c1_CodeStubs_x86.cpp 17.7 KB
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/*
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 * Copyright (c) 1999, 2012, Oracle and/or its affiliates. All rights reserved.
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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
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 * 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.
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 *
 */

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#include "precompiled.hpp"
#include "c1/c1_CodeStubs.hpp"
#include "c1/c1_FrameMap.hpp"
#include "c1/c1_LIRAssembler.hpp"
#include "c1/c1_MacroAssembler.hpp"
#include "c1/c1_Runtime1.hpp"
#include "nativeInst_x86.hpp"
#include "runtime/sharedRuntime.hpp"
#include "vmreg_x86.inline.hpp"
#ifndef SERIALGC
#include "gc_implementation/g1/g1SATBCardTableModRefBS.hpp"
#endif
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#define __ ce->masm()->

float ConversionStub::float_zero = 0.0;
double ConversionStub::double_zero = 0.0;

void ConversionStub::emit_code(LIR_Assembler* ce) {
  __ bind(_entry);
  assert(bytecode() == Bytecodes::_f2i || bytecode() == Bytecodes::_d2i, "other conversions do not require stub");


  if (input()->is_single_xmm()) {
    __ comiss(input()->as_xmm_float_reg(),
              ExternalAddress((address)&float_zero));
  } else if (input()->is_double_xmm()) {
    __ comisd(input()->as_xmm_double_reg(),
              ExternalAddress((address)&double_zero));
  } else {
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    LP64_ONLY(ShouldNotReachHere());
    __ push(rax);
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    __ ftst();
    __ fnstsw_ax();
    __ sahf();
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    __ pop(rax);
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  }

  Label NaN, do_return;
  __ jccb(Assembler::parity, NaN);
  __ jccb(Assembler::below, do_return);

  // input is > 0 -> return maxInt
  // result register already contains 0x80000000, so subtracting 1 gives 0x7fffffff
  __ decrement(result()->as_register());
  __ jmpb(do_return);

  // input is NaN -> return 0
  __ bind(NaN);
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  __ xorptr(result()->as_register(), result()->as_register());
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  __ bind(do_return);
  __ jmp(_continuation);
}

void CounterOverflowStub::emit_code(LIR_Assembler* ce) {
  __ bind(_entry);
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  ce->store_parameter(_method->as_register(), 1);
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  ce->store_parameter(_bci, 0);
  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::counter_overflow_id)));
  ce->add_call_info_here(_info);
  ce->verify_oop_map(_info);
  __ jmp(_continuation);
}

RangeCheckStub::RangeCheckStub(CodeEmitInfo* info, LIR_Opr index,
                               bool throw_index_out_of_bounds_exception)
  : _throw_index_out_of_bounds_exception(throw_index_out_of_bounds_exception)
  , _index(index)
{
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  assert(info != NULL, "must have info");
  _info = new CodeEmitInfo(info);
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}


void RangeCheckStub::emit_code(LIR_Assembler* ce) {
  __ bind(_entry);
  // pass the array index on stack because all registers must be preserved
  if (_index->is_cpu_register()) {
    ce->store_parameter(_index->as_register(), 0);
  } else {
    ce->store_parameter(_index->as_jint(), 0);
  }
  Runtime1::StubID stub_id;
  if (_throw_index_out_of_bounds_exception) {
    stub_id = Runtime1::throw_index_exception_id;
  } else {
    stub_id = Runtime1::throw_range_check_failed_id;
  }
  __ call(RuntimeAddress(Runtime1::entry_for(stub_id)));
  ce->add_call_info_here(_info);
  debug_only(__ should_not_reach_here());
}


void DivByZeroStub::emit_code(LIR_Assembler* ce) {
  if (_offset != -1) {
    ce->compilation()->implicit_exception_table()->append(_offset, __ offset());
  }
  __ bind(_entry);
  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::throw_div0_exception_id)));
  ce->add_call_info_here(_info);
  debug_only(__ should_not_reach_here());
}


// Implementation of NewInstanceStub

NewInstanceStub::NewInstanceStub(LIR_Opr klass_reg, LIR_Opr result, ciInstanceKlass* klass, CodeEmitInfo* info, Runtime1::StubID stub_id) {
  _result = result;
  _klass = klass;
  _klass_reg = klass_reg;
  _info = new CodeEmitInfo(info);
  assert(stub_id == Runtime1::new_instance_id                 ||
         stub_id == Runtime1::fast_new_instance_id            ||
         stub_id == Runtime1::fast_new_instance_init_check_id,
         "need new_instance id");
  _stub_id   = stub_id;
}


void NewInstanceStub::emit_code(LIR_Assembler* ce) {
  assert(__ rsp_offset() == 0, "frame size should be fixed");
  __ bind(_entry);
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  __ movptr(rdx, _klass_reg->as_register());
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  __ call(RuntimeAddress(Runtime1::entry_for(_stub_id)));
  ce->add_call_info_here(_info);
  ce->verify_oop_map(_info);
  assert(_result->as_register() == rax, "result must in rax,");
  __ jmp(_continuation);
}


// Implementation of NewTypeArrayStub

NewTypeArrayStub::NewTypeArrayStub(LIR_Opr klass_reg, LIR_Opr length, LIR_Opr result, CodeEmitInfo* info) {
  _klass_reg = klass_reg;
  _length = length;
  _result = result;
  _info = new CodeEmitInfo(info);
}


void NewTypeArrayStub::emit_code(LIR_Assembler* ce) {
  assert(__ rsp_offset() == 0, "frame size should be fixed");
  __ bind(_entry);
  assert(_length->as_register() == rbx, "length must in rbx,");
  assert(_klass_reg->as_register() == rdx, "klass_reg must in rdx");
  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::new_type_array_id)));
  ce->add_call_info_here(_info);
  ce->verify_oop_map(_info);
  assert(_result->as_register() == rax, "result must in rax,");
  __ jmp(_continuation);
}


// Implementation of NewObjectArrayStub

NewObjectArrayStub::NewObjectArrayStub(LIR_Opr klass_reg, LIR_Opr length, LIR_Opr result, CodeEmitInfo* info) {
  _klass_reg = klass_reg;
  _result = result;
  _length = length;
  _info = new CodeEmitInfo(info);
}


void NewObjectArrayStub::emit_code(LIR_Assembler* ce) {
  assert(__ rsp_offset() == 0, "frame size should be fixed");
  __ bind(_entry);
  assert(_length->as_register() == rbx, "length must in rbx,");
  assert(_klass_reg->as_register() == rdx, "klass_reg must in rdx");
  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::new_object_array_id)));
  ce->add_call_info_here(_info);
  ce->verify_oop_map(_info);
  assert(_result->as_register() == rax, "result must in rax,");
  __ jmp(_continuation);
}


// Implementation of MonitorAccessStubs

MonitorEnterStub::MonitorEnterStub(LIR_Opr obj_reg, LIR_Opr lock_reg, CodeEmitInfo* info)
: MonitorAccessStub(obj_reg, lock_reg)
{
  _info = new CodeEmitInfo(info);
}


void MonitorEnterStub::emit_code(LIR_Assembler* ce) {
  assert(__ rsp_offset() == 0, "frame size should be fixed");
  __ bind(_entry);
  ce->store_parameter(_obj_reg->as_register(),  1);
  ce->store_parameter(_lock_reg->as_register(), 0);
  Runtime1::StubID enter_id;
  if (ce->compilation()->has_fpu_code()) {
    enter_id = Runtime1::monitorenter_id;
  } else {
    enter_id = Runtime1::monitorenter_nofpu_id;
  }
  __ call(RuntimeAddress(Runtime1::entry_for(enter_id)));
  ce->add_call_info_here(_info);
  ce->verify_oop_map(_info);
  __ jmp(_continuation);
}


void MonitorExitStub::emit_code(LIR_Assembler* ce) {
  __ bind(_entry);
  if (_compute_lock) {
    // lock_reg was destroyed by fast unlocking attempt => recompute it
    ce->monitor_address(_monitor_ix, _lock_reg);
  }
  ce->store_parameter(_lock_reg->as_register(), 0);
  // note: non-blocking leaf routine => no call info needed
  Runtime1::StubID exit_id;
  if (ce->compilation()->has_fpu_code()) {
    exit_id = Runtime1::monitorexit_id;
  } else {
    exit_id = Runtime1::monitorexit_nofpu_id;
  }
  __ call(RuntimeAddress(Runtime1::entry_for(exit_id)));
  __ jmp(_continuation);
}


// Implementation of patching:
// - Copy the code at given offset to an inlined buffer (first the bytes, then the number of bytes)
// - Replace original code with a call to the stub
// At Runtime:
// - call to stub, jump to runtime
// - in runtime: preserve all registers (rspecially objects, i.e., source and destination object)
// - in runtime: after initializing class, restore original code, reexecute instruction

int PatchingStub::_patch_info_offset = -NativeGeneralJump::instruction_size;

void PatchingStub::align_patch_site(MacroAssembler* masm) {
  // We're patching a 5-7 byte instruction on intel and we need to
  // make sure that we don't see a piece of the instruction.  It
  // appears mostly impossible on Intel to simply invalidate other
  // processors caches and since they may do aggressive prefetch it's
  // very hard to make a guess about what code might be in the icache.
  // Force the instruction to be double word aligned so that it
  // doesn't span a cache line.
  masm->align(round_to(NativeGeneralJump::instruction_size, wordSize));
}

void PatchingStub::emit_code(LIR_Assembler* ce) {
  assert(NativeCall::instruction_size <= _bytes_to_copy && _bytes_to_copy <= 0xFF, "not enough room for call");

  Label call_patch;

  // static field accesses have special semantics while the class
  // initializer is being run so we emit a test which can be used to
  // check that this code is being executed by the initializing
  // thread.
  address being_initialized_entry = __ pc();
  if (CommentedAssembly) {
    __ block_comment(" patch template");
  }
  if (_id == load_klass_id) {
    // produce a copy of the load klass instruction for use by the being initialized case
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#ifdef ASSERT
    address start = __ pc();
#endif
    Metadata* o = NULL;
    __ mov_metadata(_obj, o);
#ifdef ASSERT
    for (int i = 0; i < _bytes_to_copy; i++) {
      address ptr = (address)(_pc_start + i);
      int a_byte = (*ptr) & 0xFF;
      assert(a_byte == *start++, "should be the same code");
    }
#endif
  } else if (_id == load_mirror_id) {
    // produce a copy of the load mirror instruction for use by the being
    // initialized case
#ifdef ASSERT
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    address start = __ pc();
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#endif
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    jobject o = NULL;
    __ movoop(_obj, o);
#ifdef ASSERT
    for (int i = 0; i < _bytes_to_copy; i++) {
      address ptr = (address)(_pc_start + i);
      int a_byte = (*ptr) & 0xFF;
      assert(a_byte == *start++, "should be the same code");
    }
#endif
  } else {
    // make a copy the code which is going to be patched.
    for ( int i = 0; i < _bytes_to_copy; i++) {
      address ptr = (address)(_pc_start + i);
      int a_byte = (*ptr) & 0xFF;
      __ a_byte (a_byte);
      *ptr = 0x90; // make the site look like a nop
    }
  }

  address end_of_patch = __ pc();
  int bytes_to_skip = 0;
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  if (_id == load_mirror_id) {
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    int offset = __ offset();
    if (CommentedAssembly) {
      __ block_comment(" being_initialized check");
    }
    assert(_obj != noreg, "must be a valid register");
    Register tmp = rax;
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    Register tmp2 = rbx;
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    __ push(tmp);
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    __ push(tmp2);
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    // Load without verification to keep code size small. We need it because
    // begin_initialized_entry_offset has to fit in a byte. Also, we know it's not null.
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    __ movptr(tmp2, Address(_obj, java_lang_Class::klass_offset_in_bytes()));
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    __ get_thread(tmp);
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    __ cmpptr(tmp, Address(tmp2, InstanceKlass::init_thread_offset()));
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    __ pop(tmp2);
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    __ pop(tmp);
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    __ jcc(Assembler::notEqual, call_patch);

    // access_field patches may execute the patched code before it's
    // copied back into place so we need to jump back into the main
    // code of the nmethod to continue execution.
    __ jmp(_patch_site_continuation);

    // make sure this extra code gets skipped
    bytes_to_skip += __ offset() - offset;
  }
  if (CommentedAssembly) {
    __ block_comment("patch data encoded as movl");
  }
  // Now emit the patch record telling the runtime how to find the
  // pieces of the patch.  We only need 3 bytes but for readability of
  // the disassembly we make the data look like a movl reg, imm32,
  // which requires 5 bytes
  int sizeof_patch_record = 5;
  bytes_to_skip += sizeof_patch_record;

  // emit the offsets needed to find the code to patch
  int being_initialized_entry_offset = __ pc() - being_initialized_entry + sizeof_patch_record;

  __ a_byte(0xB8);
  __ a_byte(0);
  __ a_byte(being_initialized_entry_offset);
  __ a_byte(bytes_to_skip);
  __ a_byte(_bytes_to_copy);
  address patch_info_pc = __ pc();
  assert(patch_info_pc - end_of_patch == bytes_to_skip, "incorrect patch info");

  address entry = __ pc();
  NativeGeneralJump::insert_unconditional((address)_pc_start, entry);
  address target = NULL;
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  relocInfo::relocType reloc_type = relocInfo::none;
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  switch (_id) {
    case access_field_id:  target = Runtime1::entry_for(Runtime1::access_field_patching_id); break;
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    case load_klass_id:    target = Runtime1::entry_for(Runtime1::load_klass_patching_id); reloc_type = relocInfo::metadata_type; break;
    case load_mirror_id:   target = Runtime1::entry_for(Runtime1::load_mirror_patching_id); reloc_type = relocInfo::oop_type; break;
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    default: ShouldNotReachHere();
  }
  __ bind(call_patch);

  if (CommentedAssembly) {
    __ block_comment("patch entry point");
  }
  __ call(RuntimeAddress(target));
  assert(_patch_info_offset == (patch_info_pc - __ pc()), "must not change");
  ce->add_call_info_here(_info);
  int jmp_off = __ offset();
  __ jmp(_patch_site_entry);
  // Add enough nops so deoptimization can overwrite the jmp above with a call
  // and not destroy the world.
  for (int j = __ offset() ; j < jmp_off + 5 ; j++ ) {
    __ nop();
  }
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  if (_id == load_klass_id || _id == load_mirror_id) {
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    CodeSection* cs = __ code_section();
    RelocIterator iter(cs, (address)_pc_start, (address)(_pc_start + 1));
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    relocInfo::change_reloc_info_for_address(&iter, (address) _pc_start, reloc_type, relocInfo::none);
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  }
}


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void DeoptimizeStub::emit_code(LIR_Assembler* ce) {
  __ bind(_entry);
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  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::deoptimize_id)));
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  ce->add_call_info_here(_info);
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  DEBUG_ONLY(__ should_not_reach_here());
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}


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void ImplicitNullCheckStub::emit_code(LIR_Assembler* ce) {
  ce->compilation()->implicit_exception_table()->append(_offset, __ offset());
  __ bind(_entry);
  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::throw_null_pointer_exception_id)));
  ce->add_call_info_here(_info);
  debug_only(__ should_not_reach_here());
}


void SimpleExceptionStub::emit_code(LIR_Assembler* ce) {
  assert(__ rsp_offset() == 0, "frame size should be fixed");

  __ bind(_entry);
  // pass the object on stack because all registers must be preserved
  if (_obj->is_cpu_register()) {
    ce->store_parameter(_obj->as_register(), 0);
  }
  __ call(RuntimeAddress(Runtime1::entry_for(_stub)));
  ce->add_call_info_here(_info);
  debug_only(__ should_not_reach_here());
}


void ArrayCopyStub::emit_code(LIR_Assembler* ce) {
  //---------------slow case: call to native-----------------
  __ bind(_entry);
  // Figure out where the args should go
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  // This should really convert the IntrinsicID to the Method* and signature
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  // but I don't know how to do that.
  //
  VMRegPair args[5];
  BasicType signature[5] = { T_OBJECT, T_INT, T_OBJECT, T_INT, T_INT};
  SharedRuntime::java_calling_convention(signature, args, 5, true);

  // push parameters
  // (src, src_pos, dest, destPos, length)
  Register r[5];
  r[0] = src()->as_register();
  r[1] = src_pos()->as_register();
  r[2] = dst()->as_register();
  r[3] = dst_pos()->as_register();
  r[4] = length()->as_register();

  // next registers will get stored on the stack
  for (int i = 0; i < 5 ; i++ ) {
    VMReg r_1 = args[i].first();
    if (r_1->is_stack()) {
      int st_off = r_1->reg2stack() * wordSize;
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      __ movptr (Address(rsp, st_off), r[i]);
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    } else {
      assert(r[i] == args[i].first()->as_Register(), "Wrong register for arg ");
    }
  }

  ce->align_call(lir_static_call);

  ce->emit_static_call_stub();
  AddressLiteral resolve(SharedRuntime::get_resolve_static_call_stub(),
                         relocInfo::static_call_type);
  __ call(resolve);
  ce->add_call_info_here(info());

#ifndef PRODUCT
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  __ incrementl(ExternalAddress((address)&Runtime1::_arraycopy_slowcase_cnt));
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#endif

  __ jmp(_continuation);
}

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/////////////////////////////////////////////////////////////////////////////
#ifndef SERIALGC

void G1PreBarrierStub::emit_code(LIR_Assembler* ce) {
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  // At this point we know that marking is in progress.
  // If do_load() is true then we have to emit the
  // load of the previous value; otherwise it has already
  // been loaded into _pre_val.
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  __ bind(_entry);
  assert(pre_val()->is_register(), "Precondition.");

  Register pre_val_reg = pre_val()->as_register();

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  if (do_load()) {
    ce->mem2reg(addr(), pre_val(), T_OBJECT, patch_code(), info(), false /*wide*/, false /*unaligned*/);
  }
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  __ cmpptr(pre_val_reg, (int32_t) NULL_WORD);
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  __ jcc(Assembler::equal, _continuation);
  ce->store_parameter(pre_val()->as_register(), 0);
  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::g1_pre_barrier_slow_id)));
  __ jmp(_continuation);

}

jbyte* G1PostBarrierStub::_byte_map_base = NULL;

jbyte* G1PostBarrierStub::byte_map_base_slow() {
  BarrierSet* bs = Universe::heap()->barrier_set();
  assert(bs->is_a(BarrierSet::G1SATBCTLogging),
         "Must be if we're using this.");
  return ((G1SATBCardTableModRefBS*)bs)->byte_map_base;
}

void G1PostBarrierStub::emit_code(LIR_Assembler* ce) {
  __ bind(_entry);
  assert(addr()->is_register(), "Precondition.");
  assert(new_val()->is_register(), "Precondition.");
  Register new_val_reg = new_val()->as_register();
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  __ cmpptr(new_val_reg, (int32_t) NULL_WORD);
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  __ jcc(Assembler::equal, _continuation);
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  ce->store_parameter(addr()->as_pointer_register(), 0);
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  __ call(RuntimeAddress(Runtime1::entry_for(Runtime1::g1_post_barrier_slow_id)));
  __ jmp(_continuation);
}

#endif // SERIALGC
/////////////////////////////////////////////////////////////////////////////
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#undef __