/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* 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.
*
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#include "precompiled.hpp"
#include "c1/c1_FrameMap.hpp"
#include "c1/c1_LIR.hpp"
#include "code/vmreg.inline.hpp"
#include "runtime/sharedRuntime.hpp"
#include "utilities/align.hpp"
//-----------------------------------------------------
// Convert method signature into an array of BasicTypes for the arguments
BasicTypeArray* FrameMap::signature_type_array_for(const ciMethod* method) {
ciSignature* sig = method->signature();
BasicTypeList* sta = new BasicTypeList(method->arg_size());
// add receiver, if any
if (!method->is_static()) sta->append(T_OBJECT);
// add remaining arguments
for (int i = 0; i < sig->count(); i++) {
ciType* type = sig->type_at(i);
BasicType t = type->basic_type();
if (t == T_ARRAY) {
t = T_OBJECT;
}
sta->append(t);
}
// done
return sta;
}
CallingConvention* FrameMap::java_calling_convention(const BasicTypeArray* signature, bool outgoing) {
// compute the size of the arguments first. The signature array
// that java_calling_convention takes includes a T_VOID after double
// work items but our signatures do not.
int i;
int sizeargs = 0;
for (i = 0; i < signature->length(); i++) {
sizeargs += type2size[signature->at(i)];
}
BasicType* sig_bt = NEW_RESOURCE_ARRAY(BasicType, sizeargs);
VMRegPair* regs = NEW_RESOURCE_ARRAY(VMRegPair, sizeargs);
int sig_index = 0;
for (i = 0; i < sizeargs; i++, sig_index++) {
sig_bt[i] = signature->at(sig_index);
if (sig_bt[i] == T_LONG || sig_bt[i] == T_DOUBLE) {
sig_bt[i + 1] = T_VOID;
i++;
}
}
intptr_t out_preserve = SharedRuntime::java_calling_convention(sig_bt, regs, sizeargs, outgoing);
LIR_OprList* args = new LIR_OprList(signature->length());
for (i = 0; i < sizeargs;) {
BasicType t = sig_bt[i];
assert(t != T_VOID, "should be skipping these");
LIR_Opr opr = map_to_opr(t, regs + i, outgoing);
args->append(opr);
if (opr->is_address()) {
LIR_Address* addr = opr->as_address_ptr();
assert(addr->disp() == (int)addr->disp(), "out of range value");
out_preserve = MAX2(out_preserve, (intptr_t)(addr->disp() - STACK_BIAS) / 4);
}
i += type2size[t];
}
assert(args->length() == signature->length(), "size mismatch");
out_preserve += SharedRuntime::out_preserve_stack_slots();
if (outgoing) {
// update the space reserved for arguments.
update_reserved_argument_area_size(out_preserve * BytesPerWord);
}
return new CallingConvention(args, out_preserve);
}
CallingConvention* FrameMap::c_calling_convention(const BasicTypeArray* signature) {
// compute the size of the arguments first. The signature array
// that java_calling_convention takes includes a T_VOID after double
// work items but our signatures do not.
int i;
int sizeargs = 0;
for (i = 0; i < signature->length(); i++) {
sizeargs += type2size[signature->at(i)];
}
BasicType* sig_bt = NEW_RESOURCE_ARRAY(BasicType, sizeargs);
VMRegPair* regs = NEW_RESOURCE_ARRAY(VMRegPair, sizeargs);
int sig_index = 0;
for (i = 0; i < sizeargs; i++, sig_index++) {
sig_bt[i] = signature->at(sig_index);
if (sig_bt[i] == T_LONG || sig_bt[i] == T_DOUBLE) {
sig_bt[i + 1] = T_VOID;
i++;
}
}
intptr_t out_preserve = SharedRuntime::c_calling_convention(sig_bt, regs, NULL, sizeargs);
LIR_OprList* args = new LIR_OprList(signature->length());
for (i = 0; i < sizeargs;) {
BasicType t = sig_bt[i];
assert(t != T_VOID, "should be skipping these");
// C calls are always outgoing
bool outgoing = true;
LIR_Opr opr = map_to_opr(t, regs + i, outgoing);
// they might be of different types if for instance floating point
// values are passed in cpu registers, but the sizes must match.
assert(type2size[opr->type()] == type2size[t], "type mismatch");
args->append(opr);
if (opr->is_address()) {
LIR_Address* addr = opr->as_address_ptr();
out_preserve = MAX2(out_preserve, (intptr_t)(addr->disp() - STACK_BIAS) / 4);
}
i += type2size[t];
}
assert(args->length() == signature->length(), "size mismatch");
out_preserve += SharedRuntime::out_preserve_stack_slots();
update_reserved_argument_area_size(out_preserve * BytesPerWord);
return new CallingConvention(args, out_preserve);
}
//--------------------------------------------------------
// FrameMap
//--------------------------------------------------------
bool FrameMap::_init_done = false;
Register FrameMap::_cpu_rnr2reg [FrameMap::nof_cpu_regs];
int FrameMap::_cpu_reg2rnr [FrameMap::nof_cpu_regs];
FrameMap::FrameMap(ciMethod* method, int monitors, int reserved_argument_area_size) {
assert(_init_done, "should already be completed");
_framesize = -1;
_num_spills = -1;
assert(monitors >= 0, "not set");
_num_monitors = monitors;
assert(reserved_argument_area_size >= 0, "not set");
_reserved_argument_area_size = MAX2(4, reserved_argument_area_size) * BytesPerWord;
_argcount = method->arg_size();
_argument_locations = new intArray(_argcount, _argcount, -1);
_incoming_arguments = java_calling_convention(signature_type_array_for(method), false);
_oop_map_arg_count = _incoming_arguments->reserved_stack_slots();
int java_index = 0;
for (int i = 0; i < _incoming_arguments->length(); i++) {
LIR_Opr opr = _incoming_arguments->at(i);
if (opr->is_address()) {
LIR_Address* address = opr->as_address_ptr();
_argument_locations->at_put(java_index, address->disp() - STACK_BIAS);
_incoming_arguments->args()->at_put(i, LIR_OprFact::stack(java_index, as_BasicType(as_ValueType(address->type()))));
}
java_index += type2size[opr->type()];
}
}
bool FrameMap::finalize_frame(int nof_slots) {
assert(nof_slots >= 0, "must be positive");
assert(_num_spills == -1, "can only be set once");
_num_spills = nof_slots;
assert(_framesize == -1, "should only be calculated once");
_framesize = align_up(in_bytes(sp_offset_for_monitor_base(0)) +
_num_monitors * (int)sizeof(BasicObjectLock) +
(int)sizeof(intptr_t) + // offset of deopt orig pc
frame_pad_in_bytes,
StackAlignmentInBytes) / 4;
int java_index = 0;
for (int i = 0; i < _incoming_arguments->length(); i++) {
LIR_Opr opr = _incoming_arguments->at(i);
if (opr->is_stack()) {
_argument_locations->at_put(java_index, in_bytes(framesize_in_bytes()) +
_argument_locations->at(java_index));
}
java_index += type2size[opr->type()];
}
// make sure it's expressible on the platform
return validate_frame();
}
VMReg FrameMap::sp_offset2vmreg(ByteSize offset) const {
int offset_in_bytes = in_bytes(offset);
assert(offset_in_bytes % 4 == 0, "must be multiple of 4 bytes");
assert(offset_in_bytes / 4 < framesize() + oop_map_arg_count(), "out of range");
return VMRegImpl::stack2reg(offset_in_bytes / 4);
}
bool FrameMap::location_for_sp_offset(ByteSize byte_offset_from_sp,
Location::Type loc_type,
Location* loc) const {
int offset = in_bytes(byte_offset_from_sp);
assert(offset >= 0, "incorrect offset");
if (!Location::legal_offset_in_bytes(offset)) {
return false;
}
Location tmp_loc = Location::new_stk_loc(loc_type, offset);
*loc = tmp_loc;
return true;
}
bool FrameMap::locations_for_slot (int index, Location::Type loc_type,
Location* loc, Location* second) const {
ByteSize offset_from_sp = sp_offset_for_slot(index);
if (!location_for_sp_offset(offset_from_sp, loc_type, loc)) {
return false;
}
if (second != NULL) {
// two word item
offset_from_sp = offset_from_sp + in_ByteSize(4);
return location_for_sp_offset(offset_from_sp, loc_type, second);
}
return true;
}
//////////////////////
// Public accessors //
//////////////////////
ByteSize FrameMap::sp_offset_for_slot(const int index) const {
if (index < argcount()) {
int offset = _argument_locations->at(index);
assert(offset != -1, "not a memory argument");
assert(offset >= framesize() * 4, "argument inside of frame");
return in_ByteSize(offset);
}
ByteSize offset = sp_offset_for_spill(index - argcount());
assert(in_bytes(offset) < framesize() * 4, "spill outside of frame");
return offset;
}
ByteSize FrameMap::sp_offset_for_double_slot(const int index) const {
ByteSize offset = sp_offset_for_slot(index);
if (index >= argcount()) {
assert(in_bytes(offset) + 4 < framesize() * 4, "spill outside of frame");
}
return offset;
}
ByteSize FrameMap::sp_offset_for_spill(const int index) const {
assert(index >= 0 && index < _num_spills, "out of range");
int offset = align_up(first_available_sp_in_frame + _reserved_argument_area_size, (int)sizeof(double)) +
index * spill_slot_size_in_bytes;
return in_ByteSize(offset);
}
ByteSize FrameMap::sp_offset_for_monitor_base(const int index) const {
int end_of_spills = align_up(first_available_sp_in_frame + _reserved_argument_area_size, (int)sizeof(double)) +
_num_spills * spill_slot_size_in_bytes;
int offset = align_up(end_of_spills, HeapWordSize) + index * (int)sizeof(BasicObjectLock);
return in_ByteSize(offset);
}
ByteSize FrameMap::sp_offset_for_monitor_lock(int index) const {
check_monitor_index(index);
return sp_offset_for_monitor_base(index) + in_ByteSize(BasicObjectLock::lock_offset_in_bytes());;
}
ByteSize FrameMap::sp_offset_for_monitor_object(int index) const {
check_monitor_index(index);
return sp_offset_for_monitor_base(index) + in_ByteSize(BasicObjectLock::obj_offset_in_bytes());
}
// For OopMaps, map a local variable or spill index to an VMReg.
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