c1_Runtime1_x86.cpp 68.1 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"
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#include "asm/assembler.hpp"
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#include "c1/c1_Defs.hpp"
#include "c1/c1_MacroAssembler.hpp"
#include "c1/c1_Runtime1.hpp"
#include "interpreter/interpreter.hpp"
#include "nativeInst_x86.hpp"
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#include "oops/compiledICHolder.hpp"
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#include "oops/oop.inline.hpp"
#include "prims/jvmtiExport.hpp"
#include "register_x86.hpp"
#include "runtime/sharedRuntime.hpp"
#include "runtime/signature.hpp"
#include "runtime/vframeArray.hpp"
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#include "utilities/macros.hpp"
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#include "vmreg_x86.inline.hpp"
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#if INCLUDE_ALL_GCS
#include "gc_implementation/g1/g1SATBCardTableModRefBS.hpp"
#endif
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// Implementation of StubAssembler

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int StubAssembler::call_RT(Register oop_result1, Register metadata_result, address entry, int args_size) {
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  // setup registers
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  const Register thread = NOT_LP64(rdi) LP64_ONLY(r15_thread); // is callee-saved register (Visual C++ calling conventions)
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  assert(!(oop_result1->is_valid() || metadata_result->is_valid()) || oop_result1 != metadata_result, "registers must be different");
  assert(oop_result1 != thread && metadata_result != thread, "registers must be different");
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  assert(args_size >= 0, "illegal args_size");
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  bool align_stack = false;
#ifdef _LP64
  // At a method handle call, the stack may not be properly aligned
  // when returning with an exception.
  align_stack = (stub_id() == Runtime1::handle_exception_from_callee_id);
#endif
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#ifdef _LP64
  mov(c_rarg0, thread);
  set_num_rt_args(0); // Nothing on stack
#else
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  set_num_rt_args(1 + args_size);

  // push java thread (becomes first argument of C function)
  get_thread(thread);
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  push(thread);
#endif // _LP64
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  int call_offset;
  if (!align_stack) {
    set_last_Java_frame(thread, noreg, rbp, NULL);
  } else {
    address the_pc = pc();
    call_offset = offset();
    set_last_Java_frame(thread, noreg, rbp, the_pc);
    andptr(rsp, -(StackAlignmentInBytes));    // Align stack
  }
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  // do the call
  call(RuntimeAddress(entry));
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  if (!align_stack) {
    call_offset = offset();
  }
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  // verify callee-saved register
#ifdef ASSERT
  guarantee(thread != rax, "change this code");
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  push(rax);
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  { Label L;
    get_thread(rax);
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    cmpptr(thread, rax);
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    jcc(Assembler::equal, L);
    int3();
    stop("StubAssembler::call_RT: rdi not callee saved?");
    bind(L);
  }
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  pop(rax);
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#endif
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  reset_last_Java_frame(thread, true, align_stack);
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  // discard thread and arguments
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  NOT_LP64(addptr(rsp, num_rt_args()*BytesPerWord));
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  // check for pending exceptions
  { Label L;
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    cmpptr(Address(thread, Thread::pending_exception_offset()), (int32_t)NULL_WORD);
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    jcc(Assembler::equal, L);
    // exception pending => remove activation and forward to exception handler
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    movptr(rax, Address(thread, Thread::pending_exception_offset()));
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    // make sure that the vm_results are cleared
    if (oop_result1->is_valid()) {
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      movptr(Address(thread, JavaThread::vm_result_offset()), NULL_WORD);
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    }
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    if (metadata_result->is_valid()) {
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      movptr(Address(thread, JavaThread::vm_result_2_offset()), NULL_WORD);
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    }
    if (frame_size() == no_frame_size) {
      leave();
      jump(RuntimeAddress(StubRoutines::forward_exception_entry()));
    } else if (_stub_id == Runtime1::forward_exception_id) {
      should_not_reach_here();
    } else {
      jump(RuntimeAddress(Runtime1::entry_for(Runtime1::forward_exception_id)));
    }
    bind(L);
  }
  // get oop results if there are any and reset the values in the thread
  if (oop_result1->is_valid()) {
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    get_vm_result(oop_result1, thread);
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  }
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  if (metadata_result->is_valid()) {
    get_vm_result_2(metadata_result, thread);
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  }
  return call_offset;
}


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int StubAssembler::call_RT(Register oop_result1, Register metadata_result, address entry, Register arg1) {
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#ifdef _LP64
  mov(c_rarg1, arg1);
#else
  push(arg1);
#endif // _LP64
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  return call_RT(oop_result1, metadata_result, entry, 1);
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}


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int StubAssembler::call_RT(Register oop_result1, Register metadata_result, address entry, Register arg1, Register arg2) {
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#ifdef _LP64
  if (c_rarg1 == arg2) {
    if (c_rarg2 == arg1) {
      xchgq(arg1, arg2);
    } else {
      mov(c_rarg2, arg2);
      mov(c_rarg1, arg1);
    }
  } else {
    mov(c_rarg1, arg1);
    mov(c_rarg2, arg2);
  }
#else
  push(arg2);
  push(arg1);
#endif // _LP64
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  return call_RT(oop_result1, metadata_result, entry, 2);
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}


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int StubAssembler::call_RT(Register oop_result1, Register metadata_result, address entry, Register arg1, Register arg2, Register arg3) {
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#ifdef _LP64
  // if there is any conflict use the stack
  if (arg1 == c_rarg2 || arg1 == c_rarg3 ||
      arg2 == c_rarg1 || arg1 == c_rarg3 ||
      arg3 == c_rarg1 || arg1 == c_rarg2) {
    push(arg3);
    push(arg2);
    push(arg1);
    pop(c_rarg1);
    pop(c_rarg2);
    pop(c_rarg3);
  } else {
    mov(c_rarg1, arg1);
    mov(c_rarg2, arg2);
    mov(c_rarg3, arg3);
  }
#else
  push(arg3);
  push(arg2);
  push(arg1);
#endif // _LP64
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  return call_RT(oop_result1, metadata_result, entry, 3);
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}


// Implementation of StubFrame

class StubFrame: public StackObj {
 private:
  StubAssembler* _sasm;

 public:
  StubFrame(StubAssembler* sasm, const char* name, bool must_gc_arguments);
  void load_argument(int offset_in_words, Register reg);

  ~StubFrame();
};


#define __ _sasm->

StubFrame::StubFrame(StubAssembler* sasm, const char* name, bool must_gc_arguments) {
  _sasm = sasm;
  __ set_info(name, must_gc_arguments);
  __ enter();
}

// load parameters that were stored with LIR_Assembler::store_parameter
// Note: offsets for store_parameter and load_argument must match
void StubFrame::load_argument(int offset_in_words, Register reg) {
  // rbp, + 0: link
  //     + 1: return address
  //     + 2: argument with offset 0
  //     + 3: argument with offset 1
  //     + 4: ...

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  __ movptr(reg, Address(rbp, (offset_in_words + 2) * BytesPerWord));
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}


StubFrame::~StubFrame() {
  __ leave();
  __ ret(0);
}

#undef __


// Implementation of Runtime1

#define __ sasm->

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const int float_regs_as_doubles_size_in_slots = pd_nof_fpu_regs_frame_map * 2;
const int xmm_regs_as_doubles_size_in_slots = FrameMap::nof_xmm_regs * 2;
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// Stack layout for saving/restoring  all the registers needed during a runtime
// call (this includes deoptimization)
// Note: note that users of this frame may well have arguments to some runtime
// while these values are on the stack. These positions neglect those arguments
// but the code in save_live_registers will take the argument count into
// account.
//
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#ifdef _LP64
  #define SLOT2(x) x,
  #define SLOT_PER_WORD 2
#else
  #define SLOT2(x)
  #define SLOT_PER_WORD 1
#endif // _LP64

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enum reg_save_layout {
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  // 64bit needs to keep stack 16 byte aligned. So we add some alignment dummies to make that
  // happen and will assert if the stack size we create is misaligned
#ifdef _LP64
  align_dummy_0, align_dummy_1,
#endif // _LP64
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#ifdef _WIN64
  // Windows always allocates space for it's argument registers (see
  // frame::arg_reg_save_area_bytes).
  arg_reg_save_1, arg_reg_save_1H,                                                          // 0, 4
  arg_reg_save_2, arg_reg_save_2H,                                                          // 8, 12
  arg_reg_save_3, arg_reg_save_3H,                                                          // 16, 20
  arg_reg_save_4, arg_reg_save_4H,                                                          // 24, 28
#endif // _WIN64
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  xmm_regs_as_doubles_off,                                                                  // 32
  float_regs_as_doubles_off = xmm_regs_as_doubles_off + xmm_regs_as_doubles_size_in_slots,  // 160
  fpu_state_off = float_regs_as_doubles_off + float_regs_as_doubles_size_in_slots,          // 224
  // fpu_state_end_off is exclusive
  fpu_state_end_off = fpu_state_off + (FPUStateSizeInWords / SLOT_PER_WORD),                // 352
  marker = fpu_state_end_off, SLOT2(markerH)                                                // 352, 356
  extra_space_offset,                                                                       // 360
#ifdef _LP64
  r15_off = extra_space_offset, r15H_off,                                                   // 360, 364
  r14_off, r14H_off,                                                                        // 368, 372
  r13_off, r13H_off,                                                                        // 376, 380
  r12_off, r12H_off,                                                                        // 384, 388
  r11_off, r11H_off,                                                                        // 392, 396
  r10_off, r10H_off,                                                                        // 400, 404
  r9_off, r9H_off,                                                                          // 408, 412
  r8_off, r8H_off,                                                                          // 416, 420
  rdi_off, rdiH_off,                                                                        // 424, 428
#else
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  rdi_off = extra_space_offset,
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#endif // _LP64
  rsi_off, SLOT2(rsiH_off)                                                                  // 432, 436
  rbp_off, SLOT2(rbpH_off)                                                                  // 440, 444
  rsp_off, SLOT2(rspH_off)                                                                  // 448, 452
  rbx_off, SLOT2(rbxH_off)                                                                  // 456, 460
  rdx_off, SLOT2(rdxH_off)                                                                  // 464, 468
  rcx_off, SLOT2(rcxH_off)                                                                  // 472, 476
  rax_off, SLOT2(raxH_off)                                                                  // 480, 484
  saved_rbp_off, SLOT2(saved_rbpH_off)                                                      // 488, 492
  return_off, SLOT2(returnH_off)                                                            // 496, 500
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  reg_save_frame_size   // As noted: neglects any parameters to runtime                     // 504
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};



// Save off registers which might be killed by calls into the runtime.
// Tries to smart of about FP registers.  In particular we separate
// saving and describing the FPU registers for deoptimization since we
// have to save the FPU registers twice if we describe them and on P4
// saving FPU registers which don't contain anything appears
// expensive.  The deopt blob is the only thing which needs to
// describe FPU registers.  In all other cases it should be sufficient
// to simply save their current value.

static OopMap* generate_oop_map(StubAssembler* sasm, int num_rt_args,
                                bool save_fpu_registers = true) {
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  // In 64bit all the args are in regs so there are no additional stack slots
  LP64_ONLY(num_rt_args = 0);
  LP64_ONLY(assert((reg_save_frame_size * VMRegImpl::stack_slot_size) % 16 == 0, "must be 16 byte aligned");)
  int frame_size_in_slots = reg_save_frame_size + num_rt_args; // args + thread
  sasm->set_frame_size(frame_size_in_slots / VMRegImpl::slots_per_word );
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  // record saved value locations in an OopMap
  // locations are offsets from sp after runtime call; num_rt_args is number of arguments in call, including thread
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  OopMap* map = new OopMap(frame_size_in_slots, 0);
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  map->set_callee_saved(VMRegImpl::stack2reg(rax_off + num_rt_args), rax->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(rcx_off + num_rt_args), rcx->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(rdx_off + num_rt_args), rdx->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(rbx_off + num_rt_args), rbx->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(rsi_off + num_rt_args), rsi->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(rdi_off + num_rt_args), rdi->as_VMReg());
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#ifdef _LP64
  map->set_callee_saved(VMRegImpl::stack2reg(r8_off + num_rt_args),  r8->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(r9_off + num_rt_args),  r9->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(r10_off + num_rt_args), r10->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(r11_off + num_rt_args), r11->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(r12_off + num_rt_args), r12->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(r13_off + num_rt_args), r13->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(r14_off + num_rt_args), r14->as_VMReg());
  map->set_callee_saved(VMRegImpl::stack2reg(r15_off + num_rt_args), r15->as_VMReg());

  // This is stupid but needed.
  map->set_callee_saved(VMRegImpl::stack2reg(raxH_off + num_rt_args), rax->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(rcxH_off + num_rt_args), rcx->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(rdxH_off + num_rt_args), rdx->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(rbxH_off + num_rt_args), rbx->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(rsiH_off + num_rt_args), rsi->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(rdiH_off + num_rt_args), rdi->as_VMReg()->next());

  map->set_callee_saved(VMRegImpl::stack2reg(r8H_off + num_rt_args),  r8->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(r9H_off + num_rt_args),  r9->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(r10H_off + num_rt_args), r10->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(r11H_off + num_rt_args), r11->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(r12H_off + num_rt_args), r12->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(r13H_off + num_rt_args), r13->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(r14H_off + num_rt_args), r14->as_VMReg()->next());
  map->set_callee_saved(VMRegImpl::stack2reg(r15H_off + num_rt_args), r15->as_VMReg()->next());
#endif // _LP64
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  if (save_fpu_registers) {
    if (UseSSE < 2) {
      int fpu_off = float_regs_as_doubles_off;
      for (int n = 0; n < FrameMap::nof_fpu_regs; n++) {
        VMReg fpu_name_0 = FrameMap::fpu_regname(n);
        map->set_callee_saved(VMRegImpl::stack2reg(fpu_off +     num_rt_args), fpu_name_0);
        // %%% This is really a waste but we'll keep things as they were for now
        if (true) {
          map->set_callee_saved(VMRegImpl::stack2reg(fpu_off + 1 + num_rt_args), fpu_name_0->next());
        }
        fpu_off += 2;
      }
      assert(fpu_off == fpu_state_off, "incorrect number of fpu stack slots");
    }

    if (UseSSE >= 2) {
      int xmm_off = xmm_regs_as_doubles_off;
      for (int n = 0; n < FrameMap::nof_xmm_regs; n++) {
        VMReg xmm_name_0 = as_XMMRegister(n)->as_VMReg();
        map->set_callee_saved(VMRegImpl::stack2reg(xmm_off +     num_rt_args), xmm_name_0);
        // %%% This is really a waste but we'll keep things as they were for now
        if (true) {
          map->set_callee_saved(VMRegImpl::stack2reg(xmm_off + 1 + num_rt_args), xmm_name_0->next());
        }
        xmm_off += 2;
      }
      assert(xmm_off == float_regs_as_doubles_off, "incorrect number of xmm registers");

    } else if (UseSSE == 1) {
      int xmm_off = xmm_regs_as_doubles_off;
      for (int n = 0; n < FrameMap::nof_xmm_regs; n++) {
        VMReg xmm_name_0 = as_XMMRegister(n)->as_VMReg();
        map->set_callee_saved(VMRegImpl::stack2reg(xmm_off +     num_rt_args), xmm_name_0);
        xmm_off += 2;
      }
      assert(xmm_off == float_regs_as_doubles_off, "incorrect number of xmm registers");
    }
  }

  return map;
}

static OopMap* save_live_registers(StubAssembler* sasm, int num_rt_args,
                                   bool save_fpu_registers = true) {
  __ block_comment("save_live_registers");

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  __ pusha();         // integer registers
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  // assert(float_regs_as_doubles_off % 2 == 0, "misaligned offset");
  // assert(xmm_regs_as_doubles_off % 2 == 0, "misaligned offset");

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  __ subptr(rsp, extra_space_offset * VMRegImpl::stack_slot_size);
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#ifdef ASSERT
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  __ movptr(Address(rsp, marker * VMRegImpl::stack_slot_size), (int32_t)0xfeedbeef);
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#endif

  if (save_fpu_registers) {
    if (UseSSE < 2) {
      // save FPU stack
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      __ fnsave(Address(rsp, fpu_state_off * VMRegImpl::stack_slot_size));
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      __ fwait();

#ifdef ASSERT
      Label ok;
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      __ cmpw(Address(rsp, fpu_state_off * VMRegImpl::stack_slot_size), StubRoutines::fpu_cntrl_wrd_std());
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      __ jccb(Assembler::equal, ok);
      __ stop("corrupted control word detected");
      __ bind(ok);
#endif

      // Reset the control word to guard against exceptions being unmasked
      // since fstp_d can cause FPU stack underflow exceptions.  Write it
      // into the on stack copy and then reload that to make sure that the
      // current and future values are correct.
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      __ movw(Address(rsp, fpu_state_off * VMRegImpl::stack_slot_size), StubRoutines::fpu_cntrl_wrd_std());
      __ frstor(Address(rsp, fpu_state_off * VMRegImpl::stack_slot_size));
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      // Save the FPU registers in de-opt-able form
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      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size +  0));
      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size +  8));
      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size + 16));
      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size + 24));
      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size + 32));
      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size + 40));
      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size + 48));
      __ fstp_d(Address(rsp, float_regs_as_doubles_off * VMRegImpl::stack_slot_size + 56));
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    }

    if (UseSSE >= 2) {
      // save XMM registers
      // XMM registers can contain float or double values, but this is not known here,
      // so always save them as doubles.
      // note that float values are _not_ converted automatically, so for float values
      // the second word contains only garbage data.
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      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  0), xmm0);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  8), xmm1);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 16), xmm2);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 24), xmm3);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 32), xmm4);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 40), xmm5);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 48), xmm6);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 56), xmm7);
#ifdef _LP64
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 64), xmm8);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 72), xmm9);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 80), xmm10);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 88), xmm11);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 96), xmm12);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 104), xmm13);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 112), xmm14);
      __ movdbl(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 120), xmm15);
#endif // _LP64
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    } else if (UseSSE == 1) {
      // save XMM registers as float because double not supported without SSE2
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      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  0), xmm0);
      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  8), xmm1);
      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 16), xmm2);
      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 24), xmm3);
      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 32), xmm4);
      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 40), xmm5);
      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 48), xmm6);
      __ movflt(Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 56), xmm7);
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    }
  }

  // FPU stack must be empty now
  __ verify_FPU(0, "save_live_registers");

  return generate_oop_map(sasm, num_rt_args, save_fpu_registers);
}


static void restore_fpu(StubAssembler* sasm, bool restore_fpu_registers = true) {
  if (restore_fpu_registers) {
    if (UseSSE >= 2) {
      // restore XMM registers
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      __ movdbl(xmm0, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  0));
      __ movdbl(xmm1, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  8));
      __ movdbl(xmm2, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 16));
      __ movdbl(xmm3, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 24));
      __ movdbl(xmm4, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 32));
      __ movdbl(xmm5, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 40));
      __ movdbl(xmm6, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 48));
      __ movdbl(xmm7, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 56));
#ifdef _LP64
      __ movdbl(xmm8, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 64));
      __ movdbl(xmm9, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 72));
      __ movdbl(xmm10, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 80));
      __ movdbl(xmm11, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 88));
      __ movdbl(xmm12, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 96));
      __ movdbl(xmm13, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 104));
      __ movdbl(xmm14, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 112));
      __ movdbl(xmm15, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 120));
#endif // _LP64
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    } else if (UseSSE == 1) {
      // restore XMM registers
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      __ movflt(xmm0, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  0));
      __ movflt(xmm1, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size +  8));
      __ movflt(xmm2, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 16));
      __ movflt(xmm3, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 24));
      __ movflt(xmm4, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 32));
      __ movflt(xmm5, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 40));
      __ movflt(xmm6, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 48));
      __ movflt(xmm7, Address(rsp, xmm_regs_as_doubles_off * VMRegImpl::stack_slot_size + 56));
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    }

    if (UseSSE < 2) {
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      __ frstor(Address(rsp, fpu_state_off * VMRegImpl::stack_slot_size));
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    } else {
      // check that FPU stack is really empty
      __ verify_FPU(0, "restore_live_registers");
    }

  } else {
    // check that FPU stack is really empty
    __ verify_FPU(0, "restore_live_registers");
  }

#ifdef ASSERT
  {
    Label ok;
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    __ cmpptr(Address(rsp, marker * VMRegImpl::stack_slot_size), (int32_t)0xfeedbeef);
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    __ jcc(Assembler::equal, ok);
    __ stop("bad offsets in frame");
    __ bind(ok);
  }
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#endif // ASSERT
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  __ addptr(rsp, extra_space_offset * VMRegImpl::stack_slot_size);
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}


static void restore_live_registers(StubAssembler* sasm, bool restore_fpu_registers = true) {
  __ block_comment("restore_live_registers");

  restore_fpu(sasm, restore_fpu_registers);
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  __ popa();
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}


static void restore_live_registers_except_rax(StubAssembler* sasm, bool restore_fpu_registers = true) {
  __ block_comment("restore_live_registers_except_rax");

  restore_fpu(sasm, restore_fpu_registers);

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#ifdef _LP64
  __ movptr(r15, Address(rsp, 0));
  __ movptr(r14, Address(rsp, wordSize));
  __ movptr(r13, Address(rsp, 2 * wordSize));
  __ movptr(r12, Address(rsp, 3 * wordSize));
  __ movptr(r11, Address(rsp, 4 * wordSize));
  __ movptr(r10, Address(rsp, 5 * wordSize));
  __ movptr(r9,  Address(rsp, 6 * wordSize));
  __ movptr(r8,  Address(rsp, 7 * wordSize));
  __ movptr(rdi, Address(rsp, 8 * wordSize));
  __ movptr(rsi, Address(rsp, 9 * wordSize));
  __ movptr(rbp, Address(rsp, 10 * wordSize));
  // skip rsp
  __ movptr(rbx, Address(rsp, 12 * wordSize));
  __ movptr(rdx, Address(rsp, 13 * wordSize));
  __ movptr(rcx, Address(rsp, 14 * wordSize));

  __ addptr(rsp, 16 * wordSize);
#else

  __ pop(rdi);
  __ pop(rsi);
  __ pop(rbp);
  __ pop(rbx); // skip this value
  __ pop(rbx);
  __ pop(rdx);
  __ pop(rcx);
  __ addptr(rsp, BytesPerWord);
#endif // _LP64
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}


void Runtime1::initialize_pd() {
  // nothing to do
}


// target: the entry point of the method that creates and posts the exception oop
// has_argument: true if the exception needs an argument (passed on stack because registers must be preserved)

OopMapSet* Runtime1::generate_exception_throw(StubAssembler* sasm, address target, bool has_argument) {
  // preserve all registers
  int num_rt_args = has_argument ? 2 : 1;
  OopMap* oop_map = save_live_registers(sasm, num_rt_args);

  // now all registers are saved and can be used freely
  // verify that no old value is used accidentally
  __ invalidate_registers(true, true, true, true, true, true);

  // registers used by this stub
  const Register temp_reg = rbx;

  // load argument for exception that is passed as an argument into the stub
  if (has_argument) {
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#ifdef _LP64
    __ movptr(c_rarg1, Address(rbp, 2*BytesPerWord));
#else
    __ movptr(temp_reg, Address(rbp, 2*BytesPerWord));
    __ push(temp_reg);
#endif // _LP64
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  }
  int call_offset = __ call_RT(noreg, noreg, target, num_rt_args - 1);

  OopMapSet* oop_maps = new OopMapSet();
  oop_maps->add_gc_map(call_offset, oop_map);

  __ stop("should not reach here");

  return oop_maps;
}


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OopMapSet* Runtime1::generate_handle_exception(StubID id, StubAssembler *sasm) {
  __ block_comment("generate_handle_exception");

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  // incoming parameters
  const Register exception_oop = rax;
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  const Register exception_pc  = rdx;
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  // other registers used in this stub
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  const Register thread = NOT_LP64(rdi) LP64_ONLY(r15_thread);
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  // Save registers, if required.
  OopMapSet* oop_maps = new OopMapSet();
  OopMap* oop_map = NULL;
  switch (id) {
  case forward_exception_id:
    // We're handling an exception in the context of a compiled frame.
    // The registers have been saved in the standard places.  Perform
    // an exception lookup in the caller and dispatch to the handler
    // if found.  Otherwise unwind and dispatch to the callers
    // exception handler.
    oop_map = generate_oop_map(sasm, 1 /*thread*/);

    // load and clear pending exception oop into RAX
    __ movptr(exception_oop, Address(thread, Thread::pending_exception_offset()));
    __ movptr(Address(thread, Thread::pending_exception_offset()), NULL_WORD);

    // load issuing PC (the return address for this stub) into rdx
    __ movptr(exception_pc, Address(rbp, 1*BytesPerWord));

    // make sure that the vm_results are cleared (may be unnecessary)
    __ movptr(Address(thread, JavaThread::vm_result_offset()),   NULL_WORD);
    __ movptr(Address(thread, JavaThread::vm_result_2_offset()), NULL_WORD);
    break;
  case handle_exception_nofpu_id:
  case handle_exception_id:
    // At this point all registers MAY be live.
    oop_map = save_live_registers(sasm, 1 /*thread*/, id == handle_exception_nofpu_id);
    break;
  case handle_exception_from_callee_id: {
    // At this point all registers except exception oop (RAX) and
    // exception pc (RDX) are dead.
    const int frame_size = 2 /*BP, return address*/ NOT_LP64(+ 1 /*thread*/) WIN64_ONLY(+ frame::arg_reg_save_area_bytes / BytesPerWord);
    oop_map = new OopMap(frame_size * VMRegImpl::slots_per_word, 0);
    sasm->set_frame_size(frame_size);
    WIN64_ONLY(__ subq(rsp, frame::arg_reg_save_area_bytes));
    break;
  }
  default:  ShouldNotReachHere();
  }
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#ifdef TIERED
  // C2 can leave the fpu stack dirty
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  if (UseSSE < 2) {
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    __ empty_FPU_stack();
  }
#endif // TIERED

  // verify that only rax, and rdx is valid at this time
  __ invalidate_registers(false, true, true, false, true, true);
  // verify that rax, contains a valid exception
  __ verify_not_null_oop(exception_oop);

  // load address of JavaThread object for thread-local data
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  NOT_LP64(__ get_thread(thread);)
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#ifdef ASSERT
  // check that fields in JavaThread for exception oop and issuing pc are
  // empty before writing to them
  Label oop_empty;
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  __ cmpptr(Address(thread, JavaThread::exception_oop_offset()), (int32_t) NULL_WORD);
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  __ jcc(Assembler::equal, oop_empty);
  __ stop("exception oop already set");
  __ bind(oop_empty);

  Label pc_empty;
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  __ cmpptr(Address(thread, JavaThread::exception_pc_offset()), 0);
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  __ jcc(Assembler::equal, pc_empty);
  __ stop("exception pc already set");
  __ bind(pc_empty);
#endif

  // save exception oop and issuing pc into JavaThread
  // (exception handler will load it from here)
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  __ movptr(Address(thread, JavaThread::exception_oop_offset()), exception_oop);
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  __ movptr(Address(thread, JavaThread::exception_pc_offset()),  exception_pc);
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  // patch throwing pc into return address (has bci & oop map)
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  __ movptr(Address(rbp, 1*BytesPerWord), exception_pc);
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  // compute the exception handler.
  // the exception oop and the throwing pc are read from the fields in JavaThread
  int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, exception_handler_for_pc));
  oop_maps->add_gc_map(call_offset, oop_map);

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  // rax: handler address
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  //      will be the deopt blob if nmethod was deoptimized while we looked up
  //      handler regardless of whether handler existed in the nmethod.

  // only rax, is valid at this time, all other registers have been destroyed by the runtime call
  __ invalidate_registers(false, true, true, true, true, true);

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  // patch the return address, this stub will directly return to the exception handler
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  __ movptr(Address(rbp, 1*BytesPerWord), rax);
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  switch (id) {
  case forward_exception_id:
  case handle_exception_nofpu_id:
  case handle_exception_id:
    // Restore the registers that were saved at the beginning.
    restore_live_registers(sasm, id == handle_exception_nofpu_id);
    break;
  case handle_exception_from_callee_id:
    // WIN64_ONLY: No need to add frame::arg_reg_save_area_bytes to SP
    // since we do a leave anyway.

    // Pop the return address since we are possibly changing SP (restoring from BP).
    __ leave();
    __ pop(rcx);

    // Restore SP from BP if the exception PC is a method handle call site.
    NOT_LP64(__ get_thread(thread);)
    __ cmpl(Address(thread, JavaThread::is_method_handle_return_offset()), 0);
    __ cmovptr(Assembler::notEqual, rsp, rbp_mh_SP_save);
    __ jmp(rcx);  // jump to exception handler
    break;
  default:  ShouldNotReachHere();
  }
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  return oop_maps;
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}


void Runtime1::generate_unwind_exception(StubAssembler *sasm) {
  // incoming parameters
  const Register exception_oop = rax;
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  // callee-saved copy of exception_oop during runtime call
  const Register exception_oop_callee_saved = NOT_LP64(rsi) LP64_ONLY(r14);
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  // other registers used in this stub
  const Register exception_pc = rdx;
  const Register handler_addr = rbx;
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  const Register thread = NOT_LP64(rdi) LP64_ONLY(r15_thread);
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  // verify that only rax, is valid at this time
  __ invalidate_registers(false, true, true, true, true, true);

#ifdef ASSERT
  // check that fields in JavaThread for exception oop and issuing pc are empty
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  NOT_LP64(__ get_thread(thread);)
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  Label oop_empty;
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  __ cmpptr(Address(thread, JavaThread::exception_oop_offset()), 0);
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  __ jcc(Assembler::equal, oop_empty);
  __ stop("exception oop must be empty");
  __ bind(oop_empty);

  Label pc_empty;
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  __ cmpptr(Address(thread, JavaThread::exception_pc_offset()), 0);
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  __ jcc(Assembler::equal, pc_empty);
  __ stop("exception pc must be empty");
  __ bind(pc_empty);
#endif

  // clear the FPU stack in case any FPU results are left behind
  __ empty_FPU_stack();

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  // save exception_oop in callee-saved register to preserve it during runtime calls
  __ verify_not_null_oop(exception_oop);
  __ movptr(exception_oop_callee_saved, exception_oop);
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  NOT_LP64(__ get_thread(thread);)
  // Get return address (is on top of stack after leave).
  __ movptr(exception_pc, Address(rsp, 0));
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  // search the exception handler address of the caller (using the return address)
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  __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::exception_handler_for_return_address), thread, exception_pc);
  // rax: exception handler address of the caller
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  // Only RAX and RSI are valid at this time, all other registers have been destroyed by the call.
  __ invalidate_registers(false, true, true, true, false, true);
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  // move result of call into correct register
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  __ movptr(handler_addr, rax);
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  // Restore exception oop to RAX (required convention of exception handler).
  __ movptr(exception_oop, exception_oop_callee_saved);
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  // verify that there is really a valid exception in rax
  __ verify_not_null_oop(exception_oop);
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  // get throwing pc (= return address).
  // rdx has been destroyed by the call, so it must be set again
  // the pop is also necessary to simulate the effect of a ret(0)
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  __ pop(exception_pc);
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  // Restore SP from BP if the exception PC is a method handle call site.
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  NOT_LP64(__ get_thread(thread);)
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  __ cmpl(Address(thread, JavaThread::is_method_handle_return_offset()), 0);
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  __ cmovptr(Assembler::notEqual, rsp, rbp_mh_SP_save);
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  // continue at exception handler (return address removed)
  // note: do *not* remove arguments when unwinding the
  //       activation since the caller assumes having
  //       all arguments on the stack when entering the
  //       runtime to determine the exception handler
  //       (GC happens at call site with arguments!)
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  // rax: exception oop
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  // rdx: throwing pc
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  // rbx: exception handler
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  __ jmp(handler_addr);
}


OopMapSet* Runtime1::generate_patching(StubAssembler* sasm, address target) {
  // use the maximum number of runtime-arguments here because it is difficult to
  // distinguish each RT-Call.
  // Note: This number affects also the RT-Call in generate_handle_exception because
  //       the oop-map is shared for all calls.
  const int num_rt_args = 2;  // thread + dummy

  DeoptimizationBlob* deopt_blob = SharedRuntime::deopt_blob();
  assert(deopt_blob != NULL, "deoptimization blob must have been created");

  OopMap* oop_map = save_live_registers(sasm, num_rt_args);

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#ifdef _LP64
  const Register thread = r15_thread;
  // No need to worry about dummy
  __ mov(c_rarg0, thread);
#else
  __ push(rax); // push dummy
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  const Register thread = rdi; // is callee-saved register (Visual C++ calling conventions)
  // push java thread (becomes first argument of C function)
  __ get_thread(thread);
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  __ push(thread);
#endif // _LP64
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  __ set_last_Java_frame(thread, noreg, rbp, NULL);
  // do the call
  __ call(RuntimeAddress(target));
  OopMapSet* oop_maps = new OopMapSet();
  oop_maps->add_gc_map(__ offset(), oop_map);
  // verify callee-saved register
#ifdef ASSERT
  guarantee(thread != rax, "change this code");
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  __ push(rax);
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  { Label L;
    __ get_thread(rax);
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    __ cmpptr(thread, rax);
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    __ jcc(Assembler::equal, L);
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    __ stop("StubAssembler::call_RT: rdi/r15 not callee saved?");
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    __ bind(L);
  }
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  __ pop(rax);
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#endif
  __ reset_last_Java_frame(thread, true, false);
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#ifndef _LP64
  __ pop(rcx); // discard thread arg
  __ pop(rcx); // discard dummy
#endif // _LP64
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  // check for pending exceptions
  { Label L;
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    __ cmpptr(Address(thread, Thread::pending_exception_offset()), (int32_t)NULL_WORD);
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    __ jcc(Assembler::equal, L);
    // exception pending => remove activation and forward to exception handler

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    __ testptr(rax, rax);                                   // have we deoptimized?
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    __ jump_cc(Assembler::equal,
               RuntimeAddress(Runtime1::entry_for(Runtime1::forward_exception_id)));

    // the deopt blob expects exceptions in the special fields of
    // JavaThread, so copy and clear pending exception.

    // load and clear pending exception
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    __ movptr(rax, Address(thread, Thread::pending_exception_offset()));
916
    __ movptr(Address(thread, Thread::pending_exception_offset()), NULL_WORD);
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    // check that there is really a valid exception
    __ verify_not_null_oop(rax);

    // load throwing pc: this is the return address of the stub
922
    __ movptr(rdx, Address(rsp, return_off * VMRegImpl::stack_slot_size));
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#ifdef ASSERT
    // check that fields in JavaThread for exception oop and issuing pc are empty
    Label oop_empty;
927
    __ cmpptr(Address(thread, JavaThread::exception_oop_offset()), (int32_t)NULL_WORD);
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    __ jcc(Assembler::equal, oop_empty);
    __ stop("exception oop must be empty");
    __ bind(oop_empty);

    Label pc_empty;
933
    __ cmpptr(Address(thread, JavaThread::exception_pc_offset()), (int32_t)NULL_WORD);
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    __ jcc(Assembler::equal, pc_empty);
    __ stop("exception pc must be empty");
    __ bind(pc_empty);
#endif

    // store exception oop and throwing pc to JavaThread
940 941
    __ movptr(Address(thread, JavaThread::exception_oop_offset()), rax);
    __ movptr(Address(thread, JavaThread::exception_pc_offset()), rdx);
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    restore_live_registers(sasm);

    __ leave();
946
    __ addptr(rsp, BytesPerWord);  // remove return address from stack
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    // Forward the exception directly to deopt blob. We can blow no
    // registers and must leave throwing pc on the stack.  A patch may
    // have values live in registers so the entry point with the
    // exception in tls.
    __ jump(RuntimeAddress(deopt_blob->unpack_with_exception_in_tls()));

    __ bind(L);
  }


  // Runtime will return true if the nmethod has been deoptimized during
  // the patching process. In that case we must do a deopt reexecute instead.

  Label reexecuteEntry, cont;

963
  __ testptr(rax, rax);                                 // have we deoptimized?
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  __ jcc(Assembler::equal, cont);                       // no

  // Will reexecute. Proper return address is already on the stack we just restore
  // registers, pop all of our frame but the return address and jump to the deopt blob
  restore_live_registers(sasm);
  __ leave();
  __ jump(RuntimeAddress(deopt_blob->unpack_with_reexecution()));

  __ bind(cont);
  restore_live_registers(sasm);
  __ leave();
  __ ret(0);

  return oop_maps;
}


OopMapSet* Runtime1::generate_code_for(StubID id, StubAssembler* sasm) {

  // for better readability
  const bool must_gc_arguments = true;
  const bool dont_gc_arguments = false;

  // default value; overwritten for some optimized stubs that are called from methods that do not use the fpu
  bool save_fpu_registers = true;

  // stub code & info for the different stubs
  OopMapSet* oop_maps = NULL;
  switch (id) {
    case forward_exception_id:
      {
995 996 997
        oop_maps = generate_handle_exception(id, sasm);
        __ leave();
        __ ret(0);
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      }
      break;

    case new_instance_id:
    case fast_new_instance_id:
    case fast_new_instance_init_check_id:
      {
        Register klass = rdx; // Incoming
        Register obj   = rax; // Result

        if (id == new_instance_id) {
          __ set_info("new_instance", dont_gc_arguments);
        } else if (id == fast_new_instance_id) {
          __ set_info("fast new_instance", dont_gc_arguments);
        } else {
          assert(id == fast_new_instance_init_check_id, "bad StubID");
          __ set_info("fast new_instance init check", dont_gc_arguments);
        }

        if ((id == fast_new_instance_id || id == fast_new_instance_init_check_id) &&
            UseTLAB && FastTLABRefill) {
          Label slow_path;
          Register obj_size = rcx;
          Register t1       = rbx;
          Register t2       = rsi;
          assert_different_registers(klass, obj, obj_size, t1, t2);

1025 1026
          __ push(rdi);
          __ push(rbx);
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          if (id == fast_new_instance_init_check_id) {
            // make sure the klass is initialized
1030
            __ cmpb(Address(klass, InstanceKlass::init_state_offset()), InstanceKlass::fully_initialized);
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            __ jcc(Assembler::notEqual, slow_path);
          }

#ifdef ASSERT
          // assert object can be fast path allocated
          {
            Label ok, not_ok;
1038
            __ movl(obj_size, Address(klass, Klass::layout_helper_offset()));
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            __ cmpl(obj_size, 0);  // make sure it's an instance (LH > 0)
            __ jcc(Assembler::lessEqual, not_ok);
            __ testl(obj_size, Klass::_lh_instance_slow_path_bit);
            __ jcc(Assembler::zero, ok);
            __ bind(not_ok);
            __ stop("assert(can be fast path allocated)");
            __ should_not_reach_here();
            __ bind(ok);
          }
#endif // ASSERT

          // if we got here then the TLAB allocation failed, so try
          // refilling the TLAB or allocating directly from eden.
          Label retry_tlab, try_eden;
1053 1054
          const Register thread =
            __ tlab_refill(retry_tlab, try_eden, slow_path); // does not destroy rdx (klass), returns rdi
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          __ bind(retry_tlab);

1058
          // get the instance size (size is postive so movl is fine for 64bit)
1059
          __ movl(obj_size, Address(klass, Klass::layout_helper_offset()));
1060

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          __ tlab_allocate(obj, obj_size, 0, t1, t2, slow_path);
1062

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          __ initialize_object(obj, klass, obj_size, 0, t1, t2);
          __ verify_oop(obj);
1065 1066
          __ pop(rbx);
          __ pop(rdi);
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          __ ret(0);

          __ bind(try_eden);
1070
          // get the instance size (size is postive so movl is fine for 64bit)
1071
          __ movl(obj_size, Address(klass, Klass::layout_helper_offset()));
1072

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          __ eden_allocate(obj, obj_size, 0, t1, slow_path);
1074 1075
          __ incr_allocated_bytes(thread, obj_size, 0);

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          __ initialize_object(obj, klass, obj_size, 0, t1, t2);
          __ verify_oop(obj);
1078 1079
          __ pop(rbx);
          __ pop(rdi);
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          __ ret(0);

          __ bind(slow_path);
1083 1084
          __ pop(rbx);
          __ pop(rdi);
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        }

        __ enter();
        OopMap* map = save_live_registers(sasm, 2);
        int call_offset = __ call_RT(obj, noreg, CAST_FROM_FN_PTR(address, new_instance), klass);
        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, map);
        restore_live_registers_except_rax(sasm);
        __ verify_oop(obj);
        __ leave();
        __ ret(0);

        // rax,: new instance
      }

      break;

    case counter_overflow_id:
      {
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        Register bci = rax, method = rbx;
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        __ enter();
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        OopMap* map = save_live_registers(sasm, 3);
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        // Retrieve bci
        __ movl(bci, Address(rbp, 2*BytesPerWord));
1109
        // And a pointer to the Method*
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        __ movptr(method, Address(rbp, 3*BytesPerWord));
        int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, counter_overflow), bci, method);
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        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, map);
        restore_live_registers(sasm);
        __ leave();
        __ ret(0);
      }
      break;

    case new_type_array_id:
    case new_object_array_id:
      {
        Register length   = rbx; // Incoming
        Register klass    = rdx; // Incoming
        Register obj      = rax; // Result

        if (id == new_type_array_id) {
          __ set_info("new_type_array", dont_gc_arguments);
        } else {
          __ set_info("new_object_array", dont_gc_arguments);
        }

#ifdef ASSERT
        // assert object type is really an array of the proper kind
        {
          Label ok;
          Register t0 = obj;
1138
          __ movl(t0, Address(klass, Klass::layout_helper_offset()));
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          __ sarl(t0, Klass::_lh_array_tag_shift);
          int tag = ((id == new_type_array_id)
                     ? Klass::_lh_array_tag_type_value
                     : Klass::_lh_array_tag_obj_value);
          __ cmpl(t0, tag);
          __ jcc(Assembler::equal, ok);
          __ stop("assert(is an array klass)");
          __ should_not_reach_here();
          __ bind(ok);
        }
#endif // ASSERT

        if (UseTLAB && FastTLABRefill) {
          Register arr_size = rsi;
          Register t1       = rcx;  // must be rcx for use as shift count
          Register t2       = rdi;
          Label slow_path;
          assert_different_registers(length, klass, obj, arr_size, t1, t2);

          // check that array length is small enough for fast path.
          __ cmpl(length, C1_MacroAssembler::max_array_allocation_length);
          __ jcc(Assembler::above, slow_path);

          // if we got here then the TLAB allocation failed, so try
          // refilling the TLAB or allocating directly from eden.
          Label retry_tlab, try_eden;
1165 1166
          const Register thread =
            __ tlab_refill(retry_tlab, try_eden, slow_path); // preserves rbx & rdx, returns rdi
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          __ bind(retry_tlab);

          // get the allocation size: round_up(hdr + length << (layout_helper & 0x1F))
1171
          // since size is positive movl does right thing on 64bit
1172
          __ movl(t1, Address(klass, Klass::layout_helper_offset()));
1173
          // since size is postive movl does right thing on 64bit
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          __ movl(arr_size, length);
          assert(t1 == rcx, "fixed register usage");
1176 1177 1178 1179 1180 1181
          __ shlptr(arr_size /* by t1=rcx, mod 32 */);
          __ shrptr(t1, Klass::_lh_header_size_shift);
          __ andptr(t1, Klass::_lh_header_size_mask);
          __ addptr(arr_size, t1);
          __ addptr(arr_size, MinObjAlignmentInBytesMask); // align up
          __ andptr(arr_size, ~MinObjAlignmentInBytesMask);
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          __ tlab_allocate(obj, arr_size, 0, t1, t2, slow_path);  // preserves arr_size

          __ initialize_header(obj, klass, length, t1, t2);
1186
          __ movb(t1, Address(klass, in_bytes(Klass::layout_helper_offset()) + (Klass::_lh_header_size_shift / BitsPerByte)));
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          assert(Klass::_lh_header_size_shift % BitsPerByte == 0, "bytewise");
          assert(Klass::_lh_header_size_mask <= 0xFF, "bytewise");
1189 1190 1191
          __ andptr(t1, Klass::_lh_header_size_mask);
          __ subptr(arr_size, t1);  // body length
          __ addptr(t1, obj);       // body start
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          __ initialize_body(t1, arr_size, 0, t2);
          __ verify_oop(obj);
          __ ret(0);

          __ bind(try_eden);
          // get the allocation size: round_up(hdr + length << (layout_helper & 0x1F))
1198
          // since size is positive movl does right thing on 64bit
1199
          __ movl(t1, Address(klass, Klass::layout_helper_offset()));
1200
          // since size is postive movl does right thing on 64bit
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          __ movl(arr_size, length);
          assert(t1 == rcx, "fixed register usage");
1203 1204 1205 1206 1207 1208
          __ shlptr(arr_size /* by t1=rcx, mod 32 */);
          __ shrptr(t1, Klass::_lh_header_size_shift);
          __ andptr(t1, Klass::_lh_header_size_mask);
          __ addptr(arr_size, t1);
          __ addptr(arr_size, MinObjAlignmentInBytesMask); // align up
          __ andptr(arr_size, ~MinObjAlignmentInBytesMask);
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          __ eden_allocate(obj, arr_size, 0, t1, slow_path);  // preserves arr_size
1211
          __ incr_allocated_bytes(thread, arr_size, 0);
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          __ initialize_header(obj, klass, length, t1, t2);
1214
          __ movb(t1, Address(klass, in_bytes(Klass::layout_helper_offset()) + (Klass::_lh_header_size_shift / BitsPerByte)));
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          assert(Klass::_lh_header_size_shift % BitsPerByte == 0, "bytewise");
          assert(Klass::_lh_header_size_mask <= 0xFF, "bytewise");
1217 1218 1219
          __ andptr(t1, Klass::_lh_header_size_mask);
          __ subptr(arr_size, t1);  // body length
          __ addptr(t1, obj);       // body start
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          __ initialize_body(t1, arr_size, 0, t2);
          __ verify_oop(obj);
          __ ret(0);

          __ bind(slow_path);
        }

        __ enter();
        OopMap* map = save_live_registers(sasm, 3);
        int call_offset;
        if (id == new_type_array_id) {
          call_offset = __ call_RT(obj, noreg, CAST_FROM_FN_PTR(address, new_type_array), klass, length);
        } else {
          call_offset = __ call_RT(obj, noreg, CAST_FROM_FN_PTR(address, new_object_array), klass, length);
        }

        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, map);
        restore_live_registers_except_rax(sasm);

        __ verify_oop(obj);
        __ leave();
        __ ret(0);

        // rax,: new array
      }
      break;

    case new_multi_array_id:
      { StubFrame f(sasm, "new_multi_array", dont_gc_arguments);
        // rax,: klass
        // rbx,: rank
        // rcx: address of 1st dimension
        OopMap* map = save_live_registers(sasm, 4);
        int call_offset = __ call_RT(rax, noreg, CAST_FROM_FN_PTR(address, new_multi_array), rax, rbx, rcx);

        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, map);
        restore_live_registers_except_rax(sasm);

        // rax,: new multi array
        __ verify_oop(rax);
      }
      break;

    case register_finalizer_id:
      {
        __ set_info("register_finalizer", dont_gc_arguments);

1269 1270 1271 1272 1273 1274 1275
        // This is called via call_runtime so the arguments
        // will be place in C abi locations

#ifdef _LP64
        __ verify_oop(c_rarg0);
        __ mov(rax, c_rarg0);
#else
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        // The object is passed on the stack and we haven't pushed a
        // frame yet so it's one work away from top of stack.
1278
        __ movptr(rax, Address(rsp, 1 * BytesPerWord));
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        __ verify_oop(rax);
1280
#endif // _LP64
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        // load the klass and check the has finalizer flag
        Label register_finalizer;
        Register t = rsi;
1285
        __ load_klass(t, rax);
1286
        __ movl(t, Address(t, Klass::access_flags_offset()));
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        __ testl(t, JVM_ACC_HAS_FINALIZER);
        __ jcc(Assembler::notZero, register_finalizer);
        __ ret(0);

        __ bind(register_finalizer);
        __ enter();
        OopMap* oop_map = save_live_registers(sasm, 2 /*num_rt_args */);
1294
        int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, SharedRuntime::register_finalizer), rax);
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        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, oop_map);

        // Now restore all the live registers
        restore_live_registers(sasm);

        __ leave();
        __ ret(0);
      }
      break;

    case throw_range_check_failed_id:
      { StubFrame f(sasm, "range_check_failed", dont_gc_arguments);
        oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_range_check_exception), true);
      }
      break;

    case throw_index_exception_id:
      { StubFrame f(sasm, "index_range_check_failed", dont_gc_arguments);
        oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_index_exception), true);
      }
      break;

    case throw_div0_exception_id:
      { StubFrame f(sasm, "throw_div0_exception", dont_gc_arguments);
        oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_div0_exception), false);
      }
      break;

    case throw_null_pointer_exception_id:
      { StubFrame f(sasm, "throw_null_pointer_exception", dont_gc_arguments);
        oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_null_pointer_exception), false);
      }
      break;

    case handle_exception_nofpu_id:
    case handle_exception_id:
      { StubFrame f(sasm, "handle_exception", dont_gc_arguments);
1333 1334 1335 1336 1337 1338 1339
        oop_maps = generate_handle_exception(id, sasm);
      }
      break;

    case handle_exception_from_callee_id:
      { StubFrame f(sasm, "handle_exception_from_callee", dont_gc_arguments);
        oop_maps = generate_handle_exception(id, sasm);
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      }
      break;

    case unwind_exception_id:
      { __ set_info("unwind_exception", dont_gc_arguments);
        // note: no stubframe since we are about to leave the current
        //       activation and we are calling a leaf VM function only.
        generate_unwind_exception(sasm);
      }
      break;

    case throw_array_store_exception_id:
      { StubFrame f(sasm, "throw_array_store_exception", dont_gc_arguments);
        // tos + 0: link
        //     + 1: return address
1355
        oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_array_store_exception), true);
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      }
      break;

    case throw_class_cast_exception_id:
      { StubFrame f(sasm, "throw_class_cast_exception", dont_gc_arguments);
        oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_class_cast_exception), true);
      }
      break;

    case throw_incompatible_class_change_error_id:
      { StubFrame f(sasm, "throw_incompatible_class_cast_exception", dont_gc_arguments);
        oop_maps = generate_exception_throw(sasm, CAST_FROM_FN_PTR(address, throw_incompatible_class_change_error), false);
      }
      break;

    case slow_subtype_check_id:
      {
1373 1374 1375 1376 1377 1378 1379
        // Typical calling sequence:
        // __ push(klass_RInfo);  // object klass or other subclass
        // __ push(sup_k_RInfo);  // array element klass or other superclass
        // __ call(slow_subtype_check);
        // Note that the subclass is pushed first, and is therefore deepest.
        // Previous versions of this code reversed the names 'sub' and 'super'.
        // This was operationally harmless but made the code unreadable.
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        enum layout {
1381 1382 1383 1384 1385 1386
          rax_off, SLOT2(raxH_off)
          rcx_off, SLOT2(rcxH_off)
          rsi_off, SLOT2(rsiH_off)
          rdi_off, SLOT2(rdiH_off)
          // saved_rbp_off, SLOT2(saved_rbpH_off)
          return_off, SLOT2(returnH_off)
1387 1388 1389 1390
          sup_k_off, SLOT2(sup_kH_off)
          klass_off, SLOT2(superH_off)
          framesize,
          result_off = klass_off  // deepest argument is also the return value
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        };

        __ set_info("slow_subtype_check", dont_gc_arguments);
1394 1395 1396 1397 1398 1399
        __ push(rdi);
        __ push(rsi);
        __ push(rcx);
        __ push(rax);

        // This is called by pushing args and not with C abi
1400 1401
        __ movptr(rsi, Address(rsp, (klass_off) * VMRegImpl::stack_slot_size)); // subclass
        __ movptr(rax, Address(rsp, (sup_k_off) * VMRegImpl::stack_slot_size)); // superclass
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        Label miss;
1404 1405 1406 1407
        __ check_klass_subtype_slow_path(rsi, rax, rcx, rdi, NULL, &miss);

        // fallthrough on success:
        __ movptr(Address(rsp, (result_off) * VMRegImpl::stack_slot_size), 1); // result
1408 1409 1410 1411
        __ pop(rax);
        __ pop(rcx);
        __ pop(rsi);
        __ pop(rdi);
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        __ ret(0);

        __ bind(miss);
1415
        __ movptr(Address(rsp, (result_off) * VMRegImpl::stack_slot_size), NULL_WORD); // result
1416 1417 1418 1419
        __ pop(rax);
        __ pop(rcx);
        __ pop(rsi);
        __ pop(rdi);
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        __ ret(0);
      }
      break;

    case monitorenter_nofpu_id:
      save_fpu_registers = false;
      // fall through
    case monitorenter_id:
      {
        StubFrame f(sasm, "monitorenter", dont_gc_arguments);
        OopMap* map = save_live_registers(sasm, 3, save_fpu_registers);

1432 1433
        // Called with store_parameter and not C abi

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        f.load_argument(1, rax); // rax,: object
        f.load_argument(0, rbx); // rbx,: lock address

        int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, monitorenter), rax, rbx);

        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, map);
        restore_live_registers(sasm, save_fpu_registers);
      }
      break;

    case monitorexit_nofpu_id:
      save_fpu_registers = false;
      // fall through
    case monitorexit_id:
      {
        StubFrame f(sasm, "monitorexit", dont_gc_arguments);
        OopMap* map = save_live_registers(sasm, 2, save_fpu_registers);

1453 1454
        // Called with store_parameter and not C abi

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        f.load_argument(0, rax); // rax,: lock address

        // note: really a leaf routine but must setup last java sp
        //       => use call_RT for now (speed can be improved by
        //       doing last java sp setup manually)
        int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, monitorexit), rax);

        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, map);
        restore_live_registers(sasm, save_fpu_registers);
1465 1466
      }
      break;
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1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480
    case deoptimize_id:
      {
        StubFrame f(sasm, "deoptimize", dont_gc_arguments);
        const int num_rt_args = 1;  // thread
        OopMap* oop_map = save_live_registers(sasm, num_rt_args);
        int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, deoptimize));
        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, oop_map);
        restore_live_registers(sasm);
        DeoptimizationBlob* deopt_blob = SharedRuntime::deopt_blob();
        assert(deopt_blob != NULL, "deoptimization blob must have been created");
        __ leave();
        __ jump(RuntimeAddress(deopt_blob->unpack_with_reexecution()));
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      }
      break;

    case access_field_patching_id:
      { StubFrame f(sasm, "access_field_patching", dont_gc_arguments);
        // we should set up register map
        oop_maps = generate_patching(sasm, CAST_FROM_FN_PTR(address, access_field_patching));
      }
      break;

    case load_klass_patching_id:
      { StubFrame f(sasm, "load_klass_patching", dont_gc_arguments);
        // we should set up register map
        oop_maps = generate_patching(sasm, CAST_FROM_FN_PTR(address, move_klass_patching));
      }
      break;

1498 1499 1500 1501 1502 1503 1504
    case load_mirror_patching_id:
      { StubFrame f(sasm, "load_mirror_patching", dont_gc_arguments);
        // we should set up register map
        oop_maps = generate_patching(sasm, CAST_FROM_FN_PTR(address, move_mirror_patching));
      }
      break;

1505 1506 1507 1508 1509 1510 1511
    case load_appendix_patching_id:
      { StubFrame f(sasm, "load_appendix_patching", dont_gc_arguments);
        // we should set up register map
        oop_maps = generate_patching(sasm, CAST_FROM_FN_PTR(address, move_appendix_patching));
      }
      break;

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    case dtrace_object_alloc_id:
      { // rax,: object
        StubFrame f(sasm, "dtrace_object_alloc", dont_gc_arguments);
        // we can't gc here so skip the oopmap but make sure that all
        // the live registers get saved.
        save_live_registers(sasm, 1);

1519
        __ NOT_LP64(push(rax)) LP64_ONLY(mov(c_rarg0, rax));
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        __ call(RuntimeAddress(CAST_FROM_FN_PTR(address, SharedRuntime::dtrace_object_alloc)));
1521
        NOT_LP64(__ pop(rax));
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        restore_live_registers(sasm);
      }
      break;

    case fpu2long_stub_id:
      {
        // rax, and rdx are destroyed, but should be free since the result is returned there
        // preserve rsi,ecx
1531 1532 1533
        __ push(rsi);
        __ push(rcx);
        LP64_ONLY(__ push(rdx);)
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        // check for NaN
        Label return0, do_return, return_min_jlong, do_convert;

1538 1539 1540 1541
        Address value_high_word(rsp, wordSize + 4);
        Address value_low_word(rsp, wordSize);
        Address result_high_word(rsp, 3*wordSize + 4);
        Address result_low_word(rsp, 3*wordSize);
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        __ subptr(rsp, 32);                    // more than enough on 32bit
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        __ fst_d(value_low_word);
        __ movl(rax, value_high_word);
        __ andl(rax, 0x7ff00000);
        __ cmpl(rax, 0x7ff00000);
        __ jcc(Assembler::notEqual, do_convert);
        __ movl(rax, value_high_word);
        __ andl(rax, 0xfffff);
        __ orl(rax, value_low_word);
        __ jcc(Assembler::notZero, return0);

        __ bind(do_convert);
        __ fnstcw(Address(rsp, 0));
1556
        __ movzwl(rax, Address(rsp, 0));
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        __ orl(rax, 0xc00);
        __ movw(Address(rsp, 2), rax);
        __ fldcw(Address(rsp, 2));
        __ fwait();
        __ fistp_d(result_low_word);
        __ fldcw(Address(rsp, 0));
        __ fwait();
1564 1565 1566
        // This gets the entire long in rax on 64bit
        __ movptr(rax, result_low_word);
        // testing of high bits
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        __ movl(rdx, result_high_word);
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        __ mov(rcx, rax);
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        // What the heck is the point of the next instruction???
        __ xorl(rcx, 0x0);
        __ movl(rsi, 0x80000000);
        __ xorl(rsi, rdx);
        __ orl(rcx, rsi);
        __ jcc(Assembler::notEqual, do_return);
        __ fldz();
        __ fcomp_d(value_low_word);
        __ fnstsw_ax();
1578 1579 1580 1581
#ifdef _LP64
        __ testl(rax, 0x4100);  // ZF & CF == 0
        __ jcc(Assembler::equal, return_min_jlong);
#else
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        __ sahf();
        __ jcc(Assembler::above, return_min_jlong);
1584
#endif // _LP64
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        // return max_jlong
1586
#ifndef _LP64
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        __ movl(rdx, 0x7fffffff);
        __ movl(rax, 0xffffffff);
1589 1590 1591
#else
        __ mov64(rax, CONST64(0x7fffffffffffffff));
#endif // _LP64
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        __ jmp(do_return);

        __ bind(return_min_jlong);
1595
#ifndef _LP64
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        __ movl(rdx, 0x80000000);
        __ xorl(rax, rax);
1598 1599 1600
#else
        __ mov64(rax, CONST64(0x8000000000000000));
#endif // _LP64
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        __ jmp(do_return);

        __ bind(return0);
        __ fpop();
1605 1606 1607 1608 1609 1610
#ifndef _LP64
        __ xorptr(rdx,rdx);
        __ xorptr(rax,rax);
#else
        __ xorptr(rax, rax);
#endif // _LP64
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        __ bind(do_return);
1613 1614 1615 1616
        __ addptr(rsp, 32);
        LP64_ONLY(__ pop(rdx);)
        __ pop(rcx);
        __ pop(rsi);
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        __ ret(0);
      }
      break;

1621
#if INCLUDE_ALL_GCS
1622 1623 1624 1625 1626 1627 1628
    case g1_pre_barrier_slow_id:
      {
        StubFrame f(sasm, "g1_pre_barrier", dont_gc_arguments);
        // arg0 : previous value of memory

        BarrierSet* bs = Universe::heap()->barrier_set();
        if (bs->kind() != BarrierSet::G1SATBCTLogging) {
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          __ movptr(rax, (int)id);
1630 1631 1632 1633
          __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, unimplemented_entry), rax);
          __ should_not_reach_here();
          break;
        }
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        __ push(rax);
        __ push(rdx);
1636 1637

        const Register pre_val = rax;
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        const Register thread = NOT_LP64(rax) LP64_ONLY(r15_thread);
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        const Register tmp = rdx;

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        NOT_LP64(__ get_thread(thread);)
1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656

        Address in_progress(thread, in_bytes(JavaThread::satb_mark_queue_offset() +
                                             PtrQueue::byte_offset_of_active()));

        Address queue_index(thread, in_bytes(JavaThread::satb_mark_queue_offset() +
                                             PtrQueue::byte_offset_of_index()));
        Address buffer(thread, in_bytes(JavaThread::satb_mark_queue_offset() +
                                        PtrQueue::byte_offset_of_buf()));


        Label done;
        Label runtime;

        // Can we store original value in the thread's buffer?

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#ifdef _LP64
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        __ movslq(tmp, queue_index);
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        __ cmpq(tmp, 0);
#else
1661
        __ cmpl(queue_index, 0);
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#endif
1663
        __ jcc(Assembler::equal, runtime);
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#ifdef _LP64
        __ subq(tmp, wordSize);
        __ movl(queue_index, tmp);
        __ addq(tmp, buffer);
#else
1669 1670 1671
        __ subl(queue_index, wordSize);
        __ movl(tmp, buffer);
        __ addl(tmp, queue_index);
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#endif

1674 1675
        // prev_val (rax)
        f.load_argument(0, pre_val);
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        __ movptr(Address(tmp, 0), pre_val);
1677 1678 1679
        __ jmp(done);

        __ bind(runtime);
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        __ push(rcx);
1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691
#ifdef _LP64
        __ push(r8);
        __ push(r9);
        __ push(r10);
        __ push(r11);
#  ifndef _WIN64
        __ push(rdi);
        __ push(rsi);
#  endif
#endif
        // load the pre-value
1692 1693
        f.load_argument(0, rcx);
        __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::g1_wb_pre), rcx, thread);
1694 1695 1696 1697 1698 1699 1700 1701 1702 1703
#ifdef _LP64
#  ifndef _WIN64
        __ pop(rsi);
        __ pop(rdi);
#  endif
        __ pop(r11);
        __ pop(r10);
        __ pop(r9);
        __ pop(r8);
#endif
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        __ pop(rcx);
1705
        __ bind(done);
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        __ pop(rdx);
        __ pop(rax);
1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721
      }
      break;

    case g1_post_barrier_slow_id:
      {
        StubFrame f(sasm, "g1_post_barrier", dont_gc_arguments);


        // arg0: store_address
        Address store_addr(rbp, 2*BytesPerWord);

        BarrierSet* bs = Universe::heap()->barrier_set();
        CardTableModRefBS* ct = (CardTableModRefBS*)bs;
1722 1723
        assert(sizeof(*ct->byte_map_base) == sizeof(jbyte), "adjust this code");

1724 1725 1726
        Label done;
        Label runtime;

1727
        // At this point we know new_value is non-NULL and the new_value crosses regions.
1728 1729
        // Must check to see if card is already dirty

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        const Register thread = NOT_LP64(rax) LP64_ONLY(r15_thread);
1731 1732 1733 1734 1735 1736

        Address queue_index(thread, in_bytes(JavaThread::dirty_card_queue_offset() +
                                             PtrQueue::byte_offset_of_index()));
        Address buffer(thread, in_bytes(JavaThread::dirty_card_queue_offset() +
                                        PtrQueue::byte_offset_of_buf()));

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        __ push(rax);
1738
        __ push(rcx);
1739

1740
        const Register cardtable = rax;
1741
        const Register card_addr = rcx;
1742

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        f.load_argument(0, card_addr);
1744 1745 1746 1747 1748
        __ shrptr(card_addr, CardTableModRefBS::card_shift);
        // Do not use ExternalAddress to load 'byte_map_base', since 'byte_map_base' is NOT
        // a valid address and therefore is not properly handled by the relocation code.
        __ movptr(cardtable, (intptr_t)ct->byte_map_base);
        __ addptr(card_addr, cardtable);
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1750
        NOT_LP64(__ get_thread(thread);)
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1752 1753 1754 1755 1756
        __ cmpb(Address(card_addr, 0), (int)G1SATBCardTableModRefBS::g1_young_card_val());
        __ jcc(Assembler::equal, done);

        __ membar(Assembler::Membar_mask_bits(Assembler::StoreLoad));
        __ cmpb(Address(card_addr, 0), (int)CardTableModRefBS::dirty_card_val());
1757 1758 1759 1760 1761
        __ jcc(Assembler::equal, done);

        // storing region crossing non-NULL, card is clean.
        // dirty card and log.

1762
        __ movb(Address(card_addr, 0), (int)CardTableModRefBS::dirty_card_val());
1763 1764 1765 1766 1767 1768

        __ cmpl(queue_index, 0);
        __ jcc(Assembler::equal, runtime);
        __ subl(queue_index, wordSize);

        const Register buffer_addr = rbx;
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        __ push(rbx);

        __ movptr(buffer_addr, buffer);

#ifdef _LP64
        __ movslq(rscratch1, queue_index);
        __ addptr(buffer_addr, rscratch1);
#else
        __ addptr(buffer_addr, queue_index);
#endif
        __ movptr(Address(buffer_addr, 0), card_addr);
1780

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        __ pop(rbx);
1782 1783 1784
        __ jmp(done);

        __ bind(runtime);
1785 1786 1787 1788 1789 1790 1791 1792 1793 1794 1795
        __ push(rdx);
#ifdef _LP64
        __ push(r8);
        __ push(r9);
        __ push(r10);
        __ push(r11);
#  ifndef _WIN64
        __ push(rdi);
        __ push(rsi);
#  endif
#endif
1796
        __ call_VM_leaf(CAST_FROM_FN_PTR(address, SharedRuntime::g1_wb_post), card_addr, thread);
1797 1798 1799 1800 1801 1802 1803 1804 1805 1806
#ifdef _LP64
#  ifndef _WIN64
        __ pop(rsi);
        __ pop(rdi);
#  endif
        __ pop(r11);
        __ pop(r10);
        __ pop(r9);
        __ pop(r8);
#endif
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        __ pop(rdx);
1808 1809 1810
        __ bind(done);

        __ pop(rcx);
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        __ pop(rax);
1812 1813 1814

      }
      break;
1815
#endif // INCLUDE_ALL_GCS
1816

1817 1818 1819 1820 1821 1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834
    case predicate_failed_trap_id:
      {
        StubFrame f(sasm, "predicate_failed_trap", dont_gc_arguments);

        OopMap* map = save_live_registers(sasm, 1);

        int call_offset = __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, predicate_failed_trap));
        oop_maps = new OopMapSet();
        oop_maps->add_gc_map(call_offset, map);
        restore_live_registers(sasm);
        __ leave();
        DeoptimizationBlob* deopt_blob = SharedRuntime::deopt_blob();
        assert(deopt_blob != NULL, "deoptimization blob must have been created");

        __ jump(RuntimeAddress(deopt_blob->unpack_with_reexecution()));
      }
      break;

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    default:
      { StubFrame f(sasm, "unimplemented entry", dont_gc_arguments);
1837
        __ movptr(rax, (int)id);
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        __ call_RT(noreg, noreg, CAST_FROM_FN_PTR(address, unimplemented_entry), rax);
        __ should_not_reach_here();
      }
      break;
  }
  return oop_maps;
}

#undef __
1847 1848 1849 1850

const char *Runtime1::pd_name_for_address(address entry) {
  return "<unknown function>";
}