1 /* 2 * Copyright (c) 1999, 2023, 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_C1_C1_COMPILATION_HPP 26 #define SHARE_C1_C1_COMPILATION_HPP 27 28 #include "ci/ciEnv.hpp" 29 #include "ci/ciMethodData.hpp" 30 #include "code/exceptionHandlerTable.hpp" 31 #include "compiler/compiler_globals.hpp" 32 #include "compiler/compilerDefinitions.inline.hpp" 33 #include "compiler/compilerDirectives.hpp" 34 #include "memory/resourceArea.hpp" 35 #include "runtime/deoptimization.hpp" 36 #include "runtime/sharedRuntime.hpp" 37 38 class CompilationResourceObj; 39 class XHandlers; 40 class ExceptionInfo; 41 class DebugInformationRecorder; 42 class FrameMap; 43 class IR; 44 class IRScope; 45 class Instruction; 46 class LinearScan; 47 class OopMap; 48 class LIR_Emitter; 49 class LIR_Assembler; 50 class CodeEmitInfo; 51 class ciEnv; 52 class ciMethod; 53 class ValueStack; 54 class C1_MacroAssembler; 55 class CFGPrinter; 56 class CFGPrinterOutput; 57 58 typedef GrowableArray<BasicType> BasicTypeArray; 59 typedef GrowableArray<BasicType> BasicTypeList; 60 typedef GrowableArray<ExceptionInfo*> ExceptionInfoList; 61 62 class Compilation: public StackObj { 63 friend class CompilationResourceObj; 64 private: 65 // compilation specifics 66 Arena* _arena; 67 int _next_id; 68 int _next_block_id; 69 AbstractCompiler* _compiler; 70 DirectiveSet* _directive; 71 ciEnv* _env; 72 CompileLog* _log; 73 ciMethod* _method; 74 int _osr_bci; 75 IR* _hir; 76 int _max_spills; 77 FrameMap* _frame_map; 78 C1_MacroAssembler* _masm; 79 bool _has_exception_handlers; 80 bool _has_fpu_code; 81 bool _has_unsafe_access; 82 bool _has_irreducible_loops; 83 bool _would_profile; 84 bool _has_method_handle_invokes; // True if this method has MethodHandle invokes. 85 bool _has_reserved_stack_access; 86 bool _has_monitors; // Fastpath monitors detection for Continuations 87 bool _install_code; 88 const char* _bailout_msg; 89 bool _oom; 90 ExceptionInfoList* _exception_info_list; 91 ExceptionHandlerTable _exception_handler_table; 92 ImplicitExceptionTable _implicit_exception_table; 93 LinearScan* _allocator; 94 CodeOffsets _offsets; 95 CodeBuffer _code; 96 bool _has_access_indexed; 97 int _interpreter_frame_size; // Stack space needed in case of a deoptimization 98 CompiledEntrySignature _compiled_entry_signature; 99 int _immediate_oops_patched; 100 101 // compilation helpers 102 void initialize(); 103 void build_hir(); 104 void emit_lir(); 105 106 void emit_code_epilog(LIR_Assembler* assembler); 107 int emit_code_body(); 108 109 int compile_java_method(); 110 void install_code(int frame_size); 111 void compile_method(); 112 113 void generate_exception_handler_table(); 114 115 ExceptionInfoList* exception_info_list() const { return _exception_info_list; } 116 ExceptionHandlerTable* exception_handler_table() { return &_exception_handler_table; } 117 118 void set_allocator(LinearScan* allocator) { _allocator = allocator; } 119 120 Instruction* _current_instruction; // the instruction currently being processed 121 #ifndef PRODUCT 122 Instruction* _last_instruction_printed; // the last instruction printed during traversal 123 CFGPrinterOutput* _cfg_printer_output; 124 #endif // PRODUCT 125 126 public: 127 // creation 128 Compilation(AbstractCompiler* compiler, ciEnv* env, ciMethod* method, 129 int osr_bci, BufferBlob* buffer_blob, bool install_code, DirectiveSet* directive); 130 ~Compilation(); 131 132 133 static Compilation* current() { 134 return (Compilation*) ciEnv::current()->compiler_data(); 135 } 136 137 // accessors 138 ciEnv* env() const { return _env; } 139 DirectiveSet* directive() const { return _directive; } 140 CompileLog* log() const { return _log; } 141 AbstractCompiler* compiler() const { return _compiler; } 142 bool has_exception_handlers() const { return _has_exception_handlers; } 143 bool has_fpu_code() const { return _has_fpu_code; } 144 bool has_unsafe_access() const { return _has_unsafe_access; } 145 bool has_monitors() const { return _has_monitors; } 146 bool has_irreducible_loops() const { return _has_irreducible_loops; } 147 int max_vector_size() const { return 0; } 148 ciMethod* method() const { return _method; } 149 int osr_bci() const { return _osr_bci; } 150 bool is_osr_compile() const { return osr_bci() >= 0; } 151 IR* hir() const { return _hir; } 152 int max_spills() const { return _max_spills; } 153 FrameMap* frame_map() const { return _frame_map; } 154 CodeBuffer* code() { return &_code; } 155 C1_MacroAssembler* masm() const { return _masm; } 156 CodeOffsets* offsets() { return &_offsets; } 157 Arena* arena() { return _arena; } 158 bool has_access_indexed() { return _has_access_indexed; } 159 bool should_install_code() { return _install_code && InstallMethods; } 160 LinearScan* allocator() { return _allocator; } 161 162 // Instruction ids 163 int get_next_id() { return _next_id++; } 164 int number_of_instructions() const { return _next_id; } 165 166 // BlockBegin ids 167 int get_next_block_id() { return _next_block_id++; } 168 int number_of_blocks() const { return _next_block_id; } 169 170 // setters 171 void set_has_exception_handlers(bool f) { _has_exception_handlers = f; } 172 void set_has_fpu_code(bool f) { _has_fpu_code = f; } 173 void set_has_unsafe_access(bool f) { _has_unsafe_access = f; } 174 void set_has_irreducible_loops(bool f) { _has_irreducible_loops = f; } 175 void set_would_profile(bool f) { _would_profile = f; } 176 void set_has_access_indexed(bool f) { _has_access_indexed = f; } 177 void set_has_monitors(bool f) { _has_monitors = f; } 178 // Add a set of exception handlers covering the given PC offset 179 void add_exception_handlers_for_pco(int pco, XHandlers* exception_handlers); 180 // Statistics gathering 181 void notice_inlined_method(ciMethod* method); 182 183 // JSR 292 184 bool has_method_handle_invokes() const { return _has_method_handle_invokes; } 185 void set_has_method_handle_invokes(bool z) { _has_method_handle_invokes = z; } 186 187 bool has_reserved_stack_access() const { return _has_reserved_stack_access; } 188 void set_has_reserved_stack_access(bool z) { _has_reserved_stack_access = z; } 189 190 DebugInformationRecorder* debug_info_recorder() const; // = _env->debug_info(); 191 Dependencies* dependency_recorder() const; // = _env->dependencies() 192 ImplicitExceptionTable* implicit_exception_table() { return &_implicit_exception_table; } 193 194 Instruction* current_instruction() const { return _current_instruction; } 195 Instruction* set_current_instruction(Instruction* instr) { 196 Instruction* previous = _current_instruction; 197 _current_instruction = instr; 198 return previous; 199 } 200 201 #ifndef PRODUCT 202 void maybe_print_current_instruction(); 203 CFGPrinterOutput* cfg_printer_output() { 204 guarantee(_cfg_printer_output != nullptr, "CFG printer output not initialized"); 205 return _cfg_printer_output; 206 } 207 #endif // PRODUCT 208 209 // MemLimit handling 210 bool oom() const { return _oom; } 211 void set_oom() { _oom = true; } 212 213 // error handling 214 void bailout(const char* msg); 215 bool bailed_out() const { return _bailout_msg != nullptr; } 216 const char* bailout_msg() const { return _bailout_msg; } 217 218 static uint desired_max_code_buffer_size() { 219 return (uint)NMethodSizeLimit; // default 64K 220 } 221 static uint desired_max_constant_size() { 222 return desired_max_code_buffer_size() / 10; 223 } 224 225 static bool setup_code_buffer(CodeBuffer* cb, int call_stub_estimate); 226 227 // timers 228 static void print_timers(); 229 230 bool is_profiling() { 231 return env()->comp_level() == CompLevel_full_profile || 232 env()->comp_level() == CompLevel_limited_profile; 233 } 234 235 // Helpers for generation of profile information 236 bool profile_branches() { 237 return env()->comp_level() == CompLevel_full_profile && 238 C1UpdateMethodData && C1ProfileBranches; 239 } 240 bool profile_calls() { 241 return env()->comp_level() == CompLevel_full_profile && 242 C1UpdateMethodData && C1ProfileCalls; 243 } 244 bool profile_inlined_calls() { 245 return profile_calls() && C1ProfileInlinedCalls; 246 } 247 bool profile_checkcasts() { 248 return env()->comp_level() == CompLevel_full_profile && 249 C1UpdateMethodData && C1ProfileCheckcasts; 250 } 251 bool profile_parameters() { 252 return env()->comp_level() == CompLevel_full_profile && 253 C1UpdateMethodData && MethodData::profile_parameters(); 254 } 255 bool profile_arguments() { 256 return env()->comp_level() == CompLevel_full_profile && 257 C1UpdateMethodData && MethodData::profile_arguments(); 258 } 259 bool profile_return() { 260 return env()->comp_level() == CompLevel_full_profile && 261 C1UpdateMethodData && MethodData::profile_return(); 262 } 263 bool profile_array_accesses() { 264 return env()->comp_level() == CompLevel_full_profile && 265 C1UpdateMethodData; 266 } 267 268 // will compilation make optimistic assumptions that might lead to 269 // deoptimization and that the runtime will account for? 270 bool is_optimistic() { 271 return CompilerConfig::is_c1_only_no_jvmci() && !is_profiling() && 272 (RangeCheckElimination || UseLoopInvariantCodeMotion) && 273 method()->method_data()->trap_count(Deoptimization::Reason_none) == 0; 274 } 275 276 ciKlass* cha_exact_type(ciType* type); 277 278 // Dump inlining replay data to the stream. 279 void dump_inline_data(outputStream* out) { /* do nothing now */ } 280 281 // How much stack space would the interpreter need in case of a 282 // deoptimization (worst case) 283 void update_interpreter_frame_size(int size) { 284 if (_interpreter_frame_size < size) { 285 _interpreter_frame_size = size; 286 } 287 } 288 289 int interpreter_frame_size() const { 290 return _interpreter_frame_size; 291 } 292 293 const CompiledEntrySignature* compiled_entry_signature() const { 294 return &_compiled_entry_signature; 295 } 296 bool needs_stack_repair() const { 297 return compiled_entry_signature()->c1_needs_stack_repair(); 298 } 299 }; 300 301 302 // Macro definitions for unified bailout-support 303 // The methods bailout() and bailed_out() are present in all classes 304 // that might bailout, but forward all calls to Compilation 305 #define BAILOUT(msg) { bailout(msg); return; } 306 #define BAILOUT_(msg, res) { bailout(msg); return res; } 307 308 #define CHECK_BAILOUT() { if (bailed_out()) return; } 309 #define CHECK_BAILOUT_(res) { if (bailed_out()) return res; } 310 311 // BAILOUT check with reset of bound labels 312 #define CHECK_BAILOUT1(l1) { if (bailed_out()) { l1.reset(); return; } } 313 #define CHECK_BAILOUT2(l1, l2) { if (bailed_out()) { l1.reset(); l2.reset(); return; } } 314 #define CHECK_BAILOUT3(l1, l2, l3) { if (bailed_out()) { l1.reset(); l2.reset(); l3.reset(); return; } } 315 316 317 class InstructionMark: public StackObj { 318 private: 319 Compilation* _compilation; 320 Instruction* _previous; 321 322 public: 323 InstructionMark(Compilation* compilation, Instruction* instr) { 324 _compilation = compilation; 325 _previous = _compilation->set_current_instruction(instr); 326 } 327 ~InstructionMark() { 328 _compilation->set_current_instruction(_previous); 329 } 330 }; 331 332 333 //---------------------------------------------------------------------- 334 // Base class for objects allocated by the compiler in the compilation arena 335 class CompilationResourceObj { 336 public: 337 void* operator new(size_t size) throw() { return Compilation::current()->arena()->Amalloc(size); } 338 void* operator new(size_t size, Arena* arena) throw() { 339 return arena->Amalloc(size); 340 } 341 void operator delete(void* p) {} // nothing to do 342 343 #ifndef PRODUCT 344 // Printing support 345 void print() const; 346 virtual void print_on(outputStream* st) const; 347 #endif 348 }; 349 350 351 //---------------------------------------------------------------------- 352 // Class for aggregating exception handler information. 353 354 // Effectively extends XHandlers class with PC offset of 355 // potentially exception-throwing instruction. 356 // This class is used at the end of the compilation to build the 357 // ExceptionHandlerTable. 358 class ExceptionInfo: public CompilationResourceObj { 359 private: 360 int _pco; // PC of potentially exception-throwing instruction 361 XHandlers* _exception_handlers; // flat list of exception handlers covering this PC 362 363 public: 364 ExceptionInfo(int pco, XHandlers* exception_handlers) 365 : _pco(pco) 366 , _exception_handlers(exception_handlers) 367 { } 368 369 int pco() { return _pco; } 370 XHandlers* exception_handlers() { return _exception_handlers; } 371 }; 372 373 #endif // SHARE_C1_C1_COMPILATION_HPP