/* * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved. * 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 "precompiled.hpp" #include "c1/c1_IR.hpp" #include "c1/c1_InstructionPrinter.hpp" #include "c1/c1_ValueStack.hpp" // Implementation of ValueStack ValueStack::ValueStack(IRScope* scope, ValueStack* caller_state) : _scope(scope) , _caller_state(caller_state) , _bci(-99) , _kind(Parsing) , _locals(scope->method()->max_locals(), NULL) , _stack(scope->method()->max_stack()) , _locks() { verify(); } ValueStack::ValueStack(ValueStack* copy_from, Kind kind, int bci) : _scope(copy_from->scope()) , _caller_state(copy_from->caller_state()) , _bci(bci) , _kind(kind) , _locals() , _stack() , _locks(copy_from->locks_size()) { assert(kind != EmptyExceptionState || !Compilation::current()->env()->jvmti_can_access_local_variables(), "need locals"); if (kind != EmptyExceptionState) { // only allocate space if we need to copy the locals-array _locals = Values(copy_from->locals_size()); _locals.appendAll(©_from->_locals); } if (kind != ExceptionState && kind != EmptyExceptionState) { if (kind == Parsing) { // stack will be modified, so reserve enough space to avoid resizing _stack = Values(scope()->method()->max_stack()); } else { // stack will not be modified, so do not waste space _stack = Values(copy_from->stack_size()); } _stack.appendAll(©_from->_stack); } _locks.appendAll(©_from->_locks); verify(); } bool ValueStack::is_same(ValueStack* s) { if (scope() != s->scope()) return false; if (caller_state() != s->caller_state()) return false; if (locals_size() != s->locals_size()) return false; if (stack_size() != s->stack_size()) return false; if (locks_size() != s->locks_size()) return false; // compare each stack element with the corresponding stack element of s int index; Value value; for_each_stack_value(this, index, value) { if (value->type()->tag() != s->stack_at(index)->type()->tag()) return false; } for_each_lock_value(this, index, value) { if (value != s->lock_at(index)) return false; } return true; } void ValueStack::clear_locals() { for (int i = _locals.length() - 1; i >= 0; i--) { _locals.at_put(i, NULL); } } void ValueStack::pin_stack_for_linear_scan() { for_each_state_value(this, v, if (v->as_Constant() == NULL && v->as_Local() == NULL) { v->pin(Instruction::PinStackForStateSplit); } ); } // apply function to all values of a list; factored out from values_do(f) void ValueStack::apply(Values list, ValueVisitor* f) { for (int i = 0; i < list.length(); i++) { Value* va = list.adr_at(i); Value v0 = *va; if (v0 != NULL && !v0->type()->is_illegal()) { f->visit(va); #ifdef ASSERT Value v1 = *va; assert(v1->type()->is_illegal() || v0->type()->tag() == v1->type()->tag(), "types must match"); assert(!v1->type()->is_double_word() || list.at(i + 1) == NULL, "hi-word of doubleword value must be NULL"); #endif if (v0->type()->is_double_word()) i++; } } } void ValueStack::values_do(ValueVisitor* f) { ValueStack* state = this; for_each_state(state) { apply(state->_locals, f); apply(state->_stack, f); apply(state->_locks, f); } } Values* ValueStack::pop_arguments(int argument_size) { assert(stack_size() >= argument_size, "stack too small or too many arguments"); int base = stack_size() - argument_size; Values* args = new Values(argument_size); for (int i = base; i < stack_size();) args->push(stack_at_inc(i)); truncate_stack(base); return args; } int ValueStack::total_locks_size() const { int num_locks = 0; const ValueStack* state = this; for_each_state(state) { num_locks += state->locks_size(); } return num_locks; } int ValueStack::lock(Value obj) { _locks.push(obj); int num_locks = total_locks_size(); scope()->set_min_number_of_locks(num_locks); return num_locks - 1; } int ValueStack::unlock() { _locks.pop(); return total_locks_size(); } void ValueStack::setup_phi_for_stack(BlockBegin* b, int index) { assert(stack_at(index)->as_Phi() == NULL || stack_at(index)->as_Phi()->block() != b, "phi function already created"); ValueType* t = stack_at(index)->type(); Value phi = new Phi(t, b, -index - 1); _stack[index] = phi; assert(!t->is_double_word() || _stack.at(index + 1) == NULL, "hi-word of doubleword value must be NULL"); } void ValueStack::setup_phi_for_local(BlockBegin* b, int index) { assert(local_at(index)->as_Phi() == NULL || local_at(index)->as_Phi()->block() != b, "phi function already created"); ValueType* t = local_at(index)->type(); Value phi = new Phi(t, b, index); store_local(index, phi); } #ifndef PRODUCT void ValueStack::print() { scope()->method()->print_name(); if (stack_is_empty()) { tty->print_cr("empty stack"); } else { InstructionPrinter ip; for (int i = 0; i < stack_size();) { Value t = stack_at_inc(i); tty->print("%2d ", i); tty->print("%c%d ", t->type()->tchar(), t->id()); ip.print_instr(t); tty->cr(); } } if (!no_active_locks()) { InstructionPrinter ip; for (int i = 0; i < locks_size(); i++) { Value t = lock_at(i); tty->print("lock %2d ", i); if (t == NULL) { tty->print("this"); } else { tty->print("%c%d ", t->type()->tchar(), t->id()); ip.print_instr(t); } tty->cr(); } } if (locals_size() > 0) { InstructionPrinter ip; for (int i = 0; i < locals_size();) { Value l = _locals[i]; tty->print("local %d ", i); if (l == NULL) { tty->print("null"); i ++; } else { tty->print("%c%d ", l->type()->tchar(), l->id()); ip.print_instr(l); if (l->type()->is_illegal() || l->type()->is_single_word()) i ++; else i += 2; } tty->cr(); } } if (caller_state() != NULL) { caller_state()->print(); } } void ValueStack::verify() { assert(scope() != NULL, "scope must exist"); if (caller_state() != NULL) { assert(caller_state()->scope() == scope()->caller(), "invalid caller scope"); caller_state()->verify(); } if (kind() == Parsing) { assert(bci() == -99, "bci not defined during parsing"); } else { assert(bci() >= -1, "bci out of range"); assert(bci() < scope()->method()->code_size(), "bci out of range"); assert(bci() == SynchronizationEntryBCI || Bytecodes::is_defined(scope()->method()->java_code_at_bci(bci())), "make sure bci points at a real bytecode"); assert(scope()->method()->liveness_at_bci(bci()).is_valid(), "liveness at bci must be valid"); } int i; for (i = 0; i < stack_size(); i++) { Value v = _stack.at(i); if (v == NULL) { assert(_stack.at(i - 1)->type()->is_double_word(), "only hi-words are NULL on stack"); } else if (v->type()->is_double_word()) { assert(_stack.at(i + 1) == NULL, "hi-word must be NULL"); } } for (i = 0; i < locals_size(); i++) { Value v = _locals.at(i); if (v != NULL && v->type()->is_double_word()) { assert(_locals.at(i + 1) == NULL, "hi-word must be NULL"); } } for_each_state_value(this, v, assert(v != NULL, "just test if state-iteration succeeds"); ); } #endif // PRODUCT