/* * Copyright 2001-2007 Sun Microsystems, Inc. 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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. * */ #include "incls/_precompiled.incl" #include "incls/_ciMethodData.cpp.incl" // ciMethodData // ------------------------------------------------------------------ // ciMethodData::ciMethodData // ciMethodData::ciMethodData(methodDataHandle h_md) : ciObject(h_md) { assert(h_md() != NULL, "no null method data"); Copy::zero_to_words((HeapWord*) &_orig, sizeof(_orig) / sizeof(HeapWord)); _data = NULL; _data_size = 0; _extra_data_size = 0; _current_mileage = 0; _state = empty_state; _saw_free_extra_data = false; // Set an initial hint. Don't use set_hint_di() because // first_di() may be out of bounds if data_size is 0. _hint_di = first_di(); // Initialize the escape information (to "don't know."); _eflags = _arg_local = _arg_stack = _arg_returned = 0; } // ------------------------------------------------------------------ // ciMethodData::ciMethodData // // No methodDataOop. ciMethodData::ciMethodData() : ciObject() { Copy::zero_to_words((HeapWord*) &_orig, sizeof(_orig) / sizeof(HeapWord)); _data = NULL; _data_size = 0; _extra_data_size = 0; _current_mileage = 0; _state = empty_state; _saw_free_extra_data = false; // Set an initial hint. Don't use set_hint_di() because // first_di() may be out of bounds if data_size is 0. _hint_di = first_di(); // Initialize the escape information (to "don't know."); _eflags = _arg_local = _arg_stack = _arg_returned = 0; } void ciMethodData::load_data() { methodDataOop mdo = get_methodDataOop(); if (mdo == NULL) return; // To do: don't copy the data if it is not "ripe" -- require a minimum # // of invocations. // Snapshot the data -- actually, take an approximate snapshot of // the data. Any concurrently executing threads may be changing the // data as we copy it. int skip_header = oopDesc::header_size(); Copy::disjoint_words((HeapWord*) mdo + skip_header, (HeapWord*) &_orig + skip_header, sizeof(_orig) / HeapWordSize - skip_header); DEBUG_ONLY(*_orig.adr_method() = NULL); // no dangling oops, please Arena* arena = CURRENT_ENV->arena(); _data_size = mdo->data_size(); _extra_data_size = mdo->extra_data_size(); int total_size = _data_size + _extra_data_size; _data = (intptr_t *) arena->Amalloc(total_size); Copy::disjoint_words((HeapWord*) mdo->data_base(), (HeapWord*) _data, total_size / HeapWordSize); // Traverse the profile data, translating any oops into their // ci equivalents. ResourceMark rm; ciProfileData* ci_data = first_data(); ProfileData* data = mdo->first_data(); while (is_valid(ci_data)) { ci_data->translate_from(data); ci_data = next_data(ci_data); data = mdo->next_data(data); } // Note: Extra data are all BitData, and do not need translation. _current_mileage = methodDataOopDesc::mileage_of(mdo->method()); _state = mdo->is_mature()? mature_state: immature_state; _eflags = mdo->eflags(); _arg_local = mdo->arg_local(); _arg_stack = mdo->arg_stack(); _arg_returned = mdo->arg_returned(); } void ciReceiverTypeData::translate_receiver_data_from(ProfileData* data) { for (uint row = 0; row < row_limit(); row++) { klassOop k = data->as_ReceiverTypeData()->receiver(row); if (k != NULL) { ciKlass* klass = CURRENT_ENV->get_object(k)->as_klass(); set_receiver(row, klass); } } } // Get the data at an arbitrary (sort of) data index. ciProfileData* ciMethodData::data_at(int data_index) { if (out_of_bounds(data_index)) { return NULL; } DataLayout* data_layout = data_layout_at(data_index); switch (data_layout->tag()) { case DataLayout::no_tag: default: ShouldNotReachHere(); return NULL; case DataLayout::bit_data_tag: return new ciBitData(data_layout); case DataLayout::counter_data_tag: return new ciCounterData(data_layout); case DataLayout::jump_data_tag: return new ciJumpData(data_layout); case DataLayout::receiver_type_data_tag: return new ciReceiverTypeData(data_layout); case DataLayout::virtual_call_data_tag: return new ciVirtualCallData(data_layout); case DataLayout::ret_data_tag: return new ciRetData(data_layout); case DataLayout::branch_data_tag: return new ciBranchData(data_layout); case DataLayout::multi_branch_data_tag: return new ciMultiBranchData(data_layout); case DataLayout::arg_info_data_tag: return new ciArgInfoData(data_layout); }; } // Iteration over data. ciProfileData* ciMethodData::next_data(ciProfileData* current) { int current_index = dp_to_di(current->dp()); int next_index = current_index + current->size_in_bytes(); ciProfileData* next = data_at(next_index); return next; } // Translate a bci to its corresponding data, or NULL. ciProfileData* ciMethodData::bci_to_data(int bci) { ciProfileData* data = data_before(bci); for ( ; is_valid(data); data = next_data(data)) { if (data->bci() == bci) { set_hint_di(dp_to_di(data->dp())); return data; } else if (data->bci() > bci) { break; } } // bci_to_extra_data(bci) ... DataLayout* dp = data_layout_at(data_size()); DataLayout* end = data_layout_at(data_size() + extra_data_size()); for (; dp < end; dp = methodDataOopDesc::next_extra(dp)) { if (dp->tag() == DataLayout::no_tag) { _saw_free_extra_data = true; // observed an empty slot (common case) return NULL; } if (dp->tag() == DataLayout::arg_info_data_tag) { break; // ArgInfoData is at the end of extra data section. } if (dp->bci() == bci) { assert(dp->tag() == DataLayout::bit_data_tag, "sane"); return new ciBitData(dp); } } return NULL; } // Conservatively decode the trap_state of a ciProfileData. int ciMethodData::has_trap_at(ciProfileData* data, int reason) { typedef Deoptimization::DeoptReason DR_t; int per_bc_reason = Deoptimization::reason_recorded_per_bytecode_if_any((DR_t) reason); if (trap_count(reason) == 0) { // Impossible for this trap to have occurred, regardless of trap_state. // Note: This happens if the MDO is empty. return 0; } else if (per_bc_reason == Deoptimization::Reason_none) { // We cannot conclude anything; a trap happened somewhere, maybe here. return -1; } else if (data == NULL) { // No profile here, not even an extra_data record allocated on the fly. // If there are empty extra_data records, and there had been a trap, // there would have been a non-null data pointer. If there are no // free extra_data records, we must return a conservative -1. if (_saw_free_extra_data) return 0; // Q.E.D. else return -1; // bail with a conservative answer } else { return Deoptimization::trap_state_has_reason(data->trap_state(), per_bc_reason); } } int ciMethodData::trap_recompiled_at(ciProfileData* data) { if (data == NULL) { return (_saw_free_extra_data? 0: -1); // (see previous method) } else { return Deoptimization::trap_state_is_recompiled(data->trap_state())? 1: 0; } } void ciMethodData::clear_escape_info() { VM_ENTRY_MARK; methodDataOop mdo = get_methodDataOop(); if (mdo != NULL) { mdo->clear_escape_info(); ArgInfoData *aid = arg_info(); int arg_count = (aid == NULL) ? 0 : aid->number_of_args(); for (int i = 0; i < arg_count; i++) { set_arg_modified(i, 0); } } _eflags = _arg_local = _arg_stack = _arg_returned = 0; } // copy our escape info to the methodDataOop if it exists void ciMethodData::update_escape_info() { VM_ENTRY_MARK; methodDataOop mdo = get_methodDataOop(); if ( mdo != NULL) { mdo->set_eflags(_eflags); mdo->set_arg_local(_arg_local); mdo->set_arg_stack(_arg_stack); mdo->set_arg_returned(_arg_returned); int arg_count = mdo->method()->size_of_parameters(); for (int i = 0; i < arg_count; i++) { mdo->set_arg_modified(i, arg_modified(i)); } } } bool ciMethodData::has_escape_info() { return eflag_set(methodDataOopDesc::estimated); } void ciMethodData::set_eflag(methodDataOopDesc::EscapeFlag f) { set_bits(_eflags, f); } void ciMethodData::clear_eflag(methodDataOopDesc::EscapeFlag f) { clear_bits(_eflags, f); } bool ciMethodData::eflag_set(methodDataOopDesc::EscapeFlag f) const { return mask_bits(_eflags, f) != 0; } void ciMethodData::set_arg_local(int i) { set_nth_bit(_arg_local, i); } void ciMethodData::set_arg_stack(int i) { set_nth_bit(_arg_stack, i); } void ciMethodData::set_arg_returned(int i) { set_nth_bit(_arg_returned, i); } void ciMethodData::set_arg_modified(int arg, uint val) { ArgInfoData *aid = arg_info(); if (aid == NULL) return; assert(arg >= 0 && arg < aid->number_of_args(), "valid argument number"); aid->set_arg_modified(arg, val); } bool ciMethodData::is_arg_local(int i) const { return is_set_nth_bit(_arg_local, i); } bool ciMethodData::is_arg_stack(int i) const { return is_set_nth_bit(_arg_stack, i); } bool ciMethodData::is_arg_returned(int i) const { return is_set_nth_bit(_arg_returned, i); } uint ciMethodData::arg_modified(int arg) const { ArgInfoData *aid = arg_info(); if (aid == NULL) return 0; assert(arg >= 0 && arg < aid->number_of_args(), "valid argument number"); return aid->arg_modified(arg); } ByteSize ciMethodData::offset_of_slot(ciProfileData* data, ByteSize slot_offset_in_data) { // Get offset within methodDataOop of the data array ByteSize data_offset = methodDataOopDesc::data_offset(); // Get cell offset of the ProfileData within data array int cell_offset = dp_to_di(data->dp()); // Add in counter_offset, the # of bytes into the ProfileData of counter or flag int offset = in_bytes(data_offset) + cell_offset + in_bytes(slot_offset_in_data); return in_ByteSize(offset); } ciArgInfoData *ciMethodData::arg_info() const { // Should be last, have to skip all traps. DataLayout* dp = data_layout_at(data_size()); DataLayout* end = data_layout_at(data_size() + extra_data_size()); for (; dp < end; dp = methodDataOopDesc::next_extra(dp)) { if (dp->tag() == DataLayout::arg_info_data_tag) return new ciArgInfoData(dp); } return NULL; } // Implementation of the print method. void ciMethodData::print_impl(outputStream* st) { ciObject::print_impl(st); } #ifndef PRODUCT void ciMethodData::print() { print_data_on(tty); } void ciMethodData::print_data_on(outputStream* st) { ResourceMark rm; ciProfileData* data; for (data = first_data(); is_valid(data); data = next_data(data)) { st->print("%d", dp_to_di(data->dp())); st->fill_to(6); data->print_data_on(st); } st->print_cr("--- Extra data:"); DataLayout* dp = data_layout_at(data_size()); DataLayout* end = data_layout_at(data_size() + extra_data_size()); for (; dp < end; dp = methodDataOopDesc::next_extra(dp)) { if (dp->tag() == DataLayout::no_tag) continue; if (dp->tag() == DataLayout::bit_data_tag) { data = new BitData(dp); } else { assert(dp->tag() == DataLayout::arg_info_data_tag, "must be BitData or ArgInfo"); data = new ciArgInfoData(dp); dp = end; // ArgInfoData is at the end of extra data section. } st->print("%d", dp_to_di(data->dp())); st->fill_to(6); data->print_data_on(st); } } void ciReceiverTypeData::print_receiver_data_on(outputStream* st) { uint row; int entries = 0; for (row = 0; row < row_limit(); row++) { if (receiver(row) != NULL) entries++; } st->print_cr("count(%u) entries(%u)", count(), entries); for (row = 0; row < row_limit(); row++) { if (receiver(row) != NULL) { tab(st); receiver(row)->print_name_on(st); st->print_cr("(%u)", receiver_count(row)); } } } void ciReceiverTypeData::print_data_on(outputStream* st) { print_shared(st, "ciReceiverTypeData"); print_receiver_data_on(st); } void ciVirtualCallData::print_data_on(outputStream* st) { print_shared(st, "ciVirtualCallData"); rtd_super()->print_receiver_data_on(st); } #endif