Mercurial > hg > graal-compiler
view src/share/vm/shark/sharkTopLevelBlock.hpp @ 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> |
---|---|
date | Tue, 28 Dec 2010 18:33:26 +0100 |
parents | d2ede61b7a12 |
children | f95d63e2154a |
line wrap: on
line source
/* * 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. * */ class SharkTopLevelBlock : public SharkBlock { public: SharkTopLevelBlock(SharkFunction* function, ciTypeFlow::Block* ciblock) : SharkBlock(function), _function(function), _ciblock(ciblock), _entered(false), _has_trap(false), _needs_phis(false), _entry_state(NULL), _entry_block(NULL) {} private: SharkFunction* _function; ciTypeFlow::Block* _ciblock; public: SharkFunction* function() const { return _function; } ciTypeFlow::Block* ciblock() const { return _ciblock; } // Function properties public: SharkStack* stack() const { return function()->stack(); } // Typeflow properties public: int index() const { return ciblock()->pre_order(); } bool is_backedge_copy() const { return ciblock()->is_backedge_copy(); } int stack_depth_at_entry() const { return ciblock()->stack_size(); } ciType* local_type_at_entry(int index) const { return ciblock()->local_type_at(index); } ciType* stack_type_at_entry(int slot) const { return ciblock()->stack_type_at(slot); } int start() const { return ciblock()->start(); } int limit() const { return ciblock()->limit(); } bool falls_through() const { return ciblock()->control() == ciBlock::fall_through_bci; } int num_successors() const { return ciblock()->successors()->length(); } SharkTopLevelBlock* successor(int index) const { return function()->block(ciblock()->successors()->at(index)->pre_order()); } SharkTopLevelBlock* bci_successor(int bci) const; // Exceptions private: GrowableArray<ciExceptionHandler*>* _exc_handlers; GrowableArray<SharkTopLevelBlock*>* _exceptions; private: void compute_exceptions(); private: int num_exceptions() const { return _exc_handlers->length(); } ciExceptionHandler* exc_handler(int index) const { return _exc_handlers->at(index); } SharkTopLevelBlock* exception(int index) const { return _exceptions->at(index); } // Traps private: bool _has_trap; int _trap_request; int _trap_bci; void set_trap(int trap_request, int trap_bci) { assert(!has_trap(), "shouldn't have"); _has_trap = true; _trap_request = trap_request; _trap_bci = trap_bci; } private: bool has_trap() { return _has_trap; } int trap_request() { assert(has_trap(), "should have"); return _trap_request; } int trap_bci() { assert(has_trap(), "should have"); return _trap_bci; } private: void scan_for_traps(); private: bool static_field_ok_in_clinit(ciField* field); // Entry state private: bool _entered; bool _needs_phis; public: bool entered() const { return _entered; } bool needs_phis() const { return _needs_phis; } private: void enter(SharkTopLevelBlock* predecessor, bool is_exception); public: void enter() { enter(NULL, false); } private: SharkState* _entry_state; private: SharkState* entry_state(); private: llvm::BasicBlock* _entry_block; public: llvm::BasicBlock* entry_block() const { return _entry_block; } public: void initialize(); public: void add_incoming(SharkState* incoming_state); // Method public: llvm::Value* method() { return current_state()->method(); } // Temporary oop storage public: void set_oop_tmp(llvm::Value* value) { assert(value, "value must be non-NULL (will be reset by get_oop_tmp)"); assert(!current_state()->oop_tmp(), "oop_tmp gets and sets must match"); current_state()->set_oop_tmp(value); } llvm::Value* get_oop_tmp() { llvm::Value* value = current_state()->oop_tmp(); assert(value, "oop_tmp gets and sets must match"); current_state()->set_oop_tmp(NULL); return value; } // Cache and decache private: void decache_for_Java_call(ciMethod* callee); void cache_after_Java_call(ciMethod* callee); void decache_for_VM_call(); void cache_after_VM_call(); void decache_for_trap(); // Monitors private: int num_monitors() { return current_state()->num_monitors(); } int set_num_monitors(int num_monitors) { current_state()->set_num_monitors(num_monitors); } // Code generation public: void emit_IR(); // Branch helpers private: void do_branch(int successor_index); // Zero checks private: void do_zero_check(SharkValue* value); void zero_check_value(SharkValue* value, llvm::BasicBlock* continue_block); public: void do_deferred_zero_check(SharkValue* value, int bci, SharkState* saved_state, llvm::BasicBlock* continue_block); // Exceptions private: llvm::Value* pending_exception_address() const { return builder()->CreateAddressOfStructEntry( thread(), Thread::pending_exception_offset(), llvm::PointerType::getUnqual(SharkType::oop_type()), "pending_exception_addr"); } llvm::LoadInst* get_pending_exception() const { return builder()->CreateLoad( pending_exception_address(), "pending_exception"); } void clear_pending_exception() const { builder()->CreateStore(LLVMValue::null(), pending_exception_address()); } public: enum ExceptionActionMask { // The actual bitmasks that things test against EAM_CHECK = 1, // whether to check for pending exceptions EAM_HANDLE = 2, // whether to attempt to handle pending exceptions EAM_MONITOR_FUDGE = 4, // whether the monitor count needs adjusting // More convenient values for passing EX_CHECK_NONE = 0, EX_CHECK_NO_CATCH = EAM_CHECK, EX_CHECK_FULL = EAM_CHECK | EAM_HANDLE }; void check_pending_exception(int action); void handle_exception(llvm::Value* exception, int action); void marshal_exception_fast(int num_options); void marshal_exception_slow(int num_options); llvm::BasicBlock* handler_for_exception(int index); // VM calls private: llvm::CallInst* call_vm(llvm::Value* callee, llvm::Value** args_start, llvm::Value** args_end, int exception_action) { decache_for_VM_call(); stack()->CreateSetLastJavaFrame(); llvm::CallInst *res = builder()->CreateCall(callee, args_start, args_end); stack()->CreateResetLastJavaFrame(); cache_after_VM_call(); if (exception_action & EAM_CHECK) { check_pending_exception(exception_action); current_state()->set_has_safepointed(true); } return res; } public: llvm::CallInst* call_vm(llvm::Value* callee, int exception_action) { llvm::Value *args[] = {thread()}; return call_vm(callee, args, args + 1, exception_action); } llvm::CallInst* call_vm(llvm::Value* callee, llvm::Value* arg1, int exception_action) { llvm::Value *args[] = {thread(), arg1}; return call_vm(callee, args, args + 2, exception_action); } llvm::CallInst* call_vm(llvm::Value* callee, llvm::Value* arg1, llvm::Value* arg2, int exception_action) { llvm::Value *args[] = {thread(), arg1, arg2}; return call_vm(callee, args, args + 3, exception_action); } llvm::CallInst* call_vm(llvm::Value* callee, llvm::Value* arg1, llvm::Value* arg2, llvm::Value* arg3, int exception_action) { llvm::Value *args[] = {thread(), arg1, arg2, arg3}; return call_vm(callee, args, args + 4, exception_action); } // VM call oop return handling private: llvm::LoadInst* get_vm_result() const { llvm::Value *addr = builder()->CreateAddressOfStructEntry( thread(), JavaThread::vm_result_offset(), llvm::PointerType::getUnqual(SharkType::oop_type()), "vm_result_addr"); llvm::LoadInst *result = builder()->CreateLoad(addr, "vm_result"); builder()->CreateStore(LLVMValue::null(), addr); return result; } // Synchronization private: void acquire_lock(llvm::Value* lockee, int exception_action); void release_lock(int exception_action); public: void acquire_method_lock(); // Bounds checks private: void check_bounds(SharkValue* array, SharkValue* index); // Safepoints private: void maybe_add_safepoint(); void maybe_add_backedge_safepoint(); // Loop safepoint removal private: bool _can_reach_visited; bool can_reach(SharkTopLevelBlock* other); bool can_reach_helper(SharkTopLevelBlock* other); // Traps private: llvm::BasicBlock* make_trap(int trap_bci, int trap_request); void do_trap(int trap_request); // Returns private: void call_register_finalizer(llvm::Value* receiver); void handle_return(BasicType type, llvm::Value* exception); // arraylength private: void do_arraylength(); // *aload and *astore private: void do_aload(BasicType basic_type); void do_astore(BasicType basic_type); // *return and athrow private: void do_return(BasicType type); void do_athrow(); // goto* private: void do_goto(); // jsr* and ret private: void do_jsr(); void do_ret(); // if* private: void do_if_helper(llvm::ICmpInst::Predicate p, llvm::Value* b, llvm::Value* a, SharkState* if_taken_state, SharkState* not_taken_state); void do_if(llvm::ICmpInst::Predicate p, SharkValue* b, SharkValue* a); // tableswitch and lookupswitch private: void do_switch(); // invoke* private: ciMethod* improve_virtual_call(ciMethod* caller, ciInstanceKlass* klass, ciMethod* dest_method, ciType* receiver_type); llvm::Value* get_direct_callee(ciMethod* method); llvm::Value* get_virtual_callee(SharkValue* receiver, int vtable_index); llvm::Value* get_interface_callee(SharkValue* receiver, ciMethod* method); void do_call(); // checkcast and instanceof private: bool static_subtype_check(ciKlass* check_klass, ciKlass* object_klass); void do_full_instance_check(ciKlass* klass); void do_trapping_instance_check(ciKlass* klass); void do_instance_check(); bool maybe_do_instanceof_if(); // new and *newarray private: void do_new(); void do_newarray(); void do_anewarray(); void do_multianewarray(); // monitorenter and monitorexit private: void do_monitorenter(); void do_monitorexit(); };