |
1516 | |
1517 // If new guy is equal to old guy, no narrowing | |
1518 if (_lo == olo && _hi == ohi) return old; | |
1519 | |
1520 // If old guy was maximum range, allow the narrowing | |
1521 if (olo == min_jlong && ohi == max_jlong) return this; | |
1522 | |
1523 if (_lo < olo || _hi > ohi) | |
1524 return this; // doesn't narrow; pretty wierd | |
1525 | |
1526 // The new type narrows the old type, so look for a "death march". | |
1527 // See comments on PhaseTransform::saturate. | |
1528 julong nrange = _hi - _lo; | |
1529 julong orange = ohi - olo; | |
1530 if (nrange < max_julong - 1 && nrange > (orange >> 1) + (SMALLINT*2)) { | |
1531 // Use the new type only if the range shrinks a lot. | |
1532 // We do not want the optimizer computing 2^31 point by point. | |
1533 return old; | |
1534 } | |
1535 | |
1536 return this; | |
1537 } | |
1538 | |
1539 //-----------------------------filter------------------------------------------ | |
1540 const Type *TypeLong::filter( const Type *kills ) const { | |
1541 const TypeLong* ft = join(kills)->isa_long(); | |
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1542 if (ft == NULL || ft->empty()) |
0 | 1543 return Type::TOP; // Canonical empty value |
1544 if (ft->_widen < this->_widen) { | |
1545 // Do not allow the value of kill->_widen to affect the outcome. | |
1546 // The widen bits must be allowed to run freely through the graph. | |
1547 ft = TypeLong::make(ft->_lo, ft->_hi, this->_widen); | |
1548 } | |
1549 return ft; | |
1550 } | |
1551 | |
1552 //------------------------------eq--------------------------------------------- | |
1553 // Structural equality check for Type representations | |
1554 bool TypeLong::eq( const Type *t ) const { | |
1555 const TypeLong *r = t->is_long(); // Handy access | |
1556 return r->_lo == _lo && r->_hi == _hi && r->_widen == _widen; | |
1557 } | |
1558 | |
1559 //------------------------------hash------------------------------------------- | |
1560 // Type-specific hashing function. | |
1561 int TypeLong::hash(void) const { | |
1562 return (int)(_lo+_hi+_widen+(int)Type::Long); | |
1563 } | |
1564 | |
1565 //------------------------------is_finite-------------------------------------- | |
1566 // Has a finite value | |
1567 bool TypeLong::is_finite() const { | |
1568 return true; | |
1569 } | |
1570 | |
1571 //------------------------------dump2------------------------------------------ | |
1572 // Dump TypeLong | |
1573 #ifndef PRODUCT | |
1574 static const char* longnamenear(jlong x, const char* xname, char* buf, jlong n) { | |
1575 if (n > x) { | |
1576 if (n >= x + 10000) return NULL; | |
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1577 sprintf(buf, "%s+" JLONG_FORMAT, xname, n - x); |
0 | 1578 } else if (n < x) { |
1579 if (n <= x - 10000) return NULL; | |
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1580 sprintf(buf, "%s-" JLONG_FORMAT, xname, x - n); |
0 | 1581 } else { |
1582 return xname; | |
1583 } | |
1584 return buf; | |
1585 } | |
1586 | |
1587 static const char* longname(char* buf, jlong n) { | |
1588 const char* str; | |
1589 if (n == min_jlong) | |
1590 return "min"; | |
1591 else if (n < min_jlong + 10000) | |
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1592 sprintf(buf, "min+" JLONG_FORMAT, n - min_jlong); |
0 | 1593 else if (n == max_jlong) |
1594 return "max"; | |
1595 else if (n > max_jlong - 10000) | |
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1596 sprintf(buf, "max-" JLONG_FORMAT, max_jlong - n); |
0 | 1597 else if ((str = longnamenear(max_juint, "maxuint", buf, n)) != NULL) |
1598 return str; | |
1599 else if ((str = longnamenear(max_jint, "maxint", buf, n)) != NULL) | |
1600 return str; | |
1601 else if ((str = longnamenear(min_jint, "minint", buf, n)) != NULL) | |
1602 return str; | |
1603 else | |
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1604 sprintf(buf, JLONG_FORMAT, n); |
0 | 1605 return buf; |
1606 } | |
1607 | |
1608 void TypeLong::dump2( Dict &d, uint depth, outputStream *st ) const { | |
1609 char buf[80], buf2[80]; | |
1610 if (_lo == min_jlong && _hi == max_jlong) | |
1611 st->print("long"); | |
1612 else if (is_con()) | |
1613 st->print("long:%s", longname(buf, get_con())); | |
1614 else if (_hi == max_jlong) | |
1615 st->print("long:>=%s", longname(buf, _lo)); | |
1616 else if (_lo == min_jlong) | |
1617 st->print("long:<=%s", longname(buf, _hi)); | |
1618 else | |
1619 st->print("long:%s..%s", longname(buf, _lo), longname(buf2, _hi)); | |
1620 | |
1621 if (_widen != 0 && this != TypeLong::LONG) | |
1622 st->print(":%.*s", _widen, "wwww"); | |
1623 } | |
1624 #endif | |
1625 | |
1626 //------------------------------singleton-------------------------------------- | |
1627 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
1628 // constants | |
1629 bool TypeLong::singleton(void) const { | |
1630 return _lo >= _hi; | |
1631 } | |
1632 | |
1633 bool TypeLong::empty(void) const { | |
1634 return _lo > _hi; | |
1635 } | |
1636 | |
1637 //============================================================================= | |
1638 // Convenience common pre-built types. | |
1639 const TypeTuple *TypeTuple::IFBOTH; // Return both arms of IF as reachable | |
1640 const TypeTuple *TypeTuple::IFFALSE; | |
1641 const TypeTuple *TypeTuple::IFTRUE; | |
1642 const TypeTuple *TypeTuple::IFNEITHER; | |
1643 const TypeTuple *TypeTuple::LOOPBODY; | |
1644 const TypeTuple *TypeTuple::MEMBAR; | |
1645 const TypeTuple *TypeTuple::STORECONDITIONAL; | |
1646 const TypeTuple *TypeTuple::START_I2C; | |
1647 const TypeTuple *TypeTuple::INT_PAIR; | |
1648 const TypeTuple *TypeTuple::LONG_PAIR; | |
1649 | |
1650 | |
1651 //------------------------------make------------------------------------------- | |
1652 // Make a TypeTuple from the range of a method signature | |
1653 const TypeTuple *TypeTuple::make_range(ciSignature* sig) { | |
1654 ciType* return_type = sig->return_type(); | |
1655 uint total_fields = TypeFunc::Parms + return_type->size(); | |
1656 const Type **field_array = fields(total_fields); | |
1657 switch (return_type->basic_type()) { | |
1658 case T_LONG: | |
1659 field_array[TypeFunc::Parms] = TypeLong::LONG; | |
1660 field_array[TypeFunc::Parms+1] = Type::HALF; | |
1661 break; | |
1662 case T_DOUBLE: | |
1663 field_array[TypeFunc::Parms] = Type::DOUBLE; | |
1664 field_array[TypeFunc::Parms+1] = Type::HALF; | |
1665 break; | |
1666 case T_OBJECT: | |
1667 case T_ARRAY: | |
1668 case T_BOOLEAN: | |
1669 case T_CHAR: | |
1670 case T_FLOAT: | |
1671 case T_BYTE: | |
1672 case T_SHORT: | |
1673 case T_INT: | |
1674 field_array[TypeFunc::Parms] = get_const_type(return_type); | |
1675 break; | |
1676 case T_VOID: | |
1677 break; | |
1678 default: | |
1679 ShouldNotReachHere(); | |
1680 } | |
1681 return (TypeTuple*)(new TypeTuple(total_fields,field_array))->hashcons(); | |
1682 } | |
1683 | |
1684 // Make a TypeTuple from the domain of a method signature | |
1685 const TypeTuple *TypeTuple::make_domain(ciInstanceKlass* recv, ciSignature* sig) { | |
1686 uint total_fields = TypeFunc::Parms + sig->size(); | |
1687 | |
1688 uint pos = TypeFunc::Parms; | |
1689 const Type **field_array; | |
1690 if (recv != NULL) { | |
1691 total_fields++; | |
1692 field_array = fields(total_fields); | |
1693 // Use get_const_type here because it respects UseUniqueSubclasses: | |
1694 field_array[pos++] = get_const_type(recv)->join(TypePtr::NOTNULL); | |
1695 } else { | |
1696 field_array = fields(total_fields); | |
1697 } | |
1698 | |
1699 int i = 0; | |
1700 while (pos < total_fields) { | |
1701 ciType* type = sig->type_at(i); | |
1702 | |
1703 switch (type->basic_type()) { | |
1704 case T_LONG: | |
1705 field_array[pos++] = TypeLong::LONG; | |
1706 field_array[pos++] = Type::HALF; | |
1707 break; | |
1708 case T_DOUBLE: | |
1709 field_array[pos++] = Type::DOUBLE; | |
1710 field_array[pos++] = Type::HALF; | |
1711 break; | |
1712 case T_OBJECT: | |
1713 case T_ARRAY: | |
1714 case T_BOOLEAN: | |
1715 case T_CHAR: | |
1716 case T_FLOAT: | |
1717 case T_BYTE: | |
1718 case T_SHORT: | |
1719 case T_INT: | |
1720 field_array[pos++] = get_const_type(type); | |
1721 break; | |
1722 default: | |
1723 ShouldNotReachHere(); | |
1724 } | |
1725 i++; | |
1726 } | |
1727 return (TypeTuple*)(new TypeTuple(total_fields,field_array))->hashcons(); | |
1728 } | |
1729 | |
1730 const TypeTuple *TypeTuple::make( uint cnt, const Type **fields ) { | |
1731 return (TypeTuple*)(new TypeTuple(cnt,fields))->hashcons(); | |
1732 } | |
1733 | |
1734 //------------------------------fields----------------------------------------- | |
1735 // Subroutine call type with space allocated for argument types | |
1736 const Type **TypeTuple::fields( uint arg_cnt ) { | |
1737 const Type **flds = (const Type **)(Compile::current()->type_arena()->Amalloc_4((TypeFunc::Parms+arg_cnt)*sizeof(Type*) )); | |
1738 flds[TypeFunc::Control ] = Type::CONTROL; | |
1739 flds[TypeFunc::I_O ] = Type::ABIO; | |
1740 flds[TypeFunc::Memory ] = Type::MEMORY; | |
1741 flds[TypeFunc::FramePtr ] = TypeRawPtr::BOTTOM; | |
1742 flds[TypeFunc::ReturnAdr] = Type::RETURN_ADDRESS; | |
1743 | |
1744 return flds; | |
1745 } | |
1746 | |
1747 //------------------------------meet------------------------------------------- | |
1748 // Compute the MEET of two types. It returns a new Type object. | |
1749 const Type *TypeTuple::xmeet( const Type *t ) const { | |
1750 // Perform a fast test for common case; meeting the same types together. | |
1751 if( this == t ) return this; // Meeting same type-rep? | |
1752 | |
1753 // Current "this->_base" is Tuple | |
1754 switch (t->base()) { // switch on original type | |
1755 | |
1756 case Bottom: // Ye Olde Default | |
1757 return t; | |
1758 | |
1759 default: // All else is a mistake | |
1760 typerr(t); | |
1761 | |
1762 case Tuple: { // Meeting 2 signatures? | |
1763 const TypeTuple *x = t->is_tuple(); | |
1764 assert( _cnt == x->_cnt, "" ); | |
1765 const Type **fields = (const Type **)(Compile::current()->type_arena()->Amalloc_4( _cnt*sizeof(Type*) )); | |
1766 for( uint i=0; i<_cnt; i++ ) | |
1767 fields[i] = field_at(i)->xmeet( x->field_at(i) ); | |
1768 return TypeTuple::make(_cnt,fields); | |
1769 } | |
1770 case Top: | |
1771 break; | |
1772 } | |
1773 return this; // Return the double constant | |
1774 } | |
1775 | |
1776 //------------------------------xdual------------------------------------------ | |
1777 // Dual: compute field-by-field dual | |
1778 const Type *TypeTuple::xdual() const { | |
1779 const Type **fields = (const Type **)(Compile::current()->type_arena()->Amalloc_4( _cnt*sizeof(Type*) )); | |
1780 for( uint i=0; i<_cnt; i++ ) | |
1781 fields[i] = _fields[i]->dual(); | |
1782 return new TypeTuple(_cnt,fields); | |
1783 } | |
1784 | |
1785 //------------------------------eq--------------------------------------------- | |
1786 // Structural equality check for Type representations | |
1787 bool TypeTuple::eq( const Type *t ) const { | |
1788 const TypeTuple *s = (const TypeTuple *)t; | |
1789 if (_cnt != s->_cnt) return false; // Unequal field counts | |
1790 for (uint i = 0; i < _cnt; i++) | |
1791 if (field_at(i) != s->field_at(i)) // POINTER COMPARE! NO RECURSION! | |
1792 return false; // Missed | |
1793 return true; | |
1794 } | |
1795 | |
1796 //------------------------------hash------------------------------------------- | |
1797 // Type-specific hashing function. | |
1798 int TypeTuple::hash(void) const { | |
1799 intptr_t sum = _cnt; | |
1800 for( uint i=0; i<_cnt; i++ ) | |
1801 sum += (intptr_t)_fields[i]; // Hash on pointers directly | |
1802 return sum; | |
1803 } | |
1804 | |
1805 //------------------------------dump2------------------------------------------ | |
1806 // Dump signature Type | |
1807 #ifndef PRODUCT | |
1808 void TypeTuple::dump2( Dict &d, uint depth, outputStream *st ) const { | |
1809 st->print("{"); | |
1810 if( !depth || d[this] ) { // Check for recursive print | |
1811 st->print("...}"); | |
1812 return; | |
1813 } | |
1814 d.Insert((void*)this, (void*)this); // Stop recursion | |
1815 if( _cnt ) { | |
1816 uint i; | |
1817 for( i=0; i<_cnt-1; i++ ) { | |
1818 st->print("%d:", i); | |
1819 _fields[i]->dump2(d, depth-1, st); | |
1820 st->print(", "); | |
1821 } | |
1822 st->print("%d:", i); | |
1823 _fields[i]->dump2(d, depth-1, st); | |
1824 } | |
1825 st->print("}"); | |
1826 } | |
1827 #endif | |
1828 | |
1829 //------------------------------singleton-------------------------------------- | |
1830 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
1831 // constants (Ldi nodes). Singletons are integer, float or double constants | |
1832 // or a single symbol. | |
1833 bool TypeTuple::singleton(void) const { | |
1834 return false; // Never a singleton | |
1835 } | |
1836 | |
1837 bool TypeTuple::empty(void) const { | |
1838 for( uint i=0; i<_cnt; i++ ) { | |
1839 if (_fields[i]->empty()) return true; | |
1840 } | |
1841 return false; | |
1842 } | |
1843 | |
1844 //============================================================================= | |
1845 // Convenience common pre-built types. | |
1846 | |
1847 inline const TypeInt* normalize_array_size(const TypeInt* size) { | |
1848 // Certain normalizations keep us sane when comparing types. | |
1849 // We do not want arrayOop variables to differ only by the wideness | |
1850 // of their index types. Pick minimum wideness, since that is the | |
1851 // forced wideness of small ranges anyway. | |
1852 if (size->_widen != Type::WidenMin) | |
1853 return TypeInt::make(size->_lo, size->_hi, Type::WidenMin); | |
1854 else | |
1855 return size; | |
1856 } | |
1857 | |
1858 //------------------------------make------------------------------------------- | |
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1859 const TypeAry* TypeAry::make(const Type* elem, const TypeInt* size, bool stable) { |
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1860 if (UseCompressedOops && elem->isa_oopptr()) { |
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1861 elem = elem->make_narrowoop(); |
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1862 } |
0 | 1863 size = normalize_array_size(size); |
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1864 return (TypeAry*)(new TypeAry(elem,size,stable))->hashcons(); |
0 | 1865 } |
1866 | |
1867 //------------------------------meet------------------------------------------- | |
1868 // Compute the MEET of two types. It returns a new Type object. | |
1869 const Type *TypeAry::xmeet( const Type *t ) const { | |
1870 // Perform a fast test for common case; meeting the same types together. | |
1871 if( this == t ) return this; // Meeting same type-rep? | |
1872 | |
1873 // Current "this->_base" is Ary | |
1874 switch (t->base()) { // switch on original type | |
1875 | |
1876 case Bottom: // Ye Olde Default | |
1877 return t; | |
1878 | |
1879 default: // All else is a mistake | |
1880 typerr(t); | |
1881 | |
1882 case Array: { // Meeting 2 arrays? | |
1883 const TypeAry *a = t->is_ary(); | |
1884 return TypeAry::make(_elem->meet(a->_elem), | |
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1885 _size->xmeet(a->_size)->is_int(), |
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1886 _stable & a->_stable); |
0 | 1887 } |
1888 case Top: | |
1889 break; | |
1890 } | |
1891 return this; // Return the double constant | |
1892 } | |
1893 | |
1894 //------------------------------xdual------------------------------------------ | |
1895 // Dual: compute field-by-field dual | |
1896 const Type *TypeAry::xdual() const { | |
1897 const TypeInt* size_dual = _size->dual()->is_int(); | |
1898 size_dual = normalize_array_size(size_dual); | |
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1899 return new TypeAry(_elem->dual(), size_dual, !_stable); |
0 | 1900 } |
1901 | |
1902 //------------------------------eq--------------------------------------------- | |
1903 // Structural equality check for Type representations | |
1904 bool TypeAry::eq( const Type *t ) const { | |
1905 const TypeAry *a = (const TypeAry*)t; | |
1906 return _elem == a->_elem && | |
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1907 _stable == a->_stable && |
0 | 1908 _size == a->_size; |
1909 } | |
1910 | |
1911 //------------------------------hash------------------------------------------- | |
1912 // Type-specific hashing function. | |
1913 int TypeAry::hash(void) const { | |
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1914 return (intptr_t)_elem + (intptr_t)_size + (_stable ? 43 : 0); |
0 | 1915 } |
1916 | |
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1917 //----------------------interface_vs_oop--------------------------------------- |
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1918 #ifdef ASSERT |
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1919 bool TypeAry::interface_vs_oop(const Type *t) const { |
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1920 const TypeAry* t_ary = t->is_ary(); |
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1921 if (t_ary) { |
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1922 return _elem->interface_vs_oop(t_ary->_elem); |
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1923 } |
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1924 return false; |
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1925 } |
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1926 #endif |
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1927 |
0 | 1928 //------------------------------dump2------------------------------------------ |
1929 #ifndef PRODUCT | |
1930 void TypeAry::dump2( Dict &d, uint depth, outputStream *st ) const { | |
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1931 if (_stable) st->print("stable:"); |
0 | 1932 _elem->dump2(d, depth, st); |
1933 st->print("["); | |
1934 _size->dump2(d, depth, st); | |
1935 st->print("]"); | |
1936 } | |
1937 #endif | |
1938 | |
1939 //------------------------------singleton-------------------------------------- | |
1940 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
1941 // constants (Ldi nodes). Singletons are integer, float or double constants | |
1942 // or a single symbol. | |
1943 bool TypeAry::singleton(void) const { | |
1944 return false; // Never a singleton | |
1945 } | |
1946 | |
1947 bool TypeAry::empty(void) const { | |
1948 return _elem->empty() || _size->empty(); | |
1949 } | |
1950 | |
1951 //--------------------------ary_must_be_exact---------------------------------- | |
1952 bool TypeAry::ary_must_be_exact() const { | |
1953 if (!UseExactTypes) return false; | |
1954 // This logic looks at the element type of an array, and returns true | |
1955 // if the element type is either a primitive or a final instance class. | |
1956 // In such cases, an array built on this ary must have no subclasses. | |
1957 if (_elem == BOTTOM) return false; // general array not exact | |
1958 if (_elem == TOP ) return false; // inverted general array not exact | |
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1959 const TypeOopPtr* toop = NULL; |
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1960 if (UseCompressedOops && _elem->isa_narrowoop()) { |
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1961 toop = _elem->make_ptr()->isa_oopptr(); |
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1962 } else { |
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1963 toop = _elem->isa_oopptr(); |
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1964 } |
0 | 1965 if (!toop) return true; // a primitive type, like int |
1966 ciKlass* tklass = toop->klass(); | |
1967 if (tklass == NULL) return false; // unloaded class | |
1968 if (!tklass->is_loaded()) return false; // unloaded class | |
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1969 const TypeInstPtr* tinst; |
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1970 if (_elem->isa_narrowoop()) |
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1971 tinst = _elem->make_ptr()->isa_instptr(); |
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1972 else |
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1973 tinst = _elem->isa_instptr(); |
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1974 if (tinst) |
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1975 return tklass->as_instance_klass()->is_final(); |
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1976 const TypeAryPtr* tap; |
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1977 if (_elem->isa_narrowoop()) |
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1978 tap = _elem->make_ptr()->isa_aryptr(); |
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1979 else |
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1980 tap = _elem->isa_aryptr(); |
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1981 if (tap) |
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1982 return tap->ary()->ary_must_be_exact(); |
0 | 1983 return false; |
1984 } | |
1985 | |
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1986 //==============================TypeVect======================================= |
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1987 // Convenience common pre-built types. |
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1988 const TypeVect *TypeVect::VECTS = NULL; // 32-bit vectors |
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1989 const TypeVect *TypeVect::VECTD = NULL; // 64-bit vectors |
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1990 const TypeVect *TypeVect::VECTX = NULL; // 128-bit vectors |
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1991 const TypeVect *TypeVect::VECTY = NULL; // 256-bit vectors |
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1992 |
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1993 //------------------------------make------------------------------------------- |
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1994 const TypeVect* TypeVect::make(const Type *elem, uint length) { |
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1995 BasicType elem_bt = elem->array_element_basic_type(); |
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1996 assert(is_java_primitive(elem_bt), "only primitive types in vector"); |
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1997 assert(length > 1 && is_power_of_2(length), "vector length is power of 2"); |
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1998 assert(Matcher::vector_size_supported(elem_bt, length), "length in range"); |
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1999 int size = length * type2aelembytes(elem_bt); |
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2000 switch (Matcher::vector_ideal_reg(size)) { |
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2001 case Op_VecS: |
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2002 return (TypeVect*)(new TypeVectS(elem, length))->hashcons(); |
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2003 case Op_VecD: |
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2004 case Op_RegD: |
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2005 return (TypeVect*)(new TypeVectD(elem, length))->hashcons(); |
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2006 case Op_VecX: |
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2007 return (TypeVect*)(new TypeVectX(elem, length))->hashcons(); |
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2008 case Op_VecY: |
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2009 return (TypeVect*)(new TypeVectY(elem, length))->hashcons(); |
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2010 } |
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2011 ShouldNotReachHere(); |
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2012 return NULL; |
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2013 } |
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2014 |
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2015 //------------------------------meet------------------------------------------- |
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2016 // Compute the MEET of two types. It returns a new Type object. |
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2017 const Type *TypeVect::xmeet( const Type *t ) const { |
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2018 // Perform a fast test for common case; meeting the same types together. |
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2019 if( this == t ) return this; // Meeting same type-rep? |
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2020 |
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2021 // Current "this->_base" is Vector |
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2022 switch (t->base()) { // switch on original type |
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2023 |
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2024 case Bottom: // Ye Olde Default |
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2025 return t; |
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2026 |
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2027 default: // All else is a mistake |
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2028 typerr(t); |
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2029 |
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2030 case VectorS: |
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2031 case VectorD: |
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2032 case VectorX: |
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2033 case VectorY: { // Meeting 2 vectors? |
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2034 const TypeVect* v = t->is_vect(); |
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2035 assert( base() == v->base(), ""); |
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2036 assert(length() == v->length(), ""); |
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2037 assert(element_basic_type() == v->element_basic_type(), ""); |
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2038 return TypeVect::make(_elem->xmeet(v->_elem), _length); |
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2039 } |
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2040 case Top: |
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2041 break; |
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2042 } |
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2043 return this; |
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2044 } |
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2045 |
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2046 //------------------------------xdual------------------------------------------ |
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2047 // Dual: compute field-by-field dual |
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2048 const Type *TypeVect::xdual() const { |
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2049 return new TypeVect(base(), _elem->dual(), _length); |
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2050 } |
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2051 |
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2052 //------------------------------eq--------------------------------------------- |
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2053 // Structural equality check for Type representations |
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2054 bool TypeVect::eq(const Type *t) const { |
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2055 const TypeVect *v = t->is_vect(); |
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2056 return (_elem == v->_elem) && (_length == v->_length); |
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2057 } |
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2058 |
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2059 //------------------------------hash------------------------------------------- |
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2060 // Type-specific hashing function. |
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2061 int TypeVect::hash(void) const { |
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2062 return (intptr_t)_elem + (intptr_t)_length; |
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2063 } |
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2064 |
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2065 //------------------------------singleton-------------------------------------- |
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2066 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple |
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2067 // constants (Ldi nodes). Vector is singleton if all elements are the same |
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2068 // constant value (when vector is created with Replicate code). |
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2069 bool TypeVect::singleton(void) const { |
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2070 // There is no Con node for vectors yet. |
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2071 // return _elem->singleton(); |
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2072 return false; |
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2073 } |
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2074 |
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2075 bool TypeVect::empty(void) const { |
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2076 return _elem->empty(); |
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2077 } |
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2078 |
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2079 //------------------------------dump2------------------------------------------ |
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2080 #ifndef PRODUCT |
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2081 void TypeVect::dump2(Dict &d, uint depth, outputStream *st) const { |
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2082 switch (base()) { |
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2083 case VectorS: |
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2084 st->print("vectors["); break; |
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2085 case VectorD: |
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2086 st->print("vectord["); break; |
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2087 case VectorX: |
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2088 st->print("vectorx["); break; |
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2089 case VectorY: |
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2090 st->print("vectory["); break; |
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2091 default: |
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2092 ShouldNotReachHere(); |
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2093 } |
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2094 st->print("%d]:{", _length); |
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2095 _elem->dump2(d, depth, st); |
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2096 st->print("}"); |
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2097 } |
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2098 #endif |
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2099 |
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2100 |
0 | 2101 //============================================================================= |
2102 // Convenience common pre-built types. | |
2103 const TypePtr *TypePtr::NULL_PTR; | |
2104 const TypePtr *TypePtr::NOTNULL; | |
2105 const TypePtr *TypePtr::BOTTOM; | |
2106 | |
2107 //------------------------------meet------------------------------------------- | |
2108 // Meet over the PTR enum | |
2109 const TypePtr::PTR TypePtr::ptr_meet[TypePtr::lastPTR][TypePtr::lastPTR] = { | |
2110 // TopPTR, AnyNull, Constant, Null, NotNull, BotPTR, | |
2111 { /* Top */ TopPTR, AnyNull, Constant, Null, NotNull, BotPTR,}, | |
2112 { /* AnyNull */ AnyNull, AnyNull, Constant, BotPTR, NotNull, BotPTR,}, | |
2113 { /* Constant*/ Constant, Constant, Constant, BotPTR, NotNull, BotPTR,}, | |
2114 { /* Null */ Null, BotPTR, BotPTR, Null, BotPTR, BotPTR,}, | |
2115 { /* NotNull */ NotNull, NotNull, NotNull, BotPTR, NotNull, BotPTR,}, | |
2116 { /* BotPTR */ BotPTR, BotPTR, BotPTR, BotPTR, BotPTR, BotPTR,} | |
2117 }; | |
2118 | |
2119 //------------------------------make------------------------------------------- | |
2120 const TypePtr *TypePtr::make( TYPES t, enum PTR ptr, int offset ) { | |
2121 return (TypePtr*)(new TypePtr(t,ptr,offset))->hashcons(); | |
2122 } | |
2123 | |
2124 //------------------------------cast_to_ptr_type------------------------------- | |
2125 const Type *TypePtr::cast_to_ptr_type(PTR ptr) const { | |
2126 assert(_base == AnyPtr, "subclass must override cast_to_ptr_type"); | |
2127 if( ptr == _ptr ) return this; | |
2128 return make(_base, ptr, _offset); | |
2129 } | |
2130 | |
2131 //------------------------------get_con---------------------------------------- | |
2132 intptr_t TypePtr::get_con() const { | |
2133 assert( _ptr == Null, "" ); | |
2134 return _offset; | |
2135 } | |
2136 | |
2137 //------------------------------meet------------------------------------------- | |
2138 // Compute the MEET of two types. It returns a new Type object. | |
2139 const Type *TypePtr::xmeet( const Type *t ) const { | |
2140 // Perform a fast test for common case; meeting the same types together. | |
2141 if( this == t ) return this; // Meeting same type-rep? | |
2142 | |
2143 // Current "this->_base" is AnyPtr | |
2144 switch (t->base()) { // switch on original type | |
2145 case Int: // Mixing ints & oops happens when javac | |
2146 case Long: // reuses local variables | |
2147 case FloatTop: | |
2148 case FloatCon: | |
2149 case FloatBot: | |
2150 case DoubleTop: | |
2151 case DoubleCon: | |
2152 case DoubleBot: | |
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2153 case NarrowOop: |
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2154 case NarrowKlass: |
0 | 2155 case Bottom: // Ye Olde Default |
2156 return Type::BOTTOM; | |
2157 case Top: | |
2158 return this; | |
2159 | |
2160 case AnyPtr: { // Meeting to AnyPtrs | |
2161 const TypePtr *tp = t->is_ptr(); | |
2162 return make( AnyPtr, meet_ptr(tp->ptr()), meet_offset(tp->offset()) ); | |
2163 } | |
2164 case RawPtr: // For these, flip the call around to cut down | |
2165 case OopPtr: | |
2166 case InstPtr: // on the cases I have to handle. | |
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2167 case AryPtr: |
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2168 case MetadataPtr: |
0 | 2169 case KlassPtr: |
2170 return t->xmeet(this); // Call in reverse direction | |
2171 default: // All else is a mistake | |
2172 typerr(t); | |
2173 | |
2174 } | |
2175 return this; | |
2176 } | |
2177 | |
2178 //------------------------------meet_offset------------------------------------ | |
2179 int TypePtr::meet_offset( int offset ) const { | |
2180 // Either is 'TOP' offset? Return the other offset! | |
2181 if( _offset == OffsetTop ) return offset; | |
2182 if( offset == OffsetTop ) return _offset; | |
2183 // If either is different, return 'BOTTOM' offset | |
2184 if( _offset != offset ) return OffsetBot; | |
2185 return _offset; | |
2186 } | |
2187 | |
2188 //------------------------------dual_offset------------------------------------ | |
2189 int TypePtr::dual_offset( ) const { | |
2190 if( _offset == OffsetTop ) return OffsetBot;// Map 'TOP' into 'BOTTOM' | |
2191 if( _offset == OffsetBot ) return OffsetTop;// Map 'BOTTOM' into 'TOP' | |
2192 return _offset; // Map everything else into self | |
2193 } | |
2194 | |
2195 //------------------------------xdual------------------------------------------ | |
2196 // Dual: compute field-by-field dual | |
2197 const TypePtr::PTR TypePtr::ptr_dual[TypePtr::lastPTR] = { | |
2198 BotPTR, NotNull, Constant, Null, AnyNull, TopPTR | |
2199 }; | |
2200 const Type *TypePtr::xdual() const { | |
2201 return new TypePtr( AnyPtr, dual_ptr(), dual_offset() ); | |
2202 } | |
2203 | |
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2204 //------------------------------xadd_offset------------------------------------ |
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2205 int TypePtr::xadd_offset( intptr_t offset ) const { |
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2206 // Adding to 'TOP' offset? Return 'TOP'! |
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2207 if( _offset == OffsetTop || offset == OffsetTop ) return OffsetTop; |
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2208 // Adding to 'BOTTOM' offset? Return 'BOTTOM'! |
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2209 if( _offset == OffsetBot || offset == OffsetBot ) return OffsetBot; |
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2210 // Addition overflows or "accidentally" equals to OffsetTop? Return 'BOTTOM'! |
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2211 offset += (intptr_t)_offset; |
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2212 if (offset != (int)offset || offset == OffsetTop) return OffsetBot; |
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2213 |
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2214 // assert( _offset >= 0 && _offset+offset >= 0, "" ); |
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2215 // It is possible to construct a negative offset during PhaseCCP |
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2216 |
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2217 return (int)offset; // Sum valid offsets |
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2218 } |
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2219 |
0 | 2220 //------------------------------add_offset------------------------------------- |
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2221 const TypePtr *TypePtr::add_offset( intptr_t offset ) const { |
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2222 return make( AnyPtr, _ptr, xadd_offset(offset) ); |
0 | 2223 } |
2224 | |
2225 //------------------------------eq--------------------------------------------- | |
2226 // Structural equality check for Type representations | |
2227 bool TypePtr::eq( const Type *t ) const { | |
2228 const TypePtr *a = (const TypePtr*)t; | |
2229 return _ptr == a->ptr() && _offset == a->offset(); | |
2230 } | |
2231 | |
2232 //------------------------------hash------------------------------------------- | |
2233 // Type-specific hashing function. | |
2234 int TypePtr::hash(void) const { | |
2235 return _ptr + _offset; | |
2236 } | |
2237 | |
2238 //------------------------------dump2------------------------------------------ | |
2239 const char *const TypePtr::ptr_msg[TypePtr::lastPTR] = { | |
2240 "TopPTR","AnyNull","Constant","NULL","NotNull","BotPTR" | |
2241 }; | |
2242 | |
2243 #ifndef PRODUCT | |
2244 void TypePtr::dump2( Dict &d, uint depth, outputStream *st ) const { | |
2245 if( _ptr == Null ) st->print("NULL"); | |
2246 else st->print("%s *", ptr_msg[_ptr]); | |
2247 if( _offset == OffsetTop ) st->print("+top"); | |
2248 else if( _offset == OffsetBot ) st->print("+bot"); | |
2249 else if( _offset ) st->print("+%d", _offset); | |
2250 } | |
2251 #endif | |
2252 | |
2253 //------------------------------singleton-------------------------------------- | |
2254 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
2255 // constants | |
2256 bool TypePtr::singleton(void) const { | |
2257 // TopPTR, Null, AnyNull, Constant are all singletons | |
2258 return (_offset != OffsetBot) && !below_centerline(_ptr); | |
2259 } | |
2260 | |
2261 bool TypePtr::empty(void) const { | |
2262 return (_offset == OffsetTop) || above_centerline(_ptr); | |
2263 } | |
2264 | |
2265 //============================================================================= | |
2266 // Convenience common pre-built types. | |
2267 const TypeRawPtr *TypeRawPtr::BOTTOM; | |
2268 const TypeRawPtr *TypeRawPtr::NOTNULL; | |
2269 | |
2270 //------------------------------make------------------------------------------- | |
2271 const TypeRawPtr *TypeRawPtr::make( enum PTR ptr ) { | |
2272 assert( ptr != Constant, "what is the constant?" ); | |
2273 assert( ptr != Null, "Use TypePtr for NULL" ); | |
2274 return (TypeRawPtr*)(new TypeRawPtr(ptr,0))->hashcons(); | |
2275 } | |
2276 | |
2277 const TypeRawPtr *TypeRawPtr::make( address bits ) { | |
2278 assert( bits, "Use TypePtr for NULL" ); | |
2279 return (TypeRawPtr*)(new TypeRawPtr(Constant,bits))->hashcons(); | |
2280 } | |
2281 | |
2282 //------------------------------cast_to_ptr_type------------------------------- | |
2283 const Type *TypeRawPtr::cast_to_ptr_type(PTR ptr) const { | |
2284 assert( ptr != Constant, "what is the constant?" ); | |
2285 assert( ptr != Null, "Use TypePtr for NULL" ); | |
2286 assert( _bits==0, "Why cast a constant address?"); | |
2287 if( ptr == _ptr ) return this; | |
2288 return make(ptr); | |
2289 } | |
2290 | |
2291 //------------------------------get_con---------------------------------------- | |
2292 intptr_t TypeRawPtr::get_con() const { | |
2293 assert( _ptr == Null || _ptr == Constant, "" ); | |
2294 return (intptr_t)_bits; | |
2295 } | |
2296 | |
2297 //------------------------------meet------------------------------------------- | |
2298 // Compute the MEET of two types. It returns a new Type object. | |
2299 const Type *TypeRawPtr::xmeet( const Type *t ) const { | |
2300 // Perform a fast test for common case; meeting the same types together. | |
2301 if( this == t ) return this; // Meeting same type-rep? | |
2302 | |
2303 // Current "this->_base" is RawPtr | |
2304 switch( t->base() ) { // switch on original type | |
2305 case Bottom: // Ye Olde Default | |
2306 return t; | |
2307 case Top: | |
2308 return this; | |
2309 case AnyPtr: // Meeting to AnyPtrs | |
2310 break; | |
2311 case RawPtr: { // might be top, bot, any/not or constant | |
2312 enum PTR tptr = t->is_ptr()->ptr(); | |
2313 enum PTR ptr = meet_ptr( tptr ); | |
2314 if( ptr == Constant ) { // Cannot be equal constants, so... | |
2315 if( tptr == Constant && _ptr != Constant) return t; | |
2316 if( _ptr == Constant && tptr != Constant) return this; | |
2317 ptr = NotNull; // Fall down in lattice | |
2318 } | |
2319 return make( ptr ); | |
2320 } | |
2321 | |
2322 case OopPtr: | |
2323 case InstPtr: | |
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2324 case AryPtr: |
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2325 case MetadataPtr: |
0 | 2326 case KlassPtr: |
2327 return TypePtr::BOTTOM; // Oop meet raw is not well defined | |
2328 default: // All else is a mistake | |
2329 typerr(t); | |
2330 } | |
2331 | |
2332 // Found an AnyPtr type vs self-RawPtr type | |
2333 const TypePtr *tp = t->is_ptr(); | |
2334 switch (tp->ptr()) { | |
2335 case TypePtr::TopPTR: return this; | |
2336 case TypePtr::BotPTR: return t; | |
2337 case TypePtr::Null: | |
2338 if( _ptr == TypePtr::TopPTR ) return t; | |
2339 return TypeRawPtr::BOTTOM; | |
2340 case TypePtr::NotNull: return TypePtr::make( AnyPtr, meet_ptr(TypePtr::NotNull), tp->meet_offset(0) ); | |
2341 case TypePtr::AnyNull: | |
2342 if( _ptr == TypePtr::Constant) return this; | |
2343 return make( meet_ptr(TypePtr::AnyNull) ); | |
2344 default: ShouldNotReachHere(); | |
2345 } | |
2346 return this; | |
2347 } | |
2348 | |
2349 //------------------------------xdual------------------------------------------ | |
2350 // Dual: compute field-by-field dual | |
2351 const Type *TypeRawPtr::xdual() const { | |
2352 return new TypeRawPtr( dual_ptr(), _bits ); | |
2353 } | |
2354 | |
2355 //------------------------------add_offset------------------------------------- | |
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2356 const TypePtr *TypeRawPtr::add_offset( intptr_t offset ) const { |
0 | 2357 if( offset == OffsetTop ) return BOTTOM; // Undefined offset-> undefined pointer |
2358 if( offset == OffsetBot ) return BOTTOM; // Unknown offset-> unknown pointer | |
2359 if( offset == 0 ) return this; // No change | |
2360 switch (_ptr) { | |
2361 case TypePtr::TopPTR: | |
2362 case TypePtr::BotPTR: | |
2363 case TypePtr::NotNull: | |
2364 return this; | |
2365 case TypePtr::Null: | |
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2366 case TypePtr::Constant: { |
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2367 address bits = _bits+offset; |
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2368 if ( bits == 0 ) return TypePtr::NULL_PTR; |
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2369 return make( bits ); |
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2370 } |
0 | 2371 default: ShouldNotReachHere(); |
2372 } | |
2373 return NULL; // Lint noise | |
2374 } | |
2375 | |
2376 //------------------------------eq--------------------------------------------- | |
2377 // Structural equality check for Type representations | |
2378 bool TypeRawPtr::eq( const Type *t ) const { | |
2379 const TypeRawPtr *a = (const TypeRawPtr*)t; | |
2380 return _bits == a->_bits && TypePtr::eq(t); | |
2381 } | |
2382 | |
2383 //------------------------------hash------------------------------------------- | |
2384 // Type-specific hashing function. | |
2385 int TypeRawPtr::hash(void) const { | |
2386 return (intptr_t)_bits + TypePtr::hash(); | |
2387 } | |
2388 | |
2389 //------------------------------dump2------------------------------------------ | |
2390 #ifndef PRODUCT | |
2391 void TypeRawPtr::dump2( Dict &d, uint depth, outputStream *st ) const { | |
2392 if( _ptr == Constant ) | |
2393 st->print(INTPTR_FORMAT, _bits); | |
2394 else | |
2395 st->print("rawptr:%s", ptr_msg[_ptr]); | |
2396 } | |
2397 #endif | |
2398 | |
2399 //============================================================================= | |
2400 // Convenience common pre-built type. | |
2401 const TypeOopPtr *TypeOopPtr::BOTTOM; | |
2402 | |
163 | 2403 //------------------------------TypeOopPtr------------------------------------- |
2404 TypeOopPtr::TypeOopPtr( TYPES t, PTR ptr, ciKlass* k, bool xk, ciObject* o, int offset, int instance_id ) | |
2405 : TypePtr(t, ptr, offset), | |
2406 _const_oop(o), _klass(k), | |
2407 _klass_is_exact(xk), | |
2408 _is_ptr_to_narrowoop(false), | |
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2409 _is_ptr_to_narrowklass(false), |
10278 | 2410 _is_ptr_to_boxed_value(false), |
163 | 2411 _instance_id(instance_id) { |
10278 | 2412 if (Compile::current()->eliminate_boxing() && (t == InstPtr) && |
2413 (offset > 0) && xk && (k != 0) && k->is_instance_klass()) { | |
2414 _is_ptr_to_boxed_value = k->as_instance_klass()->is_boxed_value_offset(offset); | |
2415 } | |
163 | 2416 #ifdef _LP64 |
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2417 if (_offset != 0) { |
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2418 if (_offset == oopDesc::klass_offset_in_bytes()) { |
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2419 _is_ptr_to_narrowklass = UseCompressedKlassPointers; |
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2420 } else if (klass() == NULL) { |
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2421 // Array with unknown body type |
163 | 2422 assert(this->isa_aryptr(), "only arrays without klass"); |
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2423 _is_ptr_to_narrowoop = UseCompressedOops; |
163 | 2424 } else if (this->isa_aryptr()) { |
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2425 _is_ptr_to_narrowoop = (UseCompressedOops && klass()->is_obj_array_klass() && |
163 | 2426 _offset != arrayOopDesc::length_offset_in_bytes()); |
2427 } else if (klass()->is_instance_klass()) { | |
2428 ciInstanceKlass* ik = klass()->as_instance_klass(); | |
2429 ciField* field = NULL; | |
2430 if (this->isa_klassptr()) { | |
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2431 // Perm objects don't use compressed references |
163 | 2432 } else if (_offset == OffsetBot || _offset == OffsetTop) { |
2433 // unsafe access | |
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2434 _is_ptr_to_narrowoop = UseCompressedOops; |
163 | 2435 } else { // exclude unsafe ops |
2436 assert(this->isa_instptr(), "must be an instance ptr."); | |
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2437 |
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2438 if (klass() == ciEnv::current()->Class_klass() && |
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2439 (_offset == java_lang_Class::klass_offset_in_bytes() || |
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2440 _offset == java_lang_Class::array_klass_offset_in_bytes())) { |
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2441 // Special hidden fields from the Class. |
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2442 assert(this->isa_instptr(), "must be an instance ptr."); |
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2443 _is_ptr_to_narrowoop = false; |
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2444 } else if (klass() == ciEnv::current()->Class_klass() && |
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2445 _offset >= InstanceMirrorKlass::offset_of_static_fields()) { |
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2446 // Static fields |
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2447 assert(o != NULL, "must be constant"); |
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2448 ciInstanceKlass* k = o->as_instance()->java_lang_Class_klass()->as_instance_klass(); |
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2449 ciField* field = k->get_field_by_offset(_offset, true); |
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2450 assert(field != NULL, "missing field"); |
163 | 2451 BasicType basic_elem_type = field->layout_type(); |
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2452 _is_ptr_to_narrowoop = UseCompressedOops && (basic_elem_type == T_OBJECT || |
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2453 basic_elem_type == T_ARRAY); |
163 | 2454 } else { |
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2455 // Instance fields which contains a compressed oop references. |
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2456 field = ik->get_field_by_offset(_offset, false); |
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2457 if (field != NULL) { |
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2458 BasicType basic_elem_type = field->layout_type(); |
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2459 _is_ptr_to_narrowoop = UseCompressedOops && (basic_elem_type == T_OBJECT || |
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2460 basic_elem_type == T_ARRAY); |
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2461 } else if (klass()->equals(ciEnv::current()->Object_klass())) { |
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2462 // Compile::find_alias_type() cast exactness on all types to verify |
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2463 // that it does not affect alias type. |
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2464 _is_ptr_to_narrowoop = UseCompressedOops; |
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2465 } else { |
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2466 // Type for the copy start in LibraryCallKit::inline_native_clone(). |
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2467 _is_ptr_to_narrowoop = UseCompressedOops; |
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2468 } |
163 | 2469 } |
2470 } | |
2471 } | |
2472 } | |
2473 #endif | |
2474 } | |
2475 | |
0 | 2476 //------------------------------make------------------------------------------- |
2477 const TypeOopPtr *TypeOopPtr::make(PTR ptr, | |
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2478 int offset, int instance_id) { |
0 | 2479 assert(ptr != Constant, "no constant generic pointers"); |
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2480 ciKlass* k = Compile::current()->env()->Object_klass(); |
0 | 2481 bool xk = false; |
2482 ciObject* o = NULL; | |
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2483 return (TypeOopPtr*)(new TypeOopPtr(OopPtr, ptr, k, xk, o, offset, instance_id))->hashcons(); |
0 | 2484 } |
2485 | |
2486 | |
2487 //------------------------------cast_to_ptr_type------------------------------- | |
2488 const Type *TypeOopPtr::cast_to_ptr_type(PTR ptr) const { | |
2489 assert(_base == OopPtr, "subclass must override cast_to_ptr_type"); | |
2490 if( ptr == _ptr ) return this; | |
992 | 2491 return make(ptr, _offset, _instance_id); |
0 | 2492 } |
2493 | |
247 | 2494 //-----------------------------cast_to_instance_id---------------------------- |
223 | 2495 const TypeOopPtr *TypeOopPtr::cast_to_instance_id(int instance_id) const { |
0 | 2496 // There are no instances of a general oop. |
2497 // Return self unchanged. | |
2498 return this; | |
2499 } | |
2500 | |
2501 //-----------------------------cast_to_exactness------------------------------- | |
2502 const Type *TypeOopPtr::cast_to_exactness(bool klass_is_exact) const { | |
2503 // There is no such thing as an exact general oop. | |
2504 // Return self unchanged. | |
2505 return this; | |
2506 } | |
2507 | |
2508 | |
2509 //------------------------------as_klass_type---------------------------------- | |
2510 // Return the klass type corresponding to this instance or array type. | |
2511 // It is the type that is loaded from an object of this type. | |
2512 const TypeKlassPtr* TypeOopPtr::as_klass_type() const { | |
2513 ciKlass* k = klass(); | |
2514 bool xk = klass_is_exact(); | |
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2515 if (k == NULL) |
0 | 2516 return TypeKlassPtr::OBJECT; |
2517 else | |
2518 return TypeKlassPtr::make(xk? Constant: NotNull, k, 0); | |
2519 } | |
2520 | |
2521 | |
2522 //------------------------------meet------------------------------------------- | |
2523 // Compute the MEET of two types. It returns a new Type object. | |
2524 const Type *TypeOopPtr::xmeet( const Type *t ) const { | |
2525 // Perform a fast test for common case; meeting the same types together. | |
2526 if( this == t ) return this; // Meeting same type-rep? | |
2527 | |
2528 // Current "this->_base" is OopPtr | |
2529 switch (t->base()) { // switch on original type | |
2530 | |
2531 case Int: // Mixing ints & oops happens when javac | |
2532 case Long: // reuses local variables | |
2533 case FloatTop: | |
2534 case FloatCon: | |
2535 case FloatBot: | |
2536 case DoubleTop: | |
2537 case DoubleCon: | |
2538 case DoubleBot: | |
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2539 case NarrowOop: |
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2540 case NarrowKlass: |
0 | 2541 case Bottom: // Ye Olde Default |
2542 return Type::BOTTOM; | |
2543 case Top: | |
2544 return this; | |
2545 | |
2546 default: // All else is a mistake | |
2547 typerr(t); | |
2548 | |
2549 case RawPtr: | |
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2550 case MetadataPtr: |
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2551 case KlassPtr: |
0 | 2552 return TypePtr::BOTTOM; // Oop meet raw is not well defined |
2553 | |
2554 case AnyPtr: { | |
2555 // Found an AnyPtr type vs self-OopPtr type | |
2556 const TypePtr *tp = t->is_ptr(); | |
2557 int offset = meet_offset(tp->offset()); | |
2558 PTR ptr = meet_ptr(tp->ptr()); | |
2559 switch (tp->ptr()) { | |
2560 case Null: | |
2561 if (ptr == Null) return TypePtr::make(AnyPtr, ptr, offset); | |
2562 // else fall through: | |
2563 case TopPTR: | |
992 | 2564 case AnyNull: { |
2565 int instance_id = meet_instance_id(InstanceTop); | |
2566 return make(ptr, offset, instance_id); | |
2567 } | |
0 | 2568 case BotPTR: |
2569 case NotNull: | |
2570 return TypePtr::make(AnyPtr, ptr, offset); | |
2571 default: typerr(t); | |
2572 } | |
2573 } | |
2574 | |
2575 case OopPtr: { // Meeting to other OopPtrs | |
2576 const TypeOopPtr *tp = t->is_oopptr(); | |
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2577 int instance_id = meet_instance_id(tp->instance_id()); |
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|
2578 return make( meet_ptr(tp->ptr()), meet_offset(tp->offset()), instance_id ); |
0 | 2579 } |
2580 | |
2581 case InstPtr: // For these, flip the call around to cut down | |
2582 case AryPtr: | |
2583 return t->xmeet(this); // Call in reverse direction | |
2584 | |
2585 } // End of switch | |
2586 return this; // Return the double constant | |
2587 } | |
2588 | |
2589 | |
2590 //------------------------------xdual------------------------------------------ | |
2591 // Dual of a pure heap pointer. No relevant klass or oop information. | |
2592 const Type *TypeOopPtr::xdual() const { | |
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2593 assert(klass() == Compile::current()->env()->Object_klass(), "no klasses here"); |
0 | 2594 assert(const_oop() == NULL, "no constants here"); |
223 | 2595 return new TypeOopPtr(_base, dual_ptr(), klass(), klass_is_exact(), const_oop(), dual_offset(), dual_instance_id() ); |
0 | 2596 } |
2597 | |
2598 //--------------------------make_from_klass_common----------------------------- | |
2599 // Computes the element-type given a klass. | |
2600 const TypeOopPtr* TypeOopPtr::make_from_klass_common(ciKlass *klass, bool klass_change, bool try_for_exact) { | |
2601 if (klass->is_instance_klass()) { | |
2602 Compile* C = Compile::current(); | |
2603 Dependencies* deps = C->dependencies(); | |
2604 assert((deps != NULL) == (C->method() != NULL && C->method()->code_size() > 0), "sanity"); | |
2605 // Element is an instance | |
2606 bool klass_is_exact = false; | |
2607 if (klass->is_loaded()) { | |
2608 // Try to set klass_is_exact. | |
2609 ciInstanceKlass* ik = klass->as_instance_klass(); | |
2610 klass_is_exact = ik->is_final(); | |
2611 if (!klass_is_exact && klass_change | |
2612 && deps != NULL && UseUniqueSubclasses) { | |
2613 ciInstanceKlass* sub = ik->unique_concrete_subklass(); | |
2614 if (sub != NULL) { | |
2615 deps->assert_abstract_with_unique_concrete_subtype(ik, sub); | |
2616 klass = ik = sub; | |
2617 klass_is_exact = sub->is_final(); | |
2618 } | |
2619 } | |
2620 if (!klass_is_exact && try_for_exact | |
2621 && deps != NULL && UseExactTypes) { | |
2622 if (!ik->is_interface() && !ik->has_subklass()) { | |
2623 // Add a dependence; if concrete subclass added we need to recompile | |
2624 deps->assert_leaf_type(ik); | |
2625 klass_is_exact = true; | |
2626 } | |
2627 } | |
2628 } | |
2629 return TypeInstPtr::make(TypePtr::BotPTR, klass, klass_is_exact, NULL, 0); | |
2630 } else if (klass->is_obj_array_klass()) { | |
2631 // Element is an object array. Recursively call ourself. | |
2632 const TypeOopPtr *etype = TypeOopPtr::make_from_klass_common(klass->as_obj_array_klass()->element_klass(), false, try_for_exact); | |
2633 bool xk = etype->klass_is_exact(); | |
2634 const TypeAry* arr0 = TypeAry::make(etype, TypeInt::POS); | |
2635 // We used to pass NotNull in here, asserting that the sub-arrays | |
2636 // are all not-null. This is not true in generally, as code can | |
2637 // slam NULLs down in the subarrays. | |
2638 const TypeAryPtr* arr = TypeAryPtr::make(TypePtr::BotPTR, arr0, klass, xk, 0); | |
2639 return arr; | |
2640 } else if (klass->is_type_array_klass()) { | |
2641 // Element is an typeArray | |
2642 const Type* etype = get_const_basic_type(klass->as_type_array_klass()->element_type()); | |
2643 const TypeAry* arr0 = TypeAry::make(etype, TypeInt::POS); | |
2644 // We used to pass NotNull in here, asserting that the array pointer | |
2645 // is not-null. That was not true in general. | |
2646 const TypeAryPtr* arr = TypeAryPtr::make(TypePtr::BotPTR, arr0, klass, true, 0); | |
2647 return arr; | |
2648 } else { | |
2649 ShouldNotReachHere(); | |
2650 return NULL; | |
2651 } | |
2652 } | |
2653 | |
2654 //------------------------------make_from_constant----------------------------- | |
2655 // Make a java pointer from an oop constant | |
10278 | 2656 const TypeOopPtr* TypeOopPtr::make_from_constant(ciObject* o, |
2657 bool require_constant, | |
2658 bool is_autobox_cache) { | |
2659 assert(!o->is_null_object(), "null object not yet handled here."); | |
2660 ciKlass* klass = o->klass(); | |
2661 if (klass->is_instance_klass()) { | |
2662 // Element is an instance | |
2663 if (require_constant) { | |
2664 if (!o->can_be_constant()) return NULL; | |
2665 } else if (!o->should_be_constant()) { | |
2666 return TypeInstPtr::make(TypePtr::NotNull, klass, true, NULL, 0); | |
2667 } | |
2668 return TypeInstPtr::make(o); | |
2669 } else if (klass->is_obj_array_klass()) { | |
2670 // Element is an object array. Recursively call ourself. | |
2671 const TypeOopPtr *etype = | |
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2672 TypeOopPtr::make_from_klass_raw(klass->as_obj_array_klass()->element_klass()); |
10278 | 2673 if (is_autobox_cache) { |
2674 // The pointers in the autobox arrays are always non-null. | |
2675 etype = etype->cast_to_ptr_type(TypePtr::NotNull)->is_oopptr(); | |
2676 } | |
2677 const TypeAry* arr0 = TypeAry::make(etype, TypeInt::make(o->as_array()->length())); | |
2678 // We used to pass NotNull in here, asserting that the sub-arrays | |
2679 // are all not-null. This is not true in generally, as code can | |
2680 // slam NULLs down in the subarrays. | |
2681 if (require_constant) { | |
2682 if (!o->can_be_constant()) return NULL; | |
2683 } else if (!o->should_be_constant()) { | |
2684 return TypeAryPtr::make(TypePtr::NotNull, arr0, klass, true, 0); | |
2685 } | |
2686 const TypeAryPtr* arr = TypeAryPtr::make(TypePtr::Constant, o, arr0, klass, true, 0, InstanceBot, is_autobox_cache); | |
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2687 return arr; |
10278 | 2688 } else if (klass->is_type_array_klass()) { |
2689 // Element is an typeArray | |
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2690 const Type* etype = |
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2691 (Type*)get_const_basic_type(klass->as_type_array_klass()->element_type()); |
10278 | 2692 const TypeAry* arr0 = TypeAry::make(etype, TypeInt::make(o->as_array()->length())); |
2693 // We used to pass NotNull in here, asserting that the array pointer | |
2694 // is not-null. That was not true in general. | |
2695 if (require_constant) { | |
2696 if (!o->can_be_constant()) return NULL; | |
2697 } else if (!o->should_be_constant()) { | |
2698 return TypeAryPtr::make(TypePtr::NotNull, arr0, klass, true, 0); | |
2699 } | |
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2700 const TypeAryPtr* arr = TypeAryPtr::make(TypePtr::Constant, o, arr0, klass, true, 0); |
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2701 return arr; |
0 | 2702 } |
2703 | |
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2704 fatal("unhandled object type"); |
0 | 2705 return NULL; |
2706 } | |
2707 | |
2708 //------------------------------get_con---------------------------------------- | |
2709 intptr_t TypeOopPtr::get_con() const { | |
2710 assert( _ptr == Null || _ptr == Constant, "" ); | |
2711 assert( _offset >= 0, "" ); | |
2712 | |
2713 if (_offset != 0) { | |
2714 // After being ported to the compiler interface, the compiler no longer | |
2715 // directly manipulates the addresses of oops. Rather, it only has a pointer | |
2716 // to a handle at compile time. This handle is embedded in the generated | |
2717 // code and dereferenced at the time the nmethod is made. Until that time, | |
2718 // it is not reasonable to do arithmetic with the addresses of oops (we don't | |
2719 // have access to the addresses!). This does not seem to currently happen, | |
605 | 2720 // but this assertion here is to help prevent its occurence. |
0 | 2721 tty->print_cr("Found oop constant with non-zero offset"); |
2722 ShouldNotReachHere(); | |
2723 } | |
2724 | |
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2725 return (intptr_t)const_oop()->constant_encoding(); |
0 | 2726 } |
2727 | |
2728 | |
2729 //-----------------------------filter------------------------------------------ | |
2730 // Do not allow interface-vs.-noninterface joins to collapse to top. | |
2731 const Type *TypeOopPtr::filter( const Type *kills ) const { | |
2732 | |
2733 const Type* ft = join(kills); | |
2734 const TypeInstPtr* ftip = ft->isa_instptr(); | |
2735 const TypeInstPtr* ktip = kills->isa_instptr(); | |
555 | 2736 const TypeKlassPtr* ftkp = ft->isa_klassptr(); |
2737 const TypeKlassPtr* ktkp = kills->isa_klassptr(); | |
0 | 2738 |
2739 if (ft->empty()) { | |
2740 // Check for evil case of 'this' being a class and 'kills' expecting an | |
2741 // interface. This can happen because the bytecodes do not contain | |
2742 // enough type info to distinguish a Java-level interface variable | |
2743 // from a Java-level object variable. If we meet 2 classes which | |
2744 // both implement interface I, but their meet is at 'j/l/O' which | |
2745 // doesn't implement I, we have no way to tell if the result should | |
2746 // be 'I' or 'j/l/O'. Thus we'll pick 'j/l/O'. If this then flows | |
2747 // into a Phi which "knows" it's an Interface type we'll have to | |
2748 // uplift the type. | |
2749 if (!empty() && ktip != NULL && ktip->is_loaded() && ktip->klass()->is_interface()) | |
2750 return kills; // Uplift to interface | |
555 | 2751 if (!empty() && ktkp != NULL && ktkp->klass()->is_loaded() && ktkp->klass()->is_interface()) |
2752 return kills; // Uplift to interface | |
0 | 2753 |
2754 return Type::TOP; // Canonical empty value | |
2755 } | |
2756 | |
2757 // If we have an interface-typed Phi or cast and we narrow to a class type, | |
2758 // the join should report back the class. However, if we have a J/L/Object | |
2759 // class-typed Phi and an interface flows in, it's possible that the meet & | |
2760 // join report an interface back out. This isn't possible but happens | |
2761 // because the type system doesn't interact well with interfaces. | |
2762 if (ftip != NULL && ktip != NULL && | |
2763 ftip->is_loaded() && ftip->klass()->is_interface() && | |
2764 ktip->is_loaded() && !ktip->klass()->is_interface()) { | |
2765 // Happens in a CTW of rt.jar, 320-341, no extra flags | |
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2766 assert(!ftip->klass_is_exact(), "interface could not be exact"); |
0 | 2767 return ktip->cast_to_ptr_type(ftip->ptr()); |
2768 } | |
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2769 // Interface klass type could be exact in opposite to interface type, |
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2770 // return it here instead of incorrect Constant ptr J/L/Object (6894807). |
555 | 2771 if (ftkp != NULL && ktkp != NULL && |
2772 ftkp->is_loaded() && ftkp->klass()->is_interface() && | |
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2773 !ftkp->klass_is_exact() && // Keep exact interface klass |
555 | 2774 ktkp->is_loaded() && !ktkp->klass()->is_interface()) { |
2775 return ktkp->cast_to_ptr_type(ftkp->ptr()); | |
2776 } | |
0 | 2777 |
2778 return ft; | |
2779 } | |
2780 | |
2781 //------------------------------eq--------------------------------------------- | |
2782 // Structural equality check for Type representations | |
2783 bool TypeOopPtr::eq( const Type *t ) const { | |
2784 const TypeOopPtr *a = (const TypeOopPtr*)t; | |
2785 if (_klass_is_exact != a->_klass_is_exact || | |
2786 _instance_id != a->_instance_id) return false; | |
2787 ciObject* one = const_oop(); | |
2788 ciObject* two = a->const_oop(); | |
2789 if (one == NULL || two == NULL) { | |
2790 return (one == two) && TypePtr::eq(t); | |
2791 } else { | |
2792 return one->equals(two) && TypePtr::eq(t); | |
2793 } | |
2794 } | |
2795 | |
2796 //------------------------------hash------------------------------------------- | |
2797 // Type-specific hashing function. | |
2798 int TypeOopPtr::hash(void) const { | |
2799 return | |
2800 (const_oop() ? const_oop()->hash() : 0) + | |
2801 _klass_is_exact + | |
2802 _instance_id + | |
2803 TypePtr::hash(); | |
2804 } | |
2805 | |
2806 //------------------------------dump2------------------------------------------ | |
2807 #ifndef PRODUCT | |
2808 void TypeOopPtr::dump2( Dict &d, uint depth, outputStream *st ) const { | |
2809 st->print("oopptr:%s", ptr_msg[_ptr]); | |
2810 if( _klass_is_exact ) st->print(":exact"); | |
2811 if( const_oop() ) st->print(INTPTR_FORMAT, const_oop()); | |
2812 switch( _offset ) { | |
2813 case OffsetTop: st->print("+top"); break; | |
2814 case OffsetBot: st->print("+any"); break; | |
2815 case 0: break; | |
2816 default: st->print("+%d",_offset); break; | |
2817 } | |
223 | 2818 if (_instance_id == InstanceTop) |
2819 st->print(",iid=top"); | |
2820 else if (_instance_id != InstanceBot) | |
0 | 2821 st->print(",iid=%d",_instance_id); |
2822 } | |
2823 #endif | |
2824 | |
2825 //------------------------------singleton-------------------------------------- | |
2826 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
2827 // constants | |
2828 bool TypeOopPtr::singleton(void) const { | |
2829 // detune optimizer to not generate constant oop + constant offset as a constant! | |
2830 // TopPTR, Null, AnyNull, Constant are all singletons | |
2831 return (_offset == 0) && !below_centerline(_ptr); | |
2832 } | |
2833 | |
2834 //------------------------------add_offset------------------------------------- | |
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2835 const TypePtr *TypeOopPtr::add_offset( intptr_t offset ) const { |
992 | 2836 return make( _ptr, xadd_offset(offset), _instance_id); |
0 | 2837 } |
2838 | |
223 | 2839 //------------------------------meet_instance_id-------------------------------- |
2840 int TypeOopPtr::meet_instance_id( int instance_id ) const { | |
2841 // Either is 'TOP' instance? Return the other instance! | |
2842 if( _instance_id == InstanceTop ) return instance_id; | |
2843 if( instance_id == InstanceTop ) return _instance_id; | |
2844 // If either is different, return 'BOTTOM' instance | |
2845 if( _instance_id != instance_id ) return InstanceBot; | |
2846 return _instance_id; | |
0 | 2847 } |
2848 | |
223 | 2849 //------------------------------dual_instance_id-------------------------------- |
2850 int TypeOopPtr::dual_instance_id( ) const { | |
2851 if( _instance_id == InstanceTop ) return InstanceBot; // Map TOP into BOTTOM | |
2852 if( _instance_id == InstanceBot ) return InstanceTop; // Map BOTTOM into TOP | |
2853 return _instance_id; // Map everything else into self | |
2854 } | |
2855 | |
2856 | |
0 | 2857 //============================================================================= |
2858 // Convenience common pre-built types. | |
2859 const TypeInstPtr *TypeInstPtr::NOTNULL; | |
2860 const TypeInstPtr *TypeInstPtr::BOTTOM; | |
2861 const TypeInstPtr *TypeInstPtr::MIRROR; | |
2862 const TypeInstPtr *TypeInstPtr::MARK; | |
2863 const TypeInstPtr *TypeInstPtr::KLASS; | |
2864 | |
2865 //------------------------------TypeInstPtr------------------------------------- | |
2866 TypeInstPtr::TypeInstPtr(PTR ptr, ciKlass* k, bool xk, ciObject* o, int off, int instance_id) | |
2867 : TypeOopPtr(InstPtr, ptr, k, xk, o, off, instance_id), _name(k->name()) { | |
2868 assert(k != NULL && | |
2869 (k->is_loaded() || o == NULL), | |
2870 "cannot have constants with non-loaded klass"); | |
2871 }; | |
2872 | |
2873 //------------------------------make------------------------------------------- | |
2874 const TypeInstPtr *TypeInstPtr::make(PTR ptr, | |
2875 ciKlass* k, | |
2876 bool xk, | |
2877 ciObject* o, | |
2878 int offset, | |
2879 int instance_id) { | |
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2880 assert( !k->is_loaded() || k->is_instance_klass(), "Must be for instance"); |
0 | 2881 // Either const_oop() is NULL or else ptr is Constant |
2882 assert( (!o && ptr != Constant) || (o && ptr == Constant), | |
2883 "constant pointers must have a value supplied" ); | |
2884 // Ptr is never Null | |
2885 assert( ptr != Null, "NULL pointers are not typed" ); | |
2886 | |
247 | 2887 assert(instance_id <= 0 || xk || !UseExactTypes, "instances are always exactly typed"); |
0 | 2888 if (!UseExactTypes) xk = false; |
2889 if (ptr == Constant) { | |
2890 // Note: This case includes meta-object constants, such as methods. | |
2891 xk = true; | |
2892 } else if (k->is_loaded()) { | |
2893 ciInstanceKlass* ik = k->as_instance_klass(); | |
2894 if (!xk && ik->is_final()) xk = true; // no inexact final klass | |
2895 if (xk && ik->is_interface()) xk = false; // no exact interface | |
2896 } | |
2897 | |
2898 // Now hash this baby | |
2899 TypeInstPtr *result = | |
2900 (TypeInstPtr*)(new TypeInstPtr(ptr, k, xk, o ,offset, instance_id))->hashcons(); | |
2901 | |
2902 return result; | |
2903 } | |
2904 | |
10278 | 2905 /** |
2906 * Create constant type for a constant boxed value | |
2907 */ | |
2908 const Type* TypeInstPtr::get_const_boxed_value() const { | |
2909 assert(is_ptr_to_boxed_value(), "should be called only for boxed value"); | |
2910 assert((const_oop() != NULL), "should be called only for constant object"); | |
2911 ciConstant constant = const_oop()->as_instance()->field_value_by_offset(offset()); | |
2912 BasicType bt = constant.basic_type(); | |
2913 switch (bt) { | |
2914 case T_BOOLEAN: return TypeInt::make(constant.as_boolean()); | |
2915 case T_INT: return TypeInt::make(constant.as_int()); | |
2916 case T_CHAR: return TypeInt::make(constant.as_char()); | |
2917 case T_BYTE: return TypeInt::make(constant.as_byte()); | |
2918 case T_SHORT: return TypeInt::make(constant.as_short()); | |
2919 case T_FLOAT: return TypeF::make(constant.as_float()); | |
2920 case T_DOUBLE: return TypeD::make(constant.as_double()); | |
2921 case T_LONG: return TypeLong::make(constant.as_long()); | |
2922 default: break; | |
2923 } | |
2924 fatal(err_msg_res("Invalid boxed value type '%s'", type2name(bt))); | |
2925 return NULL; | |
2926 } | |
0 | 2927 |
2928 //------------------------------cast_to_ptr_type------------------------------- | |
2929 const Type *TypeInstPtr::cast_to_ptr_type(PTR ptr) const { | |
2930 if( ptr == _ptr ) return this; | |
2931 // Reconstruct _sig info here since not a problem with later lazy | |
2932 // construction, _sig will show up on demand. | |
223 | 2933 return make(ptr, klass(), klass_is_exact(), const_oop(), _offset, _instance_id); |
0 | 2934 } |
2935 | |
2936 | |
2937 //-----------------------------cast_to_exactness------------------------------- | |
2938 const Type *TypeInstPtr::cast_to_exactness(bool klass_is_exact) const { | |
2939 if( klass_is_exact == _klass_is_exact ) return this; | |
2940 if (!UseExactTypes) return this; | |
2941 if (!_klass->is_loaded()) return this; | |
2942 ciInstanceKlass* ik = _klass->as_instance_klass(); | |
2943 if( (ik->is_final() || _const_oop) ) return this; // cannot clear xk | |
2944 if( ik->is_interface() ) return this; // cannot set xk | |
2945 return make(ptr(), klass(), klass_is_exact, const_oop(), _offset, _instance_id); | |
2946 } | |
2947 | |
247 | 2948 //-----------------------------cast_to_instance_id---------------------------- |
223 | 2949 const TypeOopPtr *TypeInstPtr::cast_to_instance_id(int instance_id) const { |
2950 if( instance_id == _instance_id ) return this; | |
247 | 2951 return make(_ptr, klass(), _klass_is_exact, const_oop(), _offset, instance_id); |
0 | 2952 } |
2953 | |
2954 //------------------------------xmeet_unloaded--------------------------------- | |
2955 // Compute the MEET of two InstPtrs when at least one is unloaded. | |
2956 // Assume classes are different since called after check for same name/class-loader | |
2957 const TypeInstPtr *TypeInstPtr::xmeet_unloaded(const TypeInstPtr *tinst) const { | |
2958 int off = meet_offset(tinst->offset()); | |
2959 PTR ptr = meet_ptr(tinst->ptr()); | |
992 | 2960 int instance_id = meet_instance_id(tinst->instance_id()); |
0 | 2961 |
2962 const TypeInstPtr *loaded = is_loaded() ? this : tinst; | |
2963 const TypeInstPtr *unloaded = is_loaded() ? tinst : this; | |
2964 if( loaded->klass()->equals(ciEnv::current()->Object_klass()) ) { | |
2965 // | |
2966 // Meet unloaded class with java/lang/Object | |
2967 // | |
2968 // Meet | |
2969 // | Unloaded Class | |
2970 // Object | TOP | AnyNull | Constant | NotNull | BOTTOM | | |
2971 // =================================================================== | |
2972 // TOP | ..........................Unloaded......................| | |
2973 // AnyNull | U-AN |................Unloaded......................| | |
2974 // Constant | ... O-NN .................................. | O-BOT | | |
2975 // NotNull | ... O-NN .................................. | O-BOT | | |
2976 // BOTTOM | ........................Object-BOTTOM ..................| | |
2977 // | |
2978 assert(loaded->ptr() != TypePtr::Null, "insanity check"); | |
2979 // | |
2980 if( loaded->ptr() == TypePtr::TopPTR ) { return unloaded; } | |
992 | 2981 else if (loaded->ptr() == TypePtr::AnyNull) { return TypeInstPtr::make( ptr, unloaded->klass(), false, NULL, off, instance_id ); } |
0 | 2982 else if (loaded->ptr() == TypePtr::BotPTR ) { return TypeInstPtr::BOTTOM; } |
2983 else if (loaded->ptr() == TypePtr::Constant || loaded->ptr() == TypePtr::NotNull) { | |
2984 if (unloaded->ptr() == TypePtr::BotPTR ) { return TypeInstPtr::BOTTOM; } | |
2985 else { return TypeInstPtr::NOTNULL; } | |
2986 } | |
2987 else if( unloaded->ptr() == TypePtr::TopPTR ) { return unloaded; } | |
2988 | |
2989 return unloaded->cast_to_ptr_type(TypePtr::AnyNull)->is_instptr(); | |
2990 } | |
2991 | |
2992 // Both are unloaded, not the same class, not Object | |
2993 // Or meet unloaded with a different loaded class, not java/lang/Object | |
2994 if( ptr != TypePtr::BotPTR ) { | |
2995 return TypeInstPtr::NOTNULL; | |
2996 } | |
2997 return TypeInstPtr::BOTTOM; | |
2998 } | |
2999 | |
3000 | |
3001 //------------------------------meet------------------------------------------- | |
3002 // Compute the MEET of two types. It returns a new Type object. | |
3003 const Type *TypeInstPtr::xmeet( const Type *t ) const { | |
3004 // Perform a fast test for common case; meeting the same types together. | |
3005 if( this == t ) return this; // Meeting same type-rep? | |
3006 | |
3007 // Current "this->_base" is Pointer | |
3008 switch (t->base()) { // switch on original type | |
3009 | |
3010 case Int: // Mixing ints & oops happens when javac | |
3011 case Long: // reuses local variables | |
3012 case FloatTop: | |
3013 case FloatCon: | |
3014 case FloatBot: | |
3015 case DoubleTop: | |
3016 case DoubleCon: | |
3017 case DoubleBot: | |
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3018 case NarrowOop: |
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3019 case NarrowKlass: |
0 | 3020 case Bottom: // Ye Olde Default |
3021 return Type::BOTTOM; | |
3022 case Top: | |
3023 return this; | |
3024 | |
3025 default: // All else is a mistake | |
3026 typerr(t); | |
3027 | |
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3028 case MetadataPtr: |
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3029 case KlassPtr: |
0 | 3030 case RawPtr: return TypePtr::BOTTOM; |
3031 | |
3032 case AryPtr: { // All arrays inherit from Object class | |
3033 const TypeAryPtr *tp = t->is_aryptr(); | |
3034 int offset = meet_offset(tp->offset()); | |
3035 PTR ptr = meet_ptr(tp->ptr()); | |
223 | 3036 int instance_id = meet_instance_id(tp->instance_id()); |
0 | 3037 switch (ptr) { |
3038 case TopPTR: | |
3039 case AnyNull: // Fall 'down' to dual of object klass | |
3040 if (klass()->equals(ciEnv::current()->Object_klass())) { | |
223 | 3041 return TypeAryPtr::make(ptr, tp->ary(), tp->klass(), tp->klass_is_exact(), offset, instance_id); |
0 | 3042 } else { |
3043 // cannot subclass, so the meet has to fall badly below the centerline | |
3044 ptr = NotNull; | |
223 | 3045 instance_id = InstanceBot; |
3046 return TypeInstPtr::make( ptr, ciEnv::current()->Object_klass(), false, NULL, offset, instance_id); | |
0 | 3047 } |
3048 case Constant: | |
3049 case NotNull: | |
3050 case BotPTR: // Fall down to object klass | |
3051 // LCA is object_klass, but if we subclass from the top we can do better | |
3052 if( above_centerline(_ptr) ) { // if( _ptr == TopPTR || _ptr == AnyNull ) | |
3053 // If 'this' (InstPtr) is above the centerline and it is Object class | |
605 | 3054 // then we can subclass in the Java class hierarchy. |
0 | 3055 if (klass()->equals(ciEnv::current()->Object_klass())) { |
3056 // that is, tp's array type is a subtype of my klass | |
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3057 return TypeAryPtr::make(ptr, (ptr == Constant ? tp->const_oop() : NULL), |
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3058 tp->ary(), tp->klass(), tp->klass_is_exact(), offset, instance_id); |
0 | 3059 } |
3060 } | |
3061 // The other case cannot happen, since I cannot be a subtype of an array. | |
3062 // The meet falls down to Object class below centerline. | |
3063 if( ptr == Constant ) | |
3064 ptr = NotNull; | |
223 | 3065 instance_id = InstanceBot; |
3066 return make( ptr, ciEnv::current()->Object_klass(), false, NULL, offset, instance_id ); | |
0 | 3067 default: typerr(t); |
3068 } | |
3069 } | |
3070 | |
3071 case OopPtr: { // Meeting to OopPtrs | |
3072 // Found a OopPtr type vs self-InstPtr type | |
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3073 const TypeOopPtr *tp = t->is_oopptr(); |
0 | 3074 int offset = meet_offset(tp->offset()); |
3075 PTR ptr = meet_ptr(tp->ptr()); | |
3076 switch (tp->ptr()) { | |
3077 case TopPTR: | |
223 | 3078 case AnyNull: { |
3079 int instance_id = meet_instance_id(InstanceTop); | |
0 | 3080 return make(ptr, klass(), klass_is_exact(), |
223 | 3081 (ptr == Constant ? const_oop() : NULL), offset, instance_id); |
3082 } | |
0 | 3083 case NotNull: |
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3084 case BotPTR: { |
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3085 int instance_id = meet_instance_id(tp->instance_id()); |
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3086 return TypeOopPtr::make(ptr, offset, instance_id); |
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3087 } |
0 | 3088 default: typerr(t); |
3089 } | |
3090 } | |
3091 | |
3092 case AnyPtr: { // Meeting to AnyPtrs | |
3093 // Found an AnyPtr type vs self-InstPtr type | |
3094 const TypePtr *tp = t->is_ptr(); | |
3095 int offset = meet_offset(tp->offset()); | |
3096 PTR ptr = meet_ptr(tp->ptr()); | |
3097 switch (tp->ptr()) { | |
3098 case Null: | |
3099 if( ptr == Null ) return TypePtr::make( AnyPtr, ptr, offset ); | |
223 | 3100 // else fall through to AnyNull |
0 | 3101 case TopPTR: |
223 | 3102 case AnyNull: { |
3103 int instance_id = meet_instance_id(InstanceTop); | |
0 | 3104 return make( ptr, klass(), klass_is_exact(), |
223 | 3105 (ptr == Constant ? const_oop() : NULL), offset, instance_id); |
3106 } | |
0 | 3107 case NotNull: |
3108 case BotPTR: | |
3109 return TypePtr::make( AnyPtr, ptr, offset ); | |
3110 default: typerr(t); | |
3111 } | |
3112 } | |
3113 | |
3114 /* | |
3115 A-top } | |
3116 / | \ } Tops | |
3117 B-top A-any C-top } | |
3118 | / | \ | } Any-nulls | |
3119 B-any | C-any } | |
3120 | | | | |
3121 B-con A-con C-con } constants; not comparable across classes | |
3122 | | | | |
3123 B-not | C-not } | |
3124 | \ | / | } not-nulls | |
3125 B-bot A-not C-bot } | |
3126 \ | / } Bottoms | |
3127 A-bot } | |
3128 */ | |
3129 | |
3130 case InstPtr: { // Meeting 2 Oops? | |
3131 // Found an InstPtr sub-type vs self-InstPtr type | |
3132 const TypeInstPtr *tinst = t->is_instptr(); | |
3133 int off = meet_offset( tinst->offset() ); | |
3134 PTR ptr = meet_ptr( tinst->ptr() ); | |
223 | 3135 int instance_id = meet_instance_id(tinst->instance_id()); |
0 | 3136 |
3137 // Check for easy case; klasses are equal (and perhaps not loaded!) | |
3138 // If we have constants, then we created oops so classes are loaded | |
3139 // and we can handle the constants further down. This case handles | |
3140 // both-not-loaded or both-loaded classes | |
3141 if (ptr != Constant && klass()->equals(tinst->klass()) && klass_is_exact() == tinst->klass_is_exact()) { | |
3142 return make( ptr, klass(), klass_is_exact(), NULL, off, instance_id ); | |
3143 } | |
3144 | |
3145 // Classes require inspection in the Java klass hierarchy. Must be loaded. | |
3146 ciKlass* tinst_klass = tinst->klass(); | |
3147 ciKlass* this_klass = this->klass(); | |
3148 bool tinst_xk = tinst->klass_is_exact(); | |
3149 bool this_xk = this->klass_is_exact(); | |
3150 if (!tinst_klass->is_loaded() || !this_klass->is_loaded() ) { | |
3151 // One of these classes has not been loaded | |
3152 const TypeInstPtr *unloaded_meet = xmeet_unloaded(tinst); | |
3153 #ifndef PRODUCT | |
3154 if( PrintOpto && Verbose ) { | |
3155 tty->print("meet of unloaded classes resulted in: "); unloaded_meet->dump(); tty->cr(); | |
3156 tty->print(" this == "); this->dump(); tty->cr(); | |
3157 tty->print(" tinst == "); tinst->dump(); tty->cr(); | |
3158 } | |
3159 #endif | |
3160 return unloaded_meet; | |
3161 } | |
3162 | |
3163 // Handle mixing oops and interfaces first. | |
3164 if( this_klass->is_interface() && !tinst_klass->is_interface() ) { | |
3165 ciKlass *tmp = tinst_klass; // Swap interface around | |
3166 tinst_klass = this_klass; | |
3167 this_klass = tmp; | |
3168 bool tmp2 = tinst_xk; | |
3169 tinst_xk = this_xk; | |
3170 this_xk = tmp2; | |
3171 } | |
3172 if (tinst_klass->is_interface() && | |
3173 !(this_klass->is_interface() || | |
3174 // Treat java/lang/Object as an honorary interface, | |
3175 // because we need a bottom for the interface hierarchy. | |
3176 this_klass == ciEnv::current()->Object_klass())) { | |
3177 // Oop meets interface! | |
3178 | |
3179 // See if the oop subtypes (implements) interface. | |
3180 ciKlass *k; | |
3181 bool xk; | |
3182 if( this_klass->is_subtype_of( tinst_klass ) ) { | |
3183 // Oop indeed subtypes. Now keep oop or interface depending | |
3184 // on whether we are both above the centerline or either is | |
3185 // below the centerline. If we are on the centerline | |
3186 // (e.g., Constant vs. AnyNull interface), use the constant. | |
3187 k = below_centerline(ptr) ? tinst_klass : this_klass; | |
3188 // If we are keeping this_klass, keep its exactness too. | |
3189 xk = below_centerline(ptr) ? tinst_xk : this_xk; | |
3190 } else { // Does not implement, fall to Object | |
3191 // Oop does not implement interface, so mixing falls to Object | |
3192 // just like the verifier does (if both are above the | |
3193 // centerline fall to interface) | |
3194 k = above_centerline(ptr) ? tinst_klass : ciEnv::current()->Object_klass(); | |
3195 xk = above_centerline(ptr) ? tinst_xk : false; | |
3196 // Watch out for Constant vs. AnyNull interface. | |
3197 if (ptr == Constant) ptr = NotNull; // forget it was a constant | |
247 | 3198 instance_id = InstanceBot; |
0 | 3199 } |
3200 ciObject* o = NULL; // the Constant value, if any | |
3201 if (ptr == Constant) { | |
3202 // Find out which constant. | |
3203 o = (this_klass == klass()) ? const_oop() : tinst->const_oop(); | |
3204 } | |
223 | 3205 return make( ptr, k, xk, o, off, instance_id ); |
0 | 3206 } |
3207 | |
3208 // Either oop vs oop or interface vs interface or interface vs Object | |
3209 | |
3210 // !!! Here's how the symmetry requirement breaks down into invariants: | |
3211 // If we split one up & one down AND they subtype, take the down man. | |
3212 // If we split one up & one down AND they do NOT subtype, "fall hard". | |
3213 // If both are up and they subtype, take the subtype class. | |
3214 // If both are up and they do NOT subtype, "fall hard". | |
3215 // If both are down and they subtype, take the supertype class. | |
3216 // If both are down and they do NOT subtype, "fall hard". | |
3217 // Constants treated as down. | |
3218 | |
3219 // Now, reorder the above list; observe that both-down+subtype is also | |
3220 // "fall hard"; "fall hard" becomes the default case: | |
3221 // If we split one up & one down AND they subtype, take the down man. | |
3222 // If both are up and they subtype, take the subtype class. | |
3223 | |
3224 // If both are down and they subtype, "fall hard". | |
3225 // If both are down and they do NOT subtype, "fall hard". | |
3226 // If both are up and they do NOT subtype, "fall hard". | |
3227 // If we split one up & one down AND they do NOT subtype, "fall hard". | |
3228 | |
3229 // If a proper subtype is exact, and we return it, we return it exactly. | |
3230 // If a proper supertype is exact, there can be no subtyping relationship! | |
3231 // If both types are equal to the subtype, exactness is and-ed below the | |
3232 // centerline and or-ed above it. (N.B. Constants are always exact.) | |
3233 | |
3234 // Check for subtyping: | |
3235 ciKlass *subtype = NULL; | |
3236 bool subtype_exact = false; | |
3237 if( tinst_klass->equals(this_klass) ) { | |
3238 subtype = this_klass; | |
3239 subtype_exact = below_centerline(ptr) ? (this_xk & tinst_xk) : (this_xk | tinst_xk); | |
3240 } else if( !tinst_xk && this_klass->is_subtype_of( tinst_klass ) ) { | |
3241 subtype = this_klass; // Pick subtyping class | |
3242 subtype_exact = this_xk; | |
3243 } else if( !this_xk && tinst_klass->is_subtype_of( this_klass ) ) { | |
3244 subtype = tinst_klass; // Pick subtyping class | |
3245 subtype_exact = tinst_xk; | |
3246 } | |
3247 | |
3248 if( subtype ) { | |
3249 if( above_centerline(ptr) ) { // both are up? | |
3250 this_klass = tinst_klass = subtype; | |
3251 this_xk = tinst_xk = subtype_exact; | |
3252 } else if( above_centerline(this ->_ptr) && !above_centerline(tinst->_ptr) ) { | |
3253 this_klass = tinst_klass; // tinst is down; keep down man | |
3254 this_xk = tinst_xk; | |
3255 } else if( above_centerline(tinst->_ptr) && !above_centerline(this ->_ptr) ) { | |
3256 tinst_klass = this_klass; // this is down; keep down man | |
3257 tinst_xk = this_xk; | |
3258 } else { | |
3259 this_xk = subtype_exact; // either they are equal, or we'll do an LCA | |
3260 } | |
3261 } | |
3262 | |
3263 // Check for classes now being equal | |
3264 if (tinst_klass->equals(this_klass)) { | |
3265 // If the klasses are equal, the constants may still differ. Fall to | |
3266 // NotNull if they do (neither constant is NULL; that is a special case | |
3267 // handled elsewhere). | |
3268 ciObject* o = NULL; // Assume not constant when done | |
3269 ciObject* this_oop = const_oop(); | |
3270 ciObject* tinst_oop = tinst->const_oop(); | |
3271 if( ptr == Constant ) { | |
3272 if (this_oop != NULL && tinst_oop != NULL && | |
3273 this_oop->equals(tinst_oop) ) | |
3274 o = this_oop; | |
3275 else if (above_centerline(this ->_ptr)) | |
3276 o = tinst_oop; | |
3277 else if (above_centerline(tinst ->_ptr)) | |
3278 o = this_oop; | |
3279 else | |
3280 ptr = NotNull; | |
3281 } | |
3282 return make( ptr, this_klass, this_xk, o, off, instance_id ); | |
3283 } // Else classes are not equal | |
3284 | |
3285 // Since klasses are different, we require a LCA in the Java | |
3286 // class hierarchy - which means we have to fall to at least NotNull. | |
3287 if( ptr == TopPTR || ptr == AnyNull || ptr == Constant ) | |
3288 ptr = NotNull; | |
247 | 3289 instance_id = InstanceBot; |
0 | 3290 |
3291 // Now we find the LCA of Java classes | |
3292 ciKlass* k = this_klass->least_common_ancestor(tinst_klass); | |
223 | 3293 return make( ptr, k, false, NULL, off, instance_id ); |
0 | 3294 } // End of case InstPtr |
3295 | |
3296 } // End of switch | |
3297 return this; // Return the double constant | |
3298 } | |
3299 | |
3300 | |
3301 //------------------------java_mirror_type-------------------------------------- | |
3302 ciType* TypeInstPtr::java_mirror_type() const { | |
3303 // must be a singleton type | |
3304 if( const_oop() == NULL ) return NULL; | |
3305 | |
3306 // must be of type java.lang.Class | |
3307 if( klass() != ciEnv::current()->Class_klass() ) return NULL; | |
3308 | |
3309 return const_oop()->as_instance()->java_mirror_type(); | |
3310 } | |
3311 | |
3312 | |
3313 //------------------------------xdual------------------------------------------ | |
3314 // Dual: do NOT dual on klasses. This means I do NOT understand the Java | |
605 | 3315 // inheritance mechanism. |
0 | 3316 const Type *TypeInstPtr::xdual() const { |
223 | 3317 return new TypeInstPtr( dual_ptr(), klass(), klass_is_exact(), const_oop(), dual_offset(), dual_instance_id() ); |
0 | 3318 } |
3319 | |
3320 //------------------------------eq--------------------------------------------- | |
3321 // Structural equality check for Type representations | |
3322 bool TypeInstPtr::eq( const Type *t ) const { | |
3323 const TypeInstPtr *p = t->is_instptr(); | |
3324 return | |
3325 klass()->equals(p->klass()) && | |
3326 TypeOopPtr::eq(p); // Check sub-type stuff | |
3327 } | |
3328 | |
3329 //------------------------------hash------------------------------------------- | |
3330 // Type-specific hashing function. | |
3331 int TypeInstPtr::hash(void) const { | |
3332 int hash = klass()->hash() + TypeOopPtr::hash(); | |
3333 return hash; | |
3334 } | |
3335 | |
3336 //------------------------------dump2------------------------------------------ | |
3337 // Dump oop Type | |
3338 #ifndef PRODUCT | |
3339 void TypeInstPtr::dump2( Dict &d, uint depth, outputStream *st ) const { | |
3340 // Print the name of the klass. | |
3341 klass()->print_name_on(st); | |
3342 | |
3343 switch( _ptr ) { | |
3344 case Constant: | |
3345 // TO DO: Make CI print the hex address of the underlying oop. | |
3346 if (WizardMode || Verbose) { | |
3347 const_oop()->print_oop(st); | |
3348 } | |
3349 case BotPTR: | |
3350 if (!WizardMode && !Verbose) { | |
3351 if( _klass_is_exact ) st->print(":exact"); | |
3352 break; | |
3353 } | |
3354 case TopPTR: | |
3355 case AnyNull: | |
3356 case NotNull: | |
3357 st->print(":%s", ptr_msg[_ptr]); | |
3358 if( _klass_is_exact ) st->print(":exact"); | |
3359 break; | |
3360 } | |
3361 | |
3362 if( _offset ) { // Dump offset, if any | |
3363 if( _offset == OffsetBot ) st->print("+any"); | |
3364 else if( _offset == OffsetTop ) st->print("+unknown"); | |
3365 else st->print("+%d", _offset); | |
3366 } | |
3367 | |
3368 st->print(" *"); | |
223 | 3369 if (_instance_id == InstanceTop) |
3370 st->print(",iid=top"); | |
3371 else if (_instance_id != InstanceBot) | |
0 | 3372 st->print(",iid=%d",_instance_id); |
3373 } | |
3374 #endif | |
3375 | |
3376 //------------------------------add_offset------------------------------------- | |
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3377 const TypePtr *TypeInstPtr::add_offset( intptr_t offset ) const { |
0 | 3378 return make( _ptr, klass(), klass_is_exact(), const_oop(), xadd_offset(offset), _instance_id ); |
3379 } | |
3380 | |
3381 //============================================================================= | |
3382 // Convenience common pre-built types. | |
3383 const TypeAryPtr *TypeAryPtr::RANGE; | |
3384 const TypeAryPtr *TypeAryPtr::OOPS; | |
163 | 3385 const TypeAryPtr *TypeAryPtr::NARROWOOPS; |
0 | 3386 const TypeAryPtr *TypeAryPtr::BYTES; |
3387 const TypeAryPtr *TypeAryPtr::SHORTS; | |
3388 const TypeAryPtr *TypeAryPtr::CHARS; | |
3389 const TypeAryPtr *TypeAryPtr::INTS; | |
3390 const TypeAryPtr *TypeAryPtr::LONGS; | |
3391 const TypeAryPtr *TypeAryPtr::FLOATS; | |
3392 const TypeAryPtr *TypeAryPtr::DOUBLES; | |
3393 | |
3394 //------------------------------make------------------------------------------- | |
3395 const TypeAryPtr *TypeAryPtr::make( PTR ptr, const TypeAry *ary, ciKlass* k, bool xk, int offset, int instance_id ) { | |
3396 assert(!(k == NULL && ary->_elem->isa_int()), | |
3397 "integral arrays must be pre-equipped with a class"); | |
3398 if (!xk) xk = ary->ary_must_be_exact(); | |
247 | 3399 assert(instance_id <= 0 || xk || !UseExactTypes, "instances are always exactly typed"); |
0 | 3400 if (!UseExactTypes) xk = (ptr == Constant); |
10278 | 3401 return (TypeAryPtr*)(new TypeAryPtr(ptr, NULL, ary, k, xk, offset, instance_id, false))->hashcons(); |
0 | 3402 } |
3403 | |
3404 //------------------------------make------------------------------------------- | |
10278 | 3405 const TypeAryPtr *TypeAryPtr::make( PTR ptr, ciObject* o, const TypeAry *ary, ciKlass* k, bool xk, int offset, int instance_id, bool is_autobox_cache) { |
0 | 3406 assert(!(k == NULL && ary->_elem->isa_int()), |
3407 "integral arrays must be pre-equipped with a class"); | |
3408 assert( (ptr==Constant && o) || (ptr!=Constant && !o), "" ); | |
3409 if (!xk) xk = (o != NULL) || ary->ary_must_be_exact(); | |
247 | 3410 assert(instance_id <= 0 || xk || !UseExactTypes, "instances are always exactly typed"); |
0 | 3411 if (!UseExactTypes) xk = (ptr == Constant); |
10278 | 3412 return (TypeAryPtr*)(new TypeAryPtr(ptr, o, ary, k, xk, offset, instance_id, is_autobox_cache))->hashcons(); |
0 | 3413 } |
3414 | |
3415 //------------------------------cast_to_ptr_type------------------------------- | |
3416 const Type *TypeAryPtr::cast_to_ptr_type(PTR ptr) const { | |
3417 if( ptr == _ptr ) return this; | |
223 | 3418 return make(ptr, const_oop(), _ary, klass(), klass_is_exact(), _offset, _instance_id); |
0 | 3419 } |
3420 | |
3421 | |
3422 //-----------------------------cast_to_exactness------------------------------- | |
3423 const Type *TypeAryPtr::cast_to_exactness(bool klass_is_exact) const { | |
3424 if( klass_is_exact == _klass_is_exact ) return this; | |
3425 if (!UseExactTypes) return this; | |
3426 if (_ary->ary_must_be_exact()) return this; // cannot clear xk | |
3427 return make(ptr(), const_oop(), _ary, klass(), klass_is_exact, _offset, _instance_id); | |
3428 } | |
3429 | |
247 | 3430 //-----------------------------cast_to_instance_id---------------------------- |
223 | 3431 const TypeOopPtr *TypeAryPtr::cast_to_instance_id(int instance_id) const { |
3432 if( instance_id == _instance_id ) return this; | |
247 | 3433 return make(_ptr, const_oop(), _ary, klass(), _klass_is_exact, _offset, instance_id); |
0 | 3434 } |
3435 | |
3436 //-----------------------------narrow_size_type------------------------------- | |
3437 // Local cache for arrayOopDesc::max_array_length(etype), | |
3438 // which is kind of slow (and cached elsewhere by other users). | |
3439 static jint max_array_length_cache[T_CONFLICT+1]; | |
3440 static jint max_array_length(BasicType etype) { | |
3441 jint& cache = max_array_length_cache[etype]; | |
3442 jint res = cache; | |
3443 if (res == 0) { | |
3444 switch (etype) { | |
113
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3445 case T_NARROWOOP: |
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3446 etype = T_OBJECT; |
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3447 break; |
6848
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|
3448 case T_NARROWKLASS: |
0 | 3449 case T_CONFLICT: |
3450 case T_ILLEGAL: | |
3451 case T_VOID: | |
3452 etype = T_BYTE; // will produce conservatively high value | |
3453 } | |
3454 cache = res = arrayOopDesc::max_array_length(etype); | |
3455 } | |
3456 return res; | |
3457 } | |
3458 | |
3459 // Narrow the given size type to the index range for the given array base type. | |
3460 // Return NULL if the resulting int type becomes empty. | |
366
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3461 const TypeInt* TypeAryPtr::narrow_size_type(const TypeInt* size) const { |
0 | 3462 jint hi = size->_hi; |
3463 jint lo = size->_lo; | |
3464 jint min_lo = 0; | |
366
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3465 jint max_hi = max_array_length(elem()->basic_type()); |
0 | 3466 //if (index_not_size) --max_hi; // type of a valid array index, FTR |
3467 bool chg = false; | |
10278 | 3468 if (lo < min_lo) { |
3469 lo = min_lo; | |
3470 if (size->is_con()) { | |
3471 hi = lo; | |
3472 } | |
3473 chg = true; | |
3474 } | |
3475 if (hi > max_hi) { | |
3476 hi = max_hi; | |
3477 if (size->is_con()) { | |
3478 lo = hi; | |
3479 } | |
3480 chg = true; | |
3481 } | |
605 | 3482 // Negative length arrays will produce weird intermediate dead fast-path code |
0 | 3483 if (lo > hi) |
366
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3484 return TypeInt::ZERO; |
0 | 3485 if (!chg) |
3486 return size; | |
3487 return TypeInt::make(lo, hi, Type::WidenMin); | |
3488 } | |
3489 | |
3490 //-------------------------------cast_to_size---------------------------------- | |
3491 const TypeAryPtr* TypeAryPtr::cast_to_size(const TypeInt* new_size) const { | |
3492 assert(new_size != NULL, ""); | |
366
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3493 new_size = narrow_size_type(new_size); |
0 | 3494 if (new_size == size()) return this; |
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3495 const TypeAry* new_ary = TypeAry::make(elem(), new_size, is_stable()); |
223 | 3496 return make(ptr(), const_oop(), new_ary, klass(), klass_is_exact(), _offset, _instance_id); |
0 | 3497 } |
3498 | |
3499 | |
12190
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3500 //------------------------------cast_to_stable--------------------------------- |
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3501 const TypeAryPtr* TypeAryPtr::cast_to_stable(bool stable, int stable_dimension) const { |
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3502 if (stable_dimension <= 0 || (stable_dimension == 1 && stable == this->is_stable())) |
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3503 return this; |
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|
3504 |
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3505 const Type* elem = this->elem(); |
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3506 const TypePtr* elem_ptr = elem->make_ptr(); |
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3507 |
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|
3508 if (stable_dimension > 1 && elem_ptr != NULL && elem_ptr->isa_aryptr()) { |
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3509 // If this is widened from a narrow oop, TypeAry::make will re-narrow it. |
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3510 elem = elem_ptr = elem_ptr->is_aryptr()->cast_to_stable(stable, stable_dimension - 1); |
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|
3511 } |
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|
3512 |
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3513 const TypeAry* new_ary = TypeAry::make(elem, size(), stable); |
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|
3514 |
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|
3515 return make(ptr(), const_oop(), new_ary, klass(), klass_is_exact(), _offset, _instance_id); |
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|
3516 } |
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|
3517 |
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|
3518 //-----------------------------stable_dimension-------------------------------- |
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|
3519 int TypeAryPtr::stable_dimension() const { |
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|
3520 if (!is_stable()) return 0; |
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|
3521 int dim = 1; |
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|
3522 const TypePtr* elem_ptr = elem()->make_ptr(); |
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|
3523 if (elem_ptr != NULL && elem_ptr->isa_aryptr()) |
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|
3524 dim += elem_ptr->is_aryptr()->stable_dimension(); |
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10278
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changeset
|
3525 return dim; |
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diff
changeset
|
3526 } |
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changeset
|
3527 |
0 | 3528 //------------------------------eq--------------------------------------------- |
3529 // Structural equality check for Type representations | |
3530 bool TypeAryPtr::eq( const Type *t ) const { | |
3531 const TypeAryPtr *p = t->is_aryptr(); | |
3532 return | |
3533 _ary == p->_ary && // Check array | |
3534 TypeOopPtr::eq(p); // Check sub-parts | |
3535 } | |
3536 | |
3537 //------------------------------hash------------------------------------------- | |
3538 // Type-specific hashing function. | |
3539 int TypeAryPtr::hash(void) const { | |
3540 return (intptr_t)_ary + TypeOopPtr::hash(); | |
3541 } | |
3542 | |
3543 //------------------------------meet------------------------------------------- | |
3544 // Compute the MEET of two types. It returns a new Type object. | |
3545 const Type *TypeAryPtr::xmeet( const Type *t ) const { | |
3546 // Perform a fast test for common case; meeting the same types together. | |
3547 if( this == t ) return this; // Meeting same type-rep? | |
3548 // Current "this->_base" is Pointer | |
3549 switch (t->base()) { // switch on original type | |
3550 | |
3551 // Mixing ints & oops happens when javac reuses local variables | |
3552 case Int: | |
3553 case Long: | |
3554 case FloatTop: | |
3555 case FloatCon: | |
3556 case FloatBot: | |
3557 case DoubleTop: | |
3558 case DoubleCon: | |
3559 case DoubleBot: | |
113
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64
diff
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3560 case NarrowOop: |
6848
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7054512: Compress class pointers after perm gen removal
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parents:
6735
diff
changeset
|
3561 case NarrowKlass: |
0 | 3562 case Bottom: // Ye Olde Default |
3563 return Type::BOTTOM; | |
3564 case Top: | |
3565 return this; | |
3566 | |
3567 default: // All else is a mistake | |
3568 typerr(t); | |
3569 | |
3570 case OopPtr: { // Meeting to OopPtrs | |
3571 // Found a OopPtr type vs self-AryPtr type | |
958
c7e94e8fff43
6880053: assert(alloc_obj->as_CheckCastPP()->type() != TypeInstPtr::NOTNULL)
kvn
parents:
827
diff
changeset
|
3572 const TypeOopPtr *tp = t->is_oopptr(); |
0 | 3573 int offset = meet_offset(tp->offset()); |
3574 PTR ptr = meet_ptr(tp->ptr()); | |
3575 switch (tp->ptr()) { | |
3576 case TopPTR: | |
223 | 3577 case AnyNull: { |
3578 int instance_id = meet_instance_id(InstanceTop); | |
3579 return make(ptr, (ptr == Constant ? const_oop() : NULL), | |
3580 _ary, _klass, _klass_is_exact, offset, instance_id); | |
3581 } | |
0 | 3582 case BotPTR: |
958
c7e94e8fff43
6880053: assert(alloc_obj->as_CheckCastPP()->type() != TypeInstPtr::NOTNULL)
kvn
parents:
827
diff
changeset
|
3583 case NotNull: { |
c7e94e8fff43
6880053: assert(alloc_obj->as_CheckCastPP()->type() != TypeInstPtr::NOTNULL)
kvn
parents:
827
diff
changeset
|
3584 int instance_id = meet_instance_id(tp->instance_id()); |
c7e94e8fff43
6880053: assert(alloc_obj->as_CheckCastPP()->type() != TypeInstPtr::NOTNULL)
kvn
parents:
827
diff
changeset
|
3585 return TypeOopPtr::make(ptr, offset, instance_id); |
c7e94e8fff43
6880053: assert(alloc_obj->as_CheckCastPP()->type() != TypeInstPtr::NOTNULL)
kvn
parents:
827
diff
changeset
|
3586 } |
0 | 3587 default: ShouldNotReachHere(); |
3588 } | |
3589 } | |
3590 | |
3591 case AnyPtr: { // Meeting two AnyPtrs | |
3592 // Found an AnyPtr type vs self-AryPtr type | |
3593 const TypePtr *tp = t->is_ptr(); | |
3594 int offset = meet_offset(tp->offset()); | |
3595 PTR ptr = meet_ptr(tp->ptr()); | |
3596 switch (tp->ptr()) { | |
3597 case TopPTR: | |
3598 return this; | |
3599 case BotPTR: | |
3600 case NotNull: | |
3601 return TypePtr::make(AnyPtr, ptr, offset); | |
3602 case Null: | |
3603 if( ptr == Null ) return TypePtr::make(AnyPtr, ptr, offset); | |
223 | 3604 // else fall through to AnyNull |
3605 case AnyNull: { | |
3606 int instance_id = meet_instance_id(InstanceTop); | |
3607 return make( ptr, (ptr == Constant ? const_oop() : NULL), | |
3608 _ary, _klass, _klass_is_exact, offset, instance_id); | |
3609 } | |
0 | 3610 default: ShouldNotReachHere(); |
3611 } | |
3612 } | |
3613 | |
6725
da91efe96a93
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
6198
diff
changeset
|
3614 case MetadataPtr: |
da91efe96a93
6964458: Reimplement class meta-data storage to use native memory
coleenp
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6198
diff
changeset
|
3615 case KlassPtr: |
0 | 3616 case RawPtr: return TypePtr::BOTTOM; |
3617 | |
3618 case AryPtr: { // Meeting 2 references? | |
3619 const TypeAryPtr *tap = t->is_aryptr(); | |
3620 int off = meet_offset(tap->offset()); | |
3621 const TypeAry *tary = _ary->meet(tap->_ary)->is_ary(); | |
3622 PTR ptr = meet_ptr(tap->ptr()); | |
223 | 3623 int instance_id = meet_instance_id(tap->instance_id()); |
0 | 3624 ciKlass* lazy_klass = NULL; |
3625 if (tary->_elem->isa_int()) { | |
3626 // Integral array element types have irrelevant lattice relations. | |
3627 // It is the klass that determines array layout, not the element type. | |
3628 if (_klass == NULL) | |
3629 lazy_klass = tap->_klass; | |
3630 else if (tap->_klass == NULL || tap->_klass == _klass) { | |
3631 lazy_klass = _klass; | |
3632 } else { | |
3633 // Something like byte[int+] meets char[int+]. | |
3634 // This must fall to bottom, not (int[-128..65535])[int+]. | |
247 | 3635 instance_id = InstanceBot; |
12190
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diff
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|
3636 tary = TypeAry::make(Type::BOTTOM, tary->_size, tary->_stable); |
0 | 3637 } |
2351 | 3638 } else // Non integral arrays. |
3639 // Must fall to bottom if exact klasses in upper lattice | |
3640 // are not equal or super klass is exact. | |
3641 if ( above_centerline(ptr) && klass() != tap->klass() && | |
3642 // meet with top[] and bottom[] are processed further down: | |
3643 tap ->_klass != NULL && this->_klass != NULL && | |
3644 // both are exact and not equal: | |
3645 ((tap ->_klass_is_exact && this->_klass_is_exact) || | |
3646 // 'tap' is exact and super or unrelated: | |
3647 (tap ->_klass_is_exact && !tap->klass()->is_subtype_of(klass())) || | |
3648 // 'this' is exact and super or unrelated: | |
3649 (this->_klass_is_exact && !klass()->is_subtype_of(tap->klass())))) { | |
12190
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diff
changeset
|
3650 tary = TypeAry::make(Type::BOTTOM, tary->_size, tary->_stable); |
2351 | 3651 return make( NotNull, NULL, tary, lazy_klass, false, off, InstanceBot ); |
0 | 3652 } |
2351 | 3653 |
1765
114e6b93e9e1
6980978: assert(mt == t->xmeet(this)) failed: meet not commutative
kvn
parents:
1761
diff
changeset
|
3654 bool xk = false; |
0 | 3655 switch (tap->ptr()) { |
3656 case AnyNull: | |
3657 case TopPTR: | |
3658 // Compute new klass on demand, do not use tap->_klass | |
3659 xk = (tap->_klass_is_exact | this->_klass_is_exact); | |
223 | 3660 return make( ptr, const_oop(), tary, lazy_klass, xk, off, instance_id ); |
0 | 3661 case Constant: { |
3662 ciObject* o = const_oop(); | |
3663 if( _ptr == Constant ) { | |
3664 if( tap->const_oop() != NULL && !o->equals(tap->const_oop()) ) { | |
989
148e5441d916
6863023: need non-perm oops in code cache for JSR 292
jrose
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958
diff
changeset
|
3665 xk = (klass() == tap->klass()); |
0 | 3666 ptr = NotNull; |
3667 o = NULL; | |
247 | 3668 instance_id = InstanceBot; |
989
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6863023: need non-perm oops in code cache for JSR 292
jrose
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958
diff
changeset
|
3669 } else { |
148e5441d916
6863023: need non-perm oops in code cache for JSR 292
jrose
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958
diff
changeset
|
3670 xk = true; |
0 | 3671 } |
3672 } else if( above_centerline(_ptr) ) { | |
3673 o = tap->const_oop(); | |
989
148e5441d916
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
958
diff
changeset
|
3674 xk = true; |
148e5441d916
6863023: need non-perm oops in code cache for JSR 292
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diff
changeset
|
3675 } else { |
1765
114e6b93e9e1
6980978: assert(mt == t->xmeet(this)) failed: meet not commutative
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1761
diff
changeset
|
3676 // Only precise for identical arrays |
114e6b93e9e1
6980978: assert(mt == t->xmeet(this)) failed: meet not commutative
kvn
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1761
diff
changeset
|
3677 xk = this->_klass_is_exact && (klass() == tap->klass()); |
0 | 3678 } |
1765
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6980978: assert(mt == t->xmeet(this)) failed: meet not commutative
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1761
diff
changeset
|
3679 return TypeAryPtr::make( ptr, o, tary, lazy_klass, xk, off, instance_id ); |
0 | 3680 } |
3681 case NotNull: | |
3682 case BotPTR: | |
3683 // Compute new klass on demand, do not use tap->_klass | |
3684 if (above_centerline(this->_ptr)) | |
3685 xk = tap->_klass_is_exact; | |
3686 else if (above_centerline(tap->_ptr)) | |
3687 xk = this->_klass_is_exact; | |
3688 else xk = (tap->_klass_is_exact & this->_klass_is_exact) && | |
3689 (klass() == tap->klass()); // Only precise for identical arrays | |
223 | 3690 return TypeAryPtr::make( ptr, NULL, tary, lazy_klass, xk, off, instance_id ); |
0 | 3691 default: ShouldNotReachHere(); |
3692 } | |
3693 } | |
3694 | |
3695 // All arrays inherit from Object class | |
3696 case InstPtr: { | |
3697 const TypeInstPtr *tp = t->is_instptr(); | |
3698 int offset = meet_offset(tp->offset()); | |
3699 PTR ptr = meet_ptr(tp->ptr()); | |
223 | 3700 int instance_id = meet_instance_id(tp->instance_id()); |
0 | 3701 switch (ptr) { |
3702 case TopPTR: | |
3703 case AnyNull: // Fall 'down' to dual of object klass | |
3704 if( tp->klass()->equals(ciEnv::current()->Object_klass()) ) { | |
223 | 3705 return TypeAryPtr::make( ptr, _ary, _klass, _klass_is_exact, offset, instance_id ); |
0 | 3706 } else { |
3707 // cannot subclass, so the meet has to fall badly below the centerline | |
3708 ptr = NotNull; | |
223 | 3709 instance_id = InstanceBot; |
3710 return TypeInstPtr::make( ptr, ciEnv::current()->Object_klass(), false, NULL,offset, instance_id); | |
0 | 3711 } |
3712 case Constant: | |
3713 case NotNull: | |
3714 case BotPTR: // Fall down to object klass | |
3715 // LCA is object_klass, but if we subclass from the top we can do better | |
3716 if (above_centerline(tp->ptr())) { | |
3717 // If 'tp' is above the centerline and it is Object class | |
605 | 3718 // then we can subclass in the Java class hierarchy. |
0 | 3719 if( tp->klass()->equals(ciEnv::current()->Object_klass()) ) { |
3720 // that is, my array type is a subtype of 'tp' klass | |
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2432acbee618
6930035: C2 type system incorrectly handles case j.l.Object->meet(constant AryPtr)
kvn
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1137
diff
changeset
|
3721 return make( ptr, (ptr == Constant ? const_oop() : NULL), |
2432acbee618
6930035: C2 type system incorrectly handles case j.l.Object->meet(constant AryPtr)
kvn
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1137
diff
changeset
|
3722 _ary, _klass, _klass_is_exact, offset, instance_id ); |
0 | 3723 } |
3724 } | |
3725 // The other case cannot happen, since t cannot be a subtype of an array. | |
3726 // The meet falls down to Object class below centerline. | |
3727 if( ptr == Constant ) | |
3728 ptr = NotNull; | |
223 | 3729 instance_id = InstanceBot; |
3730 return TypeInstPtr::make( ptr, ciEnv::current()->Object_klass(), false, NULL,offset, instance_id); | |
0 | 3731 default: typerr(t); |
3732 } | |
3733 } | |
3734 } | |
3735 return this; // Lint noise | |
3736 } | |
3737 | |
3738 //------------------------------xdual------------------------------------------ | |
3739 // Dual: compute field-by-field dual | |
3740 const Type *TypeAryPtr::xdual() const { | |
10278 | 3741 return new TypeAryPtr( dual_ptr(), _const_oop, _ary->dual()->is_ary(),_klass, _klass_is_exact, dual_offset(), dual_instance_id(), is_autobox_cache() ); |
0 | 3742 } |
3743 | |
820
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3744 //----------------------interface_vs_oop--------------------------------------- |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3745 #ifdef ASSERT |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3746 bool TypeAryPtr::interface_vs_oop(const Type *t) const { |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3747 const TypeAryPtr* t_aryptr = t->isa_aryptr(); |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3748 if (t_aryptr) { |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3749 return _ary->interface_vs_oop(t_aryptr->_ary); |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3750 } |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3751 return false; |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3752 } |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3753 #endif |
915cc9c5ebc6
6837094: False positive for "meet not symmetric" failure
kvn
parents:
628
diff
changeset
|
3754 |
0 | 3755 //------------------------------dump2------------------------------------------ |
3756 #ifndef PRODUCT | |
3757 void TypeAryPtr::dump2( Dict &d, uint depth, outputStream *st ) const { | |
3758 _ary->dump2(d,depth,st); | |
3759 switch( _ptr ) { | |
3760 case Constant: | |
3761 const_oop()->print(st); | |
3762 break; | |
3763 case BotPTR: | |
3764 if (!WizardMode && !Verbose) { | |
3765 if( _klass_is_exact ) st->print(":exact"); | |
3766 break; | |
3767 } | |
3768 case TopPTR: | |
3769 case AnyNull: | |
3770 case NotNull: | |
3771 st->print(":%s", ptr_msg[_ptr]); | |
3772 if( _klass_is_exact ) st->print(":exact"); | |
3773 break; | |
3774 } | |
3775 | |
64
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3776 if( _offset != 0 ) { |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3777 int header_size = objArrayOopDesc::header_size() * wordSize; |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3778 if( _offset == OffsetTop ) st->print("+undefined"); |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3779 else if( _offset == OffsetBot ) st->print("+any"); |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3780 else if( _offset < header_size ) st->print("+%d", _offset); |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3781 else { |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3782 BasicType basic_elem_type = elem()->basic_type(); |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3783 int array_base = arrayOopDesc::base_offset_in_bytes(basic_elem_type); |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3784 int elem_size = type2aelembytes(basic_elem_type); |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3785 st->print("[%d]", (_offset - array_base)/elem_size); |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3786 } |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3787 } |
b8f5ba577b02
6673473: (Escape Analysis) Add the instance's field information to PhiNode
kvn
parents:
0
diff
changeset
|
3788 st->print(" *"); |
223 | 3789 if (_instance_id == InstanceTop) |
3790 st->print(",iid=top"); | |
3791 else if (_instance_id != InstanceBot) | |
0 | 3792 st->print(",iid=%d",_instance_id); |
3793 } | |
3794 #endif | |
3795 | |
3796 bool TypeAryPtr::empty(void) const { | |
3797 if (_ary->empty()) return true; | |
3798 return TypeOopPtr::empty(); | |
3799 } | |
3800 | |
3801 //------------------------------add_offset------------------------------------- | |
306
af945ba2e739
6741738: TypePtr::add_offset() set incorrect offset when the add overflows
kvn
parents:
293
diff
changeset
|
3802 const TypePtr *TypeAryPtr::add_offset( intptr_t offset ) const { |
0 | 3803 return make( _ptr, _const_oop, _ary, _klass, _klass_is_exact, xadd_offset(offset), _instance_id ); |
3804 } | |
3805 | |
3806 | |
3807 //============================================================================= | |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3808 |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3809 //------------------------------hash------------------------------------------- |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3810 // Type-specific hashing function. |
6848
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3811 int TypeNarrowPtr::hash(void) const { |
827
bf3489cc0aa0
6856025: assert(_base >= OopPtr && _base <= KlassPtr,"Not a Java pointer")
never
parents:
820
diff
changeset
|
3812 return _ptrtype->hash() + 7; |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3813 } |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3814 |
6848
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3815 bool TypeNarrowPtr::singleton(void) const { // TRUE if type is a singleton |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3816 return _ptrtype->singleton(); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3817 } |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3818 |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3819 bool TypeNarrowPtr::empty(void) const { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3820 return _ptrtype->empty(); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3821 } |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3822 |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3823 intptr_t TypeNarrowPtr::get_con() const { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3824 return _ptrtype->get_con(); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3825 } |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3826 |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3827 bool TypeNarrowPtr::eq( const Type *t ) const { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3828 const TypeNarrowPtr* tc = isa_same_narrowptr(t); |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3829 if (tc != NULL) { |
827
bf3489cc0aa0
6856025: assert(_base >= OopPtr && _base <= KlassPtr,"Not a Java pointer")
never
parents:
820
diff
changeset
|
3830 if (_ptrtype->base() != tc->_ptrtype->base()) { |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3831 return false; |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3832 } |
827
bf3489cc0aa0
6856025: assert(_base >= OopPtr && _base <= KlassPtr,"Not a Java pointer")
never
parents:
820
diff
changeset
|
3833 return tc->_ptrtype->eq(_ptrtype); |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3834 } |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3835 return false; |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3836 } |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3837 |
6848
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3838 const Type *TypeNarrowPtr::xdual() const { // Compute dual right now. |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3839 const TypePtr* odual = _ptrtype->dual()->is_ptr(); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3840 return make_same_narrowptr(odual); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3841 } |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3842 |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3843 |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3844 const Type *TypeNarrowPtr::filter( const Type *kills ) const { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3845 if (isa_same_narrowptr(kills)) { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3846 const Type* ft =_ptrtype->filter(is_same_narrowptr(kills)->_ptrtype); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3847 if (ft->empty()) |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3848 return Type::TOP; // Canonical empty value |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3849 if (ft->isa_ptr()) { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3850 return make_hash_same_narrowptr(ft->isa_ptr()); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3851 } |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3852 return ft; |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3853 } else if (kills->isa_ptr()) { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3854 const Type* ft = _ptrtype->join(kills); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3855 if (ft->empty()) |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3856 return Type::TOP; // Canonical empty value |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3857 return ft; |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3858 } else { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3859 return Type::TOP; |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3860 } |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3861 } |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3862 |
293
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
247
diff
changeset
|
3863 //------------------------------xmeet------------------------------------------ |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3864 // Compute the MEET of two types. It returns a new Type object. |
6848
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3865 const Type *TypeNarrowPtr::xmeet( const Type *t ) const { |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3866 // Perform a fast test for common case; meeting the same types together. |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3867 if( this == t ) return this; // Meeting same type-rep? |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3868 |
6848
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3869 if (t->base() == base()) { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3870 const Type* result = _ptrtype->xmeet(t->make_ptr()); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3871 if (result->isa_ptr()) { |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3872 return make_hash_same_narrowptr(result->is_ptr()); |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3873 } |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3874 return result; |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3875 } |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3876 |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3877 // Current "this->_base" is NarrowKlass or NarrowOop |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3878 switch (t->base()) { // switch on original type |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3879 |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3880 case Int: // Mixing ints & oops happens when javac |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3881 case Long: // reuses local variables |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3882 case FloatTop: |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3883 case FloatCon: |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3884 case FloatBot: |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3885 case DoubleTop: |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3886 case DoubleCon: |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3887 case DoubleBot: |
293
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
247
diff
changeset
|
3888 case AnyPtr: |
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
247
diff
changeset
|
3889 case RawPtr: |
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
247
diff
changeset
|
3890 case OopPtr: |
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
247
diff
changeset
|
3891 case InstPtr: |
6725
da91efe96a93
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
6198
diff
changeset
|
3892 case AryPtr: |
da91efe96a93
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
6198
diff
changeset
|
3893 case MetadataPtr: |
293
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
247
diff
changeset
|
3894 case KlassPtr: |
6848
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3895 case NarrowOop: |
8e47bac5643a
7054512: Compress class pointers after perm gen removal
roland
parents:
6735
diff
changeset
|
3896 case NarrowKlass: |
293
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
247
diff
changeset
|
3897 |
113
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3898 case Bottom: // Ye Olde Default |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3899 return Type::BOTTOM; |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3900 case Top: |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3901 return this; |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3902 |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3903 default: // All else is a mistake |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3904 typerr(t); |
ba764ed4b6f2
6420645: Create a vm that uses compressed oops for up to 32gb heapsizes
coleenp
parents:
64
diff
changeset
|
3905 |
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|
3906 } // End of switch |
293
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
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parents:
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diff
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|
3907 |
c3e045194476
6731641: assert(m->adr_type() == mach->adr_type(),"matcher should not change adr type")
kvn
parents:
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diff
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|
3908 return this; |
113
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|
3909 } |
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|
3910 |
6848
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diff
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|
3911 #ifndef PRODUCT |
8e47bac5643a
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diff
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|
3912 void TypeNarrowPtr::dump2( Dict & d, uint depth, outputStream *st ) const { |
8e47bac5643a
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parents:
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diff
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|
3913 _ptrtype->dump2(d, depth, st); |
8e47bac5643a
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roland
parents:
6735
diff
changeset
|
3914 } |
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parents:
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diff
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|
3915 #endif |
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|
3916 |
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|
3917 const TypeNarrowOop *TypeNarrowOop::BOTTOM; |
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|
3918 const TypeNarrowOop *TypeNarrowOop::NULL_PTR; |
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diff
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|
3919 |
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diff
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|
3920 |
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|
3921 const TypeNarrowOop* TypeNarrowOop::make(const TypePtr* type) { |
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|
3922 return (const TypeNarrowOop*)(new TypeNarrowOop(type))->hashcons(); |
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parents:
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diff
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|
3923 } |
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|
3924 |
113
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3925 |
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|
3926 #ifndef PRODUCT |
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|
3927 void TypeNarrowOop::dump2( Dict & d, uint depth, outputStream *st ) const { |
417 | 3928 st->print("narrowoop: "); |
6848
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|
3929 TypeNarrowPtr::dump2(d, depth, st); |
113
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|
3930 } |
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|
3931 #endif |
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|
3932 |
6848
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|
3933 const TypeNarrowKlass *TypeNarrowKlass::NULL_PTR; |
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|
3934 |
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|
3935 const TypeNarrowKlass* TypeNarrowKlass::make(const TypePtr* type) { |
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|
3936 return (const TypeNarrowKlass*)(new TypeNarrowKlass(type))->hashcons(); |
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|
3937 } |
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|
3938 |
8e47bac5643a
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|
3939 #ifndef PRODUCT |
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|
3940 void TypeNarrowKlass::dump2( Dict & d, uint depth, outputStream *st ) const { |
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|
3941 st->print("narrowklass: "); |
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|
3942 TypeNarrowPtr::dump2(d, depth, st); |
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|
3943 } |
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|
3944 #endif |
113
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3945 |
6725
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|
3946 |
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|
3947 //------------------------------eq--------------------------------------------- |
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3948 // Structural equality check for Type representations |
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3949 bool TypeMetadataPtr::eq( const Type *t ) const { |
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3950 const TypeMetadataPtr *a = (const TypeMetadataPtr*)t; |
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3951 ciMetadata* one = metadata(); |
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|
3952 ciMetadata* two = a->metadata(); |
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|
3953 if (one == NULL || two == NULL) { |
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3954 return (one == two) && TypePtr::eq(t); |
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|
3955 } else { |
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|
3956 return one->equals(two) && TypePtr::eq(t); |
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|
3957 } |
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|
3958 } |
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|
3959 |
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|
3960 //------------------------------hash------------------------------------------- |
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|
3961 // Type-specific hashing function. |
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|
3962 int TypeMetadataPtr::hash(void) const { |
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|
3963 return |
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|
3964 (metadata() ? metadata()->hash() : 0) + |
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|
3965 TypePtr::hash(); |
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|
3966 } |
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|
3967 |
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|
3968 //------------------------------singleton-------------------------------------- |
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|
3969 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple |
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|
3970 // constants |
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|
3971 bool TypeMetadataPtr::singleton(void) const { |
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|
3972 // detune optimizer to not generate constant metadta + constant offset as a constant! |
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|
3973 // TopPTR, Null, AnyNull, Constant are all singletons |
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|
3974 return (_offset == 0) && !below_centerline(_ptr); |
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|
3975 } |
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|
3976 |
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|
3977 //------------------------------add_offset------------------------------------- |
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|
3978 const TypePtr *TypeMetadataPtr::add_offset( intptr_t offset ) const { |
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|
3979 return make( _ptr, _metadata, xadd_offset(offset)); |
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|
3980 } |
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|
3981 |
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|
3982 //-----------------------------filter------------------------------------------ |
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|
3983 // Do not allow interface-vs.-noninterface joins to collapse to top. |
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|
3984 const Type *TypeMetadataPtr::filter( const Type *kills ) const { |
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|
3985 const TypeMetadataPtr* ft = join(kills)->isa_metadataptr(); |
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|
3986 if (ft == NULL || ft->empty()) |
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|
3987 return Type::TOP; // Canonical empty value |
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|
3988 return ft; |
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|
3989 } |
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|
3990 |
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|
3991 //------------------------------get_con---------------------------------------- |
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|
3992 intptr_t TypeMetadataPtr::get_con() const { |
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|
3993 assert( _ptr == Null || _ptr == Constant, "" ); |
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|
3994 assert( _offset >= 0, "" ); |
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|
3995 |
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|
3996 if (_offset != 0) { |
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|
3997 // After being ported to the compiler interface, the compiler no longer |
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|
3998 // directly manipulates the addresses of oops. Rather, it only has a pointer |
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3999 // to a handle at compile time. This handle is embedded in the generated |
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|
4000 // code and dereferenced at the time the nmethod is made. Until that time, |
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|
4001 // it is not reasonable to do arithmetic with the addresses of oops (we don't |
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4002 // have access to the addresses!). This does not seem to currently happen, |
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4003 // but this assertion here is to help prevent its occurence. |
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|
4004 tty->print_cr("Found oop constant with non-zero offset"); |
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|
4005 ShouldNotReachHere(); |
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|
4006 } |
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|
4007 |
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|
4008 return (intptr_t)metadata()->constant_encoding(); |
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|
4009 } |
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|
4010 |
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|
4011 //------------------------------cast_to_ptr_type------------------------------- |
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|
4012 const Type *TypeMetadataPtr::cast_to_ptr_type(PTR ptr) const { |
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4013 if( ptr == _ptr ) return this; |
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|
4014 return make(ptr, metadata(), _offset); |
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|
4015 } |
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|
4016 |
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|
4017 //------------------------------meet------------------------------------------- |
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|
4018 // Compute the MEET of two types. It returns a new Type object. |
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|
4019 const Type *TypeMetadataPtr::xmeet( const Type *t ) const { |
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4020 // Perform a fast test for common case; meeting the same types together. |
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4021 if( this == t ) return this; // Meeting same type-rep? |
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|
4022 |
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|
4023 // Current "this->_base" is OopPtr |
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|
4024 switch (t->base()) { // switch on original type |
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|
4025 |
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|
4026 case Int: // Mixing ints & oops happens when javac |
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|
4027 case Long: // reuses local variables |
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|
4028 case FloatTop: |
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|
4029 case FloatCon: |
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|
4030 case FloatBot: |
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|
4031 case DoubleTop: |
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|
4032 case DoubleCon: |
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|
4033 case DoubleBot: |
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|
4034 case NarrowOop: |
6848
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6735
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|
4035 case NarrowKlass: |
6725
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4036 case Bottom: // Ye Olde Default |
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4037 return Type::BOTTOM; |
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|
4038 case Top: |
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4039 return this; |
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|
4040 |
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4041 default: // All else is a mistake |
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4042 typerr(t); |
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|
4043 |
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4044 case AnyPtr: { |
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4045 // Found an AnyPtr type vs self-OopPtr type |
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4046 const TypePtr *tp = t->is_ptr(); |
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4047 int offset = meet_offset(tp->offset()); |
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4048 PTR ptr = meet_ptr(tp->ptr()); |
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4049 switch (tp->ptr()) { |
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4050 case Null: |
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4051 if (ptr == Null) return TypePtr::make(AnyPtr, ptr, offset); |
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4052 // else fall through: |
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4053 case TopPTR: |
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4054 case AnyNull: { |
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4055 return make(ptr, NULL, offset); |
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|
4056 } |
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|
4057 case BotPTR: |
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4058 case NotNull: |
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4059 return TypePtr::make(AnyPtr, ptr, offset); |
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|
4060 default: typerr(t); |
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|
4061 } |
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|
4062 } |
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|
4063 |
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|
4064 case RawPtr: |
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4065 case KlassPtr: |
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4066 case OopPtr: |
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|
4067 case InstPtr: |
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|
4068 case AryPtr: |
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4069 return TypePtr::BOTTOM; // Oop meet raw is not well defined |
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|
4070 |
6728 | 4071 case MetadataPtr: { |
4072 const TypeMetadataPtr *tp = t->is_metadataptr(); | |
4073 int offset = meet_offset(tp->offset()); | |
4074 PTR tptr = tp->ptr(); | |
4075 PTR ptr = meet_ptr(tptr); | |
4076 ciMetadata* md = (tptr == TopPTR) ? metadata() : tp->metadata(); | |
4077 if (tptr == TopPTR || _ptr == TopPTR || | |
4078 metadata()->equals(tp->metadata())) { | |
4079 return make(ptr, md, offset); | |
4080 } | |
4081 // metadata is different | |
4082 if( ptr == Constant ) { // Cannot be equal constants, so... | |
4083 if( tptr == Constant && _ptr != Constant) return t; | |
4084 if( _ptr == Constant && tptr != Constant) return this; | |
4085 ptr = NotNull; // Fall down in lattice | |
4086 } | |
4087 return make(ptr, NULL, offset); | |
6725
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4088 break; |
6728 | 4089 } |
6725
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4090 } // End of switch |
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|
4091 return this; // Return the double constant |
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|
4092 } |
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|
4093 |
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|
4094 |
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|
4095 //------------------------------xdual------------------------------------------ |
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|
4096 // Dual of a pure metadata pointer. |
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|
4097 const Type *TypeMetadataPtr::xdual() const { |
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|
4098 return new TypeMetadataPtr(dual_ptr(), metadata(), dual_offset()); |
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|
4099 } |
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|
4100 |
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|
4101 //------------------------------dump2------------------------------------------ |
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|
4102 #ifndef PRODUCT |
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|
4103 void TypeMetadataPtr::dump2( Dict &d, uint depth, outputStream *st ) const { |
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|
4104 st->print("metadataptr:%s", ptr_msg[_ptr]); |
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|
4105 if( metadata() ) st->print(INTPTR_FORMAT, metadata()); |
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|
4106 switch( _offset ) { |
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|
4107 case OffsetTop: st->print("+top"); break; |
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|
4108 case OffsetBot: st->print("+any"); break; |
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|
4109 case 0: break; |
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|
4110 default: st->print("+%d",_offset); break; |
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|
4111 } |
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|
4112 } |
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changeset
|
4113 #endif |
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|
4114 |
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|
4115 |
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|
4116 //============================================================================= |
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|
4117 // Convenience common pre-built type. |
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|
4118 const TypeMetadataPtr *TypeMetadataPtr::BOTTOM; |
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|
4119 |
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|
4120 TypeMetadataPtr::TypeMetadataPtr(PTR ptr, ciMetadata* metadata, int offset): |
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|
4121 TypePtr(MetadataPtr, ptr, offset), _metadata(metadata) { |
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|
4122 } |
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|
4123 |
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|
4124 const TypeMetadataPtr* TypeMetadataPtr::make(ciMethod* m) { |
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|
4125 return make(Constant, m, 0); |
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|
4126 } |
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|
4127 const TypeMetadataPtr* TypeMetadataPtr::make(ciMethodData* m) { |
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|
4128 return make(Constant, m, 0); |
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|
4129 } |
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|
4130 |
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|
4131 //------------------------------make------------------------------------------- |
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|
4132 // Create a meta data constant |
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|
4133 const TypeMetadataPtr *TypeMetadataPtr::make(PTR ptr, ciMetadata* m, int offset) { |
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|
4134 assert(m == NULL || !m->is_klass(), "wrong type"); |
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|
4135 return (TypeMetadataPtr*)(new TypeMetadataPtr(ptr, m, offset))->hashcons(); |
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|
4136 } |
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|
4137 |
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|
4138 |
113
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|
4139 //============================================================================= |
0 | 4140 // Convenience common pre-built types. |
4141 | |
4142 // Not-null object klass or below | |
4143 const TypeKlassPtr *TypeKlassPtr::OBJECT; | |
4144 const TypeKlassPtr *TypeKlassPtr::OBJECT_OR_NULL; | |
4145 | |
6725
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4146 //------------------------------TypeKlassPtr----------------------------------- |
0 | 4147 TypeKlassPtr::TypeKlassPtr( PTR ptr, ciKlass* klass, int offset ) |
6725
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|
4148 : TypePtr(KlassPtr, ptr, offset), _klass(klass), _klass_is_exact(ptr == Constant) { |
0 | 4149 } |
4150 | |
4151 //------------------------------make------------------------------------------- | |
4152 // ptr to klass 'k', if Constant, or possibly to a sub-klass if not a Constant | |
4153 const TypeKlassPtr *TypeKlassPtr::make( PTR ptr, ciKlass* k, int offset ) { | |
4154 assert( k != NULL, "Expect a non-NULL klass"); | |
6725
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|
4155 assert(k->is_instance_klass() || k->is_array_klass(), "Incorrect type of klass oop"); |
0 | 4156 TypeKlassPtr *r = |
4157 (TypeKlassPtr*)(new TypeKlassPtr(ptr, k, offset))->hashcons(); | |
4158 | |
4159 return r; | |
4160 } | |
4161 | |
4162 //------------------------------eq--------------------------------------------- | |
4163 // Structural equality check for Type representations | |
4164 bool TypeKlassPtr::eq( const Type *t ) const { | |
4165 const TypeKlassPtr *p = t->is_klassptr(); | |
4166 return | |
4167 klass()->equals(p->klass()) && | |
6725
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|
4168 TypePtr::eq(p); |
0 | 4169 } |
4170 | |
4171 //------------------------------hash------------------------------------------- | |
4172 // Type-specific hashing function. | |
4173 int TypeKlassPtr::hash(void) const { | |
6725
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4174 return klass()->hash() + TypePtr::hash(); |
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|
4175 } |
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|
4176 |
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|
4177 //------------------------------singleton-------------------------------------- |
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|
4178 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple |
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|
4179 // constants |
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|
4180 bool TypeKlassPtr::singleton(void) const { |
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4181 // detune optimizer to not generate constant klass + constant offset as a constant! |
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4182 // TopPTR, Null, AnyNull, Constant are all singletons |
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4183 return (_offset == 0) && !below_centerline(_ptr); |
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|
4184 } |
0 | 4185 |
1761 | 4186 //----------------------compute_klass------------------------------------------ |
4187 // Compute the defining klass for this class | |
4188 ciKlass* TypeAryPtr::compute_klass(DEBUG_ONLY(bool verify)) const { | |
4189 // Compute _klass based on element type. | |
0 | 4190 ciKlass* k_ary = NULL; |
4191 const TypeInstPtr *tinst; | |
4192 const TypeAryPtr *tary; | |
113
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4193 const Type* el = elem(); |
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|
4194 if (el->isa_narrowoop()) { |
221
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diff
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|
4195 el = el->make_ptr(); |
113
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|
4196 } |
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|
4197 |
0 | 4198 // Get element klass |
113
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|
4199 if ((tinst = el->isa_instptr()) != NULL) { |
0 | 4200 // Compute array klass from element klass |
4201 k_ary = ciObjArrayKlass::make(tinst->klass()); | |
113
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|
4202 } else if ((tary = el->isa_aryptr()) != NULL) { |
0 | 4203 // Compute array klass from element klass |
4204 ciKlass* k_elem = tary->klass(); | |
4205 // If element type is something like bottom[], k_elem will be null. | |
4206 if (k_elem != NULL) | |
4207 k_ary = ciObjArrayKlass::make(k_elem); | |
113
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|
4208 } else if ((el->base() == Type::Top) || |
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|
4209 (el->base() == Type::Bottom)) { |
0 | 4210 // element type of Bottom occurs from meet of basic type |
4211 // and object; Top occurs when doing join on Bottom. | |
4212 // Leave k_ary at NULL. | |
4213 } else { | |
4214 // Cannot compute array klass directly from basic type, | |
4215 // since subtypes of TypeInt all have basic type T_INT. | |
1761 | 4216 #ifdef ASSERT |
4217 if (verify && el->isa_int()) { | |
4218 // Check simple cases when verifying klass. | |
4219 BasicType bt = T_ILLEGAL; | |
4220 if (el == TypeInt::BYTE) { | |
4221 bt = T_BYTE; | |
4222 } else if (el == TypeInt::SHORT) { | |
4223 bt = T_SHORT; | |
4224 } else if (el == TypeInt::CHAR) { | |
4225 bt = T_CHAR; | |
4226 } else if (el == TypeInt::INT) { | |
4227 bt = T_INT; | |
4228 } else { | |
4229 return _klass; // just return specified klass | |
4230 } | |
4231 return ciTypeArrayKlass::make(bt); | |
4232 } | |
4233 #endif | |
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4234 assert(!el->isa_int(), |
0 | 4235 "integral arrays must be pre-equipped with a class"); |
4236 // Compute array klass directly from basic type | |
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4237 k_ary = ciTypeArrayKlass::make(el->basic_type()); |
0 | 4238 } |
1761 | 4239 return k_ary; |
4240 } | |
4241 | |
4242 //------------------------------klass------------------------------------------ | |
4243 // Return the defining klass for this class | |
4244 ciKlass* TypeAryPtr::klass() const { | |
4245 if( _klass ) return _klass; // Return cached value, if possible | |
4246 | |
4247 // Oops, need to compute _klass and cache it | |
4248 ciKlass* k_ary = compute_klass(); | |
0 | 4249 |
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4250 if( this != TypeAryPtr::OOPS && this->dual() != TypeAryPtr::OOPS ) { |
0 | 4251 // The _klass field acts as a cache of the underlying |
4252 // ciKlass for this array type. In order to set the field, | |
4253 // we need to cast away const-ness. | |
4254 // | |
4255 // IMPORTANT NOTE: we *never* set the _klass field for the | |
4256 // type TypeAryPtr::OOPS. This Type is shared between all | |
4257 // active compilations. However, the ciKlass which represents | |
4258 // this Type is *not* shared between compilations, so caching | |
4259 // this value would result in fetching a dangling pointer. | |
4260 // | |
4261 // Recomputing the underlying ciKlass for each request is | |
4262 // a bit less efficient than caching, but calls to | |
4263 // TypeAryPtr::OOPS->klass() are not common enough to matter. | |
4264 ((TypeAryPtr*)this)->_klass = k_ary; | |
163 | 4265 if (UseCompressedOops && k_ary != NULL && k_ary->is_obj_array_klass() && |
4266 _offset != 0 && _offset != arrayOopDesc::length_offset_in_bytes()) { | |
4267 ((TypeAryPtr*)this)->_is_ptr_to_narrowoop = true; | |
4268 } | |
4269 } | |
0 | 4270 return k_ary; |
4271 } | |
4272 | |
4273 | |
4274 //------------------------------add_offset------------------------------------- | |
4275 // Access internals of klass object | |
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4276 const TypePtr *TypeKlassPtr::add_offset( intptr_t offset ) const { |
0 | 4277 return make( _ptr, klass(), xadd_offset(offset) ); |
4278 } | |
4279 | |
4280 //------------------------------cast_to_ptr_type------------------------------- | |
4281 const Type *TypeKlassPtr::cast_to_ptr_type(PTR ptr) const { | |
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4282 assert(_base == KlassPtr, "subclass must override cast_to_ptr_type"); |
0 | 4283 if( ptr == _ptr ) return this; |
4284 return make(ptr, _klass, _offset); | |
4285 } | |
4286 | |
4287 | |
4288 //-----------------------------cast_to_exactness------------------------------- | |
4289 const Type *TypeKlassPtr::cast_to_exactness(bool klass_is_exact) const { | |
4290 if( klass_is_exact == _klass_is_exact ) return this; | |
4291 if (!UseExactTypes) return this; | |
4292 return make(klass_is_exact ? Constant : NotNull, _klass, _offset); | |
4293 } | |
4294 | |
4295 | |
4296 //-----------------------------as_instance_type-------------------------------- | |
4297 // Corresponding type for an instance of the given class. | |
4298 // It will be NotNull, and exact if and only if the klass type is exact. | |
4299 const TypeOopPtr* TypeKlassPtr::as_instance_type() const { | |
4300 ciKlass* k = klass(); | |
4301 bool xk = klass_is_exact(); | |
4302 //return TypeInstPtr::make(TypePtr::NotNull, k, xk, NULL, 0); | |
4303 const TypeOopPtr* toop = TypeOopPtr::make_from_klass_raw(k); | |
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4304 guarantee(toop != NULL, "need type for given klass"); |
0 | 4305 toop = toop->cast_to_ptr_type(TypePtr::NotNull)->is_oopptr(); |
4306 return toop->cast_to_exactness(xk)->is_oopptr(); | |
4307 } | |
4308 | |
4309 | |
4310 //------------------------------xmeet------------------------------------------ | |
4311 // Compute the MEET of two types, return a new Type object. | |
4312 const Type *TypeKlassPtr::xmeet( const Type *t ) const { | |
4313 // Perform a fast test for common case; meeting the same types together. | |
4314 if( this == t ) return this; // Meeting same type-rep? | |
4315 | |
4316 // Current "this->_base" is Pointer | |
4317 switch (t->base()) { // switch on original type | |
4318 | |
4319 case Int: // Mixing ints & oops happens when javac | |
4320 case Long: // reuses local variables | |
4321 case FloatTop: | |
4322 case FloatCon: | |
4323 case FloatBot: | |
4324 case DoubleTop: | |
4325 case DoubleCon: | |
4326 case DoubleBot: | |
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4327 case NarrowOop: |
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4328 case NarrowKlass: |
0 | 4329 case Bottom: // Ye Olde Default |
4330 return Type::BOTTOM; | |
4331 case Top: | |
4332 return this; | |
4333 | |
4334 default: // All else is a mistake | |
4335 typerr(t); | |
4336 | |
4337 case AnyPtr: { // Meeting to AnyPtrs | |
4338 // Found an AnyPtr type vs self-KlassPtr type | |
4339 const TypePtr *tp = t->is_ptr(); | |
4340 int offset = meet_offset(tp->offset()); | |
4341 PTR ptr = meet_ptr(tp->ptr()); | |
4342 switch (tp->ptr()) { | |
4343 case TopPTR: | |
4344 return this; | |
4345 case Null: | |
4346 if( ptr == Null ) return TypePtr::make( AnyPtr, ptr, offset ); | |
4347 case AnyNull: | |
4348 return make( ptr, klass(), offset ); | |
4349 case BotPTR: | |
4350 case NotNull: | |
4351 return TypePtr::make(AnyPtr, ptr, offset); | |
4352 default: typerr(t); | |
4353 } | |
4354 } | |
4355 | |
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4356 case RawPtr: |
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4357 case MetadataPtr: |
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4358 case OopPtr: |
0 | 4359 case AryPtr: // Meet with AryPtr |
4360 case InstPtr: // Meet with InstPtr | |
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4361 return TypePtr::BOTTOM; |
0 | 4362 |
4363 // | |
4364 // A-top } | |
4365 // / | \ } Tops | |
4366 // B-top A-any C-top } | |
4367 // | / | \ | } Any-nulls | |
4368 // B-any | C-any } | |
4369 // | | | | |
4370 // B-con A-con C-con } constants; not comparable across classes | |
4371 // | | | | |
4372 // B-not | C-not } | |
4373 // | \ | / | } not-nulls | |
4374 // B-bot A-not C-bot } | |
4375 // \ | / } Bottoms | |
4376 // A-bot } | |
4377 // | |
4378 | |
4379 case KlassPtr: { // Meet two KlassPtr types | |
4380 const TypeKlassPtr *tkls = t->is_klassptr(); | |
4381 int off = meet_offset(tkls->offset()); | |
4382 PTR ptr = meet_ptr(tkls->ptr()); | |
4383 | |
4384 // Check for easy case; klasses are equal (and perhaps not loaded!) | |
4385 // If we have constants, then we created oops so classes are loaded | |
4386 // and we can handle the constants further down. This case handles | |
4387 // not-loaded classes | |
4388 if( ptr != Constant && tkls->klass()->equals(klass()) ) { | |
4389 return make( ptr, klass(), off ); | |
4390 } | |
4391 | |
4392 // Classes require inspection in the Java klass hierarchy. Must be loaded. | |
4393 ciKlass* tkls_klass = tkls->klass(); | |
4394 ciKlass* this_klass = this->klass(); | |
4395 assert( tkls_klass->is_loaded(), "This class should have been loaded."); | |
4396 assert( this_klass->is_loaded(), "This class should have been loaded."); | |
4397 | |
4398 // If 'this' type is above the centerline and is a superclass of the | |
4399 // other, we can treat 'this' as having the same type as the other. | |
4400 if ((above_centerline(this->ptr())) && | |
4401 tkls_klass->is_subtype_of(this_klass)) { | |
4402 this_klass = tkls_klass; | |
4403 } | |
4404 // If 'tinst' type is above the centerline and is a superclass of the | |
4405 // other, we can treat 'tinst' as having the same type as the other. | |
4406 if ((above_centerline(tkls->ptr())) && | |
4407 this_klass->is_subtype_of(tkls_klass)) { | |
4408 tkls_klass = this_klass; | |
4409 } | |
4410 | |
4411 // Check for classes now being equal | |
4412 if (tkls_klass->equals(this_klass)) { | |
4413 // If the klasses are equal, the constants may still differ. Fall to | |
4414 // NotNull if they do (neither constant is NULL; that is a special case | |
4415 // handled elsewhere). | |
4416 if( ptr == Constant ) { | |
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4417 if (this->_ptr == Constant && tkls->_ptr == Constant && |
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4418 this->klass()->equals(tkls->klass())); |
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4419 else if (above_centerline(this->ptr())); |
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4420 else if (above_centerline(tkls->ptr())); |
0 | 4421 else |
4422 ptr = NotNull; | |
4423 } | |
4424 return make( ptr, this_klass, off ); | |
4425 } // Else classes are not equal | |
4426 | |
4427 // Since klasses are different, we require the LCA in the Java | |
4428 // class hierarchy - which means we have to fall to at least NotNull. | |
4429 if( ptr == TopPTR || ptr == AnyNull || ptr == Constant ) | |
4430 ptr = NotNull; | |
4431 // Now we find the LCA of Java classes | |
4432 ciKlass* k = this_klass->least_common_ancestor(tkls_klass); | |
4433 return make( ptr, k, off ); | |
4434 } // End of case KlassPtr | |
4435 | |
4436 } // End of switch | |
4437 return this; // Return the double constant | |
4438 } | |
4439 | |
4440 //------------------------------xdual------------------------------------------ | |
4441 // Dual: compute field-by-field dual | |
4442 const Type *TypeKlassPtr::xdual() const { | |
4443 return new TypeKlassPtr( dual_ptr(), klass(), dual_offset() ); | |
4444 } | |
4445 | |
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4446 //------------------------------get_con---------------------------------------- |
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4447 intptr_t TypeKlassPtr::get_con() const { |
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4448 assert( _ptr == Null || _ptr == Constant, "" ); |
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4449 assert( _offset >= 0, "" ); |
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4450 |
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4451 if (_offset != 0) { |
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4452 // After being ported to the compiler interface, the compiler no longer |
da91efe96a93
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4453 // directly manipulates the addresses of oops. Rather, it only has a pointer |
da91efe96a93
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|
4454 // to a handle at compile time. This handle is embedded in the generated |
da91efe96a93
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4455 // code and dereferenced at the time the nmethod is made. Until that time, |
da91efe96a93
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4456 // it is not reasonable to do arithmetic with the addresses of oops (we don't |
da91efe96a93
6964458: Reimplement class meta-data storage to use native memory
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4457 // have access to the addresses!). This does not seem to currently happen, |
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4458 // but this assertion here is to help prevent its occurence. |
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4459 tty->print_cr("Found oop constant with non-zero offset"); |
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|
4460 ShouldNotReachHere(); |
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|
4461 } |
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4462 |
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4463 return (intptr_t)klass()->constant_encoding(); |
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4464 } |
0 | 4465 //------------------------------dump2------------------------------------------ |
4466 // Dump Klass Type | |
4467 #ifndef PRODUCT | |
4468 void TypeKlassPtr::dump2( Dict & d, uint depth, outputStream *st ) const { | |
4469 switch( _ptr ) { | |
4470 case Constant: | |
4471 st->print("precise "); | |
4472 case NotNull: | |
4473 { | |
4474 const char *name = klass()->name()->as_utf8(); | |
4475 if( name ) { | |
4476 st->print("klass %s: " INTPTR_FORMAT, name, klass()); | |
4477 } else { | |
4478 ShouldNotReachHere(); | |
4479 } | |
4480 } | |
4481 case BotPTR: | |
4482 if( !WizardMode && !Verbose && !_klass_is_exact ) break; | |
4483 case TopPTR: | |
4484 case AnyNull: | |
4485 st->print(":%s", ptr_msg[_ptr]); | |
4486 if( _klass_is_exact ) st->print(":exact"); | |
4487 break; | |
4488 } | |
4489 | |
4490 if( _offset ) { // Dump offset, if any | |
4491 if( _offset == OffsetBot ) { st->print("+any"); } | |
4492 else if( _offset == OffsetTop ) { st->print("+unknown"); } | |
4493 else { st->print("+%d", _offset); } | |
4494 } | |
4495 | |
4496 st->print(" *"); | |
4497 } | |
4498 #endif | |
4499 | |
4500 | |
4501 | |
4502 //============================================================================= | |
4503 // Convenience common pre-built types. | |
4504 | |
4505 //------------------------------make------------------------------------------- | |
4506 const TypeFunc *TypeFunc::make( const TypeTuple *domain, const TypeTuple *range ) { | |
4507 return (TypeFunc*)(new TypeFunc(domain,range))->hashcons(); | |
4508 } | |
4509 | |
4510 //------------------------------make------------------------------------------- | |
4511 const TypeFunc *TypeFunc::make(ciMethod* method) { | |
4512 Compile* C = Compile::current(); | |
4513 const TypeFunc* tf = C->last_tf(method); // check cache | |
4514 if (tf != NULL) return tf; // The hit rate here is almost 50%. | |
4515 const TypeTuple *domain; | |
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4516 if (method->is_static()) { |
0 | 4517 domain = TypeTuple::make_domain(NULL, method->signature()); |
4518 } else { | |
4519 domain = TypeTuple::make_domain(method->holder(), method->signature()); | |
4520 } | |
4521 const TypeTuple *range = TypeTuple::make_range(method->signature()); | |
4522 tf = TypeFunc::make(domain, range); | |
4523 C->set_last_tf(method, tf); // fill cache | |
4524 return tf; | |
4525 } | |
4526 | |
4527 //------------------------------meet------------------------------------------- | |
4528 // Compute the MEET of two types. It returns a new Type object. | |
4529 const Type *TypeFunc::xmeet( const Type *t ) const { | |
4530 // Perform a fast test for common case; meeting the same types together. | |
4531 if( this == t ) return this; // Meeting same type-rep? | |
4532 | |
4533 // Current "this->_base" is Func | |
4534 switch (t->base()) { // switch on original type | |
4535 | |
4536 case Bottom: // Ye Olde Default | |
4537 return t; | |
4538 | |
4539 default: // All else is a mistake | |
4540 typerr(t); | |
4541 | |
4542 case Top: | |
4543 break; | |
4544 } | |
4545 return this; // Return the double constant | |
4546 } | |
4547 | |
4548 //------------------------------xdual------------------------------------------ | |
4549 // Dual: compute field-by-field dual | |
4550 const Type *TypeFunc::xdual() const { | |
4551 return this; | |
4552 } | |
4553 | |
4554 //------------------------------eq--------------------------------------------- | |
4555 // Structural equality check for Type representations | |
4556 bool TypeFunc::eq( const Type *t ) const { | |
4557 const TypeFunc *a = (const TypeFunc*)t; | |
4558 return _domain == a->_domain && | |
4559 _range == a->_range; | |
4560 } | |
4561 | |
4562 //------------------------------hash------------------------------------------- | |
4563 // Type-specific hashing function. | |
4564 int TypeFunc::hash(void) const { | |
4565 return (intptr_t)_domain + (intptr_t)_range; | |
4566 } | |
4567 | |
4568 //------------------------------dump2------------------------------------------ | |
4569 // Dump Function Type | |
4570 #ifndef PRODUCT | |
4571 void TypeFunc::dump2( Dict &d, uint depth, outputStream *st ) const { | |
4572 if( _range->_cnt <= Parms ) | |
4573 st->print("void"); | |
4574 else { | |
4575 uint i; | |
4576 for (i = Parms; i < _range->_cnt-1; i++) { | |
4577 _range->field_at(i)->dump2(d,depth,st); | |
4578 st->print("/"); | |
4579 } | |
4580 _range->field_at(i)->dump2(d,depth,st); | |
4581 } | |
4582 st->print(" "); | |
4583 st->print("( "); | |
4584 if( !depth || d[this] ) { // Check for recursive dump | |
4585 st->print("...)"); | |
4586 return; | |
4587 } | |
4588 d.Insert((void*)this,(void*)this); // Stop recursion | |
4589 if (Parms < _domain->_cnt) | |
4590 _domain->field_at(Parms)->dump2(d,depth-1,st); | |
4591 for (uint i = Parms+1; i < _domain->_cnt; i++) { | |
4592 st->print(", "); | |
4593 _domain->field_at(i)->dump2(d,depth-1,st); | |
4594 } | |
4595 st->print(" )"); | |
4596 } | |
4597 #endif | |
4598 | |
4599 //------------------------------singleton-------------------------------------- | |
4600 // TRUE if Type is a singleton type, FALSE otherwise. Singletons are simple | |
4601 // constants (Ldi nodes). Singletons are integer, float or double constants | |
4602 // or a single symbol. | |
4603 bool TypeFunc::singleton(void) const { | |
4604 return false; // Never a singleton | |
4605 } | |
4606 | |
4607 bool TypeFunc::empty(void) const { | |
4608 return false; // Never empty | |
4609 } | |
4610 | |
4611 | |
4612 BasicType TypeFunc::return_type() const{ | |
4613 if (range()->cnt() == TypeFunc::Parms) { | |
4614 return T_VOID; | |
4615 } | |
4616 return range()->field_at(TypeFunc::Parms)->basic_type(); | |
4617 } |