8233913: Remove implicit conversion from Method* to methodHandle
Summary: Fix call sites to use existing THREAD local or pass down THREAD local for shallower callsites. Make linkResolver methods return Method* for caller to handleize if needed.
Reviewed-by: iklam, thartmann, hseigel
/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* 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.
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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*/
#ifndef SHARE_OOPS_FIELDINFO_HPP
#define SHARE_OOPS_FIELDINFO_HPP
#include "oops/constantPool.hpp"
#include "oops/typeArrayOop.hpp"
#include "classfile/vmSymbols.hpp"
// This class represents the field information contained in the fields
// array of an InstanceKlass. Currently it's laid on top an array of
// Java shorts but in the future it could simply be used as a real
// array type. FieldInfo generally shouldn't be used directly.
// Fields should be queried either through InstanceKlass or through
// the various FieldStreams.
class FieldInfo {
friend class fieldDescriptor;
friend class JavaFieldStream;
friend class ClassFileParser;
public:
// fields
// Field info extracted from the class file and stored
// as an array of 6 shorts.
#define FIELDINFO_TAG_SIZE 2
#define FIELDINFO_TAG_BLANK 0
#define FIELDINFO_TAG_OFFSET 1
#define FIELDINFO_TAG_TYPE_PLAIN 2
#define FIELDINFO_TAG_TYPE_CONTENDED 3
#define FIELDINFO_TAG_MASK 3
// Packed field has the tag, and can be either of:
// hi bits <--------------------------- lo bits
// |---------high---------|---------low---------|
// ..........................................00 - blank
// [------------------offset----------------]01 - real field offset
// ......................[-------type-------]10 - plain field with type
// [--contention_group--][-------type-------]11 - contended field with type and contention group
enum FieldOffset {
access_flags_offset = 0,
name_index_offset = 1,
signature_index_offset = 2,
initval_index_offset = 3,
low_packed_offset = 4,
high_packed_offset = 5,
field_slots = 6
};
private:
u2 _shorts[field_slots];
void set_name_index(u2 val) { _shorts[name_index_offset] = val; }
void set_signature_index(u2 val) { _shorts[signature_index_offset] = val; }
void set_initval_index(u2 val) { _shorts[initval_index_offset] = val; }
u2 name_index() const { return _shorts[name_index_offset]; }
u2 signature_index() const { return _shorts[signature_index_offset]; }
u2 initval_index() const { return _shorts[initval_index_offset]; }
public:
static FieldInfo* from_field_array(Array<u2>* fields, int index) {
return ((FieldInfo*)fields->adr_at(index * field_slots));
}
static FieldInfo* from_field_array(u2* fields, int index) {
return ((FieldInfo*)(fields + index * field_slots));
}
void initialize(u2 access_flags,
u2 name_index,
u2 signature_index,
u2 initval_index) {
_shorts[access_flags_offset] = access_flags;
_shorts[name_index_offset] = name_index;
_shorts[signature_index_offset] = signature_index;
_shorts[initval_index_offset] = initval_index;
_shorts[low_packed_offset] = 0;
_shorts[high_packed_offset] = 0;
}
u2 access_flags() const { return _shorts[access_flags_offset]; }
u4 offset() const {
u2 lo = _shorts[low_packed_offset];
switch(lo & FIELDINFO_TAG_MASK) {
case FIELDINFO_TAG_OFFSET:
return build_int_from_shorts(_shorts[low_packed_offset], _shorts[high_packed_offset]) >> FIELDINFO_TAG_SIZE;
#ifndef PRODUCT
case FIELDINFO_TAG_TYPE_PLAIN:
fatal("Asking offset for the plain type field");
case FIELDINFO_TAG_TYPE_CONTENDED:
fatal("Asking offset for the contended type field");
case FIELDINFO_TAG_BLANK:
fatal("Asking offset for the blank field");
#endif
}
ShouldNotReachHere();
return 0;
}
bool is_contended() const {
u2 lo = _shorts[low_packed_offset];
switch(lo & FIELDINFO_TAG_MASK) {
case FIELDINFO_TAG_TYPE_PLAIN:
return false;
case FIELDINFO_TAG_TYPE_CONTENDED:
return true;
#ifndef PRODUCT
case FIELDINFO_TAG_OFFSET:
fatal("Asking contended flag for the field with offset");
case FIELDINFO_TAG_BLANK:
fatal("Asking contended flag for the blank field");
#endif
}
ShouldNotReachHere();
return false;
}
u2 contended_group() const {
u2 lo = _shorts[low_packed_offset];
switch(lo & FIELDINFO_TAG_MASK) {
case FIELDINFO_TAG_TYPE_PLAIN:
return 0;
case FIELDINFO_TAG_TYPE_CONTENDED:
return _shorts[high_packed_offset];
#ifndef PRODUCT
case FIELDINFO_TAG_OFFSET:
fatal("Asking the contended group for the field with offset");
case FIELDINFO_TAG_BLANK:
fatal("Asking the contended group for the blank field");
#endif
}
ShouldNotReachHere();
return 0;
}
u2 allocation_type() const {
u2 lo = _shorts[low_packed_offset];
switch(lo & FIELDINFO_TAG_MASK) {
case FIELDINFO_TAG_TYPE_PLAIN:
case FIELDINFO_TAG_TYPE_CONTENDED:
return (lo >> FIELDINFO_TAG_SIZE);
#ifndef PRODUCT
case FIELDINFO_TAG_OFFSET:
fatal("Asking the field type for field with offset");
case FIELDINFO_TAG_BLANK:
fatal("Asking the field type for the blank field");
#endif
}
ShouldNotReachHere();
return 0;
}
bool is_offset_set() const {
return (_shorts[low_packed_offset] & FIELDINFO_TAG_MASK) == FIELDINFO_TAG_OFFSET;
}
Symbol* name(ConstantPool* cp) const {
int index = name_index();
if (is_internal()) {
return lookup_symbol(index);
}
return cp->symbol_at(index);
}
Symbol* signature(ConstantPool* cp) const {
int index = signature_index();
if (is_internal()) {
return lookup_symbol(index);
}
return cp->symbol_at(index);
}
void set_access_flags(u2 val) { _shorts[access_flags_offset] = val; }
void set_offset(u4 val) {
val = val << FIELDINFO_TAG_SIZE; // make room for tag
_shorts[low_packed_offset] = extract_low_short_from_int(val) | FIELDINFO_TAG_OFFSET;
_shorts[high_packed_offset] = extract_high_short_from_int(val);
}
void set_allocation_type(int type) {
u2 lo = _shorts[low_packed_offset];
switch(lo & FIELDINFO_TAG_MASK) {
case FIELDINFO_TAG_BLANK:
_shorts[low_packed_offset] = ((type << FIELDINFO_TAG_SIZE)) & 0xFFFF;
_shorts[low_packed_offset] &= ~FIELDINFO_TAG_MASK;
_shorts[low_packed_offset] |= FIELDINFO_TAG_TYPE_PLAIN;
return;
#ifndef PRODUCT
case FIELDINFO_TAG_TYPE_PLAIN:
case FIELDINFO_TAG_TYPE_CONTENDED:
case FIELDINFO_TAG_OFFSET:
fatal("Setting the field type with overwriting");
#endif
}
ShouldNotReachHere();
}
void set_contended_group(u2 val) {
u2 lo = _shorts[low_packed_offset];
switch(lo & FIELDINFO_TAG_MASK) {
case FIELDINFO_TAG_TYPE_PLAIN:
_shorts[low_packed_offset] |= FIELDINFO_TAG_TYPE_CONTENDED;
_shorts[high_packed_offset] = val;
return;
#ifndef PRODUCT
case FIELDINFO_TAG_TYPE_CONTENDED:
fatal("Overwriting contended group");
case FIELDINFO_TAG_BLANK:
fatal("Setting contended group for the blank field");
case FIELDINFO_TAG_OFFSET:
fatal("Setting contended group for field with offset");
#endif
}
ShouldNotReachHere();
}
bool is_internal() const {
return (access_flags() & JVM_ACC_FIELD_INTERNAL) != 0;
}
bool is_stable() const {
return (access_flags() & JVM_ACC_FIELD_STABLE) != 0;
}
void set_stable(bool z) {
if (z) _shorts[access_flags_offset] |= JVM_ACC_FIELD_STABLE;
else _shorts[access_flags_offset] &= ~JVM_ACC_FIELD_STABLE;
}
Symbol* lookup_symbol(int symbol_index) const {
assert(is_internal(), "only internal fields");
return vmSymbols::symbol_at((vmSymbols::SID)symbol_index);
}
};
#endif // SHARE_OOPS_FIELDINFO_HPP