1 /* 2 * Copyright (c) 1999, 2012, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. 8 * 9 * This code is distributed in the hope that it will be useful, but WITHOUT 10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 12 * version 2 for more details (a copy is included in the LICENSE file that 13 * accompanied this code). 14 * 15 * You should have received a copy of the GNU General Public License version 16 * 2 along with this work; if not, write to the Free Software Foundation, 17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 18 * 19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 20 * or visit www.oracle.com if you need additional information or have any 21 * questions. 22 * 23 */ 24 25 #ifndef SHARE_VM_C1_C1_GRAPHBUILDER_HPP 26 #define SHARE_VM_C1_C1_GRAPHBUILDER_HPP 27 28 #include "c1/c1_IR.hpp" 29 #include "c1/c1_Instruction.hpp" 30 #include "c1/c1_ValueMap.hpp" 31 #include "c1/c1_ValueStack.hpp" 32 #include "ci/ciMethodData.hpp" 33 #include "ci/ciStreams.hpp" 34 #include "compiler/compileLog.hpp" 35 36 class MemoryBuffer; 37 38 class GraphBuilder VALUE_OBJ_CLASS_SPEC { 39 private: 40 // Per-scope data. These are pushed and popped as we descend into 41 // inlined methods. Currently in order to generate good code in the 42 // inliner we have to attempt to inline methods directly into the 43 // basic block we are parsing; this adds complexity. 44 class ScopeData: public CompilationResourceObj { 45 private: 46 ScopeData* _parent; 47 // bci-to-block mapping 48 BlockList* _bci2block; 49 // Scope 50 IRScope* _scope; 51 // Whether this scope or any parent scope has exception handlers 52 bool _has_handler; 53 // The bytecodes 54 ciBytecodeStream* _stream; 55 56 // Work list 57 BlockList* _work_list; 58 59 // Maximum inline size for this scope 60 intx _max_inline_size; 61 // Expression stack depth at point where inline occurred 62 int _caller_stack_size; 63 64 // The continuation point for the inline. Currently only used in 65 // multi-block inlines, but eventually would like to use this for 66 // all inlines for uniformity and simplicity; in this case would 67 // get the continuation point from the BlockList instead of 68 // fabricating it anew because Invokes would be considered to be 69 // BlockEnds. 70 BlockBegin* _continuation; 71 72 // Was this ScopeData created only for the parsing and inlining of 73 // a jsr? 74 bool _parsing_jsr; 75 // We track the destination bci of the jsr only to determine 76 // bailout conditions, since we only handle a subset of all of the 77 // possible jsr-ret control structures. Recursive invocations of a 78 // jsr are disallowed by the verifier. 79 int _jsr_entry_bci; 80 // We need to track the local variable in which the return address 81 // was stored to ensure we can handle inlining the jsr, because we 82 // don't handle arbitrary jsr/ret constructs. 83 int _jsr_ret_addr_local; 84 // If we are parsing a jsr, the continuation point for rets 85 BlockBegin* _jsr_continuation; 86 // Cloned XHandlers for jsr-related ScopeDatas 87 XHandlers* _jsr_xhandlers; 88 89 // Number of returns seen in this scope 90 int _num_returns; 91 92 // In order to generate profitable code for inlining, we currently 93 // have to perform an optimization for single-block inlined 94 // methods where we continue parsing into the same block. This 95 // allows us to perform CSE across inlined scopes and to avoid 96 // storing parameters to the stack. Having a global register 97 // allocator and being able to perform global CSE would allow this 98 // code to be removed and thereby simplify the inliner. 99 BlockBegin* _cleanup_block; // The block to which the return was added 100 Instruction* _cleanup_return_prev; // Instruction before return instruction 101 ValueStack* _cleanup_state; // State of that block (not yet pinned) 102 103 public: 104 ScopeData(ScopeData* parent); 105 106 ScopeData* parent() const { return _parent; } 107 108 BlockList* bci2block() const { return _bci2block; } 109 void set_bci2block(BlockList* bci2block) { _bci2block = bci2block; } 110 111 // NOTE: this has a different effect when parsing jsrs 112 BlockBegin* block_at(int bci); 113 114 IRScope* scope() const { return _scope; } 115 // Has side-effect of setting has_handler flag 116 void set_scope(IRScope* scope); 117 118 // Whether this or any parent scope has exception handlers 119 bool has_handler() const { return _has_handler; } 120 void set_has_handler() { _has_handler = true; } 121 122 // Exception handlers list to be used for this scope 123 XHandlers* xhandlers() const; 124 125 // How to get a block to be parsed 126 void add_to_work_list(BlockBegin* block); 127 // How to remove the next block to be parsed; returns NULL if none left 128 BlockBegin* remove_from_work_list(); 129 // Indicates parse is over 130 bool is_work_list_empty() const; 131 132 ciBytecodeStream* stream() { return _stream; } 133 void set_stream(ciBytecodeStream* stream) { _stream = stream; } 134 135 intx max_inline_size() const { return _max_inline_size; } 136 137 BlockBegin* continuation() const { return _continuation; } 138 void set_continuation(BlockBegin* cont) { _continuation = cont; } 139 140 // Indicates whether this ScopeData was pushed only for the 141 // parsing and inlining of a jsr 142 bool parsing_jsr() const { return _parsing_jsr; } 143 void set_parsing_jsr() { _parsing_jsr = true; } 144 int jsr_entry_bci() const { return _jsr_entry_bci; } 145 void set_jsr_entry_bci(int bci) { _jsr_entry_bci = bci; } 146 void set_jsr_return_address_local(int local_no){ _jsr_ret_addr_local = local_no; } 147 int jsr_return_address_local() const { return _jsr_ret_addr_local; } 148 // Must be called after scope is set up for jsr ScopeData 149 void setup_jsr_xhandlers(); 150 151 // The jsr continuation is only used when parsing_jsr is true, and 152 // is different from the "normal" continuation since we can end up 153 // doing a return (rather than a ret) from within a subroutine 154 BlockBegin* jsr_continuation() const { return _jsr_continuation; } 155 void set_jsr_continuation(BlockBegin* cont) { _jsr_continuation = cont; } 156 157 int num_returns(); 158 void incr_num_returns(); 159 160 void set_inline_cleanup_info(BlockBegin* block, 161 Instruction* return_prev, 162 ValueStack* return_state); 163 BlockBegin* inline_cleanup_block() const { return _cleanup_block; } 164 Instruction* inline_cleanup_return_prev() const{ return _cleanup_return_prev; } 165 ValueStack* inline_cleanup_state() const { return _cleanup_state; } 166 }; 167 168 // for all GraphBuilders 169 static bool _can_trap[Bytecodes::number_of_java_codes]; 170 171 // for each instance of GraphBuilder 172 ScopeData* _scope_data; // Per-scope data; used for inlining 173 Compilation* _compilation; // the current compilation 174 ValueMap* _vmap; // the map of values encountered (for CSE) 175 MemoryBuffer* _memory; 176 const char* _inline_bailout_msg; // non-null if most recent inline attempt failed 177 int _instruction_count; // for bailing out in pathological jsr/ret cases 178 BlockBegin* _start; // the start block 179 BlockBegin* _osr_entry; // the osr entry block block 180 ValueStack* _initial_state; // The state for the start block 181 182 // for each call to connect_to_end; can also be set by inliner 183 BlockBegin* _block; // the current block 184 ValueStack* _state; // the current execution state 185 Instruction* _last; // the last instruction added 186 bool _skip_block; // skip processing of the rest of this block 187 188 // accessors 189 ScopeData* scope_data() const { return _scope_data; } 190 Compilation* compilation() const { return _compilation; } 191 BlockList* bci2block() const { return scope_data()->bci2block(); } 192 ValueMap* vmap() const { assert(UseLocalValueNumbering, "should not access otherwise"); return _vmap; } 193 bool has_handler() const { return scope_data()->has_handler(); } 194 195 BlockBegin* block() const { return _block; } 196 ValueStack* state() const { return _state; } 197 void set_state(ValueStack* state) { _state = state; } 198 IRScope* scope() const { return scope_data()->scope(); } 199 ciMethod* method() const { return scope()->method(); } 200 ciBytecodeStream* stream() const { return scope_data()->stream(); } 201 Instruction* last() const { return _last; } 202 Bytecodes::Code code() const { return stream()->cur_bc(); } 203 int bci() const { return stream()->cur_bci(); } 204 int next_bci() const { return stream()->next_bci(); } 205 206 // unified bailout support 207 void bailout(const char* msg) const { compilation()->bailout(msg); } 208 bool bailed_out() const { return compilation()->bailed_out(); } 209 210 // stack manipulation helpers 211 void ipush(Value t) const { state()->ipush(t); } 212 void lpush(Value t) const { state()->lpush(t); } 213 void fpush(Value t) const { state()->fpush(t); } 214 void dpush(Value t) const { state()->dpush(t); } 215 void apush(Value t) const { state()->apush(t); } 216 void push(ValueType* type, Value t) const { state()-> push(type, t); } 217 218 Value ipop() { return state()->ipop(); } 219 Value lpop() { return state()->lpop(); } 220 Value fpop() { return state()->fpop(); } 221 Value dpop() { return state()->dpop(); } 222 Value apop() { return state()->apop(); } 223 Value pop(ValueType* type) { return state()-> pop(type); } 224 225 // instruction helpers 226 void load_constant(); 227 void load_local(ValueType* type, int index); 228 void store_local(ValueType* type, int index); 229 void store_local(ValueStack* state, Value value, int index); 230 void load_indexed (BasicType type); 231 void store_indexed(BasicType type); 232 void stack_op(Bytecodes::Code code); 233 void arithmetic_op(ValueType* type, Bytecodes::Code code, ValueStack* state_before = NULL); 234 void negate_op(ValueType* type); 235 void shift_op(ValueType* type, Bytecodes::Code code); 236 void logic_op(ValueType* type, Bytecodes::Code code); 237 void compare_op(ValueType* type, Bytecodes::Code code); 238 void convert(Bytecodes::Code op, BasicType from, BasicType to); 239 void increment(); 240 void _goto(int from_bci, int to_bci); 241 void if_node(Value x, If::Condition cond, Value y, ValueStack* stack_before); 242 void if_zero(ValueType* type, If::Condition cond); 243 void if_null(ValueType* type, If::Condition cond); 244 void if_same(ValueType* type, If::Condition cond); 245 void jsr(int dest); 246 void ret(int local_index); 247 void table_switch(); 248 void lookup_switch(); 249 void method_return(Value x); 250 void call_register_finalizer(); 251 void access_field(Bytecodes::Code code); 252 void invoke(Bytecodes::Code code); 253 void new_instance(int klass_index); 254 void new_type_array(); 255 void new_object_array(); 256 void check_cast(int klass_index); 257 void instance_of(int klass_index); 258 void monitorenter(Value x, int bci); 259 void monitorexit(Value x, int bci); 260 void new_multi_array(int dimensions); 261 void throw_op(int bci); 262 Value round_fp(Value fp_value); 263 264 // stack/code manipulation helpers 265 Instruction* append_with_bci(Instruction* instr, int bci); 266 Instruction* append(Instruction* instr); 267 Instruction* append_split(StateSplit* instr); 268 269 // other helpers 270 BlockBegin* block_at(int bci) { return scope_data()->block_at(bci); } 271 XHandlers* handle_exception(Instruction* instruction); 272 void connect_to_end(BlockBegin* beg); 273 void null_check(Value value); 274 void eliminate_redundant_phis(BlockBegin* start); 275 BlockEnd* iterate_bytecodes_for_block(int bci); 276 void iterate_all_blocks(bool start_in_current_block_for_inlining = false); 277 Dependencies* dependency_recorder() const; // = compilation()->dependencies() 278 bool direct_compare(ciKlass* k); 279 280 void kill_all(); 281 282 // use of state copy routines (try to minimize unnecessary state 283 // object allocations): 284 285 // - if the instruction unconditionally needs a full copy of the 286 // state (for patching for example), then use copy_state_before* 287 288 // - if the instruction needs a full copy of the state only for 289 // handler generation (Instruction::needs_exception_state() returns 290 // false) then use copy_state_exhandling* 291 292 // - if the instruction needs either a full copy of the state for 293 // handler generation and a least a minimal copy of the state (as 294 // returned by Instruction::exception_state()) for debug info 295 // generation (that is when Instruction::needs_exception_state() 296 // returns true) then use copy_state_for_exception* 297 298 ValueStack* copy_state_before_with_bci(int bci); 299 ValueStack* copy_state_before(); 300 ValueStack* copy_state_exhandling_with_bci(int bci); 301 ValueStack* copy_state_exhandling(); 302 ValueStack* copy_state_for_exception_with_bci(int bci); 303 ValueStack* copy_state_for_exception(); 304 ValueStack* copy_state_if_bb(bool is_bb) { return (is_bb || compilation()->is_optimistic()) ? copy_state_before() : NULL; } 305 ValueStack* copy_state_indexed_access() { return compilation()->is_optimistic() ? copy_state_before() : copy_state_for_exception(); } 306 307 // 308 // Inlining support 309 // 310 311 // accessors 312 bool parsing_jsr() const { return scope_data()->parsing_jsr(); } 313 BlockBegin* continuation() const { return scope_data()->continuation(); } 314 BlockBegin* jsr_continuation() const { return scope_data()->jsr_continuation(); } 315 void set_continuation(BlockBegin* continuation) { scope_data()->set_continuation(continuation); } 316 void set_inline_cleanup_info(BlockBegin* block, 317 Instruction* return_prev, 318 ValueStack* return_state) { scope_data()->set_inline_cleanup_info(block, 319 return_prev, 320 return_state); } 321 void set_inline_cleanup_info() { 322 set_inline_cleanup_info(_block, _last, _state); 323 } 324 BlockBegin* inline_cleanup_block() const { return scope_data()->inline_cleanup_block(); } 325 Instruction* inline_cleanup_return_prev() const { return scope_data()->inline_cleanup_return_prev(); } 326 ValueStack* inline_cleanup_state() const { return scope_data()->inline_cleanup_state(); } 327 void restore_inline_cleanup_info() { 328 _block = inline_cleanup_block(); 329 _last = inline_cleanup_return_prev(); 330 _state = inline_cleanup_state(); 331 } 332 void incr_num_returns() { scope_data()->incr_num_returns(); } 333 int num_returns() const { return scope_data()->num_returns(); } 334 intx max_inline_size() const { return scope_data()->max_inline_size(); } 335 int inline_level() const { return scope()->level(); } 336 int recursive_inline_level(ciMethod* callee) const; 337 338 // inlining of synchronized methods 339 void inline_sync_entry(Value lock, BlockBegin* sync_handler); 340 void fill_sync_handler(Value lock, BlockBegin* sync_handler, bool default_handler = false); 341 342 // inliners 343 bool try_inline( ciMethod* callee, bool holder_known, Bytecodes::Code bc = Bytecodes::_illegal, Value receiver = NULL); 344 bool try_inline_intrinsics(ciMethod* callee); 345 bool try_inline_full( ciMethod* callee, bool holder_known, Bytecodes::Code bc = Bytecodes::_illegal, Value receiver = NULL); 346 bool try_inline_jsr(int jsr_dest_bci); 347 348 const char* check_can_parse(ciMethod* callee) const; 349 const char* should_not_inline(ciMethod* callee) const; 350 351 // JSR 292 support 352 bool try_method_handle_inline(ciMethod* callee); 353 354 // helpers 355 void inline_bailout(const char* msg); 356 BlockBegin* header_block(BlockBegin* entry, BlockBegin::Flag f, ValueStack* state); 357 BlockBegin* setup_start_block(int osr_bci, BlockBegin* std_entry, BlockBegin* osr_entry, ValueStack* init_state); 358 void setup_osr_entry_block(); 359 void clear_inline_bailout(); 360 ValueStack* state_at_entry(); 361 void push_root_scope(IRScope* scope, BlockList* bci2block, BlockBegin* start); 362 void push_scope(ciMethod* callee, BlockBegin* continuation); 363 void push_scope_for_jsr(BlockBegin* jsr_continuation, int jsr_dest_bci); 364 void pop_scope(); 365 void pop_scope_for_jsr(); 366 367 bool append_unsafe_get_obj(ciMethod* callee, BasicType t, bool is_volatile); 368 bool append_unsafe_put_obj(ciMethod* callee, BasicType t, bool is_volatile); 369 bool append_unsafe_get_raw(ciMethod* callee, BasicType t); 370 bool append_unsafe_put_raw(ciMethod* callee, BasicType t); 371 bool append_unsafe_prefetch(ciMethod* callee, bool is_store, bool is_static); 372 void append_unsafe_CAS(ciMethod* callee); 373 bool append_unsafe_get_and_set_obj(ciMethod* callee, bool is_add); 374 375 void print_inlining(ciMethod* callee, const char* msg = NULL, bool success = true); 376 377 void profile_call(ciMethod* callee, Value recv, ciKlass* predicted_holder, Values* obj_args, bool inlined); 378 void profile_invocation(ciMethod* inlinee, ValueStack* state); 379 380 // Shortcuts to profiling control. 381 bool is_profiling() { return _compilation->is_profiling(); } 382 bool count_invocations() { return _compilation->count_invocations(); } 383 bool count_backedges() { return _compilation->count_backedges(); } 384 bool profile_branches() { return _compilation->profile_branches(); } 385 bool profile_calls() { return _compilation->profile_calls(); } 386 bool profile_inlined_calls() { return _compilation->profile_inlined_calls(); } 387 bool profile_checkcasts() { return _compilation->profile_checkcasts(); } 388 389 Values* args_list_for_profiling(int& start, bool may_have_receiver); 390 Values* collect_args_for_profiling(Values* args, bool may_have_receiver); 391 392 public: 393 NOT_PRODUCT(void print_stats();) 394 395 // initialization 396 static void initialize(); 397 398 // public 399 static bool can_trap(ciMethod* method, Bytecodes::Code code) { 400 assert(0 <= code && code < Bytecodes::number_of_java_codes, "illegal bytecode"); 401 if (_can_trap[code]) return true; 402 // special handling for finalizer registration 403 return code == Bytecodes::_return && method->intrinsic_id() == vmIntrinsics::_Object_init; 404 } 405 406 // creation 407 GraphBuilder(Compilation* compilation, IRScope* scope); 408 static void sort_top_into_worklist(BlockList* worklist, BlockBegin* top); 409 410 BlockBegin* start() const { return _start; } 411 }; 412 413 #endif // SHARE_VM_C1_C1_GRAPHBUILDER_HPP