src/hotspot/share/ci/ciStreams.cpp - toolchain/jdk/jdk21 - Git at Google

 /*
  * Copyright (c) 1999, 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.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  *
  */

 #include "precompiled.hpp"
 #include "ci/ciConstant.hpp"
 #include "ci/ciField.hpp"
 #include "ci/ciKlass.hpp"
 #include "ci/ciObjArrayKlass.hpp"
 #include "ci/ciStreams.hpp"
 #include "ci/ciSymbols.hpp"
 #include "ci/ciUtilities.inline.hpp"
 #include "runtime/handles.inline.hpp"

 // ciExceptionHandlerStream
 //
 // Walk over some selected set of a methods exception handlers.

 // ------------------------------------------------------------------
 // ciExceptionHandlerStream::count
 //
 // How many exception handlers are there in this stream?
 //
 // Implementation note: Compiler2 needs this functionality, so I had
 int ciExceptionHandlerStream::count() {
   int save_pos = _pos;
   int save_end = _end;

   int count = 0;

   _pos = -1;
   _end = _method->_handler_count;


   next();
   while (!is_done()) {
     count++;
     next();
   }

   _pos = save_pos;
   _end = save_end;

   return count;
 }

 int ciExceptionHandlerStream::count_remaining() {
   int save_pos = _pos;
   int save_end = _end;

   int count = 0;

   while (!is_done()) {
     count++;
     next();
   }

   _pos = save_pos;
   _end = save_end;

   return count;
 }

 // ciBytecodeStream
 //
 // The class is used to iterate over the bytecodes of a method.
 // It hides the details of constant pool structure/access by
 // providing accessors for constant pool items.

 // ------------------------------------------------------------------
 // ciBytecodeStream::next_wide_or_table
 //
 // Special handling for switch ops
 Bytecodes::Code ciBytecodeStream::next_wide_or_table(Bytecodes::Code bc) {
   switch (bc) {                // Check for special bytecode handling
   case Bytecodes::_wide:
     // Special handling for the wide bytcode
     // Get following bytecode; do not return wide
     assert(Bytecodes::Code(_pc[0]) == Bytecodes::_wide, "");
     bc = Bytecodes::java_code(_raw_bc = (Bytecodes::Code)_pc[1]);
     assert(Bytecodes::wide_length_for(bc) > 2, "must make progress");
     _pc += Bytecodes::wide_length_for(bc);
     _was_wide = _pc;              // Flag last wide bytecode found
     assert(is_wide(), "accessor works right");
     break;

   case Bytecodes::_lookupswitch:
     _pc++;                      // Skip wide bytecode
     _pc += (_start-_pc)&3;      // Word align
     _table_base = (jint*)_pc;   // Capture for later usage
                                 // table_base[0] is default far_dest
     // Table has 2 lead elements (default, length), then pairs of u4 values.
     // So load table length, and compute address at end of table
     _pc = (address)&_table_base[2+ 2*Bytes::get_Java_u4((address)&_table_base[1])];
     break;

   case Bytecodes::_tableswitch: {
     _pc++;                      // Skip wide bytecode
     _pc += (_start-_pc)&3;      // Word align
     _table_base = (jint*)_pc;   // Capture for later usage
                                 // table_base[0] is default far_dest
     int lo = Bytes::get_Java_u4((address)&_table_base[1]);// Low bound
     int hi = Bytes::get_Java_u4((address)&_table_base[2]);// High bound
     int len = hi - lo + 1;      // Dense table size
     _pc = (address)&_table_base[3+len]; // Skip past table
     break;
   }

   default:
     fatal("unhandled bytecode");
   }
   return bc;
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::reset_to_bci
 void ciBytecodeStream::reset_to_bci( int bci ) {
   _bc_start=_was_wide=0;
   _pc = _start+bci;
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::force_bci
 void ciBytecodeStream::force_bci(int bci) {
   if (bci < 0) {
     reset_to_bci(0);
     _bc_start = _start + bci;
     _bc = EOBC();
   } else {
     reset_to_bci(bci);
     next();
   }
 }


 // ------------------------------------------------------------------
 // Constant pool access
 // ------------------------------------------------------------------

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_klass_index
 //
 // If this bytecodes references a klass, return the index of the
 // referenced klass.
 int ciBytecodeStream::get_klass_index() const {
   switch(cur_bc()) {
   case Bytecodes::_ldc:
     return get_index_u1();
   case Bytecodes::_ldc_w:
   case Bytecodes::_ldc2_w:
   case Bytecodes::_checkcast:
   case Bytecodes::_instanceof:
   case Bytecodes::_anewarray:
   case Bytecodes::_multianewarray:
   case Bytecodes::_new:
   case Bytecodes::_newarray:
     return get_index_u2();
   default:
     ShouldNotReachHere();
     return 0;
   }
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_klass
 //
 // If this bytecode is a new, newarray, multianewarray, instanceof,
 // or checkcast, get the referenced klass.
 ciKlass* ciBytecodeStream::get_klass(bool& will_link) {
   VM_ENTRY_MARK;
   constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
   return CURRENT_ENV->get_klass_by_index(cpool, get_klass_index(), will_link, _holder);
 }

 // ciBytecodeStream::get_klass
 //
 // If this bytecode is a new, newarray, multianewarray, instanceof,
 // or checkcast, get the referenced klass. Retuns an unloaded ciKlass
 // if the referenced klass is not accessible.
 ciKlass* ciBytecodeStream::get_klass() {
   bool will_link;
   ciKlass* klass = get_klass(will_link);
   if (!will_link && klass->is_loaded()) { // klass not accessible
     VM_ENTRY_MARK;
     klass = CURRENT_ENV->get_unloaded_klass(_holder, klass->name());
   }
   return klass;
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_constant_raw_index
 //
 // If this bytecode is one of the ldc variants, get the index of the
 // referenced constant.
 int ciBytecodeStream::get_constant_raw_index() const {
   // work-alike for Bytecode_loadconstant::raw_index()
   switch (cur_bc()) {
   case Bytecodes::_ldc:
     return get_index_u1();
   case Bytecodes::_ldc_w:
   case Bytecodes::_ldc2_w:
     return get_index_u2();
   default:
     ShouldNotReachHere();
     return 0;
   }
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_constant_pool_index
 // Decode any reference index into a regular pool index.
 int ciBytecodeStream::get_constant_pool_index() const {
   // work-alike for Bytecode_loadconstant::pool_index()
   int index = get_constant_raw_index();
   if (has_cache_index()) {
     VM_ENTRY_MARK;
     constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
     return cpool->object_to_cp_index(index);
   }
   return index;
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_constant
 //
 // If this bytecode is one of the ldc variants, get the referenced
 // constant.
 ciConstant ciBytecodeStream::get_constant() {
   VM_ENTRY_MARK;
   constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
   int pool_index = get_constant_raw_index();
   int cache_index = -1;
   if (has_cache_index()) {
     cache_index = pool_index;
     pool_index = cpool->object_to_cp_index(cache_index);
   } else if (cpool->tag_at(pool_index).is_dynamic_constant() ||
              cpool->tag_at(pool_index).is_dynamic_constant_in_error()) {
     // Condy with primitive type is not quickened, so the index into resolved reference cache should be reconstructed.
     assert(is_java_primitive(cpool->basic_type_for_constant_at(pool_index)), "not quickened");
     cache_index = cpool->cp_to_object_index(pool_index);
   }
   return CURRENT_ENV->get_constant_by_index(cpool, pool_index, cache_index, _holder);
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_constant_pool_tag
 //
 // If this bytecode is one of the ldc variants, get the referenced
 // constant.
 constantTag ciBytecodeStream::get_constant_pool_tag(int index) const {
   VM_ENTRY_MARK;
   return _method->get_Method()->constants()->constant_tag_at(index);
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_raw_pool_tag
 //
 constantTag ciBytecodeStream::get_raw_pool_tag_at(int index) const {
   VM_ENTRY_MARK;
   return _method->get_Method()->constants()->tag_at(index);
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_basic_type_for_constant_at
 //
 BasicType ciBytecodeStream::get_basic_type_for_constant_at(int index) const {
   VM_ENTRY_MARK;
   return _method->get_Method()->constants()->basic_type_for_constant_at(index);
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_field_index
 //
 // If this is a field access bytecode, get the constant pool
 // index of the referenced field.
 int ciBytecodeStream::get_field_index() {
   assert(cur_bc() == Bytecodes::_getfield ||
          cur_bc() == Bytecodes::_putfield ||
          cur_bc() == Bytecodes::_getstatic ||
          cur_bc() == Bytecodes::_putstatic, "wrong bc");
   return get_index_u2_cpcache();
 }


 // ------------------------------------------------------------------
 // ciBytecodeStream::get_field
 //
 // If this bytecode is one of get_field, get_static, put_field,
 // or put_static, get the referenced field.
 ciField* ciBytecodeStream::get_field(bool& will_link) {
   ciField* f = CURRENT_ENV->get_field_by_index(_holder, get_field_index(), _bc);
   will_link = f->will_link(_method, _bc);
   return f;
 }


 // ------------------------------------------------------------------
 // ciBytecodeStream::get_declared_field_holder
 //
 // Get the declared holder of the currently referenced field.
 //
 // Usage note: the holder() of a ciField class returns the canonical
 // holder of the field, rather than the holder declared in the
 // bytecodes.
 //
 // There is no "will_link" result passed back.  The user is responsible
 // for checking linkability when retrieving the associated field.
 ciInstanceKlass* ciBytecodeStream::get_declared_field_holder() {
   VM_ENTRY_MARK;
   constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
   int holder_index = get_field_holder_index();
   bool ignore;
   return CURRENT_ENV->get_klass_by_index(cpool, holder_index, ignore, _holder)
       ->as_instance_klass();
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_field_holder_index
 //
 // Get the constant pool index of the declared holder of the field
 // referenced by the current bytecode.  Used for generating
 // deoptimization information.
 int ciBytecodeStream::get_field_holder_index() {
   GUARDED_VM_ENTRY(
     ConstantPool* cpool = _holder->get_instanceKlass()->constants();
     return cpool->klass_ref_index_at(get_field_index(), _bc);
   )
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_method_index
 //
 // If this is a method invocation bytecode, get the constant pool
 // index of the invoked method.
 int ciBytecodeStream::get_method_index() {
   assert(Bytecodes::is_invoke(cur_bc()), "invalid bytecode: %s", Bytecodes::name(cur_bc()));
   if (has_index_u4())
     return get_index_u4();  // invokedynamic
   return get_index_u2_cpcache();
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_method
 //
 // If this is a method invocation bytecode, get the invoked method.
 // Additionally return the declared signature to get more concrete
 // type information if required (Cf. invokedynamic and invokehandle).
 ciMethod* ciBytecodeStream::get_method(bool& will_link, ciSignature* *declared_signature_result) {
   VM_ENTRY_MARK;
   ciEnv* env = CURRENT_ENV;
   constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
   ciMethod* m = env->get_method_by_index(cpool, get_method_index(), cur_bc(), _holder);
   will_link = m->is_loaded();

   // Use the signature stored in the CP cache to create a signature
   // with correct types (in respect to class loaders).
   //
   // In classic Java (before Java 7) there is never the slightest
   // difference between the signature at the call site and that of the
   // method.  Such a difference would have been a type error in the
   // JVM.
   //
   // Now there are a few circumstances where the signature of a call
   // site (which controls the outgoing stacked arguments) can differ
   // from the signature of the method (which controls the receipt of
   // those arguments at the method entry point).
   //
   // A. The signatures can differ if the callee is a static method and
   // the caller thinks it is calling a non-static method (VH.get).
   // This requires the method signature to have an explicit leading
   // argument for the implicit 'this', not present at the call site.
   //
   // B. The call site can have less specific parameter types than the
   // method, allowing loosely-typed code to handle strongly-typed
   // methods.  This happens with linkToStatic and related linker
   // commands.  Obviously the loosely-typed code has to ensure that
   // the strongly typed method's invariants are respected, and this is
   // done by issuing dynamic casts.
   //
   // C. The call site can have more specific parameter types than the
   // method, allowing loosely-typed methods to handle strongly-typed
   // requests.
   //
   // D. There are corresponding effects with return values, such as
   // boolean method returning an int to an int-receiving call site,
   // even though the method thought it returned just a boolean.
   //
   // E. The calling sequence at a particular call site may add an
   // "appendix" argument not mentioned in the call site signature.  It
   // is expected by the method signature, though, and this adds to the
   // method's arity, even after 'this' parameter effects (A) are
   // discounted.  Appendixes are used by invokehandle and
   // invokedynamic instructions.
   //
   // F. A linker method (linkToStatic, etc.) can also take an extra
   // argument, a MemberName which routes the call to a concrete
   // strongly-typed method.  In this case the linker method may also
   // differ in any of the ways A-D.  The eventual method will ignore
   // the presence of the extra argument.
   //
   // None of these changes to calling sequences requires an argument
   // to be moved or reformatted in any way.  This works because all
   // references look alike to the JVM, as do all primitives (except
   // float/long/double).  Another required property of the JVM is
   // that, if a trailing argument is added or dropped, the placement
   // of other arguments does not change.  This allows cases E and F to
   // work smoothly, against without any moving or reformatting,
   // despite the arity change.
   //
   if (has_local_signature()) {
     Symbol* local_signature = cpool->symbol_at(get_method_signature_index(cpool));
     ciSymbol* sig_sym  = env->get_symbol(local_signature);
     ciKlass* pool_holder = env->get_klass(cpool->pool_holder());
     ciSignature* call_site_sig = new (env->arena()) ciSignature(pool_holder, cpool, sig_sym);
     // Examples of how the call site signature can differ from the method's own signature:
     //
     //  meth = static jboolean java.lang.invoke.VarHandleGuards.guard_LII_Z(jobject, jobject, jint, jint, jobject)
     //  msig = (Ljava/lang/invoke/VarHandle;Ljava/lang/Object;IILjava/lang/invoke/VarHandle$AccessDescriptor;)Z
     //  call = (Ljava/util/concurrent/locks/AbstractQueuedSynchronizer;II)Z
     //
     //  meth = static jobject java.lang.invoke.LambdaForm$MH/0x0000000800066840.linkToTargetMethod(jobject, jobject)
     //  msig = (Ljava/lang/Object;Ljava/lang/Object;)Ljava/lang/Object;
     //  call = (Ljava/lang/String;)Ljava/util/function/Predicate;
     //
     (*declared_signature_result) = call_site_sig;

   } else {
     // We can just use the method's own signature.  It may differ from the call site, but not by much.
     //
     // Examples of how the call site signature can differ from the method's signature:
     //
     // meth = static final native jint java.lang.invoke.MethodHandle.linkToStatic(jobject, jobject, jint, jint, jobject)
     // msig = (Ljava/lang/Object;Ljava/lang/Object;IILjava/lang/invoke/MemberName;)I
     // call = (Ljava/lang/invoke/VarHandle;Ljava/lang/Object;IILjava/lang/invoke/MemberName;)Z
     //
     // meth = final native jint java.lang.invoke.MethodHandle.invokeBasic(jobject, jobject, jint, jint)
     // msig = (Ljava/lang/Object;Ljava/lang/Object;II)I
     // call = (Ljava/lang/invoke/VarHandle;Ljava/lang/Object;II)Z
     //
     (*declared_signature_result) = m->signature();
   }
   return m;
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::has_appendix
 //
 // Returns true if there is an appendix argument stored in the
 // constant pool cache at the current bci.
 bool ciBytecodeStream::has_appendix() {
   VM_ENTRY_MARK;
   constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
   return ConstantPool::has_appendix_at_if_loaded(cpool, get_method_index());
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_appendix
 //
 // Return the appendix argument stored in the constant pool cache at
 // the current bci.
 ciObject* ciBytecodeStream::get_appendix() {
   VM_ENTRY_MARK;
   constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
   oop appendix_oop = ConstantPool::appendix_at_if_loaded(cpool, get_method_index());
   return CURRENT_ENV->get_object(appendix_oop);
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::has_local_signature
 //
 // Returns true if the method stored in the constant
 // pool cache at the current bci has a local signature.
 bool ciBytecodeStream::has_local_signature() {
   GUARDED_VM_ENTRY(
     constantPoolHandle cpool(Thread::current(), _method->get_Method()->constants());
     return ConstantPool::has_local_signature_at_if_loaded(cpool, get_method_index());
   )
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_declared_method_holder
 //
 // Get the declared holder of the currently referenced method.
 //
 // Usage note: the holder() of a ciMethod class returns the canonical
 // holder of the method, rather than the holder declared in the
 // bytecodes.
 //
 // There is no "will_link" result passed back.  The user is responsible
 // for checking linkability when retrieving the associated method.
 ciKlass* ciBytecodeStream::get_declared_method_holder() {
   VM_ENTRY_MARK;
   constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
   bool ignore;
   // report as MethodHandle for invokedynamic, which is syntactically classless
   if (cur_bc() == Bytecodes::_invokedynamic) {
     return CURRENT_ENV->MethodHandle_klass();
   }
   return CURRENT_ENV->get_klass_by_index(cpool, get_method_holder_index(), ignore, _holder);
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_method_holder_index
 //
 // Get the constant pool index of the declared holder of the method
 // referenced by the current bytecode.  Used for generating
 // deoptimization information.
 int ciBytecodeStream::get_method_holder_index() {
   ConstantPool* cpool = _method->get_Method()->constants();
   return cpool->klass_ref_index_at(get_method_index(), _bc);
 }

 // ------------------------------------------------------------------
 // ciBytecodeStream::get_method_signature_index
 //
 // Get the constant pool index of the signature of the method
 // referenced by the current bytecode.  Used for generating
 // deoptimization information.
 int ciBytecodeStream::get_method_signature_index(const constantPoolHandle& cpool) {
   GUARDED_VM_ENTRY(
     const int method_index = get_method_index();
     const int name_and_type_index = cpool->name_and_type_ref_index_at(method_index, _bc);
     return cpool->signature_ref_index_at(name_and_type_index);
   )
 }
	/*
	* Copyright (c) 1999, 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.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*
	*/

	#include "precompiled.hpp"
	#include "ci/ciConstant.hpp"
	#include "ci/ciField.hpp"
	#include "ci/ciKlass.hpp"
	#include "ci/ciObjArrayKlass.hpp"
	#include "ci/ciStreams.hpp"
	#include "ci/ciSymbols.hpp"
	#include "ci/ciUtilities.inline.hpp"
	#include "runtime/handles.inline.hpp"

	// ciExceptionHandlerStream
	//
	// Walk over some selected set of a methods exception handlers.

	// ------------------------------------------------------------------
	// ciExceptionHandlerStream::count
	//
	// How many exception handlers are there in this stream?
	//
	// Implementation note: Compiler2 needs this functionality, so I had
	int ciExceptionHandlerStream::count() {
	int save_pos = _pos;
	int save_end = _end;

	int count = 0;

	_pos = -1;
	_end = _method->_handler_count;


	next();
	while (!is_done()) {
	count++;
	next();
	}

	_pos = save_pos;
	_end = save_end;

	return count;
	}

	int ciExceptionHandlerStream::count_remaining() {
	int save_pos = _pos;
	int save_end = _end;

	int count = 0;

	while (!is_done()) {
	count++;
	next();
	}

	_pos = save_pos;
	_end = save_end;

	return count;
	}

	// ciBytecodeStream
	//
	// The class is used to iterate over the bytecodes of a method.
	// It hides the details of constant pool structure/access by
	// providing accessors for constant pool items.

	// ------------------------------------------------------------------
	// ciBytecodeStream::next_wide_or_table
	//
	// Special handling for switch ops
	Bytecodes::Code ciBytecodeStream::next_wide_or_table(Bytecodes::Code bc) {
	switch (bc) { // Check for special bytecode handling
	case Bytecodes::_wide:
	// Special handling for the wide bytcode
	// Get following bytecode; do not return wide
	assert(Bytecodes::Code(_pc[0]) == Bytecodes::_wide, "");
	bc = Bytecodes::java_code(_raw_bc = (Bytecodes::Code)_pc[1]);
	assert(Bytecodes::wide_length_for(bc) > 2, "must make progress");
	_pc += Bytecodes::wide_length_for(bc);
	_was_wide = _pc; // Flag last wide bytecode found
	assert(is_wide(), "accessor works right");
	break;

	case Bytecodes::_lookupswitch:
	_pc++; // Skip wide bytecode
	_pc += (_start-_pc)&3; // Word align
	_table_base = (jint*)_pc; // Capture for later usage
	// table_base[0] is default far_dest
	// Table has 2 lead elements (default, length), then pairs of u4 values.
	// So load table length, and compute address at end of table
	_pc = (address)&_table_base[2+ 2*Bytes::get_Java_u4((address)&_table_base[1])];
	break;

	case Bytecodes::_tableswitch: {
	_pc++; // Skip wide bytecode
	_pc += (_start-_pc)&3; // Word align
	_table_base = (jint*)_pc; // Capture for later usage
	// table_base[0] is default far_dest
	int lo = Bytes::get_Java_u4((address)&_table_base[1]);// Low bound
	int hi = Bytes::get_Java_u4((address)&_table_base[2]);// High bound
	int len = hi - lo + 1; // Dense table size
	_pc = (address)&_table_base[3+len]; // Skip past table
	break;
	}

	default:
	fatal("unhandled bytecode");
	}
	return bc;
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::reset_to_bci
	void ciBytecodeStream::reset_to_bci( int bci ) {
	_bc_start=_was_wide=0;
	_pc = _start+bci;
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::force_bci
	void ciBytecodeStream::force_bci(int bci) {
	if (bci < 0) {
	reset_to_bci(0);
	_bc_start = _start + bci;
	_bc = EOBC();
	} else {
	reset_to_bci(bci);
	next();
	}
	}


	// ------------------------------------------------------------------
	// Constant pool access
	// ------------------------------------------------------------------

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_klass_index
	//
	// If this bytecodes references a klass, return the index of the
	// referenced klass.
	int ciBytecodeStream::get_klass_index() const {
	switch(cur_bc()) {
	case Bytecodes::_ldc:
	return get_index_u1();
	case Bytecodes::_ldc_w:
	case Bytecodes::_ldc2_w:
	case Bytecodes::_checkcast:
	case Bytecodes::_instanceof:
	case Bytecodes::_anewarray:
	case Bytecodes::_multianewarray:
	case Bytecodes::_new:
	case Bytecodes::_newarray:
	return get_index_u2();
	default:
	ShouldNotReachHere();
	return 0;
	}
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_klass
	//
	// If this bytecode is a new, newarray, multianewarray, instanceof,
	// or checkcast, get the referenced klass.
	ciKlass* ciBytecodeStream::get_klass(bool& will_link) {
	VM_ENTRY_MARK;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	return CURRENT_ENV->get_klass_by_index(cpool, get_klass_index(), will_link, _holder);
	}

	// ciBytecodeStream::get_klass
	//
	// If this bytecode is a new, newarray, multianewarray, instanceof,
	// or checkcast, get the referenced klass. Retuns an unloaded ciKlass
	// if the referenced klass is not accessible.
	ciKlass* ciBytecodeStream::get_klass() {
	bool will_link;
	ciKlass* klass = get_klass(will_link);
	if (!will_link && klass->is_loaded()) { // klass not accessible
	VM_ENTRY_MARK;
	klass = CURRENT_ENV->get_unloaded_klass(_holder, klass->name());
	}
	return klass;
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_constant_raw_index
	//
	// If this bytecode is one of the ldc variants, get the index of the
	// referenced constant.
	int ciBytecodeStream::get_constant_raw_index() const {
	// work-alike for Bytecode_loadconstant::raw_index()
	switch (cur_bc()) {
	case Bytecodes::_ldc:
	return get_index_u1();
	case Bytecodes::_ldc_w:
	case Bytecodes::_ldc2_w:
	return get_index_u2();
	default:
	ShouldNotReachHere();
	return 0;
	}
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_constant_pool_index
	// Decode any reference index into a regular pool index.
	int ciBytecodeStream::get_constant_pool_index() const {
	// work-alike for Bytecode_loadconstant::pool_index()
	int index = get_constant_raw_index();
	if (has_cache_index()) {
	VM_ENTRY_MARK;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	return cpool->object_to_cp_index(index);
	}
	return index;
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_constant
	//
	// If this bytecode is one of the ldc variants, get the referenced
	// constant.
	ciConstant ciBytecodeStream::get_constant() {
	VM_ENTRY_MARK;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	int pool_index = get_constant_raw_index();
	int cache_index = -1;
	if (has_cache_index()) {
	cache_index = pool_index;
	pool_index = cpool->object_to_cp_index(cache_index);
	} else if (cpool->tag_at(pool_index).is_dynamic_constant() \|\|
	cpool->tag_at(pool_index).is_dynamic_constant_in_error()) {
	// Condy with primitive type is not quickened, so the index into resolved reference cache should be reconstructed.
	assert(is_java_primitive(cpool->basic_type_for_constant_at(pool_index)), "not quickened");
	cache_index = cpool->cp_to_object_index(pool_index);
	}
	return CURRENT_ENV->get_constant_by_index(cpool, pool_index, cache_index, _holder);
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_constant_pool_tag
	//
	// If this bytecode is one of the ldc variants, get the referenced
	// constant.
	constantTag ciBytecodeStream::get_constant_pool_tag(int index) const {
	VM_ENTRY_MARK;
	return _method->get_Method()->constants()->constant_tag_at(index);
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_raw_pool_tag
	//
	constantTag ciBytecodeStream::get_raw_pool_tag_at(int index) const {
	VM_ENTRY_MARK;
	return _method->get_Method()->constants()->tag_at(index);
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_basic_type_for_constant_at
	//
	BasicType ciBytecodeStream::get_basic_type_for_constant_at(int index) const {
	VM_ENTRY_MARK;
	return _method->get_Method()->constants()->basic_type_for_constant_at(index);
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_field_index
	//
	// If this is a field access bytecode, get the constant pool
	// index of the referenced field.
	int ciBytecodeStream::get_field_index() {
	assert(cur_bc() == Bytecodes::_getfield \|\|
	cur_bc() == Bytecodes::_putfield \|\|
	cur_bc() == Bytecodes::_getstatic \|\|
	cur_bc() == Bytecodes::_putstatic, "wrong bc");
	return get_index_u2_cpcache();
	}


	// ------------------------------------------------------------------
	// ciBytecodeStream::get_field
	//
	// If this bytecode is one of get_field, get_static, put_field,
	// or put_static, get the referenced field.
	ciField* ciBytecodeStream::get_field(bool& will_link) {
	ciField* f = CURRENT_ENV->get_field_by_index(_holder, get_field_index(), _bc);
	will_link = f->will_link(_method, _bc);
	return f;
	}


	// ------------------------------------------------------------------
	// ciBytecodeStream::get_declared_field_holder
	//
	// Get the declared holder of the currently referenced field.
	//
	// Usage note: the holder() of a ciField class returns the canonical
	// holder of the field, rather than the holder declared in the
	// bytecodes.
	//
	// There is no "will_link" result passed back. The user is responsible
	// for checking linkability when retrieving the associated field.
	ciInstanceKlass* ciBytecodeStream::get_declared_field_holder() {
	VM_ENTRY_MARK;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	int holder_index = get_field_holder_index();
	bool ignore;
	return CURRENT_ENV->get_klass_by_index(cpool, holder_index, ignore, _holder)
	->as_instance_klass();
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_field_holder_index
	//
	// Get the constant pool index of the declared holder of the field
	// referenced by the current bytecode. Used for generating
	// deoptimization information.
	int ciBytecodeStream::get_field_holder_index() {
	GUARDED_VM_ENTRY(
	ConstantPool* cpool = _holder->get_instanceKlass()->constants();
	return cpool->klass_ref_index_at(get_field_index(), _bc);
	)
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_method_index
	//
	// If this is a method invocation bytecode, get the constant pool
	// index of the invoked method.
	int ciBytecodeStream::get_method_index() {
	assert(Bytecodes::is_invoke(cur_bc()), "invalid bytecode: %s", Bytecodes::name(cur_bc()));
	if (has_index_u4())
	return get_index_u4(); // invokedynamic
	return get_index_u2_cpcache();
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_method
	//
	// If this is a method invocation bytecode, get the invoked method.
	// Additionally return the declared signature to get more concrete
	// type information if required (Cf. invokedynamic and invokehandle).
	ciMethod* ciBytecodeStream::get_method(bool& will_link, ciSignature* *declared_signature_result) {
	VM_ENTRY_MARK;
	ciEnv* env = CURRENT_ENV;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	ciMethod* m = env->get_method_by_index(cpool, get_method_index(), cur_bc(), _holder);
	will_link = m->is_loaded();

	// Use the signature stored in the CP cache to create a signature
	// with correct types (in respect to class loaders).
	//
	// In classic Java (before Java 7) there is never the slightest
	// difference between the signature at the call site and that of the
	// method. Such a difference would have been a type error in the
	// JVM.
	//
	// Now there are a few circumstances where the signature of a call
	// site (which controls the outgoing stacked arguments) can differ
	// from the signature of the method (which controls the receipt of
	// those arguments at the method entry point).
	//
	// A. The signatures can differ if the callee is a static method and
	// the caller thinks it is calling a non-static method (VH.get).
	// This requires the method signature to have an explicit leading
	// argument for the implicit 'this', not present at the call site.
	//
	// B. The call site can have less specific parameter types than the
	// method, allowing loosely-typed code to handle strongly-typed
	// methods. This happens with linkToStatic and related linker
	// commands. Obviously the loosely-typed code has to ensure that
	// the strongly typed method's invariants are respected, and this is
	// done by issuing dynamic casts.
	//
	// C. The call site can have more specific parameter types than the
	// method, allowing loosely-typed methods to handle strongly-typed
	// requests.
	//
	// D. There are corresponding effects with return values, such as
	// boolean method returning an int to an int-receiving call site,
	// even though the method thought it returned just a boolean.
	//
	// E. The calling sequence at a particular call site may add an
	// "appendix" argument not mentioned in the call site signature. It
	// is expected by the method signature, though, and this adds to the
	// method's arity, even after 'this' parameter effects (A) are
	// discounted. Appendixes are used by invokehandle and
	// invokedynamic instructions.
	//
	// F. A linker method (linkToStatic, etc.) can also take an extra
	// argument, a MemberName which routes the call to a concrete
	// strongly-typed method. In this case the linker method may also
	// differ in any of the ways A-D. The eventual method will ignore
	// the presence of the extra argument.
	//
	// None of these changes to calling sequences requires an argument
	// to be moved or reformatted in any way. This works because all
	// references look alike to the JVM, as do all primitives (except
	// float/long/double). Another required property of the JVM is
	// that, if a trailing argument is added or dropped, the placement
	// of other arguments does not change. This allows cases E and F to
	// work smoothly, against without any moving or reformatting,
	// despite the arity change.
	//
	if (has_local_signature()) {
	Symbol* local_signature = cpool->symbol_at(get_method_signature_index(cpool));
	ciSymbol* sig_sym = env->get_symbol(local_signature);
	ciKlass* pool_holder = env->get_klass(cpool->pool_holder());
	ciSignature* call_site_sig = new (env->arena()) ciSignature(pool_holder, cpool, sig_sym);
	// Examples of how the call site signature can differ from the method's own signature:
	//
	// meth = static jboolean java.lang.invoke.VarHandleGuards.guard_LII_Z(jobject, jobject, jint, jint, jobject)
	// msig = (Ljava/lang/invoke/VarHandle;Ljava/lang/Object;IILjava/lang/invoke/VarHandle$AccessDescriptor;)Z
	// call = (Ljava/util/concurrent/locks/AbstractQueuedSynchronizer;II)Z
	//
	// meth = static jobject java.lang.invoke.LambdaForm$MH/0x0000000800066840.linkToTargetMethod(jobject, jobject)
	// msig = (Ljava/lang/Object;Ljava/lang/Object;)Ljava/lang/Object;
	// call = (Ljava/lang/String;)Ljava/util/function/Predicate;
	//
	(*declared_signature_result) = call_site_sig;

	} else {
	// We can just use the method's own signature. It may differ from the call site, but not by much.
	//
	// Examples of how the call site signature can differ from the method's signature:
	//
	// meth = static final native jint java.lang.invoke.MethodHandle.linkToStatic(jobject, jobject, jint, jint, jobject)
	// msig = (Ljava/lang/Object;Ljava/lang/Object;IILjava/lang/invoke/MemberName;)I
	// call = (Ljava/lang/invoke/VarHandle;Ljava/lang/Object;IILjava/lang/invoke/MemberName;)Z
	//
	// meth = final native jint java.lang.invoke.MethodHandle.invokeBasic(jobject, jobject, jint, jint)
	// msig = (Ljava/lang/Object;Ljava/lang/Object;II)I
	// call = (Ljava/lang/invoke/VarHandle;Ljava/lang/Object;II)Z
	//
	(*declared_signature_result) = m->signature();
	}
	return m;
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::has_appendix
	//
	// Returns true if there is an appendix argument stored in the
	// constant pool cache at the current bci.
	bool ciBytecodeStream::has_appendix() {
	VM_ENTRY_MARK;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	return ConstantPool::has_appendix_at_if_loaded(cpool, get_method_index());
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_appendix
	//
	// Return the appendix argument stored in the constant pool cache at
	// the current bci.
	ciObject* ciBytecodeStream::get_appendix() {
	VM_ENTRY_MARK;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	oop appendix_oop = ConstantPool::appendix_at_if_loaded(cpool, get_method_index());
	return CURRENT_ENV->get_object(appendix_oop);
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::has_local_signature
	//
	// Returns true if the method stored in the constant
	// pool cache at the current bci has a local signature.
	bool ciBytecodeStream::has_local_signature() {
	GUARDED_VM_ENTRY(
	constantPoolHandle cpool(Thread::current(), _method->get_Method()->constants());
	return ConstantPool::has_local_signature_at_if_loaded(cpool, get_method_index());
	)
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_declared_method_holder
	//
	// Get the declared holder of the currently referenced method.
	//
	// Usage note: the holder() of a ciMethod class returns the canonical
	// holder of the method, rather than the holder declared in the
	// bytecodes.
	//
	// There is no "will_link" result passed back. The user is responsible
	// for checking linkability when retrieving the associated method.
	ciKlass* ciBytecodeStream::get_declared_method_holder() {
	VM_ENTRY_MARK;
	constantPoolHandle cpool(THREAD, _method->get_Method()->constants());
	bool ignore;
	// report as MethodHandle for invokedynamic, which is syntactically classless
	if (cur_bc() == Bytecodes::_invokedynamic) {
	return CURRENT_ENV->MethodHandle_klass();
	}
	return CURRENT_ENV->get_klass_by_index(cpool, get_method_holder_index(), ignore, _holder);
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_method_holder_index
	//
	// Get the constant pool index of the declared holder of the method
	// referenced by the current bytecode. Used for generating
	// deoptimization information.
	int ciBytecodeStream::get_method_holder_index() {
	ConstantPool* cpool = _method->get_Method()->constants();
	return cpool->klass_ref_index_at(get_method_index(), _bc);
	}

	// ------------------------------------------------------------------
	// ciBytecodeStream::get_method_signature_index
	//
	// Get the constant pool index of the signature of the method
	// referenced by the current bytecode. Used for generating
	// deoptimization information.
	int ciBytecodeStream::get_method_signature_index(const constantPoolHandle& cpool) {
	GUARDED_VM_ENTRY(
	const int method_index = get_method_index();
	const int name_and_type_index = cpool->name_and_type_ref_index_at(method_index, _bc);
	return cpool->signature_ref_index_at(name_and_type_index);
	)
	}