src/share/vm/shark/sharkBuilder.cpp - platform/external/jetbrains/jdk8u_hotspot - Git at Google

 /*
  * Copyright (c) 1999, 2013, Oracle and/or its affiliates. All rights reserved.
  * Copyright 2008, 2009, 2010 Red Hat, Inc.
  * 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/ciMethod.hpp"
 #include "memory/resourceArea.hpp"
 #include "oops/method.hpp"
 #include "runtime/os.hpp"
 #include "runtime/synchronizer.hpp"
 #include "runtime/thread.hpp"
 #include "shark/llvmHeaders.hpp"
 #include "shark/llvmValue.hpp"
 #include "shark/sharkBuilder.hpp"
 #include "shark/sharkContext.hpp"
 #include "shark/sharkRuntime.hpp"
 #include "utilities/debug.hpp"

 using namespace llvm;

 SharkBuilder::SharkBuilder(SharkCodeBuffer* code_buffer)
   : IRBuilder<>(SharkContext::current()),
     _code_buffer(code_buffer) {
 }

 // Helpers for accessing structures
 Value* SharkBuilder::CreateAddressOfStructEntry(Value*      base,
                                                 ByteSize    offset,
                                                 Type* type,
                                                 const char* name) {
   return CreateBitCast(CreateStructGEP(base, in_bytes(offset)), type, name);
 }

 LoadInst* SharkBuilder::CreateValueOfStructEntry(Value*      base,
                                                  ByteSize    offset,
                                                  Type* type,
                                                  const char* name) {
   return CreateLoad(
     CreateAddressOfStructEntry(
       base, offset, PointerType::getUnqual(type)),
     name);
 }

 // Helpers for accessing arrays

 LoadInst* SharkBuilder::CreateArrayLength(Value* arrayoop) {
   return CreateValueOfStructEntry(
     arrayoop, in_ByteSize(arrayOopDesc::length_offset_in_bytes()),
     SharkType::jint_type(), "length");
 }

 Value* SharkBuilder::CreateArrayAddress(Value*      arrayoop,
                                         Type* element_type,
                                         int         element_bytes,
                                         ByteSize    base_offset,
                                         Value*      index,
                                         const char* name) {
   Value* offset = CreateIntCast(index, SharkType::intptr_type(), false);
   if (element_bytes != 1)
     offset = CreateShl(
       offset,
       LLVMValue::intptr_constant(exact_log2(element_bytes)));
   offset = CreateAdd(
     LLVMValue::intptr_constant(in_bytes(base_offset)), offset);

   return CreateIntToPtr(
     CreateAdd(CreatePtrToInt(arrayoop, SharkType::intptr_type()), offset),
     PointerType::getUnqual(element_type),
     name);
 }

 Value* SharkBuilder::CreateArrayAddress(Value*      arrayoop,
                                         BasicType   basic_type,
                                         ByteSize    base_offset,
                                         Value*      index,
                                         const char* name) {
   return CreateArrayAddress(
     arrayoop,
     SharkType::to_arrayType(basic_type),
     type2aelembytes(basic_type),
     base_offset, index, name);
 }

 Value* SharkBuilder::CreateArrayAddress(Value*      arrayoop,
                                         BasicType   basic_type,
                                         Value*      index,
                                         const char* name) {
   return CreateArrayAddress(
     arrayoop, basic_type,
     in_ByteSize(arrayOopDesc::base_offset_in_bytes(basic_type)),
     index, name);
 }

 // Helpers for creating intrinsics and external functions.

 Type* SharkBuilder::make_type(char type, bool void_ok) {
   switch (type) {
     // Primitive types
   case 'c':
     return SharkType::jbyte_type();
   case 'i':
     return SharkType::jint_type();
   case 'l':
     return SharkType::jlong_type();
   case 'x':
     return SharkType::intptr_type();
   case 'f':
     return SharkType::jfloat_type();
   case 'd':
     return SharkType::jdouble_type();

     // Pointers to primitive types
   case 'C':
   case 'I':
   case 'L':
   case 'X':
   case 'F':
   case 'D':
     return PointerType::getUnqual(make_type(tolower(type), false));

     // VM objects
   case 'T':
     return SharkType::thread_type();
   case 'M':
     return PointerType::getUnqual(SharkType::monitor_type());
   case 'O':
     return SharkType::oop_type();
   case 'K':
     return SharkType::klass_type();

     // Miscellaneous
   case 'v':
     assert(void_ok, "should be");
     return SharkType::void_type();
   case '1':
     return SharkType::bit_type();

   default:
     ShouldNotReachHere();
   }
 }

 FunctionType* SharkBuilder::make_ftype(const char* params,
                                              const char* ret) {
   std::vector<Type*> param_types;
   for (const char* c = params; *c; c++)
     param_types.push_back(make_type(*c, false));

   assert(strlen(ret) == 1, "should be");
   Type *return_type = make_type(*ret, true);

   return FunctionType::get(return_type, param_types, false);
 }

 // Create an object representing an intrinsic or external function by
 // referencing the symbol by name.  This is the LLVM-style approach,
 // but it cannot be used on functions within libjvm.so its symbols
 // are not exported.  Note that you cannot make this work simply by
 // exporting the symbols, as some symbols have the same names as
 // symbols in the standard libraries (eg, atan2, fabs) and would
 // obscure them were they visible.
 Value* SharkBuilder::make_function(const char* name,
                                    const char* params,
                                    const char* ret) {
   return SharkContext::current().get_external(name, make_ftype(params, ret));
 }

 // Create an object representing an external function by inlining a
 // function pointer in the code.  This is not the LLVM way, but it's
 // the only way to access functions in libjvm.so and functions like
 // __kernel_dmb on ARM which is accessed via an absolute address.
 Value* SharkBuilder::make_function(address     func,
                                    const char* params,
                                    const char* ret) {
   return CreateIntToPtr(
     LLVMValue::intptr_constant((intptr_t) func),
     PointerType::getUnqual(make_ftype(params, ret)));
 }

 // VM calls

 Value* SharkBuilder::find_exception_handler() {
   return make_function(
     (address) SharkRuntime::find_exception_handler, "TIi", "i");
 }

 Value* SharkBuilder::monitorenter() {
   return make_function((address) SharkRuntime::monitorenter, "TM", "v");
 }

 Value* SharkBuilder::monitorexit() {
   return make_function((address) SharkRuntime::monitorexit, "TM", "v");
 }

 Value* SharkBuilder::new_instance() {
   return make_function((address) SharkRuntime::new_instance, "Ti", "v");
 }

 Value* SharkBuilder::newarray() {
   return make_function((address) SharkRuntime::newarray, "Tii", "v");
 }

 Value* SharkBuilder::anewarray() {
   return make_function((address) SharkRuntime::anewarray, "Tii", "v");
 }

 Value* SharkBuilder::multianewarray() {
   return make_function((address) SharkRuntime::multianewarray, "TiiI", "v");
 }

 Value* SharkBuilder::register_finalizer() {
   return make_function((address) SharkRuntime::register_finalizer, "TO", "v");
 }

 Value* SharkBuilder::safepoint() {
   return make_function((address) SafepointSynchronize::block, "T", "v");
 }

 Value* SharkBuilder::throw_ArithmeticException() {
   return make_function(
     (address) SharkRuntime::throw_ArithmeticException, "TCi", "v");
 }

 Value* SharkBuilder::throw_ArrayIndexOutOfBoundsException() {
   return make_function(
     (address) SharkRuntime::throw_ArrayIndexOutOfBoundsException, "TCii", "v");
 }

 Value* SharkBuilder::throw_ClassCastException() {
   return make_function(
     (address) SharkRuntime::throw_ClassCastException, "TCi", "v");
 }

 Value* SharkBuilder::throw_NullPointerException() {
   return make_function(
     (address) SharkRuntime::throw_NullPointerException, "TCi", "v");
 }

 // High-level non-VM calls

 Value* SharkBuilder::f2i() {
   return make_function((address) SharedRuntime::f2i, "f", "i");
 }

 Value* SharkBuilder::f2l() {
   return make_function((address) SharedRuntime::f2l, "f", "l");
 }

 Value* SharkBuilder::d2i() {
   return make_function((address) SharedRuntime::d2i, "d", "i");
 }

 Value* SharkBuilder::d2l() {
   return make_function((address) SharedRuntime::d2l, "d", "l");
 }

 Value* SharkBuilder::is_subtype_of() {
   return make_function((address) SharkRuntime::is_subtype_of, "KK", "c");
 }

 Value* SharkBuilder::current_time_millis() {
   return make_function((address) os::javaTimeMillis, "", "l");
 }

 Value* SharkBuilder::sin() {
   return make_function("llvm.sin.f64", "d", "d");
 }

 Value* SharkBuilder::cos() {
   return make_function("llvm.cos.f64", "d", "d");
 }

 Value* SharkBuilder::tan() {
   return make_function((address) ::tan, "d", "d");
 }

 Value* SharkBuilder::atan2() {
   return make_function((address) ::atan2, "dd", "d");
 }

 Value* SharkBuilder::sqrt() {
   return make_function("llvm.sqrt.f64", "d", "d");
 }

 Value* SharkBuilder::log() {
   return make_function("llvm.log.f64", "d", "d");
 }

 Value* SharkBuilder::log10() {
   return make_function("llvm.log10.f64", "d", "d");
 }

 Value* SharkBuilder::pow() {
   return make_function("llvm.pow.f64", "dd", "d");
 }

 Value* SharkBuilder::exp() {
   return make_function("llvm.exp.f64", "d", "d");
 }

 Value* SharkBuilder::fabs() {
   return make_function((address) ::fabs, "d", "d");
 }

 Value* SharkBuilder::unsafe_field_offset_to_byte_offset() {
   extern jlong Unsafe_field_offset_to_byte_offset(jlong field_offset);
   return make_function((address) Unsafe_field_offset_to_byte_offset, "l", "l");
 }

 Value* SharkBuilder::osr_migration_end() {
   return make_function((address) SharedRuntime::OSR_migration_end, "C", "v");
 }

 // Semi-VM calls

 Value* SharkBuilder::throw_StackOverflowError() {
   return make_function((address) ZeroStack::handle_overflow, "T", "v");
 }

 Value* SharkBuilder::uncommon_trap() {
   return make_function((address) SharkRuntime::uncommon_trap, "Ti", "i");
 }

 Value* SharkBuilder::deoptimized_entry_point() {
   return make_function((address) CppInterpreter::main_loop, "iT", "v");
 }

 // Native-Java transition

 Value* SharkBuilder::check_special_condition_for_native_trans() {
   return make_function(
     (address) JavaThread::check_special_condition_for_native_trans,
     "T", "v");
 }

 Value* SharkBuilder::frame_address() {
   return make_function("llvm.frameaddress", "i", "C");
 }

 Value* SharkBuilder::memset() {
   // LLVM 2.8 added a fifth isVolatile field for memset
   // introduced with LLVM r100304
   return make_function("llvm.memset.p0i8.i32", "Cciii", "v");
 }

 Value* SharkBuilder::unimplemented() {
   return make_function((address) report_unimplemented, "Ci", "v");
 }

 Value* SharkBuilder::should_not_reach_here() {
   return make_function((address) report_should_not_reach_here, "Ci", "v");
 }

 Value* SharkBuilder::dump() {
   return make_function((address) SharkRuntime::dump, "Cx", "v");
 }

 // Public interface to low-level non-VM calls

 CallInst* SharkBuilder::CreateGetFrameAddress() {
   return CreateCall(frame_address(), LLVMValue::jint_constant(0));
 }

 CallInst* SharkBuilder::CreateMemset(Value* dst,
                                      Value* value,
                                      Value* len,
                                      Value* align) {
   return CreateCall5(memset(), dst, value, len, align,
                      LLVMValue::jint_constant(0));
 }

 CallInst* SharkBuilder::CreateUnimplemented(const char* file, int line) {
   return CreateCall2(
     unimplemented(),
     CreateIntToPtr(
       LLVMValue::intptr_constant((intptr_t) file),
       PointerType::getUnqual(SharkType::jbyte_type())),
     LLVMValue::jint_constant(line));
 }

 CallInst* SharkBuilder::CreateShouldNotReachHere(const char* file, int line) {
   return CreateCall2(
     should_not_reach_here(),
     CreateIntToPtr(
       LLVMValue::intptr_constant((intptr_t) file),
       PointerType::getUnqual(SharkType::jbyte_type())),
     LLVMValue::jint_constant(line));
 }

 #ifndef PRODUCT
 CallInst* SharkBuilder::CreateDump(Value* value) {
   const char *name;
   if (value->hasName())
     // XXX this leaks, but it's only debug code
     name = strdup(value->getName().str().c_str());
   else
     name = "unnamed_value";

   if (isa<PointerType>(value->getType()))
     value = CreatePtrToInt(value, SharkType::intptr_type());
   else if (value->getType()->
            isIntegerTy()
            )
     value = CreateIntCast(value, SharkType::intptr_type(), false);
   else
     Unimplemented();

   return CreateCall2(
     dump(),
     CreateIntToPtr(
       LLVMValue::intptr_constant((intptr_t) name),
       PointerType::getUnqual(SharkType::jbyte_type())),
     value);
 }
 #endif // PRODUCT

 // HotSpot memory barriers

 void SharkBuilder::CreateUpdateBarrierSet(BarrierSet* bs, Value* field) {
   if (bs->kind() != BarrierSet::CardTableModRef)
     Unimplemented();

   CreateStore(
     LLVMValue::jbyte_constant(CardTableModRefBS::dirty_card),
     CreateIntToPtr(
       CreateAdd(
         LLVMValue::intptr_constant(
           (intptr_t) ((CardTableModRefBS *) bs)->byte_map_base),
         CreateLShr(
           CreatePtrToInt(field, SharkType::intptr_type()),
           LLVMValue::intptr_constant(CardTableModRefBS::card_shift))),
       PointerType::getUnqual(SharkType::jbyte_type())));
 }

 // Helpers for accessing the code buffer

 Value* SharkBuilder::code_buffer_address(int offset) {
   return CreateAdd(
     code_buffer()->base_pc(),
     LLVMValue::intptr_constant(offset));
 }

 Value* SharkBuilder::CreateInlineOop(jobject object, const char* name) {
   return CreateLoad(
     CreateIntToPtr(
       code_buffer_address(code_buffer()->inline_oop(object)),
       PointerType::getUnqual(SharkType::oop_type())),
     name);
 }

 Value* SharkBuilder::CreateInlineMetadata(Metadata* metadata, llvm::PointerType* type, const char* name) {
   assert(metadata != NULL, "inlined metadata must not be NULL");
   assert(metadata->is_metaspace_object(), "sanity check");
   return CreateLoad(
     CreateIntToPtr(
       code_buffer_address(code_buffer()->inline_Metadata(metadata)),
       PointerType::getUnqual(type)),
     name);
 }

 Value* SharkBuilder::CreateInlineData(void*       data,
                                       size_t      size,
                                       Type* type,
                                       const char* name) {
   return CreateIntToPtr(
     code_buffer_address(code_buffer()->inline_data(data, size)),
     type,
     name);
 }

 // Helpers for creating basic blocks.

 BasicBlock* SharkBuilder::GetBlockInsertionPoint() const {
   BasicBlock *cur = GetInsertBlock();

   // BasicBlock::Create takes an insertBefore argument, so
   // we need to find the block _after_ the current block
   Function::iterator iter = cur->getParent()->begin();
   Function::iterator end  = cur->getParent()->end();
   while (iter != end) {
     iter++;
     if (&*iter == cur) {
       iter++;
       break;
     }
   }

   if (iter == end)
     return NULL;
   else
     return iter;
 }

 BasicBlock* SharkBuilder::CreateBlock(BasicBlock* ip, const char* name) const {
   return BasicBlock::Create(
     SharkContext::current(), name, GetInsertBlock()->getParent(), ip);
 }

 LoadInst* SharkBuilder::CreateAtomicLoad(Value* ptr, unsigned align, AtomicOrdering ordering, SynchronizationScope synchScope, bool isVolatile, const char* name) {
   return Insert(new LoadInst(ptr, name, isVolatile, align, ordering, synchScope), name);
 }

 StoreInst* SharkBuilder::CreateAtomicStore(Value* val, Value* ptr, unsigned align, AtomicOrdering ordering, SynchronizationScope synchScope, bool isVolatile, const char* name) {
   return Insert(new StoreInst(val, ptr, isVolatile, align, ordering, synchScope), name);
 }
	/*
	* Copyright (c) 1999, 2013, Oracle and/or its affiliates. All rights reserved.
	* Copyright 2008, 2009, 2010 Red Hat, Inc.
	* 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/ciMethod.hpp"
	#include "memory/resourceArea.hpp"
	#include "oops/method.hpp"
	#include "runtime/os.hpp"
	#include "runtime/synchronizer.hpp"
	#include "runtime/thread.hpp"
	#include "shark/llvmHeaders.hpp"
	#include "shark/llvmValue.hpp"
	#include "shark/sharkBuilder.hpp"
	#include "shark/sharkContext.hpp"
	#include "shark/sharkRuntime.hpp"
	#include "utilities/debug.hpp"

	using namespace llvm;

	SharkBuilder::SharkBuilder(SharkCodeBuffer* code_buffer)
	: IRBuilder<>(SharkContext::current()),
	_code_buffer(code_buffer) {
	}

	// Helpers for accessing structures
	Value* SharkBuilder::CreateAddressOfStructEntry(Value* base,
	ByteSize offset,
	Type* type,
	const char* name) {
	return CreateBitCast(CreateStructGEP(base, in_bytes(offset)), type, name);
	}

	LoadInst* SharkBuilder::CreateValueOfStructEntry(Value* base,
	ByteSize offset,
	Type* type,
	const char* name) {
	return CreateLoad(
	CreateAddressOfStructEntry(
	base, offset, PointerType::getUnqual(type)),
	name);
	}

	// Helpers for accessing arrays

	LoadInst* SharkBuilder::CreateArrayLength(Value* arrayoop) {
	return CreateValueOfStructEntry(
	arrayoop, in_ByteSize(arrayOopDesc::length_offset_in_bytes()),
	SharkType::jint_type(), "length");
	}

	Value* SharkBuilder::CreateArrayAddress(Value* arrayoop,
	Type* element_type,
	int element_bytes,
	ByteSize base_offset,
	Value* index,
	const char* name) {
	Value* offset = CreateIntCast(index, SharkType::intptr_type(), false);
	if (element_bytes != 1)
	offset = CreateShl(
	offset,
	LLVMValue::intptr_constant(exact_log2(element_bytes)));
	offset = CreateAdd(
	LLVMValue::intptr_constant(in_bytes(base_offset)), offset);

	return CreateIntToPtr(
	CreateAdd(CreatePtrToInt(arrayoop, SharkType::intptr_type()), offset),
	PointerType::getUnqual(element_type),
	name);
	}

	Value* SharkBuilder::CreateArrayAddress(Value* arrayoop,
	BasicType basic_type,
	ByteSize base_offset,
	Value* index,
	const char* name) {
	return CreateArrayAddress(
	arrayoop,
	SharkType::to_arrayType(basic_type),
	type2aelembytes(basic_type),
	base_offset, index, name);
	}

	Value* SharkBuilder::CreateArrayAddress(Value* arrayoop,
	BasicType basic_type,
	Value* index,
	const char* name) {
	return CreateArrayAddress(
	arrayoop, basic_type,
	in_ByteSize(arrayOopDesc::base_offset_in_bytes(basic_type)),
	index, name);
	}

	// Helpers for creating intrinsics and external functions.

	Type* SharkBuilder::make_type(char type, bool void_ok) {
	switch (type) {
	// Primitive types
	case 'c':
	return SharkType::jbyte_type();
	case 'i':
	return SharkType::jint_type();
	case 'l':
	return SharkType::jlong_type();
	case 'x':
	return SharkType::intptr_type();
	case 'f':
	return SharkType::jfloat_type();
	case 'd':
	return SharkType::jdouble_type();

	// Pointers to primitive types
	case 'C':
	case 'I':
	case 'L':
	case 'X':
	case 'F':
	case 'D':
	return PointerType::getUnqual(make_type(tolower(type), false));

	// VM objects
	case 'T':
	return SharkType::thread_type();
	case 'M':
	return PointerType::getUnqual(SharkType::monitor_type());
	case 'O':
	return SharkType::oop_type();
	case 'K':
	return SharkType::klass_type();

	// Miscellaneous
	case 'v':
	assert(void_ok, "should be");
	return SharkType::void_type();
	case '1':
	return SharkType::bit_type();

	default:
	ShouldNotReachHere();
	}
	}

	FunctionType* SharkBuilder::make_ftype(const char* params,
	const char* ret) {
	std::vector<Type*> param_types;
	for (const char* c = params; *c; c++)
	param_types.push_back(make_type(*c, false));

	assert(strlen(ret) == 1, "should be");
	Type return_type = make_type(ret, true);

	return FunctionType::get(return_type, param_types, false);
	}

	// Create an object representing an intrinsic or external function by
	// referencing the symbol by name. This is the LLVM-style approach,
	// but it cannot be used on functions within libjvm.so its symbols
	// are not exported. Note that you cannot make this work simply by
	// exporting the symbols, as some symbols have the same names as
	// symbols in the standard libraries (eg, atan2, fabs) and would
	// obscure them were they visible.
	Value* SharkBuilder::make_function(const char* name,
	const char* params,
	const char* ret) {
	return SharkContext::current().get_external(name, make_ftype(params, ret));
	}

	// Create an object representing an external function by inlining a
	// function pointer in the code. This is not the LLVM way, but it's
	// the only way to access functions in libjvm.so and functions like
	// __kernel_dmb on ARM which is accessed via an absolute address.
	Value* SharkBuilder::make_function(address func,
	const char* params,
	const char* ret) {
	return CreateIntToPtr(
	LLVMValue::intptr_constant((intptr_t) func),
	PointerType::getUnqual(make_ftype(params, ret)));
	}

	// VM calls

	Value* SharkBuilder::find_exception_handler() {
	return make_function(
	(address) SharkRuntime::find_exception_handler, "TIi", "i");
	}

	Value* SharkBuilder::monitorenter() {
	return make_function((address) SharkRuntime::monitorenter, "TM", "v");
	}

	Value* SharkBuilder::monitorexit() {
	return make_function((address) SharkRuntime::monitorexit, "TM", "v");
	}

	Value* SharkBuilder::new_instance() {
	return make_function((address) SharkRuntime::new_instance, "Ti", "v");
	}

	Value* SharkBuilder::newarray() {
	return make_function((address) SharkRuntime::newarray, "Tii", "v");
	}

	Value* SharkBuilder::anewarray() {
	return make_function((address) SharkRuntime::anewarray, "Tii", "v");
	}

	Value* SharkBuilder::multianewarray() {
	return make_function((address) SharkRuntime::multianewarray, "TiiI", "v");
	}

	Value* SharkBuilder::register_finalizer() {
	return make_function((address) SharkRuntime::register_finalizer, "TO", "v");
	}

	Value* SharkBuilder::safepoint() {
	return make_function((address) SafepointSynchronize::block, "T", "v");
	}

	Value* SharkBuilder::throw_ArithmeticException() {
	return make_function(
	(address) SharkRuntime::throw_ArithmeticException, "TCi", "v");
	}

	Value* SharkBuilder::throw_ArrayIndexOutOfBoundsException() {
	return make_function(
	(address) SharkRuntime::throw_ArrayIndexOutOfBoundsException, "TCii", "v");
	}

	Value* SharkBuilder::throw_ClassCastException() {
	return make_function(
	(address) SharkRuntime::throw_ClassCastException, "TCi", "v");
	}

	Value* SharkBuilder::throw_NullPointerException() {
	return make_function(
	(address) SharkRuntime::throw_NullPointerException, "TCi", "v");
	}

	// High-level non-VM calls

	Value* SharkBuilder::f2i() {
	return make_function((address) SharedRuntime::f2i, "f", "i");
	}

	Value* SharkBuilder::f2l() {
	return make_function((address) SharedRuntime::f2l, "f", "l");
	}

	Value* SharkBuilder::d2i() {
	return make_function((address) SharedRuntime::d2i, "d", "i");
	}

	Value* SharkBuilder::d2l() {
	return make_function((address) SharedRuntime::d2l, "d", "l");
	}

	Value* SharkBuilder::is_subtype_of() {
	return make_function((address) SharkRuntime::is_subtype_of, "KK", "c");
	}

	Value* SharkBuilder::current_time_millis() {
	return make_function((address) os::javaTimeMillis, "", "l");
	}

	Value* SharkBuilder::sin() {
	return make_function("llvm.sin.f64", "d", "d");
	}

	Value* SharkBuilder::cos() {
	return make_function("llvm.cos.f64", "d", "d");
	}

	Value* SharkBuilder::tan() {
	return make_function((address) ::tan, "d", "d");
	}

	Value* SharkBuilder::atan2() {
	return make_function((address) ::atan2, "dd", "d");
	}

	Value* SharkBuilder::sqrt() {
	return make_function("llvm.sqrt.f64", "d", "d");
	}

	Value* SharkBuilder::log() {
	return make_function("llvm.log.f64", "d", "d");
	}

	Value* SharkBuilder::log10() {
	return make_function("llvm.log10.f64", "d", "d");
	}

	Value* SharkBuilder::pow() {
	return make_function("llvm.pow.f64", "dd", "d");
	}

	Value* SharkBuilder::exp() {
	return make_function("llvm.exp.f64", "d", "d");
	}

	Value* SharkBuilder::fabs() {
	return make_function((address) ::fabs, "d", "d");
	}

	Value* SharkBuilder::unsafe_field_offset_to_byte_offset() {
	extern jlong Unsafe_field_offset_to_byte_offset(jlong field_offset);
	return make_function((address) Unsafe_field_offset_to_byte_offset, "l", "l");
	}

	Value* SharkBuilder::osr_migration_end() {
	return make_function((address) SharedRuntime::OSR_migration_end, "C", "v");
	}

	// Semi-VM calls

	Value* SharkBuilder::throw_StackOverflowError() {
	return make_function((address) ZeroStack::handle_overflow, "T", "v");
	}

	Value* SharkBuilder::uncommon_trap() {
	return make_function((address) SharkRuntime::uncommon_trap, "Ti", "i");
	}

	Value* SharkBuilder::deoptimized_entry_point() {
	return make_function((address) CppInterpreter::main_loop, "iT", "v");
	}

	// Native-Java transition

	Value* SharkBuilder::check_special_condition_for_native_trans() {
	return make_function(
	(address) JavaThread::check_special_condition_for_native_trans,
	"T", "v");
	}

	Value* SharkBuilder::frame_address() {
	return make_function("llvm.frameaddress", "i", "C");
	}

	Value* SharkBuilder::memset() {
	// LLVM 2.8 added a fifth isVolatile field for memset
	// introduced with LLVM r100304
	return make_function("llvm.memset.p0i8.i32", "Cciii", "v");
	}

	Value* SharkBuilder::unimplemented() {
	return make_function((address) report_unimplemented, "Ci", "v");
	}

	Value* SharkBuilder::should_not_reach_here() {
	return make_function((address) report_should_not_reach_here, "Ci", "v");
	}

	Value* SharkBuilder::dump() {
	return make_function((address) SharkRuntime::dump, "Cx", "v");
	}

	// Public interface to low-level non-VM calls

	CallInst* SharkBuilder::CreateGetFrameAddress() {
	return CreateCall(frame_address(), LLVMValue::jint_constant(0));
	}

	CallInst* SharkBuilder::CreateMemset(Value* dst,
	Value* value,
	Value* len,
	Value* align) {
	return CreateCall5(memset(), dst, value, len, align,
	LLVMValue::jint_constant(0));
	}

	CallInst* SharkBuilder::CreateUnimplemented(const char* file, int line) {
	return CreateCall2(
	unimplemented(),
	CreateIntToPtr(
	LLVMValue::intptr_constant((intptr_t) file),
	PointerType::getUnqual(SharkType::jbyte_type())),
	LLVMValue::jint_constant(line));
	}

	CallInst* SharkBuilder::CreateShouldNotReachHere(const char* file, int line) {
	return CreateCall2(
	should_not_reach_here(),
	CreateIntToPtr(
	LLVMValue::intptr_constant((intptr_t) file),
	PointerType::getUnqual(SharkType::jbyte_type())),
	LLVMValue::jint_constant(line));
	}

	#ifndef PRODUCT
	CallInst* SharkBuilder::CreateDump(Value* value) {
	const char *name;
	if (value->hasName())
	// XXX this leaks, but it's only debug code
	name = strdup(value->getName().str().c_str());
	else
	name = "unnamed_value";

	if (isa<PointerType>(value->getType()))
	value = CreatePtrToInt(value, SharkType::intptr_type());
	else if (value->getType()->
	isIntegerTy()
	)
	value = CreateIntCast(value, SharkType::intptr_type(), false);
	else
	Unimplemented();

	return CreateCall2(
	dump(),
	CreateIntToPtr(
	LLVMValue::intptr_constant((intptr_t) name),
	PointerType::getUnqual(SharkType::jbyte_type())),
	value);
	}
	#endif // PRODUCT

	// HotSpot memory barriers

	void SharkBuilder::CreateUpdateBarrierSet(BarrierSet* bs, Value* field) {
	if (bs->kind() != BarrierSet::CardTableModRef)
	Unimplemented();

	CreateStore(
	LLVMValue::jbyte_constant(CardTableModRefBS::dirty_card),
	CreateIntToPtr(
	CreateAdd(
	LLVMValue::intptr_constant(
	(intptr_t) ((CardTableModRefBS *) bs)->byte_map_base),
	CreateLShr(
	CreatePtrToInt(field, SharkType::intptr_type()),
	LLVMValue::intptr_constant(CardTableModRefBS::card_shift))),
	PointerType::getUnqual(SharkType::jbyte_type())));
	}

	// Helpers for accessing the code buffer

	Value* SharkBuilder::code_buffer_address(int offset) {
	return CreateAdd(
	code_buffer()->base_pc(),
	LLVMValue::intptr_constant(offset));
	}

	Value* SharkBuilder::CreateInlineOop(jobject object, const char* name) {
	return CreateLoad(
	CreateIntToPtr(
	code_buffer_address(code_buffer()->inline_oop(object)),
	PointerType::getUnqual(SharkType::oop_type())),
	name);
	}

	Value* SharkBuilder::CreateInlineMetadata(Metadata* metadata, llvm::PointerType* type, const char* name) {
	assert(metadata != NULL, "inlined metadata must not be NULL");
	assert(metadata->is_metaspace_object(), "sanity check");
	return CreateLoad(
	CreateIntToPtr(
	code_buffer_address(code_buffer()->inline_Metadata(metadata)),
	PointerType::getUnqual(type)),
	name);
	}

	Value* SharkBuilder::CreateInlineData(void* data,
	size_t size,
	Type* type,
	const char* name) {
	return CreateIntToPtr(
	code_buffer_address(code_buffer()->inline_data(data, size)),
	type,
	name);
	}

	// Helpers for creating basic blocks.

	BasicBlock* SharkBuilder::GetBlockInsertionPoint() const {
	BasicBlock *cur = GetInsertBlock();

	// BasicBlock::Create takes an insertBefore argument, so
	// we need to find the block _after_ the current block
	Function::iterator iter = cur->getParent()->begin();
	Function::iterator end = cur->getParent()->end();
	while (iter != end) {
	iter++;
	if (&*iter == cur) {
	iter++;
	break;
	}
	}

	if (iter == end)
	return NULL;
	else
	return iter;
	}

	BasicBlock* SharkBuilder::CreateBlock(BasicBlock* ip, const char* name) const {
	return BasicBlock::Create(
	SharkContext::current(), name, GetInsertBlock()->getParent(), ip);
	}

	LoadInst* SharkBuilder::CreateAtomicLoad(Value* ptr, unsigned align, AtomicOrdering ordering, SynchronizationScope synchScope, bool isVolatile, const char* name) {
	return Insert(new LoadInst(ptr, name, isVolatile, align, ordering, synchScope), name);
	}

	StoreInst* SharkBuilder::CreateAtomicStore(Value* val, Value* ptr, unsigned align, AtomicOrdering ordering, SynchronizationScope synchScope, bool isVolatile, const char* name) {
	return Insert(new StoreInst(val, ptr, isVolatile, align, ordering, synchScope), name);
	}