// Get a measure of how much mileage the method has on it.
int methodDataOopDesc::mileage_of(methodOop method) {
int mileage = 0;
#ifdef COMPILER2
int iic = method->interpreter_invocation_count();
if (mileage < iic) mileage = iic;
#endif
int icval = method->invocation_counter()->count();
if (mileage < icval) mileage = icval;
int bcval = method->backedge_counter()->count();
if (mileage < bcval) mileage = bcval;
return mileage;
}
// Get a measure of how much mileage the method has on it.
int methodDataOopDesc::mileage_of(methodOop method) {
int mileage = 0;
int iic = method->interpreter_invocation_count();
if (mileage < iic) mileage = iic;
InvocationCounter* ic = method->invocation_counter();
InvocationCounter* bc = method->backedge_counter();
int icval = ic->count();
if (ic->carry()) icval += CompileThreshold;
if (mileage < icval) mileage = icval;
int bcval = bc->count();
if (bc->carry()) bcval += CompileThreshold;
if (mileage < bcval) mileage = bcval;
return mileage;
}
int CppInterpreter::native_entry(methodOop method, intptr_t UNUSED, TRAPS) {
// Make sure method is native and not abstract
assert(method->is_native() && !method->is_abstract(), "should be");
JavaThread *thread = (JavaThread *) THREAD;
ZeroStack *stack = thread->zero_stack();
// Allocate and initialize our frame
InterpreterFrame *frame = InterpreterFrame::build(method, CHECK_0);
thread->push_zero_frame(frame);
interpreterState istate = frame->interpreter_state();
intptr_t *locals = istate->locals();
// Update the invocation counter
if ((UseCompiler || CountCompiledCalls) && !method->is_synchronized()) {
InvocationCounter *counter = method->invocation_counter();
counter->increment();
if (counter->reached_InvocationLimit()) {
CALL_VM_NOCHECK(
InterpreterRuntime::frequency_counter_overflow(thread, NULL));
if (HAS_PENDING_EXCEPTION)
goto unwind_and_return;
}
}
// Lock if necessary
BasicObjectLock *monitor;
monitor = NULL;
if (method->is_synchronized()) {
monitor = (BasicObjectLock*) istate->stack_base();
oop lockee = monitor->obj();
markOop disp = lockee->mark()->set_unlocked();
monitor->lock()->set_displaced_header(disp);
if (Atomic::cmpxchg_ptr(monitor, lockee->mark_addr(), disp) != disp) {
if (thread->is_lock_owned((address) disp->clear_lock_bits())) {
monitor->lock()->set_displaced_header(NULL);
}
else {
CALL_VM_NOCHECK(InterpreterRuntime::monitorenter(thread, monitor));
if (HAS_PENDING_EXCEPTION)
goto unwind_and_return;
}
}
}
// Get the signature handler
InterpreterRuntime::SignatureHandler *handler; {
address handlerAddr = method->signature_handler();
if (handlerAddr == NULL) {
CALL_VM_NOCHECK(InterpreterRuntime::prepare_native_call(thread, method));
if (HAS_PENDING_EXCEPTION)
goto unlock_unwind_and_return;
handlerAddr = method->signature_handler();
assert(handlerAddr != NULL, "eh?");
}
if (handlerAddr == (address) InterpreterRuntime::slow_signature_handler) {
CALL_VM_NOCHECK(handlerAddr =
InterpreterRuntime::slow_signature_handler(thread, method, NULL,NULL));
if (HAS_PENDING_EXCEPTION)
goto unlock_unwind_and_return;
}
handler = \
InterpreterRuntime::SignatureHandler::from_handlerAddr(handlerAddr);
}
// Get the native function entry point
address function;
function = method->native_function();
assert(function != NULL, "should be set if signature handler is");
// Build the argument list
stack->overflow_check(handler->argument_count() * 2, THREAD);
if (HAS_PENDING_EXCEPTION)
goto unlock_unwind_and_return;
void **arguments;
void *mirror; {
arguments =
(void **) stack->alloc(handler->argument_count() * sizeof(void **));
void **dst = arguments;
void *env = thread->jni_environment();
*(dst++) = &env;
if (method->is_static()) {
istate->set_oop_temp(
method->constants()->pool_holder()->java_mirror());
mirror = istate->oop_temp_addr();
*(dst++) = &mirror;
}
intptr_t *src = locals;
for (int i = dst - arguments; i < handler->argument_count(); i++) {
ffi_type *type = handler->argument_type(i);
if (type == &ffi_type_pointer) {
if (*src) {
stack->push((intptr_t) src);
*(dst++) = stack->sp();
}
else {
*(dst++) = src;
}
src--;
}
else if (type->size == 4) {
*(dst++) = src--;
}
else if (type->size == 8) {
src--;
*(dst++) = src--;
}
else {
ShouldNotReachHere();
}
}
}
// Set up the Java frame anchor
thread->set_last_Java_frame();
// Change the thread state to _thread_in_native
ThreadStateTransition::transition_from_java(thread, _thread_in_native);
// Make the call
intptr_t result[4 - LogBytesPerWord];
ffi_call(handler->cif(), (void (*)()) function, result, arguments);
// Change the thread state back to _thread_in_Java.
// ThreadStateTransition::transition_from_native() cannot be used
// here because it does not check for asynchronous exceptions.
// We have to manage the transition ourself.
thread->set_thread_state(_thread_in_native_trans);
// Make sure new state is visible in the GC thread
if (os::is_MP()) {
if (UseMembar) {
OrderAccess::fence();
}
else {
InterfaceSupport::serialize_memory(thread);
}
}
// Handle safepoint operations, pending suspend requests,
// and pending asynchronous exceptions.
if (SafepointSynchronize::do_call_back() ||
thread->has_special_condition_for_native_trans()) {
JavaThread::check_special_condition_for_native_trans(thread);
CHECK_UNHANDLED_OOPS_ONLY(thread->clear_unhandled_oops());
}
// Finally we can change the thread state to _thread_in_Java.
thread->set_thread_state(_thread_in_Java);
fixup_after_potential_safepoint();
// Clear the frame anchor
thread->reset_last_Java_frame();
// If the result was an oop then unbox it and store it in
// oop_temp where the garbage collector can see it before
// we release the handle it might be protected by.
if (handler->result_type() == &ffi_type_pointer) {
if (result[0])
istate->set_oop_temp(*(oop *) result[0]);
else
istate->set_oop_temp(NULL);
}
// Reset handle block
thread->active_handles()->clear();
unlock_unwind_and_return:
// Unlock if necessary
if (monitor) {
BasicLock *lock = monitor->lock();
markOop header = lock->displaced_header();
oop rcvr = monitor->obj();
monitor->set_obj(NULL);
if (header != NULL) {
if (Atomic::cmpxchg_ptr(header, rcvr->mark_addr(), lock) != lock) {
monitor->set_obj(rcvr); {
HandleMark hm(thread);
CALL_VM_NOCHECK(InterpreterRuntime::monitorexit(thread, monitor));
}
}
}
}
unwind_and_return:
// Unwind the current activation
thread->pop_zero_frame();
// Pop our parameters
stack->set_sp(stack->sp() + method->size_of_parameters());
// Push our result
if (!HAS_PENDING_EXCEPTION) {
BasicType type = result_type_of(method);
stack->set_sp(stack->sp() - type2size[type]);
switch (type) {
case T_VOID:
break;
case T_BOOLEAN:
#ifndef VM_LITTLE_ENDIAN
result[0] <<= (BitsPerWord - BitsPerByte);
#endif
SET_LOCALS_INT(*(jboolean *) result != 0, 0);
break;
case T_CHAR:
#ifndef VM_LITTLE_ENDIAN
result[0] <<= (BitsPerWord - BitsPerShort);
#endif
SET_LOCALS_INT(*(jchar *) result, 0);
break;
case T_BYTE:
#ifndef VM_LITTLE_ENDIAN
result[0] <<= (BitsPerWord - BitsPerByte);
#endif
SET_LOCALS_INT(*(jbyte *) result, 0);
break;
case T_SHORT:
#ifndef VM_LITTLE_ENDIAN
result[0] <<= (BitsPerWord - BitsPerShort);
#endif
SET_LOCALS_INT(*(jshort *) result, 0);
break;
case T_INT:
#ifndef VM_LITTLE_ENDIAN
result[0] <<= (BitsPerWord - BitsPerInt);
#endif
SET_LOCALS_INT(*(jint *) result, 0);
break;
case T_LONG:
SET_LOCALS_LONG(*(jlong *) result, 0);
break;
case T_FLOAT:
SET_LOCALS_FLOAT(*(jfloat *) result, 0);
break;
case T_DOUBLE:
SET_LOCALS_DOUBLE(*(jdouble *) result, 0);
break;
case T_OBJECT:
case T_ARRAY:
SET_LOCALS_OBJECT(istate->oop_temp(), 0);
break;
default:
ShouldNotReachHere();
}
}
// No deoptimized frames on the stack
return 0;
}
void NonTieredCompPolicy::disable_compilation(methodOop method) {
method->invocation_counter()->set_state(InvocationCounter::wait_for_nothing);
method->backedge_counter()->set_state(InvocationCounter::wait_for_nothing);
}
// This method can be called by any component of the runtime to notify the policy
// that it's recommended to delay the complation of this method.
void NonTieredCompPolicy::delay_compilation(methodOop method) {
method->invocation_counter()->decay();
method->backedge_counter()->decay();
}
static void do_method(methodOop m) {
m->invocation_counter()->decay();
}