hotspot/src/share/vm/ci/ciObject.cpp - platform/libcore - Git at Google

 /*
  * Copyright 1999-2007 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/_ciObject.cpp.incl"

 // ciObject
 //
 // This class represents an oop in the HotSpot virtual machine.
 // Its subclasses are structured in a hierarchy which mirrors
 // an aggregate of the VM's oop and klass hierarchies (see
 // oopHierarchy.hpp).  Each instance of ciObject holds a handle
 // to a corresponding oop on the VM side and provides routines
 // for accessing the information in its oop.  By using the ciObject
 // hierarchy for accessing oops in the VM, the compiler ensures
 // that it is safe with respect to garbage collection; that is,
 // GC and compilation can proceed independently without
 // interference.
 //
 // Within the VM, the oop and klass hierarchies are separate.
 // The compiler interface does not preserve this separation --
 // the distinction between `klassOop' and `Klass' are not
 // reflected in the interface and instead the Klass hierarchy
 // is directly modeled as the subclasses of ciKlass.

 // ------------------------------------------------------------------
 // ciObject::ciObject
 ciObject::ciObject(oop o) {
   ASSERT_IN_VM;
   if (ciObjectFactory::is_initialized()) {
     _handle = JNIHandles::make_local(o);
   } else {
     _handle = JNIHandles::make_global(o);
   }
   _klass = NULL;
   _ident = 0;
 }

 // ------------------------------------------------------------------
 // ciObject::ciObject
 //
 ciObject::ciObject(Handle h) {
   ASSERT_IN_VM;
   if (ciObjectFactory::is_initialized()) {
     _handle = JNIHandles::make_local(h());
   } else {
     _handle = JNIHandles::make_global(h);
   }
   _klass = NULL;
   _ident = 0;
 }

 // ------------------------------------------------------------------
 // ciObject::ciObject
 //
 // Unloaded klass/method variant.  `klass' is the klass of the unloaded
 // klass/method, if that makes sense.
 ciObject::ciObject(ciKlass* klass) {
   ASSERT_IN_VM;
   assert(klass != NULL, "must supply klass");
   _handle = NULL;
   _klass = klass;
   _ident = 0;
 }

 // ------------------------------------------------------------------
 // ciObject::ciObject
 //
 // NULL variant.  Used only by ciNullObject.
 ciObject::ciObject() {
   ASSERT_IN_VM;
   _handle = NULL;
   _klass = NULL;
   _ident = 0;
 }

 // ------------------------------------------------------------------
 // ciObject::klass
 //
 // Get the ciKlass of this ciObject.
 ciKlass* ciObject::klass() {
   if (_klass == NULL) {
     if (_handle == NULL) {
       // When both _klass and _handle are NULL, we are dealing
       // with the distinguished instance of ciNullObject.
       // No one should ask it for its klass.
       assert(is_null_object(), "must be null object");
       ShouldNotReachHere();
       return NULL;
     }

     GUARDED_VM_ENTRY(
       oop o = get_oop();
       _klass = CURRENT_ENV->get_object(o->klass())->as_klass();
     );
   }
   return _klass;
 }

 // ------------------------------------------------------------------
 // ciObject::set_ident
 //
 // Set the unique identity number of a ciObject.
 void ciObject::set_ident(uint id) {
   assert((_ident >> FLAG_BITS) == 0, "must only initialize once");
   assert( id < ((uint)1 << (BitsPerInt-FLAG_BITS)), "id too big");
   _ident = _ident + (id << FLAG_BITS);
 }

 // ------------------------------------------------------------------
 // ciObject::ident
 //
 // Report the unique identity number of a ciObject.
 uint ciObject::ident() {
   uint id = _ident >> FLAG_BITS;
   assert(id != 0, "must be initialized");
   return id;
 }

 // ------------------------------------------------------------------
 // ciObject::equals
 //
 // Are two ciObjects equal?
 bool ciObject::equals(ciObject* obj) {
   return (this == obj);
 }

 // ------------------------------------------------------------------
 // ciObject::hash
 //
 // A hash value for the convenience of compilers.
 //
 // Implementation note: we use the address of the ciObject as the
 // basis for the hash.  Use the _ident field, which is well-behaved.
 int ciObject::hash() {
   return ident() * 31;
 }

 // ------------------------------------------------------------------
 // ciObject::encoding
 //
 // The address which the compiler should embed into the
 // generated code to represent this oop.  This address
 // is not the true address of the oop -- it will get patched
 // during nmethod creation.
 //
 //
 //
 // Implementation note: we use the handle as the encoding.  The
 // nmethod constructor resolves the handle and patches in the oop.
 //
 // This method should be changed to return an generified address
 // to discourage use of the JNI handle.
 jobject ciObject::encoding() {
   assert(is_null_object() || handle() != NULL, "cannot embed null pointer");
   assert(has_encoding(), "oop must be NULL or perm");
   return handle();
 }

 // ------------------------------------------------------------------
 // ciObject::has_encoding
 bool ciObject::has_encoding() {
   return handle() == NULL || is_perm();
 }


 // ------------------------------------------------------------------
 // ciObject::print
 //
 // Print debugging output about this ciObject.
 //
 // Implementation note: dispatch to the virtual print_impl behavior
 // for this ciObject.
 void ciObject::print(outputStream* st) {
   st->print("<%s", type_string());
   GUARDED_VM_ENTRY(print_impl(st);)
   st->print(" ident=%d %s address=0x%x>", ident(),
         is_perm() ? "PERM" : "",
         (address)this);
 }

 // ------------------------------------------------------------------
 // ciObject::print_oop
 //
 // Print debugging output about the oop this ciObject represents.
 void ciObject::print_oop(outputStream* st) {
   if (is_null_object()) {
     st->print_cr("NULL");
   } else if (!is_loaded()) {
     st->print_cr("UNLOADED");
   } else {
     GUARDED_VM_ENTRY(get_oop()->print_on(st);)
   }
 }
	/*
	* Copyright 1999-2007 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/_ciObject.cpp.incl"

	// ciObject
	//
	// This class represents an oop in the HotSpot virtual machine.
	// Its subclasses are structured in a hierarchy which mirrors
	// an aggregate of the VM's oop and klass hierarchies (see
	// oopHierarchy.hpp). Each instance of ciObject holds a handle
	// to a corresponding oop on the VM side and provides routines
	// for accessing the information in its oop. By using the ciObject
	// hierarchy for accessing oops in the VM, the compiler ensures
	// that it is safe with respect to garbage collection; that is,
	// GC and compilation can proceed independently without
	// interference.
	//
	// Within the VM, the oop and klass hierarchies are separate.
	// The compiler interface does not preserve this separation --
	// the distinction between `klassOop' and `Klass' are not
	// reflected in the interface and instead the Klass hierarchy
	// is directly modeled as the subclasses of ciKlass.

	// ------------------------------------------------------------------
	// ciObject::ciObject
	ciObject::ciObject(oop o) {
	ASSERT_IN_VM;
	if (ciObjectFactory::is_initialized()) {
	_handle = JNIHandles::make_local(o);
	} else {
	_handle = JNIHandles::make_global(o);
	}
	_klass = NULL;
	_ident = 0;
	}

	// ------------------------------------------------------------------
	// ciObject::ciObject
	//
	ciObject::ciObject(Handle h) {
	ASSERT_IN_VM;
	if (ciObjectFactory::is_initialized()) {
	_handle = JNIHandles::make_local(h());
	} else {
	_handle = JNIHandles::make_global(h);
	}
	_klass = NULL;
	_ident = 0;
	}

	// ------------------------------------------------------------------
	// ciObject::ciObject
	//
	// Unloaded klass/method variant. `klass' is the klass of the unloaded
	// klass/method, if that makes sense.
	ciObject::ciObject(ciKlass* klass) {
	ASSERT_IN_VM;
	assert(klass != NULL, "must supply klass");
	_handle = NULL;
	_klass = klass;
	_ident = 0;
	}

	// ------------------------------------------------------------------
	// ciObject::ciObject
	//
	// NULL variant. Used only by ciNullObject.
	ciObject::ciObject() {
	ASSERT_IN_VM;
	_handle = NULL;
	_klass = NULL;
	_ident = 0;
	}

	// ------------------------------------------------------------------
	// ciObject::klass
	//
	// Get the ciKlass of this ciObject.
	ciKlass* ciObject::klass() {
	if (_klass == NULL) {
	if (_handle == NULL) {
	// When both _klass and _handle are NULL, we are dealing
	// with the distinguished instance of ciNullObject.
	// No one should ask it for its klass.
	assert(is_null_object(), "must be null object");
	ShouldNotReachHere();
	return NULL;
	}

	GUARDED_VM_ENTRY(
	oop o = get_oop();
	_klass = CURRENT_ENV->get_object(o->klass())->as_klass();
	);
	}
	return _klass;
	}

	// ------------------------------------------------------------------
	// ciObject::set_ident
	//
	// Set the unique identity number of a ciObject.
	void ciObject::set_ident(uint id) {
	assert((_ident >> FLAG_BITS) == 0, "must only initialize once");
	assert( id < ((uint)1 << (BitsPerInt-FLAG_BITS)), "id too big");
	_ident = _ident + (id << FLAG_BITS);
	}

	// ------------------------------------------------------------------
	// ciObject::ident
	//
	// Report the unique identity number of a ciObject.
	uint ciObject::ident() {
	uint id = _ident >> FLAG_BITS;
	assert(id != 0, "must be initialized");
	return id;
	}

	// ------------------------------------------------------------------
	// ciObject::equals
	//
	// Are two ciObjects equal?
	bool ciObject::equals(ciObject* obj) {
	return (this == obj);
	}

	// ------------------------------------------------------------------
	// ciObject::hash
	//
	// A hash value for the convenience of compilers.
	//
	// Implementation note: we use the address of the ciObject as the
	// basis for the hash. Use the _ident field, which is well-behaved.
	int ciObject::hash() {
	return ident() * 31;
	}

	// ------------------------------------------------------------------
	// ciObject::encoding
	//
	// The address which the compiler should embed into the
	// generated code to represent this oop. This address
	// is not the true address of the oop -- it will get patched
	// during nmethod creation.
	//
	//
	//
	// Implementation note: we use the handle as the encoding. The
	// nmethod constructor resolves the handle and patches in the oop.
	//
	// This method should be changed to return an generified address
	// to discourage use of the JNI handle.
	jobject ciObject::encoding() {
	assert(is_null_object() \|\| handle() != NULL, "cannot embed null pointer");
	assert(has_encoding(), "oop must be NULL or perm");
	return handle();
	}

	// ------------------------------------------------------------------
	// ciObject::has_encoding
	bool ciObject::has_encoding() {
	return handle() == NULL \|\| is_perm();
	}


	// ------------------------------------------------------------------
	// ciObject::print
	//
	// Print debugging output about this ciObject.
	//
	// Implementation note: dispatch to the virtual print_impl behavior
	// for this ciObject.
	void ciObject::print(outputStream* st) {
	st->print("<%s", type_string());
	GUARDED_VM_ENTRY(print_impl(st);)
	st->print(" ident=%d %s address=0x%x>", ident(),
	is_perm() ? "PERM" : "",
	(address)this);
	}

	// ------------------------------------------------------------------
	// ciObject::print_oop
	//
	// Print debugging output about the oop this ciObject represents.
	void ciObject::print_oop(outputStream* st) {
	if (is_null_object()) {
	st->print_cr("NULL");
	} else if (!is_loaded()) {
	st->print_cr("UNLOADED");
	} else {
	GUARDED_VM_ENTRY(get_oop()->print_on(st);)
	}
	}