/*
* Copyright (c) 2015, 2019, Oracle and/or its affiliates. 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.
*
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#ifndef SHARE_CLASSFILE_JAVACLASSES_INLINE_HPP
#define SHARE_CLASSFILE_JAVACLASSES_INLINE_HPP
#include "classfile/javaClasses.hpp"
#include "oops/access.inline.hpp"
#include "oops/oop.inline.hpp"
#include "oops/oopsHierarchy.hpp"
void java_lang_String::set_coder(oop string, jbyte coder) {
assert(initialized && (coder_offset > 0), "Must be initialized");
string->byte_field_put(coder_offset, coder);
}
void java_lang_String::set_value_raw(oop string, typeArrayOop buffer) {
assert(initialized, "Must be initialized");
string->obj_field_put_raw(value_offset, buffer);
}
void java_lang_String::set_value(oop string, typeArrayOop buffer) {
assert(initialized && (value_offset > 0), "Must be initialized");
string->obj_field_put(value_offset, (oop)buffer);
}
bool java_lang_String::hash_is_set(oop java_string) {
assert(initialized && (hash_offset > 0) && (hashIsZero_offset > 0), "Must be initialized");
return java_string->int_field(hash_offset) != 0 || java_string->bool_field(hashIsZero_offset) != 0;
}
// Accessors
bool java_lang_String::value_equals(typeArrayOop str_value1, typeArrayOop str_value2) {
return ((str_value1 == str_value2) ||
(str_value1->length() == str_value2->length() &&
(!memcmp(str_value1->base(T_BYTE),
str_value2->base(T_BYTE),
str_value2->length() * sizeof(jbyte)))));
}
typeArrayOop java_lang_String::value(oop java_string) {
assert(initialized && (value_offset > 0), "Must be initialized");
assert(is_instance(java_string), "must be java_string");
return (typeArrayOop) java_string->obj_field(value_offset);
}
typeArrayOop java_lang_String::value_no_keepalive(oop java_string) {
assert(initialized && (value_offset > 0), "Must be initialized");
assert(is_instance(java_string), "must be java_string");
return (typeArrayOop) java_string->obj_field_access<AS_NO_KEEPALIVE>(value_offset);
}
bool java_lang_String::is_latin1(oop java_string) {
assert(initialized && (coder_offset > 0), "Must be initialized");
assert(is_instance(java_string), "must be java_string");
jbyte coder = java_string->byte_field(coder_offset);
assert(CompactStrings || coder == CODER_UTF16, "Must be UTF16 without CompactStrings");
return coder == CODER_LATIN1;
}
int java_lang_String::length(oop java_string, typeArrayOop value) {
assert(initialized, "Must be initialized");
assert(is_instance(java_string), "must be java_string");
assert(value_equals(value, java_lang_String::value(java_string)),
"value must be equal to java_lang_String::value(java_string)");
if (value == NULL) {
return 0;
}
int arr_length = value->length();
if (!is_latin1(java_string)) {
assert((arr_length & 1) == 0, "should be even for UTF16 string");
arr_length >>= 1; // convert number of bytes to number of elements
}
return arr_length;
}
int java_lang_String::length(oop java_string) {
assert(initialized, "Must be initialized");
assert(is_instance(java_string), "must be java_string");
typeArrayOop value = java_lang_String::value_no_keepalive(java_string);
return length(java_string, value);
}
bool java_lang_String::is_instance_inlined(oop obj) {
return obj != NULL && obj->klass() == SystemDictionary::String_klass();
}
// Accessors
oop java_lang_ref_Reference::referent(oop ref) {
return ref->obj_field(referent_offset);
}
void java_lang_ref_Reference::set_referent(oop ref, oop value) {
ref->obj_field_put(referent_offset, value);
}
void java_lang_ref_Reference::set_referent_raw(oop ref, oop value) {
ref->obj_field_put_raw(referent_offset, value);
}
HeapWord* java_lang_ref_Reference::referent_addr_raw(oop ref) {
return ref->obj_field_addr_raw<HeapWord>(referent_offset);
}
oop java_lang_ref_Reference::next(oop ref) {
return ref->obj_field(next_offset);
}
void java_lang_ref_Reference::set_next(oop ref, oop value) {
ref->obj_field_put(next_offset, value);
}
void java_lang_ref_Reference::set_next_raw(oop ref, oop value) {
ref->obj_field_put_raw(next_offset, value);
}
HeapWord* java_lang_ref_Reference::next_addr_raw(oop ref) {
return ref->obj_field_addr_raw<HeapWord>(next_offset);
}
oop java_lang_ref_Reference::discovered(oop ref) {
return ref->obj_field(discovered_offset);
}
void java_lang_ref_Reference::set_discovered(oop ref, oop value) {
ref->obj_field_put(discovered_offset, value);
}
void java_lang_ref_Reference::set_discovered_raw(oop ref, oop value) {
ref->obj_field_put_raw(discovered_offset, value);
}
HeapWord* java_lang_ref_Reference::discovered_addr_raw(oop ref) {
return ref->obj_field_addr_raw<HeapWord>(discovered_offset);
}
bool java_lang_ref_Reference::is_final(oop ref) {
return InstanceKlass::cast(ref->klass())->reference_type() == REF_FINAL;
}
bool java_lang_ref_Reference::is_phantom(oop ref) {
return InstanceKlass::cast(ref->klass())->reference_type() == REF_PHANTOM;
}
inline void java_lang_invoke_CallSite::set_target_volatile(oop site, oop target) {
site->obj_field_put_volatile(_target_offset, target);
}
inline oop java_lang_invoke_CallSite::target(oop site) {
return site->obj_field(_target_offset);
}
inline void java_lang_invoke_CallSite::set_target(oop site, oop target) {
site->obj_field_put(_target_offset, target);
}
inline bool java_lang_invoke_CallSite::is_instance(oop obj) {
return obj != NULL && is_subclass(obj->klass());
}
inline jboolean java_lang_invoke_ConstantCallSite::is_frozen(oop site) {
return site->bool_field(_is_frozen_offset);
}
inline bool java_lang_invoke_ConstantCallSite::is_instance(oop obj) {
return obj != NULL && is_subclass(obj->klass());
}
inline bool java_lang_invoke_MethodHandleNatives_CallSiteContext::is_instance(oop obj) {
return obj != NULL && is_subclass(obj->klass());
}
inline bool java_lang_invoke_MemberName::is_instance(oop obj) {
return obj != NULL && obj->klass() == SystemDictionary::MemberName_klass();
}
inline bool java_lang_invoke_ResolvedMethodName::is_instance(oop obj) {
return obj != NULL && obj->klass() == SystemDictionary::ResolvedMethodName_klass();
}
inline bool java_lang_invoke_MethodType::is_instance(oop obj) {
return obj != NULL && obj->klass() == SystemDictionary::MethodType_klass();
}
inline bool java_lang_invoke_MethodHandle::is_instance(oop obj) {
return obj != NULL && is_subclass(obj->klass());
}
inline bool java_lang_Class::is_instance(oop obj) {
return obj != NULL && obj->klass() == SystemDictionary::Class_klass();
}
inline bool java_lang_Class::is_primitive(oop java_class) {
// should assert:
//assert(java_lang_Class::is_instance(java_class), "must be a Class object");
bool is_primitive = (java_class->metadata_field(_klass_offset) == NULL);
#ifdef ASSERT
if (is_primitive) {
Klass* k = ((Klass*)java_class->metadata_field(_array_klass_offset));
assert(k == NULL || is_java_primitive(ArrayKlass::cast(k)->element_type()),
"Should be either the T_VOID primitive or a java primitive");
}
#endif
return is_primitive;
}
inline int java_lang_Class::oop_size_raw(oop java_class) {
assert(_oop_size_offset != 0, "must be set");
int size = java_class->int_field_raw(_oop_size_offset);
assert(size > 0, "Oop size must be greater than zero, not %d", size);
return size;
}
inline bool java_lang_invoke_DirectMethodHandle::is_instance(oop obj) {
return obj != NULL && is_subclass(obj->klass());
}
inline bool java_lang_Module::is_instance(oop obj) {
return obj != NULL && obj->klass() == SystemDictionary::Module_klass();
}
inline int Backtrace::merge_bci_and_version(int bci, int version) {
// only store u2 for version, checking for overflow.
if (version > USHRT_MAX || version < 0) version = USHRT_MAX;
assert((jushort)bci == bci, "bci should be short");
return build_int_from_shorts(version, bci);
}
inline int Backtrace::merge_mid_and_cpref(int mid, int cpref) {
// only store u2 for mid and cpref, checking for overflow.
assert((jushort)mid == mid, "mid should be short");
assert((jushort)cpref == cpref, "cpref should be short");
return build_int_from_shorts(cpref, mid);
}
inline int Backtrace::bci_at(unsigned int merged) {
return extract_high_short_from_int(merged);
}
inline int Backtrace::version_at(unsigned int merged) {
return extract_low_short_from_int(merged);
}
inline int Backtrace::mid_at(unsigned int merged) {
return extract_high_short_from_int(merged);
}
inline int Backtrace::cpref_at(unsigned int merged) {
return extract_low_short_from_int(merged);
}
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