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Java example source code file (sharkBuilder.cpp)

This example Java source code file (sharkBuilder.cpp) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

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Java - Java tags/keywords

basicblock, bytesize, callinst, createadd, createinttoptr, llvmvalue::intptr_constant, llvmvalue\:\:jint_constant, loadinst, null, pointertype::getunqual, sharkbuilder\:\:createarrayaddress, sharktype\:\:intptr_type, tci, value

The sharkBuilder.cpp Java example source code

/*
 * 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);
}

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