--- old/src/share/vm/c1/c1_Instruction.cpp 2013-02-20 17:40:44.408461253 +0100 +++ new/src/share/vm/c1/c1_Instruction.cpp 2013-02-20 17:40:44.248644428 +0100 @@ -34,6 +34,15 @@ // Implementation of Instruction +int Instruction::dominator_depth() { + int result = -1; + if (block()) { + result = block()->dominator_depth(); + } + assert(result != -1 || this->as_Local(), "Only locals have dominator depth -1"); + return result; +} + Instruction::Condition Instruction::mirror(Condition cond) { switch (cond) { case eql: return eql; @@ -42,6 +51,8 @@ case leq: return geq; case gtr: return lss; case geq: return leq; + case aeq: return beq; + case beq: return aeq; } ShouldNotReachHere(); return eql; @@ -56,6 +67,8 @@ case leq: return gtr; case gtr: return leq; case geq: return lss; + case aeq: assert(false, "Above equal cannot be negated"); + case beq: assert(false, "Below equal cannot be negated"); } ShouldNotReachHere(); return eql; @@ -70,10 +83,10 @@ } } - -Instruction* Instruction::prev(BlockBegin* block) { +// Prev without need to have BlockBegin +Instruction* Instruction::prev() { Instruction* p = NULL; - Instruction* q = block; + Instruction* q = block(); while (q != this) { assert(q != NULL, "this is not in the block's instruction list"); p = q; q = q->next(); @@ -122,15 +135,24 @@ // perform constant and interval tests on index value bool AccessIndexed::compute_needs_range_check() { - Constant* clength = length()->as_Constant(); - Constant* cindex = index()->as_Constant(); - if (clength && cindex) { - IntConstant* l = clength->type()->as_IntConstant(); - IntConstant* i = cindex->type()->as_IntConstant(); - if (l && i && i->value() < l->value() && i->value() >= 0) { - return false; + + if (length()) { + + Constant* clength = length()->as_Constant(); + Constant* cindex = index()->as_Constant(); + if (clength && cindex) { + IntConstant* l = clength->type()->as_IntConstant(); + IntConstant* i = cindex->type()->as_IntConstant(); + if (l && i && i->value() < l->value() && i->value() >= 0) { + return false; + } } } + + if (!this->check_flag(NeedsRangeCheckFlag)) { + return false; + } + return true; } @@ -631,19 +653,25 @@ // of the inserted block, without recomputing the values of the other blocks // in the CFG. Therefore the value of "depth_first_number" in BlockBegin becomes meaningless. BlockBegin* BlockBegin::insert_block_between(BlockBegin* sux) { - BlockBegin* new_sux = new BlockBegin(end()->state()->bci()); + int bci = sux->bci(); + // critical edge splitting may introduce a goto after a if and array + // bound check elimination may insert a predicate between the if and + // goto. The bci of the goto can't be the one of the if otherwise + // the state and bci are inconsistent and a deoptimization triggered + // by the predicate would lead to incorrect execution/a crash. + BlockBegin* new_sux = new BlockBegin(bci); // mark this block (special treatment when block order is computed) new_sux->set(critical_edge_split_flag); // This goto is not a safepoint. Goto* e = new Goto(sux, false); - new_sux->set_next(e, end()->state()->bci()); + new_sux->set_next(e, bci); new_sux->set_end(e); // setup states ValueStack* s = end()->state(); - new_sux->set_state(s->copy()); - e->set_state(s->copy()); + new_sux->set_state(s->copy(s->kind(), bci)); + e->set_state(s->copy(s->kind(), bci)); assert(new_sux->state()->locals_size() == s->locals_size(), "local size mismatch!"); assert(new_sux->state()->stack_size() == s->stack_size(), "stack size mismatch!"); assert(new_sux->state()->locks_size() == s->locks_size(), "locks size mismatch!"); @@ -960,15 +988,14 @@ BlockList* sux = NULL; if (begin != NULL) { sux = begin->successors(); - } else if (_begin != NULL) { + } else if (this->begin() != NULL) { // copy our sux list - BlockList* sux = new BlockList(_begin->number_of_sux()); - for (int i = 0; i < _begin->number_of_sux(); i++) { - sux->append(_begin->sux_at(i)); + BlockList* sux = new BlockList(this->begin()->number_of_sux()); + for (int i = 0; i < this->begin()->number_of_sux(); i++) { + sux->append(this->begin()->sux_at(i)); } } _sux = sux; - _begin = begin; } @@ -1008,7 +1035,38 @@ } } +#ifndef PRODUCT +// Constructor of Assert +Assert::Assert(Value x, Condition cond, bool unordered_is_true, Value y) : Instruction(illegalType) + , _x(x) + , _cond(cond) + , _y(y) +{ + set_flag(UnorderedIsTrueFlag, unordered_is_true); + assert(x->type()->tag() == y->type()->tag(), "types must match"); + pin(); + + stringStream strStream; + Compilation::current()->method()->print_name(&strStream); + + stringStream strStream1; + InstructionPrinter ip1(1, &strStream1); + ip1.print_instr(x); + + stringStream strStream2; + InstructionPrinter ip2(1, &strStream2); + ip2.print_instr(y); + + _message = new char[1024]; + snprintf(_message, 1024, "Assertion %s %s %s in method %s", strStream1.as_string(), ip2.cond_name(cond), strStream2.as_string(), strStream.as_string()); +} + +#endif + +void RangeCheckPredicate::check_state() { + assert(state()->kind() != ValueStack::EmptyExceptionState && state()->kind() != ValueStack::ExceptionState, "will deopt with empty state"); +} void ProfileInvoke::state_values_do(ValueVisitor* f) { if (state() != NULL) state()->values_do(f);