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src/share/vm/opto/valuetypenode.cpp
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*** 33,75 ****
// Create a new ValueTypeNode with uninitialized values and NULL oop
const TypeValueType* type = TypeValueType::make(klass);
return new ValueTypeNode(type, gvn.zerocon(T_VALUETYPE));
}
Node* ValueTypeNode::make(PhaseGVN& gvn, Node* mem, Node* oop) {
// Create and initialize a ValueTypeNode by loading all field
// values from a heap-allocated version and also save the oop.
const TypeValueTypePtr* vtptr = gvn.type(oop)->is_valuetypeptr();
ValueTypeNode* vt = new ValueTypeNode(vtptr->value_type(), oop);
! vt->load_values(gvn, mem, vt->value_klass(), oop);
return gvn.transform(vt);
}
! Node* ValueTypeNode::make(PhaseGVN& gvn, ciValueKlass* klass, Node* mem, ciInstanceKlass* holder, Node* obj, int field_offset) {
! // Create and initialize a ValueTypeNode by loading all field
! // values from a flattened value type field at 'field_offset' in 'obj'.
! ValueTypeNode* vt = make(gvn, klass)->as_ValueType();
// The value type is flattened into the object without an oop header. Subtract the
// offset of the first field to account for the missing header when loading the values.
! int base_offset = field_offset - klass->first_field_offset();
! vt->load_values(gvn, mem, holder, obj, base_offset);
return gvn.transform(vt);
}
! void ValueTypeNode::load_values(PhaseGVN& gvn, Node* mem, ciInstanceKlass* holder, Node* base, int base_offset) {
// Initialize the value type by loading its field values from
// memory and adding the values as input edges to the node.
for (uint i = 0; i < field_count(); ++i) {
! int offset = base_offset + field_offset(i);
! Node* adr = gvn.transform(new AddPNode(base, base, gvn.longcon(offset)));
! ciField* field = holder->get_field_by_offset(offset, false);
! const TypePtr* adr_type = gvn.C->alias_type(field)->adr_type();
! Node* value = NULL;
ciType* f_type = field_type(i);
if (f_type->is_valuetype()) {
// Recursively load the flattened value type field
! value = ValueTypeNode::make(gvn, f_type->as_value_klass(), mem, holder, base, offset);
} else {
const Type* con_type = NULL;
if (base->is_Con()) {
// If the oop to the value type is constant (static final field), we can
// also treat the fields as constants because the value type is immutable.
--- 33,111 ----
// Create a new ValueTypeNode with uninitialized values and NULL oop
const TypeValueType* type = TypeValueType::make(klass);
return new ValueTypeNode(type, gvn.zerocon(T_VALUETYPE));
}
+ Node* ValueTypeNode::make_default(PhaseGVN& gvn, ciValueKlass* vk) {
+ // TODO re-use constant oop of pre-allocated default value type here?
+ // Create a new ValueTypeNode with default values
+ ValueTypeNode* vt = ValueTypeNode::make(gvn, vk);
+ for (uint i = 0; i < vt->field_count(); ++i) {
+ ciType* field_type = vt->field_type(i);
+ Node* value = NULL;
+ if (field_type->is_primitive_type()) {
+ value = gvn.zerocon(field_type->basic_type());
+ } else {
+ value = ValueTypeNode::make_default(gvn, field_type->as_value_klass());
+ }
+ vt->set_field_value(i, value);
+ }
+ return gvn.transform(vt);
+ }
+
Node* ValueTypeNode::make(PhaseGVN& gvn, Node* mem, Node* oop) {
// Create and initialize a ValueTypeNode by loading all field
// values from a heap-allocated version and also save the oop.
const TypeValueTypePtr* vtptr = gvn.type(oop)->is_valuetypeptr();
ValueTypeNode* vt = new ValueTypeNode(vtptr->value_type(), oop);
! vt->load_values(gvn, mem, oop, oop);
return gvn.transform(vt);
}
! Node* ValueTypeNode::make(PhaseGVN& gvn, ciValueKlass* vk, Node* mem, Node* obj, Node* ptr, ciKlass* holder, int field_offset) {
! // Create and initialize a ValueTypeNode by loading all field values from
! // a flattened value type field at 'field_offset' or from a value type array.
! ValueTypeNode* vt = make(gvn, vk);
! int base_offset = 0;
! if (holder->is_value_array_klass()) {
! assert(field_offset == 0, "field offset not supported for arrays");
! } else {
// The value type is flattened into the object without an oop header. Subtract the
// offset of the first field to account for the missing header when loading the values.
! base_offset = field_offset - vk->first_field_offset();
! }
! vt->load_values(gvn, mem, obj, ptr, holder, base_offset);
return gvn.transform(vt);
}
! void ValueTypeNode::load_values(PhaseGVN& gvn, Node* mem, Node* base, Node* ptr, ciKlass* holder, int f_offset) {
! ciInstanceKlass* lookup;
! if (holder) {
! // Flattened
! if (holder->is_value_array_klass()) {
! lookup = value_klass();
! } else {
! lookup = holder->as_instance_klass();
! }
! } else {
! // Not flattened
! assert(f_offset == 0, "must be");
! lookup = value_klass();
! }
// Initialize the value type by loading its field values from
// memory and adding the values as input edges to the node.
for (uint i = 0; i < field_count(); ++i) {
! int offset = f_offset + field_offset(i);
! ciField* field = lookup->get_field_by_offset(offset, false);
ciType* f_type = field_type(i);
+ Node* value = NULL;
if (f_type->is_valuetype()) {
+ if (holder && holder->is_value_array_klass()) {
+ offset -= value_klass()->first_field_offset();
+ }
// Recursively load the flattened value type field
! value = ValueTypeNode::make(gvn, f_type->as_value_klass(), mem, base, ptr, lookup, offset);
} else {
const Type* con_type = NULL;
if (base->is_Con()) {
// If the oop to the value type is constant (static final field), we can
// also treat the fields as constants because the value type is immutable.
*** 81,116 ****
if (con_type != NULL) {
// Found a constant field value
value = gvn.makecon(con_type);
} else {
// Load field value from memory
value = LoadNode::make(gvn, NULL, mem, adr, adr_type, Type::get_const_type(f_type), f_type->basic_type(), MemNode::unordered);
}
}
set_field_value(i, gvn.transform(value));
}
}
! void ValueTypeNode::store_to_field(GraphKit* kit, ciInstanceKlass* holder, Node* obj, int field_offset) const {
// The value type is embedded into the object without an oop header. Subtract the
// offset of the first field to account for the missing header when storing the values.
int base_offset = field_offset - value_klass()->first_field_offset();
! store_values(kit, holder, obj, base_offset);
}
! void ValueTypeNode::store_values(GraphKit* kit, ciInstanceKlass* holder, Node* base, int base_offset) const {
// Write field values to memory
for (uint i = 0; i < field_count(); ++i) {
! int offset = base_offset + field_offset(i);
! Node* adr = kit->basic_plus_adr(base, base, offset);
! ciField* field = holder->get_field_by_offset(offset, false);
! const TypePtr* adr_type = kit->C->alias_type(field)->adr_type();
Node* value = field_value(i);
if (value->is_ValueType()) {
// Recursively store the flattened value type field
! value->isa_ValueType()->store_to_field(kit, holder, base, offset);
} else {
kit->store_to_memory(kit->control(), adr, value, field_type(i)->basic_type(), adr_type, MemNode::unordered);
}
}
}
--- 117,189 ----
if (con_type != NULL) {
// Found a constant field value
value = gvn.makecon(con_type);
} else {
// Load field value from memory
+ const Type* base_type = gvn.type(base);
+ const TypePtr* adr_type = NULL;
+ if (base_type->isa_aryptr()) {
+ adr_type = base_type->is_aryptr()->add_offset(Type::OffsetBot);
+ } else {
+ adr_type = gvn.C->alias_type(field)->adr_type();
+ }
+ if (holder && holder->is_value_array_klass()) {
+ offset -= value_klass()->first_field_offset();
+ }
+ Node* adr = gvn.transform(new AddPNode(base, ptr, gvn.MakeConX(offset)));
value = LoadNode::make(gvn, NULL, mem, adr, adr_type, Type::get_const_type(f_type), f_type->basic_type(), MemNode::unordered);
}
}
set_field_value(i, gvn.transform(value));
}
}
! void ValueTypeNode::store_to_field(GraphKit* kit, Node* obj, Node* ptr, ciInstanceKlass* instance_type, int field_offset) const {
// The value type is embedded into the object without an oop header. Subtract the
// offset of the first field to account for the missing header when storing the values.
int base_offset = field_offset - value_klass()->first_field_offset();
! store_values(kit, obj, ptr, instance_type, base_offset);
}
! void ValueTypeNode::store_values(GraphKit* kit, Node* base, Node* ptr, ciKlass* holder, int holder_offset) const {
! ciInstanceKlass* lookup;
! if (holder) {
! // flattened
! if (holder->is_value_array_klass()) {
! assert(holder_offset == 0, "must be");
! lookup = value_klass();
! } else {
! lookup = holder->as_instance_klass();
! }
! } else {
! // not flattened
! assert(holder_offset == 0, "must be");
! lookup = value_klass();
! }
// Write field values to memory
for (uint i = 0; i < field_count(); ++i) {
! int offset = holder_offset + field_offset(i);
Node* value = field_value(i);
if (value->is_ValueType()) {
// Recursively store the flattened value type field
! if (holder && holder->is_value_array_klass()) {
! offset -= value_klass()->first_field_offset();
! }
! value->isa_ValueType()->store_to_field(kit, base, ptr, lookup, offset);
} else {
+ const Type* base_type = kit->gvn().type(base);
+ const TypePtr* adr_type = NULL;
+ if (base_type->isa_aryptr()) {
+ adr_type = base_type->is_aryptr()->add_offset(Type::OffsetBot);
+ } else {
+ ciField* field = lookup->get_field_by_offset(offset, false);
+ adr_type = kit->gvn().C->alias_type(field)->adr_type();
+ }
+ if (holder && holder->is_value_array_klass()) {
+ offset -= value_klass()->first_field_offset();
+ }
+ Node* adr = kit->basic_plus_adr(base, ptr, offset);
kit->store_to_memory(kit->control(), adr, value, field_type(i)->basic_type(), adr_type, MemNode::unordered);
}
}
}
*** 146,157 ****
// Oop is NULL, allocate value type
kit->set_control(null_ctl);
kit->kill_dead_locals();
Node* klass_node = kit->makecon(TypeKlassPtr::make(value_klass()));
Node* alloc_oop = kit->new_instance(klass_node);
// Write field values to memory
! store_values(kit, value_klass(), alloc_oop);
region->init_req(2, kit->control());
oop ->init_req(2, alloc_oop);
io ->init_req(2, kit->i_o());
mem ->init_req(2, kit->merged_memory());
--- 219,233 ----
// Oop is NULL, allocate value type
kit->set_control(null_ctl);
kit->kill_dead_locals();
Node* klass_node = kit->makecon(TypeKlassPtr::make(value_klass()));
Node* alloc_oop = kit->new_instance(klass_node);
+ AllocateNode* alloc = AllocateNode::Ideal_allocation(alloc_oop, &kit->gvn());
+ // TODO enable/fix this
+ // alloc->initialization()->set_complete_with_arraycopy();
// Write field values to memory
! store_values(kit, alloc_oop, alloc_oop);
region->init_req(2, kit->control());
oop ->init_req(2, alloc_oop);
io ->init_req(2, kit->i_o());
mem ->init_req(2, kit->merged_memory());
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