Mercurial > hg > graal-compiler
view src/share/vm/shark/sharkCompiler.cpp @ 1941:79d04223b8a5
Added caching for resolved types and resolved fields.
This is crucial, because the local load elimination will lead to wrong results, if field equality (of two RiField objects with the same object and the same RiType) is not given. The caching makes sure that the default equals implementation is sufficient.
author | Thomas Wuerthinger <wuerthinger@ssw.jku.at> |
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date | Tue, 28 Dec 2010 18:33:26 +0100 |
parents | d2ede61b7a12 |
children | f95d63e2154a |
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/* * Copyright (c) 1999, 2007, Oracle and/or its affiliates. All rights reserved. * Copyright 2008, 2009, 2010 Red Hat, Inc. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "incls/_precompiled.incl" #include "incls/_sharkCompiler.cpp.incl" #include <fnmatch.h> using namespace llvm; #if SHARK_LLVM_VERSION >= 27 namespace { cl::opt<std::string> MCPU("mcpu"); cl::list<std::string> MAttrs("mattr", cl::CommaSeparated); } #endif SharkCompiler::SharkCompiler() : AbstractCompiler() { // Create the lock to protect the memory manager and execution engine _execution_engine_lock = new Monitor(Mutex::leaf, "SharkExecutionEngineLock"); MutexLocker locker(execution_engine_lock()); // Make LLVM safe for multithreading if (!llvm_start_multithreaded()) fatal("llvm_start_multithreaded() failed"); // Initialize the native target InitializeNativeTarget(); // Create the two contexts which we'll use _normal_context = new SharkContext("normal"); _native_context = new SharkContext("native"); // Create the memory manager _memory_manager = new SharkMemoryManager(); #if SHARK_LLVM_VERSION >= 27 // Finetune LLVM for the current host CPU. StringMap<bool> Features; bool gotCpuFeatures = llvm::sys::getHostCPUFeatures(Features); std::string cpu("-mcpu=" + llvm::sys::getHostCPUName()); std::vector<const char*> args; args.push_back(""); // program name args.push_back(cpu.c_str()); std::string mattr("-mattr="); if(gotCpuFeatures){ for(StringMap<bool>::iterator I = Features.begin(), E = Features.end(); I != E; ++I){ if(I->second){ std::string attr(I->first()); mattr+="+"+attr+","; } } args.push_back(mattr.c_str()); } args.push_back(0); // terminator cl::ParseCommandLineOptions(args.size() - 1, (char **) &args[0]); // Create the JIT std::string ErrorMsg; EngineBuilder builder(_normal_context->module()); builder.setMCPU(MCPU); builder.setMAttrs(MAttrs); builder.setJITMemoryManager(memory_manager()); builder.setEngineKind(EngineKind::JIT); builder.setErrorStr(&ErrorMsg); _execution_engine = builder.create(); if (!execution_engine()) { if (!ErrorMsg.empty()) printf("Error while creating Shark JIT: %s\n",ErrorMsg.c_str()); else printf("Unknown error while creating Shark JIT\n"); exit(1); } execution_engine()->addModule( _native_context->module()); #else _execution_engine = ExecutionEngine::createJIT( _normal_context->module_provider(), NULL, memory_manager(), CodeGenOpt::Default); execution_engine()->addModuleProvider( _native_context->module_provider()); #endif // All done mark_initialized(); } void SharkCompiler::initialize() { ShouldNotCallThis(); } void SharkCompiler::compile_method(ciEnv* env, ciMethod* target, int entry_bci) { assert(is_initialized(), "should be"); ResourceMark rm; const char *name = methodname( target->holder()->name()->as_utf8(), target->name()->as_utf8()); // Do the typeflow analysis ciTypeFlow *flow; if (entry_bci == InvocationEntryBci) flow = target->get_flow_analysis(); else flow = target->get_osr_flow_analysis(entry_bci); if (flow->failing()) return; if (SharkPrintTypeflowOf != NULL) { if (!fnmatch(SharkPrintTypeflowOf, name, 0)) flow->print_on(tty); } // Create the recorders Arena arena; env->set_oop_recorder(new OopRecorder(&arena)); OopMapSet oopmaps; env->set_debug_info(new DebugInformationRecorder(env->oop_recorder())); env->debug_info()->set_oopmaps(&oopmaps); env->set_dependencies(new Dependencies(env)); // Create the code buffer and builder CodeBuffer hscb("Shark", 256 * K, 64 * K); hscb.initialize_oop_recorder(env->oop_recorder()); MacroAssembler *masm = new MacroAssembler(&hscb); SharkCodeBuffer cb(masm); SharkBuilder builder(&cb); // Emit the entry point SharkEntry *entry = (SharkEntry *) cb.malloc(sizeof(SharkEntry)); // Build the LLVM IR for the method Function *function = SharkFunction::build(env, &builder, flow, name); // Generate native code. It's unpleasant that we have to drop into // the VM to do this -- it blocks safepoints -- but I can't see any // other way to handle the locking. { ThreadInVMfromNative tiv(JavaThread::current()); generate_native_code(entry, function, name); } // Install the method into the VM CodeOffsets offsets; offsets.set_value(CodeOffsets::Deopt, 0); offsets.set_value(CodeOffsets::Exceptions, 0); offsets.set_value(CodeOffsets::Verified_Entry, target->is_static() ? 0 : wordSize); ExceptionHandlerTable handler_table; ImplicitExceptionTable inc_table; env->register_method(target, entry_bci, &offsets, 0, &hscb, 0, &oopmaps, &handler_table, &inc_table, this, env->comp_level(), false, false); } nmethod* SharkCompiler::generate_native_wrapper(MacroAssembler* masm, methodHandle target, BasicType* arg_types, BasicType return_type) { assert(is_initialized(), "should be"); ResourceMark rm; const char *name = methodname( target->klass_name()->as_utf8(), target->name()->as_utf8()); // Create the code buffer and builder SharkCodeBuffer cb(masm); SharkBuilder builder(&cb); // Emit the entry point SharkEntry *entry = (SharkEntry *) cb.malloc(sizeof(SharkEntry)); // Build the LLVM IR for the method SharkNativeWrapper *wrapper = SharkNativeWrapper::build( &builder, target, name, arg_types, return_type); // Generate native code generate_native_code(entry, wrapper->function(), name); // Return the nmethod for installation in the VM return nmethod::new_native_nmethod(target, masm->code(), 0, 0, wrapper->frame_size(), wrapper->receiver_offset(), wrapper->lock_offset(), wrapper->oop_maps()); } void SharkCompiler::generate_native_code(SharkEntry* entry, Function* function, const char* name) { // Print the LLVM bitcode, if requested if (SharkPrintBitcodeOf != NULL) { if (!fnmatch(SharkPrintBitcodeOf, name, 0)) function->dump(); } // Compile to native code address code = NULL; context()->add_function(function); { MutexLocker locker(execution_engine_lock()); free_queued_methods(); if (SharkPrintAsmOf != NULL) { #if SHARK_LLVM_VERSION >= 27 #ifndef NDEBUG if (!fnmatch(SharkPrintAsmOf, name, 0)) { llvm::SetCurrentDebugType(X86_ONLY("x86-emitter") NOT_X86("jit")); llvm::DebugFlag = true; } else { llvm::SetCurrentDebugType(""); llvm::DebugFlag = false; } #endif // !NDEBUG #else // NB you need to patch LLVM with http://tinyurl.com/yf3baln for this std::vector<const char*> args; args.push_back(""); // program name if (!fnmatch(SharkPrintAsmOf, name, 0)) args.push_back("-debug-only=x86-emitter"); else args.push_back("-debug-only=none"); args.push_back(0); // terminator cl::ParseCommandLineOptions(args.size() - 1, (char **) &args[0]); #endif // SHARK_LLVM_VERSION } memory_manager()->set_entry_for_function(function, entry); code = (address) execution_engine()->getPointerToFunction(function); } entry->set_entry_point(code); entry->set_function(function); entry->set_context(context()); address code_start = entry->code_start(); address code_limit = entry->code_limit(); // Register generated code for profiling, etc if (JvmtiExport::should_post_dynamic_code_generated()) JvmtiExport::post_dynamic_code_generated(name, code_start, code_limit); // Print debug information, if requested if (SharkTraceInstalls) { tty->print_cr( " [%p-%p): %s (%d bytes code)", code_start, code_limit, name, code_limit - code_start); } } void SharkCompiler::free_compiled_method(address code) { // This method may only be called when the VM is at a safepoint. // All _thread_in_vm threads will be waiting for the safepoint to // finish with the exception of the VM thread, so we can consider // ourself the owner of the execution engine lock even though we // can't actually acquire it at this time. assert(Thread::current()->is_VM_thread(), "must be called by VM thread"); assert(SafepointSynchronize::is_at_safepoint(), "must be at safepoint"); SharkEntry *entry = (SharkEntry *) code; entry->context()->push_to_free_queue(entry->function()); } void SharkCompiler::free_queued_methods() { // The free queue is protected by the execution engine lock assert(execution_engine_lock()->owned_by_self(), "should be"); while (true) { Function *function = context()->pop_from_free_queue(); if (function == NULL) break; execution_engine()->freeMachineCodeForFunction(function); function->eraseFromParent(); } } const char* SharkCompiler::methodname(const char* klass, const char* method) { char *buf = NEW_RESOURCE_ARRAY(char, strlen(klass) + 2 + strlen(method) + 1); char *dst = buf; for (const char *c = klass; *c; c++) { if (*c == '/') *(dst++) = '.'; else *(dst++) = *c; } *(dst++) = ':'; *(dst++) = ':'; for (const char *c = method; *c; c++) { *(dst++) = *c; } *(dst++) = '\0'; return buf; }